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"""GlyphSets returned by a TTFont.""" | |
from abc import ABC, abstractmethod | |
from collections.abc import Mapping | |
from contextlib import contextmanager | |
from copy import copy, deepcopy | |
from types import SimpleNamespace | |
from fontTools.misc.vector import Vector | |
from fontTools.misc.fixedTools import otRound, fixedToFloat as fi2fl | |
from fontTools.misc.loggingTools import deprecateFunction | |
from fontTools.misc.transform import Transform, DecomposedTransform | |
from fontTools.pens.transformPen import TransformPen, TransformPointPen | |
from fontTools.pens.recordingPen import ( | |
DecomposingRecordingPen, | |
lerpRecordings, | |
replayRecording, | |
) | |
class _TTGlyphSet(Mapping): | |
"""Generic dict-like GlyphSet class that pulls metrics from hmtx and | |
glyph shape from TrueType or CFF. | |
""" | |
def __init__(self, font, location, glyphsMapping, *, recalcBounds=True): | |
self.recalcBounds = recalcBounds | |
self.font = font | |
self.defaultLocationNormalized = ( | |
{axis.axisTag: 0 for axis in self.font["fvar"].axes} | |
if "fvar" in self.font | |
else {} | |
) | |
self.location = location if location is not None else {} | |
self.rawLocation = {} # VarComponent-only location | |
self.originalLocation = location if location is not None else {} | |
self.depth = 0 | |
self.locationStack = [] | |
self.rawLocationStack = [] | |
self.glyphsMapping = glyphsMapping | |
self.hMetrics = font["hmtx"].metrics | |
self.vMetrics = getattr(font.get("vmtx"), "metrics", None) | |
self.hvarTable = None | |
if location: | |
from fontTools.varLib.varStore import VarStoreInstancer | |
self.hvarTable = getattr(font.get("HVAR"), "table", None) | |
if self.hvarTable is not None: | |
self.hvarInstancer = VarStoreInstancer( | |
self.hvarTable.VarStore, font["fvar"].axes, location | |
) | |
# TODO VVAR, VORG | |
def pushLocation(self, location, reset: bool): | |
self.locationStack.append(self.location) | |
self.rawLocationStack.append(self.rawLocation) | |
if reset: | |
self.location = self.originalLocation.copy() | |
self.rawLocation = self.defaultLocationNormalized.copy() | |
else: | |
self.location = self.location.copy() | |
self.rawLocation = {} | |
self.location.update(location) | |
self.rawLocation.update(location) | |
try: | |
yield None | |
finally: | |
self.location = self.locationStack.pop() | |
self.rawLocation = self.rawLocationStack.pop() | |
def pushDepth(self): | |
try: | |
depth = self.depth | |
self.depth += 1 | |
yield depth | |
finally: | |
self.depth -= 1 | |
def __contains__(self, glyphName): | |
return glyphName in self.glyphsMapping | |
def __iter__(self): | |
return iter(self.glyphsMapping.keys()) | |
def __len__(self): | |
return len(self.glyphsMapping) | |
def has_key(self, glyphName): | |
return glyphName in self.glyphsMapping | |
class _TTGlyphSetGlyf(_TTGlyphSet): | |
def __init__(self, font, location, recalcBounds=True): | |
self.glyfTable = font["glyf"] | |
super().__init__(font, location, self.glyfTable, recalcBounds=recalcBounds) | |
self.gvarTable = font.get("gvar") | |
def __getitem__(self, glyphName): | |
return _TTGlyphGlyf(self, glyphName, recalcBounds=self.recalcBounds) | |
class _TTGlyphSetGlyf(_TTGlyphSet): | |
def __init__(self, font, location, recalcBounds=True): | |
self.glyfTable = font["glyf"] | |
super().__init__(font, location, self.glyfTable, recalcBounds=recalcBounds) | |
self.gvarTable = font.get("gvar") | |
def __getitem__(self, glyphName): | |
return _TTGlyphGlyf(self, glyphName, recalcBounds=self.recalcBounds) | |
class _TTGlyphSetCFF(_TTGlyphSet): | |
def __init__(self, font, location): | |
tableTag = "CFF2" if "CFF2" in font else "CFF " | |
self.charStrings = list(font[tableTag].cff.values())[0].CharStrings | |
super().__init__(font, location, self.charStrings) | |
self.blender = None | |
if location: | |
from fontTools.varLib.varStore import VarStoreInstancer | |
varStore = getattr(self.charStrings, "varStore", None) | |
if varStore is not None: | |
instancer = VarStoreInstancer( | |
varStore.otVarStore, font["fvar"].axes, location | |
) | |
self.blender = instancer.interpolateFromDeltas | |
def __getitem__(self, glyphName): | |
return _TTGlyphCFF(self, glyphName) | |
class _TTGlyphSetVARC(_TTGlyphSet): | |
def __init__(self, font, location, glyphSet): | |
self.glyphSet = glyphSet | |
super().__init__(font, location, glyphSet) | |
self.varcTable = font["VARC"].table | |
def __getitem__(self, glyphName): | |
varc = self.varcTable | |
if glyphName not in varc.Coverage.glyphs: | |
return self.glyphSet[glyphName] | |
return _TTGlyphVARC(self, glyphName) | |
class _TTGlyph(ABC): | |
"""Glyph object that supports the Pen protocol, meaning that it has | |
.draw() and .drawPoints() methods that take a pen object as their only | |
argument. Additionally there are 'width' and 'lsb' attributes, read from | |
the 'hmtx' table. | |
If the font contains a 'vmtx' table, there will also be 'height' and 'tsb' | |
attributes. | |
""" | |
def __init__(self, glyphSet, glyphName, *, recalcBounds=True): | |
self.glyphSet = glyphSet | |
self.name = glyphName | |
self.recalcBounds = recalcBounds | |
self.width, self.lsb = glyphSet.hMetrics[glyphName] | |
if glyphSet.vMetrics is not None: | |
self.height, self.tsb = glyphSet.vMetrics[glyphName] | |
else: | |
self.height, self.tsb = None, None | |
if glyphSet.location and glyphSet.hvarTable is not None: | |
varidx = ( | |
glyphSet.font.getGlyphID(glyphName) | |
if glyphSet.hvarTable.AdvWidthMap is None | |
else glyphSet.hvarTable.AdvWidthMap.mapping[glyphName] | |
) | |
self.width += glyphSet.hvarInstancer[varidx] | |
# TODO: VVAR/VORG | |
def draw(self, pen): | |
"""Draw the glyph onto ``pen``. See fontTools.pens.basePen for details | |
how that works. | |
""" | |
raise NotImplementedError | |
def drawPoints(self, pen): | |
"""Draw the glyph onto ``pen``. See fontTools.pens.pointPen for details | |
how that works. | |
""" | |
from fontTools.pens.pointPen import SegmentToPointPen | |
self.draw(SegmentToPointPen(pen)) | |
class _TTGlyphGlyf(_TTGlyph): | |
def draw(self, pen): | |
"""Draw the glyph onto ``pen``. See fontTools.pens.basePen for details | |
how that works. | |
""" | |
glyph, offset = self._getGlyphAndOffset() | |
with self.glyphSet.pushDepth() as depth: | |
if depth: | |
offset = 0 # Offset should only apply at top-level | |
glyph.draw(pen, self.glyphSet.glyfTable, offset) | |
def drawPoints(self, pen): | |
"""Draw the glyph onto ``pen``. See fontTools.pens.pointPen for details | |
how that works. | |
""" | |
glyph, offset = self._getGlyphAndOffset() | |
with self.glyphSet.pushDepth() as depth: | |
if depth: | |
offset = 0 # Offset should only apply at top-level | |
glyph.drawPoints(pen, self.glyphSet.glyfTable, offset) | |
def _getGlyphAndOffset(self): | |
if self.glyphSet.location and self.glyphSet.gvarTable is not None: | |
glyph = self._getGlyphInstance() | |
else: | |
glyph = self.glyphSet.glyfTable[self.name] | |
offset = self.lsb - glyph.xMin if hasattr(glyph, "xMin") else 0 | |
return glyph, offset | |
def _getGlyphInstance(self): | |
from fontTools.varLib.iup import iup_delta | |
from fontTools.ttLib.tables._g_l_y_f import GlyphCoordinates | |
from fontTools.varLib.models import supportScalar | |
glyphSet = self.glyphSet | |
glyfTable = glyphSet.glyfTable | |
variations = glyphSet.gvarTable.variations[self.name] | |
hMetrics = glyphSet.hMetrics | |
vMetrics = glyphSet.vMetrics | |
coordinates, _ = glyfTable._getCoordinatesAndControls( | |
self.name, hMetrics, vMetrics | |
) | |
origCoords, endPts = None, None | |
for var in variations: | |
scalar = supportScalar(glyphSet.location, var.axes) | |
if not scalar: | |
continue | |
delta = var.coordinates | |
if None in delta: | |
if origCoords is None: | |
origCoords, control = glyfTable._getCoordinatesAndControls( | |
self.name, hMetrics, vMetrics | |
) | |
endPts = ( | |
control[1] if control[0] >= 1 else list(range(len(control[1]))) | |
) | |
delta = iup_delta(delta, origCoords, endPts) | |
coordinates += GlyphCoordinates(delta) * scalar | |
glyph = copy(glyfTable[self.name]) # Shallow copy | |
width, lsb, height, tsb = _setCoordinates( | |
glyph, coordinates, glyfTable, recalcBounds=self.recalcBounds | |
) | |
self.lsb = lsb | |
self.tsb = tsb | |
if glyphSet.hvarTable is None: | |
# no HVAR: let's set metrics from the phantom points | |
self.width = width | |
self.height = height | |
return glyph | |
class _TTGlyphCFF(_TTGlyph): | |
def draw(self, pen): | |
"""Draw the glyph onto ``pen``. See fontTools.pens.basePen for details | |
how that works. | |
""" | |
self.glyphSet.charStrings[self.name].draw(pen, self.glyphSet.blender) | |
def _evaluateCondition(condition, fvarAxes, location, instancer): | |
if condition.Format == 1: | |
# ConditionAxisRange | |
axisIndex = condition.AxisIndex | |
axisTag = fvarAxes[axisIndex].axisTag | |
axisValue = location.get(axisTag, 0) | |
minValue = condition.FilterRangeMinValue | |
maxValue = condition.FilterRangeMaxValue | |
return minValue <= axisValue <= maxValue | |
elif condition.Format == 2: | |
# ConditionValue | |
value = condition.DefaultValue | |
value += instancer[condition.VarIdx][0] | |
return value > 0 | |
elif condition.Format == 3: | |
# ConditionAnd | |
for subcondition in condition.ConditionTable: | |
if not _evaluateCondition(subcondition, fvarAxes, location, instancer): | |
return False | |
return True | |
elif condition.Format == 4: | |
# ConditionOr | |
for subcondition in condition.ConditionTable: | |
if _evaluateCondition(subcondition, fvarAxes, location, instancer): | |
return True | |
return False | |
elif condition.Format == 5: | |
# ConditionNegate | |
return not _evaluateCondition( | |
condition.conditionTable, fvarAxes, location, instancer | |
) | |
else: | |
return False # Unkonwn condition format | |
class _TTGlyphVARC(_TTGlyph): | |
def _draw(self, pen, isPointPen): | |
"""Draw the glyph onto ``pen``. See fontTools.pens.basePen for details | |
how that works. | |
""" | |
from fontTools.ttLib.tables.otTables import ( | |
VarComponentFlags, | |
NO_VARIATION_INDEX, | |
) | |
glyphSet = self.glyphSet | |
varc = glyphSet.varcTable | |
idx = varc.Coverage.glyphs.index(self.name) | |
glyph = varc.VarCompositeGlyphs.VarCompositeGlyph[idx] | |
from fontTools.varLib.multiVarStore import MultiVarStoreInstancer | |
from fontTools.varLib.varStore import VarStoreInstancer | |
fvarAxes = glyphSet.font["fvar"].axes | |
instancer = MultiVarStoreInstancer( | |
varc.MultiVarStore, fvarAxes, self.glyphSet.location | |
) | |
for comp in glyph.components: | |
if comp.flags & VarComponentFlags.HAVE_CONDITION: | |
condition = varc.ConditionList.ConditionTable[comp.conditionIndex] | |
if not _evaluateCondition( | |
condition, fvarAxes, self.glyphSet.location, instancer | |
): | |
continue | |
location = {} | |
if comp.axisIndicesIndex is not None: | |
axisIndices = varc.AxisIndicesList.Item[comp.axisIndicesIndex] | |
axisValues = Vector(comp.axisValues) | |
if comp.axisValuesVarIndex != NO_VARIATION_INDEX: | |
axisValues += fi2fl(instancer[comp.axisValuesVarIndex], 14) | |
assert len(axisIndices) == len(axisValues), ( | |
len(axisIndices), | |
len(axisValues), | |
) | |
location = { | |
fvarAxes[i].axisTag: v for i, v in zip(axisIndices, axisValues) | |
} | |
if comp.transformVarIndex != NO_VARIATION_INDEX: | |
deltas = instancer[comp.transformVarIndex] | |
comp = deepcopy(comp) | |
comp.applyTransformDeltas(deltas) | |
transform = comp.transform | |
reset = comp.flags & VarComponentFlags.RESET_UNSPECIFIED_AXES | |
with self.glyphSet.glyphSet.pushLocation(location, reset): | |
with self.glyphSet.pushLocation(location, reset): | |
shouldDecompose = self.name == comp.glyphName | |
if not shouldDecompose: | |
try: | |
pen.addVarComponent( | |
comp.glyphName, transform, self.glyphSet.rawLocation | |
) | |
except AttributeError: | |
shouldDecompose = True | |
if shouldDecompose: | |
t = transform.toTransform() | |
compGlyphSet = ( | |
self.glyphSet | |
if comp.glyphName != self.name | |
else glyphSet.glyphSet | |
) | |
g = compGlyphSet[comp.glyphName] | |
if isPointPen: | |
tPen = TransformPointPen(pen, t) | |
g.drawPoints(tPen) | |
else: | |
tPen = TransformPen(pen, t) | |
g.draw(tPen) | |
def draw(self, pen): | |
self._draw(pen, False) | |
def drawPoints(self, pen): | |
self._draw(pen, True) | |
def _setCoordinates(glyph, coord, glyfTable, *, recalcBounds=True): | |
# Handle phantom points for (left, right, top, bottom) positions. | |
assert len(coord) >= 4 | |
leftSideX = coord[-4][0] | |
rightSideX = coord[-3][0] | |
topSideY = coord[-2][1] | |
bottomSideY = coord[-1][1] | |
for _ in range(4): | |
del coord[-1] | |
if glyph.isComposite(): | |
assert len(coord) == len(glyph.components) | |
glyph.components = [copy(comp) for comp in glyph.components] # Shallow copy | |
for p, comp in zip(coord, glyph.components): | |
if hasattr(comp, "x"): | |
comp.x, comp.y = p | |
elif glyph.numberOfContours == 0: | |
assert len(coord) == 0 | |
else: | |
assert len(coord) == len(glyph.coordinates) | |
glyph.coordinates = coord | |
if recalcBounds: | |
glyph.recalcBounds(glyfTable) | |
horizontalAdvanceWidth = otRound(rightSideX - leftSideX) | |
verticalAdvanceWidth = otRound(topSideY - bottomSideY) | |
leftSideBearing = otRound(glyph.xMin - leftSideX) | |
topSideBearing = otRound(topSideY - glyph.yMax) | |
return ( | |
horizontalAdvanceWidth, | |
leftSideBearing, | |
verticalAdvanceWidth, | |
topSideBearing, | |
) | |
class LerpGlyphSet(Mapping): | |
"""A glyphset that interpolates between two other glyphsets. | |
Factor is typically between 0 and 1. 0 means the first glyphset, | |
1 means the second glyphset, and 0.5 means the average of the | |
two glyphsets. Other values are possible, and can be useful to | |
extrapolate. Defaults to 0.5. | |
""" | |
def __init__(self, glyphset1, glyphset2, factor=0.5): | |
self.glyphset1 = glyphset1 | |
self.glyphset2 = glyphset2 | |
self.factor = factor | |
def __getitem__(self, glyphname): | |
if glyphname in self.glyphset1 and glyphname in self.glyphset2: | |
return LerpGlyph(glyphname, self) | |
raise KeyError(glyphname) | |
def __contains__(self, glyphname): | |
return glyphname in self.glyphset1 and glyphname in self.glyphset2 | |
def __iter__(self): | |
set1 = set(self.glyphset1) | |
set2 = set(self.glyphset2) | |
return iter(set1.intersection(set2)) | |
def __len__(self): | |
set1 = set(self.glyphset1) | |
set2 = set(self.glyphset2) | |
return len(set1.intersection(set2)) | |
class LerpGlyph: | |
def __init__(self, glyphname, glyphset): | |
self.glyphset = glyphset | |
self.glyphname = glyphname | |
def draw(self, pen): | |
recording1 = DecomposingRecordingPen(self.glyphset.glyphset1) | |
self.glyphset.glyphset1[self.glyphname].draw(recording1) | |
recording2 = DecomposingRecordingPen(self.glyphset.glyphset2) | |
self.glyphset.glyphset2[self.glyphname].draw(recording2) | |
factor = self.glyphset.factor | |
replayRecording(lerpRecordings(recording1.value, recording2.value, factor), pen) | |