#!/usr/bin/env python # xpidl.py - A parser for cross-platform IDL (XPIDL) files. # # 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 parser for cross-platform IDL (XPIDL) files.""" import sys, os.path, re from ply import lex, yacc """A type conforms to the following pattern: def isScriptable(self): 'returns True or False' def nativeType(self, calltype): 'returns a string representation of the native type calltype must be 'in', 'out', or 'inout' Interface members const/method/attribute conform to the following pattern: name = 'string' def toIDL(self): 'returns the member signature as IDL' """ def attlistToIDL(attlist): if len(attlist) == 0: return '' attlist = list(attlist) attlist.sort(cmp=lambda a,b: cmp(a[0], b[0])) return '[%s] ' % ','.join(["%s%s" % (name, value is not None and '(%s)' % value or '') for name, value, aloc in attlist]) _paramsHardcode = { 2: ('array', 'shared', 'iid_is', 'size_is', 'retval'), 3: ('array', 'size_is', 'const'), } def paramAttlistToIDL(attlist): if len(attlist) == 0: return '' # Hack alert: g_hash_table_foreach is pretty much unimitatable... hardcode # quirk attlist = list(attlist) sorted = [] if len(attlist) in _paramsHardcode: for p in _paramsHardcode[len(attlist)]: i = 0 while i < len(attlist): if attlist[i][0] == p: sorted.append(attlist[i]) del attlist[i] continue i += 1 sorted.extend(attlist) return '[%s] ' % ', '.join(["%s%s" % (name, value is not None and ' (%s)' % value or '') for name, value, aloc in sorted]) def unaliasType(t): while t.kind == 'typedef': t = t.realtype assert t is not None return t def getBuiltinOrNativeTypeName(t): t = unaliasType(t) if t.kind == 'builtin': return t.name elif t.kind == 'native': assert t.specialtype is not None return '[%s]' % t.specialtype else: return None class BuiltinLocation(object): def get(self): return "" def __str__(self): return self.get() class Builtin(object): kind = 'builtin' location = BuiltinLocation def __init__(self, name, nativename, signed=False, maybeConst=False): self.name = name self.nativename = nativename self.signed = signed self.maybeConst = maybeConst def isScriptable(self): return True def nativeType(self, calltype, shared=False, const=False): if const: print >>sys.stderr, IDLError("[const] doesn't make sense on builtin types.", self.location, warning=True) const = 'const ' elif calltype == 'in' and self.nativename.endswith('*'): const = 'const ' elif shared: if not self.nativename.endswith('*'): raise IDLError("[shared] not applicable to non-pointer types.", self.location) const = 'const ' else: const = '' return "%s%s %s" % (const, self.nativename, calltype != 'in' and '*' or '') builtinNames = [ Builtin('boolean', 'bool'), Builtin('void', 'void'), Builtin('octet', 'uint8_t'), Builtin('short', 'int16_t', True, True), Builtin('long', 'int32_t', True, True), Builtin('long long', 'int64_t', True, False), Builtin('unsigned short', 'uint16_t', False, True), Builtin('unsigned long', 'uint32_t', False, True), Builtin('unsigned long long', 'uint64_t', False, False), Builtin('float', 'float', True, False), Builtin('double', 'double', True, False), Builtin('char', 'char', True, False), Builtin('string', 'char *', False, False), Builtin('wchar', 'char16_t', False, False), Builtin('wstring', 'char16_t *', False, False), ] builtinMap = {} for b in builtinNames: builtinMap[b.name] = b class Location(object): _line = None def __init__(self, lexer, lineno, lexpos): self._lineno = lineno self._lexpos = lexpos self._lexdata = lexer.lexdata self._file = getattr(lexer, 'filename', "") def __eq__(self, other): return self._lexpos == other._lexpos and \ self._file == other._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) self._line = self._lexdata[startofline:endofline] self._colno = self._lexpos - startofline def pointerline(self): def i(): for i in xrange(0, self._colno): yield " " yield "^" return "".join(i()) def get(self): self.resolve() return "%s line %s:%s" % (self._file, self._lineno, 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 NameMap(object): """Map of name -> object. Each object must have a .name and .location property. Setting the same name twice throws an error.""" def __init__(self): self._d = {} def __getitem__(self, key): if key in builtinMap: return builtinMap[key] return self._d[key] def __iter__(self): return self._d.itervalues() def __contains__(self, key): return key in builtinMap or key in self._d def set(self, object): if object.name in builtinMap: raise IDLError("name '%s' is a builtin and cannot be redeclared" % (object.name), object.location) if object.name.startswith("_"): object.name = object.name[1:] if object.name in self._d: old = self._d[object.name] if old == object: return if isinstance(old, Forward) and isinstance(object, Interface): self._d[object.name] = object elif isinstance(old, Interface) and isinstance(object, Forward): pass else: raise IDLError("name '%s' specified twice. Previous location: %s" % (object.name, self._d[object.name].location), object.location) else: self._d[object.name] = object def get(self, id, location): try: return self[id] except KeyError: raise IDLError("Name '%s' not found", location) class IDLError(Exception): def __init__(self, message, location, warning=False): self.message = message self.location = location self.warning = warning def __str__(self): return "%s: %s, %s" % (self.warning and 'warning' or 'error', self.message, self.location) class Include(object): kind = 'include' def __init__(self, filename, location): self.filename = filename self.location = location def __str__(self): return "".join(["include '%s'\n" % self.filename]) def resolve(self, parent): def incfiles(): yield self.filename for dir in parent.incdirs: yield os.path.join(dir, self.filename) for file in incfiles(): if not os.path.exists(file): continue self.IDL = parent.parser.parse(open(file).read(), filename=file) self.IDL.resolve(parent.incdirs, parent.parser) for type in self.IDL.getNames(): parent.setName(type) parent.deps.extend(self.IDL.deps) return raise IDLError("File '%s' not found" % self.filename, self.location) class IDL(object): def __init__(self, productions): self.productions = productions self.deps = [] def setName(self, object): self.namemap.set(object) def getName(self, id, location): try: return self.namemap[id] except KeyError: raise IDLError("type '%s' not found" % id, location) def hasName(self, id): return id in self.namemap def getNames(self): return iter(self.namemap) def __str__(self): return "".join([str(p) for p in self.productions]) def resolve(self, incdirs, parser): self.namemap = NameMap() self.incdirs = incdirs self.parser = parser for p in self.productions: p.resolve(self) def includes(self): for p in self.productions: if p.kind == 'include': yield p def needsJSTypes(self): for p in self.productions: if p.kind == 'interface' and p.needsJSTypes(): return True return False class CDATA(object): kind = 'cdata' _re = re.compile(r'\n+') def __init__(self, data, location): self.data = self._re.sub('\n', data) self.location = location def resolve(self, parent): pass def __str__(self): return "cdata: %s\n\t%r\n" % (self.location.get(), self.data) def count(self): return 0 class Typedef(object): kind = 'typedef' def __init__(self, type, name, location, doccomments): self.type = type self.name = name self.location = location self.doccomments = doccomments def __eq__(self, other): return self.name == other.name and self.type == other.type def resolve(self, parent): parent.setName(self) self.realtype = parent.getName(self.type, self.location) def isScriptable(self): return self.realtype.isScriptable() def nativeType(self, calltype): return "%s %s" % (self.name, calltype != 'in' and '*' or '') def __str__(self): return "typedef %s %s\n" % (self.type, self.name) class Forward(object): kind = 'forward' def __init__(self, name, location, doccomments): self.name = name self.location = location self.doccomments = doccomments def __eq__(self, other): return other.kind == 'forward' and other.name == self.name def resolve(self, parent): # Hack alert: if an identifier is already present, move the doccomments # forward. if parent.hasName(self.name): for i in xrange(0, len(parent.productions)): if parent.productions[i] is self: break for i in xrange(i + 1, len(parent.productions)): if hasattr(parent.productions[i], 'doccomments'): parent.productions[i].doccomments[0:0] = self.doccomments break parent.setName(self) def isScriptable(self): return True def nativeType(self, calltype): return "%s %s" % (self.name, calltype != 'in' and '* *' or '*') def __str__(self): return "forward-declared %s\n" % self.name class Native(object): kind = 'native' modifier = None specialtype = None specialtypes = { 'nsid': None, 'domstring': 'nsAString', 'utf8string': 'nsACString', 'cstring': 'nsACString', 'astring': 'nsAString', 'jsval': 'JS::Value' } def __init__(self, name, nativename, attlist, location): self.name = name self.nativename = nativename self.location = location for name, value, aloc in attlist: if value is not None: raise IDLError("Unexpected attribute value", aloc) if name in ('ptr', 'ref'): if self.modifier is not None: raise IDLError("More than one ptr/ref modifier", aloc) self.modifier = name elif name in self.specialtypes.keys(): if self.specialtype is not None: raise IDLError("More than one special type", aloc) self.specialtype = name if self.specialtypes[name] is not None: self.nativename = self.specialtypes[name] else: raise IDLError("Unexpected attribute", aloc) def __eq__(self, other): return self.name == other.name and \ self.nativename == other.nativename and \ self.modifier == other.modifier and \ self.specialtype == other.specialtype def resolve(self, parent): parent.setName(self) def isScriptable(self): if self.specialtype is None: return False if self.specialtype == 'nsid': return self.modifier is not None return self.modifier == 'ref' def isPtr(self, calltype): return self.modifier == 'ptr' def isRef(self, calltype): return self.modifier == 'ref' def nativeType(self, calltype, const=False, shared=False): if shared: if calltype != 'out': raise IDLError("[shared] only applies to out parameters.") const = True if self.specialtype is not None and calltype == 'in': const = True if self.specialtype == 'jsval': if calltype == 'out' or calltype == 'inout': return "JS::MutableHandleValue " return "JS::HandleValue " if self.isRef(calltype): m = '& ' elif self.isPtr(calltype): m = '*' + ((self.modifier == 'ptr' and calltype != 'in') and '*' or '') else: m = calltype != 'in' and '*' or '' return "%s%s %s" % (const and 'const ' or '', self.nativename, m) def __str__(self): return "native %s(%s)\n" % (self.name, self.nativename) class Interface(object): kind = 'interface' def __init__(self, name, attlist, base, members, location, doccomments): self.name = name self.attributes = InterfaceAttributes(attlist, location) self.base = base self.members = members self.location = location self.namemap = NameMap() self.doccomments = doccomments self.nativename = name for m in members: if not isinstance(m, CDATA): self.namemap.set(m) def __eq__(self, other): return self.name == other.name and self.location == other.location def resolve(self, parent): self.idl = parent # Hack alert: if an identifier is already present, libIDL assigns # doc comments incorrectly. This is quirks-mode extraordinaire! if parent.hasName(self.name): for member in self.members: if hasattr(member, 'doccomments'): member.doccomments[0:0] = self.doccomments break self.doccomments = parent.getName(self.name, None).doccomments if self.attributes.function: has_method = False for member in self.members: if member.kind is 'method': if has_method: raise IDLError("interface '%s' has multiple methods, but marked 'function'" % self.name, self.location) else: has_method = True parent.setName(self) if self.base is not None: realbase = parent.getName(self.base, self.location) if realbase.kind != 'interface': raise IDLError("interface '%s' inherits from non-interface type '%s'" % (self.name, self.base), self.location) if self.attributes.scriptable and not realbase.attributes.scriptable: print >>sys.stderr, IDLError("interface '%s' is scriptable but derives from non-scriptable '%s'" % (self.name, self.base), self.location, warning=True) if self.attributes.scriptable and realbase.attributes.builtinclass and not self.attributes.builtinclass: raise IDLError("interface '%s' is not builtinclass but derives from builtinclass '%s'" % (self.name, self.base), self.location) for member in self.members: member.resolve(self) # The number 250 is NOT arbitrary; this number is the maximum number of # stub entries defined in xpcom/reflect/xptcall/genstubs.pl # Do not increase this value without increasing the number in that # location, or you WILL cause otherwise unknown problems! if self.countEntries() > 250 and not self.attributes.builtinclass: raise IDLError("interface '%s' has too many entries" % self.name, self.location) def isScriptable(self): # NOTE: this is not whether *this* interface is scriptable... it's # whether, when used as a type, it's scriptable, which is true of all # interfaces. return True def nativeType(self, calltype, const=False): return "%s%s %s" % (const and 'const ' or '', self.name, calltype != 'in' and '* *' or '*') def __str__(self): l = ["interface %s\n" % self.name] if self.base is not None: l.append("\tbase %s\n" % self.base) l.append(str(self.attributes)) if self.members is None: l.append("\tincomplete type\n") else: for m in self.members: l.append(str(m)) return "".join(l) def getConst(self, name, location): # The constant may be in a base class iface = self while name not in iface.namemap and iface is not None: iface = self.idl.getName(self.base, self.location) if iface is None: raise IDLError("cannot find symbol '%s'" % name, c.location) c = iface.namemap.get(name, location) if c.kind != 'const': raise IDLError("symbol '%s' is not a constant", c.location) return c.getValue() def needsJSTypes(self): for m in self.members: if m.kind == "attribute" and m.type == "jsval": return True if m.kind == "method" and m.needsJSTypes(): return True return False def countEntries(self): ''' Returns the number of entries in the vtable for this interface. ''' total = sum(member.count() for member in self.members) if self.base is not None: realbase = self.idl.getName(self.base, self.location) total += realbase.countEntries() return total class InterfaceAttributes(object): uuid = None scriptable = False builtinclass = False function = False deprecated = False noscript = False main_process_scriptable_only = False def setuuid(self, value): self.uuid = value.lower() def setscriptable(self): self.scriptable = True def setfunction(self): self.function = True def setnoscript(self): self.noscript = True def setbuiltinclass(self): self.builtinclass = True def setdeprecated(self): self.deprecated = True def setmain_process_scriptable_only(self): self.main_process_scriptable_only = True actions = { 'uuid': (True, setuuid), 'scriptable': (False, setscriptable), 'builtinclass': (False, setbuiltinclass), 'function': (False, setfunction), 'noscript': (False, setnoscript), 'deprecated': (False, setdeprecated), 'object': (False, lambda self: True), 'main_process_scriptable_only': (False, setmain_process_scriptable_only), } def __init__(self, attlist, location): def badattribute(self): raise IDLError("Unexpected interface attribute '%s'" % name, location) for name, val, aloc in attlist: hasval, action = self.actions.get(name, (False, badattribute)) if hasval: if val is None: raise IDLError("Expected value for attribute '%s'" % name, aloc) action(self, val) else: if val is not None: raise IDLError("Unexpected value for attribute '%s'" % name, aloc) action(self) if self.uuid is None: raise IDLError("interface has no uuid", location) def __str__(self): l = [] if self.uuid: l.append("\tuuid: %s\n" % self.uuid) if self.scriptable: l.append("\tscriptable\n") if self.builtinclass: l.append("\tbuiltinclass\n") if self.function: l.append("\tfunction\n") if self.main_process_scriptable_only: l.append("\tmain_process_scriptable_only\n") return "".join(l) class ConstMember(object): kind = 'const' def __init__(self, type, name, value, location, doccomments): self.type = type self.name = name self.value = value self.location = location self.doccomments = doccomments def resolve(self, parent): self.realtype = parent.idl.getName(self.type, self.location) self.iface = parent basetype = self.realtype while isinstance(basetype, Typedef): basetype = basetype.realtype if not isinstance(basetype, Builtin) or not basetype.maybeConst: raise IDLError("const may only be a short or long type, not %s" % self.type, self.location) self.basetype = basetype def getValue(self): return self.value(self.iface) def __str__(self): return "\tconst %s %s = %s\n" % (self.type, self.name, self.getValue()) def count(self): return 0 class Attribute(object): kind = 'attribute' noscript = False readonly = False implicit_jscontext = False nostdcall = False binaryname = None null = None undefined = None deprecated = False infallible = False def __init__(self, type, name, attlist, readonly, location, doccomments): self.type = type self.name = name self.attlist = attlist self.readonly = readonly self.location = location self.doccomments = doccomments for name, value, aloc in attlist: if name == 'binaryname': if value is None: raise IDLError("binaryname attribute requires a value", aloc) self.binaryname = value continue if name == 'Null': if value is None: raise IDLError("'Null' attribute requires a value", aloc) if readonly: raise IDLError("'Null' attribute only makes sense for setters", aloc); if value not in ('Empty', 'Null', 'Stringify'): raise IDLError("'Null' attribute value must be 'Empty', 'Null' or 'Stringify'", aloc); self.null = value elif name == 'Undefined': if value is None: raise IDLError("'Undefined' attribute requires a value", aloc) if readonly: raise IDLError("'Undefined' attribute only makes sense for setters", aloc); if value not in ('Empty', 'Null'): raise IDLError("'Undefined' attribute value must be 'Empty' or 'Null'", aloc); self.undefined = value else: if value is not None: raise IDLError("Unexpected attribute value", aloc) if name == 'noscript': self.noscript = True elif name == 'implicit_jscontext': self.implicit_jscontext = True elif name == 'deprecated': self.deprecated = True elif name == 'nostdcall': self.nostdcall = True elif name == 'infallible': self.infallible = True else: raise IDLError("Unexpected attribute '%s'" % name, aloc) def resolve(self, iface): self.iface = iface self.realtype = iface.idl.getName(self.type, self.location) if (self.null is not None and getBuiltinOrNativeTypeName(self.realtype) != '[domstring]'): raise IDLError("'Null' attribute can only be used on DOMString", self.location) if (self.undefined is not None and getBuiltinOrNativeTypeName(self.realtype) != '[domstring]'): raise IDLError("'Undefined' attribute can only be used on DOMString", self.location) if self.infallible and not self.realtype.kind == 'builtin': raise IDLError('[infallible] only works on builtin types ' '(numbers, booleans, and raw char types)', self.location) if self.infallible and not iface.attributes.builtinclass: raise IDLError('[infallible] attributes are only allowed on ' '[builtinclass] interfaces', self.location) def toIDL(self): attribs = attlistToIDL(self.attlist) readonly = self.readonly and 'readonly ' or '' return "%s%sattribute %s %s;" % (attribs, readonly, self.type, self.name) def isScriptable(self): if not self.iface.attributes.scriptable: return False return not self.noscript def __str__(self): return "\t%sattribute %s %s\n" % (self.readonly and 'readonly ' or '', self.type, self.name) def count(self): return self.readonly and 1 or 2 class Method(object): kind = 'method' noscript = False notxpcom = False binaryname = None implicit_jscontext = False nostdcall = False optional_argc = False deprecated = False def __init__(self, type, name, attlist, paramlist, location, doccomments, raises): self.type = type self.name = name self.attlist = attlist self.params = paramlist self.location = location self.doccomments = doccomments self.raises = raises for name, value, aloc in attlist: if name == 'binaryname': if value is None: raise IDLError("binaryname attribute requires a value", aloc) self.binaryname = value continue if value is not None: raise IDLError("Unexpected attribute value", aloc) if name == 'noscript': self.noscript = True elif name == 'notxpcom': self.notxpcom = True elif name == 'implicit_jscontext': self.implicit_jscontext = True elif name == 'optional_argc': self.optional_argc = True elif name == 'deprecated': self.deprecated = True elif name == 'nostdcall': self.nostdcall = True else: raise IDLError("Unexpected attribute '%s'" % name, aloc) self.namemap = NameMap() for p in paramlist: self.namemap.set(p) def resolve(self, iface): self.iface = iface self.realtype = self.iface.idl.getName(self.type, self.location) for p in self.params: p.resolve(self) for p in self.params: if p.retval and p != self.params[-1]: raise IDLError("'retval' parameter '%s' is not the last parameter" % p.name, self.location) if p.size_is: found_size_param = False for size_param in self.params: if p.size_is == size_param.name: found_size_param = True if getBuiltinOrNativeTypeName(size_param.realtype) != 'unsigned long': raise IDLError("is_size parameter must have type 'unsigned long'", self.location) if not found_size_param: raise IDLError("could not find is_size parameter '%s'" % p.size_is, self.location) def isScriptable(self): if not self.iface.attributes.scriptable: return False return not (self.noscript or self.notxpcom) def __str__(self): return "\t%s %s(%s)\n" % (self.type, self.name, ", ".join([p.name for p in self.params])) def toIDL(self): if len(self.raises): raises = ' raises (%s)' % ','.join(self.raises) else: raises = '' return "%s%s %s (%s)%s;" % (attlistToIDL(self.attlist), self.type, self.name, ", ".join([p.toIDL() for p in self.params]), raises) def needsJSTypes(self): if self.implicit_jscontext: return True if self.type == "jsval": return True for p in self.params: t = p.realtype if isinstance(t, Native) and t.specialtype == "jsval": return True return False def count(self): return 1 class Param(object): size_is = None iid_is = None const = False array = False retval = False shared = False optional = False null = None undefined = None def __init__(self, paramtype, type, name, attlist, location, realtype=None): self.paramtype = paramtype self.type = type self.name = name self.attlist = attlist self.location = location self.realtype = realtype for name, value, aloc in attlist: # Put the value-taking attributes first! if name == 'size_is': if value is None: raise IDLError("'size_is' must specify a parameter", aloc) self.size_is = value elif name == 'iid_is': if value is None: raise IDLError("'iid_is' must specify a parameter", aloc) self.iid_is = value elif name == 'Null': if value is None: raise IDLError("'Null' must specify a parameter", aloc) if value not in ('Empty', 'Null', 'Stringify'): raise IDLError("'Null' parameter value must be 'Empty', 'Null', or 'Stringify'", aloc); self.null = value elif name == 'Undefined': if value is None: raise IDLError("'Undefined' must specify a parameter", aloc) if value not in ('Empty', 'Null'): raise IDLError("'Undefined' parameter value must be 'Empty' or 'Null'", aloc); self.undefined = value else: if value is not None: raise IDLError("Unexpected value for attribute '%s'" % name, aloc) if name == 'const': self.const = True elif name == 'array': self.array = True elif name == 'retval': self.retval = True elif name == 'shared': self.shared = True elif name == 'optional': self.optional = True else: raise IDLError("Unexpected attribute '%s'" % name, aloc) def resolve(self, method): self.realtype = method.iface.idl.getName(self.type, self.location) if self.array: self.realtype = Array(self.realtype) if (self.null is not None and getBuiltinOrNativeTypeName(self.realtype) != '[domstring]'): raise IDLError("'Null' attribute can only be used on DOMString", self.location) if (self.undefined is not None and getBuiltinOrNativeTypeName(self.realtype) != '[domstring]'): raise IDLError("'Undefined' attribute can only be used on DOMString", self.location) def nativeType(self): kwargs = {} if self.shared: kwargs['shared'] = True if self.const: kwargs['const'] = True try: return self.realtype.nativeType(self.paramtype, **kwargs) except IDLError, e: raise IDLError(e.message, self.location) except TypeError, e: raise IDLError("Unexpected parameter attribute", self.location) def toIDL(self): return "%s%s %s %s" % (paramAttlistToIDL(self.attlist), self.paramtype, self.type, self.name) class Array(object): def __init__(self, basetype): self.type = basetype def isScriptable(self): return self.type.isScriptable() def nativeType(self, calltype, const=False): return "%s%s*" % (const and 'const ' or '', self.type.nativeType(calltype)) class IDLParser(object): keywords = { 'const': 'CONST', 'interface': 'INTERFACE', 'in': 'IN', 'inout': 'INOUT', 'out': 'OUT', 'attribute': 'ATTRIBUTE', 'raises': 'RAISES', 'readonly': 'READONLY', 'native': 'NATIVE', 'typedef': 'TYPEDEF', } tokens = [ 'IDENTIFIER', 'CDATA', 'INCLUDE', 'IID', 'NUMBER', 'HEXNUM', 'LSHIFT', 'RSHIFT', 'NATIVEID', ] tokens.extend(keywords.values()) states = ( ('nativeid', 'exclusive'), ) hexchar = r'[a-fA-F0-9]' t_NUMBER = r'-?\d+' t_HEXNUM = r'0x%s+' % hexchar t_LSHIFT = r'<<' t_RSHIFT= r'>>' literals = '"(){}[],;:=|+-*' t_ignore = ' \t' def t_multilinecomment(self, t): r'/\*(?s).*?\*/' t.lexer.lineno += t.value.count('\n') if t.value.startswith("/**"): self._doccomments.append(t.value) def t_singlelinecomment(self, t): r'(?m)//.*?$' def t_IID(self, t): return t t_IID.__doc__ = r'%(c)s{8}-%(c)s{4}-%(c)s{4}-%(c)s{4}-%(c)s{12}' % {'c': hexchar} def t_IDENTIFIER(self, t): r'(unsigned\ long\ long|unsigned\ short|unsigned\ long|long\ long)(?!_?[A-Za-z][A-Za-z_0-9])|_?[A-Za-z][A-Za-z_0-9]*' t.type = self.keywords.get(t.value, 'IDENTIFIER') return t def t_LCDATA(self, t): r'(?s)%\{[ ]*C\+\+[ ]*\n(?P.*?\n?)%\}[ ]*(C\+\+)?' t.type = 'CDATA' t.value = t.lexer.lexmatch.group('cdata') t.lexer.lineno += t.value.count('\n') return t def t_INCLUDE(self, t): r'\#include[ \t]+"[^"\n]+"' inc, value, end = t.value.split('"') t.value = value return t def t_directive(self, t): r'\#(?P[a-zA-Z]+)[^\n]+' raise IDLError("Unrecognized directive %s" % t.lexer.lexmatch.group('directive'), Location(lexer=self.lexer, lineno=self.lexer.lineno, lexpos=self.lexer.lexpos)) def t_newline(self, t): r'\n+' t.lexer.lineno += len(t.value) def t_nativeid_NATIVEID(self, t): r'[^()\n]+(?=\))' t.lexer.begin('INITIAL') return t t_nativeid_ignore = '' def t_ANY_error(self, t): raise IDLError("unrecognized input", Location(lexer=self.lexer, lineno=self.lexer.lineno, lexpos=self.lexer.lexpos)) precedence = ( ('left', '|'), ('left', 'LSHIFT', 'RSHIFT'), ('left', '+', '-'), ('left', '*'), ('left', 'UMINUS'), ) def p_idlfile(self, p): """idlfile : productions""" p[0] = IDL(p[1]) def p_productions_start(self, p): """productions : """ p[0] = [] def p_productions_cdata(self, p): """productions : CDATA productions""" p[0] = list(p[2]) p[0].insert(0, CDATA(p[1], self.getLocation(p, 1))) def p_productions_include(self, p): """productions : INCLUDE productions""" p[0] = list(p[2]) p[0].insert(0, Include(p[1], self.getLocation(p, 1))) def p_productions_interface(self, p): """productions : interface productions | typedef productions | native productions""" p[0] = list(p[2]) p[0].insert(0, p[1]) def p_typedef(self, p): """typedef : TYPEDEF IDENTIFIER IDENTIFIER ';'""" p[0] = Typedef(type=p[2], name=p[3], location=self.getLocation(p, 1), doccomments=p.slice[1].doccomments) def p_native(self, p): """native : attributes NATIVE IDENTIFIER afternativeid '(' NATIVEID ')' ';'""" p[0] = Native(name=p[3], nativename=p[6], attlist=p[1]['attlist'], location=self.getLocation(p, 2)) def p_afternativeid(self, p): """afternativeid : """ # this is a place marker: we switch the lexer into literal identifier # mode here, to slurp up everything until the closeparen self.lexer.begin('nativeid') def p_anyident(self, p): """anyident : IDENTIFIER | CONST""" p[0] = {'value': p[1], 'location': self.getLocation(p, 1)} def p_attributes(self, p): """attributes : '[' attlist ']' | """ if len(p) == 1: p[0] = {'attlist': []} else: p[0] = {'attlist': p[2], 'doccomments': p.slice[1].doccomments} def p_attlist_start(self, p): """attlist : attribute""" p[0] = [p[1]] def p_attlist_continue(self, p): """attlist : attribute ',' attlist""" p[0] = list(p[3]) p[0].insert(0, p[1]) def p_attribute(self, p): """attribute : anyident attributeval""" p[0] = (p[1]['value'], p[2], p[1]['location']) def p_attributeval(self, p): """attributeval : '(' IDENTIFIER ')' | '(' IID ')' | """ if len(p) > 1: p[0] = p[2] def p_interface(self, p): """interface : attributes INTERFACE IDENTIFIER ifacebase ifacebody ';'""" atts, INTERFACE, name, base, body, SEMI = p[1:] attlist = atts['attlist'] doccomments = [] if 'doccomments' in atts: doccomments.extend(atts['doccomments']) doccomments.extend(p.slice[2].doccomments) l = lambda: self.getLocation(p, 2) if body is None: # forward-declared interface... must not have attributes! if len(attlist) != 0: raise IDLError("Forward-declared interface must not have attributes", list[0][3]) if base is not None: raise IDLError("Forward-declared interface must not have a base", l()) p[0] = Forward(name=name, location=l(), doccomments=doccomments) else: p[0] = Interface(name=name, attlist=attlist, base=base, members=body, location=l(), doccomments=doccomments) def p_ifacebody(self, p): """ifacebody : '{' members '}' | """ if len(p) > 1: p[0] = p[2] def p_ifacebase(self, p): """ifacebase : ':' IDENTIFIER | """ if len(p) == 3: p[0] = p[2] def p_members_start(self, p): """members : """ p[0] = [] def p_members_continue(self, p): """members : member members""" p[0] = list(p[2]) p[0].insert(0, p[1]) def p_member_cdata(self, p): """member : CDATA""" p[0] = CDATA(p[1], self.getLocation(p, 1)) def p_member_const(self, p): """member : CONST IDENTIFIER IDENTIFIER '=' number ';' """ p[0] = ConstMember(type=p[2], name=p[3], value=p[5], location=self.getLocation(p, 1), doccomments=p.slice[1].doccomments) # All "number" products return a function(interface) def p_number_decimal(self, p): """number : NUMBER""" n = int(p[1]) p[0] = lambda i: n def p_number_hex(self, p): """number : HEXNUM""" n = int(p[1], 16) p[0] = lambda i: n def p_number_identifier(self, p): """number : IDENTIFIER""" id = p[1] loc = self.getLocation(p, 1) p[0] = lambda i: i.getConst(id, loc) def p_number_paren(self, p): """number : '(' number ')'""" p[0] = p[2] def p_number_neg(self, p): """number : '-' number %prec UMINUS""" n = p[2] p[0] = lambda i: - n(i) def p_number_add(self, p): """number : number '+' number | number '-' number | number '*' number""" n1 = p[1] n2 = p[3] if p[2] == '+': p[0] = lambda i: n1(i) + n2(i) elif p[2] == '-': p[0] = lambda i: n1(i) - n2(i) else: p[0] = lambda i: n1(i) * n2(i) def p_number_shift(self, p): """number : number LSHIFT number | number RSHIFT number""" n1 = p[1] n2 = p[3] if p[2] == '<<': p[0] = lambda i: n1(i) << n2(i) else: p[0] = lambda i: n1(i) >> n2(i) def p_number_bitor(self, p): """number : number '|' number""" n1 = p[1] n2 = p[3] p[0] = lambda i: n1(i) | n2(i) def p_member_att(self, p): """member : attributes optreadonly ATTRIBUTE IDENTIFIER IDENTIFIER ';'""" if 'doccomments' in p[1]: doccomments = p[1]['doccomments'] elif p[2] is not None: doccomments = p[2] else: doccomments = p.slice[3].doccomments p[0] = Attribute(type=p[4], name=p[5], attlist=p[1]['attlist'], readonly=p[2] is not None, location=self.getLocation(p, 3), doccomments=doccomments) def p_member_method(self, p): """member : attributes IDENTIFIER IDENTIFIER '(' paramlist ')' raises ';'""" if 'doccomments' in p[1]: doccomments = p[1]['doccomments'] else: doccomments = p.slice[2].doccomments p[0] = Method(type=p[2], name=p[3], attlist=p[1]['attlist'], paramlist=p[5], location=self.getLocation(p, 3), doccomments=doccomments, raises=p[7]) def p_paramlist(self, p): """paramlist : param moreparams | """ if len(p) == 1: p[0] = [] else: p[0] = list(p[2]) p[0].insert(0, p[1]) def p_moreparams_start(self, p): """moreparams :""" p[0] = [] def p_moreparams_continue(self, p): """moreparams : ',' param moreparams""" p[0] = list(p[3]) p[0].insert(0, p[2]) def p_param(self, p): """param : attributes paramtype IDENTIFIER IDENTIFIER""" p[0] = Param(paramtype=p[2], type=p[3], name=p[4], attlist=p[1]['attlist'], location=self.getLocation(p, 3)) def p_paramtype(self, p): """paramtype : IN | INOUT | OUT""" p[0] = p[1] def p_optreadonly(self, p): """optreadonly : READONLY | """ if len(p) > 1: p[0] = p.slice[1].doccomments else: p[0] = None def p_raises(self, p): """raises : RAISES '(' idlist ')' | """ if len(p) == 1: p[0] = [] else: p[0] = p[3] def p_idlist(self, p): """idlist : IDENTIFIER""" p[0] = [p[1]] def p_idlist_continue(self, p): """idlist : IDENTIFIER ',' idlist""" p[0] = list(p[3]) p[0].insert(0, p[1]) def p_error(self, t): if not t: raise IDLError("Syntax Error at end of file. Possibly due to missing semicolon(;), braces(}) or both", None) else: location = Location(self.lexer, t.lineno, t.lexpos) raise IDLError("invalid syntax", location) def __init__(self, outputdir=''): self._doccomments = [] self.lexer = lex.lex(object=self, outputdir=outputdir, lextab='xpidllex', optimize=1) self.parser = yacc.yacc(module=self, outputdir=outputdir, debug=0, tabmodule='xpidlyacc', optimize=1) def clearComments(self): self._doccomments = [] def token(self): t = self.lexer.token() if t is not None and t.type != 'CDATA': t.doccomments = self._doccomments self._doccomments = [] return t def parse(self, data, filename=None): if filename is not None: self.lexer.filename = filename self.lexer.lineno = 1 self.lexer.input(data) idl = self.parser.parse(lexer=self) if filename is not None: idl.deps.append(filename) return idl def getLocation(self, p, i): return Location(self.lexer, p.lineno(i), p.lexpos(i)) if __name__ == '__main__': p = IDLParser() for f in sys.argv[1:]: print "Parsing %s" % f p.parse(open(f).read(), filename=f)