from fontTools.misc.py23 import byteord, tobytes from fontTools.feaLib.error import FeatureLibError from fontTools.feaLib.location import FeatureLibLocation from fontTools.misc.encodingTools import getEncoding from collections import OrderedDict import itertools SHIFT = " " * 4 __all__ = [ "Element", "FeatureFile", "Comment", "GlyphName", "GlyphClass", "GlyphClassName", "MarkClassName", "AnonymousBlock", "Block", "FeatureBlock", "NestedBlock", "LookupBlock", "GlyphClassDefinition", "GlyphClassDefStatement", "MarkClass", "MarkClassDefinition", "AlternateSubstStatement", "Anchor", "AnchorDefinition", "AttachStatement", "AxisValueLocationStatement", "BaseAxis", "CVParametersNameStatement", "ChainContextPosStatement", "ChainContextSubstStatement", "CharacterStatement", "CursivePosStatement", "ElidedFallbackName", "ElidedFallbackNameID", "Expression", "FeatureNameStatement", "FeatureReferenceStatement", "FontRevisionStatement", "HheaField", "IgnorePosStatement", "IgnoreSubstStatement", "IncludeStatement", "LanguageStatement", "LanguageSystemStatement", "LigatureCaretByIndexStatement", "LigatureCaretByPosStatement", "LigatureSubstStatement", "LookupFlagStatement", "LookupReferenceStatement", "MarkBasePosStatement", "MarkLigPosStatement", "MarkMarkPosStatement", "MultipleSubstStatement", "NameRecord", "OS2Field", "PairPosStatement", "ReverseChainSingleSubstStatement", "ScriptStatement", "SinglePosStatement", "SingleSubstStatement", "SizeParameters", "Statement", "STATAxisValueStatement", "STATDesignAxisStatement", "STATNameStatement", "SubtableStatement", "TableBlock", "ValueRecord", "ValueRecordDefinition", "VheaField", ] def deviceToString(device): if device is None: return "" else: return "" % ", ".join("%d %d" % t for t in device) fea_keywords = set( [ "anchor", "anchordef", "anon", "anonymous", "by", "contour", "cursive", "device", "enum", "enumerate", "excludedflt", "exclude_dflt", "feature", "from", "ignore", "ignorebaseglyphs", "ignoreligatures", "ignoremarks", "include", "includedflt", "include_dflt", "language", "languagesystem", "lookup", "lookupflag", "mark", "markattachmenttype", "markclass", "nameid", "null", "parameters", "pos", "position", "required", "righttoleft", "reversesub", "rsub", "script", "sub", "substitute", "subtable", "table", "usemarkfilteringset", "useextension", "valuerecorddef", "base", "gdef", "head", "hhea", "name", "vhea", "vmtx", ] ) def asFea(g): if hasattr(g, "asFea"): return g.asFea() elif isinstance(g, tuple) and len(g) == 2: return asFea(g[0]) + " - " + asFea(g[1]) # a range elif g.lower() in fea_keywords: return "\\" + g else: return g class Element(object): """A base class representing "something" in a feature file.""" def __init__(self, location=None): #: location of this element as a `FeatureLibLocation` object. if location and not isinstance(location, FeatureLibLocation): location = FeatureLibLocation(*location) self.location = location def build(self, builder): pass def asFea(self, indent=""): """Returns this element as a string of feature code. For block-type elements (such as :class:`FeatureBlock`), the `indent` string is added to the start of each line in the output.""" raise NotImplementedError def __str__(self): return self.asFea() class Statement(Element): pass class Expression(Element): pass class Comment(Element): """A comment in a feature file.""" def __init__(self, text, location=None): super(Comment, self).__init__(location) #: Text of the comment self.text = text def asFea(self, indent=""): return self.text class NullGlyph(Expression): """The NULL glyph, used in glyph deletion substitutions.""" def __init__(self, location=None): Expression.__init__(self, location) #: The name itself as a string def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return () def asFea(self, indent=""): return "NULL" class GlyphName(Expression): """A single glyph name, such as ``cedilla``.""" def __init__(self, glyph, location=None): Expression.__init__(self, location) #: The name itself as a string self.glyph = glyph def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return (self.glyph,) def asFea(self, indent=""): return asFea(self.glyph) class GlyphClass(Expression): """A glyph class, such as ``[acute cedilla grave]``.""" def __init__(self, glyphs=None, location=None): Expression.__init__(self, location) #: The list of glyphs in this class, as :class:`GlyphName` objects. self.glyphs = glyphs if glyphs is not None else [] self.original = [] self.curr = 0 def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return tuple(self.glyphs) def asFea(self, indent=""): if len(self.original): if self.curr < len(self.glyphs): self.original.extend(self.glyphs[self.curr :]) self.curr = len(self.glyphs) return "[" + " ".join(map(asFea, self.original)) + "]" else: return "[" + " ".join(map(asFea, self.glyphs)) + "]" def extend(self, glyphs): """Add a list of :class:`GlyphName` objects to the class.""" self.glyphs.extend(glyphs) def append(self, glyph): """Add a single :class:`GlyphName` object to the class.""" self.glyphs.append(glyph) def add_range(self, start, end, glyphs): """Add a range (e.g. ``A-Z``) to the class. ``start`` and ``end`` are either :class:`GlyphName` objects or strings representing the start and end glyphs in the class, and ``glyphs`` is the full list of :class:`GlyphName` objects in the range.""" if self.curr < len(self.glyphs): self.original.extend(self.glyphs[self.curr :]) self.original.append((start, end)) self.glyphs.extend(glyphs) self.curr = len(self.glyphs) def add_cid_range(self, start, end, glyphs): """Add a range to the class by glyph ID. ``start`` and ``end`` are the initial and final IDs, and ``glyphs`` is the full list of :class:`GlyphName` objects in the range.""" if self.curr < len(self.glyphs): self.original.extend(self.glyphs[self.curr :]) self.original.append(("\\{}".format(start), "\\{}".format(end))) self.glyphs.extend(glyphs) self.curr = len(self.glyphs) def add_class(self, gc): """Add glyphs from the given :class:`GlyphClassName` object to the class.""" if self.curr < len(self.glyphs): self.original.extend(self.glyphs[self.curr :]) self.original.append(gc) self.glyphs.extend(gc.glyphSet()) self.curr = len(self.glyphs) class GlyphClassName(Expression): """A glyph class name, such as ``@FRENCH_MARKS``. This must be instantiated with a :class:`GlyphClassDefinition` object.""" def __init__(self, glyphclass, location=None): Expression.__init__(self, location) assert isinstance(glyphclass, GlyphClassDefinition) self.glyphclass = glyphclass def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return tuple(self.glyphclass.glyphSet()) def asFea(self, indent=""): return "@" + self.glyphclass.name class MarkClassName(Expression): """A mark class name, such as ``@FRENCH_MARKS`` defined with ``markClass``. This must be instantiated with a :class:`MarkClass` object.""" def __init__(self, markClass, location=None): Expression.__init__(self, location) assert isinstance(markClass, MarkClass) self.markClass = markClass def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return self.markClass.glyphSet() def asFea(self, indent=""): return "@" + self.markClass.name class AnonymousBlock(Statement): """An anonymous data block.""" def __init__(self, tag, content, location=None): Statement.__init__(self, location) self.tag = tag #: string containing the block's "tag" self.content = content #: block data as string def asFea(self, indent=""): res = "anon {} {{\n".format(self.tag) res += self.content res += "}} {};\n\n".format(self.tag) return res class Block(Statement): """A block of statements: feature, lookup, etc.""" def __init__(self, location=None): Statement.__init__(self, location) self.statements = [] #: Statements contained in the block def build(self, builder): """When handed a 'builder' object of comparable interface to :class:`fontTools.feaLib.builder`, walks the statements in this block, calling the builder callbacks.""" for s in self.statements: s.build(builder) def asFea(self, indent=""): indent += SHIFT return ( indent + ("\n" + indent).join([s.asFea(indent=indent) for s in self.statements]) + "\n" ) class FeatureFile(Block): """The top-level element of the syntax tree, containing the whole feature file in its ``statements`` attribute.""" def __init__(self): Block.__init__(self, location=None) self.markClasses = {} # name --> ast.MarkClass def asFea(self, indent=""): return "\n".join(s.asFea(indent=indent) for s in self.statements) class FeatureBlock(Block): """A named feature block.""" def __init__(self, name, use_extension=False, location=None): Block.__init__(self, location) self.name, self.use_extension = name, use_extension def build(self, builder): """Call the ``start_feature`` callback on the builder object, visit all the statements in this feature, and then call ``end_feature``.""" # TODO(sascha): Handle use_extension. builder.start_feature(self.location, self.name) # language exclude_dflt statements modify builder.features_ # limit them to this block with temporary builder.features_ features = builder.features_ builder.features_ = {} Block.build(self, builder) for key, value in builder.features_.items(): features.setdefault(key, []).extend(value) builder.features_ = features builder.end_feature() def asFea(self, indent=""): res = indent + "feature %s " % self.name.strip() if self.use_extension: res += "useExtension " res += "{\n" res += Block.asFea(self, indent=indent) res += indent + "} %s;\n" % self.name.strip() return res class NestedBlock(Block): """A block inside another block, for example when found inside a ``cvParameters`` block.""" def __init__(self, tag, block_name, location=None): Block.__init__(self, location) self.tag = tag self.block_name = block_name def build(self, builder): Block.build(self, builder) if self.block_name == "ParamUILabelNameID": builder.add_to_cv_num_named_params(self.tag) def asFea(self, indent=""): res = "{}{} {{\n".format(indent, self.block_name) res += Block.asFea(self, indent=indent) res += "{}}};\n".format(indent) return res class LookupBlock(Block): """A named lookup, containing ``statements``.""" def __init__(self, name, use_extension=False, location=None): Block.__init__(self, location) self.name, self.use_extension = name, use_extension def build(self, builder): # TODO(sascha): Handle use_extension. builder.start_lookup_block(self.location, self.name) Block.build(self, builder) builder.end_lookup_block() def asFea(self, indent=""): res = "lookup {} ".format(self.name) if self.use_extension: res += "useExtension " res += "{\n" res += Block.asFea(self, indent=indent) res += "{}}} {};\n".format(indent, self.name) return res class TableBlock(Block): """A ``table ... { }`` block.""" def __init__(self, name, location=None): Block.__init__(self, location) self.name = name def asFea(self, indent=""): res = "table {} {{\n".format(self.name.strip()) res += super(TableBlock, self).asFea(indent=indent) res += "}} {};\n".format(self.name.strip()) return res class GlyphClassDefinition(Statement): """Example: ``@UPPERCASE = [A-Z];``.""" def __init__(self, name, glyphs, location=None): Statement.__init__(self, location) self.name = name #: class name as a string, without initial ``@`` self.glyphs = glyphs #: a :class:`GlyphClass` object def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return tuple(self.glyphs.glyphSet()) def asFea(self, indent=""): return "@" + self.name + " = " + self.glyphs.asFea() + ";" class GlyphClassDefStatement(Statement): """Example: ``GlyphClassDef @UPPERCASE, [B], [C], [D];``. The parameters must be either :class:`GlyphClass` or :class:`GlyphClassName` objects, or ``None``.""" def __init__( self, baseGlyphs, markGlyphs, ligatureGlyphs, componentGlyphs, location=None ): Statement.__init__(self, location) self.baseGlyphs, self.markGlyphs = (baseGlyphs, markGlyphs) self.ligatureGlyphs = ligatureGlyphs self.componentGlyphs = componentGlyphs def build(self, builder): """Calls the builder's ``add_glyphClassDef`` callback.""" base = self.baseGlyphs.glyphSet() if self.baseGlyphs else tuple() liga = self.ligatureGlyphs.glyphSet() if self.ligatureGlyphs else tuple() mark = self.markGlyphs.glyphSet() if self.markGlyphs else tuple() comp = self.componentGlyphs.glyphSet() if self.componentGlyphs else tuple() builder.add_glyphClassDef(self.location, base, liga, mark, comp) def asFea(self, indent=""): return "GlyphClassDef {}, {}, {}, {};".format( self.baseGlyphs.asFea() if self.baseGlyphs else "", self.ligatureGlyphs.asFea() if self.ligatureGlyphs else "", self.markGlyphs.asFea() if self.markGlyphs else "", self.componentGlyphs.asFea() if self.componentGlyphs else "", ) class MarkClass(object): """One `or more` ``markClass`` statements for the same mark class. While glyph classes can be defined only once, the feature file format allows expanding mark classes with multiple definitions, each using different glyphs and anchors. The following are two ``MarkClassDefinitions`` for the same ``MarkClass``:: markClass [acute grave] @FRENCH_ACCENTS; markClass [cedilla] @FRENCH_ACCENTS; The ``MarkClass`` object is therefore just a container for a list of :class:`MarkClassDefinition` statements. """ def __init__(self, name): self.name = name self.definitions = [] self.glyphs = OrderedDict() # glyph --> ast.MarkClassDefinitions def addDefinition(self, definition): """Add a :class:`MarkClassDefinition` statement to this mark class.""" assert isinstance(definition, MarkClassDefinition) self.definitions.append(definition) for glyph in definition.glyphSet(): if glyph in self.glyphs: otherLoc = self.glyphs[glyph].location if otherLoc is None: end = "" else: end = f" at {otherLoc}" raise FeatureLibError( "Glyph %s already defined%s" % (glyph, end), definition.location ) self.glyphs[glyph] = definition def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return tuple(self.glyphs.keys()) def asFea(self, indent=""): res = "\n".join(d.asFea() for d in self.definitions) return res class MarkClassDefinition(Statement): """A single ``markClass`` statement. The ``markClass`` should be a :class:`MarkClass` object, the ``anchor`` an :class:`Anchor` object, and the ``glyphs`` parameter should be a `glyph-containing object`_ . Example: .. code:: python mc = MarkClass("FRENCH_ACCENTS") mc.addDefinition( MarkClassDefinition(mc, Anchor(350, 800), GlyphClass([ GlyphName("acute"), GlyphName("grave") ]) ) ) mc.addDefinition( MarkClassDefinition(mc, Anchor(350, -200), GlyphClass([ GlyphName("cedilla") ]) ) ) mc.asFea() # markClass [acute grave] @FRENCH_ACCENTS; # markClass [cedilla] @FRENCH_ACCENTS; """ def __init__(self, markClass, anchor, glyphs, location=None): Statement.__init__(self, location) assert isinstance(markClass, MarkClass) assert isinstance(anchor, Anchor) and isinstance(glyphs, Expression) self.markClass, self.anchor, self.glyphs = markClass, anchor, glyphs def glyphSet(self): """The glyphs in this class as a tuple of :class:`GlyphName` objects.""" return self.glyphs.glyphSet() def asFea(self, indent=""): return "markClass {} {} @{};".format( self.glyphs.asFea(), self.anchor.asFea(), self.markClass.name ) class AlternateSubstStatement(Statement): """A ``sub ... from ...`` statement. ``prefix``, ``glyph``, ``suffix`` and ``replacement`` should be lists of `glyph-containing objects`_. ``glyph`` should be a `one element list`.""" def __init__(self, prefix, glyph, suffix, replacement, location=None): Statement.__init__(self, location) self.prefix, self.glyph, self.suffix = (prefix, glyph, suffix) self.replacement = replacement def build(self, builder): """Calls the builder's ``add_alternate_subst`` callback.""" glyph = self.glyph.glyphSet() assert len(glyph) == 1, glyph glyph = list(glyph)[0] prefix = [p.glyphSet() for p in self.prefix] suffix = [s.glyphSet() for s in self.suffix] replacement = self.replacement.glyphSet() builder.add_alternate_subst(self.location, prefix, glyph, suffix, replacement) def asFea(self, indent=""): res = "sub " if len(self.prefix) or len(self.suffix): if len(self.prefix): res += " ".join(map(asFea, self.prefix)) + " " res += asFea(self.glyph) + "'" # even though we really only use 1 if len(self.suffix): res += " " + " ".join(map(asFea, self.suffix)) else: res += asFea(self.glyph) res += " from " res += asFea(self.replacement) res += ";" return res class Anchor(Expression): """An ``Anchor`` element, used inside a ``pos`` rule. If a ``name`` is given, this will be used in preference to the coordinates. Other values should be integer. """ def __init__( self, x, y, name=None, contourpoint=None, xDeviceTable=None, yDeviceTable=None, location=None, ): Expression.__init__(self, location) self.name = name self.x, self.y, self.contourpoint = x, y, contourpoint self.xDeviceTable, self.yDeviceTable = xDeviceTable, yDeviceTable def asFea(self, indent=""): if self.name is not None: return "".format(self.name) res = "" exit = self.exitAnchor.asFea() if self.exitAnchor else "" return "pos cursive {} {} {};".format(self.glyphclass.asFea(), entry, exit) class FeatureReferenceStatement(Statement): """Example: ``feature salt;``""" def __init__(self, featureName, location=None): Statement.__init__(self, location) self.location, self.featureName = (location, featureName) def build(self, builder): """Calls the builder object's ``add_feature_reference`` callback.""" builder.add_feature_reference(self.location, self.featureName) def asFea(self, indent=""): return "feature {};".format(self.featureName) class IgnorePosStatement(Statement): """An ``ignore pos`` statement, containing `one or more` contexts to ignore. ``chainContexts`` should be a list of ``(prefix, glyphs, suffix)`` tuples, with each of ``prefix``, ``glyphs`` and ``suffix`` being `glyph-containing objects`_ .""" def __init__(self, chainContexts, location=None): Statement.__init__(self, location) self.chainContexts = chainContexts def build(self, builder): """Calls the builder object's ``add_chain_context_pos`` callback on each rule context.""" for prefix, glyphs, suffix in self.chainContexts: prefix = [p.glyphSet() for p in prefix] glyphs = [g.glyphSet() for g in glyphs] suffix = [s.glyphSet() for s in suffix] builder.add_chain_context_pos(self.location, prefix, glyphs, suffix, []) def asFea(self, indent=""): contexts = [] for prefix, glyphs, suffix in self.chainContexts: res = "" if len(prefix) or len(suffix): if len(prefix): res += " ".join(map(asFea, prefix)) + " " res += " ".join(g.asFea() + "'" for g in glyphs) if len(suffix): res += " " + " ".join(map(asFea, suffix)) else: res += " ".join(map(asFea, glyphs)) contexts.append(res) return "ignore pos " + ", ".join(contexts) + ";" class IgnoreSubstStatement(Statement): """An ``ignore sub`` statement, containing `one or more` contexts to ignore. ``chainContexts`` should be a list of ``(prefix, glyphs, suffix)`` tuples, with each of ``prefix``, ``glyphs`` and ``suffix`` being `glyph-containing objects`_ .""" def __init__(self, chainContexts, location=None): Statement.__init__(self, location) self.chainContexts = chainContexts def build(self, builder): """Calls the builder object's ``add_chain_context_subst`` callback on each rule context.""" for prefix, glyphs, suffix in self.chainContexts: prefix = [p.glyphSet() for p in prefix] glyphs = [g.glyphSet() for g in glyphs] suffix = [s.glyphSet() for s in suffix] builder.add_chain_context_subst(self.location, prefix, glyphs, suffix, []) def asFea(self, indent=""): contexts = [] for prefix, glyphs, suffix in self.chainContexts: res = "" if len(prefix) or len(suffix): if len(prefix): res += " ".join(map(asFea, prefix)) + " " res += " ".join(g.asFea() + "'" for g in glyphs) if len(suffix): res += " " + " ".join(map(asFea, suffix)) else: res += " ".join(map(asFea, glyphs)) contexts.append(res) return "ignore sub " + ", ".join(contexts) + ";" class IncludeStatement(Statement): """An ``include()`` statement.""" def __init__(self, filename, location=None): super(IncludeStatement, self).__init__(location) self.filename = filename #: String containing name of file to include def build(self): # TODO: consider lazy-loading the including parser/lexer? raise FeatureLibError( "Building an include statement is not implemented yet. " "Instead, use Parser(..., followIncludes=True) for building.", self.location, ) def asFea(self, indent=""): return indent + "include(%s);" % self.filename class LanguageStatement(Statement): """A ``language`` statement within a feature.""" def __init__(self, language, include_default=True, required=False, location=None): Statement.__init__(self, location) assert len(language) == 4 self.language = language #: A four-character language tag self.include_default = include_default #: If false, "exclude_dflt" self.required = required def build(self, builder): """Call the builder object's ``set_language`` callback.""" builder.set_language( location=self.location, language=self.language, include_default=self.include_default, required=self.required, ) def asFea(self, indent=""): res = "language {}".format(self.language.strip()) if not self.include_default: res += " exclude_dflt" if self.required: res += " required" res += ";" return res class LanguageSystemStatement(Statement): """A top-level ``languagesystem`` statement.""" def __init__(self, script, language, location=None): Statement.__init__(self, location) self.script, self.language = (script, language) def build(self, builder): """Calls the builder object's ``add_language_system`` callback.""" builder.add_language_system(self.location, self.script, self.language) def asFea(self, indent=""): return "languagesystem {} {};".format(self.script, self.language.strip()) class FontRevisionStatement(Statement): """A ``head`` table ``FontRevision`` statement. ``revision`` should be a number, and will be formatted to three significant decimal places.""" def __init__(self, revision, location=None): Statement.__init__(self, location) self.revision = revision def build(self, builder): builder.set_font_revision(self.location, self.revision) def asFea(self, indent=""): return "FontRevision {:.3f};".format(self.revision) class LigatureCaretByIndexStatement(Statement): """A ``GDEF`` table ``LigatureCaretByIndex`` statement. ``glyphs`` should be a `glyph-containing object`_, and ``carets`` should be a list of integers.""" def __init__(self, glyphs, carets, location=None): Statement.__init__(self, location) self.glyphs, self.carets = (glyphs, carets) def build(self, builder): """Calls the builder object's ``add_ligatureCaretByIndex_`` callback.""" glyphs = self.glyphs.glyphSet() builder.add_ligatureCaretByIndex_(self.location, glyphs, set(self.carets)) def asFea(self, indent=""): return "LigatureCaretByIndex {} {};".format( self.glyphs.asFea(), " ".join(str(x) for x in self.carets) ) class LigatureCaretByPosStatement(Statement): """A ``GDEF`` table ``LigatureCaretByPos`` statement. ``glyphs`` should be a `glyph-containing object`_, and ``carets`` should be a list of integers.""" def __init__(self, glyphs, carets, location=None): Statement.__init__(self, location) self.glyphs, self.carets = (glyphs, carets) def build(self, builder): """Calls the builder object's ``add_ligatureCaretByPos_`` callback.""" glyphs = self.glyphs.glyphSet() builder.add_ligatureCaretByPos_(self.location, glyphs, set(self.carets)) def asFea(self, indent=""): return "LigatureCaretByPos {} {};".format( self.glyphs.asFea(), " ".join(str(x) for x in self.carets) ) class LigatureSubstStatement(Statement): """A chained contextual substitution statement. ``prefix``, ``glyphs``, and ``suffix`` should be lists of `glyph-containing objects`_; ``replacement`` should be a single `glyph-containing object`_. If ``forceChain`` is True, this is expressed as a chaining rule (e.g. ``sub f' i' by f_i``) even when no context is given.""" def __init__(self, prefix, glyphs, suffix, replacement, forceChain, location=None): Statement.__init__(self, location) self.prefix, self.glyphs, self.suffix = (prefix, glyphs, suffix) self.replacement, self.forceChain = replacement, forceChain def build(self, builder): prefix = [p.glyphSet() for p in self.prefix] glyphs = [g.glyphSet() for g in self.glyphs] suffix = [s.glyphSet() for s in self.suffix] builder.add_ligature_subst( self.location, prefix, glyphs, suffix, self.replacement, self.forceChain ) def asFea(self, indent=""): res = "sub " if len(self.prefix) or len(self.suffix) or self.forceChain: if len(self.prefix): res += " ".join(g.asFea() for g in self.prefix) + " " res += " ".join(g.asFea() + "'" for g in self.glyphs) if len(self.suffix): res += " " + " ".join(g.asFea() for g in self.suffix) else: res += " ".join(g.asFea() for g in self.glyphs) res += " by " res += asFea(self.replacement) res += ";" return res class LookupFlagStatement(Statement): """A ``lookupflag`` statement. The ``value`` should be an integer value representing the flags in use, but not including the ``markAttachment`` class and ``markFilteringSet`` values, which must be specified as glyph-containing objects.""" def __init__( self, value=0, markAttachment=None, markFilteringSet=None, location=None ): Statement.__init__(self, location) self.value = value self.markAttachment = markAttachment self.markFilteringSet = markFilteringSet def build(self, builder): """Calls the builder object's ``set_lookup_flag`` callback.""" markAttach = None if self.markAttachment is not None: markAttach = self.markAttachment.glyphSet() markFilter = None if self.markFilteringSet is not None: markFilter = self.markFilteringSet.glyphSet() builder.set_lookup_flag(self.location, self.value, markAttach, markFilter) def asFea(self, indent=""): res = [] flags = ["RightToLeft", "IgnoreBaseGlyphs", "IgnoreLigatures", "IgnoreMarks"] curr = 1 for i in range(len(flags)): if self.value & curr != 0: res.append(flags[i]) curr = curr << 1 if self.markAttachment is not None: res.append("MarkAttachmentType {}".format(self.markAttachment.asFea())) if self.markFilteringSet is not None: res.append("UseMarkFilteringSet {}".format(self.markFilteringSet.asFea())) if not res: res = ["0"] return "lookupflag {};".format(" ".join(res)) class LookupReferenceStatement(Statement): """Represents a ``lookup ...;`` statement to include a lookup in a feature. The ``lookup`` should be a :class:`LookupBlock` object.""" def __init__(self, lookup, location=None): Statement.__init__(self, location) self.location, self.lookup = (location, lookup) def build(self, builder): """Calls the builder object's ``add_lookup_call`` callback.""" builder.add_lookup_call(self.lookup.name) def asFea(self, indent=""): return "lookup {};".format(self.lookup.name) class MarkBasePosStatement(Statement): """A mark-to-base positioning rule. The ``base`` should be a `glyph-containing object`_. The ``marks`` should be a list of (:class:`Anchor`, :class:`MarkClass`) tuples.""" def __init__(self, base, marks, location=None): Statement.__init__(self, location) self.base, self.marks = base, marks def build(self, builder): """Calls the builder object's ``add_mark_base_pos`` callback.""" builder.add_mark_base_pos(self.location, self.base.glyphSet(), self.marks) def asFea(self, indent=""): res = "pos base {}".format(self.base.asFea()) for a, m in self.marks: res += "\n" + indent + SHIFT + "{} mark @{}".format(a.asFea(), m.name) res += ";" return res class MarkLigPosStatement(Statement): """A mark-to-ligature positioning rule. The ``ligatures`` must be a `glyph-containing object`_. The ``marks`` should be a list of lists: each element in the top-level list represents a component glyph, and is made up of a list of (:class:`Anchor`, :class:`MarkClass`) tuples representing mark attachment points for that position. Example:: m1 = MarkClass("TOP_MARKS") m2 = MarkClass("BOTTOM_MARKS") # ... add definitions to mark classes... glyph = GlyphName("lam_meem_jeem") marks = [ [ (Anchor(625,1800), m1) ], # Attachments on 1st component (lam) [ (Anchor(376,-378), m2) ], # Attachments on 2nd component (meem) [ ] # No attachments on the jeem ] mlp = MarkLigPosStatement(glyph, marks) mlp.asFea() # pos ligature lam_meem_jeem mark @TOP_MARKS # ligComponent mark @BOTTOM_MARKS; """ def __init__(self, ligatures, marks, location=None): Statement.__init__(self, location) self.ligatures, self.marks = ligatures, marks def build(self, builder): """Calls the builder object's ``add_mark_lig_pos`` callback.""" builder.add_mark_lig_pos(self.location, self.ligatures.glyphSet(), self.marks) def asFea(self, indent=""): res = "pos ligature {}".format(self.ligatures.asFea()) ligs = [] for l in self.marks: temp = "" if l is None or not len(l): temp = "\n" + indent + SHIFT * 2 + "" else: for a, m in l: temp += ( "\n" + indent + SHIFT * 2 + "{} mark @{}".format(a.asFea(), m.name) ) ligs.append(temp) res += ("\n" + indent + SHIFT + "ligComponent").join(ligs) res += ";" return res class MarkMarkPosStatement(Statement): """A mark-to-mark positioning rule. The ``baseMarks`` must be a `glyph-containing object`_. The ``marks`` should be a list of (:class:`Anchor`, :class:`MarkClass`) tuples.""" def __init__(self, baseMarks, marks, location=None): Statement.__init__(self, location) self.baseMarks, self.marks = baseMarks, marks def build(self, builder): """Calls the builder object's ``add_mark_mark_pos`` callback.""" builder.add_mark_mark_pos(self.location, self.baseMarks.glyphSet(), self.marks) def asFea(self, indent=""): res = "pos mark {}".format(self.baseMarks.asFea()) for a, m in self.marks: res += "\n" + indent + SHIFT + "{} mark @{}".format(a.asFea(), m.name) res += ";" return res class MultipleSubstStatement(Statement): """A multiple substitution statement. Args: prefix: a list of `glyph-containing objects`_. glyph: a single glyph-containing object. suffix: a list of glyph-containing objects. replacement: a list of glyph-containing objects. forceChain: If true, the statement is expressed as a chaining rule (e.g. ``sub f' i' by f_i``) even when no context is given. """ def __init__( self, prefix, glyph, suffix, replacement, forceChain=False, location=None ): Statement.__init__(self, location) self.prefix, self.glyph, self.suffix = prefix, glyph, suffix self.replacement = replacement self.forceChain = forceChain def build(self, builder): """Calls the builder object's ``add_multiple_subst`` callback.""" prefix = [p.glyphSet() for p in self.prefix] suffix = [s.glyphSet() for s in self.suffix] builder.add_multiple_subst( self.location, prefix, self.glyph, suffix, self.replacement, self.forceChain ) def asFea(self, indent=""): res = "sub " if len(self.prefix) or len(self.suffix) or self.forceChain: if len(self.prefix): res += " ".join(map(asFea, self.prefix)) + " " res += asFea(self.glyph) + "'" if len(self.suffix): res += " " + " ".join(map(asFea, self.suffix)) else: res += asFea(self.glyph) replacement = self.replacement or [NullGlyph()] res += " by " res += " ".join(map(asFea, replacement)) res += ";" return res class PairPosStatement(Statement): """A pair positioning statement. ``glyphs1`` and ``glyphs2`` should be `glyph-containing objects`_. ``valuerecord1`` should be a :class:`ValueRecord` object; ``valuerecord2`` should be either a :class:`ValueRecord` object or ``None``. If ``enumerated`` is true, then this is expressed as an `enumerated pair `_. """ def __init__( self, glyphs1, valuerecord1, glyphs2, valuerecord2, enumerated=False, location=None, ): Statement.__init__(self, location) self.enumerated = enumerated self.glyphs1, self.valuerecord1 = glyphs1, valuerecord1 self.glyphs2, self.valuerecord2 = glyphs2, valuerecord2 def build(self, builder): """Calls a callback on the builder object: * If the rule is enumerated, calls ``add_specific_pair_pos`` on each combination of first and second glyphs. * If the glyphs are both single :class:`GlyphName` objects, calls ``add_specific_pair_pos``. * Else, calls ``add_class_pair_pos``. """ if self.enumerated: g = [self.glyphs1.glyphSet(), self.glyphs2.glyphSet()] for glyph1, glyph2 in itertools.product(*g): builder.add_specific_pair_pos( self.location, glyph1, self.valuerecord1, glyph2, self.valuerecord2 ) return is_specific = isinstance(self.glyphs1, GlyphName) and isinstance( self.glyphs2, GlyphName ) if is_specific: builder.add_specific_pair_pos( self.location, self.glyphs1.glyph, self.valuerecord1, self.glyphs2.glyph, self.valuerecord2, ) else: builder.add_class_pair_pos( self.location, self.glyphs1.glyphSet(), self.valuerecord1, self.glyphs2.glyphSet(), self.valuerecord2, ) def asFea(self, indent=""): res = "enum " if self.enumerated else "" if self.valuerecord2: res += "pos {} {} {} {};".format( self.glyphs1.asFea(), self.valuerecord1.asFea(), self.glyphs2.asFea(), self.valuerecord2.asFea(), ) else: res += "pos {} {} {};".format( self.glyphs1.asFea(), self.glyphs2.asFea(), self.valuerecord1.asFea() ) return res class ReverseChainSingleSubstStatement(Statement): """A reverse chaining substitution statement. You don't see those every day. Note the unusual argument order: ``suffix`` comes `before` ``glyphs``. ``old_prefix``, ``old_suffix``, ``glyphs`` and ``replacements`` should be lists of `glyph-containing objects`_. ``glyphs`` and ``replacements`` should be one-item lists. """ def __init__(self, old_prefix, old_suffix, glyphs, replacements, location=None): Statement.__init__(self, location) self.old_prefix, self.old_suffix = old_prefix, old_suffix self.glyphs = glyphs self.replacements = replacements def build(self, builder): prefix = [p.glyphSet() for p in self.old_prefix] suffix = [s.glyphSet() for s in self.old_suffix] originals = self.glyphs[0].glyphSet() replaces = self.replacements[0].glyphSet() if len(replaces) == 1: replaces = replaces * len(originals) builder.add_reverse_chain_single_subst( self.location, prefix, suffix, dict(zip(originals, replaces)) ) def asFea(self, indent=""): res = "rsub " if len(self.old_prefix) or len(self.old_suffix): if len(self.old_prefix): res += " ".join(asFea(g) for g in self.old_prefix) + " " res += " ".join(asFea(g) + "'" for g in self.glyphs) if len(self.old_suffix): res += " " + " ".join(asFea(g) for g in self.old_suffix) else: res += " ".join(map(asFea, self.glyphs)) res += " by {};".format(" ".join(asFea(g) for g in self.replacements)) return res class SingleSubstStatement(Statement): """A single substitution statement. Note the unusual argument order: ``prefix`` and suffix come `after` the replacement ``glyphs``. ``prefix``, ``suffix``, ``glyphs`` and ``replace`` should be lists of `glyph-containing objects`_. ``glyphs`` and ``replace`` should be one-item lists. """ def __init__(self, glyphs, replace, prefix, suffix, forceChain, location=None): Statement.__init__(self, location) self.prefix, self.suffix = prefix, suffix self.forceChain = forceChain self.glyphs = glyphs self.replacements = replace def build(self, builder): """Calls the builder object's ``add_single_subst`` callback.""" prefix = [p.glyphSet() for p in self.prefix] suffix = [s.glyphSet() for s in self.suffix] originals = self.glyphs[0].glyphSet() replaces = self.replacements[0].glyphSet() if len(replaces) == 1: replaces = replaces * len(originals) builder.add_single_subst( self.location, prefix, suffix, OrderedDict(zip(originals, replaces)), self.forceChain, ) def asFea(self, indent=""): res = "sub " if len(self.prefix) or len(self.suffix) or self.forceChain: if len(self.prefix): res += " ".join(asFea(g) for g in self.prefix) + " " res += " ".join(asFea(g) + "'" for g in self.glyphs) if len(self.suffix): res += " " + " ".join(asFea(g) for g in self.suffix) else: res += " ".join(asFea(g) for g in self.glyphs) res += " by {};".format(" ".join(asFea(g) for g in self.replacements)) return res class ScriptStatement(Statement): """A ``script`` statement.""" def __init__(self, script, location=None): Statement.__init__(self, location) self.script = script #: the script code def build(self, builder): """Calls the builder's ``set_script`` callback.""" builder.set_script(self.location, self.script) def asFea(self, indent=""): return "script {};".format(self.script.strip()) class SinglePosStatement(Statement): """A single position statement. ``prefix`` and ``suffix`` should be lists of `glyph-containing objects`_. ``pos`` should be a one-element list containing a (`glyph-containing object`_, :class:`ValueRecord`) tuple.""" def __init__(self, pos, prefix, suffix, forceChain, location=None): Statement.__init__(self, location) self.pos, self.prefix, self.suffix = pos, prefix, suffix self.forceChain = forceChain def build(self, builder): """Calls the builder object's ``add_single_pos`` callback.""" prefix = [p.glyphSet() for p in self.prefix] suffix = [s.glyphSet() for s in self.suffix] pos = [(g.glyphSet(), value) for g, value in self.pos] builder.add_single_pos(self.location, prefix, suffix, pos, self.forceChain) def asFea(self, indent=""): res = "pos " if len(self.prefix) or len(self.suffix) or self.forceChain: if len(self.prefix): res += " ".join(map(asFea, self.prefix)) + " " res += " ".join( [ asFea(x[0]) + "'" + ((" " + x[1].asFea()) if x[1] else "") for x in self.pos ] ) if len(self.suffix): res += " " + " ".join(map(asFea, self.suffix)) else: res += " ".join( [asFea(x[0]) + " " + (x[1].asFea() if x[1] else "") for x in self.pos] ) res += ";" return res class SubtableStatement(Statement): """Represents a subtable break.""" def __init__(self, location=None): Statement.__init__(self, location) def build(self, builder): """Calls the builder objects's ``add_subtable_break`` callback.""" builder.add_subtable_break(self.location) def asFea(self, indent=""): return "subtable;" class ValueRecord(Expression): """Represents a value record.""" def __init__( self, xPlacement=None, yPlacement=None, xAdvance=None, yAdvance=None, xPlaDevice=None, yPlaDevice=None, xAdvDevice=None, yAdvDevice=None, vertical=False, location=None, ): Expression.__init__(self, location) self.xPlacement, self.yPlacement = (xPlacement, yPlacement) self.xAdvance, self.yAdvance = (xAdvance, yAdvance) self.xPlaDevice, self.yPlaDevice = (xPlaDevice, yPlaDevice) self.xAdvDevice, self.yAdvDevice = (xAdvDevice, yAdvDevice) self.vertical = vertical def __eq__(self, other): return ( self.xPlacement == other.xPlacement and self.yPlacement == other.yPlacement and self.xAdvance == other.xAdvance and self.yAdvance == other.yAdvance and self.xPlaDevice == other.xPlaDevice and self.xAdvDevice == other.xAdvDevice ) def __ne__(self, other): return not self.__eq__(other) def __hash__(self): return ( hash(self.xPlacement) ^ hash(self.yPlacement) ^ hash(self.xAdvance) ^ hash(self.yAdvance) ^ hash(self.xPlaDevice) ^ hash(self.yPlaDevice) ^ hash(self.xAdvDevice) ^ hash(self.yAdvDevice) ) def asFea(self, indent=""): if not self: return "" x, y = self.xPlacement, self.yPlacement xAdvance, yAdvance = self.xAdvance, self.yAdvance xPlaDevice, yPlaDevice = self.xPlaDevice, self.yPlaDevice xAdvDevice, yAdvDevice = self.xAdvDevice, self.yAdvDevice vertical = self.vertical # Try format A, if possible. if x is None and y is None: if xAdvance is None and vertical: return str(yAdvance) elif yAdvance is None and not vertical: return str(xAdvance) # Make any remaining None value 0 to avoid generating invalid records. x = x or 0 y = y or 0 xAdvance = xAdvance or 0 yAdvance = yAdvance or 0 # Try format B, if possible. if ( xPlaDevice is None and yPlaDevice is None and xAdvDevice is None and yAdvDevice is None ): return "<%s %s %s %s>" % (x, y, xAdvance, yAdvance) # Last resort is format C. return "<%s %s %s %s %s %s %s %s>" % ( x, y, xAdvance, yAdvance, deviceToString(xPlaDevice), deviceToString(yPlaDevice), deviceToString(xAdvDevice), deviceToString(yAdvDevice), ) def __bool__(self): return any( getattr(self, v) is not None for v in [ "xPlacement", "yPlacement", "xAdvance", "yAdvance", "xPlaDevice", "yPlaDevice", "xAdvDevice", "yAdvDevice", ] ) __nonzero__ = __bool__ class ValueRecordDefinition(Statement): """Represents a named value record definition.""" def __init__(self, name, value, location=None): Statement.__init__(self, location) self.name = name #: Value record name as string self.value = value #: :class:`ValueRecord` object def asFea(self, indent=""): return "valueRecordDef {} {};".format(self.value.asFea(), self.name) def simplify_name_attributes(pid, eid, lid): if pid == 3 and eid == 1 and lid == 1033: return "" elif pid == 1 and eid == 0 and lid == 0: return "1" else: return "{} {} {}".format(pid, eid, lid) class NameRecord(Statement): """Represents a name record. (`Section 9.e. `_)""" def __init__(self, nameID, platformID, platEncID, langID, string, location=None): Statement.__init__(self, location) self.nameID = nameID #: Name ID as integer (e.g. 9 for designer's name) self.platformID = platformID #: Platform ID as integer self.platEncID = platEncID #: Platform encoding ID as integer self.langID = langID #: Language ID as integer self.string = string #: Name record value def build(self, builder): """Calls the builder object's ``add_name_record`` callback.""" builder.add_name_record( self.location, self.nameID, self.platformID, self.platEncID, self.langID, self.string, ) def asFea(self, indent=""): def escape(c, escape_pattern): # Also escape U+0022 QUOTATION MARK and U+005C REVERSE SOLIDUS if c >= 0x20 and c <= 0x7E and c not in (0x22, 0x5C): return chr(c) else: return escape_pattern % c encoding = getEncoding(self.platformID, self.platEncID, self.langID) if encoding is None: raise FeatureLibError("Unsupported encoding", self.location) s = tobytes(self.string, encoding=encoding) if encoding == "utf_16_be": escaped_string = "".join( [ escape(byteord(s[i]) * 256 + byteord(s[i + 1]), r"\%04x") for i in range(0, len(s), 2) ] ) else: escaped_string = "".join([escape(byteord(b), r"\%02x") for b in s]) plat = simplify_name_attributes(self.platformID, self.platEncID, self.langID) if plat != "": plat += " " return 'nameid {} {}"{}";'.format(self.nameID, plat, escaped_string) class FeatureNameStatement(NameRecord): """Represents a ``sizemenuname`` or ``name`` statement.""" def build(self, builder): """Calls the builder object's ``add_featureName`` callback.""" NameRecord.build(self, builder) builder.add_featureName(self.nameID) def asFea(self, indent=""): if self.nameID == "size": tag = "sizemenuname" else: tag = "name" plat = simplify_name_attributes(self.platformID, self.platEncID, self.langID) if plat != "": plat += " " return '{} {}"{}";'.format(tag, plat, self.string) class STATNameStatement(NameRecord): """Represents a STAT table ``name`` statement.""" def asFea(self, indent=""): plat = simplify_name_attributes(self.platformID, self.platEncID, self.langID) if plat != "": plat += " " return 'name {}"{}";'.format(plat, self.string) class SizeParameters(Statement): """A ``parameters`` statement.""" def __init__(self, DesignSize, SubfamilyID, RangeStart, RangeEnd, location=None): Statement.__init__(self, location) self.DesignSize = DesignSize self.SubfamilyID = SubfamilyID self.RangeStart = RangeStart self.RangeEnd = RangeEnd def build(self, builder): """Calls the builder object's ``set_size_parameters`` callback.""" builder.set_size_parameters( self.location, self.DesignSize, self.SubfamilyID, self.RangeStart, self.RangeEnd, ) def asFea(self, indent=""): res = "parameters {:.1f} {}".format(self.DesignSize, self.SubfamilyID) if self.RangeStart != 0 or self.RangeEnd != 0: res += " {} {}".format(int(self.RangeStart * 10), int(self.RangeEnd * 10)) return res + ";" class CVParametersNameStatement(NameRecord): """Represent a name statement inside a ``cvParameters`` block.""" def __init__( self, nameID, platformID, platEncID, langID, string, block_name, location=None ): NameRecord.__init__( self, nameID, platformID, platEncID, langID, string, location=location ) self.block_name = block_name def build(self, builder): """Calls the builder object's ``add_cv_parameter`` callback.""" item = "" if self.block_name == "ParamUILabelNameID": item = "_{}".format(builder.cv_num_named_params_.get(self.nameID, 0)) builder.add_cv_parameter(self.nameID) self.nameID = (self.nameID, self.block_name + item) NameRecord.build(self, builder) def asFea(self, indent=""): plat = simplify_name_attributes(self.platformID, self.platEncID, self.langID) if plat != "": plat += " " return 'name {}"{}";'.format(plat, self.string) class CharacterStatement(Statement): """ Statement used in cvParameters blocks of Character Variant features (cvXX). The Unicode value may be written with either decimal or hexadecimal notation. The value must be preceded by '0x' if it is a hexadecimal value. The largest Unicode value allowed is 0xFFFFFF. """ def __init__(self, character, tag, location=None): Statement.__init__(self, location) self.character = character self.tag = tag def build(self, builder): """Calls the builder object's ``add_cv_character`` callback.""" builder.add_cv_character(self.character, self.tag) def asFea(self, indent=""): return "Character {:#x};".format(self.character) class BaseAxis(Statement): """An axis definition, being either a ``VertAxis.BaseTagList/BaseScriptList`` pair or a ``HorizAxis.BaseTagList/BaseScriptList`` pair.""" def __init__(self, bases, scripts, vertical, location=None): Statement.__init__(self, location) self.bases = bases #: A list of baseline tag names as strings self.scripts = scripts #: A list of script record tuplets (script tag, default baseline tag, base coordinate) self.vertical = vertical #: Boolean; VertAxis if True, HorizAxis if False def build(self, builder): """Calls the builder object's ``set_base_axis`` callback.""" builder.set_base_axis(self.bases, self.scripts, self.vertical) def asFea(self, indent=""): direction = "Vert" if self.vertical else "Horiz" scripts = [ "{} {} {}".format(a[0], a[1], " ".join(map(str, a[2]))) for a in self.scripts ] return "{}Axis.BaseTagList {};\n{}{}Axis.BaseScriptList {};".format( direction, " ".join(self.bases), indent, direction, ", ".join(scripts) ) class OS2Field(Statement): """An entry in the ``OS/2`` table. Most ``values`` should be numbers or strings, apart from when the key is ``UnicodeRange``, ``CodePageRange`` or ``Panose``, in which case it should be an array of integers.""" def __init__(self, key, value, location=None): Statement.__init__(self, location) self.key = key self.value = value def build(self, builder): """Calls the builder object's ``add_os2_field`` callback.""" builder.add_os2_field(self.key, self.value) def asFea(self, indent=""): def intarr2str(x): return " ".join(map(str, x)) numbers = ( "FSType", "TypoAscender", "TypoDescender", "TypoLineGap", "winAscent", "winDescent", "XHeight", "CapHeight", "WeightClass", "WidthClass", "LowerOpSize", "UpperOpSize", ) ranges = ("UnicodeRange", "CodePageRange") keywords = dict([(x.lower(), [x, str]) for x in numbers]) keywords.update([(x.lower(), [x, intarr2str]) for x in ranges]) keywords["panose"] = ["Panose", intarr2str] keywords["vendor"] = ["Vendor", lambda y: '"{}"'.format(y)] if self.key in keywords: return "{} {};".format( keywords[self.key][0], keywords[self.key][1](self.value) ) return "" # should raise exception class HheaField(Statement): """An entry in the ``hhea`` table.""" def __init__(self, key, value, location=None): Statement.__init__(self, location) self.key = key self.value = value def build(self, builder): """Calls the builder object's ``add_hhea_field`` callback.""" builder.add_hhea_field(self.key, self.value) def asFea(self, indent=""): fields = ("CaretOffset", "Ascender", "Descender", "LineGap") keywords = dict([(x.lower(), x) for x in fields]) return "{} {};".format(keywords[self.key], self.value) class VheaField(Statement): """An entry in the ``vhea`` table.""" def __init__(self, key, value, location=None): Statement.__init__(self, location) self.key = key self.value = value def build(self, builder): """Calls the builder object's ``add_vhea_field`` callback.""" builder.add_vhea_field(self.key, self.value) def asFea(self, indent=""): fields = ("VertTypoAscender", "VertTypoDescender", "VertTypoLineGap") keywords = dict([(x.lower(), x) for x in fields]) return "{} {};".format(keywords[self.key], self.value) class STATDesignAxisStatement(Statement): """A STAT table Design Axis Args: tag (str): a 4 letter axis tag axisOrder (int): an int names (list): a list of :class:`STATNameStatement` objects """ def __init__(self, tag, axisOrder, names, location=None): Statement.__init__(self, location) self.tag = tag self.axisOrder = axisOrder self.names = names self.location = location def build(self, builder): builder.addDesignAxis(self, self.location) def asFea(self, indent=""): indent += SHIFT res = f"DesignAxis {self.tag} {self.axisOrder} {{ \n" res += ("\n" + indent).join([s.asFea(indent=indent) for s in self.names]) + "\n" res += "};" return res class ElidedFallbackName(Statement): """STAT table ElidedFallbackName Args: names: a list of :class:`STATNameStatement` objects """ def __init__(self, names, location=None): Statement.__init__(self, location) self.names = names self.location = location def build(self, builder): builder.setElidedFallbackName(self.names, self.location) def asFea(self, indent=""): indent += SHIFT res = "ElidedFallbackName { \n" res += ("\n" + indent).join([s.asFea(indent=indent) for s in self.names]) + "\n" res += "};" return res class ElidedFallbackNameID(Statement): """STAT table ElidedFallbackNameID Args: value: an int pointing to an existing name table name ID """ def __init__(self, value, location=None): Statement.__init__(self, location) self.value = value self.location = location def build(self, builder): builder.setElidedFallbackName(self.value, self.location) def asFea(self, indent=""): return f"ElidedFallbackNameID {self.value};" class STATAxisValueStatement(Statement): """A STAT table Axis Value Record Args: names (list): a list of :class:`STATNameStatement` objects locations (list): a list of :class:`AxisValueLocationStatement` objects flags (int): an int """ def __init__(self, names, locations, flags, location=None): Statement.__init__(self, location) self.names = names self.locations = locations self.flags = flags def build(self, builder): builder.addAxisValueRecord(self, self.location) def asFea(self, indent=""): res = "AxisValue {\n" for location in self.locations: res += location.asFea() for nameRecord in self.names: res += nameRecord.asFea() res += "\n" if self.flags: flags = ["OlderSiblingFontAttribute", "ElidableAxisValueName"] flagStrings = [] curr = 1 for i in range(len(flags)): if self.flags & curr != 0: flagStrings.append(flags[i]) curr = curr << 1 res += f"flag {' '.join(flagStrings)};\n" res += "};" return res class AxisValueLocationStatement(Statement): """ A STAT table Axis Value Location Args: tag (str): a 4 letter axis tag values (list): a list of ints and/or floats """ def __init__(self, tag, values, location=None): Statement.__init__(self, location) self.tag = tag self.values = values def asFea(self, res=""): res += f"location {self.tag} " res += f"{' '.join(str(i) for i in self.values)};\n" return res