Datasets:

kimsan0622
/

code-knowledge-eval

Dataset card Viewer Files Files and versions Community

Split (3)

train · 22.8k rows

content stringlengths 4 1.04M	lang stringclasses 358 values	score int64 0 5	repo_name stringlengths 5 114	repo_path stringlengths 4 229	repo_licenses sequencelengths 1 8
0 reg32_t "dword" 1 code_t "proc" 2 num32_t "int" 3 uint32_t "size_t" 4 ptr(struct(0:num32_t,4:ptr(num8_t),8:ptr(num8_t),12:ptr(num8_t),16:ptr(num8_t),20:ptr(num8_t),24:ptr(num8_t),28:ptr(num8_t),32:ptr(num8_t),36:ptr(num8_t),40:ptr(num8_t),44:ptr(num8_t),48:ptr(struct(0:ptr(TOP),4:ptr(struct(0:num32_t,4:ptr(reg8_t),8:ptr(reg8_t),12:ptr(reg8_t),16:ptr(reg8_t),20:ptr(reg8_t),24:ptr(reg8_t),28:ptr(reg8_t),32:ptr(reg8_t),36:ptr(reg8_t),40:ptr(reg8_t),44:ptr(reg8_t),48:ptr(TOP),52:ptr(TOP),56:num32_t,60:num32_t,64:num32_t,68:uint16_t,70:int8_t,71:array(num8_t,1),72:ptr(TOP),76:num64_t,84:ptr(TOP),88:ptr(TOP),92:ptr(TOP),96:ptr(TOP),100:uint32_t,104:num32_t,108:array(num8_t,40))),8:num32_t)),52:ptr(struct(0:num32_t,4:ptr(num8_t),8:ptr(num8_t),12:ptr(num8_t),16:ptr(num8_t),20:ptr(num8_t),24:ptr(num8_t),28:ptr(num8_t),32:ptr(num8_t),36:ptr(num8_t),40:ptr(num8_t),44:ptr(num8_t),48:ptr(struct(0:ptr(TOP),4:ptr(TOP),8:num32_t)),52:ptr(TOP),56:num32_t,60:num32_t,64:num32_t,68:uint16_t,70:int8_t,71:array(num8_t,1),72:ptr(TOP),76:num64_t,84:ptr(TOP),88:ptr(TOP),92:ptr(TOP),96:ptr(TOP),100:uint32_t,104:num32_t,108:array(num8_t,40))),56:num32_t,60:num32_t,64:num32_t,68:uint16_t,70:int8_t,71:array(num8_t,1),72:ptr(TOP),76:num64_t,84:ptr(TOP),88:ptr(TOP),92:ptr(TOP),96:ptr(TOP),100:uint32_t,104:num32_t,108:array(num8_t,40))) "FILE" 5 ptr(num8_t) "char" 6 ptr(TOP) "void" 3 uint32_t "unsigned int" 7 num8_t "char" 8 ptr(array(reg8_t,16)) "unknown_128" 9 ptr(array(reg8_t,56)) "unknown_448" 10 ptr(array(reg8_t,209)) "unknown_1672" 11 ptr(array(reg8_t,58)) "unknown_464" 5 ptr(num8_t) "char[]" 12 union(ptr(num8_t),ptr(struct(0:reg16_t,2:num8_t))) "Union_0" 13 ptr(struct(0:reg16_t,2:num8_t)) "StructFrag_0" 14 ptr(reg32_t) "dword" 15 ptr(struct(0:num32_t,4:ptr(struct(0:ptr(num8_t),8:ptr(num8_t))),4294967292:reg32_t)) "Struct_4" 16 ptr(struct(0:ptr(num8_t),8:ptr(num8_t))) "Struct_5" 17 ptr(reg16_t) "word" 18 ptr(struct(0:ptr(num8_t),4:num32_t,8:ptr(num32_t),12:num32_t)) "option" 19 ptr(struct(0:reg32_t,40:ptr(num8_t),44:ptr(num8_t))) "Struct_1" 20 ptr(struct(40:ptr(num8_t),44:ptr(num8_t))) "Struct_2" 21 ptr(uint32_t) "size_t" 22 array(reg8_t,3) "unknown_24" 23 ptr(struct(0:reg32_t,4:ptr(TOP))) "Struct_0" 24 reg64_t "qword" 25 array(reg8_t,32) "unknown_256" 14 ptr(reg32_t) "dword[]" 26 int32_t "signed int" 21 ptr(uint32_t) "unsigned int" 27 union(ptr(struct(0:reg32_t,40:ptr(num8_t),44:ptr(num8_t))),ptr(reg32_t)) "Union_1" 28 ptr(struct(0:reg32_t,4:reg32_t)) "StructFrag_3" 29 ptr(struct(0:array(reg8_t,40),40:num8_t)) "StructFrag_10" 30 ptr(num32_t) "int" 31 ptr(ptr(uint16_t)) "unsigned short*" 32 ptr(ptr(num8_t)) "char[]" 33 ptr(struct(0:array(reg8_t,16),16:uint32_t)) "StructFrag_9" 34 ptr(code_t) "proc" 35 ptr(uint16_t) "unsigned short" 36 ptr(struct(0:array(reg8_t,59362),59362:reg32_t)) "StructFrag_5" 37 ptr(struct(0:array(reg8_t,536870908),4294967292:reg32_t)) "StructFrag_6" 15 ptr(struct(0:num32_t,4:ptr(struct(0:ptr(num8_t),8:ptr(num8_t))),4294967292:reg32_t)) "Struct_6" 38 ptr(struct(0:array(reg8_t,31004),31004:reg32_t)) "StructFrag_7" 39 ptr(struct(0:array(reg8_t,520),520:reg32_t)) "StructFrag_8" 40 array(reg8_t,4096) "unknown_32768" 41 array(reg8_t,135168) "unknown_1081344" 42 array(reg8_t,30) "unknown_240" 43 array(reg8_t,5) "unknown_40" 44 array(reg8_t,25) "unknown_200" 45 array(reg8_t,16) "unknown_128" 46 array(reg8_t,41) "unknown_328" 47 array(reg8_t,7) "unknown_56" 48 array(reg8_t,51) "unknown_408" 49 array(reg8_t,13) "unknown_104" 50 array(reg8_t,27) "unknown_216" 51 array(reg8_t,142) "unknown_1136" 52 array(reg8_t,53) "unknown_424" 53 array(reg8_t,55) "unknown_440" 54 array(reg8_t,117) "unknown_936" 55 array(reg8_t,76) "unknown_608" 56 array(reg8_t,24) "unknown_192" 57 array(reg8_t,63) "unknown_504" 58 array(reg8_t,35) "unknown_280" 59 array(reg8_t,42) "unknown_336" 60 array(reg8_t,47) "unknown_376" 61 array(reg8_t,93) "unknown_744" 62 array(reg8_t,10) "unknown_80" 63 array(reg8_t,87) "unknown_696" 64 array(reg8_t,38) "unknown_304" 65 array(reg8_t,121) "unknown_968" 66 array(reg8_t,68) "unknown_544" 67 array(reg8_t,28) "unknown_224" 68 array(reg8_t,17) "unknown_136" 69 array(reg8_t,21) "unknown_168" 70 array(reg8_t,152) "unknown_1216" 71 array(reg8_t,11) "unknown_88" 72 array(reg8_t,209) "unknown_1672" 73 array(reg8_t,39) "unknown_312" 74 array(reg8_t,14) "unknown_112" 75 array(reg8_t,52) "unknown_416" 76 array(reg8_t,59) "unknown_472" 77 array(reg8_t,9) "unknown_72" 78 array(reg8_t,58) "unknown_464" 79 array(reg8_t,79) "unknown_632" 80 array(reg8_t,26) "unknown_208" 81 array(reg8_t,18) "unknown_144" 82 array(reg8_t,15) "unknown_120" 83 array(reg8_t,65) "unknown_520" 84 array(reg8_t,49) "unknown_392" 85 reg16_t "word" 86 array(reg8_t,33) "unknown_264" 87 array(reg8_t,75) "unknown_600" 88 array(reg8_t,83) "unknown_664" 89 array(reg8_t,46) "unknown_368" 90 array(reg8_t,20) "unknown_160" 91 array(reg8_t,40) "unknown_320" 92 array(reg8_t,95) "unknown_760" 93 array(reg8_t,34) "unknown_272" 94 array(reg8_t,31) "unknown_248" 95 array(reg8_t,92) "unknown_736" 96 array(reg8_t,23) "unknown_184" 97 array(reg8_t,19) "unknown_152" 98 array(reg8_t,91) "unknown_728" 99 array(reg8_t,36) "unknown_288" 100 array(reg8_t,48) "unknown_384" 101 array(reg8_t,126) "unknown_1008" 102 array(reg8_t,29) "unknown_232" 103 array(reg8_t,12) "unknown_96" 104 array(reg8_t,45) "unknown_360" 105 array(reg8_t,70) "unknown_560" 106 array(reg8_t,6) "unknown_48" 107 array(reg8_t,89) "unknown_712" 108 array(reg8_t,61) "unknown_488" 109 array(reg8_t,22) "unknown_176" 110 array(reg8_t,50) "unknown_400" 111 array(reg8_t,190) "unknown_1520" 112 array(reg8_t,173) "unknown_1384" 113 array(reg8_t,149) "unknown_1192" 114 array(reg8_t,146) "unknown_1168" 115 array(reg8_t,94) "unknown_752" 116 array(reg8_t,140) "unknown_1120" 117 array(reg8_t,57) "unknown_456" 118 array(reg8_t,37) "unknown_296" 119 array(reg8_t,62) "unknown_496" 120 array(reg8_t,129) "unknown_1032" 121 array(reg8_t,102) "unknown_816" 122 array(reg8_t,98) "unknown_784" 123 array(reg8_t,86) "unknown_688" 124 array(reg8_t,113) "unknown_904" 125 array(reg8_t,69) "unknown_552" 126 array(reg8_t,60) "unknown_480" 127 array(reg8_t,100) "unknown_800" 128 array(reg8_t,77) "unknown_616" 129 array(reg8_t,44) "unknown_352" 130 array(reg8_t,111) "unknown_888" 131 array(reg8_t,56) "unknown_448" 132 array(num8_t,23) "char[23]" 133 array(num8_t,39) "char[39]" 134 array(num8_t,14) "char[14]" 135 array(num8_t,4) "char[4]" 136 array(num8_t,69) "char[69]" 137 array(num8_t,65) "char[65]" 138 array(reg8_t,1024) "unknown_8192" 139 array(num8_t,2) "char[2]" 140 array(num8_t,3) "char[3]" 141 array(num8_t,18) "char[18]" 142 array(num8_t,10) "char[10]" 143 array(num8_t,7) "char[7]" 144 array(num8_t,12) "char[12]" 145 array(num8_t,6) "char[6]" 146 array(num8_t,40) "char[40]" 147 array(num8_t,51) "char[51]" 148 array(num8_t,45) "char[45]" 149 array(num8_t,54) "char[54]" 150 array(num8_t,90) "char[90]" 151 array(num8_t,13) "char[13]" 152 struct(0:ptr(num8_t),4:num32_t,8:ptr(num32_t),12:num32_t) "option" 153 array(num8_t,56) "char[56]" 154 array(num8_t,8) "char[8]" 155 array(reg32_t,127) "dword[127]" 156 array(reg32_t,30) "dword[30]" 157 array(reg32_t,34) "dword[34]" 158 array(num8_t,203) "char[203]" 159 array(num8_t,16) "char[16]" 160 array(num8_t,28) "char[28]" 161 array(num8_t,32) "char[32]" 162 array(num8_t,36) "char[36]" 163 array(num8_t,44) "char[44]" 164 array(num8_t,48) "char[48]" 165 array(num8_t,52) "char[52]" 166 array(num8_t,60) "char[60]" 167 array(num8_t,21) "char[21]" 168 array(num8_t,22) "char[22]" 169 array(num8_t,20) "char[20]" 170 array(num8_t,64) "char[64]" 171 array(num8_t,47) "char[47]" 172 array(num8_t,17) "char[17]" 173 array(num8_t,81) "char[81]" 174 array(reg8_t,780) "unknown_6240" 175 array(reg8_t,3364) "unknown_26912" 176 array(reg8_t,6732) "unknown_53856" 1 code_t "(void -?-> dword)" 177 array(reg8_t,232) "unknown_1856" 178 array(reg8_t,256) "unknown_2048"	BlitzBasic	1	matt-noonan/retypd-data	data/cksum.decls	[ "MIT" ]
(kicad_pcb (version 20171130) (host pcbnew 6.0.0-rc1-unknown-01c5bdf~65~ubuntu18.04.1) (general (thickness 1.6) (drawings 13) (tracks 2577) (zones 0) (modules 68) (nets 101) ) (page A4) (layers (0 F.Cu signal) (1 In1.Cu power) (2 In2.Cu signal) (31 B.Cu mixed) (33 F.Adhes user) (35 F.Paste user) (37 F.SilkS user) (38 B.Mask user) (39 F.Mask user) (40 Dwgs.User user) (41 Cmts.User user) (42 Eco1.User user) (43 Eco2.User user) (44 Edge.Cuts user) (45 Margin user) (47 F.CrtYd user) (49 F.Fab user) ) (setup (last_trace_width 0.4064) (user_trace_width 0.125) (user_trace_width 0.12954) (user_trace_width 0.2) (user_trace_width 0.4064) (user_trace_width 0.508) (user_trace_width 1.016) (user_trace_width 2) (trace_clearance 0.12) (zone_clearance 0.508) (zone_45_only no) (trace_min 0.12446) (segment_width 0.2) (edge_width 0.254) (via_size 0.6) (via_drill 0.4) (via_min_size 0.4) (via_min_drill 0.3) (uvia_size 0.3) (uvia_drill 0.1) (uvias_allowed no) (uvia_min_size 0) (uvia_min_drill 0) (pcb_text_width 0.3) (pcb_text_size 1.5 1.5) (mod_edge_width 0.15) (mod_text_size 1 1) (mod_text_width 0.15) (pad_size 0.4 1.2) (pad_drill 0) (pad_to_mask_clearance 0.2) (aux_axis_origin 55 102.5) (visible_elements FFFFFF7F) (pcbplotparams (layerselection 0x010e8_ffffffff) (usegerberextensions false) (usegerberattributes false) (usegerberadvancedattributes false) (creategerberjobfile false) (excludeedgelayer true) (linewidth 0.600000) (plotframeref false) (viasonmask false) (mode 1) (useauxorigin false) (hpglpennumber 1) (hpglpenspeed 20) (hpglpendiameter 15.000000) (psnegative false) (psa4output false) (plotreference true) (plotvalue false) (plotinvisibletext false) (padsonsilk false) (subtractmaskfromsilk false) (outputformat 1) (mirror false) (drillshape 0) (scaleselection 1) (outputdirectory "")) ) (net 0 "") (net 1 GND) (net 2 +3V3) (net 3 +1V2) (net 4 /EDP_LANE1_N) (net 5 /EDP_LANE1_P) (net 6 /EDP_LANE0_N) (net 7 /EDP_LANE0_P) (net 8 /EDP_AUX_N) (net 9 /EDP_AUX_P) (net 10 "Net-(C10-Pad1)") (net 11 "Net-(C12-Pad1)") (net 12 "Net-(C13-Pad1)") (net 13 "Net-(C15-Pad1)") (net 14 "Net-(C16-Pad1)") (net 15 /VLEDS) (net 16 "Net-(D1-Pad2)") (net 17 "Net-(eDP1-Pad30)") (net 18 "Net-(eDP1-Pad29)") (net 19 "Net-(eDP1-Pad28)") (net 20 "Net-(eDP1-Pad27)") (net 21 "Net-(eDP1-Pad26)") (net 22 "Net-(eDP1-Pad25)") (net 23 /LCD_BKL) (net 24 /VLED_EN) (net 25 "Net-(FET1-Pad1)") (net 26 VDD) (net 27 /SDA) (net 28 /SCL) (net 29 /RES) (net 30 /TWI_SCL) (net 31 /TWI_SDA) (net 32 /CTP_INT) (net 33 /NCS_RES) (net 34 /LCD_PWRE) (net 35 /GPIO0) (net 36 /GPIO1) (net 37 /DCR_EN) (net 38 /IMG_EN) (net 39 /CLK_EDIE) (net 40 /DAT_EDID) (net 41 /LVDIOC_P) (net 42 /LVDIOC_N) (net 43 /LVDIO2_P) (net 44 /LVDIO2_N) (net 45 /LVDIO1_P) (net 46 /LVDIO1_N) (net 47 /LVDIO0_P) (net 48 /LVDIO0_N) (net 49 /+3.3V) (net 50 /LVDIEC_N) (net 51 /LVDIEC_P) (net 52 /LVDIE3_N) (net 53 /LVDIE3_P) (net 54 /D21) (net 55 /D20) (net 56 /VPWM_EN) (net 57 /LVDIO3_N) (net 58 /LVDIO3_P) (net 59 /LVDIE0_N) (net 60 /LVDIE0_P) (net 61 /LVDIE1_N) (net 62 /LVDIE1_P) (net 63 /LVDIE2_N) (net 64 /LVDIE2_P) (net 65 "Net-(P2-Pad6)") (net 66 "Net-(R1-Pad2)") (net 67 "Net-(R3-Pad1)") (net 68 "Net-(R13-Pad2)") (net 69 "Net-(U2-Pad48)") (net 70 "Net-(U2-Pad44)") (net 71 "Net-(U2-Pad42)") (net 72 "Net-(U2-Pad41)") (net 73 "Net-(U2-Pad40)") (net 74 "Net-(U2-Pad39)") (net 75 "Net-(eDP1-Pad18)") (net 76 "Net-(eDP1-Pad17)") (net 77 "Net-(eDP1-Pad16)") (net 78 "Net-(eDP1-Pad24)") (net 79 "Net-(eDP1-Pad23)") (net 80 "Net-(P1-Pad1)") (net 81 /IRES) (net 82 /VSINK) (net 83 /HSYNC) (net 84 /LCD_DE) (net 85 /LCD_CLK) (net 86 /LCD_B3) (net 87 /LCD_B2) (net 88 /LCD_B1) (net 89 /LCD_B0) (net 90 /DP1_P) (net 91 /DP1_N) (net 92 /DPO_P) (net 93 /DPO_N) (net 94 /DPA_N) (net 95 /DPA_P) (net 96 /HPD) (net 97 "Net-(P1-Pad38)") (net 98 +5V) (net 99 "Net-(eDP1-Pad13)") (net 100 /PIC_RES) (net_class Default "This is the default net class." (clearance 0.12) (trace_width 0.125) (via_dia 0.6) (via_drill 0.4) (uvia_dia 0.3) (uvia_drill 0.1) (add_net +1V2) (add_net +3V3) (add_net +5V) (add_net /+3.3V) (add_net /CLK_EDIE) (add_net /CTP_INT) (add_net /D20) (add_net /D21) (add_net /DAT_EDID) (add_net /DCR_EN) (add_net /DP1_N) (add_net /DP1_P) (add_net /DPA_N) (add_net /DPA_P) (add_net /DPO_N) (add_net /DPO_P) (add_net /EDP_AUX_N) (add_net /EDP_AUX_P) (add_net /EDP_LANE0_N) (add_net /EDP_LANE0_P) (add_net /EDP_LANE1_N) (add_net /EDP_LANE1_P) (add_net /GPIO0) (add_net /GPIO1) (add_net /HPD) (add_net /HSYNC) (add_net /IMG_EN) (add_net /IRES) (add_net /LCD_B0) (add_net /LCD_B1) (add_net /LCD_B2) (add_net /LCD_B3) (add_net /LCD_BKL) (add_net /LCD_CLK) (add_net /LCD_DE) (add_net /LCD_PWRE) (add_net /LVDIE0_N) (add_net /LVDIE0_P) (add_net /LVDIE1_N) (add_net /LVDIE1_P) (add_net /LVDIE2_N) (add_net /LVDIE2_P) (add_net /LVDIE3_N) (add_net /LVDIE3_P) (add_net /LVDIEC_N) (add_net /LVDIEC_P) (add_net /LVDIO0_N) (add_net /LVDIO0_P) (add_net /LVDIO1_N) (add_net /LVDIO1_P) (add_net /LVDIO2_N) (add_net /LVDIO2_P) (add_net /LVDIO3_N) (add_net /LVDIO3_P) (add_net /LVDIOC_N) (add_net /LVDIOC_P) (add_net /NCS_RES) (add_net /PIC_RES) (add_net /RES) (add_net /SCL) (add_net /SDA) (add_net /TWI_SCL) (add_net /TWI_SDA) (add_net /VLEDS) (add_net /VLED_EN) (add_net /VPWM_EN) (add_net /VSINK) (add_net GND) (add_net "Net-(C10-Pad1)") (add_net "Net-(C12-Pad1)") (add_net "Net-(C13-Pad1)") (add_net "Net-(C15-Pad1)") (add_net "Net-(C16-Pad1)") (add_net "Net-(D1-Pad2)") (add_net "Net-(FET1-Pad1)") (add_net "Net-(P1-Pad1)") (add_net "Net-(P1-Pad38)") (add_net "Net-(P2-Pad6)") (add_net "Net-(R1-Pad2)") (add_net "Net-(R13-Pad2)") (add_net "Net-(R3-Pad1)") (add_net "Net-(U2-Pad39)") (add_net "Net-(U2-Pad40)") (add_net "Net-(U2-Pad41)") (add_net "Net-(U2-Pad42)") (add_net "Net-(U2-Pad44)") (add_net "Net-(U2-Pad48)") (add_net "Net-(eDP1-Pad13)") (add_net "Net-(eDP1-Pad16)") (add_net "Net-(eDP1-Pad17)") (add_net "Net-(eDP1-Pad18)") (add_net "Net-(eDP1-Pad23)") (add_net "Net-(eDP1-Pad24)") (add_net "Net-(eDP1-Pad25)") (add_net "Net-(eDP1-Pad26)") (add_net "Net-(eDP1-Pad27)") (add_net "Net-(eDP1-Pad28)") (add_net "Net-(eDP1-Pad29)") (add_net "Net-(eDP1-Pad30)") (add_net VDD) ) (module OLIMEX_Connectors-FP:eDP-TERES (layer F.Cu) (tedit 5B4EF837) (tstamp 57E911E1) (at 77.25 95.85) (path /57618A0C) (fp_text reference eDP1 (at -8.509 4.92) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value LCD_CONN (at 0 7.2) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text user eDP (at 0 -3.1) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start 10.8 6) (end 10.8 3.2) (layer F.SilkS) (width 0.254)) (fp_line (start -10.8 6) (end 10.8 6) (layer F.SilkS) (width 0.254)) (fp_line (start -10.8 3.2) (end -10.8 6) (layer F.SilkS) (width 0.254)) (fp_line (start 11.2 -2) (end -11.2 -2) (layer F.Fab) (width 0.254)) (fp_line (start 11.2 11) (end 11.2 -2) (layer F.Fab) (width 0.254)) (fp_line (start -11.2 11) (end 11.2 11) (layer F.Fab) (width 0.254)) (fp_line (start -11.2 -2) (end -11.2 11) (layer F.Fab) (width 0.254)) (pad 0 smd rect (at 3.5 2) (size 5 1) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 0 smd rect (at -3.5 2) (size 5 1) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 0 smd rect (at -8.25 -1.25) (size 0.4 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 0 smd rect (at 8.25 -1.25) (size 0.4 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 0 smd rect (at 9.8 1.4) (size 2.4 2.8) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 0 smd rect (at -9.8 1.4) (size 2.4 2.8) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 30 smd rect (at 7.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 17 "Net-(eDP1-Pad30)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 29 smd rect (at 6.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 18 "Net-(eDP1-Pad29)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 28 smd rect (at 6.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 19 "Net-(eDP1-Pad28)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 27 smd rect (at 5.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 20 "Net-(eDP1-Pad27)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 26 smd rect (at 5.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 21 "Net-(eDP1-Pad26)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 25 smd rect (at 4.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 22 "Net-(eDP1-Pad25)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 24 smd rect (at 4.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 78 "Net-(eDP1-Pad24)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 23 smd rect (at 3.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 79 "Net-(eDP1-Pad23)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 22 smd rect (at 3.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 15 /VLEDS) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 21 smd rect (at 2.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 15 /VLEDS) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 20 smd rect (at 2.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 19 smd rect (at 1.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 18 smd rect (at 1.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 75 "Net-(eDP1-Pad18)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 17 smd rect (at 0.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 76 "Net-(eDP1-Pad17)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 16 smd rect (at 0.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 77 "Net-(eDP1-Pad16)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 15 smd rect (at -0.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 23 /LCD_BKL) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 14 smd rect (at -0.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 24 /VLED_EN) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 13 smd rect (at -1.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 99 "Net-(eDP1-Pad13)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 12 smd rect (at -1.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 11 smd rect (at -2.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 4 /EDP_LANE1_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 10 smd rect (at -2.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 5 /EDP_LANE1_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 9 smd rect (at -3.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 8 smd rect (at -3.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 6 /EDP_LANE0_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 7 smd rect (at -4.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 7 /EDP_LANE0_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 6 smd rect (at -4.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 5 smd rect (at -5.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 8 /EDP_AUX_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 4 smd rect (at -5.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 9 /EDP_AUX_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 3 smd rect (at -6.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 2 smd rect (at -6.75 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 1 smd rect (at -7.25 -1.25) (size 0.25 1.2) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) ) (module "OLIMEX_Connectors-FP:GPH127SMT-02X20(PA-V16X-2X20-LF)" (layer F.Cu) (tedit 57EB917C) (tstamp 57E91251) (at 83.085 67.432) (path /57E8CFC0) (attr smd) (fp_text reference LIME1 (at -0.585 4.618 180) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value ML40-GPH127SMT-0X20 (at 0 -4.445) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text user 2 (at -13.335 -0.762) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.2))) ) (fp_line (start -11.43 0.34798) (end -11.43 -0.34798) (layer F.Fab) (width 0.127)) (fp_line (start -11.77798 0) (end -11.07948 0) (layer F.Fab) (width 0.127)) (fp_circle (center -11.43 0) (end -11.60272 0.17272) (layer F.Fab) (width 0.127)) (fp_line (start -1.27 0) (end -1.27 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -1.27 1.524) (end -1.27 0) (layer F.SilkS) (width 0.254)) (fp_line (start -2.54 0) (end -2.54 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -3.81 0) (end -3.81 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -5.08 0) (end -5.08 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -6.35 0) (end -6.35 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -7.62 0) (end -7.62 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -8.89 0) (end -8.89 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -10.16 0) (end -10.16 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -11.43 0) (end -11.43 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -2.54 1.524) (end -2.54 0) (layer F.SilkS) (width 0.254)) (fp_line (start -3.81 1.524) (end -3.81 0) (layer F.SilkS) (width 0.254)) (fp_line (start -5.08 1.524) (end -5.08 0) (layer F.SilkS) (width 0.254)) (fp_line (start -6.35 1.524) (end -6.35 0) (layer F.SilkS) (width 0.254)) (fp_line (start -7.62 1.524) (end -7.62 0) (layer F.SilkS) (width 0.254)) (fp_line (start -8.89 1.524) (end -8.89 0) (layer F.SilkS) (width 0.254)) (fp_line (start -10.16 1.524) (end -10.16 0) (layer F.SilkS) (width 0.254)) (fp_line (start -11.43 1.524) (end -11.43 0) (layer F.SilkS) (width 0.254)) (fp_line (start -1.143 -1.524) (end -0.127 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -2.413 -1.524) (end -1.397 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -3.683 -1.524) (end -2.667 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -4.953 -1.524) (end -3.937 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -6.223 -1.524) (end -5.207 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -7.493 -1.524) (end -6.477 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -8.763 -1.524) (end -7.747 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -1.143 1.524) (end -0.127 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -2.413 1.524) (end -1.397 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -3.683 1.524) (end -2.667 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -4.953 1.524) (end -3.937 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -6.223 1.524) (end -5.207 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -7.493 1.524) (end -6.477 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -8.763 1.524) (end -7.747 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -10.033 1.524) (end -9.017 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -12.573 1.524) (end -11.557 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -11.303 1.524) (end -10.287 1.524) (layer F.Fab) (width 0.254)) (fp_line (start -12.573 -1.524) (end -11.557 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -11.303 -1.524) (end -10.287 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -11.43 -1.524) (end -11.303 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -11.557 -1.524) (end -11.43 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -10.033 -1.524) (end -9.017 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start -10.16 -1.524) (end -10.033 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -10.287 -1.524) (end -10.16 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -8.89 -1.524) (end -8.763 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -9.017 -1.524) (end -8.89 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -7.62 -1.524) (end -7.493 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -7.747 -1.524) (end -7.62 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -6.35 -1.524) (end -6.223 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -6.477 -1.524) (end -6.35 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -5.08 -1.524) (end -4.953 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -5.207 -1.524) (end -5.08 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -3.81 -1.524) (end -3.683 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -3.937 -1.524) (end -3.81 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -2.54 -1.524) (end -2.413 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -2.667 -1.524) (end -2.54 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -1.397 -1.524) (end -1.143 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -1.27 1.524) (end -1.143 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -1.397 1.524) (end -1.27 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -2.54 1.524) (end -2.413 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -2.667 1.524) (end -2.54 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -3.81 1.524) (end -3.683 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -3.937 1.524) (end -3.81 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -5.08 1.524) (end -4.953 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -5.207 1.524) (end -5.08 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -6.35 1.524) (end -6.223 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -6.477 1.524) (end -6.35 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -7.62 1.524) (end -7.493 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -7.747 1.524) (end -7.62 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -8.89 1.524) (end -8.763 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -9.017 1.524) (end -8.89 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -10.16 1.524) (end -10.033 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -10.287 1.524) (end -10.16 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -11.43 1.524) (end -11.303 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -11.557 1.524) (end -11.43 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start -1.27 0) (end 0 0) (layer F.SilkS) (width 0.254)) (fp_line (start -2.54 0) (end -1.27 0) (layer F.SilkS) (width 0.254)) (fp_line (start -3.81 0) (end -2.54 0) (layer F.SilkS) (width 0.254)) (fp_line (start -5.08 0) (end -3.81 0) (layer F.SilkS) (width 0.254)) (fp_line (start -6.35 0) (end -5.08 0) (layer F.SilkS) (width 0.254)) (fp_line (start -7.62 0) (end -6.35 0) (layer F.SilkS) (width 0.254)) (fp_line (start -8.89 0) (end -7.62 0) (layer F.SilkS) (width 0.254)) (fp_line (start -10.16 0) (end -8.89 0) (layer F.SilkS) (width 0.254)) (fp_line (start -11.43 0) (end -10.16 0) (layer F.SilkS) (width 0.254)) (fp_line (start -12.7 0) (end -11.43 0) (layer F.SilkS) (width 0.254)) (fp_line (start 0 1.524) (end -0.127 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0) (end 0 1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -1.524) (end 0 0) (layer F.SilkS) (width 0.254)) (fp_line (start -0.127 -1.524) (end 0 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0.254)) (fp_line (start 9.017 1.524) (end 10.033 1.524) (layer F.Fab) (width 0.254)) (fp_line (start 10.287 1.524) (end 11.303 1.524) (layer F.Fab) (width 0.254)) (fp_line (start 11.557 1.524) (end 12.573 1.524) (layer F.Fab) (width 0.254)) (fp_line (start 3.937 -1.524) (end 4.953 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 5.207 -1.524) (end 6.223 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 6.477 -1.524) (end 7.493 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 7.747 -1.524) (end 8.763 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 9.017 -1.524) (end 10.033 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 10.287 -1.524) (end 11.303 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 11.557 -1.524) (end 12.573 -1.524) (layer F.Fab) (width 0.254)) (fp_line (start 1.27 1.524) (end 1.27 0) (layer F.SilkS) (width 0.254)) (fp_line (start 2.54 1.524) (end 2.54 0) (layer F.SilkS) (width 0.254)) (fp_line (start 3.81 1.524) (end 3.81 0) (layer F.SilkS) (width 0.254)) (fp_line (start 5.08 1.524) (end 5.08 0) (layer F.SilkS) (width 0.254)) (fp_line (start 6.35 1.524) (end 6.35 0) (layer F.SilkS) (width 0.254)) (fp_line (start 7.62 1.524) (end 7.62 0) (layer F.SilkS) (width 0.254)) (fp_line (start 8.89 1.524) (end 8.89 0) (layer F.SilkS) (width 0.254)) (fp_line (start 10.16 1.524) (end 10.16 0) (layer F.SilkS) (width 0.254)) (fp_line (start 1.27 0) (end 1.27 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 2.54 0) (end 2.54 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 3.81 0) (end 3.81 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 5.08 0) (end 5.08 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 6.35 0) (end 6.35 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 7.62 0) (end 7.62 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 8.89 0) (end 8.89 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 10.16 0) (end 10.16 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 11.43 1.524) (end 11.43 0) (layer F.SilkS) (width 0.254)) (fp_line (start 11.43 0) (end 11.43 -1.524) (layer F.SilkS) (width 0.254)) (fp_circle (center 11.43 0) (end 11.60272 0.17272) (layer F.Fab) (width 0.127)) (fp_line (start 11.07948 0) (end 11.77798 0) (layer F.Fab) (width 0.127)) (fp_line (start 11.43 0.34798) (end 11.43 -0.34798) (layer F.Fab) (width 0.127)) (fp_line (start -16 2.5) (end 16 2.5) (layer F.Fab) (width 0.1)) (fp_line (start 16 2.5) (end 16 -2.5) (layer F.Fab) (width 0.1)) (fp_line (start 16 -2.5) (end -16 -2.5) (layer F.Fab) (width 0.1)) (fp_line (start -16 -2.5) (end -16 2.5) (layer F.Fab) (width 0.1)) (fp_line (start -2 2.5) (end -2 2) (layer F.Fab) (width 0.1)) (fp_line (start -2 2) (end 2 2) (layer F.Fab) (width 0.1)) (fp_line (start 2 2) (end 2 2.5) (layer F.Fab) (width 0.1)) (pad "" np_thru_hole circle (at 11.43 0 90) (size 0.7 0.7) (drill 0.7) (layers .Cu .Mask) (solder_mask_margin 0.0508)) (pad 40 smd rect (at 12.065 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 30 /TWI_SCL) (solder_mask_margin 0.0508)) (pad 39 smd rect (at 12.065 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 31 /TWI_SDA) (solder_mask_margin 0.0508)) (pad 38 smd rect (at 10.795 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 32 /CTP_INT) (solder_mask_margin 0.0508)) (pad 37 smd rect (at 10.795 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508)) (pad 36 smd rect (at 9.525 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 34 /LCD_PWRE) (solder_mask_margin 0.0508)) (pad 35 smd rect (at 9.525 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 23 /LCD_BKL) (solder_mask_margin 0.0508)) (pad 34 smd rect (at 8.255 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 35 /GPIO0) (solder_mask_margin 0.0508)) (pad 33 smd rect (at 8.255 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 36 /GPIO1) (solder_mask_margin 0.0508)) (pad 32 smd rect (at 6.985 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 37 /DCR_EN) (solder_mask_margin 0.0508)) (pad 31 smd rect (at 6.985 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 38 /IMG_EN) (solder_mask_margin 0.0508)) (pad 30 smd rect (at 5.715 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 39 /CLK_EDIE) (solder_mask_margin 0.0508)) (pad 29 smd rect (at 5.715 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 40 /DAT_EDID) (solder_mask_margin 0.0508)) (pad 28 smd rect (at 4.445 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 41 /LVDIOC_P) (solder_mask_margin 0.0508)) (pad 27 smd rect (at 4.445 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 42 /LVDIOC_N) (solder_mask_margin 0.0508)) (pad 26 smd rect (at 3.175 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 43 /LVDIO2_P) (solder_mask_margin 0.0508)) (pad 25 smd rect (at 3.175 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 44 /LVDIO2_N) (solder_mask_margin 0.0508)) (pad 24 smd rect (at 1.905 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 45 /LVDIO1_P) (solder_mask_margin 0.0508)) (pad 23 smd rect (at 1.905 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 46 /LVDIO1_N) (solder_mask_margin 0.0508)) (pad 22 smd rect (at 0.635 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 47 /LVDIO0_P) (solder_mask_margin 0.0508)) (pad 21 smd rect (at 0.635 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 48 /LVDIO0_N) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -12.065 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 2 smd rect (at -12.065 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 98 +5V) (solder_mask_margin 0.0508)) (pad 3 smd rect (at -10.795 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 4 smd rect (at -10.795 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508)) (pad 5 smd rect (at -9.525 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 50 /LVDIEC_N) (solder_mask_margin 0.0508)) (pad 6 smd rect (at -9.525 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 51 /LVDIEC_P) (solder_mask_margin 0.0508)) (pad 7 smd rect (at -8.255 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 52 /LVDIE3_N) (solder_mask_margin 0.0508)) (pad 8 smd rect (at -8.255 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 53 /LVDIE3_P) (solder_mask_margin 0.0508)) (pad 9 smd rect (at -6.985 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 54 /D21) (solder_mask_margin 0.0508)) (pad 10 smd rect (at -6.985 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 55 /D20) (solder_mask_margin 0.0508)) (pad 11 smd rect (at -5.715 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 56 /VPWM_EN) (solder_mask_margin 0.0508)) (pad 12 smd rect (at -5.715 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 24 /VLED_EN) (solder_mask_margin 0.0508)) (pad 13 smd rect (at -4.445 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 57 /LVDIO3_N) (solder_mask_margin 0.0508)) (pad 14 smd rect (at -4.445 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 58 /LVDIO3_P) (solder_mask_margin 0.0508)) (pad 15 smd rect (at -3.175 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 59 /LVDIE0_N) (solder_mask_margin 0.0508)) (pad 16 smd rect (at -3.175 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 60 /LVDIE0_P) (solder_mask_margin 0.0508)) (pad 17 smd rect (at -1.905 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 61 /LVDIE1_N) (solder_mask_margin 0.0508)) (pad 18 smd rect (at -1.905 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 62 /LVDIE1_P) (solder_mask_margin 0.0508)) (pad 19 smd rect (at -0.635 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 63 /LVDIE2_N) (solder_mask_margin 0.0508)) (pad 20 smd rect (at -0.635 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 64 /LVDIE2_P) (solder_mask_margin 0.0508)) (pad "" np_thru_hole circle (at -11.43 0 90) (size 0.7 0.7) (drill 0.7) (layers .Cu .Mask) (solder_mask_margin 0.0508)) ) (module OLIMEX_LOGOs-FP:LOGO_RECYCLEBIN_1 (layer F.Cu) (tedit 552CE91B) (tstamp 583454F5) (at 58.35 40.75) (fp_text reference "" (at 2.11 -7.12) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "" (at 2.85 1.56) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start 4.62 -0.812) (end 4.62 -0.05) (layer F.SilkS) (width 0.15)) (fp_line (start 0.048 -0.812) (end 4.62 -0.812) (layer F.SilkS) (width 0.15)) (fp_line (start 0.048 -0.05) (end 0.048 -0.812) (layer F.SilkS) (width 0.15)) (fp_line (start 4.62 -0.05) (end 0.048 -0.05) (layer F.SilkS) (width 0.15)) (fp_line (start 4.5692 -0.7612) (end 0.1496 -0.7612) (layer F.SilkS) (width 0.15)) (fp_line (start 0.0988 -0.6596) (end 4.5692 -0.6596) (layer F.SilkS) (width 0.15)) (fp_line (start 4.5692 -0.5072) (end 0.1496 -0.5072) (layer F.SilkS) (width 0.15)) (fp_line (start 4.5692 -0.3548) (end 0.1496 -0.3548) (layer F.SilkS) (width 0.15)) (fp_line (start 0.0988 -0.6088) (end 4.5184 -0.6088) (layer F.SilkS) (width 0.15)) (fp_line (start 0.0988 -0.4564) (end 4.5692 -0.4564) (layer F.SilkS) (width 0.15)) (fp_line (start 4.5184 -0.2532) (end 0.1496 -0.2532) (layer F.SilkS) (width 0.15)) (fp_line (start 0.0988 -0.1516) (end 4.5184 -0.1516) (layer F.SilkS) (width 0.15)) (fp_line (start 0.254 -5.588) (end 4.445 -1.397) (layer F.SilkS) (width 0.254)) (fp_line (start 0.381 -1.524) (end 4.445 -5.461) (layer F.SilkS) (width 0.254)) (fp_line (start 1.397 -1.905) (end 2.794 -1.905) (layer F.SilkS) (width 0.254)) (fp_line (start 1.397 -1.905) (end 1.143 -4.953) (layer F.SilkS) (width 0.254)) (fp_line (start 0.889 -5.08) (end 3.81 -5.08) (layer F.SilkS) (width 0.254)) (fp_line (start 1.905 -1.524) (end 1.905 -1.778) (layer F.SilkS) (width 0.254)) (fp_line (start 1.397 -1.524) (end 1.905 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 1.397 -1.905) (end 1.397 -1.524) (layer F.SilkS) (width 0.254)) (fp_line (start 3.302 -2.413) (end 3.429 -4.445) (layer F.SilkS) (width 0.254)) (fp_circle (center 3.302 -1.905) (end 3.683 -2.032) (layer F.SilkS) (width 0.254)) (fp_line (start 1.524 -5.715) (end 1.524 -5.207) (layer F.SilkS) (width 0.254)) (fp_line (start 1.397 -5.715) (end 1.524 -5.715) (layer F.SilkS) (width 0.254)) (fp_line (start 1.397 -5.207) (end 1.397 -5.715) (layer F.SilkS) (width 0.254)) (fp_line (start 3.81 -4.572) (end 3.81 -5.08) (layer F.SilkS) (width 0.254)) (fp_line (start 3.429 -4.572) (end 3.81 -4.572) (layer F.SilkS) (width 0.254)) (fp_line (start 3.429 -5.08) (end 3.429 -4.572) (layer F.SilkS) (width 0.254)) (fp_line (start 3.556 -4.953) (end 3.556 -4.826) (layer F.SilkS) (width 0.254)) (fp_line (start 3.556 -5.08) (end 3.683 -4.699) (layer F.SilkS) (width 0.254)) (fp_line (start 3.556 -4.953) (end 3.556 -4.826) (layer F.SilkS) (width 0.254)) (fp_line (start 3.683 -4.953) (end 3.683 -4.572) (layer F.SilkS) (width 0.254)) (fp_line (start 3.556 -4.953) (end 3.683 -4.953) (layer F.SilkS) (width 0.254)) (fp_line (start 3.556 -4.572) (end 3.556 -4.953) (layer F.SilkS) (width 0.254)) (fp_line (start 2.159 -4.191) (end 2.159 -4.572) (layer F.SilkS) (width 0.254)) (fp_line (start 3.048 -4.191) (end 2.159 -4.191) (layer F.SilkS) (width 0.254)) (fp_line (start 3.048 -4.572) (end 3.048 -4.191) (layer F.SilkS) (width 0.254)) (fp_line (start 2.159 -4.572) (end 3.048 -4.572) (layer F.SilkS) (width 0.254)) (fp_line (start 2.286 -4.445) (end 2.921 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start 2.54 -5.969) (end 2.159 -5.969) (layer F.SilkS) (width 0.254)) (fp_line (start 2.54 -5.842) (end 2.54 -5.969) (layer F.SilkS) (width 0.254)) (fp_line (start 2.159 -5.842) (end 2.54 -5.842) (layer F.SilkS) (width 0.254)) (fp_line (start 2.159 -5.969) (end 2.159 -5.842) (layer F.SilkS) (width 0.254)) (fp_arc (start 2.286 -4.064) (end 1.143 -5.207) (angle 90) (layer F.SilkS) (width 0.254)) (fp_circle (center 3.302 -1.905) (end 3.429 -1.905) (layer F.SilkS) (width 0.127)) ) (module OLIMEX_LOGOs-FP:LOGO_PBFREE (layer F.Cu) (tedit 553A2F23) (tstamp 583454F4) (at 82.7 88.1) (fp_text reference "" (at -0.2794 -3.52552) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "" (at 0.05588 3.15214) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center -0.2032 -0.31496) (end 0.90678 -1.73482) (layer F.SilkS) (width 0.254)) (fp_line (start -1.36398 -1.47828) (end 1.06934 0.94234) (layer F.SilkS) (width 0.2)) (fp_text user Pb (at -0.08636 -0.33528) (layer F.SilkS) (effects (font (size 1.7 1.5) (thickness 0.254))) ) ) (module OLIMEX_LOGOs-FP:LOGO_ANTISTATIC_SMALL_4.5mmX2.8mm (layer F.Cu) (tedit 58344E66) (tstamp 583454F3) (at 88.5 74.95) (fp_text reference Ref (at 0 -3.0226) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value Val (at -0.3 0.3) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start 0.18542 -1.79324) (end 2.11328 1.55194) (layer F.SilkS) (width 0.254)) (fp_line (start -1.87198 1.9177) (end 1.8923 1.91516) (layer F.SilkS) (width 0.254)) (fp_line (start -2.16916 1.63576) (end -0.1905 -1.78816) (layer F.SilkS) (width 0.254)) (fp_arc (start 0 -1.69926) (end -0.14478 -1.84404) (angle 90) (layer F.SilkS) (width 0.254)) (fp_arc (start -1.94056 1.68148) (end -1.95072 1.91262) (angle 90) (layer F.SilkS) (width 0.254)) (fp_arc (start 1.86436 1.65608) (end 2.12344 1.62052) (angle 90) (layer F.SilkS) (width 0.254)) (fp_line (start 0.18542 0.88392) (end 0.0635 0.97282) (layer F.SilkS) (width 0.05)) (fp_line (start 0.0635 0.97282) (end 0.00762 1.02108) (layer F.SilkS) (width 0.05)) (fp_line (start 0.00762 1.02108) (end -0.0762 1.11506) (layer F.SilkS) (width 0.05)) (fp_line (start -0.1524 1.2319) (end -0.39878 1.64846) (layer F.SilkS) (width 0.05)) (fp_line (start -0.0762 1.11506) (end -0.1524 1.2319) (layer F.SilkS) (width 0.05)) (fp_line (start -0.39878 1.64846) (end -0.47752 1.63576) (layer F.SilkS) (width 0.05)) (fp_line (start -0.48006 1.63576) (end -0.51308 1.61544) (layer F.SilkS) (width 0.05)) (fp_line (start -0.51816 1.61036) (end -0.53594 1.58875) (layer F.SilkS) (width 0.05)) (fp_line (start -0.53594 1.5875) (end -0.55372 1.53924) (layer F.SilkS) (width 0.05)) (fp_line (start -0.55372 1.53924) (end -0.56398 1.46558) (layer F.SilkS) (width 0.05)) (fp_line (start -0.56388 1.46558) (end -0.56642 1.33858) (layer F.SilkS) (width 0.05)) (fp_line (start -0.56642 1.33858) (end -0.55118 1.20396) (layer F.SilkS) (width 0.05)) (fp_line (start -0.55118 1.20396) (end -0.51816 1.08204) (layer F.SilkS) (width 0.05)) (fp_line (start -0.51816 1.07696) (end -0.47498 0.98806) (layer F.SilkS) (width 0.05)) (fp_line (start -0.47498 0.98806) (end -0.42164 0.90932) (layer F.SilkS) (width 0.05)) (fp_line (start -0.42164 0.90932) (end -0.17526 0.6858) (layer F.SilkS) (width 0.05)) (fp_line (start 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0.254))) ) (fp_text user hardware (at 2.51206 4.2672) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.18))) ) ) (module OLIMEX_Other-FP:Fiducial1x3_transp (layer F.Cu) (tedit 5540CDCA) (tstamp 583400BE) (at 113.1 100.5) (attr virtual) (fp_text reference "" (at 0 3) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "" (at 0 -3) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 1.5 0) (layer Dwgs.User) (width 0.254)) (pad Fid1 connect circle (at 0 0) (size 1 1) (layers F.Cu F.Mask) (solder_mask_margin 0.127) (clearance 1.016) (zone_connect 0)) ) (module OLIMEX_Other-FP:Fiducial1x3_transp (layer F.Cu) (tedit 5540CDCA) (tstamp 583400BD) (at 57.4 100.15) (attr virtual) (fp_text reference "" (at 0 3) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "" (at 0 -3) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 1.5 0) (layer Dwgs.User) (width 0.254)) (pad Fid1 connect circle (at 0 0) (size 1 1) (layers F.Cu F.Mask) (solder_mask_margin 0.127) (clearance 1.016) (zone_connect 0)) ) (module OLIMEX_Other-FP:Fiducial1x3_transp (layer F.Cu) (tedit 5540CDCA) (tstamp 583400B8) (at 110.95 48.5) (attr virtual) (fp_text reference "" (at 0 3) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "" (at 0 -3) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 1.5 0) (layer Dwgs.User) (width 0.254)) (pad Fid1 connect circle (at 0 0) (size 1 1) (layers F.Cu F.Mask) (solder_mask_margin 0.127) (clearance 1.016) (zone_connect 0)) ) (module OLIMEX_Other-FP:Fiducial1x3_transp (layer F.Cu) (tedit 5540CDCA) (tstamp 583400B7) (at 56.9 54.55) (attr virtual) (fp_text reference "" (at 0 3) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "" (at 0 -3) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_circle (center 0 0) (end 1.5 0) (layer Dwgs.User) (width 0.254)) (pad Fid1 connect circle (at 0 0) (size 1 1) (layers F.Cu F.Mask) (solder_mask_margin 0.127) (clearance 1.016) (zone_connect 0)) ) (module "OLIMEX_Connectors-FP:GPH127SMT-02X20(PA-V16X-2X20-LF)" (layer F.Cu) (tedit 57EB917C) (tstamp 57E9127F) (at 83.085 60.25) (path /57E8F5AF) (attr smd) (fp_text reference LIME2 (at -0.685 -4.625 180) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value ML40-GPH127SMT-0X20 (at 0 -4.445) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 2 2) (end 2 2.5) (layer F.Fab) (width 0.1)) (fp_line (start -2 2) (end 2 2) (layer F.Fab) (width 0.1)) (fp_line (start -2 2.5) (end -2 2) (layer F.Fab) (width 0.1)) (fp_line (start -16 -2.5) (end -16 2.5) (layer F.Fab) (width 0.1)) (fp_line (start 16 -2.5) (end -16 -2.5) (layer F.Fab) (width 0.1)) (fp_line (start 16 2.5) (end 16 -2.5) (layer F.Fab) (width 0.1)) (fp_line (start -16 2.5) (end 16 2.5) (layer F.Fab) (width 0.1)) (fp_line (start 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16 smd rect (at -3.175 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 59 /LVDIE0_N) (solder_mask_margin 0.0508)) (pad 15 smd rect (at -3.175 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 60 /LVDIE0_P) (solder_mask_margin 0.0508)) (pad 14 smd rect (at -4.445 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 57 /LVDIO3_N) (solder_mask_margin 0.0508)) (pad 13 smd rect (at -4.445 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 58 /LVDIO3_P) (solder_mask_margin 0.0508)) (pad 12 smd rect (at -5.715 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 56 /VPWM_EN) (solder_mask_margin 0.0508)) (pad 11 smd rect (at -5.715 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 24 /VLED_EN) (solder_mask_margin 0.0508)) (pad 10 smd rect (at -6.985 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 54 /D21) (solder_mask_margin 0.0508)) (pad 9 smd rect (at -6.985 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 55 /D20) (solder_mask_margin 0.0508)) (pad 8 smd rect (at -8.255 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 52 /LVDIE3_N) (solder_mask_margin 0.0508)) (pad 7 smd rect (at -8.255 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 53 /LVDIE3_P) (solder_mask_margin 0.0508)) (pad 6 smd rect (at -9.525 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 50 /LVDIEC_N) (solder_mask_margin 0.0508)) (pad 5 smd rect (at -9.525 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 51 /LVDIEC_P) (solder_mask_margin 0.0508)) (pad 4 smd rect (at -10.795 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 3 smd rect (at -10.795 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508)) (pad 2 smd rect (at -12.065 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -12.065 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 98 +5V) (solder_mask_margin 0.0508)) (pad 21 smd rect (at 0.635 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 47 /LVDIO0_P) (solder_mask_margin 0.0508)) (pad 22 smd rect (at 0.635 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 48 /LVDIO0_N) (solder_mask_margin 0.0508)) (pad 23 smd rect (at 1.905 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 45 /LVDIO1_P) (solder_mask_margin 0.0508)) (pad 24 smd rect (at 1.905 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 46 /LVDIO1_N) (solder_mask_margin 0.0508)) (pad 25 smd rect (at 3.175 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 43 /LVDIO2_P) (solder_mask_margin 0.0508)) (pad 26 smd rect (at 3.175 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 44 /LVDIO2_N) (solder_mask_margin 0.0508)) (pad 27 smd rect (at 4.445 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 41 /LVDIOC_P) (solder_mask_margin 0.0508)) (pad 28 smd rect (at 4.445 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 42 /LVDIOC_N) (solder_mask_margin 0.0508)) (pad 29 smd rect (at 5.715 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 39 /CLK_EDIE) (solder_mask_margin 0.0508)) (pad 30 smd rect (at 5.715 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 40 /DAT_EDID) (solder_mask_margin 0.0508)) (pad 31 smd rect (at 6.985 2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 37 /DCR_EN) (solder_mask_margin 0.0508)) (pad 32 smd rect (at 6.985 -2.032 270) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 38 /IMG_EN) (solder_mask_margin 0.0508)) (pad 33 smd rect (at 8.255 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 35 /GPIO0) (solder_mask_margin 0.0508)) (pad 34 smd rect (at 8.255 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 36 /GPIO1) (solder_mask_margin 0.0508)) (pad 35 smd rect (at 9.525 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 34 /LCD_PWRE) (solder_mask_margin 0.0508)) (pad 36 smd rect (at 9.525 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 23 /LCD_BKL) (solder_mask_margin 0.0508)) (pad 37 smd rect (at 10.795 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 32 /CTP_INT) (solder_mask_margin 0.0508)) (pad 38 smd rect (at 10.795 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508)) (pad 39 smd rect (at 12.065 2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 30 /TWI_SCL) (solder_mask_margin 0.0508)) (pad 40 smd rect (at 12.065 -2.032 90) (size 1.8 0.7) (layers F.Cu F.Paste F.Mask) (net 31 /TWI_SDA) (solder_mask_margin 0.0508)) (pad "" np_thru_hole circle (at 11.43 0 90) (size 0.7 0.7) (drill 0.7) (layers .Cu .Mask) (solder_mask_margin 0.0508)) ) (module OLIMEX_Connectors-FP:ICSP (layer F.Cu) (tedit 57EB917C) (tstamp 57E912B7) (at 109.25 65.31 270) (descr SIP5) (tags SIP5) (path /57EB8CDF) (attr smd) (fp_text reference P2 (at 8.379999 -0.05 270) (layer F.SilkS) (effects (font (size 0.381 0.381) (thickness 0.0635))) ) (fp_text value ICSP (at 0 1.905 270) (layer F.SilkS) hide (effects (font (size 1 1) (thickness 0.15))) ) (pad 6 thru_hole circle (at 6.35 0 270) (size 1.8 1.8) (drill 1) (layers .Cu .Mask) (net 65 "Net-(P2-Pad6)")) (pad 5 thru_hole circle (at 3.81 0) (size 1.8 1.8) (drill 1) (layers .Cu .Mask) (net 28 /SCL)) (pad 4 thru_hole circle (at 1.27 0) (size 1.8 1.8) (drill 1) (layers .Cu .Mask) (net 27 /SDA)) (pad 3 thru_hole circle (at -1.27 0) (size 1.8 1.8) (drill 1) (layers .Cu .Mask) (net 1 GND) (zone_connect 2)) (pad 2 thru_hole circle (at -3.81 0) (size 1.8 1.8) (drill 1) (layers .Cu .Mask) (net 2 +3V3)) (pad 1 thru_hole rect (at -6.35 0) (size 1.8 1.8) (drill 1) (layers .Cu .Mask) (net 96 /HPD)) (model Housings_SIP/SIP9_Housing.wrl (at (xyz 0 0 0)) (scale (xyz 0.3937 0.3937 0.3937)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:C_0603_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91123) (at 94.8 78.7 90) (descr "Resistor SMD 0603, reflow soldering, Vishay (see dcrcw.pdf)") (tags "resistor 0603") (path /576279E6) (attr smd) (fp_text reference C1 (at -0.05 -1.6 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 1uF (at 0.127 1.778 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.762 -0.381) (end 0 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.762 0.381) (end 0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 0.381) (end 0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 -0.381) (end -0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0 -0.381) (end -0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.508 -0.762) (end 1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 -0.762) (end 1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 0.762) (end 0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 -0.762) (end -1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 -0.762) (end -1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 0.762) (end -0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 0.762) (end 0.508 0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -0.508 -0.762) (end 0.508 -0.762) (layer F.SilkS) (width 0.254)) (pad 2 smd rect (at 0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (clearance 0.0508)) (pad 1 smd rect (at -0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (clearance 0.0508)) (model Resistors_SMD/R_0603.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:C_0603_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91129) (at 86.8 82.5 90) (descr "Resistor SMD 0603, reflow soldering, Vishay (see dcrcw.pdf)") (tags "resistor 0603") (path /57627ACF) (attr smd) (fp_text reference C2 (at 3.05 0 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 1uF (at 0.127 1.778 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.762 -0.381) (end 0 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.762 0.381) (end 0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 0.381) (end 0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 -0.381) (end -0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0 -0.381) (end -0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.508 -0.762) (end 1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 -0.762) (end 1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 0.762) (end 0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 -0.762) (end -1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 -0.762) (end -1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 0.762) (end -0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 0.762) (end 0.508 0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -0.508 -0.762) (end 0.508 -0.762) (layer F.SilkS) (width 0.254)) (pad 2 smd rect (at 0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (clearance 0.0508)) (pad 1 smd rect (at -0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 3 +1V2) (solder_mask_margin 0.0508) (clearance 0.0508)) (model Resistors_SMD/R_0603.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9112F) (at 69 76.1 180) (tags C0402) (path /57619E5A) (attr smd) (fp_text reference C3 (at 2.35 -1.15 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 180) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 180) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91135) (at 76.2 88.65 270) (tags C0402) (path /57619E1D) (attr smd) (fp_text reference C4 (at 2 -0.05 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 90 /DP1_P) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 4 /EDP_LANE1_N) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9113B) (at 75 88.65 270) (tags C0402) (path /57619E24) (attr smd) (fp_text reference C5 (at 2 0 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 5 /EDP_LANE1_P) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 91 /DP1_N) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91141) (at 74.2 86.55 270) (tags C0402) (path /57619E2B) (attr smd) (fp_text reference C6 (at 1.9 0.45 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 92 /DPO_P) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 6 /EDP_LANE0_N) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91147) (at 73 86.55 270) (tags C0402) (path /57619E32) (attr smd) (fp_text reference C7 (at 1.9 0.4 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 7 /EDP_LANE0_P) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 93 /DPO_N) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9114D) (at 70.9 89.45 270) (tags C0402) (path /57619E39) (attr smd) (fp_text reference C8 (at -1.8 -0.1 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 94 /DPA_N) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 8 /EDP_AUX_N) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91153) (at 69.65 89.45 270) (tags C0402) (path /57619E40) (attr smd) (fp_text reference C9 (at -1.8 -0.05 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 9 /EDP_AUX_P) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 95 /DPA_P) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91159) (at 69.02173 85.97112 135) (tags C0402) (path /57619F87) (attr smd) (fp_text reference C10 (at 1.892 1.35 135) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 33pF (at 0 1.397 135) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 315) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 10 "Net-(C10-Pad1)") (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 135) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9115F) (at 82.35 79.2) (tags C0402) (path /57EA9915) (attr smd) (fp_text reference C11 (at -2.15 -0.25) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 180) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 3 +1V2) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91165) (at 67.542462 84.491852 315) (tags C0402) (path /57619F8E) (attr smd) (fp_text reference C12 (at -2.4 -1.35 315) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 33pF (at -3.948706 0.990381 315) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 315) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 135) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 11 "Net-(C12-Pad1)") (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9116B) (at 63.05 89.6 180) (tags C0402) (path /57619F03) (attr smd) (fp_text reference C13 (at -0.05 1.3 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 180) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 12 "Net-(C13-Pad1)") (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 180) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91171) (at 79.9 80.6 90) (tags C0402) (path /57619EAF) (attr smd) (fp_text reference C14 (at -0.4 1.25 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91177) (at 79.4 83.908 270) (tags C0402) (path /57619EC6) (attr smd) (fp_text reference C15 (at 1.842 1.3 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 13 "Net-(C15-Pad1)") (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9117D) (at 63.5 95.4 270) (tags C0402) (path /57619EEC) (attr smd) (fp_text reference C16 (at 2.15 -1.1 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 14 "Net-(C16-Pad1)") (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91183) (at 85.05 82.9 90) (tags C0402) (path /57E9902A) (attr smd) (fp_text reference C17 (at 2.45 0 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 3 +1V2) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91189) (at 61.55 95.4 270) (tags C0402) (path /57E9836D) (attr smd) (fp_text reference C18 (at 1.95 1.05 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 100nF (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0603_5MIL_DWS (layer F.Cu) (tedit 5833FA96) (tstamp 57E91195) (at 100.15 93.1 90) (descr "Resistor SMD 0603, reflow soldering, Vishay (see dcrcw.pdf)") (tags "resistor 0603") (path /577A1DE2) (attr smd) (fp_text reference C20 (at -0.35 1.45 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 1uF/50V (at 0.127 1.778 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.508 -0.762) (end 0.508 -0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -0.508 0.762) (end 0.508 0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -1.651 0.762) (end -0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 -0.762) (end -1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 -0.762) (end -1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 0.762) (end 0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 -0.762) (end 1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.508 -0.762) (end 1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.381) (end -0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 -0.381) (end -0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 0.381) (end 0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.762 0.381) (end 0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.762 -0.381) (end 0 -0.381) (layer F.Fab) (width 0.15)) (pad 1 smd rect (at -0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 26 VDD) (solder_mask_margin 0.0508) (clearance 0.0508)) (pad 2 smd rect (at 0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (clearance 0.0508)) (model Resistors_SMD/R_0603.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:C_0603_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E9119B) (at 92.5 93.3 90) (descr "Resistor SMD 0603, reflow soldering, Vishay (see dcrcw.pdf)") (tags "resistor 0603") (path /57618A56) (attr smd) (fp_text reference C21 (at -1.5 -1.5 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 1uF/50V (at 0.127 1.778 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.508 -0.762) (end 0.508 -0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -0.508 0.762) (end 0.508 0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -1.651 0.762) (end -0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 -0.762) (end -1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 -0.762) (end -1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 0.762) (end 0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 -0.762) (end 1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.508 -0.762) (end 1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.381) (end -0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 -0.381) (end -0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start -0.762 0.381) (end 0.762 0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.762 0.381) (end 0.762 -0.381) (layer F.Fab) (width 0.15)) (fp_line (start 0.762 -0.381) (end 0 -0.381) (layer F.Fab) (width 0.15)) (pad 1 smd rect (at -0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 15 /VLEDS) (solder_mask_margin 0.0508) (clearance 0.0508)) (pad 2 smd rect (at 0.889 0 90) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (clearance 0.0508)) (model Resistors_SMD/R_0603.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 58368EF5) (tstamp 57E911AD) (at 103.7 63.3 90) (tags C0402) (path /57EA3AF1) (attr smd) (fp_text reference C24 (at 2.7 0.1 90) (layer F.SilkS) (effects (font (size 0.7 0.7) (thickness 0.175))) ) (fp_text value 100nF (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (module OLIMEX_Diodes-FP:SOD106-R-KA (layer F.Cu) (tedit 57EB917C) (tstamp 57E911B3) (at 90.55 89.3 90) (path /57618A63) (attr smd) (fp_text reference D1 (at 4.15 0.05 180) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value SS34 (at 0 2.54 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 2.11074 0.86868) (end -2.11074 0.87122) (layer F.Fab) (width 0.15)) (fp_line (start 2.11582 -0.0762) (end 2.11582 0.87884) (layer F.Fab) (width 0.15)) (fp_line (start 2.11582 -0.88392) (end 2.11582 -0.0635) (layer F.Fab) (width 0.15)) (fp_line (start -2.1209 -0.89154) (end 2.11582 -0.88392) (layer F.Fab) (width 0.15)) (fp_line (start -2.11328 -0.89408) (end -2.11582 0.84328) (layer F.Fab) (width 0.15)) (fp_line (start -1.9685 -0.84328) (end -1.97866 0.82042) (layer F.Fab) (width 0.15)) (fp_line (start -1.83388 -0.85598) (end -1.83388 0.81026) (layer F.Fab) (width 0.15)) (fp_line (start -1.71704 -0.79248) (end -1.71704 0.79756) (layer F.Fab) (width 0.15)) (fp_line (start 1.9812 -0.82804) (end 1.98628 0.8128) (layer F.Fab) (width 0.15)) (fp_line (start 1.8415 -0.85344) (end 1.84658 0.77216) (layer F.Fab) (width 0.15)) (fp_line (start 1.7399 -0.8382) (end 1.7399 0.80772) (layer F.Fab) (width 0.15)) (fp_line (start 0.66 0.8632) (end 0.66 -0.8132) (layer F.SilkS) (width 0.254)) (fp_line (start -0.5719 0.8632) (end -0.5719 -0.8132) (layer F.SilkS) (width 0.254)) (fp_line (start -0.5719 0.025) (end 0.66 -0.8132) (layer F.SilkS) (width 0.254)) (fp_line (start 0.6473 0.8632) (end -0.5719 0.025) (layer F.SilkS) (width 0.254)) (fp_line (start 1.295 0.025) (end -1.245 0.025) (layer F.SilkS) (width 0.254)) (pad 1 smd rect (at -2.25 0.01524 90) (size 1.6 2.1) (layers F.Cu F.Paste F.Mask) (net 15 /VLEDS) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 2.25 0.01016 90) (size 1.6 2.1) (layers F.Cu F.Paste F.Mask) (net 16 "Net-(D1-Pad2)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_RLC-FP:L_0805_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E911E7) (at 62.45 91.2) (descr "Resistor SMD 0805, hand soldering") (tags "resistor 0805") (path /57E97E25) (attr smd) (fp_text reference FB1 (at 3.6 0) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value FB0805 (at -0.33 2.02) (layer F.Fab) (effects (font (size 0.5 0.5) (thickness 0.125))) ) (fp_line (start -2.0828 0.889) (end -0.3556 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -2.0828 -0.889) (end -2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -0.3556 -0.889) (end -2.0828 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 0.3556 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 0.3556 0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -0.4318 -0.889) (end 0.4064 -0.889) (layer F.SilkS) (width 0.127)) (fp_line (start -0.4318 0.889) (end 0.4064 0.889) (layer F.SilkS) (width 0.127)) (pad 2 smd rect (at 1.016 0) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 12 "Net-(C13-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 1 smd rect (at -1.016 0) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (model Resistors_SMD.3dshapes/R_0805_HandSoldering.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:L_0805_5MIL_DWS (layer F.Cu) (tedit 58358EBB) (tstamp 57E911ED) (at 82.2 83.4 180) (descr "Resistor SMD 0805, hand soldering") (tags "resistor 0805") (path /57E98EEA) (attr smd) (fp_text reference FB2 (at -3.35 -1.35 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value FB0805 (at -0.33 2.02 180) (layer F.Fab) (effects (font (size 0.5 0.5) (thickness 0.125))) ) (fp_line (start -0.4318 0.889) (end 0.4064 0.889) (layer F.SilkS) (width 0.127)) (fp_line (start -0.4318 -0.889) (end 0.4064 -0.889) (layer F.SilkS) (width 0.127)) (fp_line (start 0.3556 0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 0.3556 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -0.3556 -0.889) (end -2.0828 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -2.0828 -0.889) (end -2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -2.0828 0.889) (end -0.3556 0.889) (layer Dwgs.User) (width 0.127)) (pad 1 smd rect (at -1.016 0 180) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 3 +1V2) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.016 0 180) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 13 "Net-(C15-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (model Resistors_SMD.3dshapes/R_0805_HandSoldering.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:L_0805_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E911F3) (at 62.45 93.2) (descr "Resistor SMD 0805, hand soldering") (tags "resistor 0805") (path /57E97DB3) (attr smd) (fp_text reference FB3 (at 3.55 0) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value FB0805 (at -0.33 2.02) (layer F.Fab) (effects (font (size 0.5 0.5) (thickness 0.125))) ) (fp_line (start -0.4318 0.889) (end 0.4064 0.889) (layer F.SilkS) (width 0.127)) (fp_line (start -0.4318 -0.889) (end 0.4064 -0.889) (layer F.SilkS) (width 0.127)) (fp_line (start 0.3556 0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 0.3556 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -0.3556 -0.889) (end -2.0828 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -2.0828 -0.889) (end -2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -2.0828 0.889) (end -0.3556 0.889) (layer Dwgs.User) (width 0.127)) (pad 1 smd rect (at -1.016 0) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.016 0) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 14 "Net-(C16-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (model Resistors_SMD.3dshapes/R_0805_HandSoldering.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:L_0805_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E911F9) (at 96.459 96.165 180) (descr "Resistor SMD 0805, hand soldering") (tags "resistor 0805") (path /57ED5619) (attr smd) (fp_text reference FB4 (at -3.191 -0.435 270) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.25))) ) (fp_text value "(na) FB0805" (at -0.33 2.02 180) (layer F.Fab) (effects (font (size 0.5 0.5) (thickness 0.125))) ) (fp_line (start -2.0828 0.889) (end -0.3556 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -2.0828 -0.889) (end -2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -0.3556 -0.889) (end -2.0828 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 0.3556 -0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 2.0828 -0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start 0.3556 0.889) (end 2.0828 0.889) (layer Dwgs.User) (width 0.127)) (fp_line (start -0.4318 -0.889) (end 0.4064 -0.889) (layer F.SilkS) (width 0.127)) (fp_line (start -0.4318 0.889) (end 0.4064 0.889) (layer F.SilkS) (width 0.127)) (pad 2 smd rect (at 1.016 0 180) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 15 /VLEDS) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 1 smd rect (at -1.016 0 180) (size 1.524 1.27) (layers F.Cu F.Paste F.Mask) (net 26 VDD) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (model Resistors_SMD.3dshapes/R_0805_HandSoldering.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_Transistors-FP:SOT23 (layer F.Cu) (tedit 57EB917C) (tstamp 57E91206) (at 58.8 94.85 180) (path /57EC382D) (attr smd) (fp_text reference FET1 (at 0.35 -2.35) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value IRLML6402 (at 3.5052 2.6416 180) (layer F.Fab) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_line (start 0.65278 -1.4097) (end 0.65278 1.4097) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65024 0.00508) (end -0.65024 -1.41732) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65024 0.00762) (end -0.65278 1.35636) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65532 -1.42494) (end 0.64262 -1.42494) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.65278 1.41478) (end -0.65024 1.41478) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.81026 0.00254) (end -1.1811 0.00254) (layer Dwgs.User) (width 0.48)) (fp_line (start 1.19126 -0.95504) (end 0.82042 -0.95504) (layer Dwgs.User) (width 0.48)) (fp_line (start 1.19888 0.95758) (end 0.82804 0.95758) (layer Dwgs.User) (width 0.48)) (fp_line (start -0.635 -1.4224) (end -0.635 -0.7112) (layer F.SilkS) (width 0.254)) (fp_line (start 0.2032 -1.4224) (end -0.635 -1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start 0.2032 1.4224) (end -0.635 1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start -0.635 0.7112) (end -0.635 1.4224) (layer F.SilkS) (width 0.254)) (pad 3 smd rect (at -1.10236 0.00254 180) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.10744 -0.9525 180) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 1 smd rect (at 1.10744 0.94996 180) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 25 "Net-(FET1-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_IC-FP:SOT23-6 (layer F.Cu) (tedit 57EB917C) (tstamp 57E91217) (at 103.7 66.899901 270) (descr "ROTATED COUNTERCLOCKWISE 90 BY PENKO TO BA AS IS IN THE REAL REEL") (tags "ROTATED COUNTERCLOCKWISE 90 BY PENKO TO BA AS IS IN THE REAL REEL") (path /57EA3888) (attr smd) (fp_text reference IC1 (at -0.299901 -2.5 270) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value PIC10F206-I/OT (at -1.499901 -3.2 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_circle (center 0.24892 0.92456) (end 0.36068 1.03632) (layer F.SilkS) (width 0.15)) (fp_line (start -0.80772 -0.5207) (end -0.80772 -0.42672) (layer F.SilkS) (width 0.2032)) (fp_line (start -0.80772 0.42672) (end -0.80772 0.5207) (layer F.SilkS) (width 0.2032)) (fp_line (start 0.81026 -0.5207) (end 0.81026 -0.42672) (layer F.SilkS) (width 0.2032)) (fp_line (start 0.81026 0.42672) (end 0.81026 0.5207) (layer F.SilkS) (width 0.2032)) (fp_line (start -0.81026 1.4224) (end -0.81026 -1.4224) (layer Dwgs.User) (width 0.2032)) (fp_line (start 0.81026 1.4224) (end -0.81026 1.4224) (layer F.SilkS) (width 0.2032)) (fp_line (start 0.81026 -1.4224) (end 0.81026 1.4224) (layer Dwgs.User) (width 0.2032)) (fp_line (start -0.81026 -1.4224) (end 0.81026 -1.4224) (layer F.SilkS) (width 0.2032)) (fp_line (start -1.42494 0.32258) (end -1.42494 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -0.32258) (end -0.92456 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.92456 0.32258) (end -0.92456 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 0.32258) (end -0.92456 0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 1.27254) (end -1.42494 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 0.62484) (end -0.92456 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.92456 1.27254) (end -0.92456 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 1.27254) (end -0.92456 1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -0.62484) (end -1.42494 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -1.27254) (end -0.92456 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.92456 -0.62484) (end -0.92456 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -0.62484) (end -0.92456 -0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -0.62484) (end 0.92456 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -1.27254) (end 1.42494 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start 1.42494 -0.62484) (end 1.42494 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -0.62484) (end 1.42494 -0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 0.32258) (end 0.92456 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -0.32258) (end 1.42494 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 1.42494 0.32258) (end 1.42494 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 0.32258) (end 1.42494 0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 1.27254) (end 0.92456 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 0.62484) (end 1.42494 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 1.42494 1.27254) (end 1.42494 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 1.27254) (end 1.42494 1.27254) (layer Dwgs.User) (width 0.06604)) (fp_circle (center 1.13792 1.81356) (end 1.24968 1.92532) (layer F.SilkS) (width 0.15)) (pad 1 smd rect (at 1.3001 0.95) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 27 /SDA) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.3001 0) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 3 smd rect (at 1.3001 -0.95) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 28 /SCL) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 4 smd rect (at -1.3001 -0.95) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 81 /IRES) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 5 smd rect (at -1.3001 0) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 6 smd rect (at -1.3001 0.95) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 96 /HPD) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_RLC-FP:SD75 (layer F.Cu) (tedit 57EB917C) (tstamp 57E91223) (at 97.3 87.4 270) (path /57618A41) (attr smd) (fp_text reference L1 (at 2.8 4.45 270) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "CL22uH / YS75" (at -3.175 4.445 270) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -3.048 3.556) (end -2 3.556) (layer F.SilkS) (width 0.127)) (fp_line (start 3.556 3.556) (end 3.556 -3.048) (layer F.SilkS) (width 0.127)) (fp_line (start 3.556 -3.048) (end 3.048 -3.556) (layer F.SilkS) (width 0.127)) (fp_line (start -2 -3.556) (end -3.556 -3.556) (layer F.SilkS) (width 0.127)) (fp_line (start -3.556 -3.556) (end -3.556 3.048) (layer F.SilkS) (width 0.127)) (fp_line (start -3.556 3.048) (end -3.048 3.556) (layer F.SilkS) (width 0.127)) (fp_line (start 3.048 -3.556) (end 2 -3.556) (layer F.SilkS) (width 0.127)) (fp_line (start 2 3.556) (end 3.556 3.556) (layer F.SilkS) (width 0.127)) (pad 2 smd rect (at 0 2.54 270) (size 3.048 3.556) (layers F.Cu F.Mask) (net 16 "Net-(D1-Pad2)")) (pad 1 smd rect (at 0 -2.54 270) (size 3.048 3.556) (layers F.Cu F.Mask) (net 26 VDD)) (pad Past smd rect (at 0 -1.25 270) (size 3.048 0.9) (layers F.Paste)) (pad Past smd rect (at 0 -3.85 270) (size 3.048 0.9) (layers F.Paste)) (pad Past smd rect (at 0 -2.54 270) (size 3.048 0.9) (layers F.Paste)) (pad Past smd rect (at 0 2.54 270) (size 3.048 0.9) (layers F.Paste)) (pad Past smd rect (at 0 3.85 270) (size 3.048 0.9) (layers F.Paste)) (pad Past smd rect (at 0 1.25 270) (size 3.048 0.9) (layers F.Paste)) ) (module OLIMEX_Connectors-FP:FPV-WZA21-40-LF (layer F.Cu) (tedit 5B4EF771) (tstamp 57E912AD) (at 59.35 68.4 90) (path /57616F69) (attr smd) (fp_text reference P1 (at -0.35 -0.25 90) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value CONN_01X40 (at -0.05 -4.8 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 12.1 -0.85) (end 12.1 -3.5) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 -3.5) (end -12.1 -3.5) (layer F.Fab) (width 0.254)) (fp_line (start -12.1 -3.5) (end -12.1 -0.85) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.15) (end 12.1 2.2) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.2) (end 10.25 2.2) (layer F.Fab) (width 0.254)) (fp_line (start -12.1 2.15) (end -12.1 2.2) (layer F.Fab) (width 0.254)) (fp_line (start -12.1 2.2) (end -10.25 2.2) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.2) (end 10.25 2.2) (layer F.SilkS) (width 0.254)) (fp_line (start 10.2489 2.19964) (end -10.2489 2.19964) (layer F.Fab) (width 0.254)) (fp_line (start -10.25 2.2) (end -12.1 2.2) (layer F.SilkS) (width 0.254)) (fp_line (start -12.1 2.2) (end -12.1 2.16) (layer F.SilkS) (width 0.254)) (fp_line (start -12.09802 2.159) (end -12.09802 -0.8382) (layer F.Fab) (width 0.254)) (fp_line (start -12.1 -0.84) (end -12.1 -3.5) (layer F.SilkS) (width 0.254)) (fp_line (start -12.1 -3.5) (end 12.1 -3.5) (layer F.SilkS) (width 0.254)) (fp_line (start 12.1 -3.5) (end 12.1 -0.84) (layer F.SilkS) (width 0.254)) (fp_line (start 12.09802 -0.8382) (end 12.09802 2.159) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.16) (end 12.1 2.2) (layer F.SilkS) (width 0.254)) (pad P2 smd rect (at 11.9 0.65 270) (size 2.4 2.6) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad P1 smd rect (at -11.9 0.65 270) (size 2.4 2.6) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 40 smd rect (at 9.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 27 /SDA) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 39 smd rect (at 9.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 28 /SCL) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 38 smd rect (at 8.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 97 "Net-(P1-Pad38)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 37 smd rect (at 8.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 100 /PIC_RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 36 smd rect (at 7.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 23 /LCD_BKL) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 35 smd rect (at 7.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 34 /LCD_PWRE) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 34 smd rect (at 6.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 29 /RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 33 smd rect (at 6.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 96 /HPD) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 32 smd rect (at 5.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 84 /LCD_DE) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 31 smd rect (at 5.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 85 /LCD_CLK) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 30 smd rect (at 4.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 82 /VSINK) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 29 smd rect (at 4.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 83 /HSYNC) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 28 smd rect (at 3.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 50 /LVDIEC_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 27 smd rect (at 3.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 51 /LVDIEC_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 26 smd rect (at 2.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 52 /LVDIE3_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 25 smd rect (at 2.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 53 /LVDIE3_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 24 smd rect (at 1.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 86 /LCD_B3) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 23 smd rect (at 1.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 87 /LCD_B2) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 22 smd rect (at 0.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 88 /LCD_B1) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 21 smd rect (at 0.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 89 /LCD_B0) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 20 smd rect (at -0.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 57 /LVDIO3_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 19 smd rect (at -0.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 58 /LVDIO3_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 18 smd rect (at -1.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 59 /LVDIE0_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 17 smd rect (at -1.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 60 /LVDIE0_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 16 smd rect (at -2.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 61 /LVDIE1_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 15 smd rect (at -2.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 62 /LVDIE1_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 14 smd rect (at -3.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 63 /LVDIE2_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 13 smd rect (at -3.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 64 /LVDIE2_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 12 smd rect (at -4.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 48 /LVDIO0_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 11 smd rect (at -4.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 47 /LVDIO0_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 10 smd rect (at -5.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 46 /LVDIO1_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 9 smd rect (at -5.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 45 /LVDIO1_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 8 smd rect (at -6.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 44 /LVDIO2_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 7 smd rect (at -6.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 43 /LVDIO2_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 6 smd rect (at -7.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 42 /LVDIOC_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 5 smd rect (at -7.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 41 /LVDIOC_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 4 smd rect (at -8.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 3 smd rect (at -8.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 2 smd rect (at -9.25 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 1 smd rect (at -9.75 2.75 270) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 80 "Net-(P1-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) ) (module OLIMEX_Crystal-FP:Q5x3.25 (layer F.Cu) (tedit 57EB917C) (tstamp 57E912CC) (at 65.993898 86.26669 135) (path /57619F80) (attr smd) (fp_text reference Q1 (at 3.11 -2.6 135) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value 4SB24.000F20E15/5x3.2mm/20ppm/20pF (at 0 -2.54 135) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start 2.54 1.016) (end 2.54 1.524) (layer F.SilkS) (width 0.127)) (fp_line (start 2.54 1.524) (end -2.54 1.524) (layer F.SilkS) (width 0.127)) (fp_line (start -2.54 1.524) (end -2.54 1.016) (layer F.SilkS) (width 0.127)) (fp_line (start -2.54 -1.016) (end -2.54 -1.524) (layer F.SilkS) (width 0.127)) (fp_line (start -2.54 -1.524) (end 2.54 -1.524) (layer F.SilkS) (width 0.127)) (fp_line (start 2.54 -1.524) (end 2.54 -1.016) (layer F.SilkS) (width 0.127)) (pad 2 smd rect (at 2.49 0 135) (size 1.7 1.7) (layers F.Cu F.Paste F.Mask) (net 11 "Net-(C12-Pad1)")) (pad 1 smd rect (at -2.49 0 135) (size 1.7 1.7) (layers F.Cu F.Paste F.Mask) (net 10 "Net-(C10-Pad1)")) ) (module OLIMEX_RLC-FP:R_0603_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E91314) (at 92.164 97.915) (descr "Resistor SMD 0603, reflow soldering, Vishay (see dcrcw.pdf)") (tags "resistor 0603") (path /57618A48) (attr smd) (fp_text reference R13 (at -0.014 1.985) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value "20K 1%" (at 0.127 1.778) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.762 -0.381) (end 0 -0.381) (layer F.Fab) (width 0.127)) (fp_line (start 0.762 0.381) (end 0.762 -0.381) (layer F.Fab) (width 0.127)) (fp_line (start -0.762 0.381) (end 0.762 0.381) (layer F.Fab) (width 0.127)) (fp_line (start -0.762 -0.381) (end -0.762 0.381) (layer F.Fab) (width 0.127)) (fp_line (start 0 -0.381) (end -0.762 -0.381) (layer F.Fab) (width 0.127)) (fp_line (start 0.508 -0.762) (end 1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 -0.762) (end 1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 0.762) (end 0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 -0.762) (end -1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 -0.762) (end -1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 0.762) (end -0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 0.762) (end 0.508 0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -0.508 -0.762) (end 0.508 -0.762) (layer F.SilkS) (width 0.254)) (pad 2 smd rect (at 0.889 0) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 68 "Net-(R13-Pad2)") (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.889 0) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 15 /VLEDS) (solder_mask_margin 0.0508)) (model Resistors_SMD/R_0603.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:R_0603_5MIL_DWS (layer F.Cu) (tedit 57EB9189) (tstamp 57E9131A) (at 95.775 97.915) (descr "Resistor SMD 0603, reflow soldering, Vishay (see dcrcw.pdf)") (tags "resistor 0603") (path /57618A4F) (attr smd) (fp_text reference R14 (at 0.025 1.835) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value "1.05K 1%" (at 0.127 1.778) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.508 -0.762) (end 0.508 -0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -0.508 0.762) (end 0.508 0.762) (layer F.SilkS) (width 0.254)) (fp_line (start -1.651 0.762) (end -0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -1.651 -0.762) (end -1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.508 -0.762) (end -1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 0.762) (end 0.508 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.651 -0.762) (end 1.651 0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.508 -0.762) (end 1.651 -0.762) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.381) (end -0.762 -0.381) (layer F.Fab) (width 0.127)) (fp_line (start -0.762 -0.381) (end -0.762 0.381) (layer F.Fab) (width 0.127)) (fp_line (start -0.762 0.381) (end 0.762 0.381) (layer F.Fab) (width 0.127)) (fp_line (start 0.762 0.381) (end 0.762 -0.381) (layer F.Fab) (width 0.127)) (fp_line (start 0.762 -0.381) (end 0 -0.381) (layer F.Fab) (width 0.127)) (pad 1 smd rect (at -0.889 0) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 68 "Net-(R13-Pad2)") (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.889 0) (size 1.016 1.016) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (model Resistors_SMD/R_0603.wrl (at (xyz 0 0 0)) (scale (xyz 1 1 1)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:R_MATRIX_4_KICAD (layer F.Cu) (tedit 57EB917C) (tstamp 57E9132C) (at 94.25 73.05 180) (path /57EB1562) (attr smd) (fp_text reference RM1 (at -0.15 -2.75 180) (layer F.SilkS) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_text value "(na)" (at 8.9154 2.9591 180) (layer F.Fab) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_line (start 2.0066 1.4732) (end 1.7907 1.4732) (layer F.SilkS) (width 0.254)) (fp_line (start 2.0066 -1.4732) (end 2.0066 1.4732) (layer F.SilkS) (width 0.254)) (fp_line (start 1.8161 -1.4732) (end 2.0066 -1.4732) (layer F.SilkS) (width 0.254)) (fp_line (start -2.0066 1.4732) (end -1.7907 1.4732) (layer F.SilkS) (width 0.254)) (fp_line (start -1.9812 -1.4732) (end -1.8034 -1.4732) (layer F.SilkS) (width 0.254)) (fp_line (start -1.9939 -1.4732) (end -1.9939 1.4732) (layer F.SilkS) (width 0.254)) (fp_line (start 2.0066 -1.4732) (end 2.0066 1.4605) (layer Dwgs.User) (width 0.254)) (fp_line (start -2.0066 1.4732) (end 1.9431 1.4732) (layer Dwgs.User) (width 0.254)) (fp_line (start -2.0066 -1.4732) (end -2.0066 1.4732) (layer Dwgs.User) (width 0.254)) (fp_line (start -2.0066 -1.4732) (end 2.0066 -1.4732) (layer Dwgs.User) (width 0.254)) (fp_line (start 1.6383 0.6477) (end 1.00838 0.65532) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.9525 0.5334) (end 1.60782 0.5334) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.95758 -0.49784) (end 1.6002 -0.49784) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.99314 -0.64008) (end 1.5748 -0.64008) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.90678 -0.77724) (end 1.66878 -0.77724) (layer Dwgs.User) (width 0.15)) (fp_line (start 1.65608 -0.77724) (end 1.6637 0.74168) (layer Dwgs.User) (width 0.15)) (fp_line (start 1.6637 0.75692) (end 0.9017 0.762) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.9017 0.762) (end 0.89662 -0.76708) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.17526 0.6604) (end 0.55372 0.66294) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.1651 0.55118) (end 0.5842 0.55118) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.18542 -0.64516) (end 0.55118 -0.64516) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.16256 -0.50292) (end 0.59436 -0.50292) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.15494 -0.77978) (end 0.62484 -0.77978) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.6223 -0.78232) (end 0.6223 0.76708) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.6223 0.76708) (end 0.15494 0.76708) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.15494 0.76708) (end 0.15494 -0.77724) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.58928 0.56134) (end -0.18034 0.56134) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.58166 0.64516) (end -0.23876 0.64516) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.58166 -0.51816) (end -0.18542 -0.51816) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.60198 -0.63246) (end -0.21336 -0.62992) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.62738 -0.77216) (end -0.12192 -0.77216) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.12192 -0.77724) (end -0.12446 0.78232) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.12446 0.78232) (end -0.6223 0.78232) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.6223 0.78232) (end -0.6223 -0.77724) (layer Dwgs.User) (width 0.15)) (fp_line (start -1.64338 -0.51816) (end -1.0287 -0.51308) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.98044 0.508) (end -1.61798 0.508) (layer Dwgs.User) (width 0.15)) (fp_line (start -1.61544 0.65532) (end -1.00838 0.65278) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.9398 -0.6223) (end -1.6383 -0.6223) (layer Dwgs.User) (width 0.15)) (fp_line (start -1.68402 -0.762) (end -1.68402 0.78994) (layer Dwgs.User) (width 0.15)) (fp_line (start -1.67894 -0.75692) (end -0.93218 -0.75692) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.92964 -0.762) (end -0.92964 0.78994) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.92964 0.78994) (end -1.6383 0.78994) (layer Dwgs.User) (width 0.15)) (pad 3 smd rect (at 0.381 0.762 180) (size 0.508 1.016) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at -0.381 0.762 180) (size 0.508 1.016) (layers F.Cu F.Paste F.Mask) (net 30 /TWI_SCL) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 6 smd rect (at 0.381 -0.762 180) (size 0.508 1.016) (layers F.Cu F.Paste F.Mask) (net 29 /RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 7 smd rect (at -0.381 -0.762 180) (size 0.508 1.016) (layers F.Cu F.Paste F.Mask) (net 28 /SCL) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 4 smd rect (at 1.27 0.762 180) (size 0.762 1.016) (layers F.Cu F.Paste F.Mask) (net 32 /CTP_INT) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 5 smd rect (at 1.27 -0.762 180) (size 0.762 1.016) (layers F.Cu F.Paste F.Mask) (net 96 /HPD) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 1 smd rect (at -1.27 0.762 180) (size 0.762 1.016) (layers F.Cu F.Paste F.Mask) (net 31 /TWI_SDA) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 8 smd rect (at -1.27 -0.762 180) (size 0.762 1.016) (layers F.Cu F.Paste F.Mask) (net 27 /SDA) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_Transistors-FP:SOT23 (layer F.Cu) (tedit 57EB917C) (tstamp 57E9133A) (at 58.4 90.7 90) (path /57EDF3B3) (attr smd) (fp_text reference T1 (at 1.25 2.5 90) (layer F.SilkS) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_text value "DTC114YKA(SOT-23)" (at -3.45 -6.5 90) (layer F.Fab) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_line (start -0.635 0.7112) (end -0.635 1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start 0.2032 1.4224) (end -0.635 1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start 0.2032 -1.4224) (end -0.635 -1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start -0.635 -1.4224) (end -0.635 -0.7112) (layer F.SilkS) (width 0.254)) (fp_line (start 1.19888 0.95758) (end 0.82804 0.95758) (layer Dwgs.User) (width 0.48)) (fp_line (start 1.19126 -0.95504) (end 0.82042 -0.95504) (layer Dwgs.User) (width 0.48)) (fp_line (start -0.81026 0.00254) (end -1.1811 0.00254) (layer Dwgs.User) (width 0.48)) (fp_line (start 0.65278 1.41478) (end -0.65024 1.41478) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65532 -1.42494) (end 0.64262 -1.42494) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65024 0.00762) (end -0.65278 1.35636) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65024 0.00508) (end -0.65024 -1.41732) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.65278 -1.4097) (end 0.65278 1.4097) (layer Dwgs.User) (width 0.15)) (pad 1 smd rect (at 1.10744 0.94996 90) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 34 /LCD_PWRE) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.10744 -0.9525 90) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 3 smd rect (at -1.10236 0.00254 90) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 67 "Net-(R3-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_IC-FP:QFN56_7x7mm_0.4p (layer F.Cu) (tedit 57EB917C) (tstamp 57E9138B) (at 74.1 80.15 270) (path /57619E4C) (fp_text reference U2 (at 0 5 270) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value NCS8801 (at 0.25 -5.2 270) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -3.700001 -4.2) (end -3.7 -3) (layer F.SilkS) (width 0.254)) (fp_line (start -4.1 -4.2) (end -3.700001 -4.2) (layer F.SilkS) (width 0.254)) (fp_line (start -4.1 -3.7) (end -4.1 -4.2) (layer F.SilkS) (width 0.254)) (fp_line (start -3 -3.7) (end -4.1 -3.7) (layer F.SilkS) (width 0.254)) (fp_line (start -3.7 3.7) (end -3.7 3) (layer F.SilkS) (width 0.254)) (fp_line (start -3 3.7) (end -3.7 3.7) (layer F.SilkS) (width 0.254)) (fp_line (start 3.7 3.7) (end 3 3.7) (layer F.SilkS) (width 0.254)) (fp_line (start 3.7 3) (end 3.7 3.7) (layer F.SilkS) (width 0.254)) (fp_line (start 3.7 -3.7) (end 3.7 -3) (layer F.SilkS) (width 0.254)) (fp_line (start 3 -3.7) (end 3.7 -3.7) (layer F.SilkS) (width 0.254)) (fp_line (start -3.65 3.65) (end -3.65 -3.65) (layer F.Fab) (width 0.1)) (fp_line (start 3.65 3.65) (end -3.65 3.65) (layer F.Fab) (width 0.1)) (fp_line (start 3.65 -3.65) (end 3.65 3.65) (layer F.Fab) (width 0.1)) (fp_line (start -3.65 -3.65) (end 3.65 -3.65) (layer F.Fab) (width 0.1)) (pad 0 thru_hole rect (at 0 0 270) (size 1.4224 1.4224) (drill 1.2) (layers .Cu .Mask) (net 1 GND) (zone_connect 2)) (pad 56 smd rect (at -2.6 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 84 /LCD_DE) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 55 smd rect (at -2.2 -3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 54 smd rect (at -1.8 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 27 /SDA) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 53 smd rect (at -1.4 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 28 /SCL) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 52 smd rect (at -1 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 3 +1V2) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 51 smd rect (at -0.6 -3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 50 smd rect (at -0.2 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 49 smd rect (at 0.2 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 48 smd rect (at 0.6 -3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 69 "Net-(U2-Pad48)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 47 smd rect (at 1 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 46 smd rect (at 1.4 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 45 smd rect (at 1.8 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 66 "Net-(R1-Pad2)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 44 smd rect (at 2.2 -3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 70 "Net-(U2-Pad44)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 43 smd rect (at 2.6 -3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 13 "Net-(C15-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 42 smd rect (at 3.6 -2.6 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 71 "Net-(U2-Pad42)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 41 smd rect (at 3.599999 -2.2 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 72 "Net-(U2-Pad41)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 40 smd rect (at 3.6 -1.8 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 73 "Net-(U2-Pad40)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 39 smd rect (at 3.6 -1.4 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 74 "Net-(U2-Pad39)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 38 smd rect (at 3.6 -1 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 90 /DP1_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 37 smd rect (at 3.599999 -0.6 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 91 /DP1_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 36 smd rect (at 3.6 -0.2 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 92 /DPO_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 35 smd rect (at 3.6 0.2 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 93 /DPO_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 34 smd rect (at 3.599999 0.6 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 94 /DPA_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 33 smd rect (at 3.6 1 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 95 /DPA_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 32 smd rect (at 3.6 1.4 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 14 "Net-(C16-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 31 smd rect (at 3.6 1.8 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 12 "Net-(C13-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 30 smd rect (at 3.599999 2.2 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 10 "Net-(C10-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 29 smd rect (at 3.6 2.6 180) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 11 "Net-(C12-Pad1)") (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 28 smd rect (at 2.6 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 89 /LCD_B0) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 27 smd rect (at 2.2 3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 88 /LCD_B1) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 26 smd rect (at 1.8 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 87 /LCD_B2) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 25 smd rect (at 1.4 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 86 /LCD_B3) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 24 smd rect (at 1 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 53 /LVDIE3_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 23 smd rect (at 0.6 3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 52 /LVDIE3_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 22 smd rect (at 0.2 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 51 /LVDIEC_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 21 smd rect (at -0.2 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 50 /LVDIEC_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 20 smd rect (at -0.6 3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 64 /LVDIE2_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 19 smd rect (at -1 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 63 /LVDIE2_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 18 smd rect (at -1.4 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 62 /LVDIE1_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 17 smd rect (at -1.8 3.6 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 61 /LVDIE1_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 16 smd rect (at -2.2 3.599999 270) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 60 /LVDIE0_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 15 smd rect (at -2.6 3.6 90) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 59 /LVDIE0_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 14 smd rect (at -3.6 2.6) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 13 smd rect (at -3.599999 2.2) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 58 /LVDIO3_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 12 smd rect (at -3.6 1.8) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 57 /LVDIO3_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 11 smd rect (at -3.6 1.4) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 41 /LVDIOC_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 10 smd rect (at -3.6 1) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 42 /LVDIOC_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 9 smd rect (at -3.599999 0.6) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 43 /LVDIO2_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 8 smd rect (at -3.6 0.2) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 44 /LVDIO2_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 7 smd rect (at -3.6 -0.2) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 45 /LVDIO1_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 6 smd rect (at -3.599999 -0.6) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 46 /LVDIO1_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 5 smd rect (at -3.6 -1) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 47 /LVDIO0_P) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 4 smd rect (at -3.6 -1.4) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 48 /LVDIO0_N) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 3 smd rect (at -3.6 -1.8) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 85 /LCD_CLK) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad 2 smd rect (at -3.599999 -2.2) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 83 /HSYNC) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) (pad past smd rect (at 1.6 -1.8 270) (size 2.2 1.6) (layers F.Paste)) (pad past smd rect (at 1.6 1.8 270) (size 2.2 1.6) (layers F.Paste)) (pad past smd rect (at -1.6 1.8 270) (size 2.2 1.6) (layers F.Paste)) (pad past smd rect (at -1.6 -1.8 270) (size 2.2 1.6) (layers F.Paste)) (pad 0 smd rect (at 0 0 270) (size 5.7 5.7) (layers F.Cu F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -3.6 -2.6) (size 0.2 0.8) (layers F.Cu F.Paste F.Mask) (net 82 /VSINK) (solder_mask_margin 0.0508) (solder_paste_margin 0.0055)) ) (module OLIMEX_IC-FP:SOT23-6 (layer F.Cu) (tedit 58340717) (tstamp 57E91395) (at 96.775 93.465 180) (descr "ROTATED COUNTERCLOCKWISE 90 BY PENKO TO BA AS IS IN THE REAL REEL") (tags "ROTATED COUNTERCLOCKWISE 90 BY PENKO TO BA AS IS IN THE REAL REEL") (path /57618A6A) (attr smd) (fp_text reference U3 (at 3.525 -2.535 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value MT3608 (at 0.975 3.615 180) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_circle (center 1.13792 1.81356) (end 1.24968 1.92532) (layer F.SilkS) (width 0.15)) (fp_line (start 0.92456 1.27254) (end 1.42494 1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start 1.42494 1.27254) (end 1.42494 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 0.62484) (end 1.42494 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 1.27254) (end 0.92456 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 0.32258) (end 1.42494 0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 1.42494 0.32258) (end 1.42494 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -0.32258) (end 1.42494 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 0.32258) (end 0.92456 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -0.62484) (end 1.42494 -0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start 1.42494 -0.62484) (end 1.42494 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -1.27254) (end 1.42494 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start 0.92456 -0.62484) (end 0.92456 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -0.62484) (end -0.92456 -0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.92456 -0.62484) (end -0.92456 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -1.27254) (end -0.92456 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -0.62484) (end -1.42494 -1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 1.27254) (end -0.92456 1.27254) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.92456 1.27254) (end -0.92456 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 0.62484) (end -0.92456 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 1.27254) (end -1.42494 0.62484) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 0.32258) (end -0.92456 0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.92456 0.32258) (end -0.92456 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 -0.32258) (end -0.92456 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -1.42494 0.32258) (end -1.42494 -0.32258) (layer Dwgs.User) (width 0.06604)) (fp_line (start -0.81026 -1.4224) (end 0.81026 -1.4224) (layer F.SilkS) (width 0.2032)) (fp_line (start 0.81026 -1.4224) (end 0.81026 1.4224) (layer Dwgs.User) (width 0.2032)) (fp_line (start 0.81026 1.4224) (end -0.81026 1.4224) (layer F.SilkS) (width 0.2032)) (fp_line (start -0.81026 1.4224) (end -0.81026 -1.4224) (layer Dwgs.User) (width 0.2032)) (fp_line (start 0.81026 0.42672) (end 0.81026 0.5207) (layer F.SilkS) (width 0.2032)) (fp_line (start 0.81026 -0.5207) (end 0.81026 -0.42672) (layer F.SilkS) (width 0.2032)) (fp_line (start -0.80772 0.42672) (end -0.80772 0.5207) (layer F.SilkS) (width 0.2032)) (fp_line (start -0.80772 -0.5207) (end -0.80772 -0.42672) (layer F.SilkS) (width 0.2032)) (fp_circle (center 0.24892 0.92456) (end 0.36068 1.03632) (layer F.SilkS) (width 0.15)) (pad 6 smd rect (at -1.3001 0.95 270) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 5 smd rect (at -1.3001 0 270) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 26 VDD) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 4 smd rect (at -1.3001 -0.95 270) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 26 VDD) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 3 smd rect (at 1.3001 -0.95 270) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 68 "Net-(R13-Pad2)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.3001 0 270) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 1 smd rect (at 1.3001 0.95 270) (size 0.55 1.2) (layers F.Cu F.Paste F.Mask) (net 16 "Net-(D1-Pad2)") (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_Connectors-FP:GBH-254-SMT-40 (layer F.Cu) (tedit 57EB917C) (tstamp 57E913C1) (at 84.81 48.475) (path /57E8F91B) (attr smd) (fp_text reference uICR1 (at -13.45 7.1) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value ML40-GBH-254-SMT-40 (at 11.43 -6.35) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 28.194 -3.429) (end 25.4 -3.429) (layer F.Fab) (width 0.254)) (fp_line (start 28.194 3.429) (end 28.194 -3.429) (layer F.Fab) (width 0.254)) (fp_line (start 25.4 3.429) (end 28.194 3.429) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 3.175) (end 25.4 3.175) (layer F.Fab) (width 0.254)) (fp_line (start 25.4 -4.445) (end 26.67 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 -4.445) (end 29.21 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start 26.67 -4.445) (end 26.67 -4.699) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 -4.699) (end 26.67 -4.699) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 -4.445) (end 27.94 -4.699) (layer F.Fab) (width 0.254)) (fp_line (start 29.21 4.445) (end 29.21 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start 29.21 4.445) (end 25.4 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 3.175) (end 27.94 -3.175) (layer F.Fab) (width 0.254)) (fp_line (start 25.4 -3.175) (end 27.94 -3.175) (layer F.Fab) (width 0.254)) (fp_line (start 27.7 -3.3) (end 28.1 -3.3) (layer F.Fab) (width 0.254)) (fp_line (start 27.7 3.3) (end 28.1 3.3) (layer F.Fab) (width 0.254)) (fp_line (start -25.4 3.175) (end -27.94 3.175) (layer F.Fab) (width 0.254)) (fp_line (start -29.21 4.445) (end -25.4 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -28.194 3.429) (end -25.4 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -28.194 -3.429) (end -28.194 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -25.4 -3.429) (end -28.194 -3.429) (layer F.Fab) (width 0.254)) (fp_line (start -26.67 -4.445) (end -25.4 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start -26.67 -4.699) (end -26.67 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start -27.94 -4.699) (end -27.94 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start -26.67 -4.699) (end -27.94 -4.699) (layer F.Fab) (width 0.254)) (fp_line (start -29.21 -4.445) (end -29.21 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -29.21 -4.445) (end -27.94 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start -27.94 -3.175) (end -27.94 3.175) (layer F.Fab) (width 0.254)) (fp_line (start -27.94 -3.175) (end -25.4 -3.175) (layer F.Fab) (width 0.254)) (fp_line (start -28.1 -3.3) (end -27.7 -3.3) (layer F.Fab) (width 0.254)) (fp_line (start -28.1 3.3) (end -27.7 3.3) (layer F.Fab) (width 0.254)) (fp_line (start 27.7 3.3) (end 28.1 3.3) (layer F.SilkS) (width 0.254)) (fp_line (start -28.1 3.3) (end -27.7 3.3) (layer F.SilkS) (width 0.254)) (fp_line (start -28.1 -3.3) (end -27.7 -3.3) (layer F.SilkS) (width 0.254)) (fp_line (start 27.7 -3.3) (end 28.1 -3.3) (layer F.SilkS) (width 0.254)) (fp_line (start -27.94 -3.175) (end -25.4 -3.175) (layer F.SilkS) (width 0.254)) (fp_line (start -25.4 -3.175) (end 25.4 -3.175) (layer F.Fab) (width 0.254)) (fp_line (start 25.4 -3.175) (end 27.94 -3.175) (layer F.SilkS) (width 0.254)) (fp_line (start 27.94 3.175) (end 27.94 -3.175) (layer F.SilkS) (width 0.254)) (fp_line (start -27.94 -3.175) (end -27.94 3.175) (layer F.SilkS) (width 0.254)) (fp_line (start -29.21 -4.445) (end -27.94 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start 29.21 4.445) (end 25.4 4.445) (layer F.SilkS) (width 0.254)) (fp_line (start 25.4 4.445) (end 21.971 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 29.21 4.445) (end 29.21 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start -29.21 -4.445) (end -29.21 4.445) (layer F.SilkS) (width 0.254)) (fp_line (start 2.032 2.413) (end -2.032 2.413) (layer F.Fab) (width 0.254)) (fp_line (start -2.032 3.175) (end -2.032 2.413) (layer F.Fab) (width 0.254)) (fp_line (start -2.032 3.175) (end -19.558 3.175) (layer F.Fab) (width 0.254)) (fp_line (start 2.032 2.413) (end 2.032 3.175) (layer F.Fab) (width 0.254)) (fp_line (start 2.032 3.175) (end 2.032 3.429) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 -4.445) (end 27.94 -4.699) (layer F.SilkS) (width 0.254)) (fp_line (start 27.94 -4.699) (end 26.67 -4.699) (layer F.SilkS) (width 0.254)) (fp_line (start 26.67 -4.445) (end 26.67 -4.699) (layer F.SilkS) (width 0.254)) (fp_line (start 27.94 -4.445) (end 29.21 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start 0.635 -4.699) (end -0.635 -4.699) (layer F.Fab) (width 0.254)) (fp_line (start 0.635 -4.699) (end 0.635 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start 0.635 -4.445) (end 25.4 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start 25.4 -4.445) (end 26.67 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.635 -4.699) (end -0.635 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start -26.67 -4.699) (end -27.94 -4.699) (layer F.SilkS) (width 0.254)) (fp_line (start -27.94 -4.699) (end -27.94 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start -26.67 -4.699) (end -26.67 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start -26.67 -4.445) (end -25.4 -4.445) (layer F.SilkS) (width 0.254)) (fp_line (start -25.4 -4.445) (end -0.635 -4.445) (layer F.Fab) (width 0.254)) (fp_line (start 18.669 4.445) (end 2.032 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 2.032 4.445) (end -2.032 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 19.558 3.175) (end 19.558 3.429) (layer F.Fab) (width 0.254)) (fp_line (start 19.558 3.175) (end 2.032 3.175) (layer F.Fab) (width 0.254)) (fp_line (start 21.082 3.175) (end 21.082 3.429) (layer F.Fab) (width 0.254)) (fp_line (start 27.94 3.175) (end 25.4 3.175) (layer F.SilkS) (width 0.254)) (fp_line (start 25.4 3.175) (end 19.558 3.175) (layer F.Fab) (width 0.254)) (fp_line (start 18.669 4.445) (end 19.05 3.937) (layer F.Fab) (width 0.254)) (fp_line (start 21.59 3.937) (end 21.971 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 21.59 3.937) (end 21.082 3.937) (layer F.Fab) (width 0.254)) (fp_line (start 19.558 3.429) (end 2.032 3.429) (layer F.Fab) (width 0.254)) (fp_line (start 2.032 3.429) (end 2.032 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 21.082 3.429) (end 25.4 3.429) (layer F.Fab) (width 0.254)) (fp_line (start 25.4 3.429) (end 28.194 3.429) (layer F.SilkS) (width 0.254)) (fp_line (start 28.194 3.429) (end 28.194 -3.429) (layer F.SilkS) (width 0.254)) (fp_line (start 28.194 -3.429) (end 25.4 -3.429) (layer F.SilkS) (width 0.254)) (fp_line (start 25.4 -3.429) (end -25.4 -3.429) (layer F.Fab) (width 0.254)) (fp_line (start -25.4 -3.429) (end -28.194 -3.429) (layer F.SilkS) (width 0.254)) (fp_line (start -28.194 -3.429) (end -28.194 3.429) (layer F.SilkS) (width 0.254)) (fp_line (start -28.194 3.429) (end -25.4 3.429) (layer F.SilkS) (width 0.254)) (fp_line (start -25.4 3.429) (end -21.082 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -2.032 3.175) (end -2.032 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -2.032 3.429) (end -2.032 4.445) (layer F.Fab) (width 0.254)) (fp_line (start 19.558 3.429) (end 19.558 3.937) (layer F.Fab) (width 0.254)) (fp_line (start 19.558 3.937) (end 19.05 3.937) (layer F.Fab) (width 0.254)) (fp_line (start 21.082 3.429) (end 21.082 3.937) (layer F.Fab) (width 0.254)) (fp_line (start 21.082 3.937) (end 19.558 3.937) (layer F.Fab) (width 0.254)) (fp_line (start -29.21 4.445) (end -25.4 4.445) (layer F.SilkS) (width 0.254)) (fp_line (start -25.4 4.445) (end -24.892 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -24.892 4.318) (end -24.892 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -24.892 4.318) (end -23.368 4.318) (layer F.Fab) (width 0.254)) (fp_line (start -23.368 4.445) (end -23.368 4.318) (layer F.Fab) (width 0.254)) (fp_line (start -23.368 4.445) (end -21.971 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -21.082 3.429) (end -21.082 3.937) (layer F.Fab) (width 0.254)) (fp_line (start -19.558 3.429) (end -19.558 3.937) (layer F.Fab) (width 0.254)) (fp_line (start -19.558 3.429) (end -2.032 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -21.082 3.175) (end -21.082 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -19.558 3.175) (end -19.558 3.429) (layer F.Fab) (width 0.254)) (fp_line (start -19.558 3.175) (end -25.4 3.175) (layer F.Fab) (width 0.254)) (fp_line (start -25.4 3.175) (end -27.94 3.175) (layer F.SilkS) (width 0.254)) (fp_line (start -19.558 3.937) (end -21.082 3.937) (layer F.Fab) (width 0.254)) (fp_line (start -21.082 3.937) (end -21.59 3.937) (layer F.Fab) (width 0.254)) (fp_line (start -21.971 4.445) (end -21.59 3.937) (layer F.Fab) (width 0.254)) (fp_line (start -19.05 3.937) (end -18.669 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -18.669 4.445) (end -2.032 4.445) (layer F.Fab) (width 0.254)) (fp_line (start -19.05 3.937) (end -19.558 3.937) (layer F.Fab) (width 0.254)) (fp_text user 1 (at -26.035 1.27) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text user 2 (at -26.035 -1.27) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text user 40 (at 0.254 3.429) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (pad 40 smd rect (at 24.13 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 31 /TWI_SDA) (solder_mask_margin 0.0508)) (pad 39 smd rect (at 24.13 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 30 /TWI_SCL) (solder_mask_margin 0.0508)) (pad 38 smd rect (at 21.59 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508)) (pad 37 smd rect (at 21.59 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 32 /CTP_INT) (solder_mask_margin 0.0508)) (pad 36 smd rect (at 19.05 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 23 /LCD_BKL) (solder_mask_margin 0.0508)) (pad 35 smd rect (at 19.05 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 34 /LCD_PWRE) (solder_mask_margin 0.0508)) (pad 34 smd rect (at 16.51 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 36 /GPIO1) (solder_mask_margin 0.0508)) (pad 33 smd rect (at 16.51 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 35 /GPIO0) (solder_mask_margin 0.0508)) (pad 32 smd rect (at 13.97 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 38 /IMG_EN) (solder_mask_margin 0.0508)) (pad 31 smd rect (at 13.97 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 37 /DCR_EN) (solder_mask_margin 0.0508)) (pad 30 smd rect (at 11.43 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 40 /DAT_EDID) (solder_mask_margin 0.0508)) (pad 29 smd rect (at 11.43 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 39 /CLK_EDIE) (solder_mask_margin 0.0508)) (pad 28 smd rect (at 8.89 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 42 /LVDIOC_N) (solder_mask_margin 0.0508)) (pad 27 smd rect (at 8.89 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 41 /LVDIOC_P) (solder_mask_margin 0.0508)) (pad 26 smd rect (at 6.35 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 44 /LVDIO2_N) (solder_mask_margin 0.0508)) (pad 25 smd rect (at 6.35 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 43 /LVDIO2_P) (solder_mask_margin 0.0508)) (pad 24 smd rect (at 3.81 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 46 /LVDIO1_N) (solder_mask_margin 0.0508)) (pad 23 smd rect (at 3.81 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 45 /LVDIO1_P) (solder_mask_margin 0.0508)) (pad 22 smd rect (at 1.27 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 48 /LVDIO0_N) (solder_mask_margin 0.0508)) (pad 21 smd rect (at 1.27 3.125 270) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 47 /LVDIO0_P) (solder_mask_margin 0.0508)) (pad 20 smd rect (at -1.27 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 63 /LVDIE2_N) (solder_mask_margin 0.0508)) (pad 19 smd rect (at -1.27 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 64 /LVDIE2_P) (solder_mask_margin 0.0508)) (pad 18 smd rect (at -3.81 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 61 /LVDIE1_N) (solder_mask_margin 0.0508)) (pad 17 smd rect (at -3.81 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 62 /LVDIE1_P) (solder_mask_margin 0.0508)) (pad 16 smd rect (at -6.35 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 59 /LVDIE0_N) (solder_mask_margin 0.0508)) (pad 15 smd rect (at -6.35 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 60 /LVDIE0_P) (solder_mask_margin 0.0508)) (pad 14 smd rect (at -8.89 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 57 /LVDIO3_N) (solder_mask_margin 0.0508)) (pad 13 smd rect (at -8.89 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 58 /LVDIO3_P) (solder_mask_margin 0.0508)) (pad 12 smd rect (at -11.43 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 56 /VPWM_EN) (solder_mask_margin 0.0508)) (pad 11 smd rect (at -11.43 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 24 /VLED_EN) (solder_mask_margin 0.0508)) (pad 10 smd rect (at -13.97 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 54 /D21) (solder_mask_margin 0.0508)) (pad 9 smd rect (at -13.97 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 55 /D20) (solder_mask_margin 0.0508)) (pad 8 smd rect (at -16.51 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 52 /LVDIE3_N) (solder_mask_margin 0.0508)) (pad 7 smd rect (at -16.51 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 53 /LVDIE3_P) (solder_mask_margin 0.0508)) (pad 6 smd rect (at -19.05 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 50 /LVDIEC_N) (solder_mask_margin 0.0508)) (pad 5 smd rect (at -19.05 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 51 /LVDIEC_P) (solder_mask_margin 0.0508)) (pad 4 smd rect (at -21.59 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 3 smd rect (at -21.59 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508)) (pad 2 smd rect (at -24.13 -3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -24.13 3.125 90) (size 4.25 1) (layers F.Cu F.Paste F.Mask) (net 98 +5V) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:R0402 (layer F.Cu) (tedit 57EB917C) (tstamp 57E9255F) (at 102.5 63.3 90) (path /57EB5BFE) (fp_text reference R11 (at 0 -1.2 90) (layer F.SilkS) (effects (font (size 0.7 0.7) (thickness 0.1))) ) (fp_text value 10K (at 0.06 1.43 90) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.9 0.45) (end -0.9 -0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start 0.9 0.45) (end -0.9 0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start 0.9 -0.45) (end 0.9 0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start -0.9 -0.45) (end 0.9 -0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start -0.35 -0.45) (end 0.35 -0.45) (layer F.SilkS) (width 0.15)) (fp_line (start -0.35 0.45) (end 0.35 0.45) (layer F.SilkS) (width 0.15)) (fp_line (start -0.5 0.25) (end -0.5 -0.25) (layer F.Fab) (width 0.15)) (fp_line (start 0.5 0.25) (end -0.5 0.25) (layer F.Fab) (width 0.15)) (fp_line (start 0.5 -0.25) (end 0.5 0.25) (layer F.Fab) (width 0.15)) (fp_line (start -0.5 -0.25) (end 0.5 -0.25) (layer F.Fab) (width 0.15)) (pad 2 smd rect (at 0.5 0 90) (size 0.6 0.6) (layers F.Cu F.Paste F.Mask) (net 100 /PIC_RES)) (pad 1 smd rect (at -0.5 0 90) (size 0.6 0.6) (layers F.Cu F.Paste F.Mask) (net 2 +3V3)) ) (module OLIMEX_RLC-FP:R0402 (layer F.Cu) (tedit 57EB917C) (tstamp 57E92564) (at 69.15 91) (path /57618AED) (fp_text reference R12 (at -0.05 1.1) (layer F.SilkS) (effects (font (size 0.7 0.7) (thickness 0.1))) ) (fp_text value "(na) 100K" (at 0.06 1.43) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.5 -0.25) (end 0.5 -0.25) (layer F.Fab) (width 0.15)) (fp_line (start 0.5 -0.25) (end 0.5 0.25) (layer F.Fab) (width 0.15)) (fp_line (start 0.5 0.25) (end -0.5 0.25) (layer F.Fab) (width 0.15)) (fp_line (start -0.5 0.25) (end -0.5 -0.25) (layer F.Fab) (width 0.15)) (fp_line (start -0.35 0.45) (end 0.35 0.45) (layer F.SilkS) (width 0.15)) (fp_line (start -0.35 -0.45) (end 0.35 -0.45) (layer F.SilkS) (width 0.15)) (fp_line (start -0.9 -0.45) (end 0.9 -0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start 0.9 -0.45) (end 0.9 0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start 0.9 0.45) (end -0.9 0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start -0.9 0.45) (end -0.9 -0.45) (layer F.CrtYd) (width 0.15)) (pad 1 smd rect (at -0.5 0) (size 0.6 0.6) (layers F.Cu F.Paste F.Mask) (net 1 GND)) (pad 2 smd rect (at 0.5 0) (size 0.6 0.6) (layers F.Cu F.Paste F.Mask) (net 9 /EDP_AUX_P)) ) (module OLIMEX_RLC-FP:R0402 (layer F.Cu) (tedit 57EB917C) (tstamp 57E92569) (at 71.4 90.999999 180) (path /57618AF4) (fp_text reference R15 (at 0.05 -1.15 180) (layer F.SilkS) (effects (font (size 0.7 0.7) (thickness 0.1))) ) (fp_text value "(na) 100K" (at 0.06 1.43 180) (layer F.Fab) hide (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -0.5 -0.25) (end 0.5 -0.25) (layer F.Fab) (width 0.15)) (fp_line (start 0.5 -0.25) (end 0.5 0.25) (layer F.Fab) (width 0.15)) (fp_line (start 0.5 0.25) (end -0.5 0.25) (layer F.Fab) (width 0.15)) (fp_line (start -0.5 0.25) (end -0.5 -0.25) (layer F.Fab) (width 0.15)) (fp_line (start -0.35 0.45) (end 0.35 0.45) (layer F.SilkS) (width 0.15)) (fp_line (start -0.35 -0.45) (end 0.35 -0.45) (layer F.SilkS) (width 0.15)) (fp_line (start -0.9 -0.45) (end 0.9 -0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start 0.9 -0.45) (end 0.9 0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start 0.9 0.45) (end -0.9 0.45) (layer F.CrtYd) (width 0.15)) (fp_line (start -0.9 0.45) (end -0.9 -0.45) (layer F.CrtYd) (width 0.15)) (pad 1 smd rect (at -0.5 0 180) (size 0.6 0.6) (layers F.Cu F.Paste F.Mask) (net 2 +3V3)) (pad 2 smd rect (at 0.5 0 180) (size 0.6 0.6) (layers F.Cu F.Paste F.Mask) (net 8 /EDP_AUX_N)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57E933DE) (at 82.792 81.95 180) (tags C0402) (path /57EC0F70) (attr smd) (fp_text reference R1 (at -0.358 1.15 180) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 2.2K (at 0 1.397 180) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 180) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 66 "Net-(R1-Pad2)") (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 5835873A) (tstamp 57E933E3) (at 56 92.2 270) (tags C0402) (path /57EC3835) (attr smd) (fp_text reference R3 (at -2.1 0 270) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 2.2K (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 67 "Net-(R3-Pad1)") (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 25 "Net-(FET1-Pad1)") (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 5B4EF713) (tstamp 57E933ED) (at 102.5 60.6 270) (tags C0402) (path /57EB6C81) (attr smd) (fp_text reference R10 (at -0.058 1.25 270) (layer F.SilkS) (effects (font (size 0.7 0.7) (thickness 0.1))) ) (fp_text value 2.2K (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 100 /PIC_RES) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 96 /HPD) (solder_mask_margin 0.0508)) ) (module OLIMEX_Connectors-FP:PWR-JACK-MIL-SMT (layer F.Cu) (tedit 57EB917C) (tstamp 57EA4B55) (at 110.25 86.05 270) (path /57ECA61C) (fp_text reference PWR1 (at -0.05 5.775 270) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value "5 .. 16V DC" (at 0.1 -8.6 270) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -4.5 -7.4) (end 4.5 -7.4) (layer F.Fab) (width 0.1)) (fp_line (start -4.5 7.4) (end 4.5 7.4) (layer F.Fab) (width 0.1)) (fp_line (start -4.5 -7.4) (end -4.5 7.4) (layer F.Fab) (width 0.1)) (fp_line (start 4.5 7.4) (end 4.5 -7.4) (layer F.Fab) (width 0.1)) (fp_line (start -1.75 -7.4) (end -1.75 3.3) (layer F.Fab) (width 0.1)) (fp_line (start -1.75 3.3) (end 1.75 3.3) (layer F.Fab) (width 0.1)) (fp_line (start 1.75 3.3) (end 1.75 -7.4) (layer F.Fab) (width 0.1)) (fp_line (start -4.5 -7.5) (end 4.75 -7.5) (layer F.SilkS) (width 0.1)) (fp_line (start 4.75 -7.5) (end 4.75 -4.25) (layer F.SilkS) (width 0.1)) (fp_line (start -4.5 -7.5) (end -4.75 -7.5) (layer F.SilkS) (width 0.1)) (fp_line (start -4.75 -7.5) (end -4.75 -4.25) (layer F.SilkS) (width 0.1)) (fp_line (start -4.75 -0.25) (end -4.75 2.25) (layer F.SilkS) (width 0.1)) (fp_line (start 4.75 -0.25) (end 4.75 2.25) (layer F.SilkS) (width 0.1)) (fp_line (start 4.75 6.25) (end 4.75 7.5) (layer F.SilkS) (width 0.1)) (fp_line (start 4.75 7.5) (end -4.75 7.5) (layer F.SilkS) (width 0.1)) (fp_line (start -4.75 7.5) (end -4.75 6.25) (layer F.SilkS) (width 0.1)) (pad "" np_thru_hole circle (at 0 -2.2 270) (size 1.35 1.35) (drill 1.35) (layers .Cu .Mask)) (pad "" np_thru_hole circle (at 0 2.2 270) (size 1.5 1.5) (drill 1.35) (layers .Cu .Mask)) (pad 1 smd rect (at 6.45 -2.2 270) (size 3.5 3) (layers F.Cu F.Paste F.Mask) (net 26 VDD)) (pad 1 smd rect (at 6.45 4.3 270) (size 3.5 3) (layers F.Cu F.Paste F.Mask) (net 26 VDD)) (pad 3 smd rect (at -6.45 4.3 270) (size 3.5 3) (layers F.Cu F.Paste F.Mask) (net 1 GND)) (pad 2 smd rect (at -6.45 -2.2 270) (size 3.5 3) (layers F.Cu F.Paste F.Mask) (net 1 GND)) (pad 1 smd rect (at 6.5 1 270) (size 3.5 11) (layers F.Cu) (net 26 VDD)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57EA5E97) (at 104.14 58.735 90) (tags C0402) (path /5B1A3D2D) (attr smd) (fp_text reference R2 (at -0.015 1.76 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 2.2K (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 24 /VLED_EN) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57EA5E9C) (at 79.8 77.292 90) (tags C0402) (path /57EB7305) (attr smd) (fp_text reference R5 (at 1.95 0 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 10K (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 27 /SDA) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 57EB917C) (tstamp 57EA5EA1) (at 82.4 77.3 90) (tags C0402) (path /57EB7425) (attr smd) (fp_text reference R6 (at 0 1.4 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 10K (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 28 /SCL) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 5835874A) (tstamp 57EA5EA6) (at 56 94.400001 90) (tags C0402) (path /57EC3827) (attr smd) (fp_text reference R8 (at -2.749999 0.05 90) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.2))) ) (fp_text value 10K (at 0 1.397 90) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 25 "Net-(FET1-Pad1)") (solder_mask_margin 0.0508)) ) (module OLIMEX_Transistors-FP:SOT23 (layer F.Cu) (tedit 555301BA) (tstamp 5833F7F0) (at 98.55254 73.00236 270) (path /5834B1B7) (attr smd) (fp_text reference D2 (at -2.05236 1.35254 270) (layer F.SilkS) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_text value BAT54C (at 3.5052 2.6416 270) (layer F.Fab) (effects (font (size 1.1 1.1) (thickness 0.254))) ) (fp_line (start -0.635 0.7112) (end -0.635 1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start 0.2032 1.4224) (end -0.635 1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start 0.2032 -1.4224) (end -0.635 -1.4224) (layer F.SilkS) (width 0.254)) (fp_line (start -0.635 -1.4224) (end -0.635 -0.7112) (layer F.SilkS) (width 0.254)) (fp_line (start 1.19888 0.95758) (end 0.82804 0.95758) (layer Dwgs.User) (width 0.48)) (fp_line (start 1.19126 -0.95504) (end 0.82042 -0.95504) (layer Dwgs.User) (width 0.48)) (fp_line (start -0.81026 0.00254) (end -1.1811 0.00254) (layer Dwgs.User) (width 0.48)) (fp_line (start 0.65278 1.41478) (end -0.65024 1.41478) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65532 -1.42494) (end 0.64262 -1.42494) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65024 0.00762) (end -0.65278 1.35636) (layer Dwgs.User) (width 0.15)) (fp_line (start -0.65024 0.00508) (end -0.65024 -1.41732) (layer Dwgs.User) (width 0.15)) (fp_line (start 0.65278 -1.4097) (end 0.65278 1.4097) (layer Dwgs.User) (width 0.15)) (pad 3 smd rect (at -1.10236 0.00254 270) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 1.10744 -0.9525 270) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 81 /IRES) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 1 smd rect (at 1.10744 0.94996 270) (size 1.4 1) (layers F.Cu F.Paste F.Mask) (net 29 /RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) ) (module OLIMEX_Transistors-FP:SOT89 (layer F.Cu) (tedit 55530229) (tstamp 58340038) (at 91.9493 81.9 270) (descr "SOT89-3, Housing, Handsoldering,") (tags "SOT89-3, Housing, Handsoldering,") (path /57EDCF4D) (attr smd) (fp_text reference U1 (at -0.0508 -5.00126 270) (layer F.SilkS) (effects (font (size 1 1) (thickness 0.15))) ) (fp_text value MCP1700-1202 (at -0.14986 5.30098 270) (layer F.Fab) (effects (font (size 1 1) (thickness 0.15))) ) (fp_line (start -1.89992 0.20066) (end -1.651 -0.09906) (layer F.SilkS) (width 0.15)) (fp_line (start -1.651 -0.09906) (end -1.5494 -0.24892) (layer F.SilkS) (width 0.15)) (fp_line (start -1.5494 -0.24892) (end -1.5494 0.59944) (layer F.SilkS) (width 0.15)) (fp_line (start -2.25044 -1.30048) (end -2.25044 0.50038) (layer F.SilkS) (width 0.15)) (fp_line (start -2.25044 -1.30048) (end -1.6002 -1.30048) (layer F.SilkS) (width 0.15)) (fp_line (start 2.25044 -1.30048) (end 2.25044 0.50038) (layer F.SilkS) (width 0.15)) (fp_line (start 2.25044 -1.30048) (end 1.6002 -1.30048) (layer F.SilkS) (width 0.15)) (pad 1 smd rect (at -1.50114 2.35204 270) (size 1.00076 2.5019) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 0 2.35204 270) (size 1.00076 2.5019) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 3 smd rect (at 1.50114 2.35204 270) (size 1.00076 2.5019) (layers F.Cu F.Paste F.Mask) (net 3 +1V2) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd rect (at 0 -1.6002 270) (size 1.99898 4.0005) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (pad 2 smd trapezoid (at 0 0.7493 90) (size 1.50114 0.7493) (rect_delta 0 0.50038 ) (layers F.Cu F.Paste F.Mask) (net 2 +3V3) (solder_mask_margin 0.0508) (solder_paste_margin -0.0508) (clearance 0.0508)) (model Housings_SOT-89.3dshapes/SOT89-3_Housing_Handsoldering.wrl (at (xyz 0 0 0)) (scale (xyz 0.3937 0.3937 0.3937)) (rotate (xyz 0 0 0)) ) ) (module OLIMEX_RLC-FP:R_0402_5MIL_DWS (layer F.Cu) (tedit 5641FC51) (tstamp 58368AA4) (at 101 73.608 270) (tags C0402) (path /58369420) (attr smd) (fp_text reference R4 (at 0 -1.6 270) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value 2.2K (at 0 1.397 270) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.254)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0 90) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0 270) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 81 /IRES) (solder_mask_margin 0.0508)) ) (module OLIMEX_RLC-FP:C_0402_5MIL_DWS (layer F.Cu) (tedit 5A55FBBA) (tstamp 5B4F4B16) (at 99.06 69.657) (tags C0402) (path /5B0FE5A4) (attr smd) (fp_text reference C19 (at 0 -1.397) (layer F.SilkS) (effects (font (size 0.8 0.8) (thickness 0.1))) ) (fp_text value 100nF (at 0 1.905) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 0.889 0.4445) (end 0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.889 -0.4445) (end 0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0.254 -0.4445) (end 0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 0.4445) (end -0.254 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.889 -0.4445) (end -0.889 0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start -0.254 -0.4445) (end -0.889 -0.4445) (layer Dwgs.User) (width 0.254)) (fp_line (start 0 -0.4445) (end -0.254 -0.4445) (layer F.SilkS) (width 0.15)) (fp_line (start 0 -0.4445) (end 0.254 -0.4445) (layer F.SilkS) (width 0.15)) (fp_line (start 0 0.4445) (end 0.254 0.4445) (layer F.SilkS) (width 0.15)) (fp_line (start 0 0.4445) (end -0.254 0.4445) (layer F.SilkS) (width 0.15)) (fp_line (start -0.49784 0.24892) (end 0.49784 0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start 0.49784 0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 -0.24892) (end 0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (fp_line (start -0.49784 0.24892) (end -0.49784 -0.24892) (layer F.Fab) (width 0.06604)) (pad 1 smd rect (at -0.508 0 180) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508)) (pad 2 smd rect (at 0.508 0) (size 0.5 0.55) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (module OLIMEX_Diodes-FP:SMB-KA (layer F.Cu) (tedit 5B4EDD6A) (tstamp 5B4F4B24) (at 104.394 100.01) (path /5B14DDEB) (fp_text reference D3 (at -5.544 0.79) (layer F.SilkS) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value SS34 (at 0 3) (layer F.Fab) hide (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start -0.69 -1.85) (end -0.69 1.85) (layer F.SilkS) (width 0.254)) (fp_line (start 2.25 -1.85) (end -2.25 -1.85) (layer F.SilkS) (width 0.254)) (fp_line (start -1.13 -1.85) (end -1.13 1.85) (layer F.SilkS) (width 0.254)) (fp_line (start -2.25 1.85) (end 2.25 1.85) (layer F.SilkS) (width 0.254)) (fp_line (start -2.25 -1.8) (end 2.25 -1.8) (layer F.Fab) (width 0.15)) (fp_line (start 2.25 -1.8) (end 2.25 1.8) (layer F.Fab) (width 0.15)) (fp_line (start 2.25 1.8) (end -2.25 1.8) (layer F.Fab) (width 0.15)) (fp_line (start -2.25 1.8) (end -2.25 -1.8) (layer F.Fab) (width 0.15)) (pad 1 smd rect (at -2.5 0) (size 1.9 2) (layers F.Cu F.Paste F.Mask) (net 26 VDD)) (pad 2 smd rect (at 2.5 0) (size 1.9 2) (layers F.Cu F.Paste F.Mask) (net 98 +5V)) ) (module OLIMEX_Connectors-FP:FPV-WZA21-40-LF (layer F.Cu) (tedit 5B4EF77F) (tstamp 5B4F4B65) (at 78.867 35.6845) (path /5B52E639) (attr smd) (fp_text reference SOM204-LVDS1 (at -9.2 5.15) (layer F.SilkS) hide (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_text value FPV-WZA21-40-LF (at -0.05 -4.8) (layer F.Fab) (effects (font (size 1.27 1.27) (thickness 0.254))) ) (fp_line (start 12.1 -3.5) (end -12.1 -3.5) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.15) (end 12.1 2.2) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.2) (end 10.25 2.2) (layer F.Fab) (width 0.254)) (fp_line (start -12.1 2.15) (end -12.1 2.2) (layer F.Fab) (width 0.254)) (fp_line (start -12.1 2.2) (end -10.25 2.2) (layer F.Fab) (width 0.254)) (fp_line (start 12.1 2.2) (end 10.25 2.2) (layer F.SilkS) (width 0.254)) (fp_line (start 10.2489 2.19964) (end -10.2489 2.19964) (layer F.Fab) (width 0.254)) (fp_line (start -10.25 2.2) (end -12.1 2.2) (layer F.SilkS) (width 0.254)) (fp_line (start -12.1 2.2) (end -12.1 2.16) (layer F.SilkS) (width 0.254)) (fp_line (start -13.3 -0.84) (end -13.3 -3.5) (layer F.SilkS) (width 0.254)) (fp_line (start -13.3 -3.5) (end 13.3 -3.5) (layer F.SilkS) (width 0.254)) (fp_line (start 13.3 -3.5) (end 13.3 -0.84) (layer F.SilkS) (width 0.254)) (fp_line (start 12.1 2.16) (end 12.1 2.2) (layer F.SilkS) (width 0.254)) (fp_line (start 14.3 -0.8) (end 13.3 -0.8) (layer F.Fab) (width 0.254)) (fp_line (start 14.3 -5.8) (end 14.3 -0.8) (layer F.Fab) (width 0.254)) (fp_line (start -14.3 -5.8) (end 14.3 -5.8) (layer F.Fab) (width 0.254)) (fp_line (start -14.3 -0.8) (end -14.3 -5.8) (layer F.Fab) (width 0.254)) (fp_line (start -13.3 -0.8) (end -14.3 -0.8) (layer F.Fab) (width 0.254)) (fp_text user 1 (at -10.541 3.175) (layer F.SilkS) (effects (font (size 0.762 0.762) (thickness 0.15))) ) (pad 1 smd rect (at -9.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 98 +5V) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 2 smd rect (at -9.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 3 smd rect (at -8.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 49 /+3.3V) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 4 smd rect (at -8.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 5 smd rect (at -7.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 51 /LVDIEC_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 6 smd rect (at -7.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 50 /LVDIEC_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 7 smd rect (at -6.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 53 /LVDIE3_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 8 smd rect (at -6.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 52 /LVDIE3_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 9 smd rect (at -5.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 55 /D20) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 10 smd rect (at -5.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 54 /D21) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 11 smd rect (at -4.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 24 /VLED_EN) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 12 smd rect (at -4.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 56 /VPWM_EN) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 13 smd rect (at -3.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 58 /LVDIO3_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 14 smd rect (at -3.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 57 /LVDIO3_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 15 smd rect (at -2.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 60 /LVDIE0_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 16 smd rect (at -2.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 59 /LVDIE0_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 17 smd rect (at -1.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 62 /LVDIE1_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 18 smd rect (at -1.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 61 /LVDIE1_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 19 smd rect (at -0.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 64 /LVDIE2_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 20 smd rect (at -0.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 63 /LVDIE2_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 21 smd rect (at 0.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 47 /LVDIO0_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 22 smd rect (at 0.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 48 /LVDIO0_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 23 smd rect (at 1.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 45 /LVDIO1_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 24 smd rect (at 1.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 46 /LVDIO1_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 25 smd rect (at 2.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 43 /LVDIO2_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 26 smd rect (at 2.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 44 /LVDIO2_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 27 smd rect (at 3.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 41 /LVDIOC_P) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 28 smd rect (at 3.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 42 /LVDIOC_N) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 29 smd rect (at 4.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 39 /CLK_EDIE) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 30 smd rect (at 4.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 40 /DAT_EDID) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 31 smd rect (at 5.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 37 /DCR_EN) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 32 smd rect (at 5.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 38 /IMG_EN) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 33 smd rect (at 6.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 35 /GPIO0) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 34 smd rect (at 6.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 36 /GPIO1) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 35 smd rect (at 7.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 34 /LCD_PWRE) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 36 smd rect (at 7.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 23 /LCD_BKL) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 37 smd rect (at 8.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 32 /CTP_INT) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 38 smd rect (at 8.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 33 /NCS_RES) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 39 smd rect (at 9.25 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 30 /TWI_SCL) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 40 smd rect (at 9.75 2.75 180) (size 0.25 1.3) (layers F.Cu F.Paste F.Mask) (net 31 /TWI_SDA) (solder_mask_margin 0.0508) (solder_paste_margin -0.01)) (pad 0 smd rect (at -11.9 0.65 180) (size 2.4 2.6) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) (pad 0 smd rect (at 11.9 0.65 180) (size 2.4 2.6) (layers F.Cu F.Paste F.Mask) (net 1 GND) (solder_mask_margin 0.0508)) ) (gr_text .com (at 111.4 33.65) (layer F.SilkS) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (gr_text "RGB INPUT" (at 64.85 68 90) (layer F.SilkS) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (gr_text RoHS (at 83.3 91.05) (layer F.SilkS) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (dimension 60.000083 (width 0.3) (layer F.Fab) (gr_text "60,000 mm" (at 47.399676 72.487249 89.90450712) (layer F.Fab) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (feature1 (pts (xy 55 102.5) (xy 45.999678 102.484999))) (feature2 (pts (xy 55.1 42.5) (xy 46.099678 42.484999))) (crossbar (pts (xy 48.799674 42.489499) (xy 48.699674 102.489499))) (arrow1a (pts (xy 48.699674 102.489499) (xy 48.115132 101.362019))) (arrow1b (pts (xy 48.699674 102.489499) (xy 49.287971 101.363974))) (arrow2a (pts (xy 48.799674 42.489499) (xy 48.211377 43.615024))) (arrow2b (pts (xy 48.799674 42.489499) (xy 49.384216 43.616979))) ) (gr_text "LVDS INPUT" (at 79.1 40.85) (layer F.SilkS) (effects (font (size 1.3 1.3) (thickness 0.3))) ) (gr_text 2018 (at 113.85 56.8 90) (layer F.SilkS) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (gr_text "LCD-Olinuxino 15.6 FHD\nrev.H" (at 112.55 64.3 90) (layer F.SilkS) (effects (font (size 1.2 1.1) (thickness 0.275))) ) (gr_text "5..16V DC" (at 109.2 96.2) (layer F.SilkS) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (dimension 60 (width 0.3) (layer F.Fab) (gr_text "60,000 mm" (at 85 34.9) (layer F.Fab) (effects (font (size 1.5 1.5) (thickness 0.3))) ) (feature1 (pts (xy 115 42.5) (xy 115 33.55))) (feature2 (pts (xy 55 42.5) (xy 55 33.55))) (crossbar (pts (xy 55 36.25) (xy 115 36.25))) (arrow1a (pts (xy 115 36.25) (xy 113.873496 36.836421))) (arrow1b (pts (xy 115 36.25) (xy 113.873496 35.663579))) (arrow2a (pts (xy 55 36.25) (xy 56.126504 36.836421))) (arrow2b (pts (xy 55 36.25) (xy 56.126504 35.663579))) ) (gr_line (start 55 102.5) (end 55 31.5) (layer Edge.Cuts) (width 0.254)) (gr_line (start 115 102.5) (end 55 102.5) (layer Edge.Cuts) (width 0.254)) (gr_line (start 115 31.5) (end 115 102.5) (layer Edge.Cuts) (width 0.254)) (gr_line (start 55 31.5) (end 115 31.5) (layer Edge.Cuts) (width 0.254)) (segment (start 80.75 97.85) (end 77.3 97.85) (width 0.12954) (layer F.Cu) (net 1)) (via (at 77.3 97.85) (size 0.6) (drill 0.4) (layers F.Cu B.Cu) (net 1)) (segment (start 56.65 76.775736) (end 56.65 75.55) (width 0.12954) (layer B.Cu) (net 1)) (via (at 56.65 75.55) (size 0.6) (drill 0.4) (layers F.Cu B.Cu) (net 1)) (segment (start 56.65 77.2) (end 56.65 76.775736) (width 0.12954) (layer B.Cu) (net 1)) (segment (start 56.65 78.37954) (end 56.65 77.2) (width 0.12954) (layer F.Cu) (net 1)) (via (at 56.65 77.2) (size 0.6) (drill 0.4) (layers F.Cu B.Cu) (net 1)) (segment (start 60 80.3) (end 58.57046 80.3) (width 0.12954) (layer F.Cu) (net 1)) (segment (start 58.57046 80.3) (end 56.65 78.37954) (width 0.12954) (layer F.Cu) (net 1)) (segment 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// check-pass // // This tests checks that clashing_extern_declarations handles types that are recursive through a // pointer or ref argument. See #75512. #![crate_type = "lib"] mod raw_ptr_recursion { mod a { #[repr(C)] struct Pointy { pointy: const Pointy, } extern "C" { fn run_pointy(pointy: Pointy); } } mod b { #[repr(C)] struct Pointy { pointy: const Pointy, } extern "C" { fn run_pointy(pointy: Pointy); } } } mod raw_ptr_recursion_once_removed { mod a { #[repr(C)] struct Pointy1 { pointy_two: const Pointy2, } #[repr(C)] struct Pointy2 { pointy_one: const Pointy1, } extern "C" { fn run_pointy2(pointy: Pointy2); } } mod b { #[repr(C)] struct Pointy1 { pointy_two: const Pointy2, } #[repr(C)] struct Pointy2 { pointy_one: const Pointy1, } extern "C" { fn run_pointy2(pointy: Pointy2); } } } mod ref_recursion { mod a { #[repr(C)] struct Reffy<'a> { reffy: &'a Reffy<'a>, } extern "C" { fn reffy_recursion(reffy: Reffy); } } mod b { #[repr(C)] struct Reffy<'a> { reffy: &'a Reffy<'a>, } extern "C" { fn reffy_recursion(reffy: Reffy); } } } mod ref_recursion_once_removed { mod a { #[repr(C)] struct Reffy1<'a> { reffy: &'a Reffy2<'a>, } struct Reffy2<'a> { reffy: &'a Reffy1<'a>, } extern "C" { #[allow(improper_ctypes)] fn reffy_once_removed(reffy: Reffy1); } } mod b { #[repr(C)] struct Reffy1<'a> { reffy: &'a Reffy2<'a>, } struct Reffy2<'a> { reffy: &'a Reffy1<'a>, } extern "C" { #[allow(improper_ctypes)] fn reffy_once_removed(reffy: Reffy1); } } }	Rust	5	Eric-Arellano/rust	src/test/ui/lint/clashing-extern-fn-recursion.rs	[ "ECL-2.0", "Apache-2.0", "MIT-0", "MIT" ]
# This file is part of NIT ( http://www.nitlanguage.org ). # # Copyright 2004-2008 Jean Privat <[email protected]> # Copyright 2008 Floréal Morandat <[email protected]> # Copyright 2008 Jean-Sébastien Gélinas <[email protected]> # # This file is free software, which comes along with NIT. This software is # distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; # without even the implied warranty of MERCHANTABILITY or FITNESS FOR A # PARTICULAR PURPOSE. You can modify it is you want, provided this header # is kept unaltered, and a notification of the changes is added. # You are allowed to redistribute it and sell it, alone or is a part of # another product. # File manipulations (create, read, write, etc.) module file intrude import stream intrude import ropes import string_search import time in "C Header" `{ #include <dirent.h> #include <string.h> #include <sys/types.h> #include <sys/stat.h> #include <unistd.h> #include <stdio.h> #include <poll.h> #include <errno.h> `} # File Abstract Stream abstract class FStream super IOS # The path of the file. var path: nullable String = null # The FILE . private var file: nullable NativeFile = null fun file_stat: FileStat do return _file.file_stat # File descriptor of this file fun fd: Int do return _file.fileno end # File input stream class IFStream super FStream super BufferedIStream super PollableIStream # Misc # Open the same file again. # The original path is reused, therefore the reopened file can be a different file. fun reopen do if not eof and not _file.address_is_null then close _file = new NativeFile.io_open_read(path.to_cstring) if _file.address_is_null then last_error = new IOError("Error: Opening file at '{path.as(not null)}' failed with '{sys.errno.strerror}'") end_reached = true return end end_reached = false _buffer_pos = 0 _buffer.clear end redef fun close do if _file.address_is_null then return var i = _file.io_close _buffer.clear end_reached = true end redef fun fill_buffer do var nb = _file.io_read(_buffer.items, _buffer.capacity) if nb <= 0 then end_reached = true nb = 0 end _buffer.length = nb _buffer_pos = 0 end # End of file? redef var end_reached: Bool = false # Open the file at `path` for reading. init open(path: String) do self.path = path prepare_buffer(10) _file = new NativeFile.io_open_read(path.to_cstring) if _file.address_is_null then last_error = new IOError("Error: Opening file at '{path}' failed with '{sys.errno.strerror}'") end_reached = true end end init from_fd(fd: Int) do self.path = "" prepare_buffer(10) _file = fd_to_stream(fd, read_only) if _file.address_is_null then last_error = new IOError("Error: Converting fd {fd} to stream failed with '{sys.errno.strerror}'") end_reached = true end end end # File output stream class OFStream super FStream super OStream redef fun write(s) do if last_error != null then return if not _is_writable then last_error = new IOError("Cannot write to non-writable stream") return end if s isa FlatText then write_native(s.to_cstring, s.length) else for i in s.substrings do write_native(i.to_cstring, i.length) end end redef fun close do if _file.address_is_null then last_error = new IOError("Cannot close non-existing write stream") _is_writable = false return end var i = _file.io_close _is_writable = false end redef var is_writable = false # Write `len` bytes from `native`. private fun write_native(native: NativeString, len: Int) do if last_error != null then return if not _is_writable then last_error = new IOError("Cannot write to non-writable stream") return end if _file.address_is_null then last_error = new IOError("Writing on a null stream") _is_writable = false return end var err = _file.io_write(native, len) if err != len then # Big problem last_error = new IOError("Problem in writing : {err} {len} \n") end end # Open the file at `path` for writing. init open(path: String) do _file = new NativeFile.io_open_write(path.to_cstring) if _file.address_is_null then last_error = new IOError("Error: Opening file at '{path}' failed with '{sys.errno.strerror}'") self.path = path is_writable = false end self.path = path _is_writable = true end # Creates a new File stream from a file descriptor init from_fd(fd: Int) do self.path = "" _file = fd_to_stream(fd, wipe_write) _is_writable = true if _file.address_is_null then last_error = new IOError("Error: Opening stream from file descriptor {fd} failed with '{sys.errno.strerror}'") _is_writable = false end end end redef interface Object private fun read_only: NativeString do return "r".to_cstring private fun wipe_write: NativeString do return "w".to_cstring private fun fd_to_stream(fd: Int, mode: NativeString): NativeFile `{ return fdopen(fd, mode); `} # returns first available stream to read or write to # return null on interruption (possibly a signal) protected fun poll( streams : Sequence[FStream] ) : nullable FStream do var in_fds = new Array[Int] var out_fds = new Array[Int] var fd_to_stream = new HashMap[Int,FStream] for s in streams do var fd = s.fd if s isa IFStream then in_fds.add( fd ) if s isa OFStream then out_fds.add( fd ) fd_to_stream[fd] = s end var polled_fd = intern_poll( in_fds, out_fds ) if polled_fd == null then return null else return fd_to_stream[polled_fd] end end private fun intern_poll(in_fds: Array[Int], out_fds: Array[Int]) : nullable Int is extern import Array[Int].length, Array[Int].[], Int.as(nullable Int) `{ int in_len, out_len, total_len; struct pollfd c_fds; sigset_t sigmask; int i; int first_polled_fd = -1; int result; in_len = Array_of_Int_length( in_fds ); out_len = Array_of_Int_length( out_fds ); total_len = in_len + out_len; c_fds = malloc( sizeof(struct pollfd) * total_len ); /* input streams / for ( i=0; i<in_len; i ++ ) { int fd; fd = Array_of_Int__index( in_fds, i ); c_fds[i].fd = fd; c_fds[i].events = POLLIN; } / output streams / for ( i=0; i<out_len; i ++ ) { int fd; fd = Array_of_Int__index( out_fds, i ); c_fds[i].fd = fd; c_fds[i].events = POLLOUT; } / poll all fds, unlimited timeout / result = poll( c_fds, total_len, -1 ); if ( result > 0 ) { / analyse results / for ( i=0; i<total_len; i++ ) if ( c_fds[i].revents & c_fds[i].events \|\| / awaited event / c_fds[i].revents & POLLHUP ) / closed / { first_polled_fd = c_fds[i].fd; break; } return Int_as_nullable( first_polled_fd ); } else if ( result < 0 ) fprintf( stderr, "Error in Stream:poll: %s\n", strerror( errno ) ); return null_Int(); `} end ############################################################################### class Stdin super IFStream init do _file = new NativeFile.native_stdin path = "/dev/stdin" prepare_buffer(1) end redef fun poll_in: Bool is extern "file_stdin_poll_in" end class Stdout super OFStream init do _file = new NativeFile.native_stdout path = "/dev/stdout" _is_writable = true end end class Stderr super OFStream init do _file = new NativeFile.native_stderr path = "/dev/stderr" _is_writable = true end end ############################################################################### redef class Streamable # Like `write_to` but take care of creating the file fun write_to_file(filepath: String) do var stream = new OFStream.open(filepath) write_to(stream) stream.close end end redef class String # return true if a file with this names exists fun file_exists: Bool do return to_cstring.file_exists # The status of a file. see POSIX stat(2). fun file_stat: FileStat do return to_cstring.file_stat # The status of a file or of a symlink. see POSIX lstat(2). fun file_lstat: FileStat do return to_cstring.file_lstat # Remove a file, return true if success fun file_delete: Bool do return to_cstring.file_delete # Copy content of file at `self` to `dest` fun file_copy_to(dest: String) do var input = new IFStream.open(self) var output = new OFStream.open(dest) while not input.eof do var buffer = input.read(1024) output.write buffer end input.close output.close end # Remove the trailing extension `ext`. # # `ext` usually starts with a dot but could be anything. # # assert "file.txt".strip_extension(".txt") == "file" # assert "file.txt".strip_extension("le.txt") == "fi" # assert "file.txt".strip_extension("xt") == "file.t" # # if `ext` is not present, `self` is returned unmodified. # # assert "file.txt".strip_extension(".tar.gz") == "file.txt" fun strip_extension(ext: String): String do if has_suffix(ext) then return substring(0, length - ext.length) end return self end # Extract the basename of a path and remove the extension # # assert "/path/to/a_file.ext".basename(".ext") == "a_file" # assert "path/to/a_file.ext".basename(".ext") == "a_file" # assert "path/to".basename(".ext") == "to" # assert "path/to/".basename(".ext") == "to" # assert "path".basename("") == "path" # assert "/path".basename("") == "path" # assert "/".basename("") == "/" # assert "".basename("") == "" fun basename(ext: String): String do var l = length - 1 # Index of the last char while l > 0 and self.chars[l] == '/' do l -= 1 # remove all trailing `/` if l == 0 then return "/" var pos = chars.last_index_of_from('/', l) var n = self if pos >= 0 then n = substring(pos+1, l-pos) end return n.strip_extension(ext) end # Extract the dirname of a path # # assert "/path/to/a_file.ext".dirname == "/path/to" # assert "path/to/a_file.ext".dirname == "path/to" # assert "path/to".dirname == "path" # assert "path/to/".dirname == "path" # assert "path".dirname == "." # assert "/path".dirname == "/" # assert "/".dirname == "/" # assert "".dirname == "." fun dirname: String do var l = length - 1 # Index of the last char while l > 0 and self.chars[l] == '/' do l -= 1 # remove all trailing `/` var pos = chars.last_index_of_from('/', l) if pos > 0 then return substring(0, pos) else if pos == 0 then return "/" else return "." end end # Return the canonicalized absolute pathname (see POSIX function `realpath`) fun realpath: String do var cs = to_cstring.file_realpath var res = cs.to_s_with_copy # cs.free_malloc # FIXME memory leak return res end # Simplify a file path by remove useless ".", removing "//", and resolving ".." # ".." are not resolved if they start the path # starting "/" is not removed # trainling "/" is removed # # Note that the method only wonrk on the string: # no I/O access is performed # * the validity of the path is not checked # # assert "some/./complex/../../path/from/../to/a////file//".simplify_path == "path/to/a/file" # assert "../dir/file".simplify_path == "../dir/file" # assert "dir/../../".simplify_path == ".." # assert "dir/..".simplify_path == "." # assert "//absolute//path/".simplify_path == "/absolute/path" # assert "//absolute//../".simplify_path == "/" fun simplify_path: String do var a = self.split_with("/") var a2 = new Array[String] for x in a do if x == "." then continue if x == "" and not a2.is_empty then continue if x == ".." and not a2.is_empty and a2.last != ".." then a2.pop continue end a2.push(x) end if a2.is_empty then return "." if a2.length == 1 and a2.first == "" then return "/" return a2.join("/") end # Correctly join two path using the directory separator. # # Using a standard "{self}/{path}" does not work in the following cases: # # * `self` is empty. # * `path` ends with `'/'`. # * `path` starts with `'/'`. # # This method ensures that the join is valid. # # assert "hello".join_path("world") == "hello/world" # assert "hel/lo".join_path("wor/ld") == "hel/lo/wor/ld" # assert "".join_path("world") == "world" # assert "hello".join_path("/world") == "/world" # assert "hello/".join_path("world") == "hello/world" # assert "hello/".join_path("/world") == "/world" # # Note: You may want to use `simplify_path` on the result. # # Note: This method works only with POSIX paths. fun join_path(path: String): String do if path.is_empty then return self if self.is_empty then return path if path.chars[0] == '/' then return path if self.last == '/' then return "{self}{path}" return "{self}/{path}" end # Convert the path (`self`) to a program name. # # Ensure the path (`self`) will be treated as-is by POSIX shells when it is # used as a program name. In order to do that, prepend `./` if needed. # # assert "foo".to_program_name == "./foo" # assert "/foo".to_program_name == "/foo" # assert "".to_program_name == "./" # At least, your shell will detect the error. fun to_program_name: String do if self.has_prefix("/") then return self else return "./{self}" end end # Alias for `join_path` # # assert "hello" / "world" == "hello/world" # assert "hel/lo" / "wor/ld" == "hel/lo/wor/ld" # assert "" / "world" == "world" # assert "/hello" / "/world" == "/world" # # This operator is quite useful for chaining changes of path. # The next one being relative to the previous one. # # var a = "foo" # var b = "/bar" # var c = "baz/foobar" # assert a/b/c == "/bar/baz/foobar" fun /(path: String): String do return join_path(path) # Returns the relative path needed to go from `self` to `dest`. # # assert "/foo/bar".relpath("/foo/baz") == "../baz" # assert "/foo/bar".relpath("/baz/bar") == "../../baz/bar" # # If `self` or `dest` is relative, they are considered relatively to `getcwd`. # # In some cases, the result is still independent of the current directory: # # assert "foo/bar".relpath("..") == "../../.." # # In other cases, parts of the current directory may be exhibited: # # var p = "../foo/bar".relpath("baz") # var c = getcwd.basename("") # assert p == "../../{c}/baz" # # For path resolution independent of the current directory (eg. for paths in URL), # or to use an other starting directory than the current directory, # just force absolute paths: # # var start = "/a/b/c/d" # var p2 = (start/"../foo/bar").relpath(start/"baz") # assert p2 == "../../d/baz" # # # Neither `self` or `dest` has to be real paths or to exist in directories since # the resolution is only done with string manipulations and without any access to # the underlying file system. # # If `self` and `dest` are the same directory, the empty string is returned: # # assert "foo".relpath("foo") == "" # assert "foo/../bar".relpath("bar") == "" # # The empty string and "." designate both the current directory: # # assert "".relpath("foo/bar") == "foo/bar" # assert ".".relpath("foo/bar") == "foo/bar" # assert "foo/bar".relpath("") == "../.." # assert "/" + "/".relpath(".") == getcwd fun relpath(dest: String): String do var cwd = getcwd var from = (cwd/self).simplify_path.split("/") if from.last.is_empty then from.pop # case for the root directory var to = (cwd/dest).simplify_path.split("/") if to.last.is_empty then to.pop # case for the root directory # Remove common prefixes while not from.is_empty and not to.is_empty and from.first == to.first do from.shift to.shift end # Result is going up in `from` with ".." then going down following `to` var from_len = from.length if from_len == 0 then return to.join("/") var up = "../"(from_len-1) + ".." if to.is_empty then return up var res = up + "/" + to.join("/") return res end # Create a directory (and all intermediate directories if needed) fun mkdir do var dirs = self.split_with("/") var path = new FlatBuffer if dirs.is_empty then return if dirs[0].is_empty then # it was a starting / path.add('/') end for d in dirs do if d.is_empty then continue path.append(d) path.add('/') path.to_s.to_cstring.file_mkdir end end # Delete a directory and all of its content, return `true` on success # # Does not go through symbolic links and may get stuck in a cycle if there # is a cycle in the filesystem. fun rmdir: Bool do var ok = true for file in self.files do var file_path = self.join_path(file) var stat = file_path.file_lstat if stat.is_dir then ok = file_path.rmdir and ok else ok = file_path.file_delete and ok end stat.free end # Delete the directory itself if ok then to_cstring.rmdir return ok end # Change the current working directory # # "/etc".chdir # assert getcwd == "/etc" # "..".chdir # assert getcwd == "/" # # TODO: errno fun chdir do to_cstring.file_chdir # Return right-most extension (without the dot) # # Only the last extension is returned. # There is no special case for combined extensions. # # assert "file.txt".file_extension == "txt" # assert "file.tar.gz".file_extension == "gz" # # For file without extension, `null` is returned. # Hoever, for trailing dot, `""` is returned. # # assert "file".file_extension == null # assert "file.".file_extension == "" # # The starting dot of hidden files is never considered. # # assert ".file.txt".file_extension == "txt" # assert ".file".file_extension == null fun file_extension: nullable String do var last_slash = chars.last_index_of('.') if last_slash > 0 then return substring( last_slash+1, length ) else return null end end # returns files contained within the directory represented by self fun files : Set[ String ] is extern import HashSet[String], HashSet[String].add, NativeString.to_s, String.to_cstring, HashSet[String].as(Set[String]) `{ char dir_path; DIR dir; dir_path = String_to_cstring( recv ); if ((dir = opendir(dir_path)) == NULL) { perror( dir_path ); exit( 1 ); } else { HashSet_of_String results; String file_name; struct dirent de; results = new_HashSet_of_String(); while ( ( de = readdir( dir ) ) != NULL ) if ( strcmp( de->d_name, ".." ) != 0 && strcmp( de->d_name, "." ) != 0 ) { file_name = NativeString_to_s( strdup( de->d_name ) ); HashSet_of_String_add( results, file_name ); } closedir( dir ); return HashSet_of_String_as_Set_of_String( results ); } `} end redef class NativeString private fun file_exists: Bool is extern "string_NativeString_NativeString_file_exists_0" private fun file_stat: FileStat is extern "string_NativeString_NativeString_file_stat_0" private fun file_lstat: FileStat `{ struct stat* stat_element; int res; stat_element = malloc(sizeof(struct stat)); res = lstat(recv, stat_element); if (res == -1) return NULL; return stat_element; `} private fun file_mkdir: Bool is extern "string_NativeString_NativeString_file_mkdir_0" private fun rmdir: Bool `{ return rmdir(recv); `} private fun file_delete: Bool is extern "string_NativeString_NativeString_file_delete_0" private fun file_chdir is extern "string_NativeString_NativeString_file_chdir_0" private fun file_realpath: NativeString is extern "file_NativeString_realpath" end # This class is system dependent ... must reify the vfs extern class FileStat `{ struct stat * `} # Returns the permission bits of file fun mode: Int is extern "file_FileStat_FileStat_mode_0" # Returns the last access time fun atime: Int is extern "file_FileStat_FileStat_atime_0" # Returns the last status change time fun ctime: Int is extern "file_FileStat_FileStat_ctime_0" # Returns the last modification time fun mtime: Int is extern "file_FileStat_FileStat_mtime_0" # Returns the size fun size: Int is extern "file_FileStat_FileStat_size_0" # Returns true if it is a regular file (not a device file, pipe, sockect, ...) fun is_reg: Bool `{ return S_ISREG(recv->st_mode); `} # Returns true if it is a directory fun is_dir: Bool `{ return S_ISDIR(recv->st_mode); `} # Returns true if it is a character device fun is_chr: Bool `{ return S_ISCHR(recv->st_mode); `} # Returns true if it is a block device fun is_blk: Bool `{ return S_ISBLK(recv->st_mode); `} # Returns true if the type is fifo fun is_fifo: Bool `{ return S_ISFIFO(recv->st_mode); `} # Returns true if the type is a link fun is_lnk: Bool `{ return S_ISLNK(recv->st_mode); `} # Returns true if the type is a socket fun is_sock: Bool `{ return S_ISSOCK(recv->st_mode); `} end # Instance of this class are standard FILE * pointers private extern class NativeFile `{ FILE* `} fun io_read(buf: NativeString, len: Int): Int is extern "file_NativeFile_NativeFile_io_read_2" fun io_write(buf: NativeString, len: Int): Int is extern "file_NativeFile_NativeFile_io_write_2" fun io_close: Int is extern "file_NativeFile_NativeFile_io_close_0" fun file_stat: FileStat is extern "file_NativeFile_NativeFile_file_stat_0" fun fileno: Int `{ return fileno(recv); `} new io_open_read(path: NativeString) is extern "file_NativeFileCapable_NativeFileCapable_io_open_read_1" new io_open_write(path: NativeString) is extern "file_NativeFileCapable_NativeFileCapable_io_open_write_1" new native_stdin is extern "file_NativeFileCapable_NativeFileCapable_native_stdin_0" new native_stdout is extern "file_NativeFileCapable_NativeFileCapable_native_stdout_0" new native_stderr is extern "file_NativeFileCapable_NativeFileCapable_native_stderr_0" end redef class Sys # Standard input var stdin: PollableIStream = new Stdin is protected writable # Standard output var stdout: OStream = new Stdout is protected writable # Standard output for errors var stderr: OStream = new Stderr is protected writable end # Print `objects` on the standard output (`stdout`). protected fun printn(objects: Object...) do sys.stdout.write(objects.to_s) end # Print an `object` on the standard output (`stdout`) and add a newline. protected fun print(object: Object) do sys.stdout.write(object.to_s) sys.stdout.write("\n") end # Read a character from the standard input (`stdin`). protected fun getc: Char do return sys.stdin.read_char.ascii end # Read a line from the standard input (`stdin`). protected fun gets: String do return sys.stdin.read_line end # Return the working (current) directory protected fun getcwd: String do return file_getcwd.to_s private fun file_getcwd: NativeString is extern "string_NativeString_NativeString_file_getcwd_0"	Nit	5	JavascriptID/sourcerer-app	src/test/resources/samples/langs/Nit/file.nit	[ "MIT" ]
import time import os import subprocess import sys from selenium import webdriver from selenium.webdriver.chrome.options import Options from selenium.webdriver.common import utils sys.path.append(os.path.dirname(os.path.dirname(os.path.abspath(__file__)))) from nw_util import * chrome_options = Options() chrome_options.add_argument("nwapp=" + os.path.dirname(os.path.abspath(__file__))) capabilities = {"pageLoadStrategy": "none"} testdir = os.path.dirname(os.path.abspath(__file__)) os.chdir(testdir) port = str(utils.free_port()) server = subprocess.Popen(['python', 'http-server.py', port]) html = open('index.html', 'w') html.write(''' <script> var http = nw.require('http'); var fs = nw.require('fs'); function testgc() { gc(); document.write('<h1 id="res">success</h1>'); } var file = fs.createWriteStream("out.png"); var req = http.get("http://localhost:%s/g.png", function (res) { res.pipe(file); setTimeout(testgc, 1000); }); </script> ''' % (port)) html.close() driver = webdriver.Chrome(executable_path=os.environ['CHROMEDRIVER'], chrome_options=chrome_options, desired_capabilities = capabilities, service_log_path="log", service_args=["--verbose"]) try: print driver.current_url result = wait_for_element_id(driver, 'res') print result assert("success" in result) finally: server.terminate() driver.quit()	Python	3	frank-dspeed/nw.js	test/sanity/issue4096-download/test.py	[ "MIT" ]
{reg: [ {bits: 7, name: 0x37, attr: ['OPIVI']}, {bits: 5, name: 'vd', type: 2}, {bits: 3, name: 3}, {bits: 5, name: 'simm5', type: 5}, {bits: 5, name: 'vs2', type: 2}, {bits: 1, name: 'vm'}, {bits: 6, name: 'funct6'}, ]}	JSON5	2	tmr4/wavedrom	test/reg-opivi.json5	[ "MIT" ]
insert into `first` values (8273);	SQL	1	imtbkcat/tidb-lightning	tests/black-white-list/data/firstdb.first.1.sql	[ "Apache-2.0" ]
/* * Copyright (C) 2011 The Guava Authors * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. / package com.google.common.math; import java.math.BigInteger; import java.util.Random; /* * Utilities for benchmarks. * * <p>In many cases, we wish to vary the order of magnitude of the input as much as we want to vary * the input itself, so most methods which generate values use an exponential distribution varying * the order of magnitude of the generated values uniformly at random. * * @author Louis Wasserman / final class MathBenchmarking { static final int ARRAY_SIZE = 0x10000; static final int ARRAY_MASK = 0x0ffff; static final Random RANDOM_SOURCE = new Random(314159265358979L); static final int MAX_EXPONENT = 100; / * Duplicated from LongMath. * binomial(biggestBinomials[k], k) fits in a long, but not * binomial(biggestBinomials[k] + 1, k). / static final int[] biggestBinomials = { Integer.MAX_VALUE, Integer.MAX_VALUE, Integer.MAX_VALUE, 3810779, 121977, 16175, 4337, 1733, 887, 534, 361, 265, 206, 169, 143, 125, 111, 101, 94, 88, 83, 79, 76, 74, 72, 70, 69, 68, 67, 67, 66, 66, 66, 66 }; /* * Generates values in a distribution equivalent to randomNonNegativeBigInteger but omitting zero. / static BigInteger randomPositiveBigInteger(int numBits) { BigInteger result; do { result = randomNonNegativeBigInteger(numBits); } while (result.signum() == 0); return result; } /* * Generates a number in [0, 2^numBits) with an exponential distribution. The floor of the log2 of * the result is chosen uniformly at random in [0, numBits), and then the result is chosen in that * range uniformly at random. Zero is treated as having log2 == 0. / static BigInteger randomNonNegativeBigInteger(int numBits) { int digits = RANDOM_SOURCE.nextInt(numBits); if (digits == 0) { return new BigInteger(1, RANDOM_SOURCE); } else { return new BigInteger(digits, RANDOM_SOURCE).setBit(digits); } } /* * Equivalent to calling randomPositiveBigInteger(numBits) and then flipping the sign with 50% * probability. / static BigInteger randomNonZeroBigInteger(int numBits) { BigInteger result = randomPositiveBigInteger(numBits); return RANDOM_SOURCE.nextBoolean() ? result : result.negate(); } /* * Chooses a number in (-2^numBits, 2^numBits) at random, with density concentrated in numbers of * lower magnitude. / static BigInteger randomBigInteger(int numBits) { while (true) { if (RANDOM_SOURCE.nextBoolean()) { return randomNonNegativeBigInteger(numBits); } BigInteger neg = randomNonNegativeBigInteger(numBits).negate(); if (neg.signum() != 0) { return neg; } } } /* * Generates a number in [0, 2^numBits) with an exponential distribution. The floor of the log2 of * the absolute value of the result is chosen uniformly at random in [0, numBits), and then the * result is chosen from those possibilities uniformly at random. * * <p>Zero is treated as having log2 == 0. / static double randomDouble(int maxExponent) { double result = RANDOM_SOURCE.nextDouble(); result = Math.scalb(result, RANDOM_SOURCE.nextInt(maxExponent + 1)); return RANDOM_SOURCE.nextBoolean() ? result : -result; } /* Returns a random integer between zero and {@code MAX_EXPONENT}. */ static int randomExponent() { return RANDOM_SOURCE.nextInt(MAX_EXPONENT + 1); } static double randomPositiveDouble() { return Math.exp(randomDouble(6)); } }	Java	5	ksodhi2/guava	guava-tests/test/com/google/common/math/MathBenchmarking.java	[ "Apache-2.0" ]
fn main() { println!("%.3$s %s!\n", "Hello,", "World", 4); //~ ERROR multiple unused formatting arguments println!("%1$2$.3$f", 123.456); //~ ERROR never used println!(r###"%.3$s %s!\n "###, "Hello,", "World", 4); //~^ ERROR multiple unused formatting arguments // correctly account for raw strings in inline suggestions // This should not produce hints, on the basis that there's equally as // many "correct" format specifiers. It's probably just an actual typo. println!("{} %f", "one", 2.0); //~ ERROR never used println!("Hi there, $NAME.", NAME="Tim"); //~ ERROR never used println!("$1 $0 $$ $NAME", 1, 2, NAME=3); //~^ ERROR multiple unused formatting arguments }	Rust	2	Eric-Arellano/rust	src/test/ui/macros/format-foreign.rs	[ "ECL-2.0", "Apache-2.0", "MIT-0", "MIT" ]
/* * * Copyright 2018 gRPC authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. * / #ifndef GRPC_SRC_CPP_SERVER_LOAD_REPORTER_LOAD_DATA_STORE_H #define GRPC_SRC_CPP_SERVER_LOAD_REPORTER_LOAD_DATA_STORE_H #include <grpc/support/port_platform.h> #include <memory> #include <set> #include <unordered_map> #include <grpc/support/log.h> #include <grpcpp/impl/codegen/config.h> #include "src/cpp/server/load_reporter/constants.h" namespace grpc { namespace load_reporter { // The load data storage is organized in hierarchy. The LoadDataStore is the // top-level data store. In LoadDataStore, for each host we keep a // PerHostStore, in which for each balancer we keep a PerBalancerStore. Each // PerBalancerStore maintains a map of load records, mapping from LoadRecordKey // to LoadRecordValue. The LoadRecordValue contains a map of customized call // metrics, mapping from a call metric name to the CallMetricValue. // The value of a customized call metric. class CallMetricValue { public: explicit CallMetricValue(uint64_t num_calls = 0, double total_metric_value = 0) : num_calls_(num_calls), total_metric_value_(total_metric_value) {} void MergeFrom(CallMetricValue other) { num_calls_ += other.num_calls_; total_metric_value_ += other.total_metric_value_; } // Getters. uint64_t num_calls() const { return num_calls_; } double total_metric_value() const { return total_metric_value_; } private: // The number of calls that finished with this metric. uint64_t num_calls_ = 0; // The sum of metric values across all the calls that finished with this // metric. double total_metric_value_ = 0; }; // The key of a load record. class LoadRecordKey { public: LoadRecordKey(std::string lb_id, std::string lb_tag, std::string user_id, std::string client_ip_hex) : lb_id_(std::move(lb_id)), lb_tag_(std::move(lb_tag)), user_id_(std::move(user_id)), client_ip_hex_(std::move(client_ip_hex)) {} // Parses the input client_ip_and_token to set client IP, LB ID, and LB tag. LoadRecordKey(const std::string& client_ip_and_token, std::string user_id); std::string ToString() const { return "[lb_id_=" + lb_id_ + ", lb_tag_=" + lb_tag_ + ", user_id_=" + user_id_ + ", client_ip_hex_=" + client_ip_hex_ + "]"; } bool operator==(const LoadRecordKey& other) const { return lb_id_ == other.lb_id_ && lb_tag_ == other.lb_tag_ && user_id_ == other.user_id_ && client_ip_hex_ == other.client_ip_hex_; } // Gets the client IP bytes in network order (i.e., big-endian). std::string GetClientIpBytes() const; // Getters. const std::string& lb_id() const { return lb_id_; } const std::string& lb_tag() const { return lb_tag_; } const std::string& user_id() const { return user_id_; } const std::string& client_ip_hex() const { return client_ip_hex_; } struct Hasher { void hash_combine(size_t seed, const std::string& k) const { seed ^= std::hash<std::string>()(k) + 0x9e3779b9 + (seed << 6) + (seed >> 2); } size_t operator()(const LoadRecordKey& k) const { size_t h = 0; hash_combine(&h, k.lb_id_); hash_combine(&h, k.lb_tag_); hash_combine(&h, k.user_id_); hash_combine(&h, k.client_ip_hex_); return h; } }; private: std::string lb_id_; std::string lb_tag_; std::string user_id_; std::string client_ip_hex_; }; // The value of a load record. class LoadRecordValue { public: explicit LoadRecordValue(uint64_t start_count = 0, uint64_t ok_count = 0, uint64_t error_count = 0, uint64_t bytes_sent = 0, uint64_t bytes_recv = 0, uint64_t latency_ms = 0) : start_count_(start_count), ok_count_(ok_count), error_count_(error_count), bytes_sent_(bytes_sent), bytes_recv_(bytes_recv), latency_ms_(latency_ms) {} LoadRecordValue(std::string metric_name, uint64_t num_calls, double total_metric_value); void MergeFrom(const LoadRecordValue& other) { start_count_ += other.start_count_; ok_count_ += other.ok_count_; error_count_ += other.error_count_; bytes_sent_ += other.bytes_sent_; bytes_recv_ += other.bytes_recv_; latency_ms_ += other.latency_ms_; for (const auto& p : other.call_metrics_) { const std::string& key = p.first; const CallMetricValue& value = p.second; call_metrics_[key].MergeFrom(value); } } int64_t GetNumCallsInProgressDelta() const { return static_cast<int64_t>(start_count_ - ok_count_ - error_count_); } std::string ToString() const { return "[start_count_=" + std::to_string(start_count_) + ", ok_count_=" + std::to_string(ok_count_) + ", error_count_=" + std::to_string(error_count_) + ", bytes_sent_=" + std::to_string(bytes_sent_) + ", bytes_recv_=" + std::to_string(bytes_recv_) + ", latency_ms_=" + std::to_string(latency_ms_) + ", " + std::to_string(call_metrics_.size()) + " other call metric(s)]"; } bool InsertCallMetric(const std::string& metric_name, const CallMetricValue& metric_value) { return call_metrics_.insert({metric_name, metric_value}).second; } // Getters. uint64_t start_count() const { return start_count_; } uint64_t ok_count() const { return ok_count_; } uint64_t error_count() const { return error_count_; } uint64_t bytes_sent() const { return bytes_sent_; } uint64_t bytes_recv() const { return bytes_recv_; } uint64_t latency_ms() const { return latency_ms_; } const std::unordered_map<std::string, CallMetricValue>& call_metrics() const { return call_metrics_; } private: uint64_t start_count_ = 0; uint64_t ok_count_ = 0; uint64_t error_count_ = 0; uint64_t bytes_sent_ = 0; uint64_t bytes_recv_ = 0; uint64_t latency_ms_ = 0; std::unordered_map<std::string, CallMetricValue> call_metrics_; }; // Stores the data associated with a particular LB ID. class PerBalancerStore { public: using LoadRecordMap = std::unordered_map<LoadRecordKey, LoadRecordValue, LoadRecordKey::Hasher>; PerBalancerStore(std::string lb_id, std::string load_key) : lb_id_(std::move(lb_id)), load_key_(std::move(load_key)) {} // Merge a load record with the given key and value if the store is not // suspended. void MergeRow(const LoadRecordKey& key, const LoadRecordValue& value); // Suspend this store, so that no detailed load data will be recorded. void Suspend(); // Resume this store from suspension. void Resume(); // Is this store suspended or not? bool IsSuspended() const { return suspended_; } bool IsNumCallsInProgressChangedSinceLastReport() const { return num_calls_in_progress_ != last_reported_num_calls_in_progress_; } uint64_t GetNumCallsInProgressForReport(); std::string ToString() { return "[PerBalancerStore lb_id_=" + lb_id_ + " load_key_=" + load_key_ + "]"; } void ClearLoadRecordMap() { load_record_map_.clear(); } // Getters. const std::string& lb_id() const { return lb_id_; } const std::string& load_key() const { return load_key_; } const LoadRecordMap& load_record_map() const { return load_record_map_; } private: std::string lb_id_; // TODO(juanlishen): Use bytestring protobuf type? std::string load_key_; LoadRecordMap load_record_map_; uint64_t num_calls_in_progress_ = 0; uint64_t last_reported_num_calls_in_progress_ = 0; bool suspended_ = false; }; // Stores the data associated with a particular host. class PerHostStore { public: // When a report stream is created, a PerBalancerStore is created for the // LB ID (guaranteed unique) associated with that stream. If it is the only // active store, adopt all the orphaned stores. If it is the first created // store, adopt the store of kInvalidLbId. void ReportStreamCreated(const std::string& lb_id, const std::string& load_key); // When a report stream is closed, the PerBalancerStores assigned to the // associate LB ID need to be re-assigned to other active balancers, // ideally with the same load key. If there is no active balancer, we have // to suspend those stores and drop the incoming load data until they are // resumed. void ReportStreamClosed(const std::string& lb_id); // Returns null if not found. Caller doesn't own the returned store. PerBalancerStore FindPerBalancerStore(const std::string& lb_id) const; // Returns null if lb_id is not found. The returned pointer points to the // underlying data structure, which is not owned by the caller. const std::set<PerBalancerStore> GetAssignedStores( const std::string& lb_id) const; private: // Creates a PerBalancerStore for the given LB ID, assigns the store to // itself, and records the LB ID to the load key. void SetUpForNewLbId(const std::string& lb_id, const std::string& load_key); void AssignOrphanedStore(PerBalancerStore* orphaned_store, const std::string& new_receiver); std::unordered_map<std::string, std::set<std::string>> load_key_to_receiving_lb_ids_; // Key: LB ID. The key set includes all the LB IDs that have been // allocated for reporting streams so far. // Value: the unique pointer to the PerBalancerStore of the LB ID. std::unordered_map<std::string, std::unique_ptr<PerBalancerStore>> per_balancer_stores_; // Key: LB ID. The key set includes the LB IDs of the balancers that are // currently receiving report. // Value: the set of raw pointers to the PerBalancerStores assigned to the LB // ID. Note that the sets in assigned_stores_ form a division of the value set // of per_balancer_stores_. std::unordered_map<std::string, std::set<PerBalancerStore>> assigned_stores_; }; // Thread-unsafe two-level bookkeeper of all the load data. // Note: We never remove any store objects from this class, as per the // current spec. That's because premature removal of the store objects // may lead to loss of critical information, e.g., mapping from lb_id to // load_key, and the number of in-progress calls. Such loss will cause // information inconsistency when the balancer is re-connected. Keeping // all the stores should be fine for PerHostStore, since we assume there // should only be a few hostnames. But it's a potential problem for // PerBalancerStore. class LoadDataStore { public: // Returns null if not found. Caller doesn't own the returned store. PerBalancerStore FindPerBalancerStore(const std::string& hostname, const std::string& lb_id) const; // Returns null if hostname or lb_id is not found. The returned pointer points // to the underlying data structure, which is not owned by the caller. const std::set<PerBalancerStore> GetAssignedStores(const string& hostname, const string& lb_id); // If a PerBalancerStore can be found by the hostname and LB ID in // LoadRecordKey, the load data will be merged to that store. Otherwise, // only track the number of the in-progress calls for this unknown LB ID. void MergeRow(const std::string& hostname, const LoadRecordKey& key, const LoadRecordValue& value); // Is the given lb_id a tracked unknown LB ID (i.e., the LB ID was associated // with some received load data but unknown to this load data store)? bool IsTrackedUnknownBalancerId(const std::string& lb_id) const { return unknown_balancer_id_trackers_.find(lb_id) != unknown_balancer_id_trackers_.end(); } // Wrapper around PerHostStore::ReportStreamCreated. void ReportStreamCreated(const std::string& hostname, const std::string& lb_id, const std::string& load_key); // Wrapper around PerHostStore::ReportStreamClosed. void ReportStreamClosed(const std::string& hostname, const std::string& lb_id); private: // Buffered data that was fetched from Census but hasn't been sent to // balancer. We need to keep this data ourselves because Census will // delete the data once it's returned. std::unordered_map<std::string, PerHostStore> per_host_stores_; // Tracks the number of in-progress calls for each unknown LB ID. std::unordered_map<std::string, uint64_t> unknown_balancer_id_trackers_; }; } // namespace load_reporter } // namespace grpc #endif // GRPC_SRC_CPP_SERVER_LOAD_REPORTER_LOAD_DATA_STORE_H	C	5	arghyadip01/grpc	src/cpp/server/load_reporter/load_data_store.h	[ "Apache-2.0" ]
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ScaleX="0.5000" ScaleY="0.5000" /> <Position X="96.0859" Y="49.0471" /> <Scale ScaleX="1.0000" ScaleY="1.0000" /> <CColor A="255" R="255" G="255" B="255" /> <PrePosition X="0.4804" Y="0.3270" /> <PreSize X="0.8750" Y="0.4133" /> <TextColor A="255" R="65" G="65" B="70" /> <DisabledFileData Type="Default" Path="Default/Button_Disable.png" Plist="" /> <PressedFileData Type="PlistSubImage" Path="eightBall_Btn_Setting.png" Plist="gameBilliards/plist/BilliardsCommon.plist" /> <NormalFileData Type="PlistSubImage" Path="eightBall_Btn_Setting.png" Plist="gameBilliards/plist/BilliardsCommon.plist" /> <OutlineColor A="255" R="255" G="0" B="0" /> <ShadowColor A="255" R="110" G="110" B="110" /> </AbstractNodeData> </Children> <AnchorPoint /> <Position Y="640.0000" /> <Scale ScaleX="1.0000" ScaleY="1.0000" /> <CColor A="255" R="255" G="255" B="255" /> <PrePosition Y="1.0000" /> <PreSize X="0.1761" Y="0.2344" /> <SingleColor A="255" R="150" G="200" B="255" /> <FirstColor A="255" R="150" G="200" B="255" /> <EndColor A="255" R="255" G="255" B="255" /> <ColorVector ScaleY="1.0000" /> </AbstractNodeData> </Children> </ObjectData> </Content> </Content> </GameFile>	Csound	2	zhake911/zhuoqiuStudio	CocosStudio/cocosstudio/UI/Billiards/EightBallLayer.csd	[ "Apache-2.0" ]
"""Update platform for Sensibo integration.""" from __future__ import annotations from collections.abc import Callable from dataclasses import dataclass from pysensibo.model import SensiboDevice from homeassistant.components.update import ( UpdateDeviceClass, UpdateEntity, UpdateEntityDescription, ) from homeassistant.config_entries import ConfigEntry from homeassistant.core import HomeAssistant from homeassistant.helpers.entity import EntityCategory from homeassistant.helpers.entity_platform import AddEntitiesCallback from .const import DOMAIN from .coordinator import SensiboDataUpdateCoordinator from .entity import SensiboDeviceBaseEntity PARALLEL_UPDATES = 0 @dataclass class DeviceBaseEntityDescriptionMixin: """Mixin for required Sensibo base description keys.""" value_version: Callable[[SensiboDevice], str \| None] value_available: Callable[[SensiboDevice], str \| None] @dataclass class SensiboDeviceUpdateEntityDescription( UpdateEntityDescription, DeviceBaseEntityDescriptionMixin ): """Describes Sensibo Update entity.""" DEVICE_SENSOR_TYPES: tuple[SensiboDeviceUpdateEntityDescription, ...] = ( SensiboDeviceUpdateEntityDescription( key="fw_ver_available", device_class=UpdateDeviceClass.FIRMWARE, entity_category=EntityCategory.DIAGNOSTIC, name="Update Available", icon="mdi:rocket-launch", value_version=lambda data: data.fw_ver, value_available=lambda data: data.fw_ver_available, ), ) async def async_setup_entry( hass: HomeAssistant, entry: ConfigEntry, async_add_entities: AddEntitiesCallback ) -> None: """Set up Sensibo Update platform.""" coordinator: SensiboDataUpdateCoordinator = hass.data[DOMAIN][entry.entry_id] async_add_entities( SensiboDeviceUpdate(coordinator, device_id, description) for description in DEVICE_SENSOR_TYPES for device_id, device_data in coordinator.data.parsed.items() if description.value_available(device_data) is not None ) class SensiboDeviceUpdate(SensiboDeviceBaseEntity, UpdateEntity): """Representation of a Sensibo Device Update.""" entity_description: SensiboDeviceUpdateEntityDescription def __init__( self, coordinator: SensiboDataUpdateCoordinator, device_id: str, entity_description: SensiboDeviceUpdateEntityDescription, ) -> None: """Initiate Sensibo Device Update.""" super().__init__(coordinator, device_id) self.entity_description = entity_description self._attr_unique_id = f"{device_id}-{entity_description.key}" self._attr_name = f"{self.device_data.name} {entity_description.name}" self._attr_title = self.device_data.model @property def installed_version(self) -> str \| None: """Return version currently installed.""" return self.entity_description.value_version(self.device_data) @property def latest_version(self) -> str \| None: """Return latest available version.""" return self.entity_description.value_available(self.device_data)	Python	5	liangleslie/core	homeassistant/components/sensibo/update.py	[ "Apache-2.0" ]
# cython: embedsignature=True, profile=True, binding=True from __future__ import unicode_literals from cython.operator cimport dereference as deref from cython.operator cimport preincrement as preinc from libc.string cimport memcpy, memset from libcpp.set cimport set as stdset from cymem.cymem cimport Pool from preshed.maps cimport PreshMap cimport cython import re import warnings from .tokens.doc cimport Doc from .strings cimport hash_string from .lexeme cimport EMPTY_LEXEME from .attrs import intify_attrs from .symbols import ORTH, NORM from .errors import Errors, Warnings from . import util from .util import registry, get_words_and_spaces from .attrs import intify_attrs from .symbols import ORTH from .scorer import Scorer from .training import validate_examples from .tokens import Span cdef class Tokenizer: """Segment text, and create Doc objects with the discovered segment boundaries. DOCS: https://spacy.io/api/tokenizer """ def __init__(self, Vocab vocab, rules=None, prefix_search=None, suffix_search=None, infix_finditer=None, token_match=None, url_match=None): """Create a `Tokenizer`, to create `Doc` objects given unicode text. vocab (Vocab): A storage container for lexical types. rules (dict): Exceptions and special-cases for the tokenizer. prefix_search (callable): A function matching the signature of `re.compile(string).search` to match prefixes. suffix_search (callable): A function matching the signature of `re.compile(string).search` to match suffixes. `infix_finditer` (callable): A function matching the signature of `re.compile(string).finditer` to find infixes. token_match (callable): A boolean function matching strings to be recognized as tokens. url_match (callable): A boolean function matching strings to be recognized as tokens after considering prefixes and suffixes. EXAMPLE: >>> tokenizer = Tokenizer(nlp.vocab) DOCS: https://spacy.io/api/tokenizer#init """ self.mem = Pool() self._cache = PreshMap() self._specials = PreshMap() self.token_match = token_match self.url_match = url_match self.prefix_search = prefix_search self.suffix_search = suffix_search self.infix_finditer = infix_finditer self.vocab = vocab self._rules = {} self._special_matcher = PhraseMatcher(self.vocab) self._load_special_cases(rules) property token_match: def __get__(self): return self._token_match def __set__(self, token_match): self._token_match = token_match self._reload_special_cases() property url_match: def __get__(self): return self._url_match def __set__(self, url_match): self._url_match = url_match self._reload_special_cases() property prefix_search: def __get__(self): return self._prefix_search def __set__(self, prefix_search): self._prefix_search = prefix_search self._reload_special_cases() property suffix_search: def __get__(self): return self._suffix_search def __set__(self, suffix_search): self._suffix_search = suffix_search self._reload_special_cases() property infix_finditer: def __get__(self): return self._infix_finditer def __set__(self, infix_finditer): self._infix_finditer = infix_finditer self._reload_special_cases() property rules: def __get__(self): return self._rules def __set__(self, rules): self._rules = {} self._flush_cache() self._flush_specials() self._cache = PreshMap() self._specials = PreshMap() self._load_special_cases(rules) def __reduce__(self): args = (self.vocab, self.rules, self.prefix_search, self.suffix_search, self.infix_finditer, self.token_match, self.url_match) return (self.__class__, args, None, None) def __call__(self, unicode string): """Tokenize a string. string (str): The string to tokenize. RETURNS (Doc): A container for linguistic annotations. DOCS: https://spacy.io/api/tokenizer#call """ doc = self._tokenize_affixes(string, True) self._apply_special_cases(doc) return doc @cython.boundscheck(False) cdef Doc _tokenize_affixes(self, unicode string, bint with_special_cases): """Tokenize according to affix and token_match settings. string (str): The string to tokenize. RETURNS (Doc): A container for linguistic annotations. """ if len(string) >= (2 ** 30): raise ValueError(Errors.E025.format(length=len(string))) cdef int length = len(string) cdef Doc doc = Doc(self.vocab) if length == 0: return doc cdef int i = 0 cdef int start = 0 cdef int has_special = 0 cdef bint in_ws = string[0].isspace() cdef unicode span # The task here is much like string.split, but not quite # We find spans of whitespace and non-space characters, and ignore # spans that are exactly ' '. So, our sequences will all be separated # by either ' ' or nothing. for uc in string: if uc.isspace() != in_ws: if start < i: # When we want to make this fast, get the data buffer once # with PyUnicode_AS_DATA, and then maintain a start_byte # and end_byte, so we can call hash64 directly. That way # we don't have to create the slice when we hit the cache. span = string[start:i] key = hash_string(span) if not self._try_specials_and_cache(key, doc, &has_special, with_special_cases): self._tokenize(doc, span, key, &has_special, with_special_cases) if uc == ' ': doc.c[doc.length - 1].spacy = True start = i + 1 else: start = i in_ws = not in_ws i += 1 if start < i: span = string[start:] key = hash_string(span) if not self._try_specials_and_cache(key, doc, &has_special, with_special_cases): self._tokenize(doc, span, key, &has_special, with_special_cases) doc.c[doc.length - 1].spacy = string[-1] == " " and not in_ws return doc def pipe(self, texts, batch_size=1000): """Tokenize a stream of texts. texts: A sequence of unicode texts. batch_size (int): Number of texts to accumulate in an internal buffer. Defaults to 1000. YIELDS (Doc): A sequence of Doc objects, in order. DOCS: https://spacy.io/api/tokenizer#pipe """ for text in texts: yield self(text) def _flush_cache(self): self._reset_cache([key for key in self._cache]) def _reset_cache(self, keys): for k in keys: cached = <_Cached>self._cache.get(k) del self._cache[k] if cached is not NULL: self.mem.free(cached) def _flush_specials(self): self._special_matcher = PhraseMatcher(self.vocab) for k in self._specials: cached = <_Cached>self._specials.get(k) del self._specials[k] if cached is not NULL: self.mem.free(cached) cdef int _apply_special_cases(self, Doc doc) except -1: """Retokenize doc according to special cases. doc (Doc): Document. """ cdef int i cdef int max_length = 0 cdef bint modify_in_place cdef Pool mem = Pool() cdef vector[SpanC] c_matches cdef vector[SpanC] c_filtered cdef int offset cdef int modified_doc_length # Find matches for special cases self._special_matcher.find_matches(doc, 0, doc.length, &c_matches) # Skip processing if no matches if c_matches.size() == 0: return True self._filter_special_spans(c_matches, c_filtered, doc.length) # Put span info in span.start-indexed dict and calculate maximum # intermediate document size (span_data, max_length, modify_in_place) = self._prepare_special_spans(doc, c_filtered) # If modifications never increase doc length, can modify in place if modify_in_place: tokens = doc.c # Otherwise create a separate array to store modified tokens else: assert max_length > 0 tokens = <TokenC>mem.alloc(max_length, sizeof(TokenC)) # Modify tokenization according to filtered special cases offset = self._retokenize_special_spans(doc, tokens, span_data) # Allocate more memory for doc if needed modified_doc_length = doc.length + offset while modified_doc_length >= doc.max_length: doc._realloc(doc.max_length 2) # If not modified in place, copy tokens back to doc if not modify_in_place: memcpy(doc.c, tokens, max_length * sizeof(TokenC)) for i in range(doc.length + offset, doc.length): memset(&doc.c[i], 0, sizeof(TokenC)) doc.c[i].lex = &EMPTY_LEXEME doc.length = doc.length + offset return True cdef void _filter_special_spans(self, vector[SpanC] &original, vector[SpanC] &filtered, int doc_len) nogil: cdef int seen_i cdef SpanC span cdef stdset[int] seen_tokens stdsort(original.begin(), original.end(), len_start_cmp) cdef int orig_i = original.size() - 1 while orig_i >= 0: span = original[orig_i] if not seen_tokens.count(span.start) and not seen_tokens.count(span.end - 1): filtered.push_back(span) for seen_i in range(span.start, span.end): seen_tokens.insert(seen_i) orig_i -= 1 stdsort(filtered.begin(), filtered.end(), start_cmp) cdef object _prepare_special_spans(self, Doc doc, vector[SpanC] &filtered): spans = [doc[match.start:match.end] for match in filtered] cdef bint modify_in_place = True cdef int curr_length = doc.length cdef int max_length cdef int span_length_diff = 0 span_data = {} for span in spans: rule = self._rules.get(span.text, None) span_length_diff = 0 if rule: span_length_diff = len(rule) - (span.end - span.start) if span_length_diff > 0: modify_in_place = False curr_length += span_length_diff if curr_length > max_length: max_length = curr_length span_data[span.start] = (span.text, span.start, span.end, span_length_diff) return (span_data, max_length, modify_in_place) cdef int _retokenize_special_spans(self, Doc doc, TokenC* tokens, object span_data): cdef int i = 0 cdef int j = 0 cdef int offset = 0 cdef _Cached* cached cdef int idx_offset = 0 cdef int orig_final_spacy cdef int orig_idx cdef int span_start cdef int span_end while i < doc.length: if not i in span_data: tokens[i + offset] = doc.c[i] i += 1 else: span = span_data[i] span_start = span[1] span_end = span[2] cached = <_Cached>self._specials.get(hash_string(span[0])) if cached == NULL: # Copy original tokens if no rule found for j in range(span_end - span_start): tokens[i + offset + j] = doc.c[i + j] i += span_end - span_start else: # Copy special case tokens into doc and adjust token and # character offsets idx_offset = 0 orig_final_spacy = doc.c[span_end - 1].spacy orig_idx = doc.c[i].idx for j in range(cached.length): tokens[i + offset + j] = cached.data.tokens[j] tokens[i + offset + j].idx = orig_idx + idx_offset idx_offset += cached.data.tokens[j].lex.length if cached.data.tokens[j].spacy: idx_offset += 1 tokens[i + offset + cached.length - 1].spacy = orig_final_spacy i += span_end - span_start offset += span[3] return offset cdef int _try_specials_and_cache(self, hash_t key, Doc tokens, int has_special, bint with_special_cases) except -1: cdef bint specials_hit = 0 cdef bint cache_hit = 0 cdef int i if with_special_cases: cached = <_Cached>self._specials.get(key) if cached == NULL: specials_hit = False else: for i in range(cached.length): tokens.push_back(&cached.data.tokens[i], False) has_special[0] = 1 specials_hit = True if not specials_hit: cached = <_Cached>self._cache.get(key) if cached == NULL: cache_hit = False else: if cached.is_lex: for i in range(cached.length): tokens.push_back(cached.data.lexemes[i], False) else: for i in range(cached.length): tokens.push_back(&cached.data.tokens[i], False) cache_hit = True if not specials_hit and not cache_hit: return False return True cdef int _tokenize(self, Doc tokens, unicode span, hash_t orig_key, int* has_special, bint with_special_cases) except -1: cdef vector[LexemeC] prefixes cdef vector[LexemeC] suffixes cdef int orig_size orig_size = tokens.length span = self._split_affixes(tokens.mem, span, &prefixes, &suffixes, has_special, with_special_cases) self._attach_tokens(tokens, span, &prefixes, &suffixes, has_special, with_special_cases) self._save_cached(&tokens.c[orig_size], orig_key, has_special, tokens.length - orig_size) cdef unicode _split_affixes(self, Pool mem, unicode string, vector[const LexemeC] prefixes, vector[const LexemeC] suffixes, int* has_special, bint with_special_cases): cdef size_t i cdef unicode prefix cdef unicode suffix cdef unicode minus_pre cdef unicode minus_suf cdef size_t last_size = 0 while string and len(string) != last_size: if self.token_match and self.token_match(string): break if with_special_cases and self._specials.get(hash_string(string)) != NULL: break last_size = len(string) pre_len = self.find_prefix(string) if pre_len != 0: prefix = string[:pre_len] minus_pre = string[pre_len:] if minus_pre and with_special_cases and self._specials.get(hash_string(minus_pre)) != NULL: string = minus_pre prefixes.push_back(self.vocab.get(mem, prefix)) break suf_len = self.find_suffix(string) if suf_len != 0: suffix = string[-suf_len:] minus_suf = string[:-suf_len] if minus_suf and with_special_cases and self._specials.get(hash_string(minus_suf)) != NULL: string = minus_suf suffixes.push_back(self.vocab.get(mem, suffix)) break if pre_len and suf_len and (pre_len + suf_len) <= len(string): string = string[pre_len:-suf_len] prefixes.push_back(self.vocab.get(mem, prefix)) suffixes.push_back(self.vocab.get(mem, suffix)) elif pre_len: string = minus_pre prefixes.push_back(self.vocab.get(mem, prefix)) elif suf_len: string = minus_suf suffixes.push_back(self.vocab.get(mem, suffix)) return string cdef int _attach_tokens(self, Doc tokens, unicode string, vector[const LexemeC] prefixes, vector[const LexemeC] suffixes, int* has_special, bint with_special_cases) except -1: cdef bint specials_hit = 0 cdef bint cache_hit = 0 cdef int split, end cdef const LexemeC* const* lexemes cdef const LexemeC* lexeme cdef unicode span cdef int i if prefixes.size(): for i in range(prefixes.size()): tokens.push_back(prefixes[0][i], False) if string: if self._try_specials_and_cache(hash_string(string), tokens, has_special, with_special_cases): pass elif (self.token_match and self.token_match(string)) or \ (self.url_match and \ self.url_match(string)): # We're always saying 'no' to spaces here -- the caller will # fix up the outermost one, with reference to the original. # See Issue #859 tokens.push_back(self.vocab.get(tokens.mem, string), False) else: matches = self.find_infix(string) if not matches: tokens.push_back(self.vocab.get(tokens.mem, string), False) else: # Let's say we have dyn-o-mite-dave - the regex finds the # start and end positions of the hyphens start = 0 start_before_infixes = start for match in matches: infix_start = match.start() infix_end = match.end() if infix_start == start_before_infixes: continue if infix_start != start: span = string[start:infix_start] tokens.push_back(self.vocab.get(tokens.mem, span), False) if infix_start != infix_end: # If infix_start != infix_end, it means the infix # token is non-empty. Empty infix tokens are useful # for tokenization in some languages (see # https://github.com/explosion/spaCy/issues/768) infix_span = string[infix_start:infix_end] tokens.push_back(self.vocab.get(tokens.mem, infix_span), False) start = infix_end span = string[start:] if span: tokens.push_back(self.vocab.get(tokens.mem, span), False) cdef vector[const LexemeC].reverse_iterator it = suffixes.rbegin() while it != suffixes.rend(): lexeme = deref(it) preinc(it) tokens.push_back(lexeme, False) cdef int _save_cached(self, const TokenC tokens, hash_t key, int* has_special, int n) except -1: cdef int i if n <= 0: # avoid mem alloc of zero length return 0 for i in range(n): if self.vocab._by_orth.get(tokens[i].lex.orth) == NULL: return 0 # See #1250 if has_special[0]: return 0 cached = <_Cached>self.mem.alloc(1, sizeof(_Cached)) cached.length = n cached.is_lex = True lexemes = <const LexemeC>self.mem.alloc(n, sizeof(LexemeC)) for i in range(n): lexemes[i] = tokens[i].lex cached.data.lexemes = <const LexemeC const>lexemes self._cache.set(key, cached) def find_infix(self, unicode string): """Find internal split points of the string, such as hyphens. string (str): The string to segment. RETURNS (list): A list of `re.MatchObject` objects that have `.start()` and `.end()` methods, denoting the placement of internal segment separators, e.g. hyphens. DOCS: https://spacy.io/api/tokenizer#find_infix """ if self.infix_finditer is None: return 0 return list(self.infix_finditer(string)) def find_prefix(self, unicode string): """Find the length of a prefix that should be segmented from the string, or None if no prefix rules match. string (str): The string to segment. RETURNS (int): The length of the prefix if present, otherwise `None`. DOCS: https://spacy.io/api/tokenizer#find_prefix """ if self.prefix_search is None: return 0 match = self.prefix_search(string) return (match.end() - match.start()) if match is not None else 0 def find_suffix(self, unicode string): """Find the length of a suffix that should be segmented from the string, or None if no suffix rules match. string (str): The string to segment. Returns (int): The length of the suffix if present, otherwise `None`. DOCS: https://spacy.io/api/tokenizer#find_suffix """ if self.suffix_search is None: return 0 match = self.suffix_search(string) return (match.end() - match.start()) if match is not None else 0 def _load_special_cases(self, special_cases): """Add special-case tokenization rules.""" if special_cases is not None: for chunk, substrings in sorted(special_cases.items()): self.add_special_case(chunk, substrings) def _validate_special_case(self, chunk, substrings): """Check whether the `ORTH` fields match the string. Check that additional features beyond `ORTH` and `NORM` are not set by the exception. chunk (str): The string to specially tokenize. substrings (iterable): A sequence of dicts, where each dict describes a token and its attributes. """ attrs = [intify_attrs(spec, _do_deprecated=True) for spec in substrings] orth = "".join([spec[ORTH] for spec in attrs]) if chunk != orth: raise ValueError(Errors.E997.format(chunk=chunk, orth=orth, token_attrs=substrings)) for substring in attrs: for attr in substring: if attr not in (ORTH, NORM): raise ValueError(Errors.E1005.format(attr=self.vocab.strings[attr], chunk=chunk)) def add_special_case(self, unicode string, substrings): """Add a special-case tokenization rule. string (str): The string to specially tokenize. substrings (iterable): A sequence of dicts, where each dict describes a token and its attributes. The `ORTH` fields of the attributes must exactly match the string when they are concatenated. DOCS: https://spacy.io/api/tokenizer#add_special_case """ self._validate_special_case(string, substrings) substrings = list(substrings) cached = <_Cached>self.mem.alloc(1, sizeof(_Cached)) cached.length = len(substrings) cached.is_lex = False cached.data.tokens = self.vocab.make_fused_token(substrings) key = hash_string(string) stale_special = <_Cached>self._specials.get(key) self._specials.set(key, cached) if stale_special is not NULL: self.mem.free(stale_special) self._rules[string] = substrings self._flush_cache() if self.find_prefix(string) or self.find_infix(string) or self.find_suffix(string) or " " in string: self._special_matcher.add(string, None, self._tokenize_affixes(string, False)) def _reload_special_cases(self): self._flush_cache() self._flush_specials() self._load_special_cases(self._rules) def explain(self, text): """A debugging tokenizer that provides information about which tokenizer rule or pattern was matched for each token. The tokens produced are identical to `nlp.tokenizer()` except for whitespace tokens. string (str): The string to tokenize. RETURNS (list): A list of (pattern_string, token_string) tuples DOCS: https://spacy.io/api/tokenizer#explain """ prefix_search = self.prefix_search if prefix_search is None: prefix_search = re.compile("a^").search suffix_search = self.suffix_search if suffix_search is None: suffix_search = re.compile("a^").search infix_finditer = self.infix_finditer if infix_finditer is None: infix_finditer = re.compile("a^").finditer token_match = self.token_match if token_match is None: token_match = re.compile("a^").match url_match = self.url_match if url_match is None: url_match = re.compile("a^").match special_cases = {} for orth, special_tokens in self.rules.items(): special_cases[orth] = [intify_attrs(special_token, strings_map=self.vocab.strings, _do_deprecated=True) for special_token in special_tokens] tokens = [] for substring in text.split(): suffixes = [] while substring: while prefix_search(substring) or suffix_search(substring): if token_match(substring): tokens.append(("TOKEN_MATCH", substring)) substring = '' break if substring in special_cases: tokens.extend(("SPECIAL-" + str(i + 1), self.vocab.strings[e[ORTH]]) for i, e in enumerate(special_cases[substring])) substring = '' break if prefix_search(substring): split = prefix_search(substring).end() # break if pattern matches the empty string if split == 0: break tokens.append(("PREFIX", substring[:split])) substring = substring[split:] if substring in special_cases: continue if suffix_search(substring): split = suffix_search(substring).start() # break if pattern matches the empty string if split == len(substring): break suffixes.append(("SUFFIX", substring[split:])) substring = substring[:split] if len(substring) == 0: continue if token_match(substring): tokens.append(("TOKEN_MATCH", substring)) substring = '' elif url_match(substring): tokens.append(("URL_MATCH", substring)) substring = '' elif substring in special_cases: tokens.extend((f"SPECIAL-{i + 1}", self.vocab.strings[e[ORTH]]) for i, e in enumerate(special_cases[substring])) substring = '' elif list(infix_finditer(substring)): infixes = infix_finditer(substring) offset = 0 for match in infixes: if substring[offset : match.start()]: tokens.append(("TOKEN", substring[offset : match.start()])) if substring[match.start() : match.end()]: tokens.append(("INFIX", substring[match.start() : match.end()])) offset = match.end() if substring[offset:]: tokens.append(("TOKEN", substring[offset:])) substring = '' elif substring: tokens.append(("TOKEN", substring)) substring = '' tokens.extend(reversed(suffixes)) # Find matches for special cases handled by special matcher words, spaces = get_words_and_spaces([t[1] for t in tokens], text) t_words = [] t_spaces = [] for word, space in zip(words, spaces): if not word.isspace(): t_words.append(word) t_spaces.append(space) doc = Doc(self.vocab, words=t_words, spaces=t_spaces) matches = self._special_matcher(doc) spans = [Span(doc, s, e, label=m_id) for m_id, s, e in matches] spans = util.filter_spans(spans) # Replace matched tokens with their exceptions i = 0 final_tokens = [] spans_by_start = {s.start: s for s in spans} while i < len(tokens): if i in spans_by_start: span = spans_by_start[i] exc = [d[ORTH] for d in special_cases[span.label_]] for j, orth in enumerate(exc): final_tokens.append((f"SPECIAL-{j + 1}", self.vocab.strings[orth])) i += len(span) else: final_tokens.append(tokens[i]) i += 1 return final_tokens def score(self, examples, kwargs): validate_examples(examples, "Tokenizer.score") return Scorer.score_tokenization(examples) def to_disk(self, path, kwargs): """Save the current state to a directory. path (str / Path): A path to a directory, which will be created if it doesn't exist. exclude (list): String names of serialization fields to exclude. DOCS: https://spacy.io/api/tokenizer#to_disk """ path = util.ensure_path(path) with path.open("wb") as file_: file_.write(self.to_bytes(kwargs)) def from_disk(self, path, , exclude=tuple()): """Loads state from a directory. Modifies the object in place and returns it. path (str / Path): A path to a directory. exclude (list): String names of serialization fields to exclude. RETURNS (Tokenizer): The modified `Tokenizer` object. DOCS: https://spacy.io/api/tokenizer#from_disk """ path = util.ensure_path(path) with path.open("rb") as file_: bytes_data = file_.read() self.from_bytes(bytes_data, exclude=exclude) return self def to_bytes(self, , exclude=tuple()): """Serialize the current state to a binary string. exclude (list): String names of serialization fields to exclude. RETURNS (bytes): The serialized form of the `Tokenizer` object. DOCS: https://spacy.io/api/tokenizer#to_bytes """ serializers = { "vocab": lambda: self.vocab.to_bytes(exclude=exclude), "prefix_search": lambda: _get_regex_pattern(self.prefix_search), "suffix_search": lambda: _get_regex_pattern(self.suffix_search), "infix_finditer": lambda: _get_regex_pattern(self.infix_finditer), "token_match": lambda: _get_regex_pattern(self.token_match), "url_match": lambda: _get_regex_pattern(self.url_match), "exceptions": lambda: dict(sorted(self._rules.items())) } return util.to_bytes(serializers, exclude) def from_bytes(self, bytes_data, , exclude=tuple()): """Load state from a binary string. bytes_data (bytes): The data to load from. exclude (list): String names of serialization fields to exclude. RETURNS (Tokenizer): The `Tokenizer` object. DOCS: https://spacy.io/api/tokenizer#from_bytes """ data = {} deserializers = { "vocab": lambda b: self.vocab.from_bytes(b, exclude=exclude), "prefix_search": lambda b: data.setdefault("prefix_search", b), "suffix_search": lambda b: data.setdefault("suffix_search", b), "infix_finditer": lambda b: data.setdefault("infix_finditer", b), "token_match": lambda b: data.setdefault("token_match", b), "url_match": lambda b: data.setdefault("url_match", b), "exceptions": lambda b: data.setdefault("rules", b) } # reset all properties and flush all caches (through rules), # reset rules first so that _reload_special_cases is trivial/fast as # the other properties are reset self.rules = {} self.prefix_search = None self.suffix_search = None self.infix_finditer = None self.token_match = None self.url_match = None msg = util.from_bytes(bytes_data, deserializers, exclude) if "prefix_search" in data and isinstance(data["prefix_search"], str): self.prefix_search = re.compile(data["prefix_search"]).search if "suffix_search" in data and isinstance(data["suffix_search"], str): self.suffix_search = re.compile(data["suffix_search"]).search if "infix_finditer" in data and isinstance(data["infix_finditer"], str): self.infix_finditer = re.compile(data["infix_finditer"]).finditer if "token_match" in data and isinstance(data["token_match"], str): self.token_match = re.compile(data["token_match"]).match if "url_match" in data and isinstance(data["url_match"], str): self.url_match = re.compile(data["url_match"]).match if "rules" in data and isinstance(data["rules"], dict): self.rules = data["rules"] return self def _get_regex_pattern(regex): """Get a pattern string for a regex, or None if the pattern is None.""" return None if regex is None else regex.__self__.pattern cdef extern from "<algorithm>" namespace "std" nogil: void stdsort "sort"(vector[SpanC].iterator, vector[SpanC].iterator, bint (*)(SpanC, SpanC)) cdef bint len_start_cmp(SpanC a, SpanC b) nogil: if a.end - a.start == b.end - b.start: return b.start < a.start return a.end - a.start < b.end - b.start cdef bint start_cmp(SpanC a, SpanC b) nogil: return a.start < b.start	Cython	5	kwhumphreys/spaCy	spacy/tokenizer.pyx	[ "Apache-2.0", "MIT" ]
/* It's an automatically generated code. Do not modify it. / package sample.lexer; %% %{ private int lBraceCount; %} %{ // empty user code %} %state STATE, STATE2, FUNCTION = [_a-zA-Z]([$_a-zA-Z0-9])?[:]([^\n\r])?(->\|=>) NOTTAGORCOMMENTBEGIN = ("<"[^c/C!] \| "<c"[^fF] \| "<C"[^fF] \| "</"[^Cc] \| "</c"[^Ff] \| "</C"[^fF] \| "<!"[^-] \| "<!-"[^-] \| "<!--"[^-]) %x STAT %s STAT %{ String escapes="\\ \n \r \t \f" + '\\' + '\n' + '\r' + '\t' + '\f' ; %} ID_CHAR = [a-zA-Z_0-9-] INT_LITERAL = [-+]?[0-9]+ EXPONENT_PART=[Ee][+-]?[0-9]+ ZENDCOMMENT=;{COMMENTCONTENT} QUASI_LITERAL_CHAR=[^\\$`] \| \\ {ANY_CHAR} \| \$ [^`{[:jletter:]] NO_STATE=<TAG> VARIABLE = "$"(::)?{NAME}(::{NAME}) BOOL = true\|yes\|on\|false\|no\|off\|undefined\|null SYNTAX = ,\|\. M=(-?0b[01]+) %% <YYINITIAL> { "empty_braces" { /* ignored/ } "double_braces" {{ return com.intellij.psi.TokenType.WHITE_SPACE; }} // tab-indent "if_clause" { if (yystate() != ANNO_PATTERN) { yybegin(PATH_ELEMENT); } return IF_CLAUSE; } (<#noparse(>)?) { return checkStyle(ANGLE, NOPARSE_START); } =(=)? { return EQ; } true\|false { return BOOLEAN; } %{FUNCTION} {} <LONG_TEMPLATE_ENTRY> "{" { lBraceCount++; return LBRACE; } <LONG_TEMPLATE_ENTRY> "}" { if (lBraceCount == 0) { popState(); return LONG_TEMPLATE_ENTRY_END; } lBraceCount--; return RBRACE; } <STATE> { (\[\/@]) { return 1; } (<\/@>) { return 1; } } <TAG_DOC_SPACE> {WHITE_DOC_SPACE_CHAR}+ { if (checkAhead('<') \|\| checkAhead('\"')) yybegin(COMMENT_DATA); else if (checkAhead('\u007b') ) yybegin(COMMENT_DATA); // lbrace - there's a error in JLex when typing lbrace directly else yybegin(DOC_TAG_VALUE); return myTokenTypes.space(); } "{{!"[^"--"]~"}}" { } "<=>" { return myTM.process(tCMP); } "\"" { if ("a".indexOf('"') <= -1) { return '-'; } } <INTERPOLATION> { [^\n}] "}"? { if (zzBuffer.charAt(getTokenEnd()-1) == '}') yypushback(1); yybegin(stateToGo.pop()); return JadeTokenTypes.JS_EXPR; } } {HexDigit}{1,6} { } {HexDigit}{ 1 , 6 } { } [\w_--\d] { } <<EOF>> { } }	JFlex	3	JojOatXGME/Grammar-Kit	testData/jflex/parser/ParserFixes.flex	[ "Apache-2.0" ]
version https://git-lfs.github.com/spec/v1 oid sha256:496f49d54f025c38fe39573b804a716139755a852ee2715106d6448fdb676b8d size 576	Nit	1	JGCRI/lds	indata/WaterFootprint/Report47-App-IV-RasterMaps/Rapeseed/info/arc0007.nit	[ "BSD-3-Clause-LBNL" ]
TDSmalltalkLeafNode { #name : 'suite', #contents : '\| suite configs version classes testCases \| suite := TestSuite named: \'Metacello Suite\'. configs := Array new. version := BaselineOfMetacello project version. classes := version currentlyLoadedClassesInVersion. testCases := classes select: [ :cls \| cls inheritsFrom: TestCase ]. testCases do: [ :testCase \| suite addTests: testCase suite tests ]. ^ suite' }	STON	3	tom95/metacello	tode/suite.ston	[ "MIT" ]
role Encoding { method name(--> Str) { ... } method alternative-names() { Empty } method encoder(%options --> Encoding::Encoder) { ... } method decoder(%options --> Encoding::Decoder) { ... } } # vim: expandtab shiftwidth=4	Perl6	4	raydiak/rakudo	src/core.c/Encoding.pm6	[ "Artistic-2.0" ]
cd .. if [ -e 220-ifcreate/ifcreate2.dep ]; then redo-ifchange 220-ifcreate/ifcreate2.dep else redo-ifcreate 220-ifcreate/ifcreate2.dep fi echo $$ >>220-ifcreate/ifcreate2.log	Stata	3	BlameJohnny/redo	t/220-ifcreate/ifcreate2.do	[ "Apache-2.0" ]
/**************************************************************************** * * (c) 2021 QGROUNDCONTROL PROJECT <http://www.qgroundcontrol.org> * * QGroundControl is licensed according to the terms in the file * COPYING.md in the root of the source code directory. * ****************************************************************************/ import QtQuick 2.3 import QtQuick.Controls 1.2 import QtQuick.Layouts 1.2 import QGroundControl 1.0 import QGroundControl.Controls 1.0 import QGroundControl.FactSystem 1.0 import QGroundControl.FactControls 1.0 import QGroundControl.ScreenTools 1.0 import QGroundControl.Vehicle 1.0 ColumnLayout { width: availableWidth anchors.fill: parent property Fact _mcPosMode: controller.getParameterFact(-1, "MPC_POS_MODE", false) GridLayout { columns: 2 QGCLabel { text: qsTr("Position control mode (set this to 'simple' during tuning):") visible: _mcPosMode } FactComboBox { fact: _mcPosMode indexModel: false visible: _mcPosMode } } PIDTuning { width: availableWidth property var horizontal: QtObject { property string name: qsTr("Horizontal") property string plotTitle: qsTr("Horizontal (Y direction, sidewards)") property var plot: [ { name: "Response", value: globals.activeVehicle.localPosition.vy.value }, { name: "Setpoint", value: globals.activeVehicle.localPositionSetpoint.vy.value } ] property var params: ListModel { ListElement { title: qsTr("Proportional gain (MPC_XY_VEL_P_ACC)") description: qsTr("Increase for more responsiveness, reduce if the velocity overshoots (and increasing D does not help).") param: "MPC_XY_VEL_P_ACC" min: 1.2 max: 5 step: 0.05 } ListElement { title: qsTr("Integral gain (MPC_XY_VEL_I_ACC)") description: qsTr("Increase to reduce steady-state error (e.g. wind)") param: "MPC_XY_VEL_I_ACC" min: 0.2 max: 10 step: 0.2 } ListElement { title: qsTr("Differential gain (MPC_XY_VEL_D_ACC)") description: qsTr("Damping: increase to reduce overshoots and oscillations, but not higher than really needed.") param: "MPC_XY_VEL_D_ACC" min: 0.1 max: 2 step: 0.05 } } } property var vertical: QtObject { property string name: qsTr("Vertical") property var plot: [ { name: "Response", value: globals.activeVehicle.localPosition.vz.value }, { name: "Setpoint", value: globals.activeVehicle.localPositionSetpoint.vz.value } ] property var params: ListModel { ListElement { title: qsTr("Proportional gain (MPC_Z_VEL_P_ACC)") description: qsTr("Increase for more responsiveness, reduce if the velocity overshoots (and increasing D does not help).") param: "MPC_Z_VEL_P_ACC" min: 2 max: 15 step: 0.5 } ListElement { title: qsTr("Integral gain (MPC_Z_VEL_I_ACC)") description: qsTr("Increase to reduce steady-state error") param: "MPC_Z_VEL_I_ACC" min: 0.2 max: 3 step: 0.05 } ListElement { title: qsTr("Differential gain (MPC_Z_VEL_D_ACC)") description: qsTr("Damping: increase to reduce overshoots and oscillations, but not higher than really needed.") param: "MPC_Z_VEL_D_ACC" min: 0 max: 2 step: 0.05 } } } title: "Velocity" tuningMode: Vehicle.ModeVelocityAndPosition unit: "m/s" axis: [ horizontal, vertical ] } }	QML	5	ChristopherOlson/HeliPilot-QGC	src/AutoPilotPlugins/PX4/PX4TuningComponentCopterVelocity.qml	[ "Apache-2.0" ]
""" This test doesn't work on Windows. The C++ code doesn't catch C++ exceptions if they've traversed a Pony frame. This is suspected to be related to how SEH and LLVM exception code generation interact. See https://github.com/ponylang/ponyc/issues/2455 for more details. """ use "lib:try-block-cant-catch-cpp-exception-additional" use @codegen_test_tryblock_catch[I32](callback: Pointer[None]) use @codegen_test_tryblock_throw[None]()? use @pony_exitcode[None](code: I32) actor Main new create(env: Env) => let r = @codegen_test_tryblock_catch(this~tryblock()) @pony_exitcode(r) fun @tryblock() => try @codegen_test_tryblock_throw()? else None end	Pony	4	rtpax/ponyc	test/libponyc-run/try-block-cant-catch-cpp-exception/main.pony	[ "BSD-2-Clause" ]
@import 'nib' // From https://github.com/tobiasahlin/SpinKit .sk-spinner-cube-grid { width: 40px; height: 40px; margin: 100px auto; } .sk-spinner-cube-grid .sk-cube-grid { width: 33%; height: 33%; background-color: #333; float: left; -webkit-animation: sk-cubeGridScaleDelay 1.3s infinite ease-in-out; animation: sk-cubeGridScaleDelay 1.3s infinite ease-in-out; } .sk-spinner-cube-grid .sk-cube-grid1 { -webkit-animation-delay: 0.2s; animation-delay: 0.2s; } .sk-spinner-cube-grid .sk-cube-grid2 { -webkit-animation-delay: 0.3s; animation-delay: 0.3s; } .sk-spinner-cube-grid .sk-cube-grid3 { -webkit-animation-delay: 0.4s; animation-delay: 0.4s; } .sk-spinner-cube-grid .sk-cube-grid4 { -webkit-animation-delay: 0.1s; animation-delay: 0.1s; } .sk-spinner-cube-grid .sk-cube-grid5 { -webkit-animation-delay: 0.2s; animation-delay: 0.2s; } .sk-spinner-cube-grid .sk-cube-grid6 { -webkit-animation-delay: 0.3s; animation-delay: 0.3s; } .sk-spinner-cube-grid .sk-cube-grid7 { -webkit-animation-delay: 0s; animation-delay: 0s; } .sk-spinner-cube-grid .sk-cube-grid8 { -webkit-animation-delay: 0.1s; animation-delay: 0.1s; } .sk-spinner-cube-grid .sk-cube-grid9 { -webkit-animation-delay: 0.2s; animation-delay: 0.2s; } @-webkit-keyframes sk-cubeGridScaleDelay { 0%, 70%, 100% { -webkit-transform: scale3D(1, 1, 1); transform: scale3D(1, 1, 1); } 35% { -webkit-transform: scale3D(0, 0, 1); transform: scale3D(0, 0, 1); } } @keyframes sk-cubeGridScaleDelay { 0%, 70%, 100% { -webkit-transform: scale3D(1, 1, 1); transform: scale3D(1, 1, 1); } 35% { -webkit-transform: scale3D(0, 0, 1); transform: scale3D(0, 0, 1); } }	Stylus	3	UBessle/wekan	client/components/main/spinner_cube_grid.styl	[ "MIT" ]
result = "package_c" class PackageCObject: __slots__ = ["obj"] def __init__(self, obj): self.obj = obj def return_result(self): return result	Python	3	Hacky-DH/pytorch	test/package/package_c/__init__.py	[ "Intel" ]
// // YMNetWorkHelper.h // WeChatExtension // // Created by MustangYM on 2019/12/2. // Copyright © 2019 MustangYM. All rights reserved. // #import <Foundation/Foundation.h> @interface YMNetWorkHelper : NSObject + (YMNetWorkHelper )share; - (NSURLSessionTask )GET:(NSString )url parameters:(NSDictionary )parame success:(void (^) (id responsobject))success failure:(void (^) (NSError error , NSString failureMsg))failure; - (void)POST:(NSString )url parameters:(NSDictionary )parame success:(void (^) (id responsobject))success failure:(void (^) (NSError error , NSString failureMsg))failure; - (void)POST:(NSString )url parametersStr:(NSString )parame success:(void (^) (id responsobject))success failure:(void (^) (NSError error , NSString failureMsg))failure; - (void)GET:(NSString )chatContent session:(NSString )session success:(void (^) (NSString content, NSString session))success; @end	C	3	TJRoger/WeChatExtension-ForMac	WeChatExtension/WeChatExtension/Sources/Helper/YMNetWorkHelper.h	[ "MIT" ]
// Copyright 2014 The Go Authors. All rights reserved. // Use of this source code is governed by a BSD-style // license that can be found in the LICENSE file. #include "textflag.h" // // System calls for aix/ppc64 are implemented in ../runtime/syscall_aix.go // TEXT ·syscall6(SB),NOSPLIT,$0 JMP runtime·syscall_syscall6(SB) TEXT ·rawSyscall6(SB),NOSPLIT,$0 JMP runtime·syscall_rawSyscall6(SB) TEXT ·RawSyscall(SB),NOSPLIT,$0 JMP runtime·syscall_RawSyscall(SB) TEXT ·Syscall(SB),NOSPLIT,$0 JMP runtime·syscall_Syscall(SB)	GAS	3	Havoc-OS/androidprebuilts_go_linux-x86	src/syscall/asm_aix_ppc64.s	[ "BSD-3-Clause" ]
export default function Testimonial({ quote, name, title }) { return ( <div className="single-testimonial"> <div className="quote"> <i className="lni lni-quotation"></i> </div> <div className="content"> <p>{quote}</p> </div> <div className="info"> <h6>{name}</h6> <p>{title}</p> </div> </div> ) }	JavaScript	4	hanneslund/next.js	examples/cms-buttercms/components/landing-page-sections/testimonial.js	[ "MIT" ]
#N canvas 232 162 657 719 12; #X floatatom 424 666 0 0 100 0 - - -; #N canvas 269 205 698 344 output 0; #X obj 388 156 t b; #X obj 388 105 f; #X obj 388 54 inlet; #X obj 388 181 f; #X msg 482 174 0; #X msg 388 79 bang; #X obj 388 130 moses 1; #X obj 482 149 t b f; #X obj 444 111 moses 1; #X obj 91 148 dbtorms; #X obj 444 86 r master-lvl; #X obj 91 48 r master-lvl; #X obj 388 207 s master-lvl; #X obj 28 169 inlet~; #X obj 213 195 inlet; #X obj 229 218 s master-lvl; #X msg 101 72 set \$1; #X obj 101 98 outlet; #X msg 213 241 \; pd dsp 1; #X obj 91 201 line~; #X obj 31 219 *~; #X obj 31 247 dac~; #X obj 91 173 pack 0 50; #X text 17 149 audio in; #X obj 28 194 hip~ 1; #X connect 0 0 3 0; #X connect 1 0 6 0; #X connect 2 0 5 0; #X connect 3 0 12 0; #X connect 4 0 12 0; #X connect 5 0 1 0; #X connect 6 0 0 0; #X connect 6 1 7 0; #X connect 7 0 4 0; #X connect 8 1 3 1; #X connect 9 0 22 0; #X connect 10 0 1 1; #X connect 10 0 8 0; #X connect 11 0 9 0; #X connect 11 0 16 0; #X connect 13 0 24 0; #X connect 14 0 15 0; #X connect 14 0 18 0; #X connect 16 0 17 0; #X connect 19 0 20 1; #X connect 20 0 21 0; #X connect 20 0 21 1; #X connect 22 0 19 0; #X connect 24 0 20 0; #X restore 386 690 pd output; #X msg 462 666 MUTE; #X obj 16 382 unpack; #X obj 16 299 notein; #X obj 16 327 pack; #X obj 329 213 numset amp x; #X obj 329 242 numset aa x; #X obj 329 329 numset ar x; #X obj 329 271 numset ad x; #X obj 329 300 numset as x; #N canvas 248 85 884 761 synth 0; #X obj 114 588 synthvoice; #X obj 114 561 synthvoice; #X obj 114 534 synthvoice; #X obj 114 507 synthvoice; #X obj 114 480 synthvoice; #X obj 114 453 synthvoice; #X obj 114 426 synthvoice; #X obj 114 399 synthvoice; #X obj 40 91 t b f; #X obj 22 185 f; #X obj 44 130 + 1; #X obj 44 158 mod 1e+06; #X obj 317 670 outlet~; #X obj 45 24 r syn-note; #X obj 454 25 r syn-noteon; #X text 445 652 todo: field to stamp note for later messages; #X obj 22 212 + 1e+06; #X obj 55 239 makenote; #X obj 109 309 moses 1e+06; #X obj 26 352 r all-off; #X msg 26 377 stop; #X obj 196 368 route 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15 16; #X obj 317 644 synthvoice; #X obj 317 617 synthvoice; #X obj 317 590 synthvoice; #X obj 317 563 synthvoice; #X obj 317 536 synthvoice; #X obj 317 509 synthvoice; #X obj 317 482 synthvoice; #X obj 317 455 synthvoice; #X obj 55 279 poly 16 1; #X obj 45 54 unpack 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0; #X obj 455 51 unpack 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0; #X obj 196 339 pack 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0; #X connect 0 0 29 0; #X connect 1 0 0 0; #X connect 2 0 1 0; #X connect 3 0 2 0; #X connect 4 0 3 0; #X connect 5 0 4 0; #X connect 6 0 5 0; #X connect 7 0 6 0; #X connect 8 0 9 0; #X connect 8 1 33 2; #X connect 9 0 10 0; #X connect 9 0 16 0; #X connect 10 0 11 0; #X connect 11 0 9 1; #X connect 13 0 31 0; #X connect 14 0 32 0; #X connect 16 0 17 0; #X connect 17 0 30 0; #X connect 17 1 30 1; #X connect 18 0 33 2; #X connect 19 0 20 0; #X connect 20 0 30 0; #X connect 21 0 7 1; #X connect 21 1 6 1; #X connect 21 2 5 1; #X connect 21 3 4 1; #X connect 21 4 3 1; #X connect 21 5 2 1; #X connect 21 6 1 1; #X connect 21 7 0 1; #X connect 21 8 29 1; #X connect 21 9 28 1; #X connect 21 10 27 1; #X connect 21 11 26 1; #X connect 21 12 25 1; #X connect 21 13 24 1; #X connect 21 14 23 1; #X connect 21 15 22 1; #X connect 22 0 12 0; #X connect 23 0 22 0; #X connect 24 0 23 0; #X connect 25 0 24 0; #X connect 26 0 25 0; #X connect 27 0 26 0; #X connect 28 0 27 0; #X connect 29 0 28 0; #X connect 30 0 33 0; #X connect 30 1 18 0; #X connect 30 2 33 1; #X connect 31 0 8 0; #X connect 31 1 17 1; #X connect 31 2 17 2; #X connect 31 3 33 3; #X connect 31 4 33 4; #X connect 31 5 33 5; #X connect 31 6 33 6; #X connect 31 7 33 7; #X connect 31 8 33 8; #X connect 31 9 33 9; #X connect 31 10 33 10; #X connect 31 11 33 11; #X connect 31 12 33 12; #X connect 31 13 33 13; #X connect 31 14 33 14; #X connect 31 15 33 15; #X connect 31 16 33 16; #X connect 32 0 30 0; #X connect 32 1 30 1; #X connect 32 2 33 3; #X connect 32 3 33 4; #X connect 32 4 33 5; #X connect 32 5 33 6; #X connect 32 6 33 7; #X connect 32 7 33 8; #X connect 32 8 33 9; #X connect 32 9 33 10; #X connect 32 10 33 11; #X connect 32 11 33 12; #X connect 32 12 33 13; #X connect 32 13 33 14; #X connect 32 14 33 15; #X connect 32 15 33 16; #X connect 33 0 21 0; #X restore 386 640 pd synth; #X obj 24 351 r syn-midinoteon; #X obj 16 649 s syn-noteon; #N canvas 0 0 690 415 tables 0; #X msg 107 49 bang; #X obj 107 78 t b b; #X obj 159 142 f; #X obj 197 142 + 1; #X msg 181 115 0; #X obj 107 107 until; #X obj 161 177 t f f; #X obj 109 210 mtof; #X obj 90 177 sel 129; #X obj 109 237 tabwrite mtof; #X text 48 15 patch to regenerate the mtof table; #N canvas 0 0 450 300 graph2 0; #X array mtof 130 float 1; #A 0 8.1758 8.66196 9.17702 9.72272 10.3009 10.9134 11.5623 12.2499 12.9783 13.75 14.5676 15.4339 16.3516 17.3239 18.354 19.4454 20.6017 21.8268 23.1247 24.4997 25.9565 27.5 29.1352 30.8677 32.7032 34.6478 36.7081 38.8909 41.2034 43.6535 46.2493 48.9994 51.9131 55 58.2705 61.7354 65.4064 69.2957 73.4162 77.7817 82.4069 87.3071 92.4986 97.9989 103.826 110 116.541 123.471 130.813 138.591 146.832 155.563 164.814 174.614 184.997 195.998 207.652 220 233.082 246.942 261.626 277.183 293.665 311.127 329.628 349.228 369.994 391.995 415.305 440 466.164 493.883 523.251 554.365 587.33 622.254 659.255 698.456 739.989 783.991 830.609 880 932.328 987.767 1046.5 1108.73 1174.66 1244.51 1318.51 1396.91 1479.98 1567.98 1661.22 1760 1864.66 1975.53 2093 2217.46 2349.32 2489.02 2637.02 2793.83 2959.96 3135.96 3322.44 3520 3729.31 3951.07 4186.01 4434.92 4698.64 4978.03 5274.04 5587.65 5919.91 6271.93 6644.88 7040 7458.62 7902.13 8372.02 8869.84 9397.27 9956.06 10548.1 11175.3 11839.8 12543.9 13289.8 14080; #X coords 0 12000 130 0 200 100 1; #X restore 381 116 graph; #X text 391 224 ------ 130 samples ------; #X text 590 209 0; #X text 592 109 12000; #X connect 0 0 1 0; #X connect 1 0 5 0; #X connect 1 1 4 0; #X connect 2 0 3 0; #X connect 2 0 6 0; #X connect 2 0 8 0; #X connect 3 0 2 1; #X connect 4 0 2 1; #X connect 5 0 2 0; #X connect 6 0 7 0; #X connect 6 1 9 1; #X connect 7 0 9 0; #X connect 8 0 5 1; #X restore 186 132 pd tables; #X obj 25 117 metro 500; #X floatatom 67 178 5 0 0 0 - - -; #X obj 25 203 makenote 64 250; #X obj 27 229 pack; #X obj 27 253 s syn-midinoteon; #X obj 25 98 tgl 15 0 empty empty empty 0 -6 0 8 -262144 -1 -1 0 1 ; #X obj 329 358 numset fil x; #X obj 329 387 numset fb x; #X obj 329 416 numset fa x; #X obj 329 445 numset fd x; #X obj 329 474 numset fs x; #X obj 329 503 numset fr x; #X obj 329 532 numset q x; #X floatatom 101 96 5 0 0 0 - - -; #X floatatom 155 176 5 0 0 0 - - -; #X floatatom 115 149 5 0 0 0 - - -; #X obj 25 178 + 24; #X obj 25 149 random 48; #X obj 329 15 preset preset1 x; #X obj 329 62 preset preset2 x; #X obj 329 108 preset preset3 x; #X obj 329 155 preset preset4 x; #X obj 330 561 numset 2nd x; #X obj 16 626 pack 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0; #X text 451 219 amplitude; #X text 440 246 amp attack time; #X text 445 279 amp decay time; #X text 448 305 amp sustain level (%); #X text 448 331 amp release time; #X text 454 362 filter sweep; #X text 445 392 filter base pitch; #X text 444 424 filter attack time; #X text 444 450 filter decay time; #X text 448 480 filter sustain; #X text 448 507 filter release time; #X text 453 535 q; #X text 450 566 2nd osc detune; #X text 444 596 2nd osc amp (%); #X text 508 666 OUTPUT LEVEL; #X text 41 14 polyphonic synth with; #X text 40 37 voice presets; #X text 21 74 random-note tester; #X obj 330 590 numset 2pc x; #X connect 0 0 1 1; #X connect 1 0 0 0; #X connect 2 0 1 2; #X connect 3 0 38 0; #X connect 3 1 38 1; #X connect 4 0 5 0; #X connect 4 1 5 1; #X connect 5 0 3 0; #X connect 6 0 38 2; #X connect 7 0 38 3; #X connect 8 0 38 6; #X connect 9 0 38 4; #X connect 10 0 38 5; #X connect 11 0 1 0; #X connect 12 0 3 0; #X connect 15 0 32 0; #X connect 16 0 31 1; #X connect 17 0 18 0; #X connect 17 1 18 1; #X connect 18 0 19 0; #X connect 20 0 15 0; #X connect 21 0 38 7; #X connect 22 0 38 8; #X connect 23 0 38 9; #X connect 24 0 38 10; #X connect 25 0 38 11; #X connect 26 0 38 12; #X connect 27 0 38 13; #X connect 28 0 15 1; #X connect 29 0 17 2; #X connect 30 0 32 1; #X connect 31 0 17 0; #X connect 32 0 31 0; #X connect 37 0 38 14; #X connect 38 0 13 0; #X connect 57 0 38 15;	Pure Data	3	mxa/pure-data	doc/7.stuff/synth/1.poly.synth.pd	[ "TCL" ]
CREATE TABLE `tb_gcqyhapjeh` ( `col_hctgmkmyxs` datetime DEFAULT '2019-07-04 00:00:00', `col_kkvhrfifbo` longtext, `col_mqfdtybcrt` longtext, `col_ddgcxloigt` bit(6) DEFAULT NULL, `col_icjiguudiw` bigint(20) unsigned zerofill, UNIQUE KEY `col_kkvhrfifbo` (`col_kkvhrfifbo`(31)) ) ENGINE=InnoDB DEFAULT CHARSET=utf8;	SQL	3	yuanweikang2020/canal	parse/src/test/resources/ddl/alter/mysql_2.sql	[ "Apache-2.0" ]
#***************************************************************************** # * # Make file for VMS * # Author : J.Jansen ([email protected]) * # Date : 17 June 2009 * # * #***************************************************************************** .first define wx [--.include.wx] .ifdef __WXMOTIF__ CXX_DEFINE = /define=(__WXMOTIF__=1)/name=(as_is,short)\ /assume=(nostdnew,noglobal_array_new)/warn=disable=(INTSIGNCHANGE) .else .ifdef __WXGTK__ CXX_DEFINE = /define=(__WXGTK__=1)/float=ieee/name=(as_is,short)/ieee=denorm\ /assume=(nostdnew,noglobal_array_new)/warn=disable=(INTSIGNCHANGE) .else .ifdef __WXGTK2__ CXX_DEFINE = /define=(__WXGTK__=1,VMS_GTK2=1)/float=ieee/name=(as_is,short)/ieee=denorm\ /assume=(nostdnew,noglobal_array_new)/warn=disable=(INTSIGNCHANGE) .else .ifdef __WXX11__ CXX_DEFINE = /define=(__WXX11__=1,__WXUNIVERSAL__==1)/float=ieee\ /name=(as_is,short)/assume=(nostdnew,noglobal_array_new)\ /warn=disable=(INTSIGNCHANGE) .else CXX_DEFINE = .endif .endif .endif .endif .suffixes : .cpp .cpp.obj : cxx $(CXXFLAGS)$(CXX_DEFINE) $(MMS$TARGET_NAME).cpp all : .ifdef __WXMOTIF__ $(MMS)$(MMSQUALIFIERS) baseclient.exe $(MMS)$(MMSQUALIFIERS) baseserver.exe $(MMS)$(MMSQUALIFIERS) client.exe $(MMS)$(MMSQUALIFIERS) server.exe .else .ifdef __WXGTK__ $(MMS)$(MMSQUALIFIERS) baseclient_gtk.exe $(MMS)$(MMSQUALIFIERS) baseserver_gtk.exe $(MMS)$(MMSQUALIFIERS) client_gtk.exe $(MMS)$(MMSQUALIFIERS) server_gtk.exe .else .ifdef __WXGTK2__ $(MMS)$(MMSQUALIFIERS) baseclient_gtk2.exe $(MMS)$(MMSQUALIFIERS) baseserver_gtk2.exe $(MMS)$(MMSQUALIFIERS) client_gtk2.exe $(MMS)$(MMSQUALIFIERS) server_gtk2.exe .else .ifdef __WXX11__ $(MMS)$(MMSQUALIFIERS) baseclient_x11.exe $(MMS)$(MMSQUALIFIERS) baseserver_x11.exe $(MMS)$(MMSQUALIFIERS) client_x11.exe $(MMS)$(MMSQUALIFIERS) server_x11.exe .endif .endif .endif .endif .ifdef __WXMOTIF__ baseclient.exe : baseclient.obj cxxlink baseclient,[--.lib]vms/opt baseserver.exe : baseserver.obj cxxlink baseserver,[--.lib]vms/opt client.exe : client.obj cxxlink client,[--.lib]vms/opt server.exe : server.obj cxxlink server,[--.lib]vms/opt .else .ifdef __WXGTK__ baseclient_gtk.exe : baseclient.obj cxxlink/exe=baseclient_gtk.exe baseclient,[--.lib]vms_gtk/opt baseserver_gtk.exe : baseserver.obj cxxlink/exe=baseserver_gtk.exe baseserver,[--.lib]vms_gtk/opt client_gtk.exe : client.obj cxxlink/exe=client_gtk client,[--.lib]vms_gtk/opt server_gtk.exe : server.obj cxxlink/exe=server_gtk.exe server,[--.lib]vms_gtk/opt .else .ifdef __WXGTK2__ baseclient_gtk2.exe : baseclient.obj cxxlink/exe=baseclient_gtk2.exe baseclient,[--.lib]vms_gtk2/opt baseserver_gtk2.exe : baseserver.obj cxxlink/exe=baseserver_gtk2.exe baseserver,[--.lib]vms_gtk2/opt client_gtk2.exe : client.obj cxxlink/exe=client_gtk2 client,[--.lib]vms_gtk2/opt server_gtk2.exe : server.obj cxxlink/exe=server_gtk2.exe server,[--.lib]vms_gtk2/opt .else .ifdef __WXX11__ baseclient_x11.exe : baseclient.obj cxxlink/exe=baseclient_x11.exe baseclient,[--.lib]vms_x11/opt baseserver_x11.exe : baseserver.obj cxxlink/exe=baseserver_x11.exe baseserver,[--.lib]vms_x11/opt client_x11.exe : client.obj cxxlink/exe=client_x11 client,[--.lib]vms_x11/opt server_x11.exe : server.obj cxxlink/exe=server_x11.exe server,[--.lib]vms_x11/opt .endif .endif .endif .endif baseclient.obj : baseclient.cpp baseserver.obj : baseserver.cpp client.obj : client.cpp server.obj : server.cpp	Module Management System	4	madanagopaltcomcast/pxCore	examples/pxScene2d/external/WinSparkle/3rdparty/wxWidgets/samples/sockets/descrip.mms	[ "Apache-2.0" ]
--TEST-- Bug #62759: Buggy grapheme_substr() on edge case --EXTENSIONS-- intl --FILE-- <?php var_dump(substr('deja', 1, -4)); var_dump(substr('deja', -1, 0)); var_dump(grapheme_substr('deja', 1, -4)); var_dump(intl_get_error_message()); var_dump(grapheme_substr('deja', -1, 0)); var_dump(grapheme_substr('déjà', 1, -4)); var_dump(intl_get_error_message()); var_dump(grapheme_substr('déjà', -1, 0)); ?> --EXPECT-- string(0) "" string(0) "" string(0) "" string(12) "U_ZERO_ERROR" string(0) "" string(0) "" string(12) "U_ZERO_ERROR" string(0) ""	PHP	3	NathanFreeman/php-src	ext/intl/tests/bug62759.phpt	[ "PHP-3.01" ]
import { Component } from '@angular/core'; interface Item { name: string; manufactureDate: Date; color?: string \| null; price: number; } @Component({ selector: 'app-root', templateUrl: './app.component.html', styleUrls: ['./app.component.css'] }) export class AppComponent { title = 'Template Expression Operators'; item: Item = { name : 'Telephone', manufactureDate : new Date(1980, 1, 25), color: 'orange', price: 98, }; nullItem: Item \| null = null; }	TypeScript	4	John-Cassidy/angular	aio/content/examples/template-expression-operators/src/app/app.component.ts	[ "MIT" ]
// test.click // This configuration should print this line five times: // ok: 40 \| 45000028 00000000 401177c3 01000001 02000002 13691369 // Run it at user level with // 'click test.click' // Run it in the Linux kernel with // 'click-install test.click' // Messages are printed to the system log (run 'dmesg' to see them, or look // in /var/log/messages), and to the file '/click/messages'. InfiniteSource(DATA \<00 00 c0 ae 67 ef 00 00 00 00 00 00 08 00 45 00 00 28 00 00 00 00 40 11 77 c3 01 00 00 01 02 00 00 02 13 69 13 69 00 14 d6 41 55 44 50 20 70 61 63 6b 65 74 21 0a>, LIMIT 5, STOP true) -> Strip(14) -> Align(4, 0) // in case we're not on x86 -> CheckIPHeader(BADSRC 18.26.4.255 2.255.255.255 1.255.255.255) -> Print(ok) -> Discard;	Click	4	MacWR/Click-changed-for-ParaGraph	conf/test.click	[ "Apache-2.0" ]
# This file is distributed under the same license as the Django package. # # Translators: # Jannis Leidel <[email protected]>, 2011 # Nick Mavrakis <[email protected]>, 2016 # Pãnoș <[email protected]>, 2014 # Serafeim Papastefanos <[email protected]>, 2021 msgid "" msgstr "" "Project-Id-Version: django\n" "Report-Msgid-Bugs-To: \n" "POT-Creation-Date: 2021-01-15 09:00+0100\n" "PO-Revision-Date: 2021-06-03 18:27+0000\n" "Last-Translator: Serafeim Papastefanos <[email protected]>\n" "Language-Team: Greek (http://www.transifex.com/django/django/language/el/)\n" "MIME-Version: 1.0\n" "Content-Type: text/plain; charset=UTF-8\n" "Content-Transfer-Encoding: 8bit\n" "Language: el\n" "Plural-Forms: nplurals=2; plural=(n != 1);\n" msgid "Redirects" msgstr "Ανακατευθύνσεις" msgid "site" msgstr "ιστότοπος" msgid "redirect from" msgstr "ανακατεύθυνση από" msgid "" "This should be an absolute path, excluding the domain name. Example: “/" "events/search/”." msgstr "" "Πρέπει να είναι ένα απόλυτο μονοπάτι χωρίς το όνομα τομέα. Για παράδειγμα \"/" "events/search\"." msgid "redirect to" msgstr "ανακατεύθυνση προς" msgid "" "This can be either an absolute path (as above) or a full URL starting with a " "scheme such as “https://”." msgstr "" "Μπορεί να είναι είτε ένα απόλυτο μονοπάτι (όπως πιο πάνω) είτε ένα πλήρες " "URL που ξεκινά με κατάλληλο σχημα πχ \"https://\"." msgid "redirect" msgstr "ανακατεύθυνση" msgid "redirects" msgstr "ανακατευθύνσεις"	Gettext Catalog	3	Joshua-Barawa/My-Photos	venv/lib/python3.8/site-packages/django/contrib/redirects/locale/el/LC_MESSAGES/django.po	[ "PostgreSQL", "Unlicense" ]
package { public class Test { public function Test() {} } } import flash.utils.ByteArray; import flash.utils.Endian; import flash.utils.CompressionAlgorithm; var ba1 = new ByteArray(); var ba2 = new ByteArray(); ba1.writeUTFBytes("test data"); ba2.writeUTFBytes("more data"); ba1.writeBytes(ba2, 3, 2); trace("// ba1.writeBytes(ba2, 3, 2);"); trace(ba1); ba1.position = 0; ba1.readBytes(ba2, 2, 3); trace("// ba1.readBytes(ba2, 2, 3);"); trace(ba2); ba1.position = 0; ba1.position = 100; ba1.writeUnsignedInt(2); trace("// ba1.position = 100;"); trace("// ba1.writeUnsignedInt(2);"); trace(ba1.length); ba1.clear(); trace("// ba1.clear();"); trace(ba1.length); ba1.writeDouble(6.6); ba1.position = 3; trace("// ba1.writeDouble(6.6);"); trace("// ba1.position = 3;") trace("// ba1.bytesAvailable;") trace(ba1.bytesAvailable); ba1.clear(); ba1.writeMultiByte("次滋治爾璽痔磁示而耳自蒔辞汐鹿 ", "shift-jis"); trace("// ba1.writeMultiByte(\"次滋治爾璽痔磁示而耳自蒔辞汐鹿 \", \"shift-jis\");"); ba1.position = 0; trace("// ba1.readMultiByte(6, \"shift-jis\")"); trace(ba1.readMultiByte(6, "shift-jis")); ba1.clear(); ba1.writeFloat(3); ba1.writeDouble(5); ba1.writeInt(-10); ba1.writeUnsignedInt(20); ba1.writeShort(40); ba1.writeShort(22); ba1.writeBoolean(false); ba1.writeBoolean(true); ba1.writeBoolean(10); ba1.writeByte(100); ba1.writeByte(255); ba1.position = 0; trace(ba1.readFloat()); trace(ba1.readDouble()); trace(ba1.readInt()); trace(ba1.readUnsignedInt()); trace(ba1.readShort()); trace(ba1.readUnsignedShort()); trace(ba1.readBoolean()); trace(ba1.readBoolean()); trace(ba1.readBoolean()); trace(ba1.readByte()); trace(ba1.readUnsignedByte()); ba1.clear(); ba1.writeFloat(3); ba1.writeDouble(5); ba1.writeInt(-10); ba1.writeUnsignedInt(20); ba1.writeShort(40); ba1.writeShort(22); ba1.writeBoolean(false); ba1.writeBoolean(true); ba1.writeBoolean(10); ba1.writeByte(100); ba1.writeByte(255); ba1.position = 0; trace(ba1.readUnsignedByte()); trace(ba1.readByte()); trace(ba1.readBoolean()); trace(ba1.readBoolean()); trace(ba1.readBoolean()); trace(ba1.readUnsignedShort()); trace(ba1.readShort()); trace(ba1.readUnsignedInt()); trace(ba1.readInt());	ActionScript	3	Sprak1/ruffle	tests/tests/swfs/avm2/bytearray/Test.as	[ "Apache-2.0", "Unlicense" ]
changed in both base 100644 e6a7f7175c58e9683bd93bdd0aa5f7cedad6acdc .circleci/config.yml our 100644 6d44d618aabcce04c60344f2274dec5b0c2a1f68 .circleci/config.yml their 100644 d5b016958044d1a0f9cbdee07182512d170a4d5f .circleci/config.yml @@ -510,6 +510,7 @@ xcode: "8.3.3" <<: build-steps +<<<<<<< .our electron-gn-linux-x64-debug-fyi: environment: DISPLAY: ':99.0' @@ -668,32 +669,108 @@ GN_EXTRA_ARGS: 'is_mas_build = true' <<: gn-mac-build-machine <<: gn-mac-build-steps +======= + electron-linux-gn: + environment: + NIGHTLY_BUILD: true + docker: + - image: electronbuilds/electron:0.0.8 + resource_class: 2xlarge + steps: + - run: + name: Setup depot tools + command: \| + git clone https://chromium.googlesource.com/chromium/tools/depot_tools.git + echo 'export PATH=$PATH:`pwd`/depot_tools' >> $BASH_ENV + - checkout: + path: src/electron + - restore_cache: + paths: + - ~/.gclient-cache + keys: + - v1-gclient-cache-{{ checksum "src/electron/DEPS" }} + - v1-gclient-cache- + - run: + name: Gclient sync + command: \| + echo $PATH + gclient config \ + --name "src/electron" \ + --unmanaged \ + --cache-dir "$HOME/.gclient-cache" \ + "https://github.com/electron/electron" + + gclient sync --with_branch_heads --with_tags + - save_cache: + paths: + - ~/.gclient-cache + key: v1-gclient-cache-{{ checksum "src/electron/DEPS" }} + - run: + name: GN gen + command: \| + cd src + echo 'export CHROMIUM_BUILDTOOLS_PATH=`pwd`/buildtools' >> $BASH_ENV + source $BASH_ENV + gn gen out/Default --args='root_extra_deps=["//electron"] is_electron_build=true is_component_build=true use_jumbo_build=true v8_promise_internal_field_count=1 v8_typed_array_max_size_in_heap=0' + - run: + name: Ninja build + command: \| + cd src + ninja -C out/Default electron:electron_app + - run: + name: Setup for headless testing + environment: + DISPLAY: ':99.0' + command: \| + sh -e /etc/init.d/xvfb start + - run: + name: Test + environment: + MOCHA_FILE: junit/test-results.xml + MOCHA_REPORTER: mocha-junit-reporter + command: \| + cd src + ninja -C out/Default electron/build/node:headers + export npm_config_nodedir="$PWD/out/Default/gen/node_headers" + (cd electron/spec && npm install) + ./out/Default/electron electron/spec --ci + - store_test_results: + path: src/junit + - store_artifacts: + path: src/junit + - <<: notify-slack-failure + - <<: *notify-slack-success +>>>>>>> .their workflows: version: 2 - build-arm: - jobs: - - electron-linux-arm - - electron-linux-arm-test: - requires: - - electron-linux-arm - build-arm64: - jobs: - - electron-linux-arm64 - - electron-linux-arm64-test: - requires: - - electron-linux-arm64 - build-ia32: - jobs: - - electron-linux-ia32 - build-x64: - jobs: - - electron-linux-x64 - build-osx-x64: - jobs: - - electron-osx-x64 - build-mas-x64: +# build-arm: +# jobs: +# - electron-linux-arm +# - electron-linux-arm-test: +# requires: +# - electron-linux-arm +# build-arm64: +# jobs: +# - electron-linux-arm64 +# - electron-linux-arm64-test: +# requires: +# - electron-linux-arm64 +# build-ia32: +# jobs: +# - electron-linux-ia32 +# build-x64: +# jobs: +# - electron-linux-x64 +# build-osx-x64: +# jobs: +# - electron-osx-x64 +# build-mas-x64: +# jobs: +# - electron-mas-x64 + build-gn-linux: jobs: +<<<<<<< .our - electron-mas-x64 build-gn-linux: jobs: @@ -711,6 +788,9 @@ - electron-gn-mas-testing-fyi - electron-gn-osx-debug-fyi - electron-gn-osx-testing-fyi +======= + - electron-linux-gn +>>>>>>> .their nightly-release-test: triggers:	Text	2	testtas9812/desktop	app/test/fixtures/merge-parser/electron/merge-nornagon-gn-ci-builds-into-master.txt	[ "MIT" ]
package com.baeldung.zonedatetime; import java.time.OffsetDateTime; import java.time.ZoneOffset; public class OffsetDateTimeExample { public OffsetDateTime getCurrentTimeByZoneOffset(String offset) { ZoneOffset zoneOffSet= ZoneOffset.of(offset); OffsetDateTime date = OffsetDateTime.now(zoneOffSet); return date; } }	Java	4	DBatOWL/tutorials	core-java-modules/core-java-datetime-string/src/main/java/com/baeldung/zonedatetime/OffsetDateTimeExample.java	[ "MIT" ]
# Markdown Editor # Last Revised: April 23, 2015 by Ben Gotow # # Markdown editor is a simple React component that allows you to type your # emails in markdown and see the live preview of your email in html # {ExtensionRegistry, ComponentRegistry} = require 'nylas-exports' MarkdownEditor = require './markdown-editor' MarkdownComposerExtension = require './markdown-composer-extension' module.exports = activate: -> ComponentRegistry.register MarkdownEditor, role: 'Composer:Editor' ExtensionRegistry.Composer.register(MarkdownComposerExtension) serialize: -> deactivate: -> ComponentRegistry.unregister(MarkdownEditor) ExtensionRegistry.Composer.unregister(MarkdownComposerExtension)	CoffeeScript	4	cnheider/nylas-mail	packages/client-app/internal_packages/composer-markdown/lib/main.cjsx	[ "MIT" ]
= IndProp : Inductively Defined Propositions > module IndProp > > import Basics > import Induction > import Tactics > import Logic > > %hide Basics.Numbers.pred > > %access public export > %default total == Inductively Defined Propositions In the `Logic` chapter, we looked at several ways of writing propositions, including conjunction, disjunction, and quantifiers. In this chapter, we bring a new tool into the mix: _inductive definitions_. Recall that we have seen two ways of stating that a number \idr{n} is even: We can say (1) \idr{evenb n = True}, or (2) \idr{(k n = double k)}. Yet another possibility is to say that \idr{n} is even if we can establish its evenness from the following rules: - Rule \idr{ev_0}: The number \idr{0} is even. - Rule \idr{ev_SS}: If \idr{n} is even, then \idr{S (S n)} is even. To illustrate how this definition of evenness works, let's imagine using it to show that \idr{4} is even. By rule \idr{ev_SS}, it suffices to show that \idr{2} is even. This, in turn, is again guaranteed by rule \idr{ev_SS}, as long as we can show that \idr{0} is even. But this last fact follows directly from the \idr{ev_0} rule. We will see many definitions like this one during the rest of the course. For purposes of informal discussions, it is helpful to have a lightweight notation that makes them easy to read and write. _Inference rules_ are one such notation: \[ \begin{prooftree} \infer0[\idr{ev_0}]{\idr{ev 0}} \end{prooftree} \] \[ \begin{prooftree} \hypo{\idr{ev n}} \infer1[\idr{ev_SS}]{\idr{ev (S (S n))}} \end{prooftree} \] Each of the textual rules above is reformatted here as an inference rule; the intended reading is that, if the _premises_ above the line all hold, then the conclusion below the line follows. For example, the rule \idr{ev_SS} says that, if \idr{n} satisfies \idr{ev}, then \idr{S (S n)} also does. If a rule has no premises above the line, then its conclusion holds unconditionally. We can represent a proof using these rules by combining rule applications into a _proof tree_. Here's how we might transcribe the above proof that \idr{4} is even: \[ \begin{prooftree} \infer0[\idr{ev_0}]{\idr{ev 0}} \infer1[\idr{ev_SS}]{\idr{ev 2}} \infer1[\idr{ev_SS}]{\idr{ev 4}} \end{prooftree} \] Why call this a "tree" (rather than a "stack", for example)? Because, in general, inference rules can have multiple premises. We will see examples of this below. Putting all of this together, we can translate the definition of evenness into a formal Idris definition using an \idr{data} declaration, where each constructor corresponds to an inference rule: > data Ev : Nat -> Type where > Ev_0 : Ev Z > Ev_SS : {n : Nat} -> Ev n -> Ev (S (S n)) > This definition is different in one crucial respect from previous uses of \idr{data}: its result is not a \idr{Type}, but rather a function from \idr{Nat} to \idr{Type} -- that is, a property of numbers. Note that we've already seen other inductive definitions that result in functions, such as \idr{List}, whose type is \idr{Type -> Type}. What is new here is that, because the \idr{Nat} argument of \idr{Ev} appears unnamed, to the right of the colon, it is allowed to take different values in the types of different constructors: \idr{Z} in the type of \idr{Ev_0} and \idr{S (S n)} in the type of \idr{Ev_SS}. In contrast, the definition of \idr{List} names the \idr{x} parameter globally, forcing the result of \idr{Nil} and \idr{(::)} to be the same (\idr{List x}). Had we tried to name \idr{Nat} in defining \idr{Ev}, we would have seen an error: ```idris data Wrong_ev : (n : Nat) -> Type where Wrong_ev_0 : Wrong_ev Z Wrong_ev_SS : n -> Wrong_ev n -> Wrong_ev (S (S n)) ``` ```idris When checking type of IndType.Wrong_ev_SS: When checking argument n to IndType.Wrong_ev: Type mismatch between Type (Type of n) and Nat (Expected type) ``` \todo[inline]{Edit the explanation, it works fine if you remove the first \idr{n ->} in \idr{Wrong_ev_SS}} ("Parameter" here is Idris jargon for an argument on the left of the colon in an Inductive definition; "index" is used to refer to arguments on the right of the colon.) We can think of the definition of \idr{Ev} as defining a Idris property \idr{Ev : Nat -> Type}, together with theorems \idr{Ev_0 : Ev Z} and \idr{Ev_SS : n -> Ev n -> Ev (S (S n))}. Such "constructor theorems" have the same status as proven theorems. In particular, we can apply rule names as functions to each other to prove \idr{Ev} for particular numbers... > ev_4 : Ev 4 > ev_4 = Ev_SS {n=2} $ Ev_SS {n=0} Ev_0 > We can also prove theorems that have hypotheses involving \idr{Ev}. > ev_plus4 : Ev n -> Ev (4 + n) > ev_plus4 x = Ev_SS $ Ev_SS x > More generally, we can show that any number multiplied by 2 is even: ==== Exercise: 1 star (ev_double) > ev_double : Ev (double n) > ev_double = ?ev_double_rhs > $\square$ == Using Evidence in Proofs Besides _constructing_ evidence that numbers are even, we can also _reason about_ such evidence. Introducing \idr{Ev} with a \idr{data} declaration tells Idris not only that the constructors \idr{Ev_0} and \idr{Ev_SS} are valid ways to build evidence that some number is even, but also that these two constructors are the _only_ ways to build evidence that numbers are even (in the sense of \idr{Ev}). In other words, if someone gives us evidence \idr{e} for the assertion \idr{Ev n}, then we know that \idr{e} must have one of two shapes: - \idr{e} is \idr{Ev_0} (and \idr{n} is \idr{Z}), or - \idr{e} is \idr{Ev_SS {n=n'} e'} (and \idr{n} is \idr{S (S n')}, where \idr{e'} is evidence for \idr{Ev n'}). This suggests that it should be possible to analyze a hypothesis of the form \idr{Ev n} much as we do inductively defined data structures; in particular, it should be possible to argue by _induction_ and _case analysis_ on such evidence. Let's look at a few examples to see what this means in practice. === Pattern Matching on Evidence \ \todo[inline]{Edit the whole section to talk about dependent pattern matching} Suppose we are proving some fact involving a number \idr{n}, and we are given \idr{Ev n} as a hypothesis. We already know how to perform case analysis on \idr{n} using the `inversion` tactic, generating separate subgoals for the case where \idr{n = Z} and the case where \idr{n = S n'} for some \idr{n'}. But for some proofs we may instead want to analyze the evidence that \idr{Ev n} directly. By the definition of \idr{Ev}, there are two cases to consider: - If the evidence is of the form \idr{Ev_0}, we know that \idr{n = Z}. - Otherwise, the evidence must have the form \idr{Ev_SS {n=n'} e'}, where \idr{n = S (S n')} and \idr{e'} is evidence for \idr{Ev n'}. We can perform this kind of reasoning in Idris, again using pattern matching. Besides allowing us to reason about equalities involving constructors, `inversion` provides a case-analysis principle for inductively defined propositions. When used in this way, its syntax is similar to `destruct`: We pass it a list of identifiers separated by `\|` characters to name the arguments to each of the possible constructors. > ev_minus2 : Ev n -> Ev (pred (pred n)) > ev_minus2 Ev_0 = Ev_0 > ev_minus2 (Ev_SS e') = e' > In words, here is how the pattern match reasoning works in this proof: - If the evidence is of the form \idr{Ev_0}, we know that \idr{n = Z}. Therefore, it suffices to show that \idr{Ev (pred (pred Z))} holds. By the definition of \idr{pred}, this is equivalent to showing that \idr{Ev Z} holds, which directly follows from \idr{Ev_0}. - Otherwise, the evidence must have the form \idr{Ev_SS {n=n'} e'}, where \idr{n = S (S n')} and \idr{e'} is evidence for \idr{Ev n'}. We must then show that \idr{Ev (pred (pred (S (S n'))))} holds, which, after simplification, follows directly from \idr{e'}. Suppose that we wanted to prove the following variation of \idr{ev_minus2}: > evSS_ev : Ev (S (S n)) -> Ev n Intuitively, we know that evidence for the hypothesis cannot consist just of the \idr{Ev_0} constructor, since \idr{Z} and \idr{S} are different constructors of the type \idr{Nat}; hence, \idr{Ev_SS} is the only case that applies. Unfortunately, destruct is not smart enough to realize this, and it still generates two subgoals. Even worse, in doing so, it keeps the final goal unchanged, failing to provide any useful information for completing the proof. The inversion tactic, on the other hand, can detect (1) that the first case does not apply, and (2) that the \idr{n'} that appears on the \idr{Ev_SS} case must be the same as \idr{n}. This allows us to complete the proof > evSS_ev (Ev_SS e') = e' > By using dependent pattern matching, we can also apply the principle of explosion to "obviously contradictory" hypotheses involving inductive properties. For example: > one_not_even : Not (Ev 1) > one_not_even Ev_0 impossible > one_not_even (Ev_SS _) impossible > === Exercise: 1 star (inversion_practice) Prove the following results using pattern matching. > SSSSev__even : Ev (S (S (S (S n)))) -> Ev n > SSSSev__even e = ?SSSSev__even_rhs > > even5_nonsense : Ev 5 -> 2 + 2 = 9 > even5_nonsense e = ?even5_nonsense_rhs > $\square$ \todo[inline]{Edit} The way we've used `inversion` here may seem a bit mysterious at first. Until now, we've only used `inversion` on equality propositions, to utilize injectivity of constructors or to discriminate between different constructors. But we see here that `inversion` can also be applied to analyzing evidence for inductively defined propositions. Here's how `inversion` works in general. Suppose the name `I` refers to an assumption `P` in the current context, where `P` has been defined by an `Inductive` declaration. Then, for each of the constructors of `P`, `inversion I` generates a subgoal in which `I` has been replaced by the exact, specific conditions under which this constructor could have been used to prove `P`. Some of these subgoals will be self-contradictory; `inversion` throws these away. The ones that are left represent the cases that must be proved to establish the original goal. For those, `inversion` adds all equations into the proof context that must hold of the arguments given to `P` (e.g., \idr{S (S n') = n} in the proof of \idr{evSS_ev}). The \idr{ev_double} exercise above shows that our new notion of evenness is implied by the two earlier ones (since, by \idr{even_bool_prop} in chapter `Logic`, we already know that those are equivalent to each other). To show that all three coincide, we just need the following lemma: > ev_even : Ev n -> (k n = double k) We proceed by case analysis on \idr{Ev n}. The first case can be solved trivially. > ev_even Ev_0 = (Z Refl) Unfortunately, the second case is harder. We need to show \idr{(k S (S n') = double k}, but the only available assumption is \idr{e'}, which states that \idr{Ev n'} holds. Since this isn't directly useful, it seems that we are stuck and that performing case analysis on \idr{Ev n} was a waste of time. If we look more closely at our second goal, however, we can see that something interesting happened: By performing case analysis on \idr{Ev n}, we were able to reduce the original result to an similar one that involves a _different_ piece of evidence for \idr{Ev n}: \idr{e'}. More formally, we can finish our proof by showing that ```idris (k' n' = double k') ``` which is the same as the original statement, but with \idr{n'} instead of \idr{n}. Indeed, it is not difficult to convince Idris that this intermediate result suffices. > ev_even (Ev_SS e') = I $ ev_even e' > where > I : (k' n' = double k') -> (k S (S n') = double k) > I (k' prf) = (S k' cong {f=S} $ cong {f=S} prf) > === Induction on Evidence \ \todo[inline]{Edit, we've already just done an induction-style proof, the following is basically replacing `where` with `let`} If this looks familiar, it is no coincidence: We've encountered similar problems in the `Induction` chapter, when trying to use case analysis to prove results that required induction. And once again the solution is... induction! The behavior of `induction` on evidence is the same as its behavior on data: It causes Idris to generate one subgoal for each constructor that could have used to build that evidence, while providing an induction hypotheses for each recursive occurrence of the property in question. Let's try our current lemma again: > ev_even' : Ev n -> (k n = double k) > ev_even' Ev_0 = (Z Refl) > ev_even' (Ev_SS e') = > let > (kprf) = ev_even e' > cprf = cong {f=S} $ cong {f=S} prf > in > rewrite cprf in (S k Refl) > Here, we can see that Idris produced an `IH` that corresponds to `E'`, the single recursive occurrence of ev in its own definition. Since E' mentions n', the induction hypothesis talks about n', as opposed to n or some other number. The equivalence between the second and third definitions of evenness now follows. > ev_even_iff : (Ev n) <-> (k n = double k) > ev_even_iff = (ev_even, fro) > where > fro : (k n = double k) -> (Ev n) > fro (k prf) = rewrite prf in ev_double {n=k} > As we will see in later chapters, induction on evidence is a recurring technique across many areas, and in particular when formalizing the semantics of programming languages, where many properties of interest are defined inductively. The following exercises provide simple examples of this technique, to help you familiarize yourself with it. ==== Exercise: 2 stars (ev_sum) > ev_sum : Ev n -> Ev m -> Ev (n + m) > ev_sum x y = ?ev_sum_rhs > $\square$ === Exercise: 4 stars, advanced, optional (ev_alternate) In general, there may be multiple ways of defining a property inductively. For example, here's a (slightly contrived) alternative definition for \idr{Ev}: > data Ev' : Nat -> Type where > Ev'_0 : Ev' Z > Ev'_2 : Ev' 2 > Ev'_sum : Ev' n -> Ev' m -> Ev' (n + m) > Prove that this definition is logically equivalent to the old one. (You may want to look at the previous theorem when you get to the induction step.) > ev'_ev : (Ev' n) <-> Ev n > ev'_ev = ?ev__ev_rhs > $\square$ === Exercise: 3 stars, advanced, recommended (ev_ev__ev) Finding the appropriate thing to do induction on is a bit tricky here: > ev_ev__ev : Ev (n+m) -> Ev n -> Ev m > ev_ev__ev x y = ?ev_ev__ev_rhs > $\square$ ==== Exercise: 3 stars, optional (ev_plus_plus) This exercise just requires applying existing lemmas. No induction or even case analysis is needed, though some of the rewriting may be tedious. > ev_plus_plus : Ev (n+m) -> Ev (n+p) -> Ev (m+p) > ev_plus_plus x y = ?ev_plus_plus_rhs > $\square$ == Inductive Relations A proposition parameterized by a number (such as \idr{Ev}) can be thought of as a _property_ -- i.e., it defines a subset of \idr{Nat}, namely those numbers for which the proposition is provable. In the same way, a two-argument proposition can be thought of as a _relation_ -- i.e., it defines a set of pairs for which the proposition is provable. One useful example is the "less than or equal to" relation on numbers. The following definition should be fairly intuitive. It says that there are two ways to give evidence that one number is less than or equal to another: either observe that they are the same number, or give evidence that the first is less than or equal to the predecessor of the second. > data Le : Nat -> Nat -> Type where > Le_n : Le n n > Le_S : Le n m -> Le n (S m) > > syntax [m] "<='" [n] = Le m n > Proofs of facts about \idr{<='} using the constructors \idr{Le_n} and \idr{Le_S} follow the same patterns as proofs about properties, like \idr{Ev} above. We can apply the constructors to prove \idr{<='} goals (e.g., to show that \idr{3<='3} or \idr{3<='6}), and we can use pattern matching to extract information from \idr{<='} hypotheses in the context (e.g., to prove that \idr{(2<='1) -> 2+2=5}.) Here are some sanity checks on the definition. (Notice that, although these are the same kind of simple "unit tests" as we gave for the testing functions we wrote in the first few lectures, we must construct their proofs explicitly -- \idr{Refl} doesn't do the job, because the proofs aren't just a matter of simplifying computations.) > test_le1 : 3 <=' 3 > test_le1 = Le_n > > test_le2 : 3 <=' 6 > test_le2 = Le_S $ Le_S $ Le_S Le_n > > test_le3 : (2<='1) -> 2+2=5 > test_le3 (Le_S Le_n) impossible > test_le3 (Le_S (Le_S _)) impossible > The "strictly less than" relation \idr{n < m} can now be defined in terms of \idr{Le}. > Lt : (n, m : Nat) -> Type > Lt n m = Le (S n) m > > syntax [m] "<'" [n] = Lt m n > Here are a few more simple relations on numbers: > data Square_of : Nat -> Nat -> Type where > Sq : Square_of n (n * n) > > data Next_nat : Nat -> Nat -> Type where > Nn : Next_nat n (S n) > > data Next_even : Nat -> Nat -> Type where > Ne_1 : Ev (S n) -> Next_even n (S n) > Ne_2 : Ev (S (S n)) -> Next_even n (S (S n)) ==== Exercise: 2 stars, optional (total_relation) Define an inductive binary relation \idr{Total_relation} that holds between every pair of natural numbers. > -- FILL IN HERE > $\square$ === Exercise: 2 stars, optional (empty_relation) Define an inductive binary relation \idr{Empty_relation} (on numbers) that never holds. > --FILL IN HERE > $\square$ ==== Exercise: 3 stars, optional (le_exercises) Here are a number of facts about the \idr{<='} and \idr{<'} relations that we are going to need later in the course. The proofs make good practice exercises. > le_trans : (m <=' n) -> (n <=' o) -> (m <=' o) > le_trans x y = ?le_trans_rhs > > O_le_n : Z <=' n > O_le_n = ?O_le_n_rhs > > n_le_m__Sn_le_Sm : (n <=' m) -> ((S n) <=' (S m)) > n_le_m__Sn_le_Sm x = ?n_le_m__Sn_le_Sm_rhs > > Sn_le_Sm__n_le_m : ((S n) <=' (S m)) -> (n <=' m) > Sn_le_Sm__n_le_m x = ?Sn_le_Sm__n_le_m_rhs > > le_plus_l : a <=' (a + b) > le_plus_l = ?le_plus_l_rhs > > plus_lt : ((n1 + n2) <' m) -> (n1 <' m, n2 <' m) > plus_lt x = ?plus_lt_rhs > > lt_S : (n <' m) -> (n <' S m) > lt_S x = ?lt_S_rhs > > lte_complete : lte n m = True -> (n <=' m) > lte_complete prf = ?lte_complete_rhs > Hint: The next one may be easiest to prove by induction on \idr{m}. > lte_correct : (n <=' m) -> lte n m = True > lte_correct x = ?lte_correct_rhs > Hint: This theorem can easily be proved without using induction. > lte_true_trans : lte n m = True -> lte m o = True -> lte n o = True > lte_true_trans prf prf1 = ?lte_true_trans_rhs > ==== Exercise: 2 stars, optional (lte_iff) > lte_iff : (lte n m = True) <-> (n <=' m) > lte_iff = ?lte_iff_rhs > $\square$ > namespace R > ==== Exercise: 3 stars, recommended (R_provability) We can define three-place relations, four-place relations, etc., in just the same way as binary relations. For example, consider the following three-place relation on numbers: > data R : Nat -> Nat -> Nat -> Type where > C1 : R 0 0 0 > C2 : R m n o -> R (S m) n (S o) > C3 : R m n o -> R m (S n) (S o) > C4 : R (S m) (S n) (S (S o)) -> R m n o > C5 : R m n o -> R n m o > Which of the following propositions are provable? - \idr{R 1 1 2} - \idr{R 2 2 6} - If we dropped constructor \idr{C5} from the definition of \idr{R}, would the set of provable propositions change? Briefly (1 sentence) explain your answer. - If we dropped constructor \idr{C4} from the definition of \idr{R}, would the set of provable propositions change? Briefly (1 sentence) explain your answer. > -- FILL IN HERE > $\square$ ==== Exercise: 3 stars, optional (R_fact) The relation \idr{R} above actually encodes a familiar function. Figure out which function; then state and prove this equivalence in Idris? > fR : Nat -> Nat -> Nat > fR k j = ?fR_rhs > > R_equiv_fR : (R m n o) <-> (fR m n = o) > R_equiv_fR = ?R_equiv_fR_rhs > $\square$ === Exercise: 4 stars, advanced (subsequence) A list is a _subsequence_ of another list if all of the elements in the first list occur in the same order in the second list, possibly with some extra elements in between. For example, ```idris [1,2,3] ``` is a subsequence of each of the lists ```idris [1,2,3] [1,1,1,2,2,3] [1,2,7,3] [5,6,1,9,9,2,7,3,8] ``` but it is not a subsequence of any of the lists ```idris [1,2] [1,3] [5,6,2,1,7,3,8] ``` - Define an inductive type \idr{Subseq} on \idr{List Nat} that captures what it means to be a subsequence. (Hint: You'll need three cases.) - Prove \idr{subseq_refl} that subsequence is reflexive, that is, any list is a subsequence of itself. - Prove \idr{subseq_app} that for any lists \idr{l1}, \idr{l2}, and \idr{l3}, if \idr{l1} is a subsequence of \idr{l2}, then \idr{l1} is also a subsequence of \idr{l2 ++ l3}. - (Optional, harder) Prove \idr{subseq_trans} that subsequence is transitive -- that is, if \idr{l1} is a subsequence of \idr{l2} and \idr{l2} is a subsequence of \idr{l3}, then \idr{l1} is a subsequence of \idr{l3}. Hint: choose your induction carefully! > -- FILL IN HERE $\square$ ==== Exercise: 2 stars, optional (R_provability2) Suppose we give Idris the following definition: > data R' : Nat -> List Nat -> Type where > C1' : R' 0 [] > C2' : R' n l -> R' (S n) (n :: l) > C3' : R' (S n) l -> R' n l > Which of the following propositions are provable? - \idr{R' 2 [1,0]} - \idr{R' 1 [1,2,1,0]} - \idr{R' 6 [3,2,1,0]} $\square$ == Case Study: Regular Expressions The \idr{Ev} property provides a simple example for illustrating inductive definitions and the basic techniques for reasoning about them, but it is not terribly exciting -- after all, it is equivalent to the two non-inductive of evenness that we had already seen, and does not seem to offer any concrete benefit over them. To give a better sense of the power of inductive definitions, we now show how to use them to model a classic concept in computer science: _regular expressions_. Regular expressions are a simple language for describing strings, defined as follows: > data Reg_exp : (t : Type) -> Type where > EmptySet : Reg_exp t > EmptyStr : Reg_exp t > Chr : t -> Reg_exp t > App : Reg_exp t -> Reg_exp t -> Reg_exp t > Union : Reg_exp t -> Reg_exp t -> Reg_exp t > Star : Reg_exp t -> Reg_exp t > Note that this definition is _polymorphic_: Regular expressions in \idr{Reg_exp t} describe strings with characters drawn from\idr{t} -- that is, lists of elements of \idr{t}. (We depart slightly from standard practice in that we do not require the type \idr{t} to be finite. This results in a somewhat different theory of regular expressions, but the difference is not significant for our purposes.) We connect regular expressions and strings via the following rules, which define when a regular expression _matches_ some string: - The expression \idr{EmptySet} does not match any string. - The expression \idr{EmptyStr} matches the empty string \idr{[]}. - The expression \idr{Chr x} matches the one-character string \idr{[x]}. - If \idr{re1} matches \idr{s1}, and \idr{re2} matches \idr{s2}, then \idr{App re1 re2} matches \idr{s1 ++ s2}. - If at least one of \idr{re1} and \idr{re2} matches \idr{s}, then \idr{Union re1 re2} matches \idr{s}. - Finally, if we can write some string \idr{s} as the concatenation of a sequence of strings \idr{s = s_1 ++ ... ++ s_k}, and the expression \idr{re} matches each one of the strings \idr{s_i}, then \idr{Star re} matches \idr{s}. As a special case, the sequence of strings may be empty, so \idr{Star re} always matches the empty string \idr{[]} no matter what \idr{re} is. We can easily translate this informal definition into a \idr{data} one as follows: > data Exp_match : List t -> Reg_exp t -> Type where > MEmpty : Exp_match [] EmptyStr > MChar : Exp_match [x] (Chr x) > MApp : Exp_match s1 re1 -> Exp_match s2 re2 -> > Exp_match (s1 ++ s2) (App re1 re2) > MUnionL : Exp_match s1 re1 -> > Exp_match s1 (Union re1 re2) > MUnionR : Exp_match s2 re2 -> > Exp_match s2 (Union re1 re2) > MStar0 : Exp_match [] (Star re) > MStarApp : Exp_match s1 re -> > Exp_match s2 (Star re) -> > Exp_match (s1 ++ s2) (Star re) > Again, for readability, we can also display this definition using inference-rule notation. At the same time, let's introduce a more readable infix notation. > syntax [s] "=~" [re] = (Exp_match s re) > \[ \begin{prooftree} \infer0[\idr{MEmpty}]{\idr{[] =~ EmptyStr}} \end{prooftree} \] \[ \begin{prooftree} \infer0[\idr{MChar}]{\idr{[x] =~ Chr x}} \end{prooftree} \] \[ \begin{prooftree} \hypo{\idr{s1 =~ re1}} \hypo{\idr{s2 =~ r2}} \infer2[\idr{MApp}]{\idr{s1 ++ s2 =~ App re1 re2}} \end{prooftree} \] \[ \begin{prooftree} \hypo{\idr{s1 =~ re1}} \infer1[\idr{MUnionL}]{\idr{s1 =~ Union re1 re2}} \end{prooftree} \] \[ \begin{prooftree} \hypo{\idr{s2 =~ re2}} \infer1[\idr{MUnionR}]{\idr{s2 =~ Union re1 re2}} \end{prooftree} \] \[ \begin{prooftree} \infer0[\idr{MStar0}]{\idr{[] =~ Star re}} \end{prooftree} \] \[ \begin{prooftree} \hypo{\idr{s1 =~ re}} \hypo{\idr{s2 =~ Star re}} \infer2[\idr{MStarApp}]{\idr{s1 ++ s2 =~ Star re}} \end{prooftree} \] Notice that these rules are not _quite_ the same as the informal ones that we gave at the beginning of the section. First, we don't need to include a rule explicitly stating that no string matches \idr{EmptySet}; we just don't happen to include any rule that would have the effect of some string matching \idr{EmptySet}. (Indeed, the syntax of inductive definitions doesn't even _allow_ us to give such a "negative rule.") Second, the informal rules for \idr{Union} and \idr{Star} correspond to two constructors each: \idr{MUnionL} / \idr{MUnionR}, and \idr{MStar0} / \idr{MStarApp}. The result is logically equivalent to the original rules but more convenient to use in Idris, since the recursive occurrences of \idr{Exp_match} are given as direct arguments to the constructors, making it easier to perform induction on evidence. (The \idr{exp_match_ex1} and \idr{exp_match_ex2} exercises below ask you to prove that the constructors given in the inductive declaration and the ones that would arise from a more literal transcription of the informal rules are indeed equivalent.) Let's illustrate these rules with a few examples. > reg_exp_ex1 : [1] =~ (Chr 1) > reg_exp_ex1 = MChar > ```idris reg_exp_ex2 : [1,2] =~ (App (Chr 1) (Chr 2)) reg_exp_ex2 = MApp {s1=[1]} {s2=[2]} MChar MChar ``` Notice how the last example applies \idr{MApp} to the strings \idr{[1]} and \idr{[2]} directly. While the goal mentions \idr{[1,2]} instead of \idr{[1] ++ [2]}, Idris is able to figure out how to split the string on its own, so we can drop the implicits: > reg_exp_ex2 : [1,2] =~ (App (Chr 1) (Chr 2)) > reg_exp_ex2 = MApp MChar MChar > Using pattern matching, we can also show that certain strings do not match a regular expression: > reg_exp_ex3 : Not ([1,2] =~ (Chr 1)) > reg_exp_ex3 MEmpty impossible > reg_exp_ex3 MChar impossible > reg_exp_ex3 (MApp _ _) impossible > reg_exp_ex3 (MUnionL _) impossible > reg_exp_ex3 (MUnionR _) impossible > reg_exp_ex3 MStar0 impossible > reg_exp_ex3 (MStarApp _ _) impossible > We can define helper functions to help write down regular expressions. The \idr{reg_exp_of_list} function constructs a regular expression that matches exactly the list that it receives as an argument: > reg_exp_of_list : List t -> Reg_exp t > reg_exp_of_list [] = EmptyStr > reg_exp_of_list (x :: xs) = App (Chr x) (reg_exp_of_list xs) > > reg_exp_ex4 : [1,2,3] =~ (reg_exp_of_list [1,2,3]) > reg_exp_ex4 = MApp MChar $ MApp MChar $ MApp MChar MEmpty > We can also prove general facts about \idr{Exp_match}. For instance, the following lemma shows that every string \idr{s} that matches \idr{re} also matches \idr{Star re}. > MStar1 : (s =~ re) -> (s =~ Star re) > MStar1 {s} h = > rewrite sym $ appendNilRightNeutral s in > MStarApp h MStar0 > (Note the use of \idr{appendNilRightNeutral} to change the goal of the theorem to exactly the same shape expected by \idr{MStarApp}.) ==== Exercise: 3 stars (exp_match_ex1) The following lemmas show that the informal matching rules given at the beginning of the chapter can be obtained from the formal inductive definition. > empty_is_empty : Not (s =~ EmptySet) > empty_is_empty = ?empty_is_empty_rhs > > MUnion' : (s =~ re1, s =~ re2) -> s =~ Union re1 re2 > MUnion' m = ?MUnion__rhs > The next lemma is stated in terms of the \idr{fold} function from the \idr{Poly} chapter: If \idr{ss : List (List t)} represents a sequence of strings \idr{s1, ..., sn}, then \idr{fold (++) ss []} is the result of concatenating them all together. \todo[inline]{Copied from \idr{Poly}, cannot import it due to tuple sugar issues} > fold : (f : x -> y -> y) -> (l : List x) -> (b : y) -> y > fold f [] b = b > fold f (h::t) b = f h (fold f t b) > > MStar' : ((s : List t) -> (In s ss) -> (s =~ re)) -> > (fold (++) ss []) =~ Star re > MStar' f = ?MStar__rhs > $\square$ ==== Exercise: 4 stars (reg_exp_of_list) Prove that \idr{reg_exp_of_list} satisfies the following specification: > reg_exp_of_list_spec : (s1 =~ reg_exp_of_list s2) <-> (s1 = s2) > reg_exp_of_list_spec = ?reg_exp_of_list_spec_rhs > $\square$ Since the definition of \idr{Exp_match} has a recursive structure, we might expect that proofs involving regular expressions will often require induction on evidence. For example, suppose that we wanted to prove the following intuitive result: If a regular expression \idr{re} matches some string \idr{s}, then all elements of \idr{s} must occur somewhere in \idr{re}. To state this theorem, we first define a function \idr{re_chars} that lists all characters that occur in a regular expression: > re_chars : (re : Reg_exp t) -> List t > re_chars EmptySet = [] > re_chars EmptyStr = [] > re_chars (Chr x) = [x] > re_chars (App re1 re2) = re_chars re1 ++ re_chars re2 > re_chars (Union re1 re2) = re_chars re1 ++ re_chars re2 > re_chars (Star re) = re_chars re > > re_star : re_chars (Star re) = re_chars re > re_star = Refl > We can then phrase our theorem as follows: \todo[inline]{Some unfortunate implicit plumbing} > destruct : In x (s1 ++ s2) -> (In x s1) `Either` (In x s2) > destruct {x} {s1} {s2} = fst $ in_app_iff {a=x} {l=s1} {l'=s2} > > construct : (In x (re_chars re1)) `Either` (In x (re_chars re2)) -> > In x ((re_chars re1) ++ (re_chars re2)) > construct {x} {re1} {re2} = > snd $ in_app_iff {a=x} {l=(re_chars re1)} {l'=(re_chars re2)} > > in_re_match : (s =~ re) -> In x s -> In x (re_chars re) > in_re_match MEmpty prf = prf > in_re_match MChar prf = prf > in_re_match (MApp m1 m2) prf = construct $ case destruct prf of > Left prf1 => Left $ in_re_match m1 prf1 > Right prf2 => Right $ in_re_match m2 prf2 > in_re_match (MUnionL ml) prf = construct $ Left $ in_re_match ml prf > in_re_match (MUnionR mr) prf = construct $ Right $ in_re_match mr prf > in_re_match MStar0 prf = absurd prf > in_re_match (MStarApp m ms) prf = case destruct prf of \todo[inline]{Edit} Something interesting happens in the \idr{MStarApp} case. We obtain two induction hypotheses: One that applies when \idr{x} occurs in \idr{s1} (which matches \idr{re}), and a second one that applies when \idr{x} occurs in \idr{s2} (which matches \idr{Star re}). This is a good illustration of why we need induction on evidence for \idr{Exp_match}, as opposed to \idr{re}: The latter would only provide an induction hypothesis for strings that match \idr{re}, which would not allow us to reason about the case \idr{In x s2}. > Left prf' => in_re_match m prf' > Right prfs => in_re_match ms prfs > ==== Exercise: 4 stars (re_not_empty) Write a recursive function \idr{re_not_empty} that tests whether a regular expression matches some string. Prove that your function is correct. > re_not_empty : (re : Reg_exp t) -> Bool > re_not_empty re = ?re_not_empty_rhs > > re_not_empty_correct : (s ** s =~ re) <-> re_not_empty re = True > re_not_empty_correct = ?re_not_empty_correct_rhs > $\square$ === The remember Tactic \ \todo[inline]{Rewrite the section, dependent pattern matching figures all of this out} One potentially confusing feature of the induction tactic is that it happily lets you try to set up an induction over a term that isn't sufficiently general. The effect of this is to lose information (much as destruct can do), and leave you unable to complete the proof. Here's an example: > star_app : (s1 =~ Star re) -> (s2 =~ Star re) -> (s1 ++ s2) =~ Star re > star_app MStar0 m2 = m2 > star_app {s2} (MStarApp {s1=s11} {s2=s21} m ms) m2 = > rewrite sym $ appendAssociative s11 s21 s2 in > MStarApp m (star_app ms m2) > Just doing an inversion on H1 won't get us very far in the recursive cases. (Try it!). So we need induction. Here is a naive first attempt: ```coq induction H1 as [\|x'\|s1 re1 s2' re2 Hmatch1 IH1 Hmatch2 IH2 \|s1 re1 re2 Hmatch IH\|re1 s2' re2 Hmatch IH \|re''\|s1 s2' re'' Hmatch1 IH1 Hmatch2 IH2]. ``` But now, although we get seven cases (as we would expect from the definition of Exp_match), we have lost a very important bit of information from H1: the fact that s1 matched something of the form Star re. This means that we have to give proofs for all seven constructors of this definition, even though all but two of them (MStar0 and MStarApp) are contradictory. We can still get the proof to go through for a few constructors, such as MEmpty... ```coq - (* MEmpty ) simpl. intros H. apply H. ``` ... but most cases get stuck. For MChar, for instance, we must show that ```coq s2 =~ Char x' -> x' :: s2 =~ Char x', ``` which is clearly impossible. ```coq - ( MChar. Stuck... ) Abort. ``` The problem is that induction over a Type hypothesis only works properly with hypotheses that are completely general, i.e., ones in which all the arguments are variables, as opposed to more complex expressions, such as Star re. (In this respect, induction on evidence behaves more like destruct than like inversion.) We can solve this problem by generalizing over the problematic expressions with an explicit equality: ```coq Lemma star_app: forall T (s1 s2 : list T) (re re' : Reg_exp T), s1 =~ re' -> re' = Star re -> s2 =~ Star re -> s1 ++ s2 =~ Star re. ``` We can now proceed by performing induction over evidence directly, because the argument to the first hypothesis is sufficiently general, which means that we can discharge most cases by inverting the re' = Star re equality in the context. This idiom is so common that Idris provides a tactic to automatically generate such equations for us, avoiding thus the need for changing the statements of our theorems. Invoking the tactic remember e as x causes Idris to (1) replace all occurrences of the expression e by the variable x, and (2) add an equation x = e to the context. Here's how we can use it to show the above result: ```coq Abort. Lemma star_app: forall T (s1 s2 : list T) (re : Reg_exp T), s1 =~ Star re -> s2 =~ Star re -> s1 ++ s2 =~ Star re. Proof. intros T s1 s2 re H1. remember (Star re) as re'. ``` We now have Heqre' : re' = Star re. ```coq generalize dependent s2. induction H1 as [\|x'\|s1 re1 s2' re2 Hmatch1 IH1 Hmatch2 IH2 \|s1 re1 re2 Hmatch IH\|re1 s2' re2 Hmatch IH \|re''\|s1 s2' re'' Hmatch1 IH1 Hmatch2 IH2]. ``` The Heqre' is contradictory in most cases, which allows us to conclude immediately. ```coq - ( MEmpty ) inversion Heqre'. - ( MChar ) inversion Heqre'. - ( MApp ) inversion Heqre'. - ( MUnionL ) inversion Heqre'. - ( MUnionR ) inversion Heqre'. ``` The interesting cases are those that correspond to Star. Note that the induction hypothesis IH2 on the MStarApp case mentions an additional premise Star re'' = Star re', which results from the equality generated by remember. ```coq - ( MStar0 ) inversion Heqre'. intros s H. apply H. - ( MStarApp ) inversion Heqre'. rewrite H0 in IH2, Hmatch1. intros s2 H1. rewrite <- app_assoc. apply MStarApp. + apply Hmatch1. + apply IH2. reflexivity. * apply H1. Qed. ``` ==== Exercise: 4 stars (exp_match_ex2) The \idr{MStar''} lemma below (combined with its converse, the \idr{MStar'} exercise above), shows that our definition of \idr{Exp_match} for \idr{Star} is equivalent to the informal one given previously. > MStar'' : (s =~ Star re) -> > (ss : List (List t) > (s = fold (++) ss [], (s': List t) -> In s' ss -> s' =~ re) > ) > MStar'' m = ?MStar___rhs > $\square$ ==== Exercise: 5 stars, advanced (pumping) One of the first really interesting theorems in the theory of regular expressions is the so-called _pumping lemma_, which states, informally, that any sufficiently long string \idr{s} matching a regular expression \idr{re} can be "pumped" by repeating some middle section of \idr{s} an arbitrary number of times to produce a new string also matching \idr{re}. To begin, we need to define "sufficiently long." Since we are working in a constructive logic, we actually need to be able to calculate, for each regular expression \idr{re}, the minimum length for strings \idr{s} to guarantee "pumpability." > namespace Pumping > > pumping_constant : (re : Reg_exp t) -> Nat > pumping_constant EmptySet = 0 > pumping_constant EmptyStr = 1 > pumping_constant (Chr _) = 2 > pumping_constant (App re1 re2) = > pumping_constant re1 + pumping_constant re2 > pumping_constant (Union re1 re2) = > pumping_constant re1 + pumping_constant re2 > pumping_constant (Star _) = 1 > Next, it is useful to define an auxiliary function that repeats a string (appends it to itself) some number of times. > napp : (n : Nat) -> (l : List t) -> List t > napp Z _ = [] > napp (S k) l = l ++ napp k l > > napp_plus: (n, m : Nat) -> (l : List t) -> > napp (n + m) l = napp n l ++ napp m l > napp_plus Z _ _ = Refl > napp_plus (S k) m l = > rewrite napp_plus k m l in > appendAssociative l (napp k l) (napp m l) > Now, the pumping lemma itself says that, if \idr{s =~ re} and if the length of \idr{s} is at least the pumping constant of \idr{re}, then \idr{s} can be split into three substrings \idr{s1 ++ s2 ++ s3} in such a way that \idr{s2} can be repeated any number of times and the result, when combined with \idr{s1} and \idr{s3} will still match \idr{re}. Since \idr{s2} is also guaranteed not to be the empty string, this gives us a (constructive!) way to generate strings matching \idr{re} that are as long as we like. > pumping : (s =~ re) -> ((pumping_constant re) <=' (length s)) -> > (s1 s2 s3 ( s = s1 ++ s2 ++ s3 > , Not (s2 = []) > , (m:Nat) -> (s1 ++ napp m s2 ++ s3) =~ re > )) \todo[inline]{Edit hint} To streamline the proof (which you are to fill in), the `omega` tactic, which is enabled by the following `Require`, is helpful in several places for automatically completing tedious low-level arguments involving equalities or inequalities over natural numbers. We'll return to `omega` in a later chapter, but feel free to experiment with it now if you like. The first case of the induction gives an example of how it is used. > pumping m le = ?pumping_rhs > == Case Study: Improving Reflection We've seen in the \idr{Logic} chapter that we often need to relate boolean computations to statements in \idr{Type}. But performing this conversion in the way we did it there can result in tedious proof scripts. Consider the proof of the following theorem: > filter_not_empty_In : {n : Nat} -> Not (filter ((==) n) l = []) -> In n l > filter_not_empty_In {l=[]} contra = contra Refl > filter_not_empty_In {l=(x::_)} {n} contra with (n == x) proof h > filter_not_empty_In contra \| True = > Left $ sym $ beq_nat_true $ sym h > filter_not_empty_In contra \| False = > Right $ filter_not_empty_In contra > In the second case we explicitly apply the \idr{beq_nat_true} lemma to the equation generated by doing a dependent match on \idr{n == x}, to convert the assumption \idr{n == x = True} into the assumption \idr{n = m}. We can streamline this by defining an inductive proposition that yields a better case-analysis principle for \idr{n == m}. Instead of generating an equation such as \idr{n == m = True}, which is generally not directly useful, this principle gives us right away the assumption we really need: \idr{n = m}. We'll actually define something a bit more general, which can be used with arbitrary properties (and not just equalities): \todo[inline]{Update the text: seems that additional \idr{(b=...)} constructor parameter is needed for this to work in Idris.} ```idris data Reflect : Type -> Bool -> Type where ReflectT : (p : Type) -> (b=True) -> Reflect p b ReflectF : (p : Type) -> (Not p) -> (b=False) -> Reflect p b ``` Before explaining this, let's rearrange it a little: Since the types of both \idr{ReflectT} and \idr{ReflectF} begin with \idr{(p : Type)}, we can make the definition a bit more readable and easier to work with by making \idr{p} a parameter of the whole \idr{data} declaration. > data Reflect : (p : Type) -> (b : Bool) -> Type where > ReflectT : p -> (b=True) -> Reflect p b > ReflectF : (Not p) -> (b=False) -> Reflect p b > The reflect property takes two arguments: a proposition \idr{p} and a boolean \idr{b}. Intuitively, it states that the property \idr{p} is _reflected_ in (i.e., equivalent to) the boolean \idr{b}: \idr{p} holds if and only if \idr{b = True}. To see this, notice that, by definition, the only way we can produce evidence that \idr{Reflect p True} holds is by showing that \idr{p} is true and using the \idr{ReflectT} constructor. If we invert this statement, this means that it should be possible to extract evidence for \idr{p} from a proof of \idr{Reflect p True}. Conversely, the only way to show \idr{Reflect p False} is by combining evidence for \idr{Not p} with the \idr{ReflectF} constructor. It is easy to formalize this intuition and show that the two statements are indeed equivalent: > iff_reflect : (p <-> (b = True)) -> Reflect p b > iff_reflect {b = False} (pb, _) = ReflectF (uninhabited . pb) Refl > iff_reflect {b = True} (_, bp) = ReflectT (bp Refl) Refl > ==== Exercise: 2 stars, recommended (reflect_iff) > reflect_iff : Reflect p b -> (p <-> (b = True)) > reflect_iff x = ?reflect_iff_rhs > $\square$ The advantage of \idr{Reflect} over the normal "if and only if" connective is that, by destructing a hypothesis or lemma of the form \idr{Reflect p b}, we can perform case analysis on \idr{b} while at the same time generating appropriate hypothesis in the two branches (\idr{p} in the first subgoal and \idr{Not p} in the second). > beq_natP : {n, m : Nat} -> Reflect (n = m) (n == m) > beq_natP {n} {m} = iff_reflect $ iff_sym $ beq_nat_true_iff n m > \todo[inline]{Edit - we basically trade the invocation of \idr{beq_nat_true} in \idr{Left} for an indirect rewrite in \idr{Right}} The new proof of \idr{filter_not_empty_In} now goes as follows. Notice how the calls to destruct and apply are combined into a single call to destruct. (To see this clearly, look at the two proofs of \idr{filter_not_empty_In} with Idris and observe the differences in proof state at the beginning of the first case of the destruct.) > filter_not_empty_In' : {n : Nat} -> Not (filter ((==) n) l = []) -> In n l > filter_not_empty_In' {l=[]} contra = contra Refl > filter_not_empty_In' {n} {l=(x::xs)} contra with (beq_natP {n} {m=x}) > filter_not_empty_In' _ \| (ReflectT eq _) = Left $ sym eq > filter_not_empty_In' {n} {l=(x::xs)} contra \| (ReflectF _ notbeq) = > let \todo[inline]{How to rewrite more neatly here?} > contra' = replace notbeq contra > {P = \a => > Not ((if a > then x :: filter ((==) n) xs > else filter ((==) n) xs) = [])} > in > Right $ filter_not_empty_In' contra' > ==== Exercise: 3 stars, recommended (beq_natP_practice) Use \idr{beq_natP} as above to prove the following: > count : (n : Nat) -> (l : List Nat) -> Nat > count _ [] = 0 > count n (x :: xs) = (if n == x then 1 else 0) + count n xs > > beq_natP_practice : count n l = 0 -> Not (In n l) > beq_natP_practice prf = ?beq_natP_practice_rhs > $\square$ This technique gives us only a small gain in convenience for the proofs we've seen here, but using \idr{Reflect} consistently often leads to noticeably shorter and clearer scripts as proofs get larger. We'll see many more examples in later chapters. \todo[inline]{Add http://math-comp.github.io/math-comp/ as a link} The use of the reflect property was popularized by `SSReflect`, a Coq library that has been used to formalize important results in mathematics, including as the 4-color theorem and the Feit-Thompson theorem. The name `SSReflect` stands for _small-scale reflection_, i.e., the pervasive use of reflection to simplify small proof steps with boolean computations. == Additional Exercises ==== Exercise: 3 stars, recommended (nostutter) Formulating inductive definitions of properties is an important skill you'll need in this course. Try to solve this exercise without any help at all. We say that a list "stutters" if it repeats the same element consecutively. The property "\idr{Nostutter mylist}" means that \idr{mylist} does not stutter. Formulate an inductive definition for \idr{Nostutter}. (This is different from the \idr{NoDup} property in the exercise below; the sequence \idr{[1,4,1]} repeats but does not stutter.) > data Nostutter : List t -> Type where > -- FILL IN HERE > RemoveMe : Nostutter [] -- needed for typechecking, data shouldn't be empty > Make sure each of these tests succeeds, but feel free to change the suggested proof (in comments) if the given one doesn't work for you. Your definition might be different from ours and still be correct, in which case the examples might need a different proof. (You'll notice that the suggested proofs use a number of tactics we haven't talked about, to make them more robust to different possible ways of defining \idr{Nostutter}. You can probably just uncomment and use them as-is, but you can also prove each example with more basic tactics.) > test_nostutter_1 : Nostutter [3,1,4,1,5,6] > test_nostutter_1 = ?test_nostutter_1_rhs > ```coq (* Proof. repeat constructor; apply beq_nat_false_iff; auto. Qed. ) ``` > test_nostutter_2 : Nostutter [] > test_nostutter_2 = ?test_nostutter_2_rhs > ```coq ( Proof. repeat constructor; apply beq_nat_false_iff; auto. Qed. ) ``` > test_nostutter_3 : Nostutter [5] > test_nostutter_3 = ?test_nostutter_3_rhs > ```coq ( Proof. repeat constructor; apply beq_nat_false; auto. Qed. ) ``` > test_nostutter_4 : Not (Nostutter [3,1,1,4]) > test_nostutter_4 = ?test_nostutter_4_rhs > ```coq ( Proof. intro. repeat match goal with h: nostutter _ \|- _ => inversion h; clear h; subst end. contradiction H1; auto. Qed. ) ``` $\square$ ==== Exercise: 4 stars, advanced (filter_challenge) Let's prove that our definition of \idr{filter} from the \idr{Poly} chapter matches an abstract specification. Here is the specification, written out informally in English: A list \idr{l} is an "in-order merge" of \idr{l1} and \idr{l2} if it contains all the same elements as \idr{l1} and \idr{l2}, in the same order as \idr{l1} and \idr{l2}, but possibly interleaved. For example, ```idris [1,4,6,2,3] ``` is an in-order merge of ```idris [1,6,2] ``` and ```idris [4,3] ``` Now, suppose we have a set \idr{t}, a function \idr{test : t->Bool}, and a list \idr{l} of type \idr{List t}. Suppose further that \idr{l} is an in-order merge of two lists, \idr{l1} and \idr{l2}, such that every item in \idr{l1} satisfies \idr{test} and no item in \idr{l2} satisfies \idr{test}. Then \idr{filter test l = l1}. Translate this specification into a Idris theorem and prove it. (You'll need to begin by defining what it means for one list to be a merge of two others. Do this with an inductive \idr{data} type, not a function.) > -- FILL IN HERE > $\square$ ==== Exercise: 5 stars, advanced, optional (filter_challenge_2) A different way to characterize the behavior of \idr{filter} goes like this: Among all subsequences of \idr{l} with the property that \idr{test} evaluates to \idr{True} on all their members, \idr{filter test l} is the longest. Formalize this claim and prove it. > -- FILL IN HERE > $\square$ ==== Exercise: 4 stars, optional (palindromes) A palindrome is a sequence that reads the same backwards as forwards. - Define an inductive proposition \idr{Pal} on \idr{List t} that captures what it means to be a palindrome. (Hint: You'll need three cases. Your definition should be based on the structure of the list; just having a single constructor like ```idris C : (l : List t) -> l = rev l -> Pal l ``` may seem obvious, but will not work very well.) - Prove (\idr{pal_app_rev}) that ```idris (l : List t) -> Pal (l ++ rev l) ``` - Prove (\idr{pal_rev}) that ```idris (l : List t) -> Pal l -> l = rev l ``` > -- FILL IN HERE > $\square$ ==== Exercise: 5 stars, optional (palindrome_converse) Again, the converse direction is significantly more difficult, due to the lack of evidence. Using your definition of \idr{Pal} from the previous exercise, prove that ```idris (l : List t) -> l = rev l -> Pal l ``` > -- FILL IN HERE > $\square$ === Exercise: 4 stars, advanced, optional (NoDup) Recall the definition of the \idr{In} property from the \idr{Logic} chapter, which asserts that a value \idr{x} appears at least once in a list \idr{l}: ```idris In : (x : t) -> (l : List t) -> Type In x [] = Void In x (x' :: xs) = (x' = x) `Either` In x xs ``` Your first task is to use \idr{In} to define a proposition \idr{Disjoint {t} l1 l2}, which should be provable exactly when \idr{l1} and \idr{l2} are lists (with elements of type \idr{t}) that have no elements in common. > -- FILL IN HERE > Next, use \idr{In} to define an inductive proposition \idr{NoDup {t} l}, which should be provable exactly when \idr{l} is a list (with elements of type \idr{t}) where every member is different from every other. For example, \idr{NoDup {t=Nat} [1,2,3,4]} and \idr{NoDup {t=Bool} []} should be provable, while \idr{NoDup {t=Nat} [1,2,1]} and \idr{NoDup {t=Bool} [True,True]} should not be. > -- FILL IN HERE > Finally, state and prove one or more interesting theorems relating \idr{Disjoint}, \idr{NoDup} and \idr{(++)} (list append). > -- FILL IN HERE > $\square$ ==== Exercise: 4 stars, advanced, optional (pigeonhole principle) The _pigeonhole principle_ states a basic fact about counting: if we distribute more than \idr{n} items into \idr{n} pigeonholes, some pigeonhole must contain at least two items. As often happens, this apparently trivial fact about numbers requires non-trivial machinery to prove, but we now have enough... First prove an easy useful lemma. > in_split : In x l -> (l1 * l2 ** l = l1 ++ x :: l2) > in_split prf = ?in_split_rhs > Now define a property \idr{Repeats} such that \idr{Repeats {t} l} asserts that \idr{l} contains at least one repeated element (of type \idr{t}). > data Repeats : List t -> Type where > -- FILL IN HERE > RemoveMe' : Repeats [] -- needed for typechecking, data shouldn't be empty > Now, here's a way to formalize the pigeonhole principle. Suppose list \idr{l2} represents a list of pigeonhole labels, and list \idr{l1} represents the labels assigned to a list of items. If there are more items than labels, at least two items must have the same label -- i.e., list \idr{l1} must contain repeats. This proof is much easier if you use the \idr{excluded_middle} hypothesis to show that \idr{In} is decidable, i.e., \idr{(In x l) `Either` (Not (In x l))}. However, it is also possible to make the proof go through _without_ assuming that \idr{In} is decidable; if you manage to do this, you will not need the \idr{excluded_middle} hypothesis. > pigeonhole_principle : ((x : t) -> In x l1 -> In x l2) -> > ((length l2) <' (length l1)) -> > Repeats l1 > pigeonhole_principle f prf = ?pigeonhole_principle_rhs > where > excluded_middle : (p : Type) -> p `Either` (Not p) > excluded_middle p = really_believe_me p > $\square$	Idris	5	diseraluca/software-foundations	src/IndProp.lidr	[ "MIT" ]
#N canvas 188 44 1142 820 12; #X obj 723 524 element trace-template bazoo; #X obj 559 556 set point-template y amp; #X obj 723 429 pointer; #X obj 741 291 r nframe; #X obj 307 495 pointer; #X text 334 474 current trace; #X obj 307 563 getsize trace-template bazoo; #X obj 338 623 + 1; #X obj 338 647 setsize trace-template bazoo; #X obj 308 676 element trace-template bazoo; #X obj 307 597 t f f; #X obj 143 705 set point-template y amp; #X text 940 529 last trace in list; #X text 795 423 reentrancy protection \; should go away; #X obj 946 511 s last-in-list; #X obj 951 374 r last-in-list; #X obj 723 492 f 0; #X obj 723 347 * 5; #X obj 723 322 f; #X obj 875 376 f \$1; #X text 833 348 voice number; #X obj 723 378 t f b; #X obj 589 43 r track-out; #X obj 589 69 route \$1; #X obj 589 96 unpack 0 0 0; #X obj 577 132 ftom; #X obj 577 158 swap; #X obj 644 155 rmstodb; #X obj 577 184 pack 0 0 0; #X obj 577 212 route 0 1; #X text 737 265 start new trace; #X text 583 20 voiceno \, freq \, amp \, newflag; #X text 657 185 newflag \, pitch \, db; #X text 175 417 add to trace; #X obj 275 417 t l b; #X obj 307 529 t p p; #X obj 278 255 r add-trace-clear; #X obj 275 367 spigot; #X obj 314 324 tgl 15 0 empty empty empty 17 7 0 10 -262144 -1 -1 0 1; #X msg 278 292 0; #X msg 314 296 1; #X text 277 215 only add to trace; #X text 276 230 if one exists; #X obj 723 403 append trace-template x y voiceno; #X obj 559 504 unpack f f; #X obj 607 291 trigger list bang; #X obj 723 466 trigger bang pointer; #X obj 143 633 unpack f f; #X connect 0 0 1 2; #X connect 2 0 4 1; #X connect 2 0 46 0; #X connect 3 0 18 1; #X connect 4 0 35 0; #X connect 6 0 10 0; #X connect 7 0 8 0; #X connect 9 0 11 2; #X connect 10 0 9 0; #X connect 10 1 7 0; #X connect 15 0 43 3; #X connect 16 0 0 0; #X connect 17 0 21 0; #X connect 18 0 17 0; #X connect 19 0 43 2; #X connect 21 0 43 0; #X connect 21 1 19 0; #X connect 22 0 23 0; #X connect 23 0 24 0; #X connect 24 0 25 0; #X connect 24 1 27 0; #X connect 24 2 26 1; #X connect 25 0 26 0; #X connect 26 0 28 0; #X connect 26 1 28 1; #X connect 27 0 28 2; #X connect 28 0 29 0; #X connect 29 0 37 0; #X connect 29 1 40 0; #X connect 29 1 45 0; #X connect 34 0 47 0; #X connect 34 1 4 0; #X connect 35 0 6 0; #X connect 35 1 9 1; #X connect 35 1 8 1; #X connect 36 0 39 0; #X connect 37 0 34 0; #X connect 38 0 37 1; #X connect 39 0 38 0; #X connect 40 0 38 0; #X connect 43 0 2 0; #X connect 44 0 1 0; #X connect 44 1 1 1; #X connect 45 0 44 0; #X connect 45 1 18 0; #X connect 46 0 16 0; #X connect 46 1 0 1; #X connect 46 1 14 0; #X connect 47 0 11 0; #X connect 47 1 11 1;	Pure Data	3	mcclure/pure-data	doc/4.data.structures/add-trace.pd	[ "TCL" ]
module Mimetypes = autoload xfm (* RFC 2045, Page 11. Closing square bracket moved out of sequence to satisfy regex syntax. token_first excludes pound signs so as not to overlap with the syntax for comments. ) let token = let first = /[^]#()<>@,;:\\"\/[?= \t\n]/ in let rest = /[^]()<>@,;:\\"\/[?= \t\n]/ in first . rest (* We can't use the mime type as a key, because it has a slash in it ) let mime_type = store (token . "/" . token) ( This will split up rules wrong if you use spaces within a rule, e.g. "ascii(34, 3)" or "string(34,'foo bar')". But all the rules I've ever seen were just filename extensions, so this won't fail until people forget what it is and have to dig to find it. ) let a_rule = [ Util.del_ws_spc . label "rule" . store /[^ \t\n]+/ ] let rules = [ label "rules" . mime_type . (a_rule ) . Util.eol ] let line = ( rules \| Util.comment \| Util.empty ) let lns = ( line * ) let xfm = transform lns (incl "/etc/mime.types")	Augeas	5	jaredjennings/puppet-cmits-mimetypes	lib/augeas/lenses/mimetypes.aug	[ "Apache-2.0" ]
export default function SSRPage({ data }) { return <div>{data.foo}</div> } export async function getServerSideProps() { const port = process.env.NEXT_PUBLIC_API_PORT const res = await fetch(`http://localhost:${port}/`) const json = await res.json() return { props: { data: json, }, } }	JavaScript	4	blomqma/next.js	test/integration/fetch-polyfill/pages/ssr.js	[ "MIT" ]
var $const1 <[13] i8> = [ 104, 101, 108, 108, 111, 32, 119, 111, 114, 108, 100, 10, 0 ] func $printf (var %p1 <* i8>)void func $main ( ) i32 { call &printf (addrof a32 $const1) return (constval i32 0) } # EXEC: %irbuild Main.mpl # EXEC: %irbuild Main.irb.mpl # EXEC: %cmp Main.irb.mpl Main.irb.irb.mpl	Maple	3	harmonyos-mirror/OpenArkCompiler-test	test/testsuite/irbuild_test/I0039-mapleall-irbuild-edge-hello/Main.mpl	[ "MulanPSL-1.0" ]
enum class Test(f: () -> Unit) { A(getFunc()) } fun getFunc(): () -> Unit = {}	Kotlin	3	AndrewReitz/kotlin	compiler/testData/cfg/bugs/functionalCallInEnumEntry.kt	[ "ECL-2.0", "Apache-2.0" ]
/** Copyright 2015 Acacia Team Licensed under the Apache License, Version 2.0 (the "License"); you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.apache.org/licenses/LICENSE-2.0 Unless required by applicable law or agreed to in writing, software distributed under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the License for the specific language governing permissions and limitations under the License. */ package org.acacia.rdf.sparql; import x10.util.ArrayList; import org.antlr.runtime.ANTLRStringStream; import org.acacia.rdf.sparql.java.SparqlLexer; import org.antlr.runtime.CommonTokenStream; import org.acacia.rdf.sparql.java.SparqlParser; import x10.util.HashMap; public class Tokenizer { private var query:String; private var queryType:Int; private var variableCount:Long; private val prefices:HashMap[String,String] = new HashMap[String,String](); private val triples:ArrayList[Triple] = new ArrayList[Triple](); private val variableMap:HashMap[String,Int] = new HashMap[String,Int](); public def this(var query:String){ this.query = query; tokenize(); } public def getQueryType():Int{ return queryType; } public def getTriples():ArrayList[Triple]{ return triples; } public def getVariableCount():Long{ return variableCount; } public def getPrefices():HashMap[String,String]{ return prefices; } public def getVariableMap():HashMap[String,Int]{ return variableMap; } private def tokenize():void{ var stream:ANTLRStringStream = new ANTLRStringStream(query); var lexer:SparqlLexer = new SparqlLexer(stream); var tokenStream:CommonTokenStream = new CommonTokenStream(lexer); var parser:SparqlParser = new SparqlParser(tokenStream); try{ //validate query parser.query(); //determine query type if(query.indexOf("SELECT")>=0){ queryType = 0n; } //find no of variables val tmpArr = query.substring(query.indexOf("SELECT")+6n,query.indexOf("WHERE")).trim().split(" "); variableCount = tmpArr.size; for(var k:Int=0n;k<variableCount;k++){ variableMap.put(tmpArr(k),k); Console.OUT.println(tmpArr(k)+" : "+k); } //find prefices val prefixRange = query.substring(0n,query.indexOf("SELECT")).trim().split("PREFIX"); for(var i:Int = 0n; i < prefixRange.size; i++){ if(prefixRange(i).length() > 0n){ val key = prefixRange(i).trim().substring(0n,prefixRange(i).indexOf(":")-1n).trim(); val value = prefixRange(i).trim().substring(prefixRange(i).indexOf("<"),prefixRange(i).indexOf(">")-1n).trim(); prefices.put(key,value); } } //find triples val index1 = query.indexOf("{"); // simple query val index2 = query.indexOf("}"); // ; also should be considered val triplesWithprefices = query.substring(index1+1n,index2).trim().split(" . "); for(var i:int=0n;i<triplesWithprefices.size;i++){ var Uneditedtokens:Rail[String] = triplesWithprefices(i).trim().split(" "); val tokens:Rail[String] = new Rail[String](4); var index:int = Uneditedtokens(1).indexOf(":"); tokens(2) = prefices.get(Uneditedtokens(1).substring(0n, index).trim()) + Uneditedtokens(1).substring(index + 1n).trim(); if (Uneditedtokens(0).indexOf("?") >= 0n) { tokens(1) = Uneditedtokens(0); if (Uneditedtokens(2).indexOf("?") >= 0n) { tokens(3) = Uneditedtokens(2); tokens(0) = "0"; }else{ tokens(0) = "1"; if (!Uneditedtokens(2).startsWith("<http")) { index = Uneditedtokens(2).indexOf(":");//Console.OUT.println(Uneditedtokens(2)+"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"); tokens(3) = prefices.get(Uneditedtokens(2).substring(0n, index).trim()) + Uneditedtokens(2).substring(index + 1n).trim(); } else { tokens(3) = Uneditedtokens(2).substring(1n, Uneditedtokens(2).length()-1n); } } }else{ if (!Uneditedtokens(0).startsWith("<http")) { index = Uneditedtokens(0).indexOf(":"); Console.OUT.println(Uneditedtokens(0)+"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"); tokens(1) = prefices.get(Uneditedtokens(0).substring(0n, index).trim()) + Uneditedtokens(0).substring(index + 1n).trim(); } else { tokens(1) = Uneditedtokens(0).substring(1n, Uneditedtokens(0).length()-1n); } if (Uneditedtokens(2).indexOf("?") >= 0n) { tokens(3) = Uneditedtokens(2); tokens(0) = "2"; }else{ tokens(0) = "3"; if (!Uneditedtokens(2).startsWith("<http")) { index = Uneditedtokens(2).indexOf(":"); Console.OUT.println(Uneditedtokens(2)+"FFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFFF"); tokens(3) = prefices.get(Uneditedtokens(2).substring(0n, index).trim()) + Uneditedtokens(2).substring(index + 1n).trim(); } else { tokens(3) = Uneditedtokens(2).substring(1n, Uneditedtokens(2).length()-1n); } } } val triple:Triple = new Triple(tokens(1),tokens(2),tokens(3),Int.parseInt(tokens(0))); triples.add(triple); } }catch(e:org.antlr.runtime.RecognitionException){ Console.OUT.println(e.getMessage()); } } }	X10	4	mdherath/Acacia	src/org/acacia/rdf/sparql/Tokenizer.x10	[ "Apache-2.0" ]
#Signature file v4.1 #Version 1.45.0 CLSS public abstract interface java.io.Serializable CLSS public abstract interface java.lang.Comparable<%0 extends java.lang.Object> meth public abstract int compareTo({java.lang.Comparable%0}) CLSS public abstract java.lang.Enum<%0 extends java.lang.Enum<{java.lang.Enum%0}>> cons protected init(java.lang.String,int) intf java.io.Serializable intf java.lang.Comparable<{java.lang.Enum%0}> meth protected final java.lang.Object clone() throws java.lang.CloneNotSupportedException meth protected final void finalize() meth public final boolean equals(java.lang.Object) meth public final int compareTo({java.lang.Enum%0}) meth public final int hashCode() meth public final int ordinal() meth public final java.lang.Class<{java.lang.Enum%0}> getDeclaringClass() meth public final java.lang.String name() meth public java.lang.String toString() meth public static <%0 extends java.lang.Enum<{%%0}>> {%%0} valueOf(java.lang.Class<{%%0}>,java.lang.String) supr java.lang.Object CLSS public java.lang.Object cons public init() meth protected java.lang.Object clone() throws java.lang.CloneNotSupportedException meth protected void finalize() throws java.lang.Throwable meth public boolean equals(java.lang.Object) meth public final java.lang.Class<?> getClass() meth public final void notify() meth public final void notifyAll() meth public final void wait() throws java.lang.InterruptedException meth public final void wait(long) throws java.lang.InterruptedException meth public final void wait(long,int) throws java.lang.InterruptedException meth public int hashCode() meth public java.lang.String toString() CLSS public abstract interface java.lang.annotation.Annotation meth public abstract boolean equals(java.lang.Object) meth public abstract int hashCode() meth public abstract java.lang.Class<? extends java.lang.annotation.Annotation> annotationType() meth public abstract java.lang.String toString() CLSS public abstract interface !annotation java.lang.annotation.Documented anno 0 java.lang.annotation.Documented() anno 0 java.lang.annotation.Retention(java.lang.annotation.RetentionPolicy value=RUNTIME) anno 0 java.lang.annotation.Target(java.lang.annotation.ElementType[] value=[ANNOTATION_TYPE]) intf java.lang.annotation.Annotation CLSS public abstract interface !annotation java.lang.annotation.Retention anno 0 java.lang.annotation.Documented() anno 0 java.lang.annotation.Retention(java.lang.annotation.RetentionPolicy value=RUNTIME) anno 0 java.lang.annotation.Target(java.lang.annotation.ElementType[] value=[ANNOTATION_TYPE]) intf java.lang.annotation.Annotation meth public abstract java.lang.annotation.RetentionPolicy value() CLSS public abstract interface !annotation java.lang.annotation.Target anno 0 java.lang.annotation.Documented() anno 0 java.lang.annotation.Retention(java.lang.annotation.RetentionPolicy value=RUNTIME) anno 0 java.lang.annotation.Target(java.lang.annotation.ElementType[] value=[ANNOTATION_TYPE]) intf java.lang.annotation.Annotation meth public abstract java.lang.annotation.ElementType[] value() CLSS public final org.netbeans.modules.versioning.core.api.VCSFileProxy intf java.lang.Comparable<org.netbeans.modules.versioning.core.api.VCSFileProxy> meth public boolean canWrite() meth public boolean equals(java.lang.Object) meth public boolean exists() meth public boolean isDirectory() meth public boolean isFile() meth public int compareTo(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public int hashCode() meth public java.io.File toFile() meth public java.io.InputStream getInputStream(boolean) throws java.io.FileNotFoundException meth public java.lang.String getName() meth public java.lang.String getPath() meth public java.lang.String toString() meth public java.net.URI toURI() throws java.net.URISyntaxException meth public long lastModified() meth public org.netbeans.modules.versioning.core.api.VCSFileProxy getParentFile() meth public org.netbeans.modules.versioning.core.api.VCSFileProxy normalizeFile() meth public org.netbeans.modules.versioning.core.api.VCSFileProxy[] listFiles() meth public org.openide.filesystems.FileObject toFileObject() meth public static org.netbeans.modules.versioning.core.api.VCSFileProxy createFileProxy(java.io.File) meth public static org.netbeans.modules.versioning.core.api.VCSFileProxy createFileProxy(java.net.URI) meth public static org.netbeans.modules.versioning.core.api.VCSFileProxy createFileProxy(org.netbeans.modules.versioning.core.api.VCSFileProxy,java.lang.String) meth public static org.netbeans.modules.versioning.core.api.VCSFileProxy createFileProxy(org.openide.filesystems.FileObject) supr java.lang.Object hfds fileChangeListener,isDirectory,isFlat,path,proxy CLSS public final org.netbeans.modules.versioning.core.api.VersioningSupport fld public final static java.lang.String PREF_BOOLEAN_TEXT_ANNOTATIONS_VISIBLE = "textAnnotationsVisible" meth public static boolean isExcluded(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static boolean isFlat(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static java.util.prefs.Preferences getPreferences() meth public static org.netbeans.api.extexecution.ProcessBuilder createProcessBuilder(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static org.netbeans.modules.versioning.core.spi.VersioningSystem getOwner(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void refreshFor(org.netbeans.modules.versioning.core.api.VCSFileProxy[]) meth public static void versionedRootsChanged() supr java.lang.Object CLSS public abstract interface org.netbeans.modules.versioning.core.filesystems.VCSFileProxyOperations fld public final static java.lang.String ATTRIBUTE = "FileProxyOperations" innr public abstract interface static Provider meth public abstract !varargs void refreshFor(org.netbeans.modules.versioning.core.api.VCSFileProxy[]) meth public abstract boolean canWrite(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract boolean exists(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract boolean isDirectory(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract boolean isFile(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract java.io.InputStream getInputStream(org.netbeans.modules.versioning.core.api.VCSFileProxy,boolean) throws java.io.FileNotFoundException meth public abstract java.lang.String getAbsolutePath(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract java.lang.String getName(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract java.net.URI toURI(org.netbeans.modules.versioning.core.api.VCSFileProxy) throws java.net.URISyntaxException meth public abstract long lastModified(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract org.netbeans.api.extexecution.ProcessBuilder createProcessBuilder(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract org.netbeans.modules.versioning.core.api.VCSFileProxy getParentFile(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract org.netbeans.modules.versioning.core.api.VCSFileProxy normalize(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract org.netbeans.modules.versioning.core.api.VCSFileProxy[] list(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract org.openide.filesystems.FileObject toFileObject(org.netbeans.modules.versioning.core.api.VCSFileProxy) CLSS public abstract interface static org.netbeans.modules.versioning.core.filesystems.VCSFileProxyOperations$Provider outer org.netbeans.modules.versioning.core.filesystems.VCSFileProxyOperations meth public abstract org.netbeans.modules.versioning.core.filesystems.VCSFileProxyOperations getVCSFileProxyOperations(java.net.URI) meth public abstract org.netbeans.modules.versioning.core.filesystems.VCSFileProxyOperations getVCSFileProxyOperations(org.openide.filesystems.FileSystem) CLSS public final org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor innr public abstract interface static IOHandler innr public abstract interface static VCSAnnotationListener innr public final static VCSAnnotationEvent meth public static boolean canWriteReadonlyFile(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static java.awt.Image annotateIcon(java.awt.Image,int,java.util.Set<? extends org.openide.filesystems.FileObject>) meth public static java.lang.Object getAttribute(org.netbeans.modules.versioning.core.api.VCSFileProxy,java.lang.String) meth public static java.lang.String annotateNameHtml(java.lang.String,java.util.Set<? extends org.openide.filesystems.FileObject>) meth public static javax.swing.Action[] actions(java.util.Set<? extends org.openide.filesystems.FileObject>) meth public static long listFiles(org.netbeans.modules.versioning.core.api.VCSFileProxy,long,java.util.List<? super org.netbeans.modules.versioning.core.api.VCSFileProxy>) meth public static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$IOHandler getCopyHandler(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$IOHandler getDeleteHandler(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$IOHandler getMoveHandler(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$IOHandler getRenameHandler(org.netbeans.modules.versioning.core.api.VCSFileProxy,java.lang.String) meth public static void afterMove(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void beforeChange(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void beforeCopy(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void beforeCreate(org.netbeans.modules.versioning.core.api.VCSFileProxy,java.lang.String,boolean) meth public static void copySuccess(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void createFailure(org.netbeans.modules.versioning.core.api.VCSFileProxy,java.lang.String,boolean) meth public static void createSuccess(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void createdExternally(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void deleteSuccess(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void deletedExternally(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void fileChanged(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void fileLocked(org.netbeans.modules.versioning.core.api.VCSFileProxy) throws java.io.IOException meth public static void registerFileStatusListener(org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$VCSAnnotationListener) supr java.lang.Object hfds ATTRIBUTE_IS_MODIFIED,ATTRIBUTE_REFRESH,ATTRIBUTE_REMOTE_LOCATION,ATTRIBUTE_SEARCH_HISTORY,LOG,deletedFiles,filesBeingCreated,master,nullDelegatingInterceptor,nullInterceptor hcls DelegatingInterceptor,FileEx CLSS public abstract interface static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$IOHandler outer org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor meth public abstract void handle() throws java.io.IOException CLSS public final static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$VCSAnnotationEvent outer org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor cons public init(boolean,boolean) cons public init(java.util.Set<? extends org.openide.filesystems.FileObject>,boolean,boolean) cons public init(org.openide.filesystems.FileObject,boolean,boolean) meth public boolean isIconChange() meth public boolean isNameChange() meth public java.util.Set<? extends org.openide.filesystems.FileObject> getFiles() supr java.lang.Object hfds files,icon,name CLSS public abstract interface static org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$VCSAnnotationListener outer org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor meth public abstract void annotationChanged(org.netbeans.modules.versioning.core.filesystems.VCSFilesystemInterceptor$VCSAnnotationEvent) CLSS public abstract org.netbeans.modules.versioning.core.spi.VCSAnnotator cons protected init() innr public final static !enum ActionDestination meth public java.awt.Image annotateIcon(java.awt.Image,org.netbeans.modules.versioning.core.spi.VCSContext) meth public java.lang.String annotateName(java.lang.String,org.netbeans.modules.versioning.core.spi.VCSContext) meth public javax.swing.Action[] getActions(org.netbeans.modules.versioning.core.spi.VCSContext,org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination) supr java.lang.Object CLSS public final static !enum org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination outer org.netbeans.modules.versioning.core.spi.VCSAnnotator fld public final static org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination MainMenu fld public final static org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination PopupMenu meth public static org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination valueOf(java.lang.String) meth public static org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination[] values() supr java.lang.Enum<org.netbeans.modules.versioning.core.spi.VCSAnnotator$ActionDestination> CLSS public final org.netbeans.modules.versioning.core.spi.VCSContext fld public final static org.netbeans.modules.versioning.core.spi.VCSContext EMPTY innr public abstract interface static FileFilter meth public boolean contains(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public java.util.Set<org.netbeans.modules.versioning.core.api.VCSFileProxy> computeFiles(org.netbeans.modules.versioning.core.spi.VCSContext$FileFilter) meth public java.util.Set<org.netbeans.modules.versioning.core.api.VCSFileProxy> getExclusions() meth public java.util.Set<org.netbeans.modules.versioning.core.api.VCSFileProxy> getFiles() meth public java.util.Set<org.netbeans.modules.versioning.core.api.VCSFileProxy> getRootFiles() meth public org.openide.util.Lookup getElements() meth public static org.netbeans.modules.versioning.core.spi.VCSContext forNodes(org.openide.nodes.Node[]) supr java.lang.Object hfds LOG,computedFilesCached,contextCached,contextNodesCached,elements,exclusions,fileFilterCached,rootFiles,unfilteredRootFiles CLSS public abstract interface static org.netbeans.modules.versioning.core.spi.VCSContext$FileFilter outer org.netbeans.modules.versioning.core.spi.VCSContext meth public abstract boolean accept(org.netbeans.modules.versioning.core.api.VCSFileProxy) CLSS public abstract interface org.netbeans.modules.versioning.core.spi.VCSForbiddenFolderProvider meth public abstract boolean isForbiddenFolder(org.netbeans.modules.versioning.core.api.VCSFileProxy) CLSS public abstract interface org.netbeans.modules.versioning.core.spi.VCSHistoryProvider innr public abstract interface static HistoryChangeListener innr public abstract interface static MessageEditProvider innr public abstract interface static ParentProvider innr public abstract interface static RevisionProvider innr public final static HistoryEntry innr public final static HistoryEvent meth public abstract javax.swing.Action createShowHistoryAction(org.netbeans.modules.versioning.core.api.VCSFileProxy[]) meth public abstract org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEntry[] getHistory(org.netbeans.modules.versioning.core.api.VCSFileProxy[],java.util.Date) meth public abstract void addHistoryChangeListener(org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryChangeListener) meth public abstract void removeHistoryChangeListener(org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryChangeListener) CLSS public abstract interface static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryChangeListener outer org.netbeans.modules.versioning.core.spi.VCSHistoryProvider meth public abstract void fireHistoryChanged(org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEvent) CLSS public final static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEntry outer org.netbeans.modules.versioning.core.spi.VCSHistoryProvider cons public init(org.netbeans.modules.versioning.core.api.VCSFileProxy[],java.util.Date,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,javax.swing.Action[],org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$RevisionProvider) cons public init(org.netbeans.modules.versioning.core.api.VCSFileProxy[],java.util.Date,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,javax.swing.Action[],org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$RevisionProvider,org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$MessageEditProvider) cons public init(org.netbeans.modules.versioning.core.api.VCSFileProxy[],java.util.Date,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,javax.swing.Action[],org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$RevisionProvider,org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$MessageEditProvider,org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$ParentProvider) meth public boolean canEdit() meth public java.lang.String getMessage() meth public java.lang.String getRevision() meth public java.lang.String getRevisionShort() meth public java.lang.String getUsername() meth public java.lang.String getUsernameShort() meth public java.util.Date getDateTime() meth public javax.swing.Action[] getActions() meth public org.netbeans.modules.versioning.core.api.VCSFileProxy[] getFiles() meth public org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEntry getParentEntry(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void getRevisionFile(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void setMessage(java.lang.String) throws java.io.IOException supr java.lang.Object hfds actions,dateTime,files,lookupObjects,mep,message,parentProvider,revision,revisionProvider,revisionShort,username,usernameShort CLSS public final static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEvent outer org.netbeans.modules.versioning.core.spi.VCSHistoryProvider cons public init(org.netbeans.modules.versioning.core.spi.VCSHistoryProvider,org.netbeans.modules.versioning.core.api.VCSFileProxy[]) meth public org.netbeans.modules.versioning.core.api.VCSFileProxy[] getFiles() meth public org.netbeans.modules.versioning.core.spi.VCSHistoryProvider getSource() supr java.lang.Object hfds files,source CLSS public abstract interface static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$MessageEditProvider outer org.netbeans.modules.versioning.core.spi.VCSHistoryProvider meth public abstract void setMessage(java.lang.String) throws java.io.IOException CLSS public abstract interface static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$ParentProvider outer org.netbeans.modules.versioning.core.spi.VCSHistoryProvider meth public abstract org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEntry getParentEntry(org.netbeans.modules.versioning.core.api.VCSFileProxy) CLSS public abstract interface static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$RevisionProvider outer org.netbeans.modules.versioning.core.spi.VCSHistoryProvider meth public abstract void getRevisionFile(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) CLSS public abstract org.netbeans.modules.versioning.core.spi.VCSInterceptor cons protected init() meth public boolean beforeCopy(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public boolean beforeCreate(org.netbeans.modules.versioning.core.api.VCSFileProxy,boolean) meth public boolean beforeDelete(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public boolean beforeMove(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public boolean isMutable(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public java.lang.Object getAttribute(org.netbeans.modules.versioning.core.api.VCSFileProxy,java.lang.String) meth public long refreshRecursively(org.netbeans.modules.versioning.core.api.VCSFileProxy,long,java.util.List<? super org.netbeans.modules.versioning.core.api.VCSFileProxy>) meth public void afterChange(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void afterCopy(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void afterCreate(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void afterDelete(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void afterMove(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void beforeChange(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public void beforeEdit(org.netbeans.modules.versioning.core.api.VCSFileProxy) throws java.io.IOException meth public void doCopy(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) throws java.io.IOException meth public void doCreate(org.netbeans.modules.versioning.core.api.VCSFileProxy,boolean) throws java.io.IOException meth public void doDelete(org.netbeans.modules.versioning.core.api.VCSFileProxy) throws java.io.IOException meth public void doMove(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) throws java.io.IOException supr java.lang.Object CLSS public abstract org.netbeans.modules.versioning.core.spi.VCSVisibilityQuery cons public init() meth protected !varargs final void fireVisibilityChanged(org.netbeans.modules.versioning.core.api.VCSFileProxy[]) meth protected final void fireVisibilityChanged() meth public abstract boolean isVisible(org.netbeans.modules.versioning.core.api.VCSFileProxy) supr java.lang.Object CLSS public abstract org.netbeans.modules.versioning.core.spi.VersioningSystem cons protected init() innr public abstract interface static !annotation Registration meth protected final void fireAnnotationsChanged(java.util.Set<org.netbeans.modules.versioning.core.api.VCSFileProxy>) meth protected final void fireStatusChanged(java.util.Set<org.netbeans.modules.versioning.core.api.VCSFileProxy>) meth protected final void fireStatusChanged(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth protected final void fireVersionedFilesChanged() meth public final void addPropertyChangeListener(java.beans.PropertyChangeListener) meth public final void removePropertyChangeListener(java.beans.PropertyChangeListener) meth public org.netbeans.modules.versioning.core.api.VCSFileProxy getTopmostManagedAncestor(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public org.netbeans.modules.versioning.core.spi.VCSAnnotator getVCSAnnotator() meth public org.netbeans.modules.versioning.core.spi.VCSHistoryProvider getVCSHistoryProvider() meth public org.netbeans.modules.versioning.core.spi.VCSInterceptor getVCSInterceptor() meth public org.netbeans.modules.versioning.core.spi.VCSVisibilityQuery getVisibilityQuery() meth public org.netbeans.spi.queries.CollocationQueryImplementation2 getCollocationQueryImplementation() meth public void getOriginalFile(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) supr java.lang.Object hfds support CLSS public abstract interface static !annotation org.netbeans.modules.versioning.core.spi.VersioningSystem$Registration outer org.netbeans.modules.versioning.core.spi.VersioningSystem anno 0 java.lang.annotation.Retention(java.lang.annotation.RetentionPolicy value=SOURCE) anno 0 java.lang.annotation.Target(java.lang.annotation.ElementType[] value=[TYPE, METHOD]) intf java.lang.annotation.Annotation meth public abstract java.lang.String actionsCategory() meth public abstract java.lang.String displayName() meth public abstract java.lang.String menuLabel() meth public abstract java.lang.String[] metadataFolderNames() CLSS public final org.netbeans.modules.versioning.core.util.Utils fld public final static java.lang.String EVENT_ANNOTATIONS_CHANGED = "Set<File> VCS.AnnotationsChanged" fld public final static java.lang.String EVENT_STATUS_CHANGED = "Set<File> VCS.StatusChanged" fld public final static java.lang.String EVENT_VERSIONED_ROOTS = "null VCS.VersionedFilesChanged" meth public !varargs static void fireVisibilityChanged(java.io.File[]) meth public static boolean isFlat(java.io.File) meth public static boolean isForbiddenFolder(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static java.io.File getFlat(java.lang.String) meth public static java.lang.Object[] getDelegateEntry(org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEntry) meth public static java.lang.String[] getDisconnectedRoots(org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem) meth public static org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$HistoryEntry createHistoryEntry(org.netbeans.modules.versioning.core.api.VCSFileProxy[],java.util.Date,java.lang.String,java.lang.String,java.lang.String,java.lang.String,java.lang.String,javax.swing.Action[],org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$RevisionProvider,org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$MessageEditProvider,org.netbeans.modules.versioning.core.spi.VCSHistoryProvider$ParentProvider,java.lang.Object[]) meth public static org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem getLocalHistory(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem getOwner(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public static void addPropertyChangeListener(java.beans.PropertyChangeListener) meth public static void connectRepository(org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem,java.lang.String) meth public static void disconnectRepository(org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem,java.lang.String) meth public static void fireVisibilityChanged() meth public static void flushNullOwners() meth public static void removePropertyChangeListener(java.beans.PropertyChangeListener) meth public static void versionedRootsChanged() supr java.lang.Object CLSS public abstract org.netbeans.modules.versioning.core.util.VCSSystemProvider cons public init() innr public abstract interface static VersioningSystem meth public abstract java.util.Collection<org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem> getVersioningSystems() meth public abstract void addChangeListener(javax.swing.event.ChangeListener) meth public abstract void removeChangeListener(javax.swing.event.ChangeListener) supr java.lang.Object CLSS public abstract interface static org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem<%0 extends java.lang.Object> outer org.netbeans.modules.versioning.core.util.VCSSystemProvider meth public abstract boolean accept(org.netbeans.modules.versioning.core.spi.VCSContext) meth public abstract boolean isExcluded(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract boolean isLocalHistory() meth public abstract boolean isMetadataFile(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract java.lang.String getDisplayName() meth public abstract java.lang.String getMenuLabel() meth public abstract org.netbeans.modules.versioning.core.api.VCSFileProxy getTopmostManagedAncestor(org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract org.netbeans.modules.versioning.core.spi.VCSAnnotator getVCSAnnotator() meth public abstract org.netbeans.modules.versioning.core.spi.VCSHistoryProvider getVCSHistoryProvider() meth public abstract org.netbeans.modules.versioning.core.spi.VCSInterceptor getVCSInterceptor() meth public abstract org.netbeans.modules.versioning.core.spi.VCSVisibilityQuery getVisibilityQuery() meth public abstract org.netbeans.spi.queries.CollocationQueryImplementation2 getCollocationQueryImplementation() meth public abstract void addPropertyCL(java.beans.PropertyChangeListener) meth public abstract void getOriginalFile(org.netbeans.modules.versioning.core.api.VCSFileProxy,org.netbeans.modules.versioning.core.api.VCSFileProxy) meth public abstract void removePropertyCL(java.beans.PropertyChangeListener) meth public abstract {org.netbeans.modules.versioning.core.util.VCSSystemProvider$VersioningSystem%0} getDelegate()	Standard ML	3	timfel/netbeans	ide/versioning.core/nbproject/org-netbeans-modules-versioning-core.sig	[ "Apache-2.0" ]
-- Copyright 2022 Stanford University -- -- Licensed under the Apache License, Version 2.0 (the "License"); -- you may not use this file except in compliance with the License. -- You may obtain a copy of the License at -- -- http://www.apache.org/licenses/LICENSE-2.0 -- -- Unless required by applicable law or agreed to in writing, software -- distributed under the License is distributed on an "AS IS" BASIS, -- WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. -- See the License for the specific language governing permissions and -- limitations under the License. import "regent" local clib = regentlib.c local nan = regentlib.nan(double) local utils = require("utils") float_ptr = raw_ptr_factory(float) double_ptr = raw_ptr_factory(double) complex_ptr = raw_ptr_factory(complex) local cuda_home = os.getenv("CUDA_HOME") terralib.includepath = terralib.includepath .. ";" .. cuda_home .. "/include" terralib.linklibrary(cuda_home .. "/lib64/libcublas.so") terralib.linklibrary(utils.output_dir .. "/libblas_context_manager.so") local cuda_runtime = terralib.includec("cuda_runtime.h") local cublas = terralib.includec("cublas_v2.h") local mgr = terralib.includec("blas_context_manager.h", {"-I", "./"}) terra snrm2_gpu_terra( n : int, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var result : float var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasSnrm2_v2(handle, n, rawX.ptr, rawX.offset, &result) return result end terra dnrm2_gpu_terra( n : int, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var result : double var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasDnrm2_v2(handle, n, rawX.ptr, rawX.offset, &result) return result end terra sdot_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var result : float var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasSdot_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, &result) return result end terra ddot_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var result : double var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasDdot_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, &result) return result end terra sscal_gpu_terra( n : int, alpha : float, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSscal_v2(handle, n, &alpha, rawX.ptr, rawX.offset) end terra dscal_gpu_terra( n : int, alpha : double, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDscal_v2(handle, n, &alpha, rawX.ptr, rawX.offset) end terra saxpy_gpu_terra( n : int, alpha : float, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSaxpy_v2(handle, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset) end terra daxpy_gpu_terra( n : int, alpha : double, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDaxpy_v2(handle, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset) end terra scopy_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasScopy_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset) end terra dcopy_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDcopy_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset) end terra sswap_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSswap_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset) end terra dswap_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDswap_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset) end terra isamax_gpu_terra( n : int, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var result : int var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasIsamax_v2(handle, n, rawX.ptr, rawX.offset, &result) return result end terra idamax_gpu_terra( n : int, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var result : int var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasIdamax_v2(handle, n, rawX.ptr, rawX.offset, &result) return result end terra sasum_gpu_terra( n : int, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var result : float var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasSasum_v2(handle, n, rawX.ptr, rawX.offset, &result) return result end terra dasum_gpu_terra( n : int, rectX : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var result : double var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) cublas.cublasDasum_v2(handle, n, rawX.ptr, rawX.offset, &result) return result end terra srot_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, c : float, s : float, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSrot_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, &c, &s) end terra drot_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, c : double, s : double, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDrot_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, &c, &s) end terra srotg_gpu_terra( a : float, b : float, c : float, s : float) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSrotg_v2(handle, &a, &b, &c, &s) end terra drotg_gpu_terra( a : double, b : double, c : double, s : double) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDrotg_v2(handle, &a, &b, &c, &s) end terra srotm_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, rectPARAM : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prPARAM : clib.legion_physical_region_t, fldPARAM : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var rawPARAM : float_ptr [get_raw_ptr_factory(1, float, rectPARAM, prPARAM, fldPARAM, rawPARAM, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSrotm_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawPARAM.ptr) end terra drotm_gpu_terra( n : int, rectX : rect1d, rectY : rect1d, rectPARAM : rect1d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prPARAM : clib.legion_physical_region_t, fldPARAM : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var rawPARAM : double_ptr [get_raw_ptr_factory(1, double, rectPARAM, prPARAM, fldPARAM, rawPARAM, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDrotm_v2(handle, n, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawPARAM.ptr) end terra srotmg_gpu_terra( d1 : float, d2 : float, x1 : float, y1 : float, rectPARAM : rect1d, prPARAM : clib.legion_physical_region_t, fldPARAM : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawPARAM : float_ptr [get_raw_ptr_factory(1, float, rectPARAM, prPARAM, fldPARAM, rawPARAM, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSrotmg_v2(handle, &d1, &d2, &x1, &y1, rawPARAM.ptr) end terra drotmg_gpu_terra( d1 : double, d2 : double, x1 : double, y1 : double, rectPARAM : rect1d, prPARAM : clib.legion_physical_region_t, fldPARAM : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawPARAM : double_ptr [get_raw_ptr_factory(1, double, rectPARAM, prPARAM, fldPARAM, rawPARAM, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDrotmg_v2(handle, &d1, &d2, &x1, &y1, rawPARAM.ptr) end terra sgemv_gpu_terra( trans : int, m : int, n : int, alpha : float, rectA : rect2d, rectX : rect1d, beta : float, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSgemv_v2(handle, trans, m, n, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra dgemv_gpu_terra( trans : int, m : int, n : int, alpha : double, rectA : rect2d, rectX : rect1d, beta : double, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDgemv_v2(handle, trans, m, n, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra sgbmv_gpu_terra( trans : int, m : int, n : int, kl : int, ku : int, alpha : float, rectA : rect2d, rectX : rect1d, beta : float, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSgbmv_v2(handle, trans, m, n, kl, ku, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra dgbmv_gpu_terra( trans : int, m : int, n : int, kl : int, ku : int, alpha : double, rectA : rect2d, rectX : rect1d, beta : double, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDgbmv_v2(handle, trans, m, n, kl, ku, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra strmv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStrmv_v2(handle, uplo, trans, diag, n, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra dtrmv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtrmv_v2(handle, uplo, trans, diag, n, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra stbmv_gpu_terra( uplo : int, trans : int, diag : int, n : int, k : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStbmv_v2(handle, uplo, trans, diag, n, k, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra dtbmv_gpu_terra( uplo : int, trans : int, diag : int, n : int, k : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtbmv_v2(handle, uplo, trans, diag, n, k, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra stpmv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectAP : rect2d, rectX : rect1d, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawAP : float_ptr [get_raw_ptr_factory(2, float, rectAP, prAP, fldAP, rawAP, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStpmv_v2(handle, uplo, trans, diag, n, rawAP.ptr, rawX.ptr, rawX.offset) end terra dtpmv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectAP : rect2d, rectX : rect1d, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawAP : double_ptr [get_raw_ptr_factory(2, double, rectAP, prAP, fldAP, rawAP, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtpmv_v2(handle, uplo, trans, diag, n, rawAP.ptr, rawX.ptr, rawX.offset) end terra strsv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStrsv_v2(handle, uplo, trans, diag, n, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra dtrsv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtrsv_v2(handle, uplo, trans, diag, n, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra stpsv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectAP : rect2d, rectX : rect1d, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawAP : float_ptr [get_raw_ptr_factory(2, float, rectAP, prAP, fldAP, rawAP, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStpsv_v2(handle, uplo, trans, diag, n, rawAP.ptr, rawX.ptr, rawX.offset) end terra dtpsv_gpu_terra( uplo : int, trans : int, diag : int, n : int, rectAP : rect2d, rectX : rect1d, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawAP : double_ptr [get_raw_ptr_factory(2, double, rectAP, prAP, fldAP, rawAP, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtpsv_v2(handle, uplo, trans, diag, n, rawAP.ptr, rawX.ptr, rawX.offset) end terra stbsv_gpu_terra( uplo : int, trans : int, diag : int, n : int, k : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStbsv_v2(handle, uplo, trans, diag, n, k, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra dtbsv_gpu_terra( uplo : int, trans : int, diag : int, n : int, k : int, rectA : rect2d, rectX : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtbsv_v2(handle, uplo, trans, diag, n, k, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset) end terra ssymv_gpu_terra( uplo : int, n : int, alpha : float, rectA : rect2d, rectX : rect1d, beta : float, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsymv_v2(handle, uplo, n, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra dsymv_gpu_terra( uplo : int, n : int, alpha : double, rectA : rect2d, rectX : rect1d, beta : double, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsymv_v2(handle, uplo, n, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra ssbmv_gpu_terra( uplo : int, n : int, k : int, alpha : float, rectA : rect2d, rectX : rect1d, beta : float, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsbmv_v2(handle, uplo, n, k, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra dsbmv_gpu_terra( uplo : int, n : int, k : int, alpha : double, rectA : rect2d, rectX : rect1d, beta : double, rectY : rect1d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsbmv_v2(handle, uplo, n, k, &alpha, rawA.ptr, rawA.offset, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra sspmv_gpu_terra( uplo : int, n : int, alpha : float, rectAP : rect2d, rectX : rect1d, beta : float, rectY : rect1d, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawAP : float_ptr [get_raw_ptr_factory(2, float, rectAP, prAP, fldAP, rawAP, float_ptr)] var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSspmv_v2(handle, uplo, n, &alpha, rawAP.ptr, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra dspmv_gpu_terra( uplo : int, n : int, alpha : double, rectAP : rect2d, rectX : rect1d, beta : double, rectY : rect1d, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawAP : double_ptr [get_raw_ptr_factory(2, double, rectAP, prAP, fldAP, rawAP, double_ptr)] var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDspmv_v2(handle, uplo, n, &alpha, rawAP.ptr, rawX.ptr, rawX.offset, &beta, rawY.ptr, rawY.offset) end terra sger_gpu_terra( m : int, n : int, alpha : float, rectX : rect1d, rectY : rect1d, rectA : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSger_v2(handle, m, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawA.ptr, rawA.offset) end terra dger_gpu_terra( m : int, n : int, alpha : double, rectX : rect1d, rectY : rect1d, rectA : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDger_v2(handle, m, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawA.ptr, rawA.offset) end terra ssyr_gpu_terra( uplo : int, n : int, alpha : float, rectX : rect1d, rectA : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsyr_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawA.ptr, rawA.offset) end terra dsyr_gpu_terra( uplo : int, n : int, alpha : double, rectX : rect1d, rectA : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsyr_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawA.ptr, rawA.offset) end terra sspr_gpu_terra( uplo : int, n : int, alpha : float, rectX : rect1d, rectAP : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawAP : float_ptr [get_raw_ptr_factory(2, float, rectAP, prAP, fldAP, rawAP, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSspr_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawAP.ptr) end terra dspr_gpu_terra( uplo : int, n : int, alpha : double, rectX : rect1d, rectAP : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawAP : double_ptr [get_raw_ptr_factory(2, double, rectAP, prAP, fldAP, rawAP, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDspr_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawAP.ptr) end terra ssyr2_gpu_terra( uplo : int, n : int, alpha : float, rectX : rect1d, rectY : rect1d, rectA : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsyr2_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawA.ptr, rawA.offset) end terra dsyr2_gpu_terra( uplo : int, n : int, alpha : double, rectX : rect1d, rectY : rect1d, rectA : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsyr2_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawA.ptr, rawA.offset) end terra sspr2_gpu_terra( uplo : int, n : int, alpha : float, rectX : rect1d, rectY : rect1d, rectAP : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : float_ptr [get_raw_ptr_factory(1, float, rectX, prX, fldX, rawX, float_ptr)] var rawY : float_ptr [get_raw_ptr_factory(1, float, rectY, prY, fldY, rawY, float_ptr)] var rawAP : float_ptr [get_raw_ptr_factory(2, float, rectAP, prAP, fldAP, rawAP, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSspr2_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawAP.ptr) end terra dspr2_gpu_terra( uplo : int, n : int, alpha : double, rectX : rect1d, rectY : rect1d, rectAP : rect2d, prX : clib.legion_physical_region_t, fldX : clib.legion_field_id_t, prY : clib.legion_physical_region_t, fldY : clib.legion_field_id_t, prAP : clib.legion_physical_region_t, fldAP : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawX : double_ptr [get_raw_ptr_factory(1, double, rectX, prX, fldX, rawX, double_ptr)] var rawY : double_ptr [get_raw_ptr_factory(1, double, rectY, prY, fldY, rawY, double_ptr)] var rawAP : double_ptr [get_raw_ptr_factory(2, double, rectAP, prAP, fldAP, rawAP, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDspr2_v2(handle, uplo, n, &alpha, rawX.ptr, rawX.offset, rawY.ptr, rawY.offset, rawAP.ptr) end terra sgemm_gpu_terra( transa : int, transb : int, m : int, n : int, k : int, alpha : float, rectA : rect2d, rectB : rect2d, beta : float, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawB : float_ptr [get_raw_ptr_factory(2, float, rectB, prB, fldB, rawB, float_ptr)] var rawC : float_ptr [get_raw_ptr_factory(2, float, rectC, prC, fldC, rawC, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSgemm_v2(handle, transa, transb, m, n, k, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, &beta, rawC.ptr, rawC.offset) end terra dgemm_gpu_terra( transa : int, transb : int, m : int, n : int, k : int, alpha : double, rectA : rect2d, rectB : rect2d, beta : double, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawB : double_ptr [get_raw_ptr_factory(2, double, rectB, prB, fldB, rawB, double_ptr)] var rawC : double_ptr [get_raw_ptr_factory(2, double, rectC, prC, fldC, rawC, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDgemm_v2(handle, transa, transb, m, n, k, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, &beta, rawC.ptr, rawC.offset) end terra ssyrk_gpu_terra( uplo : int, trans : int, n : int, k : int, alpha : float, rectA : rect2d, beta : float, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawC : float_ptr [get_raw_ptr_factory(2, float, rectC, prC, fldC, rawC, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsyrk_v2(handle, uplo, trans, n, k, &alpha, rawA.ptr, rawA.offset, &beta, rawC.ptr, rawC.offset) end terra dsyrk_gpu_terra( uplo : int, trans : int, n : int, k : int, alpha : double, rectA : rect2d, beta : double, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawC : double_ptr [get_raw_ptr_factory(2, double, rectC, prC, fldC, rawC, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsyrk_v2(handle, uplo, trans, n, k, &alpha, rawA.ptr, rawA.offset, &beta, rawC.ptr, rawC.offset) end terra ssyr2k_gpu_terra( uplo : int, trans : int, n : int, k : int, alpha : float, rectA : rect2d, rectB : rect2d, beta : float, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawB : float_ptr [get_raw_ptr_factory(2, float, rectB, prB, fldB, rawB, float_ptr)] var rawC : float_ptr [get_raw_ptr_factory(2, float, rectC, prC, fldC, rawC, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsyr2k_v2(handle, uplo, trans, n, k, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, &beta, rawC.ptr, rawC.offset) end terra dsyr2k_gpu_terra( uplo : int, trans : int, n : int, k : int, alpha : double, rectA : rect2d, rectB : rect2d, beta : double, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawB : double_ptr [get_raw_ptr_factory(2, double, rectB, prB, fldB, rawB, double_ptr)] var rawC : double_ptr [get_raw_ptr_factory(2, double, rectC, prC, fldC, rawC, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsyr2k_v2(handle, uplo, trans, n, k, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, &beta, rawC.ptr, rawC.offset) end terra ssymm_gpu_terra( side : int, uplo : int, m : int, n : int, alpha : float, rectA : rect2d, rectB : rect2d, beta : float, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawB : float_ptr [get_raw_ptr_factory(2, float, rectB, prB, fldB, rawB, float_ptr)] var rawC : float_ptr [get_raw_ptr_factory(2, float, rectC, prC, fldC, rawC, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasSsymm_v2(handle, side, uplo, m, n, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, &beta, rawC.ptr, rawC.offset) end terra dsymm_gpu_terra( side : int, uplo : int, m : int, n : int, alpha : double, rectA : rect2d, rectB : rect2d, beta : double, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawB : double_ptr [get_raw_ptr_factory(2, double, rectB, prB, fldB, rawB, double_ptr)] var rawC : double_ptr [get_raw_ptr_factory(2, double, rectC, prC, fldC, rawC, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDsymm_v2(handle, side, uplo, m, n, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, &beta, rawC.ptr, rawC.offset) end terra strsm_gpu_terra( side : int, uplo : int, trans : int, diag : int, m : int, n : int, alpha : float, rectA : rect2d, rectB : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawB : float_ptr [get_raw_ptr_factory(2, float, rectB, prB, fldB, rawB, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStrsm_v2(handle, side, uplo, trans, diag, m, n, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset) end terra dtrsm_gpu_terra( side : int, uplo : int, trans : int, diag : int, m : int, n : int, alpha : double, rectA : rect2d, rectB : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawB : double_ptr [get_raw_ptr_factory(2, double, rectB, prB, fldB, rawB, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtrsm_v2(handle, side, uplo, trans, diag, m, n, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset) end terra strmm_gpu_terra( side : int, uplo : int, trans : int, diag : int, m : int, n : int, alpha : float, rectA : rect2d, rectB : rect2d, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : float_ptr [get_raw_ptr_factory(2, float, rectA, prA, fldA, rawA, float_ptr)] var rawB : float_ptr [get_raw_ptr_factory(2, float, rectB, prB, fldB, rawB, float_ptr)] var rawC : float_ptr [get_raw_ptr_factory(2, float, rectC, prC, fldC, rawC, float_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasStrmm_v2(handle, side, uplo, trans, diag, m, n, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, rawC.ptr, rawC.offset) end terra dtrmm_gpu_terra( side : int, uplo : int, trans : int, diag : int, m : int, n : int, alpha : double, rectA : rect2d, rectB : rect2d, rectC : rect2d, prA : clib.legion_physical_region_t, fldA : clib.legion_field_id_t, prB : clib.legion_physical_region_t, fldB : clib.legion_field_id_t, prC : clib.legion_physical_region_t, fldC : clib.legion_field_id_t) var handle : cublas.cublasHandle_t = mgr.get_blas_handle() var rawA : double_ptr [get_raw_ptr_factory(2, double, rectA, prA, fldA, rawA, double_ptr)] var rawB : double_ptr [get_raw_ptr_factory(2, double, rectB, prB, fldB, rawB, double_ptr)] var rawC : double_ptr [get_raw_ptr_factory(2, double, rectC, prC, fldC, rawC, double_ptr)] var stream : cuda_runtime.cudaStream_t cuda_runtime.cudaStreamCreate(&stream) cublas.cublasSetStream_v2(handle, stream) return cublas.cublasDtrmm_v2(handle, side, uplo, trans, diag, m, n, &alpha, rawA.ptr, rawA.offset, rawB.ptr, rawB.offset, rawC.ptr, rawC.offset) end	Rouge	4	syamajala/blas-rg	cublas.rg	[ "Apache-2.0" ]
dnl HAVE_JSON is always 1 as of php 8.0 and the constant will be removed in the future. dnl Note that HAVE_JSON was never defined for Windows builds (see config.w32) AC_DEFINE([HAVE_JSON],1 ,[whether to enable JavaScript Object Serialization support]) PHP_NEW_EXTENSION(json, json.c \ json_encoder.c \ json_parser.tab.c \ json_scanner.c, no,, -DZEND_ENABLE_STATIC_TSRMLS_CACHE=1) PHP_INSTALL_HEADERS([ext/json], [php_json.h php_json_parser.h php_json_scanner.h]) PHP_ADD_MAKEFILE_FRAGMENT()	M4	3	NathanFreeman/php-src	ext/json/config.m4	[ "PHP-3.01" ]
<p title=Title>String</p>	HTML	1	fuelingtheweb/prettier	tests/html_attributes/without-quotes.html	[ "MIT" ]
% stderr:"!SystemError: with a message\n\tin System_error1.main() [System_error1.v3 @ 3:29]\n\n" exit:255	Io	0	Refusal-Type-Bamboo/virgil	test/system/System_error1.io	[ "Apache-2.0" ]
req to <%= servlet_request.request_uri %> <%= servlet_request.query.inspect %>	RHTML	1	barrhaim/jruby	test/mri/webrick/webrick.rhtml	[ "Ruby", "Apache-2.0" ]
# Create buffer with length 80000 samples 'buf' 80000 zeros # Create a sequence 'seq' '0 2 7 11 14 4 2' gen_vals # tick can only be used once in a sporth patch, so put it in a p-register tick 0 pset # our maygate clock with a guaranteed start 0 p 1 metro 0.7 maytrig + # duplicate the clock signal for tseq and pluck dup # sequence through the table 0 'seq' tseq # bias 61 (Db major) and convert to frequency for pluck 61 + mtof 0.5 400 pluck 1000 butlp # delayz for dayz dup 0.6 0.75 delay 1000 buthp 0.7 * + # reverb dup dup 10 10 8000 zrev 0.5 * drop + # duplicate our entire signal and record it in buffer 0 p 'buf' tblrec # mincer object shuffles through recording buffer 0 'buf' tbldur 10 randi 1 1 2048 'buf' mincer # Sum mincer with everything else +	SourcePawn	4	brandenbyers/Sporth	examples/mincerbuf.sp	[ "MIT" ]
-- name: create-table-latest CREATE TABLE IF NOT EXISTS latest ( latest_repo_id INTEGER ,latest_build_id INTEGER ,latest_type TEXT -- branch \| tag \| pull_request \| promote ,latest_name TEXT -- master \| v1.0.0, \| 42 \| production ,latest_created INTEGER ,latest_updated INTEGER ,latest_deleted INTEGER ,PRIMARY KEY(latest_repo_id, latest_type, latest_name) ); -- name: create-index-latest-repo CREATE INDEX IF NOT EXISTS ix_latest_repo ON latest (latest_repo_id);	SQL	4	sthagen/drone-drone	store/shared/migrate/sqlite/files/014_create_table_refs.sql	[ "Apache-2.0" ]
(defmodule record-test (export all) ) (defrecord point (x 0) (y (element 3 (date)))) (defun a (x y r) (list (make-point x (date)) (make-point x (binary 34 (x float) ((+ y 3) float))))) (defun b (x y r) (let (((match-point y yy x xx) (make-point x x))) (list xx yy (make-point y r)))) (defrecord circle (center (make-point)) (radius 0)) (defun c (x y r) (let ((c (make-point x 42))) (make-circle center c radius r))) (defun d (p c) (tuple (point-x p) (circle-radius c))) (defun d2 ([p] (when (=:= (point-y p) 99)) 'ok)) (defun e (p c) (tuple (case p ((match-point x x) x) (_ (error #(badrecord point)))) (case c ((match-circle radius radius) radius) (_ (error #(badrecord circle))))))	LFE	3	haetze/lfe	dev/record-test.lfe	[ "Apache-2.0" ]
# Copy multiple files to destination, based on a glob expression # - FROM_GLOB # - TO if(NOT FROM_GLOB) message(FATAL_ERROR "FROM_GLOB must be set") endif() if(NOT TO) message(FATAL_ERROR "TO must be set") endif() execute_process(COMMAND ${CMAKE_COMMAND} -E make_directory ${TO}) file(GLOB files ${FROM_GLOB}) foreach(file ${files}) execute_process(COMMAND ${CMAKE_COMMAND} -E copy ${file} ${TO} RESULT_VARIABLE rv) if(NOT rv EQUAL 0) message(FATAL_ERROR "Error copying ${file}") endif() endforeach()	CMake	4	uga-rosa/neovim	third-party/cmake/CopyFilesGlob.cmake	[ "Vim" ]
// This test checks that all expected errors occur when there are multiple invalid attributes // on an item. #[inline] //~^ ERROR attribute should be applied to function or closure [E0518] #[target_feature(enable = "sse2")] //~^ ERROR attribute should be applied to a function const FOO: u8 = 0; fn main() { }	Rust	3	Eric-Arellano/rust	src/test/ui/attributes/multiple-invalid.rs	[ "ECL-2.0", "Apache-2.0", "MIT-0", "MIT" ]
SmalltalkCISpec { #name : 'Pakbot (client)', #loading : [ SCIMetacelloLoadSpec { #baseline : 'Pakbot', #directory : 'repository', #platforms : [ #pharo ], #load : ['tests-client'], #onConflict : #useLoaded } ], #testing : { #exclude : { #packages : [ 'CargoPackageManager-FailingTests', 'CargoPackageManager-Utils-FailingTests' ] } } }	STON	3	demarey/cargo	.client.ston	[ "MIT" ]
From eb130493c8042280a01e03c28bb89bd5ae0c5d18 Mon Sep 17 00:00:00 2001 From: Kaixi Hou <[email protected]> Date: Tue, 23 Mar 2021 12:49:18 -0700 Subject: [PATCH] Add device modifiers for GPUs --- src/{farmhash.cc => farmhash_gpu.h} \| 95 +++++++++++++++++++++++------ 1 file changed, 75 insertions(+), 20 deletions(-) rename src/{farmhash.cc => farmhash_gpu.h} (99%) diff --git a/src/farmhash.cc b/src/farmhash_gpu.h similarity index 99% rename from src/farmhash.cc rename to src/farmhash_gpu.h index cfd4a47..50994b6 100644 --- a/src/farmhash.cc +++ b/src/farmhash_gpu.h @@ -20,6 +20,17 @@ // // FarmHash, by Geoff Pike +#ifndef FARM_HASH_GPU_H_ +#define FARM_HASH_GPU_H_ + +#include <cstdint> +#include <string.h> // for memcpy and memset + +#define NAMESPACE_FOR_HASH_FUNCTIONS_GPU util_gpu +#define DEVICE_MODIFIER __device__ __host__ + +// We use DEVICE_MODIFIER to remove those code unused by GPUs. +#ifndef DEVICE_MODIFIER #include "farmhash.h" // FARMHASH ASSUMPTIONS: Modify as needed, or use -DFARMHASH_ASSUME_SSE42 etc. // Note that if you use -DFARMHASH_ASSUME_SSE42 you likely need -msse42 @@ -187,7 +198,14 @@ #define uint64_in_expected_order(x) (x) #endif -namespace NAMESPACE_FOR_HASH_FUNCTIONS { +#endif // DEVICE_MODIFIER + +#define uint32_in_expected_order(x) (x) +#define uint64_in_expected_order(x) (x) + +#define STATIC_INLINE DEVICE_MODIFIER inline + +namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU { STATIC_INLINE uint64_t Fetch64(const char p) { uint64_t result; @@ -201,6 +219,7 @@ STATIC_INLINE uint32_t Fetch32(const char p) { return uint32_in_expected_order(result); } +#ifndef DEVICE_MODIFIER STATIC_INLINE uint32_t Bswap32(uint32_t val) { return bswap_32(val); } STATIC_INLINE uint64_t Bswap64(uint64_t val) { return bswap_64(val); } @@ -210,12 +229,14 @@ STATIC_INLINE uint32_t BasicRotate32(uint32_t val, int shift) { // Avoid shifting by 32: doing so yields an undefined result. return shift == 0 ? val : ((val >> shift) \| (val << (32 - shift))); } +#endif // DEVICE_MODIFIER STATIC_INLINE uint64_t BasicRotate64(uint64_t val, int shift) { // Avoid shifting by 64: doing so yields an undefined result. return shift == 0 ? val : ((val >> shift) \| (val << (64 - shift))); } +#ifndef DEVICE_MODIFIER #if defined(_WIN32) && defined(FARMHASH_ROTR) STATIC_INLINE uint32_t Rotate32(uint32_t val, int shift) { @@ -240,12 +261,18 @@ STATIC_INLINE uint64_t Rotate64(uint64_t val, int shift) { } #endif +#endif // DEVICE_MODIFIER -} // namespace NAMESPACE_FOR_HASH_FUNCTIONS +STATIC_INLINE uint64_t Rotate64(uint64_t val, int shift) { + return BasicRotate64(val, shift); +} + +} // namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU // FARMHASH PORTABILITY LAYER: debug mode or max speed? // One may use -DFARMHASH_DEBUG=1 or -DFARMHASH_DEBUG=0 to force the issue. +#ifndef DEVICE_MODIFIER #if !defined(FARMHASH_DEBUG) && (!defined(NDEBUG) \|\| defined(_DEBUG)) #define FARMHASH_DEBUG 1 #endif @@ -345,14 +372,21 @@ STATIC_INLINE __m128i Fetch128(const char* s) { #undef PERMUTE3 #define PERMUTE3(a, b, c) do { std::swap(a, b); std::swap(a, c); } while (0) +#endif // DEVICE_MODIFIER + +struct Pair { + uint64_t first; + uint64_t second; +}; -namespace NAMESPACE_FOR_HASH_FUNCTIONS { +namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU { // Some primes between 2^63 and 2^64 for various uses. static const uint64_t k0 = 0xc3a5c85c97cb3127ULL; static const uint64_t k1 = 0xb492b66fbe98f273ULL; static const uint64_t k2 = 0x9ae16a3b2f90404fULL; +#ifndef DEVICE_MODIFIER // Magic numbers for 32-bit hashing. Copied from Murmur3. static const uint32_t c1 = 0xcc9e2d51; static const uint32_t c2 = 0x1b873593; @@ -399,28 +433,34 @@ template <> uint128_t DebugTweak(uint128_t x) { } return x; } +#endif // DEVICE_MODIFIER +} // namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU -} // namespace NAMESPACE_FOR_HASH_FUNCTIONS - +#ifndef DEVICE_MODIFIER using namespace std; -using namespace NAMESPACE_FOR_HASH_FUNCTIONS; -namespace farmhashna { +#endif // DEVICE_MODIFIER +using namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU; +namespace farmhashna_gpu { #undef Fetch #define Fetch Fetch64 #undef Rotate #define Rotate Rotate64 +#ifndef DEVICE_MODIFIER #undef Bswap #define Bswap Bswap64 +#endif // DEVICE_MODIFIER STATIC_INLINE uint64_t ShiftMix(uint64_t val) { return val ^ (val >> 47); } +#ifndef DEVICE_MODIFIER STATIC_INLINE uint64_t HashLen16(uint64_t u, uint64_t v) { return Hash128to64(Uint128(u, v)); } +#endif // DEVICE_MODIFIER STATIC_INLINE uint64_t HashLen16(uint64_t u, uint64_t v, uint64_t mul) { // Murmur-inspired hashing. @@ -471,7 +511,7 @@ STATIC_INLINE uint64_t HashLen17to32(const char s, size_t len) { // Return a 16-byte hash for 48 bytes. Quick and dirty. // Callers do best to use "random-looking" values for a and b. -STATIC_INLINE pair<uint64_t, uint64_t> WeakHashLen32WithSeeds( +STATIC_INLINE Pair WeakHashLen32WithSeeds( uint64_t w, uint64_t x, uint64_t y, uint64_t z, uint64_t a, uint64_t b) { a += w; b = Rotate(b + a + z, 21); @@ -479,11 +519,11 @@ STATIC_INLINE pair<uint64_t, uint64_t> WeakHashLen32WithSeeds( a += x; a += y; b += Rotate(a, 44); - return make_pair(a + z, b + c); + return Pair{a + z, b + c}; } // Return a 16-byte hash for s[0] ... s[31], a, and b. Quick and dirty. -STATIC_INLINE pair<uint64_t, uint64_t> WeakHashLen32WithSeeds( +STATIC_INLINE Pair WeakHashLen32WithSeeds( const char s, uint64_t a, uint64_t b) { return WeakHashLen32WithSeeds(Fetch(s), Fetch(s + 8), @@ -510,7 +550,7 @@ STATIC_INLINE uint64_t HashLen33to64(const char s, size_t len) { e + Rotate(f + a, 18) + g, mul); } -uint64_t Hash64(const char s, size_t len) { +DEVICE_MODIFIER uint64_t Hash64(const char s, size_t len) { const uint64_t seed = 81; if (len <= 32) { if (len <= 16) { @@ -527,8 +567,8 @@ uint64_t Hash64(const char s, size_t len) { uint64_t x = seed; uint64_t y = seed * k1 + 113; uint64_t z = ShiftMix(y * k2 + 113) * k2; - pair<uint64_t, uint64_t> v = make_pair(0, 0); - pair<uint64_t, uint64_t> w = make_pair(0, 0); + Pair v = {0, 0}; + Pair w = {0, 0}; x = x * k2 + Fetch(s); // Set end so that after the loop we have 1 to 64 bytes left to process. @@ -543,7 +583,9 @@ uint64_t Hash64(const char s, size_t len) { z = Rotate(z + w.first, 33) k1; v = WeakHashLen32WithSeeds(s, v.second * k1, x + w.first); w = WeakHashLen32WithSeeds(s + 32, z + w.second, y + Fetch(s + 16)); - std::swap(z, x); + auto tmp = z; + z = x; + x = tmp; s += 64; } while (s != end); uint64_t mul = k1 + ((z & 0xff) << 1); @@ -559,12 +601,15 @@ uint64_t Hash64(const char s, size_t len) { z = Rotate(z + w.first, 33) mul; v = WeakHashLen32WithSeeds(s, v.second * mul, x + w.first); w = WeakHashLen32WithSeeds(s + 32, z + w.second, y + Fetch(s + 16)); - std::swap(z, x); + auto tmp = z; + z = x; + x = tmp; return HashLen16(HashLen16(v.first, w.first, mul) + ShiftMix(y) * k0 + z, HashLen16(v.second, w.second, mul) + x, mul); } +#ifndef DEVICE_MODIFIER uint64_t Hash64WithSeeds(const char s, size_t len, uint64_t seed0, uint64_t seed1); uint64_t Hash64WithSeed(const char s, size_t len, uint64_t seed) { @@ -574,7 +619,9 @@ uint64_t Hash64WithSeed(const char s, size_t len, uint64_t seed) { uint64_t Hash64WithSeeds(const char s, size_t len, uint64_t seed0, uint64_t seed1) { return HashLen16(Hash64(s, len) - seed0, seed1); } -} // namespace farmhashna +#endif // DEVICE_MODIFIER +} // namespace farmhashna_gpu +#ifndef DEVICE_MODIFIER namespace farmhashuo { #undef Fetch #define Fetch Fetch64 @@ -1864,8 +1911,10 @@ uint128_t Fingerprint128(const char* s, size_t len) { return CityHash128(s, len); } } // namespace farmhashcc -namespace NAMESPACE_FOR_HASH_FUNCTIONS { +#endif // DEVICE_MODIFIER +namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU { +#ifndef DEVICE_MODIFIER // BASIC STRING HASHING // Hash function for a byte array. See also Hash(), below. @@ -1948,12 +1997,14 @@ uint128_t Hash128WithSeed(const char* s, size_t len, uint128_t seed) { uint32_t Fingerprint32(const char* s, size_t len) { return farmhashmk::Hash32(s, len); } +#endif // DEVICE_MODIFIER // Fingerprint function for a byte array. -uint64_t Fingerprint64(const char* s, size_t len) { - return farmhashna::Hash64(s, len); +DEVICE_MODIFIER uint64_t Fingerprint64(const char* s, size_t len) { + return farmhashna_gpu::Hash64(s, len); } +#ifndef DEVICE_MODIFIER // Fingerprint function for a byte array. uint128_t Fingerprint128(const char* s, size_t len) { return farmhashcc::Fingerprint128(s, len); @@ -1961,9 +2012,11 @@ uint128_t Fingerprint128(const char* s, size_t len) { // Older and still available but perhaps not as fast as the above: // farmhashns::Hash32{,WithSeed}() +#endif // DEVICE_MODIFIER -} // namespace NAMESPACE_FOR_HASH_FUNCTIONS +} // namespace NAMESPACE_FOR_HASH_FUNCTIONS_GPU +#ifndef DEVICE_MODIFIER #if FARMHASHSELFTEST #ifndef FARMHASH_SELF_TEST_GUARD @@ -11829,3 +11882,5 @@ int main() { } #endif // FARMHASHSELFTEST +#endif // DEVICE_MODIFIER +#endif // FARM_HASH_GPU_H_ -- 2.17.1	Diff	4	EricRemmerswaal/tensorflow	third_party/farmhash/farmhash_support_cuda.patch	[ "Apache-2.0" ]
// deprecated doesn't currently support literals #[deprecated("since")] //~ ERROR E0565 fn f() { } fn main() { }	Rust	3	Eric-Arellano/rust	src/test/ui/error-codes/E0565-1.rs	[ "ECL-2.0", "Apache-2.0", "MIT-0", "MIT" ]
$TTL 300 @ 42 IN A 1.2.3.4	DNS Zone	2	IT-Sumpfling/dnscontrol	pkg/js/parse_tests/002-ttl/foo.com.zone	[ "MIT" ]
// Package system provides functions for reading values from the system. // // introduced: 0.18.0 // package system // time returns the current system time. // // ## Examples // // ### Return a stream of tables with the current system time // ``` // import "array" // import "system" // // array.from(rows:[{time: system.time()}]) // ``` // builtin time : () => time	FLUX	4	geropl/flux	stdlib/system/system.flux	[ "MIT" ]
% % A version of roundpage.ps that assumes a symmetric clipping path. Thanks % to Matthijs Melchior for the suggestion. % /roundpagebbox { pagebbox dup 0 get pagebbox 2 get add 2 exch put pagebbox dup 1 get pagebbox 3 get add 3 exch put pagebbox 0 0 put pagebbox 1 0 put } bind def	PostScript	4	newluhux/plan9port	src/cmd/postscript/psfiles/Nroundpage.ps	[ "MIT" ]
-- using default substitutions select l_orderkey, sum(l_extendedprice * (1 - l_discount)) as revenue, o_orderdate, o_shippriority from customer, orders, lineitem where c_mktsegment = 'BUILDING' and c_custkey = o_custkey and l_orderkey = o_orderkey and o_orderdate < date '1995-03-15' and l_shipdate > date '1995-03-15' group by l_orderkey, o_orderdate, o_shippriority order by revenue desc, o_orderdate limit 10	SQL	3	OlegPt/spark	sql/core/src/test/resources/tpch/q3.sql	[ "Apache-2.0" ]
// test for CSS and style related	JavaScript	0	pyrolabs/atom	spec/fixtures/git/repo-with-submodules/You-Dont-Need-jQuery/test/dom.spec.js	[ "MIT" ]
<http://www.w3.org/2013/TurtleTests/s> <http://www.w3.org/2013/TurtleTests/p> "string"@en-uk .	Turtle	0	joshrose/audacity	lib-src/lv2/serd/tests/TurtleTests/turtle-syntax-string-03.ttl	[ "CC-BY-3.0" ]
#! /bin/csh eval `scramv1 ru -csh` setenv GLBLREFDIR /afs/cern.ch/cms/data/CMSSW/Validation/GlobalRecHitss/data setenv LOCLREFDIR ${CMSSW_RELEASE_BASE}/src/Validation/GlobalRecHitss/data echo "============> Validating Global RecHits <============" echo "......producing output file with this release" if ( -e MessageLogger.log ) rm MessageLogger.log if ( -e output.log ) rm output.log if ( -e FrameworkJobReport.xml ) rm FrameworkJobReport.xml #comment out if RefPoolSource.cfi modified to use /afs location directly #cp ${GLBLREFDIR}/MC_010p2_minbias.root . cmsRun -p DetSim+Digi+Reco+Global.cfg >& output.log echo "......creating histogram file with this release" root -b -q MakeHistograms.C$\"GlobalRecHits.root\",\"GlobalRecHitsHistograms\"$ echo "......comparing against reference file from previous release" cp ${LOCLREFDIR}/GlobalRecHitsHistograms-reference.root . root -b -q MakeValidation.C$\"GlobalRecHitsHistograms.root\",\"GlobalRecHitsHistograms-reference.root\",\"GlobalRecHitsHistogramsCompare\"$ echo "......results of validation in GlobalRecHitsHistogramsCompare.ps" echo "============> Validating Global RecHits <============"	Tcsh	3	ckamtsikis/cmssw	Validation/GlobalRecHits/test/valid_global.csh	[ "Apache-2.0" ]
<div> <span>{$foo}</span> aaa </div>	Latte	1	arusinha/incubator-netbeans	php/php.latte/test/unit/data/testfiles/lexer/top/indent-issue.latte	[ "Apache-2.0" ]
-- script that retrieves an authentication token to send in all future requests -- keep this file and postJsonWithToken.lua in sync with respect to token handling -- use token for at most maxRequests, default throughout test local counter = 0 local maxRequests = -1 -- request access necessary for both reading and writing by default local username = "[email protected]" -- marker that we have completed the first request local token = nil function init(args) if args[1] ~= nil then maxRequests = args[1] print("Max requests: " .. maxRequests) end if args[2] ~= nil then username = args[2] end local path = "/token?username=" .. username -- initialize first (empty) request req = wrk.format("GET", path, nil, "") end function request() return req end function response(status, headers, body) if not token and status == 200 then token = body wrk.headers["Authorization"] = "Bearer " .. token req = wrk.format() return end if not token then print("Failed initial request! status: " .. status) wrk.thread:stop() end if counter == maxRequests then wrk.thread:stop() end counter = counter + 1 end	Lua	4	legistek/AspNetCore	src/Mvc/benchmarkapps/BasicApi/getWithToken.lua	[ "Apache-2.0" ]
(* Module: Bacula Parses: /etc/bacula/.conf Author: Domen Kožar <[email protected]> About: Reference This lens tries to be ... About: License This file is licenced under the LGPL v2+, like the rest of Augeas. About: Lens Usage See <lns>. About: Configuration files This lens applies to /etc/bacula/.conf. About: Examples The <test_bacula.aug> file contains various examples and tests. ) module Bacula = autoload xfm let indent = Util.del_opt_ws "\t" let equal = del /[ \t]=[ \t]/ " = " let key_name = /[a-zA-Z][a-zA-Z ]+[a-zA-Z]/ let val_quote = [square /"/ (store /([^"#]\|\\")+/)] let val = [label "" . store /[^}"#\n\t; ]([^}"#\n;][^}"#\n\t; ])?/] let keyvalue = key key_name . equal . (val\|val_quote) let include = label "@include" . Util.del_str "@" . store /[^# \t\n@};]+/ let semicolon = del /([ \t];)?/ "" let eol = del /[ \t](;\|(#[ \t])?\n)/ "\n" let comment_or_eol = Util.comment_eol \| eol let comment_or_semicolon = Util.comment_eol \| semicolon let line (sto:lens) = [ sto . comment_or_eol ] let line_noeol (sto:lens) = [ sto . comment_or_semicolon ] let rec block = let entry = Util.empty \| (indent . (line keyvalue \| line include \| block)) in let entry_noindent = line keyvalue \| line include \| block in let entry_noindent_noeol = line_noeol keyvalue \| line_noeol include \| block in let entry_noeol = indent . entry_noindent_noeol in [ label "@block" . store /[a-zA-Z]+/ . Build.block_generic entry ( entry ) entry_noindent ( entry_noindent ) entry_noeol ( entry_noeol ) entry_noindent_noeol ( entry_noindent_noeol ) Util.comment ( comment ) Util.comment_noindent ( comment_noindent ) /[ \t\n]\{[ \t\n]/ ( ldelim_re ) Build.block_rdelim_re ( rdelim_re ) " {\n\t" ( ldelim_default ) Build.block_rdelim_default ( rdelim_default ) ] let statement = Util.indent . (line keyvalue \| line include \| block) let lns = (statement\|Util.empty\|Util.comment) let filter = incl "/etc/bacula/.conf" . Util.stdexcl let xfm = transform lns filter ( TODO: put tests ) test (Bacula.line keyvalue) get "Name = kaki-sd\n" = {"Name" {"" = "kaki-sd"} } test (Bacula.line include) get "@/etc/foo.conf\n" = {"@include" = "/etc/foo.conf"} test (Bacula.line keyvalue) get "Name = kaki-sd;" = {"Name" {"" = "kaki-sd"} } test (Bacula.line include) get "@foobar ;" = {"@include" = "foobar"} test Bacula.lns get "Storage {\n Name = kaki-sd\n}" = {"@block" = "Storage" {"Name" {"" = "kaki-sd"} } } ( value can have quotes ) test Bacula.lns get "Storage {\n Name = \"kaki-sd\"\n}" = {"@block" = "Storage" {"Name" {"\"" = "kaki-sd"} } } ( whitespace in key ) test Bacula.lns get "Storage {\n Pid Directory = kaki sd\n}" = {"@block" = "Storage" {"Pid Directory" {"" = "kaki sd"} } } ( one char value ) test Bacula.lns get "Storage {\n Maximum Concurrent Jobs = 1\n}" = {"@block" = "Storage" {"Maximum Concurrent Jobs" {"" = "1"} } } ( semicolon ) test Bacula.lns get "Storage {\n Name = kaki-sd;\n}" = {"@block" = "Storage" {"Name" {"" = "kaki-sd"} } } ( inline comment ) test Bacula.lns get "Storage {\n Name = kaki-sd # just a comment\n}" = {"@block" = "Storage" {"Name" { "" = "kaki-sd" } { "#comment" = "just a comment"} } } ( comment as part of directive ) test Bacula.lns get "Storage {\n Name = kaki-sd\n # just a comment\n}" = {"@block" = "Storage" {"Name" { "" = "kaki-sd" } } { "#comment" = "just a comment"} } ( comment after } ) test Bacula.lns get "Storage {\n Name = kaki-sd\n}\n # just a comment\n" = {"@block" = "Storage" {"Name" { "" = "kaki-sd" } } } { } { "#comment" = "just a comment"} ( multiple values ) test Bacula.lns get "Storage {\n Name = kaki-sd\nFoo = moo\n}" = {"@block" = "Storage" {"Name" { "" = "kaki-sd" } } {"Foo" { "" = "moo" } } } ( toplevel key/value for include files ) test Bacula.lns get "Name = kaki-sd\nFoo = moo\n" = {"Name" { "" = "kaki-sd" } } {"Foo" { "" = "moo" } } ( escaping quotes in value ) test Bacula.lns get "Storage {\nName = \"foo \\" bar\"\n}" = {"@block" = "Storage" {"Name" { "\"" = "foo \\" bar" } } } ( newline comment ) test Bacula.lns get "Storage {\n Name = kaki-sd\n# just a comment\n}" = {"@block" = "Storage" {"Name" { "" = "kaki-sd" } } {"#comment" = "just a comment" } } ( include statements ) test Bacula.lns get "Storage {\n @/etc/foo.conf\n}" = {"@block" = "Storage" {"@include" = "/etc/foo.conf"} } test Bacula.lns get "Storage {\n Name = kaki-sd}" = {"@block" = "Storage" {"Name" { "" = "kaki-sd" } } } test Bacula.lns get "FileSet { Include { signature = SHA1 } }" = { "@block" = "FileSet" { "@block" = "Include" { "signature" { "" = "SHA1" } } } } test Bacula.lns get "FileSet { Name = \"DefaultSet\" Include { Options { signature = SHA1 noatime = yes } File = /etc } }" = {"@block" = "FileSet" { "Name" { "\"" = "DefaultSet" } } {"@block" = "Include" {"@block" = "Options" { "signature" { "" = "SHA1" } } { "noatime" { "" = "yes" } } } { } { "File" { "" = "/etc" } } } } ( include top level statements ) test Bacula.lns get "@/etc/foo.conf\n" = {"@include" = "/etc/foo.conf"} ( Blocks can follow each other without \n ) test Bacula.lns get "Storage{Name = kaki sd}Storage{Name = kaki-sd}" = { "@block" = "Storage" {"Name" { "" = "kaki sd" } } } { "@block" = "Storage" {"Name" { "" = "kaki-sd" } } } ( recursive directives *) test Bacula.lns get "FileSet { Include { signature = SHA1 } }" = { "@block" = "FileSet" { "@block" = "Include" { "signature" { "" = "SHA1" } } } }	Augeas	5	ajnavarro/language-dataset	data/github.com/domenkozar/augeas_bacula/3eabf328ad732aaec601a04d8a23654fa1995e78/bacula.aug	[ "MIT" ]
#!/bin/awk -f function abs(x) { return ((x < 0.0) ? -x : x); } # Set tab as a current separator. BEGIN { FS="\t" } # Record all values from the first file into array a. NR == FNR { for (i=1; i<=NF; i++) a[FNR][i]=$i; } # During parsing of the second file compare them with remembered # values using tolerance. NR != FNR { if($1 != a[FNR][1]) printf("Sequence key does not match: Baseline %s, Current %s\n", a[FNR][1], $1); for (i=2; i<=NF; i++) { if (abs($i - a[FNR][i]) >= 0.001 && (abs($i - a[FNR][i])/abs($i)) > 0.03) printf("Line %d, Field %d: Baseline = %f, Current = %f\n", NR, i, a[FNR][i], $i); } }	Awk	3	shyamalschandra/CNTK	Tests/EndToEndTests/Image/Base64Write/Comparator.awk	[ "MIT" ]
#include <cub/block/block_reduce.cuh> #include "caffe2/core/context_gpu.h" #include "caffe2/operators/reduce_front_back_max_ops.h" #if defined(USE_ROCM) #include <cfloat> #endif namespace caffe2 { /* Max Ops / namespace { __global__ void columnwise_max_kernel( const int rows, const int cols, const float data, const int* lengths, float* out) { typedef cub::BlockReduce<float, CAFFE_CUDA_NUM_THREADS> BlockReduce; __shared__ typename BlockReduce::TempStorage temp_storage; for (int colIndex = blockIdx.x; colIndex < cols; colIndex += gridDim.x) { float mx = FLT_MIN; const int length = lengths == nullptr ? rows : lengths[colIndex]; for (int rowIndex = threadIdx.x; rowIndex < length; rowIndex += blockDim.x) { mx = fmaxf(mx, data[rowIndex * cols + colIndex]); } mx = BlockReduce(temp_storage).Reduce(mx, cub::Max()); if (threadIdx.x == 0) { out[colIndex] = mx; } __syncthreads(); } } __global__ void rowwise_max_kernel( const int rows, const int cols, const float* data, const int* lengths, float* out) { typedef cub::BlockReduce<float, CAFFE_CUDA_NUM_THREADS> BlockReduce; __shared__ typename BlockReduce::TempStorage temp_storage; for (int rowIndex = blockIdx.x; rowIndex < rows; rowIndex += gridDim.x) { float mx = FLT_MIN; const int length = lengths == nullptr ? cols : lengths[rowIndex]; for (int colIndex = threadIdx.x; colIndex < length; colIndex += blockDim.x) { mx = fmaxf(mx, data[rowIndex * cols + colIndex]); } mx = BlockReduce(temp_storage).Reduce(mx, cub::Max()); if (threadIdx.x == 0) { out[rowIndex] = mx; } __syncthreads(); } } __global__ void columnwise_max_grad_kernel( const int rows, const int cols, const float* dYdata, const float* Xdata, const float* Ydata, const int* lengths, float* dXdata) { CUDA_1D_KERNEL_LOOP(i, rows * cols) { int col = i % cols; int row = i / cols; if (lengths != nullptr && row >= lengths[col]) { dXdata[i] = 0.0f; } else { dXdata[i] = (Xdata[i] == Ydata[col]) * dYdata[col]; } } } __global__ void rowwise_max_grad_kernel( const int rows, const int cols, const float* dYdata, const float* Xdata, const float* Ydata, const int* lengths, float* dXdata) { CUDA_1D_KERNEL_LOOP(i, rows * cols) { int col = i % cols; int row = i / cols; if (lengths != nullptr && col >= lengths[row]) { dXdata[i] = 0.0f; } else { dXdata[i] = (Xdata[i] == Ydata[row]) * dYdata[row]; } } } } // anonymous namespace // ReduceFrontmax template <> void MaxReduceDimsOp<float, CUDAContext, true>::Compute( int rows, int cols, const float* data, const int32_t* lengths_data, float* out_data) { columnwise_max_kernel<<< std::min(cols, CAFFE_MAXIMUM_NUM_BLOCKS), CAFFE_CUDA_NUM_THREADS, 0, context_.cuda_stream()>>>(rows, cols, data, lengths_data, out_data); C10_CUDA_KERNEL_LAUNCH_CHECK(); } // ReduceBackMax template <> void MaxReduceDimsOp<float, CUDAContext, false>::Compute( int rows, int cols, const float* data, const int32_t* lengths_data, float* out_data) { rowwise_max_kernel<<< std::min(rows, CAFFE_MAXIMUM_NUM_BLOCKS), CAFFE_CUDA_NUM_THREADS, 0, context_.cuda_stream()>>>(rows, cols, data, lengths_data, out_data); C10_CUDA_KERNEL_LAUNCH_CHECK(); } // ReduceFrontMaxGradient template <> void MaxReduceDimsGradientOp<float, CUDAContext, true>::Compute( int rows, int cols, const float* dYdata, const float* Xdata, const float* Ydata, const int32_t* lengths_data, float* dXdata) { columnwise_max_grad_kernel<<< CAFFE_GET_BLOCKS(rows * cols), CAFFE_CUDA_NUM_THREADS, 0, context_.cuda_stream()>>>( rows, cols, dYdata, Xdata, Ydata, lengths_data, dXdata); C10_CUDA_KERNEL_LAUNCH_CHECK(); } // ReduceBackMaxGradient template <> void MaxReduceDimsGradientOp<float, CUDAContext, false>::Compute( int rows, int cols, const float* dYdata, const float* Xdata, const float* Ydata, const int* lengths_data, float* dXdata) { rowwise_max_grad_kernel<<< CAFFE_GET_BLOCKS(rows * cols), CAFFE_CUDA_NUM_THREADS, 0, context_.cuda_stream()>>>( rows, cols, dYdata, Xdata, Ydata, lengths_data, dXdata); C10_CUDA_KERNEL_LAUNCH_CHECK(); } REGISTER_CUDA_OPERATOR( ReduceFrontMax, MaxReduceDimsOp<float, CUDAContext, true>); REGISTER_CUDA_OPERATOR( ReduceFrontMaxGradient, MaxReduceDimsGradientOp<float, CUDAContext, true>); REGISTER_CUDA_OPERATOR( ReduceBackMax, MaxReduceDimsOp<float, CUDAContext, false>); REGISTER_CUDA_OPERATOR( ReduceBackMaxGradient, MaxReduceDimsGradientOp<float, CUDAContext, false>); } // namespace caffe2	Cuda	3	sanchitintel/pytorch	caffe2/operators/reduce_front_back_max_ops.cu	[ "Intel" ]
""" def foo(a): return true if (a is null) return false """ def foo(a): return true if a is null return false	Boo	2	popcatalin81/boo	tests/testcases/parser/roundtrip/return-2.boo	[ "BSD-3-Clause" ]
// A singleline comment /* A multiline comment /* Nested multiline / / /proc/foo() for(var/turf/station/T in world) if(T.name == "floor") del(T) T.color = "red" /turf/station icon = 'station.dmi' icon_state = "wall" var/description = {" Multiline string "}	DM	2	vdrg/scc	examples/language/test.dm	[ "MIT", "Unlicense" ]
(print "Hy!")	Hy	0	josephwillard/hy	tests/resources/icmd_test_file.hy	[ "MIT" ]
#!/Users/gedge/src/github.com/nushell/nushell/target/debug/nu echo "done"	Nu	1	vorot93/nushell	tests/fixtures/formats/script.nu	[ "MIT" ]
####################### # HOSTNAME ###################### <VirtualHost 127.0.0.1:PORT> ServerAdmin [email protected] DocumentRoot "/var/www/HOSTNAME" ServerName HOSTNAME <Directory "/var/www/HOSTNAME"> Options Indexes MultiViews FollowSymLinks AllowOverride All Order allow,deny Allow from all DirectoryIndex index.php </Directory> </VirtualHost>	ApacheConf	3	JavascriptID/sourcerer-app	src/test/resources/samples/langs/ApacheConf/apache.vhost	[ "MIT" ]
from twisted.web import xmlrpc import os def getQuote(): return "What are you talking about, William?" class Quoter(xmlrpc.XMLRPC): def xmlrpc_quote(self): return getQuote() resource = Quoter()	Ren'Py	4	hawkowl/twisted	docs/web/howto/listings/xmlquote.rpy	[ "Unlicense", "MIT" ]
{i="count" $1 $2; print i , $0}	Logos	0	Crestwave/goawk	testdata/t.1.x	[ "MIT" ]
@document url("https://www.example.com/") { h1 { color: green } }	CSS	3	kitsonk/swc	css/parser/tests/fixture/esbuild/misc/S2Mhk5rU2YxQPgm9rtF9WA/input.css	[ "Apache-2.0", "MIT" ]
// Copyright 2020 The gRPC Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // Local copy of Envoy xDS proto file, used for testing only. syntax = "proto3"; package envoy.config.endpoint.v3; import "src/proto/grpc/testing/xds/v3/address.proto"; import "src/proto/grpc/testing/xds/v3/base.proto"; import "src/proto/grpc/testing/xds/v3/percent.proto"; import "google/protobuf/wrappers.proto"; // [#protodoc-title: Endpoints] // Endpoint health status. enum HealthStatus { // The health status is not known. This is interpreted by Envoy as HEALTHY. UNKNOWN = 0; // Healthy. HEALTHY = 1; // Unhealthy. UNHEALTHY = 2; // Connection draining in progress. E.g., // `<https://aws.amazon.com/blogs/aws/elb-connection-draining-remove-instances-from-service-with-care/>`_ // or // `<https://cloud.google.com/compute/docs/load-balancing/enabling-connection-draining>`_. // This is interpreted by Envoy as UNHEALTHY. DRAINING = 3; // Health check timed out. This is part of HDS and is interpreted by Envoy as // UNHEALTHY. TIMEOUT = 4; // Degraded. DEGRADED = 5; } // Upstream host identifier. message Endpoint { // The upstream host address. // // .. attention:: // // The form of host address depends on the given cluster type. For STATIC or EDS, // it is expected to be a direct IP address (or something resolvable by the // specified :ref:`resolver <envoy_api_field_config.core.v3.SocketAddress.resolver_name>` // in the Address). For LOGICAL or STRICT DNS, it is expected to be hostname, // and will be resolved via DNS. core.v3.Address address = 1; } // An Endpoint that Envoy can route traffic to. // [#next-free-field: 6] message LbEndpoint { // Upstream host identifier or a named reference. oneof host_identifier { Endpoint endpoint = 1; } // Optional health status when known and supplied by EDS server. HealthStatus health_status = 2; // The optional load balancing weight of the upstream host; at least 1. // Envoy uses the load balancing weight in some of the built in load // balancers. The load balancing weight for an endpoint is divided by the sum // of the weights of all endpoints in the endpoint's locality to produce a // percentage of traffic for the endpoint. This percentage is then further // weighted by the endpoint's locality's load balancing weight from // LocalityLbEndpoints. If unspecified, each host is presumed to have equal // weight in a locality. The sum of the weights of all endpoints in the // endpoint's locality must not exceed uint32_t maximal value (4294967295). google.protobuf.UInt32Value load_balancing_weight = 4; } // A group of endpoints belonging to a Locality. // One can have multiple LocalityLbEndpoints for a locality, but this is // generally only done if the different groups need to have different load // balancing weights or different priorities. // [#next-free-field: 7] message LocalityLbEndpoints { // Identifies location of where the upstream hosts run. core.v3.Locality locality = 1; // The group of endpoints belonging to the locality specified. repeated LbEndpoint lb_endpoints = 2; // Optional: Per priority/region/zone/sub_zone weight; at least 1. The load // balancing weight for a locality is divided by the sum of the weights of all // localities at the same priority level to produce the effective percentage // of traffic for the locality. The sum of the weights of all localities at // the same priority level must not exceed uint32_t maximal value (4294967295). // // Locality weights are only considered when :ref:`locality weighted load // balancing <arch_overview_load_balancing_locality_weighted_lb>` is // configured. These weights are ignored otherwise. If no weights are // specified when locality weighted load balancing is enabled, the locality is // assigned no load. google.protobuf.UInt32Value load_balancing_weight = 3; // Optional: the priority for this LocalityLbEndpoints. If unspecified this will // default to the highest priority (0). // // Under usual circumstances, Envoy will only select endpoints for the highest // priority (0). In the event all endpoints for a particular priority are // unavailable/unhealthy, Envoy will fail over to selecting endpoints for the // next highest priority group. // // Priorities should range from 0 (highest) to N (lowest) without skipping. uint32 priority = 5; } // [#protodoc-title: Endpoint configuration] // Endpoint discovery :ref:`architecture overview <arch_overview_service_discovery_types_eds>` // Each route from RDS will map to a single cluster or traffic split across // clusters using weights expressed in the RDS WeightedCluster. // // With EDS, each cluster is treated independently from a LB perspective, with // LB taking place between the Localities within a cluster and at a finer // granularity between the hosts within a locality. The percentage of traffic // for each endpoint is determined by both its load_balancing_weight, and the // load_balancing_weight of its locality. First, a locality will be selected, // then an endpoint within that locality will be chose based on its weight. // [#next-free-field: 6] message ClusterLoadAssignment { // Load balancing policy settings. // [#next-free-field: 6] message Policy { message DropOverload { // Identifier for the policy specifying the drop. string category = 1; // Percentage of traffic that should be dropped for the category. type.v3.FractionalPercent drop_percentage = 2; } // Action to trim the overall incoming traffic to protect the upstream // hosts. This action allows protection in case the hosts are unable to // recover from an outage, or unable to autoscale or unable to handle // incoming traffic volume for any reason. // // At the client each category is applied one after the other to generate // the 'actual' drop percentage on all outgoing traffic. For example: // // .. code-block:: json // // { "drop_overloads": [ // { "category": "throttle", "drop_percentage": 60 } // { "category": "lb", "drop_percentage": 50 } // ]} // // The actual drop percentages applied to the traffic at the clients will be // "throttle"_drop = 60% // "lb"_drop = 20% // 50% of the remaining 'actual' load, which is 40%. // actual_outgoing_load = 20% // remaining after applying all categories. repeated DropOverload drop_overloads = 2; } // Name of the cluster. This will be the :ref:`service_name // <envoy_api_field_config.cluster.v3.Cluster.EdsClusterConfig.service_name>` value if specified // in the cluster :ref:`EdsClusterConfig // <envoy_api_msg_config.cluster.v3.Cluster.EdsClusterConfig>`. string cluster_name = 1; // List of endpoints to load balance to. repeated LocalityLbEndpoints endpoints = 2; // Load balancing policy settings. Policy policy = 4; }	Protocol Buffer	5	warlock135/grpc	src/proto/grpc/testing/xds/v3/endpoint.proto	[ "Apache-2.0" ]
exec >&2 # any output we produce is a log message no_simple= no_debian= no_runlocal= no_runkvm= no_docker= if ! ./need.sh ldd; then echo "skipping simple image." no_simple=1 fi if ! ./need.sh debootstrap eatmydata; then echo "skipping debian image." no_debian=1 fi if ! ./need.sh cpio; then echo "skipping tarball generation." no_image=1 fi if ! ./need.sh fakeroot fakechroot \|\| ! ./try_fakeroot.sh "x" true 2>/dev/null; then echo "skipping chroot test." no_runlocal=1 echo "skipping debian image." no_debian=1 fi if ! ./need.sh unshare \|\| ! unshare -r true 2>/dev/null; then echo " -- 'unshare -r' command doesn't work." echo "skipping chroot test." no_runlocal=1 fi if ! ./need.sh busybox kvm cpio; then echo "skipping kvm test." no_runkvm=1 fi kernel="/boot/vmlinuz-$(uname -r)" if ! [ -e "$kernel" ]; then echo " -- missing kernel: $kernel" echo "skipping kvm test." no_runkvm=1 fi if ! ./need.sh docker cpio \|\| ! docker images >/dev/null; then echo "skipping docker test." no_docker=1 fi if [ -n "$NO_SLOW_TESTS" ]; then echo " -- NO_SLOW_TESTS is set." echo "skipping debian image." no_debian=1 # TODO(apenwarr): docker test isn't "slow" exactly, but error prone. # It might not work correctly on modern versions of docker. # Until we resolve this, just disable it from a toplevel 'redo test', # which sets NO_SLOW_TESTS. echo "skipping docker test." no_docker=1 fi add() { targets="$targets $"; } [ -z "$no_simple$no_image" ] && add simple.image.gz [ -z "$no_simple$no_runlocal" ] && add libs.runlocal [ -z "$no_simple$no_runkvm" ] && add libs.runkvm [ -z "$no_simple$no_docker" ] && add simple.rundocker [ -z "$no_debian$no_image" ] && add debian.image [ -z "$no_debian$no_runlocal" ] && add debian.runlocal [ -z "$no_debian$no_runkvm" ] && add debian.runkvm [ -z "$no_debian$no_docker" ] && add debian.rundocker redo-ifchange $targets check() { label=$1 shift printf "checking %-18s %-35s " "$label:" "$" >&2 if test "$@"; then printf "ok\n" >&2 else printf "failed\n" >&2 fi } hellocheck() { check "$1" "$(cat "$1")" = "Hello, world!" } debcheck() { check "$1" "$(cat "$1")" -ge "70" check "$1" "$(cat "$1")" -le "100" } if [ -z "$no_simple" ]; then [ -n "$no_runlocal" ] \|\| hellocheck libs.runlocal [ -n "$no_runkvm" ] \|\| hellocheck libs.runkvm [ -n "$no_docker" ] \|\| hellocheck simple.rundocker fi if [ -z "$no_debian" ]; then [ -n "$no_runlocal" ] \|\| debcheck debian.runlocal [ -n "$no_runkvm" ] \|\| debcheck debian.runkvm [ -n "$no_docker" ] \|\| debcheck debian.rundocker fi	Stata	3	BlameJohnny/redo	docs/cookbook/container/all.do	[ "Apache-2.0" ]
/** * @brief Implements USB Device standard requests * @author Ross Owen, XMOS Limited / #include "xud.h" / XUD Functions and defines / #include "usb_device.h" / Defines related to the USB 2.0 Spec / #include "usb_std_descriptors.h" #include <string.h> #include <xs1.h> #include <print.h> #ifndef MAX_INTS / Maximum number of interfaces supported / #define MAX_INTS 16 #endif #ifndef MAX_EPS / Maximum number of EP's supported / #define MAX_EPS XUD_MAX_NUM_EP #endif unsigned char g_currentConfig = 0; unsigned char g_interfaceAlt[MAX_INTS]; / Global endpoint status arrays / unsigned short g_epStatusOut[MAX_EPS]; unsigned short g_epStatusIn[MAX_EPS]; #pragma unsafe arrays XUD_Result_t USB_GetSetupPacket(XUD_ep ep_out, XUD_ep ep_in, USB_SetupPacket_t &sp) { unsigned char sbuffer[120]; unsigned length; XUD_Result_t result; if((result = XUD_GetSetupBuffer(ep_out, sbuffer, length)) != XUD_RES_OKAY) { return result; } / Parse data buffer end populate SetupPacket struct / USB_ParseSetupPacket(sbuffer, sp); / Return 0 for success / return result; } / Used when setting/clearing EP halt / int SetEndpointHalt(unsigned epNum, unsigned halt) { / Inspect for IN bit / if(epNum & 0x80) { / Range check / if((epNum&0x7F) < MAX_EPS) { g_epStatusIn[epNum & 0x7F] = halt; if(halt) XUD_SetStallByAddr(epNum); else XUD_ClearStallByAddr(epNum); return 0; } } else { if(epNum < MAX_EPS) { g_epStatusOut[epNum] = halt; if(halt) XUD_SetStallByAddr(epNum); else XUD_ClearStallByAddr(epNum); return 0; } } return 1; } #pragma unsafe arrays XUD_Result_t USB_StandardRequests(XUD_ep ep_out, XUD_ep ep_in, NULLABLE_ARRAY_OF(unsigned char, devDesc_hs), int devDescLength_hs, NULLABLE_ARRAY_OF(unsigned char, cfgDesc_hs), int cfgDescLength_hs, NULLABLE_ARRAY_OF(unsigned char, devDesc_fs), int devDescLength_fs, NULLABLE_ARRAY_OF(unsigned char, cfgDesc_fs), int cfgDescLength_fs, char unsafe strDescs[], int strDescsLength, USB_SetupPacket_t &sp, XUD_BusSpeed_t usbBusSpeed) { /* Return value / int datalength; int stringID = 0; / Buffer for Setup data / unsigned char buffer[120]; / Stick bmRequest type back together for an easier parse... / unsigned bmRequestType = (sp.bmRequestType.Direction<<7) \| (sp.bmRequestType.Type<<5) \| (sp.bmRequestType.Recipient); switch(bmRequestType) { / Standard Device Requests - To Device / case USB_BMREQ_H2D_STANDARD_DEV: / Inspect for actual request / switch(sp.bRequest) { / Standard Device Request: ClearFeature (USB Spec 9.4.1) / case USB_CLEAR_FEATURE: / Device Features than could potenially be cleared are as follows (See Figure 9-4) * Self Powered: Cannot be changed by SetFeature() or ClearFeature() * Remote Wakeup: Indicates if the device is currently enabled to request remote wakeup. by default not implemented / break; / Standard Device Request: Set Address (USB spec 9.6.4) / / This is a unique request since the operation is not completed until after the status stage / case USB_SET_ADDRESS: if((sp.wValue < 128) && (sp.wIndex == 0) && (sp.wLength == 0)) { XUD_Result_t result; / Status stage: Send a zero length packet / if((result = XUD_DoSetRequestStatus(ep_in)) != XUD_RES_OKAY) { return result; } / Note: Really we should wait until ACK is received for status stage before changing address * We will just wait some time... / { timer t; unsigned time; t :> time; t when timerafter(time+50000) :> void; } / Set the device address in XUD / return XUD_SetDevAddr(sp.wValue); } break; / Standard Device Request: SetConfiguration (USB Spec 9.4.7) / case USB_SET_CONFIGURATION: if((sp.wLength == 0) && (sp.wIndex == 0)) { / We can ignore sp.Direction if sp.wLength is 0. See USB Spec 9.3.1 / / USB 2.0 Spec 9.1.1.5 states that configuring a device should cause all * the status and configuration values associated with the endpoints in the * affected interfaces to be set to their default values. This includes setting * the data toggle of any endpoint using data toggles to the value DATA0 / / Note: currently assume all EP's related to config (apart from 0) / for(unsigned i = 1; i < XUD_MAX_NUM_EP_IN; i++) { XUD_ResetEpStateByAddr(i \| 0x80 ); } for(unsigned i = 1; i < XUD_MAX_NUM_EP_OUT; i++) { XUD_ResetEpStateByAddr(i); } / Update global configuration value * Note alot of devices maye wish to implement features here since this * request indicates the device being placed into its "Configured" state * i.e. the host has accepted the device / g_currentConfig = sp.wValue; / No data stage for this request, just do status stage / return XUD_DoSetRequestStatus(ep_in); } break; / Standard Device Request: SetDescriptor (USB Spec 9.4.8) / case USB_SET_DESCRIPTOR: / Optional request for updating or adding new descriptors / / Not implemented by default / break; / Standard Device Request: SetFeature (USB Spec 9.4.9) / case USB_SET_FEATURE: if((sp.wValue == USB_TEST_MODE) && (sp.wLength == 0)) { / Inspect for Test Selector (high byte of wIndex, lower byte must be zero) / switch(sp.wIndex) { case USB_WINDEX_TEST_J: case USB_WINDEX_TEST_K: case USB_WINDEX_TEST_SE0_NAK: case USB_WINDEX_TEST_PACKET: case USB_WINDEX_TEST_FORCE_ENABLE: { XUD_Result_t result; if((result = XUD_DoSetRequestStatus(ep_in)) != XUD_RES_OKAY) return result; XUD_SetTestMode(ep_out, sp.wIndex); } break; } } break; } break; / Standard Device Requests - To Host / case USB_BMREQ_D2H_STANDARD_DEV: switch(sp.bRequest) { / Standard Device Request: GetStatus (USB Spec 9.4.5)/ case USB_GET_STATUS: / Remote wakeup not supported / buffer[1] = 0; / Pull self/bus powered bit from the config descriptor / if (cfgDesc_hs[7] & 0x40) buffer[0] = 0x1; else buffer[0] = 0; return XUD_DoGetRequest(ep_out, ep_in, buffer, 2, sp.wLength); / Standard Device Request: GetConfiguration (USB Spec 9.4.2) / case USB_GET_CONFIGURATION: / Return the current configuration of the device / if((sp.wValue == 0) && (sp.wIndex == 0) && (sp.wLength == 1)) { buffer[0] = (char)g_currentConfig; return XUD_DoGetRequest(ep_out, ep_in, buffer, 1, sp.wLength); } break; / Standard Device Request: GetDescriptor (USB Spec 9.4.3)/ case USB_GET_DESCRIPTOR: / Inspect for which Type of descriptor is required (high byte of wValue) / switch(sp.wValue & 0xff00) { / Device descriptor / case (USB_DESCTYPE_DEVICE << 8): / Currently only 1 device descriptor supported / if((sp.wValue & 0xff) == 0) { if((usbBusSpeed == XUD_SPEED_FS) && (devDescLength_fs != 0)) { / Return full-speed device descriptor / return XUD_DoGetRequest(ep_out, ep_in, devDesc_fs, devDescLength_fs, sp.wLength); } else if(devDescLength_hs != 0) { / Return high-speed device descriptor, if no FS desc, send the HS desc / / Do get request (send descriptor then 0 length status stage) / return XUD_DoGetRequest(ep_out, ep_in, devDesc_hs, devDescLength_hs, sp.wLength); } } break; / Configuration Descriptor / case (USB_DESCTYPE_CONFIGURATION << 8): / Currently only 1 configuration descriptor supported / / TODO We currently return the same for all configs / //if((sp.wValue & 0xff) == 0) { if((usbBusSpeed == XUD_SPEED_FS) && (cfgDescLength_fs != 0)) { / Return full-speed configuration descriptor / cfgDesc_fs[1] = USB_DESCTYPE_CONFIGURATION; return XUD_DoGetRequest(ep_out, ep_in, cfgDesc_fs, cfgDescLength_fs, sp.wLength); } else if(cfgDescLength_hs != 0) { / Do get request (send descriptor then 0 length status stage) / cfgDesc_hs[1] = USB_DESCTYPE_CONFIGURATION; return XUD_DoGetRequest(ep_out, ep_in, cfgDesc_hs, cfgDescLength_hs, sp.wLength); } } break; / Device qualifier descriptor / case (USB_DESCTYPE_DEVICE_QUALIFIER << 8): if((sp.wValue & 0xff) == 0) { / Build a device qualifer descriptor from the device descriptor / unsigned char devQualDesc[10]; if((usbBusSpeed == XUD_SPEED_HS) && (devDescLength_fs != 0)) { / Create devQual from FS Device Descriptor/ devQualDesc[0] = 10; / 0 bLength / devQualDesc[1] = USB_DESCTYPE_DEVICE_QUALIFIER; / 1 bDescriptorType / devQualDesc[2] = devDesc_fs[2]; devQualDesc[3] = devDesc_fs[3]; devQualDesc[4] = devDesc_fs[4]; devQualDesc[5] = devDesc_fs[5]; devQualDesc[6] = devDesc_fs[6]; devQualDesc[7] = devDesc_fs[7]; devQualDesc[8] = devDesc_fs[17]; / 8 bNumConfigurations / devQualDesc[9] = 0; / Do get request (send descriptor then 0 length status stage) / return XUD_DoGetRequest(ep_out, ep_in, devQualDesc, 10, sp.wLength); } else if(devDescLength_hs != 0) { / Running in FS so create devQual from HS Device Descriptor / devQualDesc[0] = 10; / 0 bLength / devQualDesc[1] = USB_DESCTYPE_DEVICE_QUALIFIER; / 1 bDescriptorType / devQualDesc[2] = devDesc_hs[2]; devQualDesc[3] = devDesc_hs[3]; devQualDesc[4] = devDesc_hs[4]; devQualDesc[5] = devDesc_hs[5]; devQualDesc[6] = devDesc_hs[6]; devQualDesc[7] = devDesc_hs[7]; devQualDesc[8] = devDesc_hs[17]; / 8 bNumConfigurations / devQualDesc[9] = 0; / Do get request (send descriptor then 0 length status stage) / return XUD_DoGetRequest(ep_out, ep_in, devQualDesc, 10, sp.wLength); } / Not handled if devDescLength_hs == 0 and running in full-speed. * This should result in a STALL as per USB spec / } break; / Other Speed Configuration Descriptor / case (USB_DESCTYPE_OTHER_SPEED << 8): / Accepts any configuration number / //if((sp.wValue & 0xff) == 0) { if((usbBusSpeed == XUD_SPEED_HS) && (cfgDescLength_fs != 0)) { cfgDesc_fs[1] = USB_DESCTYPE_OTHER_SPEED; return XUD_DoGetRequest(ep_out, ep_in, cfgDesc_fs, cfgDescLength_fs, sp.wLength); } else if(cfgDescLength_hs != 0) { cfgDesc_hs[1] = USB_DESCTYPE_OTHER_SPEED; return XUD_DoGetRequest(ep_out, ep_in, cfgDesc_hs, cfgDescLength_hs, sp.wLength); } / Not handled if cfgDescLength_hs == 0 and running in full-speed. * This should result in a STALL as per USB spec / } break; / String Descriptor / case (USB_DESCTYPE_STRING << 8): / Set descriptor type / buffer[1] = USB_DESCTYPE_STRING; / Send the string that was requested (low byte of wValue) / / First, generate valid descriptor from string / stringID = sp.wValue & 0xff; / String table bounds check / if(stringID < strDescsLength) { unsafe { datalength = strlen((char)strDescs[stringID]); /* String 0 (LangIDs) is a special case/ if( stringID == 0 ) { buffer[0] = datalength + 2; if( sp.wLength < datalength + 2 ) { datalength = sp.wLength - 2; } for(int i = 0; i < datalength; i += 1 ) { buffer[i+2] = strDescs[stringID][i]; } } else { / Datalength = 2 due to unicode / datalength <<= 1; /* Set data length in descriptor (+2 due to 2 byte datalength)/ buffer[0] = datalength + 2; if(sp.wLength < datalength + 2) { datalength = sp.wLength - 2; } / Add zero bytes for unicode.. / for(int i = 0; i < datalength; i+=2) { buffer[i+2] = strDescs[ stringID ][i>>1]; buffer[i+3] = 0; } } } / Send back string / return XUD_DoGetRequest(ep_out, ep_in, buffer, datalength + 2, sp.wLength); } / if(stringID < stringDescs_length) / break; } break; } //switch(sp.bRequest) break; / Direction: Host-to-device * Type: Standard * Recipient: Interface / case USB_BMREQ_H2D_STANDARD_INT: switch(sp.bRequest) { / Standard Interface Request: SetInterface (USB Spec 9.4.10) / case USB_SET_INTERFACE: / Note it is likely that a lot of devices will over-ride this request in their endpoint 0 code * For example, in an audio device this request would show the intent of the host to start streaming / if(sp.wLength == 0) { int numInterfaces = 0; / Pull number of interfaces from the Configuration Descriptor / if((usbBusSpeed == XUD_SPEED_FS) && (cfgDescLength_fs != 0)) { numInterfaces = cfgDesc_fs[4]; } else if(cfgDescLength_hs != 0) { numInterfaces = cfgDesc_hs[4]; } / Record interface change / if((sp.wIndex < numInterfaces) && (sp.wIndex < MAX_INTS)) { / Note here we assume the host has given us a valid Alternate setting * It is hard for use to have a generic check for this here (without parsing the descriptors) * If more robust checking is required this should be done in the endpoint 0 implementation / g_interfaceAlt[sp.wIndex] = sp.wValue; } / No data stage for this request, just do data stage / return XUD_DoSetRequestStatus(ep_in); } break; } break; / Direction: Device-to-host * Type: Standard * Recipient: Interface / case USB_BMREQ_D2H_STANDARD_INT: switch(sp.bRequest) { case USB_GET_INTERFACE: if((sp.wValue == 0) && (sp.wLength == 1)) { int numInterfaces = 0; / Pull number of interfaces from the Configuration Descriptor / if((usbBusSpeed == XUD_SPEED_FS) && (cfgDescLength_fs != 0)) { numInterfaces = cfgDesc_fs[4]; } else if(cfgDescLength_hs != 0) { numInterfaces = cfgDesc_hs[4]; } if((sp.wIndex < numInterfaces) && (sp.wIndex < MAX_INTS)) { buffer[0] = g_interfaceAlt[sp.wIndex]; return XUD_DoGetRequest(ep_out, ep_in, buffer, 1, sp.wLength); } } break; } break; / Direction: Host-to-device * Type: Standard * Recipient: Endpoint / case USB_BMREQ_H2D_STANDARD_EP: switch(sp.bRequest) { / Standard Endpoint Request: SetFeature (USB Spec 9.4.9) / case USB_SET_FEATURE: if(sp.wLength == 0) { / The only Endpoint feature selector is HALT (bit 0) see figure 9-6 / if(sp.wValue == USB_ENDPOINT_HALT) { / Returns 0 on non-error / if(!SetEndpointHalt(sp.wIndex, 1)) { return XUD_DoSetRequestStatus(ep_in); } } } break; / Standard Endpoint Request: ClearFeature (USB Spec 9.4.1) / case USB_CLEAR_FEATURE: if(sp.wLength == 0) { / The only feature selector for Endpoint is ENDPOINT_HALT / if(sp.wValue == USB_ENDPOINT_HALT) { / Returns 0 on non-error / if(!SetEndpointHalt(sp.wIndex, 0)) { return XUD_DoSetRequestStatus(ep_in); } } } break; } break; / Direction: Host-to-device * Type: Standard * Recipient: Endpoint / case USB_BMREQ_D2H_STANDARD_EP: switch(sp.bRequest) { / Standard Endpoint Request: GetStatus (USB Spec 9.4.5) / case USB_GET_STATUS: / Note: The only status for an EP is Halt (bit 0) / / Note: Without parsing the descriptors we don't know how many endpoints the device has... / if((sp.wValue == 0) && (sp.wLength == 2)) { buffer[0] = 0; buffer[1] = 0; if( sp.wIndex & 0x80 ) { / IN Endpoint / if((sp.wIndex&0x7f) < MAX_EPS) { buffer[0] = ( g_epStatusIn[ sp.wIndex & 0x7F ] & 0xff ); buffer[1] = ( g_epStatusIn[ sp.wIndex & 0x7F ] >> 8 ); return XUD_DoGetRequest(ep_out, ep_in, buffer, 2, sp.wLength); } } else { / OUT Endpoint / if(sp.wIndex < MAX_EPS) { buffer[0] = ( g_epStatusOut[ sp.wIndex ] & 0xff ); buffer[1] = ( g_epStatusOut[ sp.wIndex ] >> 8 ); return XUD_DoGetRequest(ep_out, ep_in, buffer, 2, sp.wLength); } } } break; } break; } //switch(bmRequestType) / If we get this far we did not handle request - Protocol Stall Secion 8.4.5 of USB 2.0 spec * Detailed in Section 8.5.3. Protocol stall is unique to control pipes. * Protocol stall differs from functional stall in meaning and duration. * A protocol STALL is returned during the Data or Status stage of a control * transfer, and the STALL condition terminates at the beginning of the * next control transfer (Setup). The remainder of this section refers to * the general case of a functional stall */ XUD_SetStall(ep_out); XUD_SetStall(ep_in); return XUD_RES_ERR; }	XC	5	simongapp/xmos_usb_mems_interface	01Firmware/PDM_USB/module_usb_device/src/usb_device.xc	[ "Unlicense" ]
Version 3/210228 of Vorple Status Line (for Glulx only) by Juhana Leinonen begins here. "The Vorple version of the standard status line." Use authorial modesty. Include version 3 of Vorple Screen Effects by Juhana Leinonen. Include version 3 of Vorple Element Manipulation by Juhana Leinonen. Use full-width status line translates as (- Constant VORPLE_STATUS_LINE_FULL_WIDTH; -). Chapter 1 - Constructing the status line Left hand Vorple status line, middle Vorple status line, right hand Vorple status line and mobile Vorple status line are text that varies. The left hand Vorple status line is usually " [left hand status line]". The right hand Vorple status line is usually "[right hand status line] ". The mobile Vorple status line is usually "[if the Vorple status line size is 1][middle Vorple status line][otherwise][left hand status line][end if]". [don't change this number directly – internal use only] The Vorple status line size is a number that varies. The Vorple status line size is 0. Constructing the Vorple status line is an activity. To construct the/a/-- Vorple status line with (column count - number) column/columns: if column count > 3 or column count < 0: throw Vorple run-time error "Vorple Status Line: status line must have exactly 1, 2 or 3 columns, [column count] requested"; rule fails; now Vorple status line size is column count; remove the Vorple status line; place an element called "status-line-container" at the top level; if the full-width status line option is active: execute JavaScript command "$('.status-line-container').prependTo('main#vorple')"; otherwise: execute JavaScript command "$('.status-line-container').prependTo('#output')"; set output focus to element called "status-line-container"; if column count is greater than 1: place a block level element called "status-line-left col-xs lg-only"; if column count is not 2: place a block level element called "status-line-middle col-xs lg-only"; if column count is greater than 1: place a block level element called "status-line-right col-xs lg-only"; place a block level element called "status-line-mobile col-xs sm-only"; set output focus to the main window. Last rule for constructing the Vorple status line (this is the default Vorple status line rule): if Vorple status line size is greater than 1: display text left hand Vorple status line in the element called "status-line-left"; if Vorple status line size is not 2: display text middle Vorple status line in the element called "status-line-middle"; if Vorple status line size is greater than 1: display text right hand Vorple status line in the element called "status-line-right"; display text mobile Vorple status line in the element called "status-line-mobile"; make no decision. To refresh the/-- Vorple status line: if Vorple is supported and the Vorple status line size > 0: save the internal state of line breaks; carry out the constructing the Vorple status line activity; restore the internal state of line breaks. To remove the/-- Vorple status line: remove the element called "status-line-container". To clear the/-- Vorple status line: execute JavaScript command "$('.status-line-container').children().empty()". A Vorple interface update rule (this is the refresh Vorple status line rule): refresh the Vorple status line. Vorple Status Line ends here. ---- DOCUMENTATION ---- By default Vorple doesn't show the standard Glulx status line that you'd see in a traditional non-Vorple interpreter. This extension re-adds the status line feature, with some extra functionality. Chapter: Constructing the status line The Vorple status line can have either 1, 2 or 3 columns. The status line is created by calling the phrase "construct the Vorple status line with N columns" where N is the number of required columns. : When play begins: construct the Vorple status line with 2 columns. The contents of the status line are determined by variables called left hand Vorple status line, middle Vorple status line, right hand Vorple status line and mobile Vorple status line. The default contents of left and right hand columns are the same as the contents of the Glulx status line, and the middle column is empty (except in the 1-column status line, where the middle column has the contents of the Glulx left hand status line). The following example creates a 3-column status line with different content in each column. : The left hand Vorple status line is "You are: [the printed name of the player]". The middle Vorple status line is "Location: [the player's surroundings]". The right hand Vorple status line is "Time: [time of day]". When play begins: construct the Vorple status line with 3 columns. (Note that instead of 'location' it's better to use 'the player's surroundings' because it'll print 'in darkness' instead when there's no light in the room, or the container's name if the player is inside an opaque container.) Column contents can also be changed during the play with "now the left hand Vorple status line is ..." and so on. When the status line is constructed with 1 column, only the middle column is shown. When constructed with 2 columns, only left and right hand columns are shown. The contents of the columns are automatically aligned left in the left hand column, centered in the middle column and aligned right in the right hand column. The columns of the standard Glulx status line have a fixed height. The Vorple status line adapts its height to its contents, so any text that doesn't fit in a column automatically wraps to a new line. Each column takes an equal amount of space on the screen, so a 2-column status line's columns both occupy half the width and 3 columns take one third each. The status line can be removed at any point with: remove the Vorple status line; After removing the status line it can be recreated with the "construct the status line" phrase. Changing the amount of columns is also possible by constructing the status line with a new column count. We can also remove the contents of the status line with clear the Vorple status line; which removes the contents but leaves the columns in place, but that's useful only in custom status line construction rules because the default status line construction rule will just fill the columns again at the end of the turn. Chapter: Mobile status line If the browser screen is 568 pixels wide or smaller, the usual status line columns are replaced with a special mobile status line. The idea is to automatically reduce two and three column status lines to just one so that individual columns don't become too narrow on small screens. The contents of the mobile status line can be changed by setting the value of "mobile Vorple status line". The default content is the same as the left hand Vorple status line, except when the status line is constructed with 1 column. In that case the default content is the same as the column that is shown in the wide view (middle Vorple status line.) Here we'll set the mobile status line to all three columns separated by slashes. This works well when the columns have very short content. : The mobile Vorple status line is "[left hand Vorple status line] / [middle Vorple status line] / [right hand Vorple status line]". When there content is longer it's often better to place the columns on top of each other, or just omit the less important information. : The mobile Vorple status line is "[left hand Vorple status line][line break][middle Vorple status line][line break][right hand Vorple status line]". We can test the mobile status line by resizing the browser window. The mobile status line toggles automatically when the screen width crosses the 568 pixel limit. Chapter: Using together with the standard status line The Vorple left hand and right hand status lines are initially defined to have the same content as the standard Glulx status line (which you see in non-Vorple interpreters). The extension initializes the status line contents with this code: The left hand Vorple status line is usually " [left hand status line]". The right hand Vorple status line is usually "[right hand status line] ". If left as is, changing the "left hand status line" and "right hand status line" variables will change both the Vorple status line and the Glulx status line. Changing the Vorple status line variables to something else will break this connection. The Glulx right hand status line has a character limit of 14 characters. Vorple doesn't have this limitation, but if the same content is used for both status lines, the right hand should be limited to 14 characters. Chapter: Manually refreshing the status line The status line is automatically refreshed to show current information at the end of each turn. Sometimes we might want to refresh manually, for example when waiting for a keypress or an answer to a yes/no question. It can be done with: follow the refresh Vorple status line rule; Chapter: Custom status line construction rules An activity called "constructing the Vorple status line" is responsible for updating the status line. The default rule creates the status line as described earlier, but it any custom rules can be added to the activity. The example "Petting Zoo" below shows an example of how that can be done. Adding 'rule succeeds' at the end will block the default rule from running (which would usually otherwise overwrite whatever the custom rule has done.) For the purposes of adding content to the status line columns, the elements are named "status-line-left", "status-line-middle", "status-line-right" and "status-line-mobile". The entire status line is called "status-line-container". Chapter: Styling the status line By default the status line is as wide as the column that displays the story text. The status line can be made to span the entire screen width with the "full-width status line" option: : Use full-width status line. CSS can be used to style the status line in virtually any fashion. For example, the following CSS rule changes the line below the status line from double lines to a single line and makes the background light blue: .status-line-container { border-bottom: 1px solid; background-color: #ddddff; } The relevant CSS classes are "status-line-container", "status-line-left", "status-line-middle", "status-line-righ" and "status-line-mobile", as described in the previous chapter. See the Vorple documentation at vorple-if.com for more information about CSS. Example: ** Petting Zoo - An icon in the status line to show the player character's mood This example shows how to insert images to the status line. The status line reflects a change in a value - the player character's mood - by showing appropriate icons in the left column. In the mobile view the icons are shown in the middle of the status line. Because the extension doesn't directly have features to insert images into the status line, we'll write a custom status line construction rule for it. The rule first removes old content from the status line, then puts the image in the left column and the location to the right column. The image files used in this example can be downloaded from https://vorple-if.com/resources.zip *: "Petting Zoo" Include Vorple Status Line by Juhana Leinonen. Include Vorple Multimedia by Juhana Leinonen. Release along with the "Vorple" interpreter. Release along with the file "Face-crying.png". Release along with the file "Face-sad.png". Release along with the file "Face-neutral.png". Release along with the file "Face-smiling.png". Release along with the file "Face-happy.png". Chapter 1 - Status line When play begins: construct a Vorple status line with 2 columns. Rule for constructing the Vorple status line: clear the Vorple status line; set the output focus to the element called "status-line-left"; place an image "Face-[mood of the player].png" with the description "[mood of the player]"; set the output focus to the element called "status-line-right"; say "[the player's surroundings]"; set the output focus to the element called "status-line-mobile"; place an image "Face-[mood of the player].png" with the description "[mood of the player]"; set the output focus to the main window; rule succeeds. Chapter 2 - Moods A mood is a kind of value. Moods are crying, sad, neutral, smiling and happy. A person has a mood. The mood of a person is usually neutral. To make the player sadder: if the player is not crying: now the player is the mood before the mood of the player. To make the player happier: if the player is not happy: now the player is the mood after the mood of the player. When play begins (this is the plain status line setup rule): now the right hand status line is "[the mood of the player]". When play begins (this is the preload mood icons rule): repeat with M running through moods: preload image "Face-[M].png". Chapter 3 - World The Petting Zoo is a room. "There are many kinds of animals you can pet here." Understand the command "pet" as "touch". An animal can be friendly or dangerous. A bunny is here. The bunny is a friendly animal. A puppy is here. The puppy is a friendly animal. A sheep is here. The sheep is a friendly animal. A crocodile is here. The crocodile is a dangerous animal. A warthog is here. The warthog is a dangerous animal. A snake is here. The snake is a dangerous animal. Instead of touching a friendly animal: say "You pet [the noun] and feel better."; make the player happier. Instead of touching a dangerous animal: say "You approach [the noun] and it almost bites your hand off!"; make the player sadder. Test me with "pet crocodile / pet warthog / pet bunny / pet puppy/ pet sheep / pet bunny".	Inform 7	5	vorple/inform7	Extensions/Juhana Leinonen/Vorple Status Line.i7x	[ "CC-BY-4.0" ]
#!pydsl\|stateconf -ps include('pydsl.xxx') yyy = include('pydsl.yyy') # ensure states in xxx are run first, then those in yyy and then those in aaa last. extend(state('pydsl.yyy::start').stateconf.require(stateconf='pydsl.xxx::goal')) extend(state('.start').stateconf.require(stateconf='pydsl.yyy::goal')) extend(state('pydsl.yyy::Y2').cmd.run('echo Y2 extended >> {0}'.format('/tmp/output'))) __pydsl__.set(ordered=True) yyy.hello('red', 1) yyy.hello('green', 2) yyy.hello('blue', 3)	SaltStack	3	byteskeptical/salt	tests/integration/files/file/base/pydsl/aaa.sls	[ "Apache-2.0" ]
MODULE = Agar::Config PACKAGE = Agar::Config PREFIX = AG_ PROTOTYPES: ENABLE VERSIONCHECK: DISABLE void lock(self) Agar::Config self CODE: AG_ObjectLock(self); void unlock(self) Agar::Config self CODE: AG_ObjectUnlock(self); int load(self, path) Agar::Config self const char * path PREINIT: AG_DataSource * ds; CODE: ds = AG_OpenFile(path, "r"); if (ds) { RETVAL = AG_ObjectLoadVariables(self, ds); AG_CloseFile(ds); } else { XSRETURN_UNDEF; } OUTPUT: RETVAL int save(self, path) Agar::Config self const char * path PREINIT: AG_DataSource * ds; CODE: ds = AG_OpenFile(path, "w"); if (ds) { if (AG_ObjectSerialize(self, ds) == -1) { AG_CloseFile(ds); XSRETURN_UNDEF; } RETVAL = 0; AG_CloseFile(ds); } else { XSRETURN_UNDEF; } OUTPUT: RETVAL int getBool(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetBool(self, name); OUTPUT: RETVAL int getInt(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetInt(self, name); OUTPUT: RETVAL Uint getUint(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetUint(self, name); OUTPUT: RETVAL Uint8 getUint8(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetUint8(self, name); OUTPUT: RETVAL Sint8 getSint8(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetSint8(self, name); OUTPUT: RETVAL Uint16 getUint16(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetUint16(self, name); OUTPUT: RETVAL Sint16 getSint16(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetSint16(self, name); OUTPUT: RETVAL Uint32 getUint32(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetUint32(self, name); OUTPUT: RETVAL Sint32 getSint32(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetSint32(self, name); OUTPUT: RETVAL float getFloat(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetFloat(self, name); OUTPUT: RETVAL double getDouble(self, name) Agar::Config self const char * name CODE: RETVAL = AG_GetDouble(self, name); OUTPUT: RETVAL SV * getString(self, name) Agar::Config self const char * name PREINIT: char * s; CODE: RETVAL = newSVpv(AG_GetStringDup(self, name), 0); OUTPUT: RETVAL void setBool(self, name, val) Agar::Config self const char * name int val CODE: AG_SetBool(self, name, val); void setInt(self, name, val) Agar::Config self const char * name int val CODE: AG_SetInt(self, name, val); void setUint(self, name, val) Agar::Config self const char * name Uint val CODE: AG_SetUint(self, name, val); void setUint8(self, name, val) Agar::Config self const char * name Uint8 val CODE: AG_SetUint8(self, name, val); void setSint8(self, name, val) Agar::Config self const char * name Sint8 val CODE: AG_SetSint8(self, name, val); void setUint16(self, name, val) Agar::Config self const char * name Uint16 val CODE: AG_SetUint16(self, name, val); void setSint16(self, name, val) Agar::Config self const char * name Sint16 val CODE: AG_SetSint16(self, name, val); void setUint32(self, name, val) Agar::Config self const char * name Uint32 val CODE: AG_SetUint32(self, name, val); void setSint32(self, name, val) Agar::Config self const char * name Sint32 val CODE: AG_SetSint32(self, name, val); void setFloat(self, name, val) Agar::Config self const char * name float val CODE: AG_SetFloat(self, name, val); void setDouble(self, name, val) Agar::Config self const char * name double val CODE: AG_SetDouble(self, name, val); void setString(self, name, val) Agar::Config self const char * name const char * val CODE: AG_SetString(self, name, val);	XS	4	auzkok/libagar	p5-Agar/Agar/Config.xs	[ "BSD-2-Clause" ]
// Copyright 2014 The Flutter Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef FLUTTER_MY_APPLICATION_H_ #define FLUTTER_MY_APPLICATION_H_ #include <gtk/gtk.h> G_DECLARE_FINAL_TYPE(MyApplication, my_application, MY, APPLICATION, GtkApplication) /** * my_application_new: * * Creates a new Flutter-based application. * * Returns: a new #MyApplication. / MyApplication my_application_new(); #endif // FLUTTER_MY_APPLICATION_H_	C	4	Mayb3Nots/flutter	examples/api/linux/my_application.h	[ "BSD-3-Clause" ]
[{ "http://example/bar": [{ "http://example/baz": [{ "http://example/baz": [{"@value": "buzz"}] }] }] }]	JSONLD	0	donbowman/rdflib	test/jsonld/1.1/expand/c028-out.jsonld	[ "BSD-3-Clause" ]
(defn clj-assoc [d k v] (setv cp (dict (.items d))) (assoc cp k v) cp) (defn clj-mapv [f coll] (list (map f coll)))	Hy	3	kloimhardt/bb-web	cgi-bin/guestbook/clj_tools.hy	[ "MIT" ]
# Verify that we exit with an appropriate code when there are build failures. # RUN: rm -rf %t.build # RUN: mkdir -p %t.build # RUN: cp %s %t.build/build.ninja # RUN: %{sh-invoke} -c "%{llbuild} ninja build --jobs 1 --chdir %t.build; echo \"exit code: $?\"" > %t.out # RUN: %{FileCheck} < %t.out %s # CHECK: exit code: 1 rule CUSTOM command = ${COMMAND} build command-that-fails: CUSTOM command = false default command-that-fails	Ninja	3	val-verde/swift-llbuild	tests/Ninja/Build/exit-status.ninja	[ "Apache-2.0" ]
### Introduction Tensorflow implementation of Teaching with Fairness project ### Requirements 1. `Python 3.6` 2. `TensorFlow 1.14.0` 3. `scikit-image` ### Usage #### Part 1: Download the dataset from google drive [Google Drive](https://drive.google.com/corp/drive/folders/1eQpLvkdGAuwJ4EaNjQKTBwe7NRksM-OH) #### Part 2: Train and test with the following code in different folder. ```Shell # train and generate fake images with GAN cd gan python train.py python generate.py ``` ```Shell # train the teacher and student model with RL cd rl python train.py python restore.py ``` ```Shell # compare with the baseline cd baseline python all_real.py #train with all real data python all_fake.py #train with all fake data python random.py #train with random combination of real and fake data python balance.py #train with balanced combination of real and fake data ```	Markdown	4	deepneuralmachine/google-research	fairness_teaching/README.md	[ "Apache-2.0" ]
lexer grammar CumulusConcatenatedLexer; options { superClass = 'org.batfish.grammar.BatfishLexer'; } ANYTHING : . \| EOF ;	ANTLR	3	zabrewer/batfish	projects/batfish/src/main/antlr4/org/batfish/grammar/cumulus_concatenated/CumulusConcatenatedLexer.g4	[ "Apache-2.0" ]
> {-# LANGUAGE MultiParamTypeClasses, FlexibleInstances #-} <h1>MonadState</h1> <haskell:module> <Name>MonadState</> <Version>0.1 alpha</> <Copywrite>The contents of this module are understood to be a straightforward implementation of part of the fokelore of the functional programming community, and therefore the contents are in the public domain.</> <Author> Rendered by <A HREF="http://www.cse.ogi.edu/~andy/">Andy Gill</a>, based on the paper <em>Functional Programming with Overloading and Higher-Order Polymorphism</em>, <A HREF="http://www.cse.ogi.edu/~mpj/">Mark P Jones</a>, Advanced School of Functional Programming, 1995.</> <Restrictions> This requires multi parameter classes and functional dependencies. </> <Tested>Hugs98</> </haskell:module> <hr/> > module MonadState ( > MonadState(..), > modify, > State, -- abstract > runState, > mapState, > evalState, > execState, > StateT, -- abstract > runStateT, > mapStateT, > evalStateT, > execStateT, > module MonadTrans > ) where > import Control.Monad > import Control.Applicative > import MonadTrans <haskell:class> <TName>MonadState</> </haskell:class> {- - This class has two functions. - get : returns the state from the internals of the monad, - put : changes the state inside the monad. -} > class (Monad m) => MonadState s m where > get :: m s > put :: s -> m () <haskell:function> <Purpose>Monadic state transformer.</> <Description> Maps an old state to a new state inside a state monad. The old state is thrown away.</> <Example> <haskell:code bgcolor="#ff88ff"> Main> :t modify ((+1) :: Int -> Int) modify (...) :: (MonadState Int a) => a () </haskell:code> <p>This says that modify (+1) acts over any Monad that is a member of the MonadState class, with an <haskell:expr>Int</haskell:expr> state.</p> </Example> </haskell:function> > modify :: (MonadState s m) => (s -> s) -> m () > modify f = do s <- get > put (f s) ------------------------------------------------------------------------------ {- Our parameterizable state monad -} > newtype State s a = State { runState :: s -> (a,s) } {- - The State Monad structure is paramterized over just the state: - -} > instance Functor (State s) where > fmap f p = State (\ s -> > let (x,s') = runState p s > in (f x,s')) > instance Applicative (State s) where > pure = return > (<>) = ap > instance Monad (State s) where > return v = State (\ s -> (v,s)) > p >>= f = State (\ s -> let (r,s') = runState p s > in runState (f r) s') > fail str = State (\ s -> error str) > instance MonadState s (State s) where > get = State (\ s -> (s,s)) > put v = State (\ _ -> ((),v)) > mapState :: ((a,s) -> (b,s)) -> State s a -> State s b > mapState f m = State (f . runState m) > evalState :: State s a -> s -> a > evalState m s = fst (runState m s) > execState :: State s a -> s -> s > execState m s = snd (runState m s) ------------------------------------------------------------------------------ {- Our parameterizable state monad, with an inner monad -} > newtype StateT s m a = StateT { runStateT :: s -> m (a,s) } {- - The StateT Monad structure is paramterized over two things: - s: The State itself. - m: The inner monad. - - Here are some examples of use: - - (Parser from ParseLib with Hugs) - type Parser a = StateT String [] a - ==> StateT (String -> [(a,String)]) - For example, item can be written as: - item = do (x:xs) <- get - put xs - return x - - type BoringState s a = StateT s Indentity a - ==> StateT (s -> Identity (a,s)) - - type StateWithIO s a = StateT s IO a - ==> StateT (s -> IO (a,s)) - - type StateWithErr s a = StateT s Maybe a - ==> StateT (s -> Maybe (a,s)) -} > instance (Monad m) => Functor (StateT s m) where > -- fmap :: (a -> b) -> StateT s m a -> StateT s m b > fmap f p = StateT (\ s -> > do (x,s') <- runStateT p s > return (f x,s')) > > instance (Monad m) => Applicative (StateT s m) where > pure = return > (<>) = ap > > instance (Monad m) => Monad (StateT s m) where > return v = StateT (\ s -> return (v,s)) > p >>= f = StateT (\ s -> do (r,s') <- runStateT p s > runStateT (f r) s') > fail str = StateT (\ s -> fail str) > > instance (MonadPlus m) => Alternative (StateT s m) where > empty = mzero > (<\|>) = mplus > > instance (MonadPlus m) => MonadPlus (StateT s m) where > mzero = StateT (\ s -> mzero) > p `mplus` q = StateT (\ s -> runStateT p s `mplus` runStateT q s) > > instance (Monad m) => MonadState s (StateT s m) where > get = StateT (\ s -> return (s,s)) > put v = StateT (\ _ -> return ((),v)) > > instance MonadTrans (StateT s) where > lift f = StateT ( \ s -> do { r <- f ; runStateT (return r) s }) > mapStateT :: (m (a,s) -> n (b,s)) -> StateT s m a -> StateT s n b > mapStateT f m = StateT (f . runStateT m) > > evalStateT :: (Monad m) => StateT s m a -> s -> m a > evalStateT m s = > do (r,_) <- runStateT m s > return r > > execStateT :: (Monad m) => StateT s m a -> s -> m s > execStateT m s = > do (_,s) <- runStateT m s > return s ------------------------------------------------------------------------------	Literate Haskell	5	ryantrinkle/ghcjs	test/nofib/spectral/cryptarithm2/MonadState.lhs	[ "MIT" ]
(function(exports) { var YJInvalidParamMsg = 'Invalid parameter'; var YJMissingParamMsg = 'Missing parameter'; // 1.APP Base Info, PS: BundleId, Version, BuildVersion, AppPath YJAppInfo = function() { var appId = [NSBundle mainBundle].bundleIdentifier; var appversion = [NSBundle mainBundle].infoDictionary[@"CFBundleShortVersionString"]; var appbuildversion = [NSBundle mainBundle].infoDictionary[@"CFBundleVersion"]; var screenWidth = [[UIScreen mainScreen] bounds][1][0]; var screenHeight = [[UIScreen mainScreen] bounds][1][1]; var apppath = [NSBundle mainBundle].bundlePath; // 13 var result = "BundleId = " + appId + "\n" + " AppVersion = " + appversion + "\n" + " BuildVersion = " + appbuildversion + "\n" + " ScreenWidth = " + screenWidth + "\n" + " ScreenHeight = " + screenHeight + "\n" + " AppPath = " + apppath; return result; }; // 2.获取 keyWindow YJKeyWindow = function () { return UIApp.keyWindow; } // 3.根控制器 YJRootVc = function () { return UIApp.keyWindow.rootViewController; } // 递归找到当前显示控制器 var __YJTopViewController = function(vc) { if (vc.presentedViewController) { return __YJTopViewController(vc.presentedViewController); } else if ([vc isKindOfClass:[UITabBarController class]]) { return __YJTopViewController(vc.selectedViewController); } else if ([vc isKindOfClass:[UINavigationController class]]) { return __YJTopViewController(vc.visibleViewController); } else { var count = vc.childViewControllers.count; for (var i = count - 1; i >= 0; i--) { var childVc = vc.childViewControllers[i]; if (childVc && childVc.view.window) { vc = __YJTopViewController(childVc); break; } } return vc; } }; // 4.当前显示的控制器 YJTopVc = function() { return __YJTopViewController(UIApp.keyWindow.rootViewController); }; // 5.获取控制器 vc 的 view 层级结构 YJViewsOfVc = function(vc) { if (![vc isKindOfClass:[UIViewController class]]) throw new Error(YJInvalidParamMsg); return vc.view.recursiveDescription().toString(); }; // 6.获取当前显示的控制器的 View 层级结构 YJViewsOfTopVc = function() { return YJViewsOfVc(__YJTopViewController(UIApp.keyWindow.rootViewController)); }; // 7.获取控制器的层级 YJChildVcs = function(vc) { if (![vc isKindOfClass:[UIViewController class]]) throw new Error(YJInvalidParamMsg); return [vc _printHierarchy].toString(); }; // 8.获取View的层级 YJSubviews = function(view) { if (![view isKindOfClass:[UIView class]]) throw new Error(YJInvalidParamMsg); return view.recursiveDescription().toString(); }; // 9.CG函数 point YJPointMake = function(x, y) { return {0 : x, 1 : y}; }; // 10.CG函数 size YJSizeMake = function(w, h) { return {0 : w, 1 : h}; }; // 11.CG函数 rect YJRectMake = function(x, y, w, h) { return {0 : YJPointMake(x, y), 1 : YJSizeMake(w, h)}; }; // 判断是否为字符串 "str" @"str" YJIsString = function(str) { return typeof str == 'string' \|\| str instanceof String; }; // 判断是否为数组 []、@[] YJIsArray = function(arr) { return arr instanceof Array; }; // 判断是否为数字 666 @666 YJIsNumber = function(num) { return typeof num == 'number' \|\| num instanceof Number; }; // 获取类 var _YJClass = function(className) { if (!className) throw new Error(YJMissingParamMsg); if (YJIsString(className)) { return NSClassFromString(className); } if (!className) throw new Error(YJInvalidParamMsg); return className.class(); }; // 12. 打印所有的子类 YJSubclasses = function(className, reg) { className = _YJClass(className); return [c for each (c in ObjectiveC.classes) if (c != className && class_getSuperclass(c) && [c isSubclassOfClass:className] && (!reg \|\| reg.test(c))) ]; }; // 打印所有的方法 var _YJGetMethods = function(className, reg, clazz) { className = _YJClass(className); var count = new new Type('I'); var classObj = clazz ? className.constructor : className; var methodList = class_copyMethodList(classObj, count); var methodsArray = []; var methodNamesArray = []; for(var i = 0; i < count; i++) { var method = methodList[i]; var selector = method_getName(method); var name = sel_getName(selector); if (reg && !reg.test(name)) continue; methodsArray.push({ selector : selector, type : method_getTypeEncoding(method) }); methodNamesArray.push(name); } free(methodList); return [methodsArray, methodNamesArray]; }; var _YJMethods = function(className, reg, clazz) { return _YJGetMethods(className, reg, clazz)[0]; }; // 打印所有的方法名字 var _YJMethodNames = function(className, reg, clazz) { return _YJGetMethods(className, reg, clazz)[1]; }; // 13.打印所有的对象方法 YJInstanceMethods = function(className, reg) { return _YJMethods(className, reg); }; // 14.打印所有的对象方法名字 YJInstanceMethodNames = function(className, reg) { return _YJMethodNames(className, reg); }; // 15.打印所有的类方法 YJClassMethods = function(className, reg) { return _YJMethods(className, reg, true); }; // 16.打印所有的类方法名字 YJClassMethodNames = function(className, reg) { return _YJMethodNames(className, reg, true); }; // 17.打印所有的成员变量 YJIvars = function(obj, reg){ if (!obj) throw new Error(YJMissingParamMsg); var x = {}; for(var i in obj) { try { var value = (obj)[i]; if (reg && !reg.test(i) && !reg.test(value)) continue; x[i] = value; } catch(e){} } return x; }; // 18.打印所有的成员变量名字 YJIvarNames = function(obj, reg) { if (!obj) throw new Error(YJMissingParamMsg); var array = []; for(var name in obj) { if (reg && !reg.test(name)) continue; array.push(name); } return array; }; // 19.获取按钮绑定的所有TouchUpInside事件的方法名 YJBtnTouchUpEvent = function(btn) { var events = []; var allTargets = btn.allTargets().allObjects() var count = allTargets.count; for (var i = count - 1; i >= 0; i--) { if (btn != allTargets[i]) { var e = [btn actionsForTarget:allTargets[i] forControlEvent:UIControlEventTouchUpInside]; events.push(e); } } return events; }; // 20.document path YJDocPath = NSSearchPathForDirectoriesInDomains(NSDocumentDirectory, NSUserDomainMask, YES)[0]; // 21.caches path YJCachesPath = NSSearchPathForDirectoriesInDomains(NSCachesDirectory, NSUserDomainMask, YES)[0]; // 22.加载系统动态库 YJLoadFramework = function(name) { var head = "/System/Library/"; var foot = "Frameworks/" + name + ".framework"; var bundle = [NSBundle bundleWithPath:head + foot] \|\| [NSBundle bundleWithPath:head + "Private" + foot]; [bundle load]; return bundle; }; // 帮助选项 help = function () { var helpTitle = "Contains the following Cycript encapsulation:\n"; var appInfo = " 1. YJAppInfo() APP Base Info, PS: BundleId, Version, BuildVersion, AppPath\n"; var keyWindow = " 2. YJKeyWindow() KeyWindow\n"; var rootVc = " 3. YJRootVc() rootViewController\n"; var topVc = " 4. YJTopVc() topViewController\n"; var viewsOfVc = " 5. YJViewsOfVc(vc) Hierarchical structure of vc\n"; var viewsOfTopVc = " 6. YJViewsOfTopVc() Hierarchical structure of topvc\n"; var childVcs = " 7. YJChildVcs(vc) All subclasses of controllers\n"; var subviews = " 8. YJSubviews(view) All subclasses of view\n"; var pointMake = " 9. YJPointMake(x,y) CGPoint\n"; var sizeMake = " 10. YJSizeMake(w,h) CGSize\n"; var rectMake = " 11. YJRectMake(x,y,w,h) CGRect\n"; var subclasses = " 12. YJSubclasses(clsName, reg) All subclasses of clsName\n"; var instanceMethods = " 13. YJInstanceMethods(clsName, reg) All InstanceMethod of clsName\n"; var instanceMethodNames = " 14. YJInstanceMethodNames(clsName, reg) All InstanceMethod name of clsName\n"; var classMethods = " 15. YJClassMethods(clsName, reg) All classMethod of clsName\n"; var classMethodNames = " 16. YJClassMethodNames(clsName, reg) All classMethod name of clsName\n"; var ivars = " 17. YJIvars(obj, reg) All ivar of obj\n"; var ivarNames = " 18. YJIvarNames(obj, reg) All ivar name of obj\n"; var btnTouchUpEvent = " 19. YJBtnTouchUpEvent(btn) Method names of all TouchUpInside events bound by buttons\n"; var docPath = " 20. YJDocPath Document Path\n"; var cachesPath = " 21. YJCachesPath Caches Path\n"; var loadFramework = " 22. YJLoadFramework(name) Load System Dynamic Library"; var result = helpTitle + appInfo + keyWindow + rootVc + topVc + viewsOfVc + viewsOfTopVc + childVcs + subviews + pointMake + sizeMake + rectMake + subclasses + instanceMethods + instanceMethodNames + classMethods + classMethodNames + ivars + ivarNames + btnTouchUpEvent + docPath + cachesPath + loadFramework; return result; } })(exports);	Cycript	3	smola/language-dataset	data/github.com/monetking/iOSSecurity/767a784e18d44f29d03521cf15db5d13d0a5b30f/Cycript/yjcript.cy	[ "MIT" ]
rank ← ⍴ ∘ ⍴ ⎕ ← rank 7 3 2 ⍴ ⍳ 23 h ← {⍵ + 2} ∘ {⍵ × 7} ⎕ ← h 8 ⍝ --> 58 ⎕ ← (2∘-) 9 ⍝ --> -7 ⎕ ← (-∘2) 9 ⍝ --> 7 0	APL	3	melsman/apltail	tests/compose.apl	[ "MIT" ]
#tag Module Protected Module OSVersionInformationWFS #tag Method, Flags = &h1 Protected Function Build() As Integer Initialize return mBuild End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function BuildString() As String Initialize return mBuildString End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function ExtraInfo() As String Initialize return mExtraInfo End Function #tag EndMethod #tag Method, Flags = &h21 Private Sub Initialize() if mInitialized then return mInitialized = true #if targetwin32 then Dim m As MemoryBlock dim res as boolean dim dwOSVersionInfoSize,wsuitemask,ret,i as integer dim szCSDVersion, s as string Soft Declare Function GetVersionExA Lib "kernel32" (lpVersionInformation As ptr) As integer Soft Declare Function GetVersionExW Lib "kernel32" (lpVersionInformation As ptr) As integer dim bUsingUnicode as Boolean = false if System.IsFunctionAvailable( "GetVersionExW", "Kernel32" ) then bUsingUnicode = true m = new MemoryBlock(284) ''use this for osversioninfoex structure (2000+ only) m.long(0) = m.size 'must set size before calling getversionex ret = GetVersionExW(m) 'if not 2000+, will return 0 if ret = 0 then m = new MemoryBlock(276) m.long(0) = m.size 'must set size before calling getversionex ret = GetVersionExW(m) if ret = 0 then // Something really strange has happened, so use the A version // instead bUsingUnicode = false goto AVersion return end end else AVersion: m = new MemoryBlock(156) ''use this for osversioninfoex structure (2000+ only) m.long(0) = m.size 'must set size before calling getversionex ret = GetVersionExA(m) 'if not 2000+, will return 0 if ret = 0 then m = new MemoryBlock(148) ' 148 sum of the bytes included in the structure (long = 4bytes, etc.) m.long(0) = m.size 'must set size before calling getversionex ret = GetVersionExA(m) if ret = 0 then return end end end if mmajorVersion = m.long(4) mminorVersion = m.long(8) mbuild = m.long(12) mplatformId = m.long(16) dim nextVal as Integer if bUsingUnicode then szCSDVersion = m.WString( 20 ) nextVal = 276 else szCSDVersion = m.cstring(20) nextVal = 148 end if try mServicePackStr = Str( m.Short( nextVal ) ) + "." + Str( m.Short( nextVal + 2 ) ) if mServicePackStr = "0.0" then mServicePackStr = "" mServicePack = Val( mServicePackStr ) wsuitemask = m.short( nextVal + 4 ) msuitemask = hex( wSuitemask ) mproducttype = m.byte( nextVal + 6 ) catch err as OutOfBoundsException mServicePackStr = "" mServicePack = 0 wsuitemask = 0 mSuiteMask = "" mProductType = 0 end try if bitwiseAnd(val(msuitemask), &h1) > 0 then mOSSuites = "Small Business" + chr(9) end if bitwiseAnd(wsuitemask, &h2) > 0 then mOSSuites = mOSSuites + "Enterprise" + chr(9) end if bitwiseAnd(wsuitemask, &h4) > 0 then mOSSuites = mOSSuites + "BackOffice" + chr(9) end if bitwiseAnd(wsuitemask, &h8) > 0 then mOSSuites = mOSSuites + "Communications" + chr(9) end if bitwiseAnd(wsuitemask, &h10) > 0 then mOSSuites = mOSSuites + "Terminal Services" + chr(9) end if bitwiseAnd(wsuitemask, &h20) > 0 then mOSSuites = mOSSuites + "Small Business Restricted" + chr(9) end if bitwiseAnd(wsuitemask, &h40) > 0 then mOSSuites = mOSSuites + "Embedded NT" + chr(9) end if bitwiseAnd(wsuitemask, &h80) > 0 then mOSSuites = mOSSuites + "Data Center" + chr(9) end if bitwiseAnd(wsuitemask, &h100) > 0 then mOSSuites = mOSSuites + "Single User Terminal Services" + chr(9) end if bitwiseAnd(wsuitemask, &h200) > 0 then mOSSuites = mOSSuites + "Personal" + chr(9) end if bitwiseAnd(wsuitemask, &h400) > 0 then mOSSuites = mOSSuites + "Blade" + chr(9) end if bitwiseAnd(wsuitemask, &h800) > 0 then mOSSuites = mOSSuites + "Embedded Restricted" + chr(9) end if bitwiseAnd(wsuitemask, &h1000) > 0 then mOSSuites = mOSSuites + "Security Appliance" + chr(9) end select case mproducttype case 1 mmode = "Workstation" case 2 mmode = "Domain Controller" case 3 mmode = "Server" end select mextraInfo = szCSDVersion if mplatformId = 2 then 'NT mIsNx = true if mMajorVersion = 6 then ' Vista mIsVista = true elseif mmajorversion = 4 then 'NT4 mOSName = "Windows NT 4.0" mIsNT4 = true mbuildstring = str(mbuild) elseif mmajorVersion = 5 then mIsNt5 = true if mminorVersion = 0 then '2000 mOSName = "Windows 2000" mIs2K = true mbuildstring = str(build) elseif mminorVersion = 1 then 'XP mOSName = "Windows XP" misXP = true misXPPlus = true mbuildstring = str(mbuild) elseif mminorVersion = 2 then '2003 mOSName = "Windows 2003" mis2003 = true misXPPlus = true mbuildstring = str(mbuild) end if end else '9x mis9x = true if mminorVersion = 0 then ' 95 if instr(szCSDVersion,"C") > 0 or instr(szCSDVersion,"B") > 0 then mOSName = "Windows 95 OSR2" else mOSName = "Windows 95" end if mis95 = true elseif mminorVersion = 10 then '98 if instr(szCSDVersion,"A") > 0 then mOSName = "Windows 98 SE" else mOSName = "Windows 98" end if mis98 = true mbuildstring = "0" elseif mminorVersion = 90 then 'ME misME = true mOSName = "Windows ME" mbuildstring = "0" end if end if s = str(majorVersion) + "." + str(mminorVersion) + "." + str(mbuild) + " " + mextraInfo mversionstring = s #endif End Sub #tag EndMethod #tag Method, Flags = &h1 Protected Function Is2003() As Boolean Initialize return mIs2003 End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Is2k() As Boolean Initialize return mIs2k End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Is95() As Boolean Initialize return mIs95 End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Is98() As Boolean Initialize return mIs98 End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Is9x() As Boolean Initialize return mIs9x End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsME() As Boolean Initialize return mIsME End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsNT4() As Boolean Initialize return mIsNT4 End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsNT5() As Boolean Initialize return mIsNt5 End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsNx() As Boolean Initialize return mIsNx End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsTerminalSession() As Boolean Declare Function GetSystemMetrics Lib "User32" Alias "GetSystemMetrics" ( nIndex As integer ) As integer Const SM_REMOTESESSION = &h1000 return GetSystemMetrics( SM_REMOTESESSION ) = 1 End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsVista() As Boolean Initialize return mIsVista End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsXP() As Boolean Initialize return mIsXP End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function IsXPPlus() As Boolean Initialize return mIsXPPlus End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function MajorVersion() As Integer Initialize return mMajorVersion End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function MinorVersion() As Integer Initialize return mMinorVersion End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Mode() As String Initialize return mMode End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function OSName() As String Initialize return mOSName End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function OSSuites() As String Initialize return mOSSuites End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function PlatformID() As Integer Initialize return mPlatformID End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function ProductType() As Integer Initialize return mProductType End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function ServicePack() As Double return mServicePack End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function ServicePack() As String return mServicePackStr End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function SuiteMask() As String Initialize return mSuiteMask End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Version() As Integer Initialize return mVersion End Function #tag EndMethod #tag Method, Flags = &h1 Protected Function Version() As String Initialize return mVersionString End Function #tag EndMethod #tag Note, Name = Information Windows OS Version Detection Class GetVersionEx Win32 API called in class constructor Is95 True for WIndows 95 and Windows 95 OSR2 Is98 True for Windows 98 and WIndows 98 SE IsME True for Windows ME IsNT4 True for WIndows NT 4.0 Is2K True for Windows 2000 IsXP True for Windows XP Home and Professional Is9x True for Windows 95,98,ME IsNx True for Windows NT,2000,XP.2003 IsXPPLus True for Windows XP,2003 For additional information: http://msdn.microsoft.com/library/en-us/ sysinfo/base/getversionex.asp http://msdn.microsoft.com/library/default.asp?url=/library/en-us/sysinfo/base/osversioninfoex_str.asp http://msdn.microsoft.com/library/default.asp?url=/library/en-us/sysinfo/base/osversioninfo_str.asp #tag EndNote #tag Note, Name = VB Type info VB Type definitions Private Type OSVERSIONINFO OSVSize As Long 'size, in bytes, of this data structure dwVerMajor As Long 'ie NT 3.51, dwVerMajor = 3; NT 4.0, dwVerMajor = 4. dwVerMinor As Long 'ie NT 3.51, dwVerMinor = 51; NT 4.0, dwVerMinor= 0. dwBuildNumber As Long 'NT: build number of the OS 'Win9x: build number of the OS in low-order word. 'High-order word contains major & minor ver nos. PlatformID As Long 'Identifies the operating system platform. szCSDVersion As String * 128 'NT: string such as "Service Pack 3" 'Win9x: arbitrary additional information End Type Private Type OSVERSIONINFOEX ' I tacked the position in the memory block to the end of these for easier reference OSVSize As Long ''0 dwVerMajor As Long ''4 dwVerMinor As Long ''8 dwBuildNumber As Long ''12 PlatformID As Long ''16 szCSDVersion As String * 128 ''20 ''' Fixed width string 128 bytes wServicePackMajor As Integer ''148 wServicePackMinor As Integer ''150 wSuiteMask As Integer ''152 wProductType As Byte ''154 wReserved As Byte ''155 End Type #tag EndNote #tag Property, Flags = &h21 Private mBuild As integer #tag EndProperty #tag Property, Flags = &h21 Private mBuildString As string #tag EndProperty #tag Property, Flags = &h21 Private mExtraInfo As string #tag EndProperty #tag Property, Flags = &h21 Private mInitialized As Boolean #tag EndProperty #tag Property, Flags = &h21 Private mis2003 As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIs2K As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIs95 As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIs98 As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIs9x As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsME As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsNT4 As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsNt5 As Boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsNx As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsVista As Boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsXP As boolean #tag EndProperty #tag Property, Flags = &h21 Private mIsXPPlus As boolean #tag EndProperty #tag Property, Flags = &h21 Private mMajorVersion As integer #tag EndProperty #tag Property, Flags = &h21 Private mMinorVersion As integer #tag EndProperty #tag Property, Flags = &h21 Private mMode As String #tag EndProperty #tag Property, Flags = &h21 Private mOSName As string #tag EndProperty #tag Property, Flags = &h21 Private mOSSuites As string #tag EndProperty #tag Property, Flags = &h21 Private mPlatformID As integer #tag EndProperty #tag Property, Flags = &h21 Private mProductType As integer #tag EndProperty #tag Property, Flags = &h21 Private mServicePack As Double #tag EndProperty #tag Property, Flags = &h21 Private mServicePackStr As String #tag EndProperty #tag Property, Flags = &h21 Private mSuiteMask As string #tag EndProperty #tag Property, Flags = &h21 Private mVersion As integer #tag EndProperty #tag Property, Flags = &h21 Private mVersionString As string #tag EndProperty #tag ViewBehavior #tag ViewProperty Name="Index" Visible=true Group="ID" InitialValue="-2147483648" InheritedFrom="Object" #tag EndViewProperty #tag ViewProperty Name="Left" Visible=true Group="Position" InitialValue="0" InheritedFrom="Object" #tag EndViewProperty #tag ViewProperty Name="Name" Visible=true Group="ID" InheritedFrom="Object" #tag EndViewProperty #tag ViewProperty Name="Super" Visible=true Group="ID" InheritedFrom="Object" #tag EndViewProperty #tag ViewProperty Name="Top" Visible=true Group="Position" InitialValue="0" InheritedFrom="Object" #tag EndViewProperty #tag EndViewBehavior End Module #tag EndModule	REALbasic	4	bskrtich/WFS	Windows Functionality Suite/UI Extras/System Information/Modules/OSVersionInformationWFS.rbbas	[ "MIT" ]
pyenv_config_warning() { [[ "$ZSH_PYENV_QUIET" != true ]] \|\| return 0 local reason="$1" local pyenv_root="${PYENV_ROOT/#$HOME/\$HOME}" cat >&2 <<EOF Found pyenv, but it is badly configured ($reason). pyenv might not work correctly for non-interactive shells (for example, when run from a script). ${(%):-"%B%F{yellow}"} To fix this message, add these lines to the '.profile' and '.zprofile' files in your home directory: ${(%):-"%f"} export PYENV_ROOT="$pyenv_root" export PATH="\$PYENV_ROOT/bin:\$PATH" eval "\$(pyenv init --path)" ${(%):-"%F{yellow}"} You'll need to restart your user session for the changes to take effect.${(%):-%b%f} For more information go to https://github.com/pyenv/pyenv/#installation. EOF } # This plugin loads pyenv into the current shell and provides prompt info via # the 'pyenv_prompt_info' function. Also loads pyenv-virtualenv if available. # Look for pyenv in $PATH and verify that it's not a part of pyenv-win in WSL if ! command -v pyenv &>/dev/null; then FOUND_PYENV=0 elif [[ "${commands[pyenv]}" = /pyenv-win/ && "$(uname -r)" = icrosoft ]]; then FOUND_PYENV=0 else FOUND_PYENV=1 fi # Look for pyenv and try to load it (will only work on interactive shells) if [[ $FOUND_PYENV -ne 1 ]]; then pyenvdirs=("$HOME/.pyenv" "/usr/local/pyenv" "/opt/pyenv" "/usr/local/opt/pyenv") for dir in $pyenvdirs; do if [[ -d "$dir/bin" ]]; then FOUND_PYENV=1 break fi done if [[ $FOUND_PYENV -ne 1 ]]; then if (( $+commands[brew] )) && dir=$(brew --prefix pyenv 2>/dev/null); then if [[ -d "$dir/bin" ]]; then FOUND_PYENV=1 fi fi fi # If we found pyenv, load it but show a caveat about non-interactive shells if [[ $FOUND_PYENV -eq 1 ]]; then # Configuring in .zshrc only makes pyenv available for interactive shells export PYENV_ROOT="$dir" export PATH="$PYENV_ROOT/bin:$PATH" eval "$(pyenv init --path)" # Show warning due to bad pyenv configuration pyenv_config_warning 'pyenv command not found in $PATH' fi fi if [[ $FOUND_PYENV -eq 1 ]]; then if [[ -z "$PYENV_ROOT" ]]; then # This is only for backwards compatibility with users that previously relied # on this plugin exporting it. pyenv itself does not require it to be exported export PYENV_ROOT="$(pyenv root)" fi # Add pyenv shims to $PATH if not already added if [[ -z "${path[(Re)$(pyenv root)/shims]}" ]]; then eval "$(pyenv init --path)" pyenv_config_warning 'missing pyenv shims in $PATH' fi # Load pyenv eval "$(pyenv init - --no-rehash zsh)" # If pyenv-virtualenv exists, load it if [[ "$(pyenv commands)" =~ "virtualenv-init" && "$ZSH_PYENV_VIRTUALENV" != false ]]; then eval "$(pyenv virtualenv-init - zsh)" fi function pyenv_prompt_info() { echo "$(pyenv version-name)" } else # Fall back to system python function pyenv_prompt_info() { echo "system: $(python -V 2>&1 \| cut -f 2 -d ' ')" } fi unset FOUND_PYENV pyenvdirs dir unfunction pyenv_config_warning	Shell	5	sshishov/ohmyzsh	plugins/pyenv/pyenv.plugin.zsh	[ "MIT" ]
@keyframes test { from {} to { color: red } }	CSS	3	mengxy/swc	crates/swc_css_parser/tests/fixture/esbuild/misc/aDkLP2LEPmyD_ImzrGw8SQ/input.css	[ "Apache-2.0" ]
pre code	Jade	3	cihatislamdede/codecombat	app/templates/play/level/tome/spell_translation.jade	[ "CC-BY-4.0", "MIT" ]
# Copyright (C) 2001-2003, Parrot Foundation. =head1 NAME examples/nci/QtHelloWorld.pasm - Qt Example =head1 SYNOPSIS % ./parrot examples/nci/QtHelloWorld.pasm =head1 DESCRIPTION Sample "Hello World" with Qt, via Parrot Native Call Interface (NCI). See F<docs/pdds/pdd03_calling_conventions.pod>. Qt - A cross-platform application and UI framework (L<http://www.qtsoftware.com/about/news/lgpl-license-option-added-to-qt>). You'll need to build F<libPQt.so> or F<PQt.dll> and install it in F<runtime/parrot/dynext> for this to work, see F<examples/nci/PQt.C> for more information. Note that this will either need JIT for building the NCI-functions on the fly. If this is not available try adding missing signatures to F<src/nci/extra_thunks.nci>, running F<tools/dev/mk_nci_thunks.pl>, and rebuilding Parrot. =cut # load the shared lib loadlib P1, "libPQt" print "Loaded\n" # get and invoke the QApplication_new function dlfunc P0, P1, "QApplication_new", "pv" invokecc P0 set P2, P5 # remember pApp # get and invoke QLabel_new dlfunc P0, P1, "QLabel_new", "pt" # if you need more labels, save P0 = QLabel_new() function set_args "0", "Hello, world!" get_results "0", P5 invokecc P0 set P6, P5 # save pLabel # size the QLabel dlfunc P0, P1, "QLabel_resize", "vpii" set_args "0,0,0", P6, 120, 30 invokecc P0 dlfunc P0, P1, "QLabel_show", "vp" invokecc P0 # and go dlfunc P0, P1,"QApplication_exec", "vp" set_args "0", P2 invokecc P0 end =head1 SEE ALSO F<examples/nci/PQt.C>, F<docs/pdds/pdd03_calling_conventions.pod>. =cut # Local Variables: # mode: pir # fill-column: 100 # End: # vim: expandtab shiftwidth=4 ft=pir:	Parrot Assembly	4	allisonrandal/pkg-parrot	examples/nci/QtHelloWorld.pasm	[ "Artistic-2.0" ]
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import createSvgIcon from './utils/createSvgIcon'; import { jsx as _jsx } from "react/jsx-runtime"; export default createSvgIcon([/#__PURE__/_jsx("path", { d: "M6 13c0 1.1.9 2 2 2h6c1.1 0 2-.9 2-2V5H6v8z", opacity: ".3" }, "0"), /#__PURE__/_jsx("path", { d: "M4 19h16v2H4zM20 3H4v10c0 2.21 1.79 4 4 4h6c2.21 0 4-1.79 4-4v-3h2c1.11 0 2-.9 2-2V5c0-1.11-.89-2-2-2zm-4 10c0 1.1-.9 2-2 2H8c-1.1 0-2-.9-2-2V5h10v8zm4-5h-2V5h2v3z" }, "1")], 'FreeBreakfastTwoTone');	JavaScript	4	good-gym/material-ui	packages/material-ui-icons/lib/esm/FreeBreakfastTwoTone.js	[ "MIT" ]
/* Copyright (c) 2017-2019 Netronome Systems, Inc. All rights reserved. * * SPDX-License-Identifier: BSD-2-Clause / #include "pkt_mpls_mpls_mpls_mpls_mpls_ipv4_udp_x84.uc" #include "actions_harness.uc" #include "global.uc" .reg o_l4_offset .reg o_l3_offset .reg i_l4_offset .reg i_l3_offset .reg proto .reg expected_o_l3_offset .reg expected_o_l4_offset .reg expected_i_l3_offset .reg expected_i_l4_offset .reg expected_proto .reg pkt_len .reg in_args pv_get_length(pkt_len, pkt_vec) move(in_args, 0x12b51c00) bitfield_extract__sz1(expected_i_l4_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_INNER_L4_bf)) bitfield_extract__sz1(expected_i_l3_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_INNER_IP_bf)) bitfield_extract__sz1(expected_o_l4_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_OUTER_L4_bf)) bitfield_extract__sz1(expected_o_l3_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_OUTER_IP_bf)) bitfield_extract__sz1(expected_proto, BF_AML(pkt_vec, PV_PROTO_bf)) move(BF_A(pkt_vec, PV_HEADER_STACK_bf), 0) move(BF_A(pkt_vec, PV_PROTO_bf), 0) pv_seek(pkt_vec, 0, (PV_SEEK_INIT \| PV_SEEK_DEFAULT)) alu[--, --, B, $index++] alu[--, --, B, $index++] alu[--, --, B, $index++] pv_hdr_parse(pkt_vec, in_args, check_result#) check_result#: bitfield_extract__sz1(proto, BF_AML(pkt_vec, PV_PROTO_bf)) bitfield_extract__sz1(i_l4_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_INNER_L4_bf)) bitfield_extract__sz1(i_l3_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_INNER_IP_bf)) bitfield_extract__sz1(o_l4_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_OUTER_L4_bf)) bitfield_extract__sz1(o_l3_offset, BF_AML(pkt_vec, PV_HEADER_OFFSET_OUTER_IP_bf)) bitfield_extract__sz1(proto, BF_AML(pkt_vec, PV_PROTO_bf)) test_assert_equal(i_l3_offset, expected_i_l3_offset) test_assert_equal(i_l4_offset, expected_i_l4_offset) test_assert_equal(o_l3_offset, expected_o_l3_offset) test_assert_equal(o_l4_offset, expected_o_l4_offset) test_assert_equal(proto, expected_proto) test_pass() PV_HDR_PARSE_SUBROUTINE#: pv_hdr_parse_subroutine(pkt_vec) PV_SEEK_SUBROUTINE#: pv_seek_subroutine(pkt_vec)	UnrealScript	3	pcasconnetronome/nic-firmware	test/datapath/pv_parse_mpls_mpls_mpls_mpls_mpls_ipv4_udp_x84_test.uc	[ "BSD-2-Clause" ]