fonttools/Lib/fontTools/varLib/__init__.py

"""
Module for dealing with 'gvar'-style font variations, also known as run-time
interpolation.

The ideas here are very similar to MutatorMath.  There is even code to read
MutatorMath .designspace files in the varLib.designspace module.

For now, if you run this file on a designspace file, it tries to find
ttf-interpolatable files for the masters and build a GX variation font from
them.  Such ttf-interpolatable and designspace files can be generated from
a Glyphs source, eg., using noto-source as an example:

  $ fontmake -o ttf-interpolatable -g NotoSansArabic-MM.glyphs

Then you can make a GX font this way:

  $ python fonttools/Lib/fontTools/varLib/__init__.py master_ufo/NotoSansArabic.designspace

API *will* change in near future.
"""
from __future__ import print_function, division, absolute_import
from fontTools.misc.py23 import *
from fontTools.ttLib import TTFont, newTable
from fontTools.ttLib.tables._n_a_m_e import NameRecord
from fontTools.ttLib.tables._f_v_a_r import Axis, NamedInstance
from fontTools.ttLib.tables._g_l_y_f import GlyphCoordinates
from fontTools.ttLib.tables._g_v_a_r import GlyphVariation
from fontTools.ttLib.tables import otTables as ot
from fontTools.varLib import designspace, models, builder
import warnings
import os.path

#
# Creation routines
#

# TODO: Move to name table proper; also, is mac_roman ok for ASCII names?
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
	namerec.platformID, namerec.platEncID, namerec.langID = (1, 0, 0)
	nameTable.names.append(namerec)
	return namerec

# Move to fvar table proper?
def _add_fvar(font, axes, instances, axis_map):
	assert "fvar" not in font
	font['fvar'] = fvar = newTable('fvar')

	for iden in sorted(axes.keys()):
		axis = Axis()
		axis.axisTag = Tag(axis_map[iden][0])
		axis.minValue, axis.defaultValue, axis.maxValue = axes[iden]
		axis.nameID = _AddName(font, axis_map[iden][1]).nameID
		fvar.axes.append(axis)

	for name, coordinates in instances:
		inst = NamedInstance()
		inst.nameID = _AddName(font, name).nameID
		inst.coordinates = {axis_map[k][0]:v for k,v in coordinates.items()}
		fvar.instances.append(inst)

# TODO Move to glyf or gvar table proper
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.
	"""
	glyf = font["glyf"]
	if glyphName not in glyf.glyphs: return None
	glyph = glyf[glyphName]
	if glyph.isComposite():
		coord = GlyphCoordinates([(getattr(c, 'x', 0),getattr(c, 'y', 0)) for c in glyph.components])
		control = [c.glyphName for c in glyph.components]
	else:
		allData = glyph.getCoordinates(glyf)
		coord = allData[0]
		control = allData[1:]

	# Add phantom points for (left, right, top, bottom) positions.
	horizontalAdvanceWidth, leftSideBearing = font["hmtx"].metrics[glyphName]
	if not hasattr(glyph, 'xMin'):
		glyph.recalcBounds(glyf)
	leftSideX = glyph.xMin - leftSideBearing
	rightSideX = leftSideX + horizontalAdvanceWidth
	# XXX these are incorrect.  Load vmtx and fix.
	topSideY = glyph.yMax
	bottomSideY = -glyph.yMin
	coord = coord.copy()
	coord.extend([(leftSideX, 0),
	              (rightSideX, 0),
	              (0, topSideY),
	              (0, bottomSideY)])

	return coord, control

# TODO Move to glyf or gvar table proper
def _SetCoordinates(font, glyphName, coord):
	glyf = font["glyf"]
	assert glyphName in glyf.glyphs
	glyph = glyf[glyphName]

	# Handle phantom points for (left, right, top, bottom) positions.
	assert len(coord) >= 4
	if not hasattr(glyph, 'xMin'):
		glyph.recalcBounds(glyf)
	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)
		for p,comp in zip(coord, glyph.components):
			if hasattr(comp, 'x'):
				comp.x,comp.y = p
	elif glyph.numberOfContours is 0:
		assert len(coord) == 0
	else:
		assert len(coord) == len(glyph.coordinates)
		glyph.coordinates = coord

	glyph.recalcBounds(glyf)

	horizontalAdvanceWidth = rightSideX - leftSideX
	leftSideBearing = glyph.xMin - leftSideX
	# XXX Handle vertical
	# XXX Remove the round when https://github.com/behdad/fonttools/issues/593 is fixed
	font["hmtx"].metrics[glyphName] = int(round(horizontalAdvanceWidth)), int(round(leftSideBearing))


def _add_gvar(font, model, master_ttfs):

	print("Generating gvar")
	assert "gvar" not in font
	gvar = font["gvar"] = newTable('gvar')
	gvar.version = 1
	gvar.reserved = 0
	gvar.variations = {}

	for glyph in font.getGlyphOrder():

		allData = [_GetCoordinates(m, glyph) for m in master_ttfs]
		allCoords = [d[0] for d in allData]
		allControls = [d[1] for d in allData]
		control = allControls[0]
		if (any(c != control for c in allControls)):
			warnings.warn("glyph %s has incompatible masters; skipping" % glyph)
			continue
		del allControls

		# Update gvar
		gvar.variations[glyph] = []
		deltas = model.getDeltas(allCoords)
		supports = model.supports
		assert len(deltas) == len(supports)
		for i,(delta,support) in enumerate(zip(deltas[1:], supports[1:])):
			var = GlyphVariation(support, delta)
			gvar.variations[glyph].append(var)

def _add_HVAR(font, model, master_ttfs, axes):

	print("Generating HVAR")

	hAdvanceDeltas = {}
	metricses = [m["hmtx"].metrics for m in master_ttfs]
	for glyph in font.getGlyphOrder():
		hAdvances = [metrics[glyph][0] for metrics in metricses]
		# TODO move round somewhere else?
		hAdvanceDeltas[glyph] = tuple(round(d) for d in model.getDeltas(hAdvances)[1:])

	# We only support the direct mapping right now.

	supports = model.supports[1:]
	varTupleList = builder.buildVarRegionList(supports, axes.keys())
	varTupleIndexes = list(range(len(supports)))
	n = len(supports)
	items = []
	zeroes = [0]*n
	for glyphName in font.getGlyphOrder():
		items.append(hAdvanceDeltas.get(glyphName, zeroes))
	while items and items[-1] is zeroes:
		del items[-1]

	advanceMapping = None
	# Add indirect mapping to save on duplicates
	uniq = set(items)
	# TODO Improve heuristic
	if (len(items) - len(uniq)) * len(varTupleIndexes) > len(items):
		newItems = sorted(uniq)
		mapper = {v:i for i,v in enumerate(newItems)}
		mapping = [mapper[item] for item in items]
		while len(mapping) > 1 and mapping[-1] == mapping[-2]:
			del mapping[-1]
		advanceMapping = builder.buildVarIdxMap(mapping)
		items = newItems
		del mapper, mapping, newItems
	del uniq

	varData = builder.buildVarData(varTupleIndexes, items)
	varStore = builder.buildVarStore(varTupleList, [varData])

	assert "HVAR" not in font
	HVAR = font["HVAR"] = newTable('HVAR')
	hvar = HVAR.table = ot.HVAR()
	hvar.Version = 1.0
	hvar.VarStore = varStore
	hvar.AdvWidthMap = advanceMapping
	hvar.LsbMap = hvar.RsbMap = None


def _all_equal(lst):
	it = iter(lst)
	v0 = next(it)
	for v in it:
		if v0 != v:
			return False
	return True

def buildVarDevTable(store, master_values):
	if _all_equal(master_values):
		return None
	deltas = master_values
	return builder.buildVarDevTable(0xdeadbeef)

def _merge_OTL(font, model, master_ttfs, axes, base_idx):

	print("Merging OpenType Layout tables")

	GDEFs = [m['GDEF'].table for m in master_ttfs]
	GPOSs = [m['GPOS'].table for m in master_ttfs]
	GSUBs = [m['GSUB'].table for m in master_ttfs]

	# Reuse the base font's tables
	for tag in 'GDEF', 'GPOS', 'GSUB':
		font[tag] = master_ttfs[base_idx][tag]

	GPOS = font['GPOS'].table

	getAnchor = lambda GPOS: GPOS.LookupList.Lookup[4].SubTable[0].MarkArray.MarkRecord[28].MarkAnchor
	store_builder = builder.OnlineVarStoreBuilder(axes.keys())
	store_builder.setModel(model)

	anchors = [getAnchor(G) for G in GPOSs]
	anchor = getAnchor(GPOS)

	XDeviceTable = buildVarDevTable(store_builder, [a.XCoordinate for a in anchors])
	YDeviceTable = buildVarDevTable(store_builder, [a.YCoordinate for a in anchors])
	if XDeviceTable or YDeviceTable:
		anchor.Format = 3
		anchor.XDeviceTable = XDeviceTable
		anchor.YDeviceTable = YDeviceTable

	store = store_builder.finish()
	# TODO insert in GDEF


def main(args=None):

	if args is None:
		import sys
		args = sys.argv[1:]

	(designspace_filename,) = args
	finder = lambda s: s.replace('master_ufo', 'master_ttf_interpolatable').replace('.ufo', '.ttf')
	axisMap = None # dict mapping axis id to (axis tag, axis name)
	outfile = os.path.splitext(designspace_filename)[0] + '-GX.ttf'

	masters, instances = designspace.load(designspace_filename)
	base_idx = None
	for i,m in enumerate(masters):
		if 'info' in m and m['info']['copy']:
			assert base_idx is None
			base_idx = i
	assert base_idx is not None, "Cannot find 'base' master; Add <info> element to one of the masters in the .designspace document."

	from pprint import pprint
	print("Masters:")
	pprint(masters)
	print("Instances:")
	pprint(instances)
	print("Index of base master:", base_idx)

	print("Building GX")
	print("Loading TTF masters")
	basedir = os.path.dirname(designspace_filename)
	master_ttfs = [finder(os.path.join(basedir, m['filename'])) for m in masters]
	master_fonts = [TTFont(ttf_path) for ttf_path in master_ttfs]

	standard_axis_map = {
		'weight':  ('wght', 'Weight'),
		'width':   ('wdth', 'Width'),
		'slant':   ('slnt', 'Slant'),
		'optical': ('opsz', 'Optical Size'),
		'custom':  ('xxxx', 'Custom'),
	}

	axis_map = standard_axis_map
	if axisMap:
		axis_map = axis_map.copy()
		axis_map.update(axisMap)

	# TODO: For weight & width, use OS/2 values and setup 'avar' mapping.

	master_locs = [o['location'] for o in masters]
	instance_locs = [o['location'] for o in instances]

	axis_tags = set(master_locs[0].keys())
	assert all(axis_tags == set(m.keys()) for m in master_locs)
	print("Axis tags:", axis_tags)
	print("Master positions:")
	pprint(master_locs)

	# Set up axes
	axes = {}
	for tag in axis_tags:
		default = master_locs[base_idx][tag]
		lower = min(m[tag] for m in master_locs)
		upper = max(m[tag] for m in master_locs)
		axes[tag] = (lower, default, upper)
	print("Axes:")
	pprint(axes)

	# Set up named instances
	instance_list = []
	for loc,instance in zip(instance_locs,instances):
		style = instance['stylename']
		instance_list.append((style, loc))
	# TODO append masters as named-instances as well; needs .designspace change.

	# We can use the base font straight, but it's faster to load it again since
	# then we won't be recompiling the existing ('glyf', 'hmtx', ...) tables.
	#gx = master_fonts[base_idx]
	gx = TTFont(master_ttfs[base_idx])

	_add_fvar(gx, axes, instance_list, axis_map)

	# Normalize master locations
	master_locs = [models.normalizeLocation(m, axes) for m in master_locs]
	print("Normalized master positions:")
	print(master_locs)

	# Assume single-model for now.
	model = models.VariationModel(master_locs)
	assert 0 == model.mapping[base_idx]

	print("Building variations tables")
	_add_gvar(gx, model, master_fonts)
	_add_HVAR(gx, model, master_fonts, axes)
	#_merge_OTL(gx, model, master_fonts, axes, base_idx)

	print("Saving GX font", outfile)
	gx.save(outfile)


if __name__ == "__main__":
	import sys
	if len(sys.argv) > 1:
		main()
		#sys.exit(0)
	import doctest, sys
	sys.exit(doctest.testmod().failed)