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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
@contextmanager
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()
@contextmanager
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)
@deprecateFunction(
"use 'glyphName in glyphSet' instead", category=DeprecationWarning
)
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
@abstractmethod
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)