Source code for fontTools.feaLib.builder

from fontTools.misc import sstruct
from fontTools.misc.textTools import Tag, tostr, binary2num, safeEval
from fontTools.feaLib.error import FeatureLibError
from fontTools.feaLib.lookupDebugInfo import (
from fontTools.feaLib.parser import Parser
from fontTools.feaLib.ast import FeatureFile
from fontTools.feaLib.variableScalar import VariableScalar
from fontTools.otlLib import builder as otl
from fontTools.otlLib.maxContextCalc import maxCtxFont
from fontTools.ttLib import newTable, getTableModule
from fontTools.ttLib.tables import otBase, otTables
from fontTools.otlLib.builder import (
from fontTools.otlLib.error import OpenTypeLibError
from fontTools.varLib.varStore import OnlineVarStoreBuilder
from fontTools.varLib.builder import buildVarDevTable
from fontTools.varLib.featureVars import addFeatureVariationsRaw
from fontTools.varLib.models import normalizeValue, piecewiseLinearMap
from collections import defaultdict
import copy
import itertools
from io import StringIO
import logging
import warnings
import os

log = logging.getLogger(__name__)

[docs] def addOpenTypeFeatures(font, featurefile, tables=None, debug=False): """Add features from a file to a font. Note that this replaces any features currently present. Args: font (feaLib.ttLib.TTFont): The font object. featurefile: Either a path or file object (in which case we parse it into an AST), or a pre-parsed AST instance. tables: If passed, restrict the set of affected tables to those in the list. debug: Whether to add source debugging information to the font in the ``Debg`` table """ builder = Builder(font, featurefile), debug=debug)
[docs] def addOpenTypeFeaturesFromString( font, features, filename=None, tables=None, debug=False ): """Add features from a string to a font. Note that this replaces any features currently present. Args: font (feaLib.ttLib.TTFont): The font object. features: A string containing feature code. filename: The directory containing ``filename`` is used as the root of relative ``include()`` paths; if ``None`` is provided, the current directory is assumed. tables: If passed, restrict the set of affected tables to those in the list. debug: Whether to add source debugging information to the font in the ``Debg`` table """ featurefile = StringIO(tostr(features)) if filename: = filename addOpenTypeFeatures(font, featurefile, tables=tables, debug=debug)
class Builder(object): supportedTables = frozenset( Tag(tag) for tag in [ "BASE", "GDEF", "GPOS", "GSUB", "OS/2", "head", "hhea", "name", "vhea", "STAT", ] ) def __init__(self, font, featurefile): self.font = font # 'featurefile' can be either a path or file object (in which case we # parse it into an AST), or a pre-parsed AST instance if isinstance(featurefile, FeatureFile): self.parseTree, self.file = featurefile, None else: self.parseTree, self.file = None, featurefile self.glyphMap = font.getReverseGlyphMap() self.varstorebuilder = None if "fvar" in font: self.axes = font["fvar"].axes self.varstorebuilder = OnlineVarStoreBuilder( [ax.axisTag for ax in self.axes] ) self.default_language_systems_ = set() self.script_ = None self.lookupflag_ = 0 self.lookupflag_markFilterSet_ = None self.language_systems = set() self.seen_non_DFLT_script_ = False self.named_lookups_ = {} self.cur_lookup_ = None self.cur_lookup_name_ = None self.cur_feature_name_ = None self.lookups_ = [] self.lookup_locations = {"GSUB": {}, "GPOS": {}} self.features_ = {} # ('latn', 'DEU ', 'smcp') --> [LookupBuilder*] self.required_features_ = {} # ('latn', 'DEU ') --> 'scmp' self.feature_variations_ = {} # for feature 'aalt' self.aalt_features_ = [] # [(location, featureName)*], for 'aalt' self.aalt_location_ = None self.aalt_alternates_ = {} # for 'featureNames' self.featureNames_ = set() self.featureNames_ids_ = {} # for 'cvParameters' self.cv_parameters_ = set() self.cv_parameters_ids_ = {} self.cv_num_named_params_ = {} self.cv_characters_ = defaultdict(list) # for feature 'size' self.size_parameters_ = None # for table 'head' self.fontRevision_ = None # 2.71 # for table 'name' self.names_ = [] # for table 'BASE' self.base_horiz_axis_ = None self.base_vert_axis_ = None # for table 'GDEF' self.attachPoints_ = {} # "a" --> {3, 7} self.ligCaretCoords_ = {} # "f_f_i" --> {300, 600} self.ligCaretPoints_ = {} # "f_f_i" --> {3, 7} self.glyphClassDefs_ = {} # "fi" --> (2, (file, line, column)) self.markAttach_ = {} # "acute" --> (4, (file, line, column)) self.markAttachClassID_ = {} # frozenset({"acute", "grave"}) --> 4 self.markFilterSets_ = {} # frozenset({"acute", "grave"}) --> 4 # for table 'OS/2' self.os2_ = {} # for table 'hhea' self.hhea_ = {} # for table 'vhea' self.vhea_ = {} # for table 'STAT' self.stat_ = {} # for conditionsets self.conditionsets_ = {} # We will often use exactly the same locations (i.e. the font's masters) # for a large number of variable scalars. Instead of creating a model # for each, let's share the models. self.model_cache = {} def build(self, tables=None, debug=False): if self.parseTree is None: self.parseTree = Parser(self.file, self.glyphMap).parse() # by default, build all the supported tables if tables is None: tables = self.supportedTables else: tables = frozenset(tables) unsupported = tables - self.supportedTables if unsupported: unsupported_string = ", ".join(sorted(unsupported)) raise NotImplementedError( "The following tables were requested but are unsupported: " f"{unsupported_string}." ) if "GSUB" in tables: self.build_feature_aalt_() if "head" in tables: self.build_head() if "hhea" in tables: self.build_hhea() if "vhea" in tables: self.build_vhea() if "name" in tables: self.build_name() if "OS/2" in tables: self.build_OS_2() if "STAT" in tables: self.build_STAT() for tag in ("GPOS", "GSUB"): if tag not in tables: continue table = self.makeTable(tag) if self.feature_variations_: self.makeFeatureVariations(table, tag) if ( table.ScriptList.ScriptCount > 0 or table.FeatureList.FeatureCount > 0 or table.LookupList.LookupCount > 0 ): fontTable = self.font[tag] = newTable(tag) fontTable.table = table elif tag in self.font: del self.font[tag] if any(tag in self.font for tag in ("GPOS", "GSUB")) and "OS/2" in self.font: self.font["OS/2"].usMaxContext = maxCtxFont(self.font) if "GDEF" in tables: gdef = self.buildGDEF() if gdef: self.font["GDEF"] = gdef elif "GDEF" in self.font: del self.font["GDEF"] if "BASE" in tables: base = self.buildBASE() if base: self.font["BASE"] = base elif "BASE" in self.font: del self.font["BASE"] if debug or os.environ.get(LOOKUP_DEBUG_ENV_VAR): self.buildDebg() def get_chained_lookup_(self, location, builder_class): result = builder_class(self.font, location) result.lookupflag = self.lookupflag_ result.markFilterSet = self.lookupflag_markFilterSet_ self.lookups_.append(result) return result def add_lookup_to_feature_(self, lookup, feature_name): for script, lang in self.language_systems: key = (script, lang, feature_name) self.features_.setdefault(key, []).append(lookup) def get_lookup_(self, location, builder_class): if ( self.cur_lookup_ and type(self.cur_lookup_) == builder_class and self.cur_lookup_.lookupflag == self.lookupflag_ and self.cur_lookup_.markFilterSet == self.lookupflag_markFilterSet_ ): return self.cur_lookup_ if self.cur_lookup_name_ and self.cur_lookup_: raise FeatureLibError( "Within a named lookup block, all rules must be of " "the same lookup type and flag", location, ) self.cur_lookup_ = builder_class(self.font, location) self.cur_lookup_.lookupflag = self.lookupflag_ self.cur_lookup_.markFilterSet = self.lookupflag_markFilterSet_ self.lookups_.append(self.cur_lookup_) if self.cur_lookup_name_: # We are starting a lookup rule inside a named lookup block. self.named_lookups_[self.cur_lookup_name_] = self.cur_lookup_ if self.cur_feature_name_: # We are starting a lookup rule inside a feature. This includes # lookup rules inside named lookups inside features. self.add_lookup_to_feature_(self.cur_lookup_, self.cur_feature_name_) return self.cur_lookup_ def build_feature_aalt_(self): if not self.aalt_features_ and not self.aalt_alternates_: return # > alternate glyphs will be sorted in the order that the source features # > are named in the aalt definition, not the order of the feature definitions # > in the file. Alternates defined explicitly ... will precede all others. # alternates = {g: list(a) for g, a in self.aalt_alternates_.items()} for location, name in self.aalt_features_ + [(None, "aalt")]: feature = [ (script, lang, feature, lookups) for (script, lang, feature), lookups in self.features_.items() if feature == name ] # "aalt" does not have to specify its own lookups, but it might. if not feature and name != "aalt": warnings.warn("%s: Feature %s has not been defined" % (location, name)) continue for script, lang, feature, lookups in feature: for lookuplist in lookups: if not isinstance(lookuplist, list): lookuplist = [lookuplist] for lookup in lookuplist: for glyph, alts in lookup.getAlternateGlyphs().items(): alts_for_glyph = alternates.setdefault(glyph, []) alts_for_glyph.extend( g for g in alts if g not in alts_for_glyph ) single = { glyph: repl[0] for glyph, repl in alternates.items() if len(repl) == 1 } multi = {glyph: repl for glyph, repl in alternates.items() if len(repl) > 1} if not single and not multi: return self.features_ = { (script, lang, feature): lookups for (script, lang, feature), lookups in self.features_.items() if feature != "aalt" } old_lookups = self.lookups_ self.lookups_ = [] self.start_feature(self.aalt_location_, "aalt") if single: single_lookup = self.get_lookup_(location, SingleSubstBuilder) single_lookup.mapping = single if multi: multi_lookup = self.get_lookup_(location, AlternateSubstBuilder) multi_lookup.alternates = multi self.end_feature() self.lookups_.extend(old_lookups) def build_head(self): if not self.fontRevision_: return table = self.font.get("head") if not table: # this only happens for unit tests table = self.font["head"] = newTable("head") table.decompile(b"\0" * 54, self.font) table.tableVersion = 1.0 table.created = table.modified = 3406620153 # 2011-12-13 11:22:33 table.fontRevision = self.fontRevision_ def build_hhea(self): if not self.hhea_: return table = self.font.get("hhea") if not table: # this only happens for unit tests table = self.font["hhea"] = newTable("hhea") table.decompile(b"\0" * 36, self.font) table.tableVersion = 0x00010000 if "caretoffset" in self.hhea_: table.caretOffset = self.hhea_["caretoffset"] if "ascender" in self.hhea_: table.ascent = self.hhea_["ascender"] if "descender" in self.hhea_: table.descent = self.hhea_["descender"] if "linegap" in self.hhea_: table.lineGap = self.hhea_["linegap"] def build_vhea(self): if not self.vhea_: return table = self.font.get("vhea") if not table: # this only happens for unit tests table = self.font["vhea"] = newTable("vhea") table.decompile(b"\0" * 36, self.font) table.tableVersion = 0x00011000 if "verttypoascender" in self.vhea_: table.ascent = self.vhea_["verttypoascender"] if "verttypodescender" in self.vhea_: table.descent = self.vhea_["verttypodescender"] if "verttypolinegap" in self.vhea_: table.lineGap = self.vhea_["verttypolinegap"] def get_user_name_id(self, table): # Try to find first unused font-specific name id nameIDs = [name.nameID for name in table.names] for user_name_id in range(256, 32767): if user_name_id not in nameIDs: return user_name_id def buildFeatureParams(self, tag): params = None if tag == "size": params = otTables.FeatureParamsSize() ( params.DesignSize, params.SubfamilyID, params.RangeStart, params.RangeEnd, ) = self.size_parameters_ if tag in self.featureNames_ids_: params.SubfamilyNameID = self.featureNames_ids_[tag] else: params.SubfamilyNameID = 0 elif tag in self.featureNames_: if not self.featureNames_ids_: # name table wasn't selected among the tables to build; skip pass else: assert tag in self.featureNames_ids_ params = otTables.FeatureParamsStylisticSet() params.Version = 0 params.UINameID = self.featureNames_ids_[tag] elif tag in self.cv_parameters_: params = otTables.FeatureParamsCharacterVariants() params.Format = 0 params.FeatUILabelNameID = self.cv_parameters_ids_.get( (tag, "FeatUILabelNameID"), 0 ) params.FeatUITooltipTextNameID = self.cv_parameters_ids_.get( (tag, "FeatUITooltipTextNameID"), 0 ) params.SampleTextNameID = self.cv_parameters_ids_.get( (tag, "SampleTextNameID"), 0 ) params.NumNamedParameters = self.cv_num_named_params_.get(tag, 0) params.FirstParamUILabelNameID = self.cv_parameters_ids_.get( (tag, "ParamUILabelNameID_0"), 0 ) params.CharCount = len(self.cv_characters_[tag]) params.Character = self.cv_characters_[tag] return params def build_name(self): if not self.names_: return table = self.font.get("name") if not table: # this only happens for unit tests table = self.font["name"] = newTable("name") table.names = [] for name in self.names_: nameID, platformID, platEncID, langID, string = name # For featureNames block, nameID is 'feature tag' # For cvParameters blocks, nameID is ('feature tag', 'block name') if not isinstance(nameID, int): tag = nameID if tag in self.featureNames_: if tag not in self.featureNames_ids_: self.featureNames_ids_[tag] = self.get_user_name_id(table) assert self.featureNames_ids_[tag] is not None nameID = self.featureNames_ids_[tag] elif tag[0] in self.cv_parameters_: if tag not in self.cv_parameters_ids_: self.cv_parameters_ids_[tag] = self.get_user_name_id(table) assert self.cv_parameters_ids_[tag] is not None nameID = self.cv_parameters_ids_[tag] table.setName(string, nameID, platformID, platEncID, langID) table.names.sort() def build_OS_2(self): if not self.os2_: return table = self.font.get("OS/2") if not table: # this only happens for unit tests table = self.font["OS/2"] = newTable("OS/2") data = b"\0" * sstruct.calcsize(getTableModule("OS/2").OS2_format_0) table.decompile(data, self.font) version = 0 if "fstype" in self.os2_: table.fsType = self.os2_["fstype"] if "panose" in self.os2_: panose = getTableModule("OS/2").Panose() ( panose.bFamilyType, panose.bSerifStyle, panose.bWeight, panose.bProportion, panose.bContrast, panose.bStrokeVariation, panose.bArmStyle, panose.bLetterForm, panose.bMidline, panose.bXHeight, ) = self.os2_["panose"] table.panose = panose if "typoascender" in self.os2_: table.sTypoAscender = self.os2_["typoascender"] if "typodescender" in self.os2_: table.sTypoDescender = self.os2_["typodescender"] if "typolinegap" in self.os2_: table.sTypoLineGap = self.os2_["typolinegap"] if "winascent" in self.os2_: table.usWinAscent = self.os2_["winascent"] if "windescent" in self.os2_: table.usWinDescent = self.os2_["windescent"] if "vendor" in self.os2_: table.achVendID = safeEval("'''" + self.os2_["vendor"] + "'''") if "weightclass" in self.os2_: table.usWeightClass = self.os2_["weightclass"] if "widthclass" in self.os2_: table.usWidthClass = self.os2_["widthclass"] if "unicoderange" in self.os2_: table.setUnicodeRanges(self.os2_["unicoderange"]) if "codepagerange" in self.os2_: pages = self.build_codepages_(self.os2_["codepagerange"]) table.ulCodePageRange1, table.ulCodePageRange2 = pages version = 1 if "xheight" in self.os2_: table.sxHeight = self.os2_["xheight"] version = 2 if "capheight" in self.os2_: table.sCapHeight = self.os2_["capheight"] version = 2 if "loweropsize" in self.os2_: table.usLowerOpticalPointSize = self.os2_["loweropsize"] version = 5 if "upperopsize" in self.os2_: table.usUpperOpticalPointSize = self.os2_["upperopsize"] version = 5 def checkattr(table, attrs): for attr in attrs: if not hasattr(table, attr): setattr(table, attr, 0) table.version = max(version, table.version) # this only happens for unit tests if version >= 1: checkattr(table, ("ulCodePageRange1", "ulCodePageRange2")) if version >= 2: checkattr( table, ( "sxHeight", "sCapHeight", "usDefaultChar", "usBreakChar", "usMaxContext", ), ) if version >= 5: checkattr(table, ("usLowerOpticalPointSize", "usUpperOpticalPointSize")) def setElidedFallbackName(self, value, location): # ElidedFallbackName is a convenience method for setting # ElidedFallbackNameID so only one can be allowed for token in ("ElidedFallbackName", "ElidedFallbackNameID"): if token in self.stat_: raise FeatureLibError( f"{token} is already set.", location, ) if isinstance(value, int): self.stat_["ElidedFallbackNameID"] = value elif isinstance(value, list): self.stat_["ElidedFallbackName"] = value else: raise AssertionError(value) def addDesignAxis(self, designAxis, location): if "DesignAxes" not in self.stat_: self.stat_["DesignAxes"] = [] if designAxis.tag in (r.tag for r in self.stat_["DesignAxes"]): raise FeatureLibError( f'DesignAxis already defined for tag "{designAxis.tag}".', location, ) if designAxis.axisOrder in (r.axisOrder for r in self.stat_["DesignAxes"]): raise FeatureLibError( f"DesignAxis already defined for axis number {designAxis.axisOrder}.", location, ) self.stat_["DesignAxes"].append(designAxis) def addAxisValueRecord(self, axisValueRecord, location): if "AxisValueRecords" not in self.stat_: self.stat_["AxisValueRecords"] = [] # Check for duplicate AxisValueRecords for record_ in self.stat_["AxisValueRecords"]: if ( {n.asFea() for n in record_.names} == {n.asFea() for n in axisValueRecord.names} and {n.asFea() for n in record_.locations} == {n.asFea() for n in axisValueRecord.locations} and record_.flags == axisValueRecord.flags ): raise FeatureLibError( "An AxisValueRecord with these values is already defined.", location, ) self.stat_["AxisValueRecords"].append(axisValueRecord) def build_STAT(self): if not self.stat_: return axes = self.stat_.get("DesignAxes") if not axes: raise FeatureLibError("DesignAxes not defined", None) axisValueRecords = self.stat_.get("AxisValueRecords") axisValues = {} format4_locations = [] for tag in axes: axisValues[tag.tag] = [] if axisValueRecords is not None: for avr in axisValueRecords: valuesDict = {} if avr.flags > 0: valuesDict["flags"] = avr.flags if len(avr.locations) == 1: location = avr.locations[0] values = location.values if len(values) == 1: # format1 valuesDict.update({"value": values[0], "name": avr.names}) if len(values) == 2: # format3 valuesDict.update( { "value": values[0], "linkedValue": values[1], "name": avr.names, } ) if len(values) == 3: # format2 nominal, minVal, maxVal = values valuesDict.update( { "nominalValue": nominal, "rangeMinValue": minVal, "rangeMaxValue": maxVal, "name": avr.names, } ) axisValues[location.tag].append(valuesDict) else: valuesDict.update( { "location": {i.tag: i.values[0] for i in avr.locations}, "name": avr.names, } ) format4_locations.append(valuesDict) designAxes = [ { "ordering": a.axisOrder, "tag": a.tag, "name": a.names, "values": axisValues[a.tag], } for a in axes ] nameTable = self.font.get("name") if not nameTable: # this only happens for unit tests nameTable = self.font["name"] = newTable("name") nameTable.names = [] if "ElidedFallbackNameID" in self.stat_: nameID = self.stat_["ElidedFallbackNameID"] name = nameTable.getDebugName(nameID) if not name: raise FeatureLibError( f"ElidedFallbackNameID {nameID} points " "to a nameID that does not exist in the " '"name" table', None, ) elif "ElidedFallbackName" in self.stat_: nameID = self.stat_["ElidedFallbackName"] otl.buildStatTable( self.font, designAxes, locations=format4_locations, elidedFallbackName=nameID, ) def build_codepages_(self, pages): pages2bits = { 1252: 0, 1250: 1, 1251: 2, 1253: 3, 1254: 4, 1255: 5, 1256: 6, 1257: 7, 1258: 8, 874: 16, 932: 17, 936: 18, 949: 19, 950: 20, 1361: 21, 869: 48, 866: 49, 865: 50, 864: 51, 863: 52, 862: 53, 861: 54, 860: 55, 857: 56, 855: 57, 852: 58, 775: 59, 737: 60, 708: 61, 850: 62, 437: 63, } bits = [pages2bits[p] for p in pages if p in pages2bits] pages = [] for i in range(2): pages.append("") for j in range(i * 32, (i + 1) * 32): if j in bits: pages[i] += "1" else: pages[i] += "0" return [binary2num(p[::-1]) for p in pages] def buildBASE(self): if not self.base_horiz_axis_ and not self.base_vert_axis_: return None base = otTables.BASE() base.Version = 0x00010000 base.HorizAxis = self.buildBASEAxis(self.base_horiz_axis_) base.VertAxis = self.buildBASEAxis(self.base_vert_axis_) result = newTable("BASE") result.table = base return result def buildBASEAxis(self, axis): if not axis: return bases, scripts = axis axis = otTables.Axis() axis.BaseTagList = otTables.BaseTagList() axis.BaseTagList.BaselineTag = bases axis.BaseTagList.BaseTagCount = len(bases) axis.BaseScriptList = otTables.BaseScriptList() axis.BaseScriptList.BaseScriptRecord = [] axis.BaseScriptList.BaseScriptCount = len(scripts) for script in sorted(scripts): record = otTables.BaseScriptRecord() record.BaseScriptTag = script[0] record.BaseScript = otTables.BaseScript() record.BaseScript.BaseLangSysCount = 0 record.BaseScript.BaseValues = otTables.BaseValues() record.BaseScript.BaseValues.DefaultIndex = bases.index(script[1]) record.BaseScript.BaseValues.BaseCoord = [] record.BaseScript.BaseValues.BaseCoordCount = len(script[2]) for c in script[2]: coord = otTables.BaseCoord() coord.Format = 1 coord.Coordinate = c record.BaseScript.BaseValues.BaseCoord.append(coord) axis.BaseScriptList.BaseScriptRecord.append(record) return axis def buildGDEF(self): gdef = otTables.GDEF() gdef.GlyphClassDef = self.buildGDEFGlyphClassDef_() gdef.AttachList = otl.buildAttachList(self.attachPoints_, self.glyphMap) gdef.LigCaretList = otl.buildLigCaretList( self.ligCaretCoords_, self.ligCaretPoints_, self.glyphMap ) gdef.MarkAttachClassDef = self.buildGDEFMarkAttachClassDef_() gdef.MarkGlyphSetsDef = self.buildGDEFMarkGlyphSetsDef_() gdef.Version = 0x00010002 if gdef.MarkGlyphSetsDef else 0x00010000 if self.varstorebuilder: store = self.varstorebuilder.finish() if store: gdef.Version = 0x00010003 gdef.VarStore = store varidx_map = store.optimize() gdef.remap_device_varidxes(varidx_map) if "GPOS" in self.font: self.font["GPOS"].table.remap_device_varidxes(varidx_map) self.model_cache.clear() if any( ( gdef.GlyphClassDef, gdef.AttachList, gdef.LigCaretList, gdef.MarkAttachClassDef, gdef.MarkGlyphSetsDef, ) ) or hasattr(gdef, "VarStore"): result = newTable("GDEF") result.table = gdef return result else: return None def buildGDEFGlyphClassDef_(self): if self.glyphClassDefs_: classes = {g: c for (g, (c, _)) in self.glyphClassDefs_.items()} else: classes = {} for lookup in self.lookups_: classes.update(lookup.inferGlyphClasses()) for markClass in self.parseTree.markClasses.values(): for markClassDef in markClass.definitions: for glyph in markClassDef.glyphSet(): classes[glyph] = 3 if classes: result = otTables.GlyphClassDef() result.classDefs = classes return result else: return None def buildGDEFMarkAttachClassDef_(self): classDefs = {g: c for g, (c, _) in self.markAttach_.items()} if not classDefs: return None result = otTables.MarkAttachClassDef() result.classDefs = classDefs return result def buildGDEFMarkGlyphSetsDef_(self): sets = [] for glyphs, id_ in sorted( self.markFilterSets_.items(), key=lambda item: item[1] ): sets.append(glyphs) return otl.buildMarkGlyphSetsDef(sets, self.glyphMap) def buildDebg(self): if "Debg" not in self.font: self.font["Debg"] = newTable("Debg") self.font["Debg"].data = {} self.font["Debg"].data[LOOKUP_DEBUG_INFO_KEY] = self.lookup_locations def buildLookups_(self, tag): assert tag in ("GPOS", "GSUB"), tag for lookup in self.lookups_: lookup.lookup_index = None lookups = [] for lookup in self.lookups_: if lookup.table != tag: continue lookup.lookup_index = len(lookups) self.lookup_locations[tag][str(lookup.lookup_index)] = LookupDebugInfo( location=str(lookup.location), name=self.get_lookup_name_(lookup), feature=None, ) lookups.append(lookup) otLookups = [] for l in lookups: try: otLookups.append( except OpenTypeLibError as e: raise FeatureLibError(str(e), e.location) from e except Exception as e: location = self.lookup_locations[tag][str(l.lookup_index)].location raise FeatureLibError(str(e), location) from e return otLookups def makeTable(self, tag): table = getattr(otTables, tag, None)() table.Version = 0x00010000 table.ScriptList = otTables.ScriptList() table.ScriptList.ScriptRecord = [] table.FeatureList = otTables.FeatureList() table.FeatureList.FeatureRecord = [] table.LookupList = otTables.LookupList() table.LookupList.Lookup = self.buildLookups_(tag) # Build a table for mapping (tag, lookup_indices) to feature_index. # For example, ('liga', (2,3,7)) --> 23. feature_indices = {} required_feature_indices = {} # ('latn', 'DEU') --> 23 scripts = {} # 'latn' --> {'DEU': [23, 24]} for feature #23,24 # Sort the feature table by feature tag: # sortFeatureTag = lambda f: (f[0][2], f[0][1], f[0][0], f[1]) for key, lookups in sorted(self.features_.items(), key=sortFeatureTag): script, lang, feature_tag = key # l.lookup_index will be None when a lookup is not needed # for the table under construction. For example, substitution # rules will have no lookup_index while building GPOS tables. lookup_indices = tuple( [l.lookup_index for l in lookups if l.lookup_index is not None] ) size_feature = tag == "GPOS" and feature_tag == "size" force_feature = self.any_feature_variations(feature_tag, tag) if len(lookup_indices) == 0 and not size_feature and not force_feature: continue for ix in lookup_indices: try: self.lookup_locations[tag][str(ix)] = self.lookup_locations[tag][ str(ix) ]._replace(feature=key) except KeyError: warnings.warn( "feaLib.Builder subclass needs upgrading to " "stash debug information. See fonttools#2065." ) feature_key = (feature_tag, lookup_indices) feature_index = feature_indices.get(feature_key) if feature_index is None: feature_index = len(table.FeatureList.FeatureRecord) frec = otTables.FeatureRecord() frec.FeatureTag = feature_tag frec.Feature = otTables.Feature() frec.Feature.FeatureParams = self.buildFeatureParams(feature_tag) frec.Feature.LookupListIndex = list(lookup_indices) frec.Feature.LookupCount = len(lookup_indices) table.FeatureList.FeatureRecord.append(frec) feature_indices[feature_key] = feature_index scripts.setdefault(script, {}).setdefault(lang, []).append(feature_index) if self.required_features_.get((script, lang)) == feature_tag: required_feature_indices[(script, lang)] = feature_index # Build ScriptList. for script, lang_features in sorted(scripts.items()): srec = otTables.ScriptRecord() srec.ScriptTag = script srec.Script = otTables.Script() srec.Script.DefaultLangSys = None srec.Script.LangSysRecord = [] for lang, feature_indices in sorted(lang_features.items()): langrec = otTables.LangSysRecord() langrec.LangSys = otTables.LangSys() langrec.LangSys.LookupOrder = None req_feature_index = required_feature_indices.get((script, lang)) if req_feature_index is None: langrec.LangSys.ReqFeatureIndex = 0xFFFF else: langrec.LangSys.ReqFeatureIndex = req_feature_index langrec.LangSys.FeatureIndex = [ i for i in feature_indices if i != req_feature_index ] langrec.LangSys.FeatureCount = len(langrec.LangSys.FeatureIndex) if lang == "dflt": srec.Script.DefaultLangSys = langrec.LangSys else: langrec.LangSysTag = lang srec.Script.LangSysRecord.append(langrec) srec.Script.LangSysCount = len(srec.Script.LangSysRecord) table.ScriptList.ScriptRecord.append(srec) table.ScriptList.ScriptCount = len(table.ScriptList.ScriptRecord) table.FeatureList.FeatureCount = len(table.FeatureList.FeatureRecord) table.LookupList.LookupCount = len(table.LookupList.Lookup) return table def makeFeatureVariations(self, table, table_tag): feature_vars = {} has_any_variations = False # Sort out which lookups to build, gather their indices for (_, _, feature_tag), variations in self.feature_variations_.items(): feature_vars[feature_tag] = [] for conditionset, builders in variations.items(): raw_conditionset = self.conditionsets_[conditionset] indices = [] for b in builders: if b.table != table_tag: continue assert b.lookup_index is not None indices.append(b.lookup_index) has_any_variations = True feature_vars[feature_tag].append((raw_conditionset, indices)) if has_any_variations: for feature_tag, conditions_and_lookups in feature_vars.items(): addFeatureVariationsRaw( self.font, table, conditions_and_lookups, feature_tag ) def any_feature_variations(self, feature_tag, table_tag): for (_, _, feature), variations in self.feature_variations_.items(): if feature != feature_tag: continue for conditionset, builders in variations.items(): if any(b.table == table_tag for b in builders): return True return False def get_lookup_name_(self, lookup): rev = {v: k for k, v in self.named_lookups_.items()} if lookup in rev: return rev[lookup] return None def add_language_system(self, location, script, language): # OpenType Feature File Specification, section 4.b.i if script == "DFLT" and language == "dflt" and self.default_language_systems_: raise FeatureLibError( 'If "languagesystem DFLT dflt" is present, it must be ' "the first of the languagesystem statements", location, ) if script == "DFLT": if self.seen_non_DFLT_script_: raise FeatureLibError( 'languagesystems using the "DFLT" script tag must ' "precede all other languagesystems", location, ) else: self.seen_non_DFLT_script_ = True if (script, language) in self.default_language_systems_: raise FeatureLibError( '"languagesystem %s %s" has already been specified' % (script.strip(), language.strip()), location, ) self.default_language_systems_.add((script, language)) def get_default_language_systems_(self): # OpenType Feature File specification, 4.b.i. languagesystem: # If no "languagesystem" statement is present, then the # implementation must behave exactly as though the following # statement were present at the beginning of the feature file: # languagesystem DFLT dflt; if self.default_language_systems_: return frozenset(self.default_language_systems_) else: return frozenset({("DFLT", "dflt")}) def start_feature(self, location, name): self.language_systems = self.get_default_language_systems_() self.script_ = "DFLT" self.cur_lookup_ = None self.cur_feature_name_ = name self.lookupflag_ = 0 self.lookupflag_markFilterSet_ = None if name == "aalt": self.aalt_location_ = location def end_feature(self): assert self.cur_feature_name_ is not None self.cur_feature_name_ = None self.language_systems = None self.cur_lookup_ = None self.lookupflag_ = 0 self.lookupflag_markFilterSet_ = None def start_lookup_block(self, location, name): if name in self.named_lookups_: raise FeatureLibError( 'Lookup "%s" has already been defined' % name, location ) if self.cur_feature_name_ == "aalt": raise FeatureLibError( "Lookup blocks cannot be placed inside 'aalt' features; " "move it out, and then refer to it with a lookup statement", location, ) self.cur_lookup_name_ = name self.named_lookups_[name] = None self.cur_lookup_ = None if self.cur_feature_name_ is None: self.lookupflag_ = 0 self.lookupflag_markFilterSet_ = None def end_lookup_block(self): assert self.cur_lookup_name_ is not None self.cur_lookup_name_ = None self.cur_lookup_ = None if self.cur_feature_name_ is None: self.lookupflag_ = 0 self.lookupflag_markFilterSet_ = None def add_lookup_call(self, lookup_name): assert lookup_name in self.named_lookups_, lookup_name self.cur_lookup_ = None lookup = self.named_lookups_[lookup_name] if lookup is not None: # skip empty named lookup self.add_lookup_to_feature_(lookup, self.cur_feature_name_) def set_font_revision(self, location, revision): self.fontRevision_ = revision def set_language(self, location, language, include_default, required): assert len(language) == 4 if self.cur_feature_name_ in ("aalt", "size"): raise FeatureLibError( "Language statements are not allowed " 'within "feature %s"' % self.cur_feature_name_, location, ) if self.cur_feature_name_ is None: raise FeatureLibError( "Language statements are not allowed " "within standalone lookup blocks", location, ) self.cur_lookup_ = None key = (self.script_, language, self.cur_feature_name_) lookups = self.features_.get((key[0], "dflt", key[2])) if (language == "dflt" or include_default) and lookups: self.features_[key] = lookups[:] else: self.features_[key] = [] self.language_systems = frozenset([(self.script_, language)]) if required: key = (self.script_, language) if key in self.required_features_: raise FeatureLibError( "Language %s (script %s) has already " "specified feature %s as its required feature" % ( language.strip(), self.script_.strip(), self.required_features_[key].strip(), ), location, ) self.required_features_[key] = self.cur_feature_name_ def getMarkAttachClass_(self, location, glyphs): glyphs = frozenset(glyphs) id_ = self.markAttachClassID_.get(glyphs) if id_ is not None: return id_ id_ = len(self.markAttachClassID_) + 1 self.markAttachClassID_[glyphs] = id_ for glyph in glyphs: if glyph in self.markAttach_: _, loc = self.markAttach_[glyph] raise FeatureLibError( "Glyph %s already has been assigned " "a MarkAttachmentType at %s" % (glyph, loc), location, ) self.markAttach_[glyph] = (id_, location) return id_ def getMarkFilterSet_(self, location, glyphs): glyphs = frozenset(glyphs) id_ = self.markFilterSets_.get(glyphs) if id_ is not None: return id_ id_ = len(self.markFilterSets_) self.markFilterSets_[glyphs] = id_ return id_ def set_lookup_flag(self, location, value, markAttach, markFilter): value = value & 0xFF if markAttach: markAttachClass = self.getMarkAttachClass_(location, markAttach) value = value | (markAttachClass << 8) if markFilter: markFilterSet = self.getMarkFilterSet_(location, markFilter) value = value | 0x10 self.lookupflag_markFilterSet_ = markFilterSet else: self.lookupflag_markFilterSet_ = None self.lookupflag_ = value def set_script(self, location, script): if self.cur_feature_name_ in ("aalt", "size"): raise FeatureLibError( "Script statements are not allowed " 'within "feature %s"' % self.cur_feature_name_, location, ) if self.cur_feature_name_ is None: raise FeatureLibError( "Script statements are not allowed " "within standalone lookup blocks", location, ) if self.language_systems == {(script, "dflt")}: # Nothing to do. return self.cur_lookup_ = None self.script_ = script self.lookupflag_ = 0 self.lookupflag_markFilterSet_ = None self.set_language(location, "dflt", include_default=True, required=False) def find_lookup_builders_(self, lookups): """Helper for building chain contextual substitutions Given a list of lookup names, finds the LookupBuilder for each name. If an input name is None, it gets mapped to a None LookupBuilder. """ lookup_builders = [] for lookuplist in lookups: if lookuplist is not None: lookup_builders.append( [self.named_lookups_.get( for l in lookuplist] ) else: lookup_builders.append(None) return lookup_builders def add_attach_points(self, location, glyphs, contourPoints): for glyph in glyphs: self.attachPoints_.setdefault(glyph, set()).update(contourPoints) def add_feature_reference(self, location, featureName): if self.cur_feature_name_ != "aalt": raise FeatureLibError( 'Feature references are only allowed inside "feature aalt"', location ) self.aalt_features_.append((location, featureName)) def add_featureName(self, tag): self.featureNames_.add(tag) def add_cv_parameter(self, tag): self.cv_parameters_.add(tag) def add_to_cv_num_named_params(self, tag): """Adds new items to ``self.cv_num_named_params_`` or increments the count of existing items.""" if tag in self.cv_num_named_params_: self.cv_num_named_params_[tag] += 1 else: self.cv_num_named_params_[tag] = 1 def add_cv_character(self, character, tag): self.cv_characters_[tag].append(character) def set_base_axis(self, bases, scripts, vertical): if vertical: self.base_vert_axis_ = (bases, scripts) else: self.base_horiz_axis_ = (bases, scripts) def set_size_parameters( self, location, DesignSize, SubfamilyID, RangeStart, RangeEnd ): if self.cur_feature_name_ != "size": raise FeatureLibError( "Parameters statements are not allowed " 'within "feature %s"' % self.cur_feature_name_, location, ) self.size_parameters_ = [DesignSize, SubfamilyID, RangeStart, RangeEnd] for script, lang in self.language_systems: key = (script, lang, self.cur_feature_name_) self.features_.setdefault(key, []) # GSUB rules # GSUB 1 def add_single_subst(self, location, prefix, suffix, mapping, forceChain): if self.cur_feature_name_ == "aalt": for from_glyph, to_glyph in mapping.items(): alts = self.aalt_alternates_.setdefault(from_glyph, []) if to_glyph not in alts: alts.append(to_glyph) return if prefix or suffix or forceChain: self.add_single_subst_chained_(location, prefix, suffix, mapping) return lookup = self.get_lookup_(location, SingleSubstBuilder) for from_glyph, to_glyph in mapping.items(): if from_glyph in lookup.mapping: if to_glyph == lookup.mapping[from_glyph]: "Removing duplicate single substitution from glyph" ' "%s" to "%s" at %s', from_glyph, to_glyph, location, ) else: raise FeatureLibError( 'Already defined rule for replacing glyph "%s" by "%s"' % (from_glyph, lookup.mapping[from_glyph]), location, ) lookup.mapping[from_glyph] = to_glyph # GSUB 2 def add_multiple_subst( self, location, prefix, glyph, suffix, replacements, forceChain=False ): if prefix or suffix or forceChain: chain = self.get_lookup_(location, ChainContextSubstBuilder) sub = self.get_chained_lookup_(location, MultipleSubstBuilder) sub.mapping[glyph] = replacements chain.rules.append(ChainContextualRule(prefix, [{glyph}], suffix, [sub])) return lookup = self.get_lookup_(location, MultipleSubstBuilder) if glyph in lookup.mapping: if replacements == lookup.mapping[glyph]: "Removing duplicate multiple substitution from glyph" ' "%s" to %s%s', glyph, replacements, f" at {location}" if location else "", ) else: raise FeatureLibError( 'Already defined substitution for glyph "%s"' % glyph, location ) lookup.mapping[glyph] = replacements # GSUB 3 def add_alternate_subst(self, location, prefix, glyph, suffix, replacement): if self.cur_feature_name_ == "aalt": alts = self.aalt_alternates_.setdefault(glyph, []) alts.extend(g for g in replacement if g not in alts) return if prefix or suffix: chain = self.get_lookup_(location, ChainContextSubstBuilder) lookup = self.get_chained_lookup_(location, AlternateSubstBuilder) chain.rules.append(ChainContextualRule(prefix, [{glyph}], suffix, [lookup])) else: lookup = self.get_lookup_(location, AlternateSubstBuilder) if glyph in lookup.alternates: raise FeatureLibError( 'Already defined alternates for glyph "%s"' % glyph, location ) # We allow empty replacement glyphs here. lookup.alternates[glyph] = replacement # GSUB 4 def add_ligature_subst( self, location, prefix, glyphs, suffix, replacement, forceChain ): if prefix or suffix or forceChain: chain = self.get_lookup_(location, ChainContextSubstBuilder) lookup = self.get_chained_lookup_(location, LigatureSubstBuilder) chain.rules.append(ChainContextualRule(prefix, glyphs, suffix, [lookup])) else: lookup = self.get_lookup_(location, LigatureSubstBuilder) if not all(glyphs): raise FeatureLibError("Empty glyph class in substitution", location) # OpenType feature file syntax, section 5.d, "Ligature substitution": # "Since the OpenType specification does not allow ligature # substitutions to be specified on target sequences that contain # glyph classes, the implementation software will enumerate # all specific glyph sequences if glyph classes are detected" for g in itertools.product(*glyphs): lookup.ligatures[g] = replacement # GSUB 5/6 def add_chain_context_subst(self, location, prefix, glyphs, suffix, lookups): if not all(glyphs) or not all(prefix) or not all(suffix): raise FeatureLibError( "Empty glyph class in contextual substitution", location ) lookup = self.get_lookup_(location, ChainContextSubstBuilder) lookup.rules.append( ChainContextualRule( prefix, glyphs, suffix, self.find_lookup_builders_(lookups) ) ) def add_single_subst_chained_(self, location, prefix, suffix, mapping): if not mapping or not all(prefix) or not all(suffix): raise FeatureLibError( "Empty glyph class in contextual substitution", location ) # # chain = self.get_lookup_(location, ChainContextSubstBuilder) sub = chain.find_chainable_single_subst(mapping) if sub is None: sub = self.get_chained_lookup_(location, SingleSubstBuilder) sub.mapping.update(mapping) chain.rules.append( ChainContextualRule(prefix, [list(mapping.keys())], suffix, [sub]) ) # GSUB 8 def add_reverse_chain_single_subst(self, location, old_prefix, old_suffix, mapping): if not mapping: raise FeatureLibError("Empty glyph class in substitution", location) lookup = self.get_lookup_(location, ReverseChainSingleSubstBuilder) lookup.rules.append((old_prefix, old_suffix, mapping)) # GPOS rules # GPOS 1 def add_single_pos(self, location, prefix, suffix, pos, forceChain): if prefix or suffix or forceChain: self.add_single_pos_chained_(location, prefix, suffix, pos) else: lookup = self.get_lookup_(location, SinglePosBuilder) for glyphs, value in pos: if not glyphs: raise FeatureLibError( "Empty glyph class in positioning rule", location ) otValueRecord = self.makeOpenTypeValueRecord( location, value, pairPosContext=False ) for glyph in glyphs: try: lookup.add_pos(location, glyph, otValueRecord) except OpenTypeLibError as e: raise FeatureLibError(str(e), e.location) from e # GPOS 2 def add_class_pair_pos(self, location, glyphclass1, value1, glyphclass2, value2): if not glyphclass1 or not glyphclass2: raise FeatureLibError("Empty glyph class in positioning rule", location) lookup = self.get_lookup_(location, PairPosBuilder) v1 = self.makeOpenTypeValueRecord(location, value1, pairPosContext=True) v2 = self.makeOpenTypeValueRecord(location, value2, pairPosContext=True) lookup.addClassPair(location, glyphclass1, v1, glyphclass2, v2) def add_specific_pair_pos(self, location, glyph1, value1, glyph2, value2): if not glyph1 or not glyph2: raise FeatureLibError("Empty glyph class in positioning rule", location) lookup = self.get_lookup_(location, PairPosBuilder) v1 = self.makeOpenTypeValueRecord(location, value1, pairPosContext=True) v2 = self.makeOpenTypeValueRecord(location, value2, pairPosContext=True) lookup.addGlyphPair(location, glyph1, v1, glyph2, v2) # GPOS 3 def add_cursive_pos(self, location, glyphclass, entryAnchor, exitAnchor): if not glyphclass: raise FeatureLibError("Empty glyph class in positioning rule", location) lookup = self.get_lookup_(location, CursivePosBuilder) lookup.add_attachment( location, glyphclass, self.makeOpenTypeAnchor(location, entryAnchor), self.makeOpenTypeAnchor(location, exitAnchor), ) # GPOS 4 def add_mark_base_pos(self, location, bases, marks): builder = self.get_lookup_(location, MarkBasePosBuilder) self.add_marks_(location, builder, marks) if not bases: raise FeatureLibError("Empty glyph class in positioning rule", location) for baseAnchor, markClass in marks: otBaseAnchor = self.makeOpenTypeAnchor(location, baseAnchor) for base in bases: builder.bases.setdefault(base, {})[] = otBaseAnchor # GPOS 5 def add_mark_lig_pos(self, location, ligatures, components): builder = self.get_lookup_(location, MarkLigPosBuilder) componentAnchors = [] if not ligatures: raise FeatureLibError("Empty glyph class in positioning rule", location) for marks in components: anchors = {} self.add_marks_(location, builder, marks) for ligAnchor, markClass in marks: anchors[] = self.makeOpenTypeAnchor(location, ligAnchor) componentAnchors.append(anchors) for glyph in ligatures: builder.ligatures[glyph] = componentAnchors # GPOS 6 def add_mark_mark_pos(self, location, baseMarks, marks): builder = self.get_lookup_(location, MarkMarkPosBuilder) self.add_marks_(location, builder, marks) if not baseMarks: raise FeatureLibError("Empty glyph class in positioning rule", location) for baseAnchor, markClass in marks: otBaseAnchor = self.makeOpenTypeAnchor(location, baseAnchor) for baseMark in baseMarks: builder.baseMarks.setdefault(baseMark, {})[ ] = otBaseAnchor # GPOS 7/8 def add_chain_context_pos(self, location, prefix, glyphs, suffix, lookups): if not all(glyphs) or not all(prefix) or not all(suffix): raise FeatureLibError( "Empty glyph class in contextual positioning rule", location ) lookup = self.get_lookup_(location, ChainContextPosBuilder) lookup.rules.append( ChainContextualRule( prefix, glyphs, suffix, self.find_lookup_builders_(lookups) ) ) def add_single_pos_chained_(self, location, prefix, suffix, pos): if not pos or not all(prefix) or not all(suffix): raise FeatureLibError( "Empty glyph class in contextual positioning rule", location ) # chain = self.get_lookup_(location, ChainContextPosBuilder) targets = [] for _, _, _, lookups in chain.rules: targets.extend(lookups) subs = [] for glyphs, value in pos: if value is None: subs.append(None) continue otValue = self.makeOpenTypeValueRecord( location, value, pairPosContext=False ) sub = chain.find_chainable_single_pos(targets, glyphs, otValue) if sub is None: sub = self.get_chained_lookup_(location, SinglePosBuilder) targets.append(sub) for glyph in glyphs: sub.add_pos(location, glyph, otValue) subs.append(sub) assert len(pos) == len(subs), (pos, subs) chain.rules.append( ChainContextualRule(prefix, [g for g, v in pos], suffix, subs) ) def add_marks_(self, location, lookupBuilder, marks): """Helper for add_mark_{base,liga,mark}_pos.""" for _, markClass in marks: for markClassDef in markClass.definitions: for mark in markClassDef.glyphs.glyphSet(): if mark not in lookupBuilder.marks: otMarkAnchor = self.makeOpenTypeAnchor( location, copy.deepcopy(markClassDef.anchor) ) lookupBuilder.marks[mark] = (, otMarkAnchor) else: existingMarkClass = lookupBuilder.marks[mark][0] if != existingMarkClass: raise FeatureLibError( "Glyph %s cannot be in both @%s and @%s" % (mark, existingMarkClass,, location, ) def add_subtable_break(self, location): self.cur_lookup_.add_subtable_break(location) def setGlyphClass_(self, location, glyph, glyphClass): oldClass, oldLocation = self.glyphClassDefs_.get(glyph, (None, None)) if oldClass and oldClass != glyphClass: raise FeatureLibError( "Glyph %s was assigned to a different class at %s" % (glyph, oldLocation), location, ) self.glyphClassDefs_[glyph] = (glyphClass, location) def add_glyphClassDef( self, location, baseGlyphs, ligatureGlyphs, markGlyphs, componentGlyphs ): for glyph in baseGlyphs: self.setGlyphClass_(location, glyph, 1) for glyph in ligatureGlyphs: self.setGlyphClass_(location, glyph, 2) for glyph in markGlyphs: self.setGlyphClass_(location, glyph, 3) for glyph in componentGlyphs: self.setGlyphClass_(location, glyph, 4) def add_ligatureCaretByIndex_(self, location, glyphs, carets): for glyph in glyphs: if glyph not in self.ligCaretPoints_: self.ligCaretPoints_[glyph] = carets def makeLigCaret(self, location, caret): if not isinstance(caret, VariableScalar): return caret default, device = self.makeVariablePos(location, caret) if device is not None: return (default, device) return default def add_ligatureCaretByPos_(self, location, glyphs, carets): carets = [self.makeLigCaret(location, caret) for caret in carets] for glyph in glyphs: if glyph not in self.ligCaretCoords_: self.ligCaretCoords_[glyph] = carets def add_name_record(self, location, nameID, platformID, platEncID, langID, string): self.names_.append([nameID, platformID, platEncID, langID, string]) def add_os2_field(self, key, value): self.os2_[key] = value def add_hhea_field(self, key, value): self.hhea_[key] = value def add_vhea_field(self, key, value): self.vhea_[key] = value def add_conditionset(self, location, key, value): if "fvar" not in self.font: raise FeatureLibError( "Cannot add feature variations to a font without an 'fvar' table", location, ) # Normalize axisMap = { axis.axisTag: (axis.minValue, axis.defaultValue, axis.maxValue) for axis in self.axes } value = { tag: ( normalizeValue(bottom, axisMap[tag]), normalizeValue(top, axisMap[tag]), ) for tag, (bottom, top) in value.items() } # NOTE: This might result in rounding errors (off-by-ones) compared to # rules in Designspace files, since we're working with what's in the # `avar` table rather than the original values. if "avar" in self.font: mapping = self.font["avar"].segments value = { axis: tuple( piecewiseLinearMap(v, mapping[axis]) if axis in mapping else v for v in condition_range ) for axis, condition_range in value.items() } self.conditionsets_[key] = value def makeVariablePos(self, location, varscalar): if not self.varstorebuilder: raise FeatureLibError( "Can't define a variable scalar in a non-variable font", location ) varscalar.axes = self.axes if not varscalar.does_vary: return varscalar.default, None default, index = varscalar.add_to_variation_store( self.varstorebuilder, self.model_cache, self.font.get("avar") ) device = None if index is not None and index != 0xFFFFFFFF: device = buildVarDevTable(index) return default, device def makeOpenTypeAnchor(self, location, anchor): """ast.Anchor --> otTables.Anchor""" if anchor is None: return None variable = False deviceX, deviceY = None, None if anchor.xDeviceTable is not None: deviceX = otl.buildDevice(dict(anchor.xDeviceTable)) if anchor.yDeviceTable is not None: deviceY = otl.buildDevice(dict(anchor.yDeviceTable)) for dim in ("x", "y"): varscalar = getattr(anchor, dim) if not isinstance(varscalar, VariableScalar): continue if getattr(anchor, dim + "DeviceTable") is not None: raise FeatureLibError( "Can't define a device coordinate and variable scalar", location ) default, device = self.makeVariablePos(location, varscalar) setattr(anchor, dim, default) if device is not None: if dim == "x": deviceX = device else: deviceY = device variable = True otlanchor = otl.buildAnchor( anchor.x, anchor.y, anchor.contourpoint, deviceX, deviceY ) if variable: otlanchor.Format = 3 return otlanchor _VALUEREC_ATTRS = { name[0].lower() + name[1:]: (name, isDevice) for _, name, isDevice, _ in otBase.valueRecordFormat if not name.startswith("Reserved") } def makeOpenTypeValueRecord(self, location, v, pairPosContext): """ast.ValueRecord --> otBase.ValueRecord""" if not v: return None vr = {} for astName, (otName, isDevice) in self._VALUEREC_ATTRS.items(): val = getattr(v, astName, None) if not val: continue if isDevice: vr[otName] = otl.buildDevice(dict(val)) elif isinstance(val, VariableScalar): otDeviceName = otName[0:4] + "Device" feaDeviceName = otDeviceName[0].lower() + otDeviceName[1:] if getattr(v, feaDeviceName): raise FeatureLibError( "Can't define a device coordinate and variable scalar", location ) vr[otName], device = self.makeVariablePos(location, val) if device is not None: vr[otDeviceName] = device else: vr[otName] = val if pairPosContext and not vr: vr = {"YAdvance": 0} if v.vertical else {"XAdvance": 0} valRec = otl.buildValue(vr) return valRec