# This Source Code Form is subject to the terms of the Mozilla Public # License, v. 2.0. If a copy of the MPL was not distributed with this # file, You can obtain one at http://mozilla.org/MPL/2.0/. """ A WebIDL parser. """ from ply import lex, yacc import re import os import traceback # Machinery def parseInt(literal): string = literal sign = 0 base = 0 if string[0] == '-': sign = -1 string = string[1:] else: sign = 1 if string[0] == '0' and len(string) > 1: if string[1] == 'x' or string[1] == 'X': base = 16 string = string[2:] else: base = 8 string = string[1:] else: base = 10 value = int(string, base) return value * sign # Magic for creating enums def M_add_class_attribs(attribs): def foo(name, bases, dict_): for v, k in enumerate(attribs): dict_[k] = v assert 'length' not in dict_ dict_['length'] = len(attribs) return type(name, bases, dict_) return foo def enum(*names): class Foo(object): __metaclass__ = M_add_class_attribs(names) def __setattr__(self, name, value): # this makes it read-only raise NotImplementedError return Foo() class WebIDLError(Exception): def __init__(self, message, locations, warning=False): self.message = message self.locations = [str(loc) for loc in locations] self.warning = warning def __str__(self): return "%s: %s%s%s" % (self.warning and 'warning' or 'error', self.message, ", " if len(self.locations) != 0 else "", "\n".join(self.locations)) class Location(object): def __init__(self, lexer, lineno, lexpos, filename): self._line = None self._lineno = lineno self._lexpos = lexpos self._lexdata = lexer.lexdata self._file = filename if filename else "" def __eq__(self, other): return self._lexpos == other._lexpos and \ self._file == other._file def filename(self): return self._file def resolve(self): if self._line: return startofline = self._lexdata.rfind('\n', 0, self._lexpos) + 1 endofline = self._lexdata.find('\n', self._lexpos, self._lexpos + 80) if endofline != -1: self._line = self._lexdata[startofline:endofline] else: self._line = self._lexdata[startofline:] self._colno = self._lexpos - startofline # Our line number seems to point to the start of self._lexdata self._lineno += self._lexdata.count('\n', 0, startofline) def get(self): self.resolve() return "%s line %s:%s" % (self._file, self._lineno, self._colno) def _pointerline(self): return " " * self._colno + "^" def __str__(self): self.resolve() return "%s line %s:%s\n%s\n%s" % (self._file, self._lineno, self._colno, self._line, self._pointerline()) class BuiltinLocation(object): def __init__(self, text): self.msg = text + "\n" def __eq__(self, other): return isinstance(other, BuiltinLocation) and \ self.msg == other.msg def filename(self): return '' def resolve(self): pass def get(self): return self.msg def __str__(self): return self.get() # Data Model class IDLObject(object): def __init__(self, location): self.location = location self.userData = dict() def filename(self): return self.location.filename() def isInterface(self): return False def isEnum(self): return False def isCallback(self): return False def isType(self): return False def isDictionary(self): return False; def isUnion(self): return False def getUserData(self, key, default): return self.userData.get(key, default) def setUserData(self, key, value): self.userData[key] = value def addExtendedAttributes(self, attrs): assert False # Override me! def handleExtendedAttribute(self, attr): assert False # Override me! class IDLScope(IDLObject): def __init__(self, location, parentScope, identifier): IDLObject.__init__(self, location) self.parentScope = parentScope if identifier: assert isinstance(identifier, IDLIdentifier) self._name = identifier else: self._name = None self._dict = {} def __str__(self): return self.QName() def QName(self): if self._name: return self._name.QName() + "::" return "::" def ensureUnique(self, identifier, object): """ Ensure that there is at most one 'identifier' in scope ('self'). Note that object can be None. This occurs if we end up here for an interface type we haven't seen yet. """ assert isinstance(identifier, IDLUnresolvedIdentifier) assert not object or isinstance(object, IDLObjectWithIdentifier) assert not object or object.identifier == identifier if identifier.name in self._dict: if not object: return # ensureUnique twice with the same object is not allowed assert object != self._dict[identifier.name] replacement = self.resolveIdentifierConflict(self, identifier, self._dict[identifier.name], object) self._dict[identifier.name] = replacement return assert object self._dict[identifier.name] = object def resolveIdentifierConflict(self, scope, identifier, originalObject, newObject): if isinstance(originalObject, IDLExternalInterface) and \ isinstance(newObject, IDLExternalInterface) and \ originalObject.identifier.name == newObject.identifier.name: return originalObject # Default to throwing, derived classes can override. conflictdesc = "\n\t%s at %s\n\t%s at %s" % \ (originalObject, originalObject.location, newObject, newObject.location) raise WebIDLError( "Multiple unresolvable definitions of identifier '%s' in scope '%s%s" % (identifier.name, str(self), conflictdesc), []) def _lookupIdentifier(self, identifier): return self._dict[identifier.name] def lookupIdentifier(self, identifier): assert isinstance(identifier, IDLIdentifier) assert identifier.scope == self return self._lookupIdentifier(identifier) class IDLIdentifier(IDLObject): def __init__(self, location, scope, name): IDLObject.__init__(self, location) self.name = name assert isinstance(scope, IDLScope) self.scope = scope def __str__(self): return self.QName() def QName(self): return self.scope.QName() + self.name def __hash__(self): return self.QName().__hash__() def __eq__(self, other): return self.QName() == other.QName() def object(self): return self.scope.lookupIdentifier(self) class IDLUnresolvedIdentifier(IDLObject): def __init__(self, location, name, allowDoubleUnderscore = False, allowForbidden = False): IDLObject.__init__(self, location) assert len(name) > 0 if name[:2] == "__" and not allowDoubleUnderscore: raise WebIDLError("Identifiers beginning with __ are reserved", [location]) if name[0] == '_' and not allowDoubleUnderscore: name = name[1:] if name in ["prototype", "constructor", "toString"] and not allowForbidden: raise WebIDLError("Cannot use reserved identifier '%s'" % (name), [location]) self.name = name def __str__(self): return self.QName() def QName(self): return "::" + self.name def resolve(self, scope, object): assert isinstance(scope, IDLScope) assert not object or isinstance(object, IDLObjectWithIdentifier) assert not object or object.identifier == self scope.ensureUnique(self, object) identifier = IDLIdentifier(self.location, scope, self.name) if object: object.identifier = identifier return identifier def finish(self): assert False # Should replace with a resolved identifier first. class IDLObjectWithIdentifier(IDLObject): def __init__(self, location, parentScope, identifier): IDLObject.__init__(self, location) assert isinstance(identifier, IDLUnresolvedIdentifier) self.identifier = identifier if parentScope: self.resolve(parentScope) self.treatNullAs = "Default" self.treatUndefinedAs = "Default" def resolve(self, parentScope): assert isinstance(parentScope, IDLScope) assert isinstance(self.identifier, IDLUnresolvedIdentifier) self.identifier.resolve(parentScope, self) def checkForStringHandlingExtendedAttributes(self, attrs, isDictionaryMember=False, isOptional=False): """ A helper function to deal with TreatNullAs and TreatUndefinedAs. Returns the list of attrs it didn't handle itself. """ assert isinstance(self, IDLArgument) or isinstance(self, IDLAttribute) unhandledAttrs = list() for attr in attrs: if not attr.hasValue(): unhandledAttrs.append(attr) continue identifier = attr.identifier() value = attr.value() if identifier == "TreatNullAs": if not self.type.isString() or self.type.nullable(): raise WebIDLError("[TreatNullAs] is only allowed on " "arguments or attributes whose type is " "DOMString", [self.location]) if isDictionaryMember: raise WebIDLError("[TreatNullAs] is not allowed for " "dictionary members", [self.location]) if value != 'EmptyString': raise WebIDLError("[TreatNullAs] must take the identifier " "'EmptyString', not '%s'" % value, [self.location]) self.treatNullAs = value elif identifier == "TreatUndefinedAs": if not self.type.isString(): raise WebIDLError("[TreatUndefinedAs] is only allowed on " "arguments or attributes whose type is " "DOMString or DOMString?", [self.location]) if isDictionaryMember: raise WebIDLError("[TreatUndefinedAs] is not allowed for " "dictionary members", [self.location]) if value == 'Null': if not self.type.nullable(): raise WebIDLError("[TreatUndefinedAs=Null] is only " "allowed on arguments whose type is " "DOMString?", [self.location]) elif value == 'Missing': if not isOptional: raise WebIDLError("[TreatUndefinedAs=Missing] is only " "allowed on optional arguments", [self.location]) elif value != 'EmptyString': raise WebIDLError("[TreatUndefinedAs] must take the " "identifiers EmptyString or Null or " "Missing", [self.location]) self.treatUndefinedAs = value else: unhandledAttrs.append(attr) return unhandledAttrs class IDLObjectWithScope(IDLObjectWithIdentifier, IDLScope): def __init__(self, location, parentScope, identifier): assert isinstance(identifier, IDLUnresolvedIdentifier) IDLObjectWithIdentifier.__init__(self, location, parentScope, identifier) IDLScope.__init__(self, location, parentScope, self.identifier) class IDLIdentifierPlaceholder(IDLObjectWithIdentifier): def __init__(self, location, identifier): assert isinstance(identifier, IDLUnresolvedIdentifier) IDLObjectWithIdentifier.__init__(self, location, None, identifier) def finish(self, scope): try: scope._lookupIdentifier(self.identifier) except: raise WebIDLError("Unresolved type '%s'." % self.identifier, [self.location]) obj = self.identifier.resolve(scope, None) return scope.lookupIdentifier(obj) class IDLExternalInterface(IDLObjectWithIdentifier): def __init__(self, location, parentScope, identifier): assert isinstance(identifier, IDLUnresolvedIdentifier) assert isinstance(parentScope, IDLScope) self.parent = None IDLObjectWithIdentifier.__init__(self, location, parentScope, identifier) IDLObjectWithIdentifier.resolve(self, parentScope) def finish(self, scope): pass def validate(self): pass def isExternal(self): return True def isInterface(self): return True def isConsequential(self): return False def addExtendedAttributes(self, attrs): assert len(attrs) == 0 def resolve(self, parentScope): pass class IDLInterface(IDLObjectWithScope): def __init__(self, location, parentScope, name, parent, members): assert isinstance(parentScope, IDLScope) assert isinstance(name, IDLUnresolvedIdentifier) assert not parent or isinstance(parent, IDLIdentifierPlaceholder) self.parent = parent self._callback = False self._finished = False self.members = list(members) # clone the list self.implementedInterfaces = set() self._consequential = False # self.interfacesBasedOnSelf is the set of interfaces that inherit from # self or have self as a consequential interface, including self itself. # Used for distinguishability checking. self.interfacesBasedOnSelf = set([self]) IDLObjectWithScope.__init__(self, location, parentScope, name) def __str__(self): return "Interface '%s'" % self.identifier.name def ctor(self): identifier = IDLUnresolvedIdentifier(self.location, "constructor", allowForbidden=True) try: return self._lookupIdentifier(identifier) except: return None def resolveIdentifierConflict(self, scope, identifier, originalObject, newObject): assert isinstance(scope, IDLScope) assert isinstance(originalObject, IDLInterfaceMember) assert isinstance(newObject, IDLInterfaceMember) if originalObject.tag != IDLInterfaceMember.Tags.Method or \ newObject.tag != IDLInterfaceMember.Tags.Method: # Call the base class method, which will throw IDLScope.resolveIdentifierConflict(self, identifier, originalObject, newObject) assert False # Not reached retval = originalObject.addOverload(newObject) # Might be a ctor, which isn't in self.members if newObject in self.members: self.members.remove(newObject) return retval def finish(self, scope): if self._finished: return self._finished = True assert not self.parent or isinstance(self.parent, IDLIdentifierPlaceholder) parent = self.parent.finish(scope) if self.parent else None if parent and isinstance(parent, IDLExternalInterface): raise WebIDLError("%s inherits from %s which does not have " "a definition" % (self.identifier.name, self.parent.identifier.name), [self.location]) assert not parent or isinstance(parent, IDLInterface) self.parent = parent assert iter(self.members) if self.parent: self.parent.finish(scope) # Callbacks must not inherit from non-callbacks or inherit from # anything that has consequential interfaces. # XXXbz Can non-callbacks inherit from callbacks? Spec issue pending. # XXXbz Can callbacks have consequential interfaces? Spec issue pending if self.isCallback(): if not self.parent.isCallback(): raise WebIDLError("Callback interface %s inheriting from " "non-callback interface %s" % (self.identifier.name, self.parent.identifier.name), [self.location, self.parent.location]) elif self.parent.isCallback(): raise WebIDLError("Non-callback interface %s inheriting from " "callback interface %s" % (self.identifier.name, self.parent.identifier.name), [self.location, self.parent.location]) for iface in self.implementedInterfaces: iface.finish(scope) cycleInGraph = self.findInterfaceLoopPoint(self) if cycleInGraph: raise WebIDLError("Interface %s has itself as ancestor or " "implemented interface" % self.identifier.name, [self.location, cycleInGraph.location]) if self.isCallback(): # "implements" should have made sure we have no # consequential interfaces. assert len(self.getConsequentialInterfaces()) == 0 # And that we're not consequential. assert not self.isConsequential() # Now resolve() and finish() our members before importing the # ones from our implemented interfaces. # resolve() will modify self.members, so we need to iterate # over a copy of the member list here. for member in list(self.members): member.resolve(self) for member in self.members: member.finish(scope) ctor = self.ctor() if ctor is not None: ctor.finish(scope) # Make a copy of our member list, so things tht implement us # can get those without all the stuff we implement ourselves # admixed. self.originalMembers = list(self.members) # Import everything from our consequential interfaces into # self.members. Sort our consequential interfaces by name # just so we have a consistent order. for iface in sorted(self.getConsequentialInterfaces(), cmp=cmp, key=lambda x: x.identifier.name): # Flag the interface as being someone's consequential interface iface.setIsConsequentialInterfaceOf(self) additionalMembers = iface.originalMembers; for additionalMember in additionalMembers: for member in self.members: if additionalMember.identifier.name == member.identifier.name: raise WebIDLError( "Multiple definitions of %s on %s coming from 'implements' statements" % (member.identifier.name, self), [additionalMember.location, member.location]) self.members.extend(additionalMembers) for ancestor in self.getInheritedInterfaces(): ancestor.interfacesBasedOnSelf.add(self) for ancestorConsequential in ancestor.getConsequentialInterfaces(): ancestorConsequential.interfacesBasedOnSelf.add(self) # Ensure that there's at most one of each {named,indexed} # {getter,setter,creator,deleter}. specialMembersSeen = set() for member in self.members: if member.tag != IDLInterfaceMember.Tags.Method: continue if member.isGetter(): memberType = "getters" elif member.isSetter(): memberType = "setters" elif member.isCreator(): memberType = "creators" elif member.isDeleter(): memberType = "deleters" else: continue if member.isNamed(): memberType = "named " + memberType elif member.isIndexed(): memberType = "indexed " + memberType else: continue if memberType in specialMembersSeen: raise WebIDLError("Multiple " + memberType + " on %s" % (self), [self.location]) specialMembersSeen.add(memberType) def validate(self): for member in self.members: member.validate() def isInterface(self): return True def isExternal(self): return False def setIsConsequentialInterfaceOf(self, other): self._consequential = True self.interfacesBasedOnSelf.add(other) def isConsequential(self): return self._consequential def setCallback(self, value): self._callback = value def isCallback(self): return self._callback def inheritanceDepth(self): depth = 0 parent = self.parent while parent: depth = depth + 1 parent = parent.parent return depth def hasConstants(self): return any(m.isConst() for m in self.members) def hasInterfaceObject(self): if self.isCallback(): return self.hasConstants() return not hasattr(self, "_noInterfaceObject") def hasInterfacePrototypeObject(self): return not self.isCallback() and self.getUserData('hasConcreteDescendant', False) def addExtendedAttributes(self, attrs): self._extendedAttrDict = {} for attr in attrs: identifier = attr.identifier() # Special cased attrs if identifier == "TreatNonCallableAsNull": raise WebIDLError("TreatNonCallableAsNull cannot be specified on interfaces", [attr.location, self.location]) elif identifier == "NoInterfaceObject": if not attr.noArguments(): raise WebIDLError("[NoInterfaceObject] must take no arguments", [attr.location]) if self.ctor(): raise WebIDLError("Constructor and NoInterfaceObject are incompatible", [self.location]) self._noInterfaceObject = True elif identifier == "Constructor": if not self.hasInterfaceObject(): raise WebIDLError("Constructor and NoInterfaceObject are incompatible", [self.location]) args = attr.args() if attr.hasArgs() else [] retType = IDLWrapperType(self.location, self) identifier = IDLUnresolvedIdentifier(self.location, "constructor", allowForbidden=True) method = IDLMethod(self.location, identifier, retType, args) # Constructors are always Creators and are always # assumed to be able to throw (since there's no way to # indicate otherwise) and never have any other # extended attributes. method.addExtendedAttributes( [IDLExtendedAttribute(self.location, ("Creator",)), IDLExtendedAttribute(self.location, ("Throws",))]) method.resolve(self) attrlist = attr.listValue() self._extendedAttrDict[identifier] = attrlist if len(attrlist) else True def addImplementedInterface(self, implementedInterface): assert(isinstance(implementedInterface, IDLInterface)) self.implementedInterfaces.add(implementedInterface) def getInheritedInterfaces(self): """ Returns a list of the interfaces this interface inherits from (not including this interface itself). The list is in order from most derived to least derived. """ assert(self._finished) if not self.parent: return [] parentInterfaces = self.parent.getInheritedInterfaces() parentInterfaces.insert(0, self.parent) return parentInterfaces def getConsequentialInterfaces(self): assert(self._finished) # The interfaces we implement directly consequentialInterfaces = set(self.implementedInterfaces) # And their inherited interfaces for iface in self.implementedInterfaces: consequentialInterfaces |= set(iface.getInheritedInterfaces()) # And now collect up the consequential interfaces of all of those temp = set() for iface in consequentialInterfaces: temp |= iface.getConsequentialInterfaces() return consequentialInterfaces | temp def findInterfaceLoopPoint(self, otherInterface): """ Finds an interface, amongst our ancestors and consequential interfaces, that inherits from otherInterface or implements otherInterface directly. If there is no such interface, returns None. """ if self.parent: if self.parent == otherInterface: return self loopPoint = self.parent.findInterfaceLoopPoint(otherInterface) if loopPoint: return loopPoint if otherInterface in self.implementedInterfaces: return self for iface in self.implementedInterfaces: loopPoint = iface.findInterfaceLoopPoint(otherInterface) if loopPoint: return loopPoint return None def getExtendedAttribute(self, name): return self._extendedAttrDict.get(name, None) class IDLDictionary(IDLObjectWithScope): def __init__(self, location, parentScope, name, parent, members): assert isinstance(parentScope, IDLScope) assert isinstance(name, IDLUnresolvedIdentifier) assert not parent or isinstance(parent, IDLIdentifierPlaceholder) self.parent = parent self._finished = False self.members = list(members) IDLObjectWithScope.__init__(self, location, parentScope, name) def __str__(self): return "Dictionary '%s'" % self.identifier.name def isDictionary(self): return True; def finish(self, scope): if self._finished: return self._finished = True if self.parent: assert isinstance(self.parent, IDLIdentifierPlaceholder) oldParent = self.parent self.parent = self.parent.finish(scope) if not isinstance(self.parent, IDLDictionary): raise WebIDLError("Dictionary %s has parent that is not a dictionary" % self.identifier.name, [oldParent.location, self.parent.location]) # Make sure the parent resolves all its members before we start # looking at them. self.parent.finish(scope) for member in self.members: member.resolve(self) if not member.isComplete(): member.complete(scope) assert member.type.isComplete() # Members of a dictionary are sorted in lexicographic order self.members.sort(cmp=cmp, key=lambda x: x.identifier.name) inheritedMembers = [] ancestor = self.parent while ancestor: if ancestor == self: raise WebIDLError("Dictionary %s has itself as an ancestor" % self.identifier.name, [self.identifier.location]) inheritedMembers.extend(ancestor.members) ancestor = ancestor.parent # Catch name duplication for inheritedMember in inheritedMembers: for member in self.members: if member.identifier.name == inheritedMember.identifier.name: raise WebIDLError("Dictionary %s has two members with name %s" % (self.identifier.name, member.identifier.name), [member.location, inheritedMember.location]) def validate(self): pass def addExtendedAttributes(self, attrs): assert len(attrs) == 0 class IDLEnum(IDLObjectWithIdentifier): def __init__(self, location, parentScope, name, values): assert isinstance(parentScope, IDLScope) assert isinstance(name, IDLUnresolvedIdentifier) if len(values) != len(set(values)): raise WebIDLError("Enum %s has multiple identical strings" % name.name, [location]) IDLObjectWithIdentifier.__init__(self, location, parentScope, name) self._values = values def values(self): return self._values def finish(self, scope): pass def validate(self): pass def isEnum(self): return True def addExtendedAttributes(self, attrs): assert len(attrs) == 0 class IDLType(IDLObject): Tags = enum( # The integer types 'int8', 'uint8', 'int16', 'uint16', 'int32', 'uint32', 'int64', 'uint64', # Additional primitive types 'bool', 'float', 'double', # Other types 'any', 'domstring', 'object', 'date', 'void', # Funny stuff 'interface', 'dictionary', 'enum', 'callback', 'union' ) def __init__(self, location, name): IDLObject.__init__(self, location) self.name = name self.builtin = False def __eq__(self, other): return other and self.builtin == other.builtin and self.name == other.name def __ne__(self, other): return not self == other def __str__(self): return str(self.name) def isType(self): return True def nullable(self): return False def isPrimitive(self): return False def isString(self): return False def isVoid(self): return self.name == "Void" def isSequence(self): return False def isArray(self): return False def isArrayBuffer(self): return False def isArrayBufferView(self): return False def isTypedArray(self): return False def isCallbackInterface(self): return False def isNonCallbackInterface(self): return False def isGeckoInterface(self): """ Returns a boolean indicating whether this type is an 'interface' type that is implemented in Gecko. At the moment, this returns true for all interface types that are not types from the TypedArray spec.""" return self.isInterface() and not self.isSpiderMonkeyInterface() def isSpiderMonkeyInterface(self): """ Returns a boolean indicating whether this type is an 'interface' type that is implemented in Spidermonkey. At the moment, this only returns true for the types from the TypedArray spec. """ return self.isInterface() and (self.isArrayBuffer() or \ self.isArrayBufferView() or \ self.isTypedArray()) def isDictionary(self): return False def isInterface(self): return False def isAny(self): return self.tag() == IDLType.Tags.any def isDate(self): return self.tag() == IDLType.Tags.date def isObject(self): return self.tag() == IDLType.Tags.object def isComplete(self): return True def tag(self): assert False # Override me! def treatNonCallableAsNull(self): if not (self.nullable() and self.tag() == IDLType.Tags.callback): raise WebIDLError("Type %s cannot be TreatNonCallableAsNull" % self, [self.location]) return hasattr(self, "_treatNonCallableAsNull") def markTreatNonCallableAsNull(self): assert not self.treatNonCallableAsNull() self._treatNonCallableAsNull = True def addExtendedAttributes(self, attrs): assert len(attrs) == 0 def resolveType(self, parentScope): pass def unroll(self): return self def isDistinguishableFrom(self, other): raise TypeError("Can't tell whether a generic type is or is not " "distinguishable from other things") class IDLUnresolvedType(IDLType): """ Unresolved types are interface types """ def __init__(self, location, name): IDLType.__init__(self, location, name) def isComplete(self): return False def complete(self, scope): obj = None try: obj = scope._lookupIdentifier(self.name) except: raise WebIDLError("Unresolved type '%s'." % self.name, [self.location]) assert obj if obj.isType(): # obj itself might not be complete; deal with that. assert obj != self if not obj.isComplete(): obj = obj.complete(scope) return obj name = self.name.resolve(scope, None) return IDLWrapperType(self.location, obj) def isDistinguishableFrom(self, other): raise TypeError("Can't tell whether an unresolved type is or is not " "distinguishable from other things") class IDLNullableType(IDLType): def __init__(self, location, innerType): assert not innerType.isVoid() assert not innerType == BuiltinTypes[IDLBuiltinType.Types.any] IDLType.__init__(self, location, innerType.name) self.inner = innerType self.builtin = False def __eq__(self, other): return isinstance(other, IDLNullableType) and self.inner == other.inner def __str__(self): return self.inner.__str__() + "OrNull" def nullable(self): return True def isCallback(self): return self.inner.isCallback() def isPrimitive(self): return self.inner.isPrimitive() def isString(self): return self.inner.isString() def isFloat(self): return self.inner.isFloat() def isInteger(self): return self.inner.isInteger() def isVoid(self): return False def isSequence(self): return self.inner.isSequence() def isArray(self): return self.inner.isArray() def isArrayBuffer(self): return self.inner.isArrayBuffer() def isArrayBufferView(self): return self.inner.isArrayBufferView() def isTypedArray(self): return self.inner.isTypedArray() def isDictionary(self): return self.inner.isDictionary() def isInterface(self): return self.inner.isInterface() def isCallbackInterface(self): return self.inner.isCallbackInterface() def isNonCallbackInterface(self): return self.inner.isNonCallbackInterface() def isEnum(self): return self.inner.isEnum() def isUnion(self): return self.inner.isUnion() def tag(self): return self.inner.tag() def resolveType(self, parentScope): assert isinstance(parentScope, IDLScope) self.inner.resolveType(parentScope) def isComplete(self): return self.inner.isComplete() def complete(self, scope): self.inner = self.inner.complete(scope) if self.inner.nullable(): raise WebIDLError("The inner type of a nullable type must not be " "a nullable type", [self.location, self.inner.location]) if self.inner.isUnion(): if self.inner.hasNullableType: raise WebIDLError("The inner type of a nullable type must not " "be a union type that itself has a nullable " "type as a member type", [self.location]) # Check for dictionaries in the union for memberType in self.inner.flatMemberTypes: if memberType.isDictionary(): raise WebIDLError("The inner type of a nullable type must " "not be a union type containing a " "dictionary type", [self.location, memberType.location]) if self.inner.isDictionary(): raise WebIDLError("The inner type of a nullable type must not be a " "dictionary type", [self.location]) self.name = self.inner.name return self def unroll(self): return self.inner.unroll() def isDistinguishableFrom(self, other): if (other.nullable() or (other.isUnion() and other.hasNullableType) or other.isDictionary()): # Can't tell which type null should become return False return self.inner.isDistinguishableFrom(other) class IDLSequenceType(IDLType): def __init__(self, location, parameterType): assert not parameterType.isVoid() IDLType.__init__(self, location, parameterType.name) self.inner = parameterType self.builtin = False def __eq__(self, other): return isinstance(other, IDLSequenceType) and self.inner == other.inner def __str__(self): return self.inner.__str__() + "Sequence" def nullable(self): return False def isPrimitive(self): return False; def isString(self): return False; def isVoid(self): return False def isSequence(self): return True def isArray(self): return False def isDictionary(self): return False def isInterface(self): return False def isEnum(self): return False def tag(self): # XXXkhuey this is probably wrong. return self.inner.tag() def resolveType(self, parentScope): assert isinstance(parentScope, IDLScope) self.inner.resolveType(parentScope) def isComplete(self): return self.inner.isComplete() def complete(self, scope): self.inner = self.inner.complete(scope) self.name = self.inner.name return self def unroll(self): return self.inner.unroll() def isDistinguishableFrom(self, other): if other.isUnion(): # Just forward to the union; it'll deal return other.isDistinguishableFrom(self) return (other.isPrimitive() or other.isString() or other.isEnum() or other.isDictionary() or other.isDate() or other.isNonCallbackInterface()) class IDLUnionType(IDLType): def __init__(self, location, memberTypes): IDLType.__init__(self, location, "") self.memberTypes = memberTypes self.hasNullableType = False self.flatMemberTypes = None self.builtin = False def __eq__(self, other): return isinstance(other, IDLUnionType) and self.memberTypes == other.memberTypes def isVoid(self): return False def isUnion(self): return True def tag(self): return IDLType.Tags.union def resolveType(self, parentScope): assert isinstance(parentScope, IDLScope) for t in self.memberTypes: t.resolveType(parentScope) def isComplete(self): return self.flatMemberTypes is not None def complete(self, scope): def typeName(type): if isinstance(type, IDLNullableType): return typeName(type.inner) + "OrNull" if isinstance(type, IDLWrapperType): return typeName(type._identifier.object()) if isinstance(type, IDLObjectWithIdentifier): return typeName(type.identifier) if isinstance(type, IDLType) and (type.isArray() or type.isSequence()): return str(type) return type.name for (i, type) in enumerate(self.memberTypes): if not type.isComplete(): self.memberTypes[i] = type.complete(scope) self.name = "Or".join(typeName(type) for type in self.memberTypes) self.flatMemberTypes = list(self.memberTypes) i = 0 while i < len(self.flatMemberTypes): if self.flatMemberTypes[i].nullable(): if self.hasNullableType: raise WebIDLError("Can't have more than one nullable types in a union", [nullableType.location, self.flatMemberTypes[i].location]) self.hasNullableType = True nullableType = self.flatMemberTypes[i] self.flatMemberTypes[i] = self.flatMemberTypes[i].inner continue if self.flatMemberTypes[i].isUnion(): self.flatMemberTypes[i:i + 1] = self.flatMemberTypes[i].memberTypes continue i += 1 for (i, t) in enumerate(self.flatMemberTypes[:-1]): for u in self.flatMemberTypes[i + 1:]: if not t.isDistinguishableFrom(u): raise WebIDLError("Flat member types of a union should be " "distinguishable, " + str(t) + " is not " "distinguishable from " + str(u), [self.location, t.location, u.location]) return self def isDistinguishableFrom(self, other): if self.hasNullableType and other.nullable(): # Can't tell which type null should become return False if other.isUnion(): otherTypes = other.unroll().memberTypes else: otherTypes = [other] # For every type in otherTypes, check that it's distinguishable from # every type in our types for u in otherTypes: if any(not t.isDistinguishableFrom(u) for t in self.memberTypes): return False return True class IDLArrayType(IDLType): def __init__(self, location, parameterType): assert not parameterType.isVoid() if parameterType.isSequence(): raise WebIDLError("Array type cannot parameterize over a sequence type", [location]) if parameterType.isDictionary(): raise WebIDLError("Array type cannot parameterize over a dictionary type", [location]) IDLType.__init__(self, location, parameterType.name) self.inner = parameterType self.builtin = False def __eq__(self, other): return isinstance(other, IDLArrayType) and self.inner == other.inner def __str__(self): return self.inner.__str__() + "Array" def nullable(self): return False def isPrimitive(self): return False def isString(self): return False def isVoid(self): return False def isSequence(self): assert not self.inner.isSequence() return False def isArray(self): return True def isDictionary(self): assert not self.inner.isDictionary() return False def isInterface(self): return False def isEnum(self): return False def tag(self): # XXXkhuey this is probably wrong. return self.inner.tag() def resolveType(self, parentScope): assert isinstance(parentScope, IDLScope) self.inner.resolveType(parentScope) def isComplete(self): return self.inner.isComplete() def complete(self, scope): self.inner = self.inner.complete(scope) self.name = self.inner.name return self def unroll(self): return self.inner.unroll() def isDistinguishableFrom(self, other): if other.isUnion(): # Just forward to the union; it'll deal return other.isDistinguishableFrom(self) return (other.isPrimitive() or other.isString() or other.isEnum() or other.isDictionary() or other.isDate() or other.isNonCallbackInterface()) class IDLTypedefType(IDLType, IDLObjectWithIdentifier): def __init__(self, location, innerType, name): IDLType.__init__(self, location, innerType.name) identifier = IDLUnresolvedIdentifier(location, name) IDLObjectWithIdentifier.__init__(self, location, None, identifier) self.inner = innerType self.name = name self.builtin = False def __eq__(self, other): return isinstance(other, IDLTypedefType) and self.inner == other.inner def __str__(self): return self.identifier.name def nullable(self): return self.inner.nullable() def isPrimitive(self): return self.inner.isPrimitive() def isString(self): return self.inner.isString() def isVoid(self): return self.inner.isVoid() def isSequence(self): return self.inner.isSequence() def isArray(self): return self.inner.isArray() def isDictionary(self): return self.inner.isDictionary() def isArrayBuffer(self): return self.inner.isArrayBuffer() def isArrayBufferView(self): return self.inner.isArrayBufferView() def isTypedArray(self): return self.inner.isTypedArray() def isInterface(self): return self.inner.isInterface() def isCallbackInterface(self): return self.inner.isCallbackInterface() def isNonCallbackInterface(self): return self.inner.isNonCallbackInterface() def isComplete(self): return False def complete(self, parentScope): if not self.inner.isComplete(): self.inner = self.inner.complete(parentScope) assert self.inner.isComplete() return self.inner def finish(self, parentScope): # Maybe the IDLObjectWithIdentifier for the typedef should be # a separate thing from the type? self.complete(parentScope) def validate(self): pass # Do we need a resolveType impl? I don't think it's particularly useful.... def tag(self): return self.inner.tag() def unroll(self): return self.inner.unroll() def isDistinguishableFrom(self, other): return self.inner.isDistinguishableFrom(other) class IDLWrapperType(IDLType): def __init__(self, location, inner): IDLType.__init__(self, location, inner.identifier.name) self.inner = inner self._identifier = inner.identifier self.builtin = False def __eq__(self, other): return isinstance(other, IDLWrapperType) and \ self._identifier == other._identifier and \ self.builtin == other.builtin def __str__(self): return str(self.name) + " (Wrapper)" def nullable(self): return False def isPrimitive(self): return False def isString(self): return False def isVoid(self): return False def isSequence(self): return False def isArray(self): return False def isDictionary(self): return isinstance(self.inner, IDLDictionary) def isInterface(self): return isinstance(self.inner, IDLInterface) or \ isinstance(self.inner, IDLExternalInterface) def isCallbackInterface(self): return self.isInterface() and self.inner.isCallback() def isNonCallbackInterface(self): return self.isInterface() and not self.inner.isCallback() def isEnum(self): return isinstance(self.inner, IDLEnum) def resolveType(self, parentScope): assert isinstance(parentScope, IDLScope) self.inner.resolve(parentScope) def isComplete(self): return True def tag(self): if self.isInterface(): return IDLType.Tags.interface elif self.isEnum(): return IDLType.Tags.enum elif self.isDictionary(): return IDLType.Tags.dictionary else: assert False def isDistinguishableFrom(self, other): if other.isUnion(): # Just forward to the union; it'll deal return other.isDistinguishableFrom(self) assert self.isInterface() or self.isEnum() or self.isDictionary() if self.isEnum(): return (other.isInterface() or other.isObject() or other.isCallback() or other.isDictionary() or other.isSequence() or other.isArray() or other.isDate()) if other.isPrimitive() or other.isString() or other.isEnum() or other.isDate(): return True if self.isDictionary(): return (not other.nullable() and (other.isNonCallbackInterface() or other.isSequence() or other.isArray())) assert self.isInterface() # XXXbz need to check that the interfaces can't be implemented # by the same object if other.isInterface(): if other.isSpiderMonkeyInterface(): # Just let |other| handle things return other.isDistinguishableFrom(self) assert self.isGeckoInterface() and other.isGeckoInterface() if self.inner.isExternal() or other.unroll().inner.isExternal(): return self != other return (len(self.inner.interfacesBasedOnSelf & other.unroll().inner.interfacesBasedOnSelf) == 0 and (self.isNonCallbackInterface() or other.isNonCallbackInterface())) if (other.isDictionary() or other.isCallback() or other.isSequence() or other.isArray()): return self.isNonCallbackInterface() # Not much else |other| can be assert other.isObject() return False class IDLBuiltinType(IDLType): Types = enum( # The integer types 'byte', 'octet', 'short', 'unsigned_short', 'long', 'unsigned_long', 'long_long', 'unsigned_long_long', # Additional primitive types 'boolean', 'float', 'double', # Other types 'any', 'domstring', 'object', 'date', 'void', # Funny stuff 'ArrayBuffer', 'ArrayBufferView', 'Int8Array', 'Uint8Array', 'Uint8ClampedArray', 'Int16Array', 'Uint16Array', 'Int32Array', 'Uint32Array', 'Float32Array', 'Float64Array' ) TagLookup = { Types.byte: IDLType.Tags.int8, Types.octet: IDLType.Tags.uint8, Types.short: IDLType.Tags.int16, Types.unsigned_short: IDLType.Tags.uint16, Types.long: IDLType.Tags.int32, Types.unsigned_long: IDLType.Tags.uint32, Types.long_long: IDLType.Tags.int64, Types.unsigned_long_long: IDLType.Tags.uint64, Types.boolean: IDLType.Tags.bool, Types.float: IDLType.Tags.float, Types.double: IDLType.Tags.double, Types.any: IDLType.Tags.any, Types.domstring: IDLType.Tags.domstring, Types.object: IDLType.Tags.object, Types.date: IDLType.Tags.date, Types.void: IDLType.Tags.void, Types.ArrayBuffer: IDLType.Tags.interface, Types.ArrayBufferView: IDLType.Tags.interface, Types.Int8Array: IDLType.Tags.interface, Types.Uint8Array: IDLType.Tags.interface, Types.Uint8ClampedArray: IDLType.Tags.interface, Types.Int16Array: IDLType.Tags.interface, Types.Uint16Array: IDLType.Tags.interface, Types.Int32Array: IDLType.Tags.interface, Types.Uint32Array: IDLType.Tags.interface, Types.Float32Array: IDLType.Tags.interface, Types.Float64Array: IDLType.Tags.interface } def __init__(self, location, name, type): IDLType.__init__(self, location, name) self.builtin = True self._typeTag = type def isPrimitive(self): return self._typeTag <= IDLBuiltinType.Types.double def isString(self): return self._typeTag == IDLBuiltinType.Types.domstring def isInteger(self): return self._typeTag <= IDLBuiltinType.Types.unsigned_long_long def isArrayBuffer(self): return self._typeTag == IDLBuiltinType.Types.ArrayBuffer def isArrayBufferView(self): return self._typeTag == IDLBuiltinType.Types.ArrayBufferView def isTypedArray(self): return self._typeTag >= IDLBuiltinType.Types.Int8Array and \ self._typeTag <= IDLBuiltinType.Types.Float64Array def isInterface(self): # TypedArray things are interface types per the TypedArray spec, # but we handle them as builtins because SpiderMonkey implements # all of it internally. return self.isArrayBuffer() or \ self.isArrayBufferView() or \ self.isTypedArray() def isNonCallbackInterface(self): # All the interfaces we can be are non-callback return self.isInterface() def isFloat(self): return self._typeTag == IDLBuiltinType.Types.float or \ self._typeTag == IDLBuiltinType.Types.double def tag(self): return IDLBuiltinType.TagLookup[self._typeTag] def isDistinguishableFrom(self, other): if other.isUnion(): # Just forward to the union; it'll deal return other.isDistinguishableFrom(self) if self.isPrimitive() or self.isString(): return (other.isInterface() or other.isObject() or other.isCallback() or other.isDictionary() or other.isSequence() or other.isArray() or other.isDate()) if self.isAny(): # Can't tell "any" apart from anything return False if self.isObject(): return other.isPrimitive() or other.isString() or other.isEnum() if self.isDate(): return (other.isPrimitive() or other.isString() or other.isEnum() or other.isInterface() or other.isCallback() or other.isDictionary() or other.isSequence() or other.isArray()) if self.isVoid(): return not other.isVoid() # Not much else we could be! assert self.isSpiderMonkeyInterface() # Like interfaces, but we know we're not a callback return (other.isPrimitive() or other.isString() or other.isEnum() or other.isCallback() or other.isDictionary() or other.isSequence() or other.isArray() or other.isDate() or (other.isInterface() and ( # ArrayBuffer is distinguishable from everything # that's not an ArrayBuffer or a callback interface (self.isArrayBuffer() and not other.isArrayBuffer()) or # ArrayBufferView is distinguishable from everything # that's not an ArrayBufferView or typed array. (self.isArrayBufferView() and not other.isArrayBufferView() and not other.isTypedArray()) or # Typed arrays are distinguishable from everything # except ArrayBufferView and the same type of typed # array (self.isTypedArray() and not other.isArrayBufferView() and not (other.isTypedArray() and other.name == self.name))))) BuiltinTypes = { IDLBuiltinType.Types.byte: IDLBuiltinType(BuiltinLocation(""), "Byte", IDLBuiltinType.Types.byte), IDLBuiltinType.Types.octet: IDLBuiltinType(BuiltinLocation(""), "Octet", IDLBuiltinType.Types.octet), IDLBuiltinType.Types.short: IDLBuiltinType(BuiltinLocation(""), "Short", IDLBuiltinType.Types.short), IDLBuiltinType.Types.unsigned_short: IDLBuiltinType(BuiltinLocation(""), "UnsignedShort", IDLBuiltinType.Types.unsigned_short), IDLBuiltinType.Types.long: IDLBuiltinType(BuiltinLocation(""), "Long", IDLBuiltinType.Types.long), IDLBuiltinType.Types.unsigned_long: IDLBuiltinType(BuiltinLocation(""), "UnsignedLong", IDLBuiltinType.Types.unsigned_long), IDLBuiltinType.Types.long_long: IDLBuiltinType(BuiltinLocation(""), "LongLong", IDLBuiltinType.Types.long_long), IDLBuiltinType.Types.unsigned_long_long: IDLBuiltinType(BuiltinLocation(""), "UnsignedLongLong", IDLBuiltinType.Types.unsigned_long_long), IDLBuiltinType.Types.boolean: IDLBuiltinType(BuiltinLocation(""), "Boolean", IDLBuiltinType.Types.boolean), IDLBuiltinType.Types.float: IDLBuiltinType(BuiltinLocation(""), "Float", IDLBuiltinType.Types.float), IDLBuiltinType.Types.double: IDLBuiltinType(BuiltinLocation(""), "Double", IDLBuiltinType.Types.double), IDLBuiltinType.Types.any: IDLBuiltinType(BuiltinLocation(""), "Any", IDLBuiltinType.Types.any), IDLBuiltinType.Types.domstring: IDLBuiltinType(BuiltinLocation(""), "String", IDLBuiltinType.Types.domstring), IDLBuiltinType.Types.object: IDLBuiltinType(BuiltinLocation(""), "Object", IDLBuiltinType.Types.object), IDLBuiltinType.Types.date: IDLBuiltinType(BuiltinLocation(""), "Date", IDLBuiltinType.Types.date), IDLBuiltinType.Types.void: IDLBuiltinType(BuiltinLocation(""), "Void", IDLBuiltinType.Types.void), IDLBuiltinType.Types.ArrayBuffer: IDLBuiltinType(BuiltinLocation(""), "ArrayBuffer", IDLBuiltinType.Types.ArrayBuffer), IDLBuiltinType.Types.ArrayBufferView: IDLBuiltinType(BuiltinLocation(""), "ArrayBufferView", IDLBuiltinType.Types.ArrayBufferView), IDLBuiltinType.Types.Int8Array: IDLBuiltinType(BuiltinLocation(""), "Int8Array", IDLBuiltinType.Types.Int8Array), IDLBuiltinType.Types.Uint8Array: IDLBuiltinType(BuiltinLocation(""), "Uint8Array", IDLBuiltinType.Types.Uint8Array), IDLBuiltinType.Types.Uint8ClampedArray: IDLBuiltinType(BuiltinLocation(""), "Uint8ClampedArray", IDLBuiltinType.Types.Uint8ClampedArray), IDLBuiltinType.Types.Int16Array: IDLBuiltinType(BuiltinLocation(""), "Int16Array", IDLBuiltinType.Types.Int16Array), IDLBuiltinType.Types.Uint16Array: IDLBuiltinType(BuiltinLocation(""), "Uint16Array", IDLBuiltinType.Types.Uint16Array), IDLBuiltinType.Types.Int32Array: IDLBuiltinType(BuiltinLocation(""), "Int32Array", IDLBuiltinType.Types.Int32Array), IDLBuiltinType.Types.Uint32Array: IDLBuiltinType(BuiltinLocation(""), "Uint32Array", IDLBuiltinType.Types.Uint32Array), IDLBuiltinType.Types.Float32Array: IDLBuiltinType(BuiltinLocation(""), "Float32Array", IDLBuiltinType.Types.Float32Array), IDLBuiltinType.Types.Float64Array: IDLBuiltinType(BuiltinLocation(""), "Float64Array", IDLBuiltinType.Types.Float64Array) } integerTypeSizes = { IDLBuiltinType.Types.byte: (-128, 127), IDLBuiltinType.Types.octet: (0, 255), IDLBuiltinType.Types.short: (-32768, 32767), IDLBuiltinType.Types.unsigned_short: (0, 65535), IDLBuiltinType.Types.long: (-2147483648, 2147483647), IDLBuiltinType.Types.unsigned_long: (0, 4294967295), IDLBuiltinType.Types.long_long: (-9223372036854775808, 9223372036854775807), IDLBuiltinType.Types.unsigned_long_long: (0, 18446744073709551615) } def matchIntegerValueToType(value): for type, extremes in integerTypeSizes.items(): (min, max) = extremes if value <= max and value >= min: return BuiltinTypes[type] return None class IDLValue(IDLObject): def __init__(self, location, type, value): IDLObject.__init__(self, location) self.type = type assert isinstance(type, IDLType) self.value = value def coerceToType(self, type, location): if type == self.type: return self # Nothing to do # If the type allows null, rerun this matching on the inner type if type.nullable(): innerValue = self.coerceToType(type.inner, location) return IDLValue(self.location, type, innerValue.value) # Else, see if we can coerce to 'type'. if self.type.isInteger() and type.isInteger(): # We're both integer types. See if we fit. (min, max) = integerTypeSizes[type._typeTag] if self.value <= max and self.value >= min: # Promote return IDLValue(self.location, type, self.value) else: raise WebIDLError("Value %s is out of range for type %s." % (self.value, type), [location]) elif self.type.isString() and type.isEnum(): # Just keep our string, but make sure it's a valid value for this enum if self.value not in type.inner.values(): raise WebIDLError("'%s' is not a valid default value for enum %s" % (self.value, type.inner.identifier.name), [location, type.inner.location]) return self else: raise WebIDLError("Cannot coerce type %s to type %s." % (self.type, type), [location]) class IDLNullValue(IDLObject): def __init__(self, location): IDLObject.__init__(self, location) self.type = None self.value = None def coerceToType(self, type, location): if (not isinstance(type, IDLNullableType) and not (type.isUnion() and type.hasNullableType) and not type.isDictionary() and not type.isAny()): raise WebIDLError("Cannot coerce null value to type %s." % type, [location]) nullValue = IDLNullValue(self.location) nullValue.type = type return nullValue class IDLInterfaceMember(IDLObjectWithIdentifier): Tags = enum( 'Const', 'Attr', 'Method' ) def __init__(self, location, identifier, tag): IDLObjectWithIdentifier.__init__(self, location, None, identifier) self.tag = tag self._extendedAttrDict = {} def isMethod(self): return self.tag == IDLInterfaceMember.Tags.Method def isAttr(self): return self.tag == IDLInterfaceMember.Tags.Attr def isConst(self): return self.tag == IDLInterfaceMember.Tags.Const def addExtendedAttributes(self, attrs): for attr in attrs: self.handleExtendedAttribute(attr) attrlist = attr.listValue() self._extendedAttrDict[attr.identifier()] = attrlist if len(attrlist) else True def handleExtendedAttribute(self, attr): pass def getExtendedAttribute(self, name): return self._extendedAttrDict.get(name, None) class IDLConst(IDLInterfaceMember): def __init__(self, location, identifier, type, value): IDLInterfaceMember.__init__(self, location, identifier, IDLInterfaceMember.Tags.Const) assert isinstance(type, IDLType) if type.isDictionary(): raise WebIDLError("A constant cannot be of a dictionary type", [self.location]) self.type = type self.value = value def __str__(self): return "'%s' const '%s'" % (self.type, self.identifier) def finish(self, scope): if not self.type.isComplete(): type = self.type.complete(scope) if not type.isPrimitive() and not type.isString(): locations = [self.type.location, type.location] try: locations.append(type.inner.location) except: pass raise WebIDLError("Incorrect type for constant", locations) self.type = type # The value might not match the type coercedValue = self.value.coerceToType(self.type, self.location) assert coercedValue self.value = coercedValue def validate(self): pass class IDLAttribute(IDLInterfaceMember): def __init__(self, location, identifier, type, readonly, inherit, static=False): IDLInterfaceMember.__init__(self, location, identifier, IDLInterfaceMember.Tags.Attr) assert isinstance(type, IDLType) self.type = type self.readonly = readonly self.inherit = inherit self.static = static self.lenientThis = False if readonly and inherit: raise WebIDLError("An attribute cannot be both 'readonly' and 'inherit'", [self.location]) def isStatic(self): return self.static def __str__(self): return "'%s' attribute '%s'" % (self.type, self.identifier) def finish(self, scope): if not self.type.isComplete(): t = self.type.complete(scope) assert not isinstance(t, IDLUnresolvedType) assert not isinstance(t, IDLTypedefType) assert not isinstance(t.name, IDLUnresolvedIdentifier) self.type = t if self.type.isDictionary(): raise WebIDLError("An attribute cannot be of a dictionary type", [self.location]) if self.type.isSequence(): raise WebIDLError("An attribute cannot be of a sequence type", [self.location]) if self.type.isUnion(): for f in self.type.flatMemberTypes: if f.isDictionary(): raise WebIDLError("An attribute cannot be of a union " "type if one of its member types (or " "one of its member types's member " "types, and so on) is a dictionary " "type", [self.location, f.location]) if f.isSequence(): raise WebIDLError("An attribute cannot be of a union " "type if one of its member types (or " "one of its member types's member " "types, and so on) is a sequence " "type", [self.location, f.location]) def validate(self): pass def handleExtendedAttribute(self, attr): identifier = attr.identifier() if identifier == "TreatNonCallableAsNull": self.type.markTreatNonCallableAsNull(); elif identifier == "SetterInfallible" and self.readonly: raise WebIDLError("Readonly attributes must not be flagged as " "[SetterInfallible]", [self.location]) elif identifier == "LenientThis": if not attr.noArguments(): raise WebIDLError("[LenientThis] must take no arguments", [attr.location]) if self.isStatic(): raise WebIDLError("[LenientThis] is only allowed on non-static " "attributes", [attr.location, self.location]) self.lenientThis = True IDLInterfaceMember.handleExtendedAttribute(self, attr) def resolve(self, parentScope): assert isinstance(parentScope, IDLScope) self.type.resolveType(parentScope) IDLObjectWithIdentifier.resolve(self, parentScope) def addExtendedAttributes(self, attrs): attrs = self.checkForStringHandlingExtendedAttributes(attrs) IDLInterfaceMember.addExtendedAttributes(self, attrs) def hasLenientThis(self): return self.lenientThis class IDLArgument(IDLObjectWithIdentifier): def __init__(self, location, identifier, type, optional=False, defaultValue=None, variadic=False, dictionaryMember=False): IDLObjectWithIdentifier.__init__(self, location, None, identifier) assert isinstance(type, IDLType) self.type = type self.optional = optional self.defaultValue = defaultValue self.variadic = variadic self.dictionaryMember = dictionaryMember self._isComplete = False self.enforceRange = False self.clamp = False assert not variadic or optional def addExtendedAttributes(self, attrs): attrs = self.checkForStringHandlingExtendedAttributes( attrs, isDictionaryMember=self.dictionaryMember, isOptional=self.optional) for attribute in attrs: identifier = attribute.identifier() if identifier == "Clamp": if not attribute.noArguments(): raise WebIDLError("[Clamp] must take no arguments", [attribute.location]) if self.enforceRange: raise WebIDLError("[EnforceRange] and [Clamp] are mutually exclusive", [self.location]); self.clamp = True elif identifier == "EnforceRange": if not attribute.noArguments(): raise WebIDLError("[EnforceRange] must take no arguments", [attribute.location]) if self.clamp: raise WebIDLError("[EnforceRange] and [Clamp] are mutually exclusive", [self.location]); self.enforceRange = True else: raise WebIDLError("Unhandled extended attribute on an argument", [attribute.location]) def isComplete(self): return self._isComplete def complete(self, scope): if self._isComplete: return self._isComplete = True if not self.type.isComplete(): type = self.type.complete(scope) assert not isinstance(type, IDLUnresolvedType) assert not isinstance(type, IDLTypedefType) assert not isinstance(type.name, IDLUnresolvedIdentifier) self.type = type if self.type.isDictionary() and self.optional and not self.defaultValue: # Default optional dictionaries to null, for simplicity, # so the codegen doesn't have to special-case this. self.defaultValue = IDLNullValue(self.location) # Now do the coercing thing; this needs to happen after the # above creation of a default value. if self.defaultValue: self.defaultValue = self.defaultValue.coerceToType(self.type, self.location) assert self.defaultValue class IDLCallbackType(IDLType, IDLObjectWithScope): def __init__(self, location, parentScope, identifier, returnType, arguments): assert isinstance(returnType, IDLType) IDLType.__init__(self, location, identifier.name) self._returnType = returnType # Clone the list self._arguments = list(arguments) IDLObjectWithScope.__init__(self, location, parentScope, identifier) for (returnType, arguments) in self.signatures(): for argument in arguments: argument.resolve(self) def isCallback(self): return True def signatures(self): return [(self._returnType, self._arguments)] def tag(self): return IDLType.Tags.callback def finish(self, scope): if not self._returnType.isComplete(): type = returnType.complete(scope) assert not isinstance(type, IDLUnresolvedType) assert not isinstance(type, IDLTypedefType) assert not isinstance(type.name, IDLUnresolvedIdentifier) self._returnType = type for argument in self._arguments: if argument.type.isComplete(): continue type = argument.type.complete(scope) assert not isinstance(type, IDLUnresolvedType) assert not isinstance(type, IDLTypedefType) assert not isinstance(type.name, IDLUnresolvedIdentifier) argument.type = type def validate(self): pass def isDistinguishableFrom(self, other): if other.isUnion(): # Just forward to the union; it'll deal return other.isDistinguishableFrom(self) return (other.isPrimitive() or other.isString() or other.isEnum() or other.isNonCallbackInterface() or other.isDate()) class IDLMethodOverload: """ A class that represents a single overload of a WebIDL method. This is not quite the same as an element of the "effective overload set" in the spec, because separate IDLMethodOverloads are not created based on arguments being optional. Rather, when multiple methods have the same name, there is an IDLMethodOverload for each one, all hanging off an IDLMethod representing the full set of overloads. """ def __init__(self, returnType, arguments, location): self.returnType = returnType # Clone the list of arguments, just in case self.arguments = list(arguments) self.location = location class IDLMethod(IDLInterfaceMember, IDLScope): Special = enum( 'None', 'Getter', 'Setter', 'Creator', 'Deleter', 'LegacyCaller', 'Stringifier', 'Static' ) TypeSuffixModifier = enum( 'None', 'QMark', 'Brackets' ) NamedOrIndexed = enum( 'Neither', 'Named', 'Indexed' ) def __init__(self, location, identifier, returnType, arguments, static=False, getter=False, setter=False, creator=False, deleter=False, specialType=NamedOrIndexed.Neither, legacycaller=False, stringifier=False): # REVIEW: specialType is NamedOrIndexed -- wow, this is messed up. IDLInterfaceMember.__init__(self, location, identifier, IDLInterfaceMember.Tags.Method) self._hasOverloads = False assert isinstance(returnType, IDLType) # self._overloads is a list of IDLMethodOverloads self._overloads = [IDLMethodOverload(returnType, arguments, location)] assert isinstance(static, bool) self._static = static assert isinstance(getter, bool) self._getter = getter assert isinstance(setter, bool) self._setter = setter assert isinstance(creator, bool) self._creator = creator assert isinstance(deleter, bool) self._deleter = deleter assert isinstance(legacycaller, bool) self._legacycaller = legacycaller assert isinstance(stringifier, bool) self._stringifier = stringifier self._specialType = specialType self.assertSignatureConstraints() def __str__(self): return "Method '%s'" % self.identifier def assertSignatureConstraints(self): if self._getter or self._deleter: assert len(self._overloads) == 1 overload = self._overloads[0] arguments = overload.arguments assert len(arguments) == 1 assert arguments[0].type == BuiltinTypes[IDLBuiltinType.Types.domstring] or \ arguments[0].type == BuiltinTypes[IDLBuiltinType.Types.unsigned_long] assert not arguments[0].optional and not arguments[0].variadic assert not self._getter or not overload.returnType.isVoid() if self._setter or self._creator: assert len(self._overloads) == 1 arguments = self._overloads[0].arguments assert len(arguments) == 2 assert arguments[0].type == BuiltinTypes[IDLBuiltinType.Types.domstring] or \ arguments[0].type == BuiltinTypes[IDLBuiltinType.Types.unsigned_long] assert not arguments[0].optional and not arguments[0].variadic assert not arguments[1].optional and not arguments[1].variadic if self._stringifier: assert len(self._overloads) == 1 overload = self._overloads[0] assert len(overload.arguments) == 0 assert overload.returnType == BuiltinTypes[IDLBuiltinType.Types.domstring] def isStatic(self): return self._static def isGetter(self): return self._getter def isSetter(self): return self._setter def isCreator(self): return self._creator def isDeleter(self): return self._deleter def isNamed(self): assert self._specialType == IDLMethod.NamedOrIndexed.Named or \ self._specialType == IDLMethod.NamedOrIndexed.Indexed return self._specialType == IDLMethod.NamedOrIndexed.Named def isIndexed(self): assert self._specialType == IDLMethod.NamedOrIndexed.Named or \ self._specialType == IDLMethod.NamedOrIndexed.Indexed return self._specialType == IDLMethod.NamedOrIndexed.Indexed def isLegacycaller(self): return self._legacycaller def isStringifier(self): return self._stringifier def hasOverloads(self): return self._hasOverloads def isIdentifierLess(self): return self.identifier.name[:2] == "__" def resolve(self, parentScope): assert isinstance(parentScope, IDLScope) IDLObjectWithIdentifier.resolve(self, parentScope) IDLScope.__init__(self, self.location, parentScope, self.identifier) for (returnType, arguments) in self.signatures(): for argument in arguments: argument.resolve(self) def addOverload(self, method): assert len(method._overloads) == 1 if self._extendedAttrDict != method ._extendedAttrDict: raise WebIDLError("Extended attributes differ on different " "overloads of %s" % method.identifier, [self.location, method.location]) self._overloads.extend(method._overloads) self._hasOverloads = True if self.isStatic() != method.isStatic(): raise WebIDLError("Overloaded identifier %s appears with different values of the 'static' attribute" % method.identifier, [method.location]) if self.isLegacycaller() != method.isLegacycaller(): raise WebIDLError("Overloaded identifier %s appears with different values of the 'legacycaller' attribute" % method.identifier, [method.location]) # Can't overload special things! assert not self.isGetter() assert not method.isGetter() assert not self.isSetter() assert not method.isSetter() assert not self.isCreator() assert not method.isCreator() assert not self.isDeleter() assert not method.isDeleter() assert not self.isStringifier() assert not method.isStringifier() return self def signatures(self): return [(overload.returnType, overload.arguments) for overload in self._overloads] def finish(self, scope): for overload in self._overloads: inOptionalArguments = False variadicArgument = None sawOptionalWithNoDefault = False arguments = overload.arguments for (idx, argument) in enumerate(arguments): if argument.isComplete(): continue argument.complete(scope) assert argument.type.isComplete() if argument.type.isDictionary(): # Dictionaries at the end of the list or followed by # optional arguments must be optional. if (not argument.optional and (idx == len(arguments) - 1 or arguments[idx+1].optional)): raise WebIDLError("Dictionary argument not followed by " "a required argument must be " "optional", [argument.location]) # Only the last argument can be variadic if variadicArgument: raise WebIDLError("Variadic argument is not last argument", [variadicArgument.location]) # Once we see an optional argument, there can't be any non-optional # arguments. if inOptionalArguments and not argument.optional: raise WebIDLError("Non-optional argument after optional " "arguments", [argument.location]) # Once we see an argument with no default value, there can # be no more default values. if sawOptionalWithNoDefault and argument.defaultValue: raise WebIDLError("Argument with default value after " "optional arguments with no default " "values", [argument.location]) inOptionalArguments = argument.optional if argument.variadic: variadicArgument = argument sawOptionalWithNoDefault = (argument.optional and not argument.defaultValue) returnType = overload.returnType if returnType.isComplete(): continue type = returnType.complete(scope) assert not isinstance(type, IDLUnresolvedType) assert not isinstance(type, IDLTypedefType) assert not isinstance(type.name, IDLUnresolvedIdentifier) overload.returnType = type # Now compute various information that will be used by the # WebIDL overload resolution algorithm. self.maxArgCount = max(len(s[1]) for s in self.signatures()) self.allowedArgCounts = [ i for i in range(self.maxArgCount+1) if len(self.signaturesForArgCount(i)) != 0 ] def validate(self): # Make sure our overloads are properly distinguishable and don't have # different argument types before the distinguishing args. for argCount in self.allowedArgCounts: possibleOverloads = self.overloadsForArgCount(argCount) if len(possibleOverloads) == 1: continue distinguishingIndex = self.distinguishingIndexForArgCount(argCount) for idx in range(distinguishingIndex): firstSigType = possibleOverloads[0].arguments[idx].type for overload in possibleOverloads[1:]: if overload.arguments[idx].type != firstSigType: raise WebIDLError( "Signatures for method '%s' with %d arguments have " "different types of arguments at index %d, which " "is before distinguishing index %d" % (self.identifier.name, argCount, idx, distinguishingIndex), [self.location, overload.location]) def overloadsForArgCount(self, argc): return [overload for overload in self._overloads if len(overload.arguments) == argc or (len(overload.arguments) > argc and overload.arguments[argc].optional)] def signaturesForArgCount(self, argc): return [(overload.returnType, overload.arguments) for overload in self.overloadsForArgCount(argc)] def locationsForArgCount(self, argc): return [overload.location for overload in self._overloads if len(overload.arguments) == argc or (len(overload.arguments) > argc and overload.arguments[argc].optional)] def distinguishingIndexForArgCount(self, argc): def isValidDistinguishingIndex(idx, signatures): for (firstSigIndex, (firstRetval, firstArgs)) in enumerate(signatures[:-1]): for (secondRetval, secondArgs) in signatures[firstSigIndex+1:]: firstType = firstArgs[idx].type secondType = secondArgs[idx].type if not firstType.isDistinguishableFrom(secondType): return False return True signatures = self.signaturesForArgCount(argc) for idx in range(argc): if isValidDistinguishingIndex(idx, signatures): return idx # No valid distinguishing index. Time to throw locations = self.locationsForArgCount(argc) raise WebIDLError("Signatures with %d arguments for method '%s' are not " "distinguishable" % (argc, self.identifier.name), locations) def handleExtendedAttribute(self, attr): identifier = attr.identifier() if identifier == "GetterInfallible": raise WebIDLError("Methods must not be flagged as " "[GetterInfallible]", [attr.location, self.location]) if identifier == "SetterInfallible": raise WebIDLError("Methods must not be flagged as " "[SetterInfallible]", [attr.location, self.location]) IDLInterfaceMember.handleExtendedAttribute(self, attr) class IDLImplementsStatement(IDLObject): def __init__(self, location, implementor, implementee): IDLObject.__init__(self, location) self.implementor = implementor; self.implementee = implementee def finish(self, scope): assert(isinstance(self.implementor, IDLIdentifierPlaceholder)) assert(isinstance(self.implementee, IDLIdentifierPlaceholder)) implementor = self.implementor.finish(scope) implementee = self.implementee.finish(scope) # NOTE: we depend on not setting self.implementor and # self.implementee here to keep track of the original # locations. if not isinstance(implementor, IDLInterface): raise WebIDLError("Left-hand side of 'implements' is not an " "interface", [self.implementor.location]) if implementor.isCallback(): raise WebIDLError("Left-hand side of 'implements' is a callback " "interface", [self.implementor.location]) if not isinstance(implementee, IDLInterface): raise WebIDLError("Right-hand side of 'implements' is not an " "interface", [self.implementee.location]) if implementee.isCallback(): raise WebIDLError("Right-hand side of 'implements' is a callback " "interface", [self.implementee.location]) implementor.addImplementedInterface(implementee) def validate(self): pass def addExtendedAttributes(self, attrs): assert len(attrs) == 0 class IDLExtendedAttribute(IDLObject): """ A class to represent IDL extended attributes so we can give them locations """ def __init__(self, location, tuple): IDLObject.__init__(self, location) self._tuple = tuple def identifier(self): return self._tuple[0] def noArguments(self): return len(self._tuple) == 1 def hasValue(self): return len(self._tuple) == 2 and isinstance(self._tuple[1], str) def value(self): assert(self.hasValue()) return self._tuple[1] def hasArgs(self): return (len(self._tuple) == 2 and isinstance(self._tuple[1], list) or len(self._tuple) == 3) def args(self): assert(self.hasArgs()) # Our args are our last element return self._tuple[-1] def listValue(self): """ Backdoor for storing random data in _extendedAttrDict """ return list(self._tuple)[1:] # Parser class Tokenizer(object): tokens = [ "INTEGER", "FLOATLITERAL", "IDENTIFIER", "STRING", "WHITESPACE", "OTHER" ] def t_INTEGER(self, t): r'-?(0([0-7]+|[Xx][0-9A-Fa-f]+)?|[1-9][0-9]*)' try: # Can't use int(), because that doesn't handle octal properly. t.value = parseInt(t.value) except: raise WebIDLError("Invalid integer literal", [Location(lexer=self.lexer, lineno=self.lexer.lineno, lexpos=self.lexer.lexpos, filename=self._filename)]) return t def t_FLOATLITERAL(self, t): r'-?(([0-9]+\.[0-9]*|[0-9]*\.[0-9]+)([Ee][+-]?[0-9]+)?|[0-9]+[Ee][+-]?[0-9]+)' assert False return t def t_IDENTIFIER(self, t): r'[A-Z_a-z][0-9A-Z_a-z]*' t.type = self.keywords.get(t.value, 'IDENTIFIER') return t def t_STRING(self, t): r'"[^"]*"' t.value = t.value[1:-1] return t def t_WHITESPACE(self, t): r'[\t\n\r ]+|[\t\n\r ]*((//[^\n]*|/\*.*?\*/)[\t\n\r ]*)+' pass def t_ELLIPSIS(self, t): r'\.\.\.' t.type = self.keywords.get(t.value) return t def t_OTHER(self, t): r'[^\t\n\r 0-9A-Z_a-z]' t.type = self.keywords.get(t.value, 'OTHER') return t keywords = { "module": "MODULE", "interface": "INTERFACE", "partial": "PARTIAL", "dictionary": "DICTIONARY", "exception": "EXCEPTION", "enum": "ENUM", "callback": "CALLBACK", "typedef": "TYPEDEF", "implements": "IMPLEMENTS", "const": "CONST", "null": "NULL", "true": "TRUE", "false": "FALSE", "stringifier": "STRINGIFIER", "attribute": "ATTRIBUTE", "readonly": "READONLY", "inherit": "INHERIT", "static": "STATIC", "getter": "GETTER", "setter": "SETTER", "creator": "CREATOR", "deleter": "DELETER", "legacycaller": "LEGACYCALLER", "optional": "OPTIONAL", "...": "ELLIPSIS", "::": "SCOPE", "Date": "DATE", "DOMString": "DOMSTRING", "any": "ANY", "boolean": "BOOLEAN", "byte": "BYTE", "double": "DOUBLE", "float": "FLOAT", "long": "LONG", "object": "OBJECT", "octet": "OCTET", "optional": "OPTIONAL", "sequence": "SEQUENCE", "short": "SHORT", "unsigned": "UNSIGNED", "void": "VOID", ":": "COLON", ";": "SEMICOLON", "{": "LBRACE", "}": "RBRACE", "(": "LPAREN", ")": "RPAREN", "[": "LBRACKET", "]": "RBRACKET", "?": "QUESTIONMARK", ",": "COMMA", "=": "EQUALS", "<": "LT", ">": "GT", "ArrayBuffer": "ARRAYBUFFER", "or": "OR" } tokens.extend(keywords.values()) def t_error(self, t): raise WebIDLError("Unrecognized Input", [Location(lexer=self.lexer, lineno=self.lexer.lineno, lexpos=self.lexer.lexpos, filename = self.filename)]) def __init__(self, outputdir, lexer=None): if lexer: self.lexer = lexer else: self.lexer = lex.lex(object=self, outputdir=outputdir, lextab='webidllex', reflags=re.DOTALL) class Parser(Tokenizer): def getLocation(self, p, i): return Location(self.lexer, p.lineno(i), p.lexpos(i), self._filename) def globalScope(self): return self._globalScope # The p_Foo functions here must match the WebIDL spec's grammar. # It's acceptable to split things at '|' boundaries. def p_Definitions(self, p): """ Definitions : ExtendedAttributeList Definition Definitions """ if p[2]: p[0] = [p[2]] p[2].addExtendedAttributes(p[1]) else: assert not p[1] p[0] = [] p[0].extend(p[3]) def p_DefinitionsEmpty(self, p): """ Definitions : """ p[0] = [] def p_Definition(self, p): """ Definition : CallbackOrInterface | PartialInterface | Dictionary | Exception | Enum | Typedef | ImplementsStatement """ p[0] = p[1] assert p[1] # We might not have implemented something ... def p_CallbackOrInterfaceCallback(self, p): """ CallbackOrInterface : CALLBACK CallbackRestOrInterface """ if p[2].isInterface(): assert isinstance(p[2], IDLInterface) p[2].setCallback(True) p[0] = p[2] def p_CallbackOrInterfaceInterface(self, p): """ CallbackOrInterface : Interface """ p[0] = p[1] def p_CallbackRestOrInterface(self, p): """ CallbackRestOrInterface : CallbackRest | Interface """ assert p[1] p[0] = p[1] def p_Interface(self, p): """ Interface : INTERFACE IDENTIFIER Inheritance LBRACE InterfaceMembers RBRACE SEMICOLON """ location = self.getLocation(p, 1) identifier = IDLUnresolvedIdentifier(self.getLocation(p, 2), p[2]) members = p[5] p[0] = IDLInterface(location, self.globalScope(), identifier, p[3], members) def p_InterfaceForwardDecl(self, p): """ Interface : INTERFACE IDENTIFIER SEMICOLON """ location = self.getLocation(p, 1) identifier = IDLUnresolvedIdentifier(self.getLocation(p, 2), p[2]) try: if self.globalScope()._lookupIdentifier(identifier): p[0] = self.globalScope()._lookupIdentifier(identifier) return except: pass p[0] = IDLExternalInterface(location, self.globalScope(), identifier) def p_PartialInterface(self, p): """ PartialInterface : PARTIAL INTERFACE IDENTIFIER LBRACE InterfaceMembers RBRACE SEMICOLON """ pass def p_Inheritance(self, p): """ Inheritance : COLON ScopedName """ p[0] = IDLIdentifierPlaceholder(self.getLocation(p, 2), p[2]) def p_InheritanceEmpty(self, p): """ Inheritance : """ pass def p_InterfaceMembers(self, p): """ InterfaceMembers : ExtendedAttributeList InterfaceMember InterfaceMembers """ p[0] = [p[2]] if p[2] else [] assert not p[1] or p[2] p[2].addExtendedAttributes(p[1]) p[0].extend(p[3]) def p_InterfaceMembersEmpty(self, p): """ InterfaceMembers : """ p[0] = [] def p_InterfaceMember(self, p): """ InterfaceMember : Const | AttributeOrOperation """ p[0] = p[1] def p_Dictionary(self, p): """ Dictionary : DICTIONARY IDENTIFIER Inheritance LBRACE DictionaryMembers RBRACE SEMICOLON """ location = self.getLocation(p, 1) identifier = IDLUnresolvedIdentifier(self.getLocation(p, 2), p[2]) members = p[5] p[0] = IDLDictionary(location, self.globalScope(), identifier, p[3], members) def p_DictionaryMembers(self, p): """ DictionaryMembers : ExtendedAttributeList DictionaryMember DictionaryMembers | """ if len(p) == 1: # We're at the end of the list p[0] = [] return # Add our extended attributes p[2].addExtendedAttributes(p[1]) p[0] = [p[2]] p[0].extend(p[3]) def p_DictionaryMember(self, p): """ DictionaryMember : Type IDENTIFIER DefaultValue SEMICOLON """ # These quack a lot like optional arguments, so just treat them that way. t = p[1] assert isinstance(t, IDLType) identifier = IDLUnresolvedIdentifier(self.getLocation(p, 2), p[2]) defaultValue = p[3] p[0] = IDLArgument(self.getLocation(p, 2), identifier, t, optional=True, defaultValue=defaultValue, variadic=False, dictionaryMember=True) def p_DefaultValue(self, p): """ DefaultValue : EQUALS ConstValue | """ if len(p) > 1: p[0] = p[2] else: p[0] = None def p_Exception(self, p): """ Exception : EXCEPTION IDENTIFIER Inheritance LBRACE ExceptionMembers RBRACE SEMICOLON """ pass def p_Enum(self, p): """ Enum : ENUM IDENTIFIER LBRACE EnumValueList RBRACE SEMICOLON """ location = self.getLocation(p, 1) identifier = IDLUnresolvedIdentifier(self.getLocation(p, 2), p[2]) values = p[4] assert values p[0] = IDLEnum(location, self.globalScope(), identifier, values) def p_EnumValueList(self, p): """ EnumValueList : STRING EnumValues """ p[0] = [p[1]] p[0].extend(p[2]) def p_EnumValues(self, p): """ EnumValues : COMMA STRING EnumValues """ p[0] = [p[2]] p[0].extend(p[3]) def p_EnumValuesEmpty(self, p): """ EnumValues : """ p[0] = [] def p_CallbackRest(self, p): """ CallbackRest : IDENTIFIER EQUALS ReturnType LPAREN ArgumentList RPAREN SEMICOLON """ identifier = IDLUnresolvedIdentifier(self.getLocation(p, 1), p[1]) p[0] = IDLCallbackType(self.getLocation(p, 1), self.globalScope(), identifier, p[3], p[5]) def p_ExceptionMembers(self, p): """ ExceptionMembers : ExtendedAttributeList ExceptionMember ExceptionMembers | """ pass def p_Typedef(self, p): """ Typedef : TYPEDEF Type IDENTIFIER SEMICOLON """ typedef = IDLTypedefType(self.getLocation(p, 1), p[2], p[3]) typedef.resolve(self.globalScope()) p[0] = typedef def p_ImplementsStatement(self, p): """ ImplementsStatement : ScopedName IMPLEMENTS ScopedName SEMICOLON """ assert(p[2] == "implements") implementor = IDLIdentifierPlaceholder(self.getLocation(p, 1), p[1]) implementee = IDLIdentifierPlaceholder(self.getLocation(p, 3), p[3]) p[0] = IDLImplementsStatement(self.getLocation(p, 1), implementor, implementee) def p_Const(self, p): """ Const : CONST ConstType IDENTIFIER EQUALS ConstValue SEMICOLON """ location = self.getLocation(p, 1) type = p[2] identifier = IDLUnresolvedIdentifier(self.getLocation(p, 3), p[3]) value = p[5] p[0] = IDLConst(location, identifier, type, value) def p_ConstValueBoolean(self, p): """ ConstValue : BooleanLiteral """ location = self.getLocation(p, 1) booleanType = BuiltinTypes[IDLBuiltinType.Types.boolean] p[0] = IDLValue(location, booleanType, p[1]) def p_ConstValueInteger(self, p): """ ConstValue : INTEGER """ location = self.getLocation(p, 1) # We don't know ahead of time what type the integer literal is. # Determine the smallest type it could possibly fit in and use that. integerType = matchIntegerValueToType(p[1]) if integerType == None: raise WebIDLError("Integer literal out of range", [location]) p[0] = IDLValue(location, integerType, p[1]) def p_ConstValueFloat(self, p): """ ConstValue : FLOATLITERAL """ assert False pass def p_ConstValueString(self, p): """ ConstValue : STRING """ location = self.getLocation(p, 1) stringType = BuiltinTypes[IDLBuiltinType.Types.domstring] p[0] = IDLValue(location, stringType, p[1]) def p_ConstValueNull(self, p): """ ConstValue : NULL """ p[0] = IDLNullValue(self.getLocation(p, 1)) def p_BooleanLiteralTrue(self, p): """ BooleanLiteral : TRUE """ p[0] = True def p_BooleanLiteralFalse(self, p): """ BooleanLiteral : FALSE """ p[0] = False def p_AttributeOrOperation(self, p): """ AttributeOrOperation : Attribute | Operation """ p[0] = p[1] def p_Attribute(self, p): """ Attribute : Inherit ReadOnly ATTRIBUTE Type IDENTIFIER SEMICOLON """ location = self.getLocation(p, 3) inherit = p[1] readonly = p[2] t = p[4] identifier = IDLUnresolvedIdentifier(self.getLocation(p, 5), p[5]) p[0] = IDLAttribute(location, identifier, t, readonly, inherit) def p_ReadOnly(self, p): """ ReadOnly : READONLY """ p[0] = True def p_ReadOnlyEmpty(self, p): """ ReadOnly : """ p[0] = False def p_Inherit(self, p): """ Inherit : INHERIT """ p[0] = True def p_InheritEmpty(self, p): """ Inherit : """ p[0] = False def p_Operation(self, p): """ Operation : Qualifiers OperationRest """ qualifiers = p[1] # Disallow duplicates in the qualifier set if not len(set(qualifiers)) == len(qualifiers): raise WebIDLError("Duplicate qualifiers are not allowed", [self.getLocation(p, 1)]) static = True if IDLMethod.Special.Static in p[1] else False # If static is there that's all that's allowed. This is disallowed # by the parser, so we can assert here. assert not static or len(qualifiers) == 1 getter = True if IDLMethod.Special.Getter in p[1] else False setter = True if IDLMethod.Special.Setter in p[1] else False creator = True if IDLMethod.Special.Creator in p[1] else False deleter = True if IDLMethod.Special.Deleter in p[1] else False legacycaller = True if IDLMethod.Special.LegacyCaller in p[1] else False stringifier = True if IDLMethod.Special.Stringifier in p[1] else False if getter or deleter: if setter or creator: raise WebIDLError("getter and deleter are incompatible with setter and creator", [self.getLocation(p, 1)]) (returnType, identifier, arguments) = p[2] assert isinstance(returnType, IDLType) specialType = IDLMethod.NamedOrIndexed.Neither if getter or deleter: if len(arguments) != 1: raise WebIDLError("%s has wrong number of arguments" % ("getter" if getter else "deleter"), [self.getLocation(p, 2)]) argType = arguments[0].type if argType == BuiltinTypes[IDLBuiltinType.Types.domstring]: specialType = IDLMethod.NamedOrIndexed.Named elif argType == BuiltinTypes[IDLBuiltinType.Types.unsigned_long]: specialType = IDLMethod.NamedOrIndexed.Indexed else: raise WebIDLError("%s has wrong argument type (must be DOMString or UnsignedLong)" % ("getter" if getter else "deleter"), [arguments[0].location]) if arguments[0].optional or arguments[0].variadic: raise WebIDLError("%s cannot have %s argument" % ("getter" if getter else "deleter", "optional" if arguments[0].optional else "variadic"), [arguments[0].location]) if getter: if returnType.isVoid(): raise WebIDLError("getter cannot have void return type", [self.getLocation(p, 2)]) if setter or creator: if len(arguments) != 2: raise WebIDLError("%s has wrong number of arguments" % ("setter" if setter else "creator"), [self.getLocation(p, 2)]) argType = arguments[0].type if argType == BuiltinTypes[IDLBuiltinType.Types.domstring]: specialType = IDLMethod.NamedOrIndexed.Named elif argType == BuiltinTypes[IDLBuiltinType.Types.unsigned_long]: specialType = IDLMethod.NamedOrIndexed.Indexed else: raise WebIDLError("%s has wrong argument type (must be DOMString or UnsignedLong)" % ("setter" if setter else "creator"), [arguments[0].location]) if arguments[0].optional or arguments[0].variadic: raise WebIDLError("%s cannot have %s argument" % ("setter" if setter else "creator", "optional" if arguments[0].optional else "variadic"), [arguments[0].location]) if arguments[1].optional or arguments[1].variadic: raise WebIDLError("%s cannot have %s argument" % ("setter" if setter else "creator", "optional" if arguments[1].optional else "variadic"), [arguments[1].location]) if stringifier: if len(arguments) != 0: raise WebIDLError("stringifier has wrong number of arguments", [self.getLocation(p, 2)]) if not returnType.isString(): raise WebIDLError("stringifier must have string return type", [self.getLocation(p, 2)]) inOptionalArguments = False variadicArgument = False for argument in arguments: # Only the last argument can be variadic if variadicArgument: raise WebIDLError("Only the last argument can be variadic", [variadicArgument.location]) # Once we see an optional argument, there can't be any non-optional # arguments. if inOptionalArguments and not argument.optional: raise WebIDLError("Cannot have a non-optional argument following an optional argument", [argument.location]) inOptionalArguments = argument.optional variadicArgument = argument if argument.variadic else None # identifier might be None. This is only permitted for special methods. if not identifier: if not getter and not setter and not creator and \ not deleter and not legacycaller and not stringifier: raise WebIDLError("Identifier required for non-special methods", [self.getLocation(p, 2)]) location = BuiltinLocation("") identifier = IDLUnresolvedIdentifier(location, "__%s%s%s%s%s%s%s" % ("named" if specialType == IDLMethod.NamedOrIndexed.Named else \ "indexed" if specialType == IDLMethod.NamedOrIndexed.Indexed else "", "getter" if getter else "", "setter" if setter else "", "deleter" if deleter else "", "creator" if creator else "", "legacycaller" if legacycaller else "", "stringifier" if stringifier else ""), allowDoubleUnderscore=True) method = IDLMethod(self.getLocation(p, 2), identifier, returnType, arguments, static=static, getter=getter, setter=setter, creator=creator, deleter=deleter, specialType=specialType, legacycaller=legacycaller, stringifier=stringifier) p[0] = method def p_QualifiersStatic(self, p): """ Qualifiers : STATIC """ p[0] = [IDLMethod.Special.Static] def p_QualifiersSpecials(self, p): """ Qualifiers : Specials """ p[0] = p[1] def p_Specials(self, p): """ Specials : Special Specials """ p[0] = [p[1]] p[0].extend(p[2]) def p_SpecialsEmpty(self, p): """ Specials : """ p[0] = [] def p_SpecialGetter(self, p): """ Special : GETTER """ p[0] = IDLMethod.Special.Getter def p_SpecialSetter(self, p): """ Special : SETTER """ p[0] = IDLMethod.Special.Setter def p_SpecialCreator(self, p): """ Special : CREATOR """ p[0] = IDLMethod.Special.Creator def p_SpecialDeleter(self, p): """ Special : DELETER """ p[0] = IDLMethod.Special.Deleter def p_SpecialLegacyCaller(self, p): """ Special : LEGACYCALLER """ p[0] = IDLMethod.Special.LegacyCaller def p_SpecialStringifier(self, p): """ Special : STRINGIFIER """ p[0] = IDLMethod.Special.Stringifier def p_OperationRest(self, p): """ OperationRest : ReturnType OptionalIdentifier LPAREN ArgumentList RPAREN SEMICOLON """ p[0] = (p[1], p[2], p[4]) def p_OptionalIdentifier(self, p): """ OptionalIdentifier : IDENTIFIER """ p[0] = IDLUnresolvedIdentifier(self.getLocation(p, 1), p[1]) def p_OptionalIdentifierEmpty(self, p): """ OptionalIdentifier : """ pass def p_ArgumentList(self, p): """ ArgumentList : Argument Arguments """ p[0] = [p[1]] if p[1] else [] p[0].extend(p[2]) def p_ArgumentListEmpty(self, p): """ ArgumentList : """ p[0] = [] def p_Arguments(self, p): """ Arguments : COMMA Argument Arguments """ p[0] = [p[2]] if p[2] else [] p[0].extend(p[3]) def p_ArgumentsEmpty(self, p): """ Arguments : """ p[0] = [] def p_Argument(self, p): """ Argument : ExtendedAttributeList Optional Type Ellipsis IDENTIFIER DefaultValue """ t = p[3] assert isinstance(t, IDLType) identifier = IDLUnresolvedIdentifier(self.getLocation(p, 5), p[5]) optional = p[2] variadic = p[4] defaultValue = p[6] if not optional and defaultValue: raise WebIDLError("Mandatory arguments can't have a default value.", [self.getLocation(p, 6)]) if variadic: if optional: raise WebIDLError("Variadic arguments should not be marked optional.", [self.getLocation(p, 2)]) optional = variadic p[0] = IDLArgument(self.getLocation(p, 5), identifier, t, optional, defaultValue, variadic) p[0].addExtendedAttributes(p[1]) def p_Optional(self, p): """ Optional : OPTIONAL """ p[0] = True def p_OptionalEmpty(self, p): """ Optional : """ p[0] = False def p_Ellipsis(self, p): """ Ellipsis : ELLIPSIS """ p[0] = True def p_EllipsisEmpty(self, p): """ Ellipsis : """ p[0] = False def p_ExceptionMember(self, p): """ ExceptionMember : Const | ExceptionField """ pass def p_ExceptionField(self, p): """ ExceptionField : Type IDENTIFIER SEMICOLON """ pass def p_ExtendedAttributeList(self, p): """ ExtendedAttributeList : LBRACKET ExtendedAttribute ExtendedAttributes RBRACKET """ p[0] = [p[2]] if p[3]: p[0].extend(p[3]) def p_ExtendedAttributeListEmpty(self, p): """ ExtendedAttributeList : """ p[0] = [] def p_ExtendedAttribute(self, p): """ ExtendedAttribute : ExtendedAttributeNoArgs | ExtendedAttributeArgList | ExtendedAttributeIdent | ExtendedAttributeNamedArgList """ p[0] = IDLExtendedAttribute(self.getLocation(p, 1), p[1]) def p_ExtendedAttributeEmpty(self, p): """ ExtendedAttribute : """ pass def p_ExtendedAttributes(self, p): """ ExtendedAttributes : COMMA ExtendedAttribute ExtendedAttributes """ p[0] = [p[2]] if p[2] else [] p[0].extend(p[3]) def p_ExtendedAttributesEmpty(self, p): """ ExtendedAttributes : """ p[0] = [] def p_Other(self, p): """ Other : INTEGER | FLOATLITERAL | IDENTIFIER | STRING | OTHER | ELLIPSIS | COLON | SCOPE | SEMICOLON | LT | EQUALS | GT | QUESTIONMARK | DATE | DOMSTRING | ANY | ATTRIBUTE | BOOLEAN | BYTE | LEGACYCALLER | CONST | CREATOR | DELETER | DOUBLE | EXCEPTION | FALSE | FLOAT | GETTER | IMPLEMENTS | INHERIT | INTERFACE | LONG | MODULE | NULL | OBJECT | OCTET | OPTIONAL | SEQUENCE | SETTER | SHORT | STATIC | STRINGIFIER | TRUE | TYPEDEF | UNSIGNED | VOID """ pass def p_OtherOrComma(self, p): """ OtherOrComma : Other | COMMA """ pass def p_TypeSingleType(self, p): """ Type : SingleType """ p[0] = p[1] def p_TypeUnionType(self, p): """ Type : UnionType TypeSuffix """ p[0] = self.handleModifiers(p[1], p[2]) def p_SingleTypeNonAnyType(self, p): """ SingleType : NonAnyType """ p[0] = p[1] def p_SingleTypeAnyType(self, p): """ SingleType : ANY TypeSuffixStartingWithArray """ p[0] = self.handleModifiers(BuiltinTypes[IDLBuiltinType.Types.any], p[2]) def p_UnionType(self, p): """ UnionType : LPAREN UnionMemberType OR UnionMemberType UnionMemberTypes RPAREN """ types = [p[2], p[4]] types.extend(p[5]) p[0] = IDLUnionType(self.getLocation(p, 1), types) def p_UnionMemberTypeNonAnyType(self, p): """ UnionMemberType : NonAnyType """ p[0] = p[1] def p_UnionMemberTypeArrayOfAny(self, p): """ UnionMemberTypeArrayOfAny : ANY LBRACKET RBRACKET """ p[0] = IDLArrayType(self.getLocation(p, 2), BuiltinTypes[IDLBuiltinType.Types.any]) def p_UnionMemberType(self, p): """ UnionMemberType : UnionType TypeSuffix | UnionMemberTypeArrayOfAny TypeSuffix """ p[0] = self.handleModifiers(p[1], p[2]) def p_UnionMemberTypes(self, p): """ UnionMemberTypes : OR UnionMemberType UnionMemberTypes """ p[0] = [p[2]] p[0].extend(p[3]) def p_UnionMemberTypesEmpty(self, p): """ UnionMemberTypes : """ p[0] = [] def p_NonAnyType(self, p): """ NonAnyType : PrimitiveOrStringType TypeSuffix | ARRAYBUFFER TypeSuffix | OBJECT TypeSuffix """ if p[1] == "object": type = BuiltinTypes[IDLBuiltinType.Types.object] elif p[1] == "ArrayBuffer": type = BuiltinTypes[IDLBuiltinType.Types.ArrayBuffer] else: type = BuiltinTypes[p[1]] p[0] = self.handleModifiers(type, p[2]) def p_NonAnyTypeSequenceType(self, p): """ NonAnyType : SEQUENCE LT Type GT Null """ innerType = p[3] type = IDLSequenceType(self.getLocation(p, 1), innerType) if p[5]: type = IDLNullableType(self.getLocation(p, 5), type) p[0] = type def p_NonAnyTypeScopedName(self, p): """ NonAnyType : ScopedName TypeSuffix """ assert isinstance(p[1], IDLUnresolvedIdentifier) type = None try: if self.globalScope()._lookupIdentifier(p[1]): obj = self.globalScope()._lookupIdentifier(p[1]) if obj.isType(): type = obj else: type = IDLWrapperType(self.getLocation(p, 1), p[1]) p[0] = self.handleModifiers(type, p[2]) return except: pass type = IDLUnresolvedType(self.getLocation(p, 1), p[1]) p[0] = self.handleModifiers(type, p[2]) def p_NonAnyTypeDate(self, p): """ NonAnyType : DATE TypeSuffix """ assert False pass def p_ConstType(self, p): """ ConstType : PrimitiveOrStringType Null """ type = BuiltinTypes[p[1]] if p[2]: type = IDLNullableType(self.getLocation(p, 1), type) p[0] = type def p_ConstTypeIdentifier(self, p): """ ConstType : IDENTIFIER Null """ identifier = IDLUnresolvedIdentifier(self.getLocation(p, 1), p[1]) type = IDLUnresolvedType(self.getLocation(p, 1), identifier) if p[2]: type = IDLNullableType(self.getLocation(p, 1), type) p[0] = type def p_PrimitiveOrStringTypeUint(self, p): """ PrimitiveOrStringType : UnsignedIntegerType """ p[0] = p[1] def p_PrimitiveOrStringTypeBoolean(self, p): """ PrimitiveOrStringType : BOOLEAN """ p[0] = IDLBuiltinType.Types.boolean def p_PrimitiveOrStringTypeByte(self, p): """ PrimitiveOrStringType : BYTE """ p[0] = IDLBuiltinType.Types.byte def p_PrimitiveOrStringTypeOctet(self, p): """ PrimitiveOrStringType : OCTET """ p[0] = IDLBuiltinType.Types.octet def p_PrimitiveOrStringTypeFloat(self, p): """ PrimitiveOrStringType : FLOAT """ p[0] = IDLBuiltinType.Types.float def p_PrimitiveOrStringTypeDouble(self, p): """ PrimitiveOrStringType : DOUBLE """ p[0] = IDLBuiltinType.Types.double def p_PrimitiveOrStringTypeDOMString(self, p): """ PrimitiveOrStringType : DOMSTRING """ p[0] = IDLBuiltinType.Types.domstring def p_UnsignedIntegerTypeUnsigned(self, p): """ UnsignedIntegerType : UNSIGNED IntegerType """ p[0] = p[2] + 1 # Adding one to a given signed integer type # gets you the unsigned type. def p_UnsignedIntegerType(self, p): """ UnsignedIntegerType : IntegerType """ p[0] = p[1] def p_IntegerTypeShort(self, p): """ IntegerType : SHORT """ p[0] = IDLBuiltinType.Types.short def p_IntegerTypeLong(self, p): """ IntegerType : LONG OptionalLong """ if p[2]: p[0] = IDLBuiltinType.Types.long_long else: p[0] = IDLBuiltinType.Types.long def p_OptionalLong(self, p): """ OptionalLong : LONG """ p[0] = True def p_OptionalLongEmpty(self, p): """ OptionalLong : """ p[0] = False def p_TypeSuffixBrackets(self, p): """ TypeSuffix : LBRACKET RBRACKET TypeSuffix """ p[0] = [(IDLMethod.TypeSuffixModifier.Brackets, self.getLocation(p, 1))] p[0].extend(p[3]) def p_TypeSuffixQMark(self, p): """ TypeSuffix : QUESTIONMARK TypeSuffixStartingWithArray """ p[0] = [(IDLMethod.TypeSuffixModifier.QMark, self.getLocation(p, 1))] p[0].extend(p[2]) def p_TypeSuffixEmpty(self, p): """ TypeSuffix : """ p[0] = [] def p_TypeSuffixStartingWithArray(self, p): """ TypeSuffixStartingWithArray : LBRACKET RBRACKET TypeSuffix """ p[0] = [(IDLMethod.TypeSuffixModifier.Brackets, self.getLocation(p, 1))] p[0].extend(p[3]) def p_TypeSuffixStartingWithArrayEmpty(self, p): """ TypeSuffixStartingWithArray : """ p[0] = [] def p_Null(self, p): """ Null : QUESTIONMARK | """ if len(p) > 1: p[0] = True else: p[0] = False def p_ReturnTypeType(self, p): """ ReturnType : Type """ p[0] = p[1] def p_ReturnTypeVoid(self, p): """ ReturnType : VOID """ p[0] = BuiltinTypes[IDLBuiltinType.Types.void] def p_ScopedName(self, p): """ ScopedName : AbsoluteScopedName | RelativeScopedName """ p[0] = p[1] def p_AbsoluteScopedName(self, p): """ AbsoluteScopedName : SCOPE IDENTIFIER ScopedNameParts """ assert False pass def p_RelativeScopedName(self, p): """ RelativeScopedName : IDENTIFIER ScopedNameParts """ assert not p[2] # Not implemented! p[0] = IDLUnresolvedIdentifier(self.getLocation(p, 1), p[1]) def p_ScopedNameParts(self, p): """ ScopedNameParts : SCOPE IDENTIFIER ScopedNameParts """ assert False pass def p_ScopedNamePartsEmpty(self, p): """ ScopedNameParts : """ p[0] = None def p_ExtendedAttributeNoArgs(self, p): """ ExtendedAttributeNoArgs : IDENTIFIER """ p[0] = (p[1],) def p_ExtendedAttributeArgList(self, p): """ ExtendedAttributeArgList : IDENTIFIER LPAREN ArgumentList RPAREN """ p[0] = (p[1], p[3]) def p_ExtendedAttributeIdent(self, p): """ ExtendedAttributeIdent : IDENTIFIER EQUALS STRING | IDENTIFIER EQUALS IDENTIFIER """ p[0] = (p[1], p[3]) def p_ExtendedAttributeNamedArgList(self, p): """ ExtendedAttributeNamedArgList : IDENTIFIER EQUALS IDENTIFIER LPAREN ArgumentList RPAREN """ p[0] = (p[1], p[3], p[5]) def p_error(self, p): if not p: raise WebIDLError("Syntax Error at end of file. Possibly due to missing semicolon(;), braces(}) or both", []) else: raise WebIDLError("invalid syntax", [Location(self.lexer, p.lineno, p.lexpos, self._filename)]) def __init__(self, outputdir='', lexer=None): Tokenizer.__init__(self, outputdir, lexer) self.parser = yacc.yacc(module=self, outputdir=outputdir, tabmodule='webidlyacc', errorlog=yacc.NullLogger(), picklefile='WebIDLGrammar.pkl') self._globalScope = IDLScope(BuiltinLocation(""), None, None) self._installBuiltins(self._globalScope) self._productions = [] self._filename = "" self.lexer.input(Parser._builtins) self._filename = None self.parser.parse(lexer=self.lexer,tracking=True) def _installBuiltins(self, scope): assert isinstance(scope, IDLScope) # xrange omits the last value. for x in xrange(IDLBuiltinType.Types.ArrayBuffer, IDLBuiltinType.Types.Float64Array + 1): builtin = BuiltinTypes[x] name = builtin.name typedef = IDLTypedefType(BuiltinLocation(""), builtin, name) typedef.resolve(scope) @ staticmethod def handleModifiers(type, modifiers): for (modifier, modifierLocation) in modifiers: assert modifier == IDLMethod.TypeSuffixModifier.QMark or \ modifier == IDLMethod.TypeSuffixModifier.Brackets if modifier == IDLMethod.TypeSuffixModifier.QMark: type = IDLNullableType(modifierLocation, type) elif modifier == IDLMethod.TypeSuffixModifier.Brackets: type = IDLArrayType(modifierLocation, type) return type def parse(self, t, filename=None): self.lexer.input(t) #for tok in iter(self.lexer.token, None): # print tok self._filename = filename self._productions.extend(self.parser.parse(lexer=self.lexer,tracking=True)) self._filename = None def finish(self): # First, finish all the IDLImplementsStatements. In particular, we # have to make sure we do those before we do the IDLInterfaces. # XXX khuey hates this bit and wants to nuke it from orbit. implementsStatements = [ p for p in self._productions if isinstance(p, IDLImplementsStatement)] otherStatements = [ p for p in self._productions if not isinstance(p, IDLImplementsStatement)] for production in implementsStatements: production.finish(self.globalScope()) for production in otherStatements: production.finish(self.globalScope()) # Do any post-finish validation we need to do for production in self._productions: production.validate() # De-duplicate self._productions, without modifying its order. seen = set() result = [] for p in self._productions: if p not in seen: seen.add(p) result.append(p) return result def reset(self): return Parser(lexer=self.lexer) # Builtin IDL defined by WebIDL _builtins = """ typedef unsigned long long DOMTimeStamp; """ def main(): # Parse arguments. from optparse import OptionParser usageString = "usage: %prog [options] files" o = OptionParser(usage=usageString) o.add_option("--cachedir", dest='cachedir', default=None, help="Directory in which to cache lex/parse tables.") o.add_option("--verbose-errors", action='store_true', default=False, help="When an error happens, display the Python traceback.") (options, args) = o.parse_args() if len(args) < 1: o.error(usageString) fileList = args baseDir = os.getcwd() # Parse the WebIDL. parser = Parser(options.cachedir) try: for filename in fileList: fullPath = os.path.normpath(os.path.join(baseDir, filename)) f = open(fullPath, 'rb') lines = f.readlines() f.close() print fullPath parser.parse(''.join(lines), fullPath) parser.finish() except WebIDLError, e: if options.verbose_errors: traceback.print_exc() else: print e if __name__ == '__main__': main()