Snippets/interpolate.py - third_party/fonttools - Git at Google

 #! /usr/bin/env python

 # Illustrates how a fonttools script can construct variable fonts.
 #
 # This script reads Roboto-Thin.ttf, Roboto-Regular.ttf, and
 # Roboto-Black.ttf from /tmp/Roboto, and writes a Multiple Master GX
 # font named "Roboto.ttf" into the current working directory.
 # This output font supports interpolation along the Weight axis,
 # and it contains named instances for "Thin", "Light", "Regular",
 # "Bold", and "Black".
 #
 # All input fonts must contain the same set of glyphs, and these glyphs
 # need to have the same control points in the same order. Note that this
 # is *not* the case for the normal Roboto fonts that can be downloaded
 # from Google. This demo script prints a warning for any problematic
 # glyphs; in the resulting font, these glyphs will not be interpolated
 # and get rendered in the "Regular" weight.
 #
 # Usage:
 # $ mkdir /tmp/Roboto && cp Roboto-*.ttf /tmp/Roboto
 # $ ./interpolate.py && open Roboto.ttf


 from __future__ import print_function, division, absolute_import
 from fontTools.misc.py23 import *
 from fontTools.ttLib import TTFont
 from fontTools.ttLib.tables._n_a_m_e import NameRecord
 from fontTools.ttLib.tables._f_v_a_r import table__f_v_a_r, Axis, NamedInstance
 from fontTools.ttLib.tables._g_v_a_r import table__g_v_a_r, TupleVariation
 import logging


 def AddFontVariations(font):
     assert "fvar" not in font
     fvar = font["fvar"] = table__f_v_a_r()

     weight = Axis()
     weight.axisTag = "wght"
     weight.nameID = AddName(font, "Weight").nameID
     weight.minValue, weight.defaultValue, weight.maxValue = (100, 400, 900)
     fvar.axes.append(weight)

     # https://www.microsoft.com/typography/otspec/os2.htm#wtc
     for name, wght in (
             ("Thin", 100),
             ("Light", 300),
             ("Regular", 400),
             ("Bold", 700),
             ("Black", 900)):
         inst = NamedInstance()
         inst.nameID = AddName(font, name).nameID
         inst.coordinates = {"wght": wght}
         fvar.instances.append(inst)


 def AddName(font, name):
     """(font, "Bold") --> NameRecord"""
     nameTable = font.get("name")
     namerec = NameRecord()
     namerec.nameID = 1 + max([n.nameID for n in nameTable.names] + [256])
     namerec.string = name.encode("mac_roman")
     namerec.platformID, namerec.platEncID, namerec.langID = (1, 0, 0)
     nameTable.names.append(namerec)
     return namerec


 def AddGlyphVariations(font, thin, regular, black):
     assert "gvar" not in font
     gvar = font["gvar"] = table__g_v_a_r()
     gvar.version = 1
     gvar.reserved = 0
     gvar.variations = {}
     for glyphName in regular.getGlyphOrder():
         regularCoord = GetCoordinates(regular, glyphName)
         thinCoord = GetCoordinates(thin, glyphName)
         blackCoord = GetCoordinates(black, glyphName)
         if not regularCoord or not blackCoord or not thinCoord:
             logging.warning("glyph %s not present in all input fonts",
                             glyphName)
             continue
         if (len(regularCoord) != len(blackCoord) or
             len(regularCoord) != len(thinCoord)):
             logging.warning("glyph %s has not the same number of "
                             "control points in all input fonts", glyphName)
             continue
         thinDelta = []
         blackDelta = []
         for ((regX, regY), (blackX, blackY), (thinX, thinY)) in \
                 zip(regularCoord, blackCoord, thinCoord):
             thinDelta.append(((thinX - regX, thinY - regY)))
             blackDelta.append((blackX - regX, blackY - regY))
         thinVar = TupleVariation({"wght": (-1.0, -1.0, 0.0)}, thinDelta)
         blackVar = TupleVariation({"wght": (0.0, 1.0, 1.0)}, blackDelta)
         gvar.variations[glyphName] = [thinVar, blackVar]


 def GetCoordinates(font, glyphName):
     """font, glyphName --> glyph coordinates as expected by "gvar" table

     The result includes four "phantom points" for the glyph metrics,
     as mandated by the "gvar" spec.
     """
     glyphTable = font["glyf"]
     glyph = glyphTable.glyphs.get(glyphName)
     if glyph is None:
         return None
     glyph.expand(glyphTable)
     glyph.recalcBounds(glyphTable)
     if glyph.isComposite():
         coord = [c.getComponentInfo()[1][-2:] for c in glyph.components]
     else:
         coord = [c for c in glyph.getCoordinates(glyphTable)[0]]
     # Add phantom points for (left, right, top, bottom) positions.
     horizontalAdvanceWidth, leftSideBearing = font["hmtx"].metrics[glyphName]


     leftSideX = glyph.xMin - leftSideBearing
     rightSideX = leftSideX + horizontalAdvanceWidth

     # XXX these are incorrect.  Load vmtx and fix.
     topSideY = glyph.yMax
     bottomSideY = -glyph.yMin

     coord.extend([(leftSideX, 0),
                   (rightSideX, 0),
                   (0, topSideY),
                   (0, bottomSideY)])
     return coord


 def main():
     logging.basicConfig(format="%(levelname)s: %(message)s")
     thin = TTFont("/tmp/Roboto/Roboto-Thin.ttf")
     regular = TTFont("/tmp/Roboto/Roboto-Regular.ttf")
     black = TTFont("/tmp/Roboto/Roboto-Black.ttf")
     out = regular
     AddFontVariations(out)
     AddGlyphVariations(out, thin, regular, black)
     out.save("./Roboto.ttf")


 if __name__ == "__main__":
     import sys
     sys.exit(main())
	#! /usr/bin/env python

	# Illustrates how a fonttools script can construct variable fonts.
	#
	# This script reads Roboto-Thin.ttf, Roboto-Regular.ttf, and
	# Roboto-Black.ttf from /tmp/Roboto, and writes a Multiple Master GX
	# font named "Roboto.ttf" into the current working directory.
	# This output font supports interpolation along the Weight axis,
	# and it contains named instances for "Thin", "Light", "Regular",
	# "Bold", and "Black".
	#
	# All input fonts must contain the same set of glyphs, and these glyphs
	# need to have the same control points in the same order. Note that this
	# is not the case for the normal Roboto fonts that can be downloaded
	# from Google. This demo script prints a warning for any problematic
	# glyphs; in the resulting font, these glyphs will not be interpolated
	# and get rendered in the "Regular" weight.
	#
	# Usage:
	# $ mkdir /tmp/Roboto && cp Roboto-*.ttf /tmp/Roboto
	# $ ./interpolate.py && open Roboto.ttf


	from __future__ import print_function, division, absolute_import
	from fontTools.misc.py23 import *
	from fontTools.ttLib import TTFont
	from fontTools.ttLib.tables._n_a_m_e import NameRecord
	from fontTools.ttLib.tables._f_v_a_r import table__f_v_a_r, Axis, NamedInstance
	from fontTools.ttLib.tables._g_v_a_r import table__g_v_a_r, TupleVariation
	import logging


	def AddFontVariations(font):
	assert "fvar" not in font
	fvar = font["fvar"] = table__f_v_a_r()

	weight = Axis()
	weight.axisTag = "wght"
	weight.nameID = AddName(font, "Weight").nameID
	weight.minValue, weight.defaultValue, weight.maxValue = (100, 400, 900)
	fvar.axes.append(weight)

	# https://www.microsoft.com/typography/otspec/os2.htm#wtc
	for name, wght in (
	("Thin", 100),
	("Light", 300),
	("Regular", 400),
	("Bold", 700),
	("Black", 900)):
	inst = NamedInstance()
	inst.nameID = AddName(font, name).nameID
	inst.coordinates = {"wght": wght}
	fvar.instances.append(inst)


	def AddName(font, name):
	"""(font, "Bold") --> NameRecord"""
	nameTable = font.get("name")
	namerec = NameRecord()
	namerec.nameID = 1 + max([n.nameID for n in nameTable.names] + [256])
	namerec.string = name.encode("mac_roman")
	namerec.platformID, namerec.platEncID, namerec.langID = (1, 0, 0)
	nameTable.names.append(namerec)
	return namerec


	def AddGlyphVariations(font, thin, regular, black):
	assert "gvar" not in font
	gvar = font["gvar"] = table__g_v_a_r()
	gvar.version = 1
	gvar.reserved = 0
	gvar.variations = {}
	for glyphName in regular.getGlyphOrder():
	regularCoord = GetCoordinates(regular, glyphName)
	thinCoord = GetCoordinates(thin, glyphName)
	blackCoord = GetCoordinates(black, glyphName)
	if not regularCoord or not blackCoord or not thinCoord:
	logging.warning("glyph %s not present in all input fonts",
	glyphName)
	continue
	if (len(regularCoord) != len(blackCoord) or
	len(regularCoord) != len(thinCoord)):
	logging.warning("glyph %s has not the same number of "
	"control points in all input fonts", glyphName)
	continue
	thinDelta = []
	blackDelta = []
	for ((regX, regY), (blackX, blackY), (thinX, thinY)) in \
	zip(regularCoord, blackCoord, thinCoord):
	thinDelta.append(((thinX - regX, thinY - regY)))
	blackDelta.append((blackX - regX, blackY - regY))
	thinVar = TupleVariation({"wght": (-1.0, -1.0, 0.0)}, thinDelta)
	blackVar = TupleVariation({"wght": (0.0, 1.0, 1.0)}, blackDelta)
	gvar.variations[glyphName] = [thinVar, blackVar]


	def GetCoordinates(font, glyphName):
	"""font, glyphName --> glyph coordinates as expected by "gvar" table

	The result includes four "phantom points" for the glyph metrics,
	as mandated by the "gvar" spec.
	"""
	glyphTable = font["glyf"]
	glyph = glyphTable.glyphs.get(glyphName)
	if glyph is None:
	return None
	glyph.expand(glyphTable)
	glyph.recalcBounds(glyphTable)
	if glyph.isComposite():
	coord = [c.getComponentInfo()[1][-2:] for c in glyph.components]
	else:
	coord = [c for c in glyph.getCoordinates(glyphTable)[0]]
	# Add phantom points for (left, right, top, bottom) positions.
	horizontalAdvanceWidth, leftSideBearing = font["hmtx"].metrics[glyphName]


	leftSideX = glyph.xMin - leftSideBearing
	rightSideX = leftSideX + horizontalAdvanceWidth

	# XXX these are incorrect. Load vmtx and fix.
	topSideY = glyph.yMax
	bottomSideY = -glyph.yMin

	coord.extend([(leftSideX, 0),
	(rightSideX, 0),
	(0, topSideY),
	(0, bottomSideY)])
	return coord


	def main():
	logging.basicConfig(format="%(levelname)s: %(message)s")
	thin = TTFont("/tmp/Roboto/Roboto-Thin.ttf")
	regular = TTFont("/tmp/Roboto/Roboto-Regular.ttf")
	black = TTFont("/tmp/Roboto/Roboto-Black.ttf")
	out = regular
	AddFontVariations(out)
	AddGlyphVariations(out, thin, regular, black)
	out.save("./Roboto.ttf")


	if __name__ == "__main__":
	import sys
	sys.exit(main())