# -*- Mode: Python; py-indent-offset: 4 -*- import os, sys import scmexpr from definitions import * class IncludeParser(scmexpr.Parser): """A simple parser that follows include statements automatically""" def include(self, filename): if not os.path.isabs(filename): filename = os.path.join(os.path.dirname(self.filename), filename) # set self.filename to the include name, to handle recursive includes oldfile = self.filename self.filename = filename self.startParsing() self.filename = oldfile class DefsParser(IncludeParser): def __init__(self, arg, defines={}): IncludeParser.__init__(self, arg) self.objects = [] self.interfaces = [] self.enums = [] # enums and flags self.boxes = [] # boxed types self.pointers = [] # pointer types self.functions = [] # functions and methods self.c_name = {} # hash of c names of functions self.methods = {} # hash of methods of particular objects self.defines = defines # -Dfoo=bar options, as dictionary def define_object(self, *args): odef = apply(ObjectDef, args) self.objects.append(odef) self.c_name[odef.c_name] = odef def define_interface(self, *args): idef = apply(InterfaceDef, args) self.interfaces.append(idef) self.c_name[idef.c_name] = idef def define_enum(self, *args): edef = apply(EnumDef, args) self.enums.append(edef) self.c_name[edef.c_name] = edef def define_flags(self, *args): fdef = apply(FlagsDef, args) self.enums.append(fdef) self.c_name[fdef.c_name] = fdef def define_boxed(self, *args): bdef = apply(BoxedDef, args) self.boxes.append(bdef) self.c_name[bdef.c_name] = bdef def define_pointer(self, *args): pdef = apply(PointerDef, args) self.pointers.append(pdef) self.c_name[pdef.c_name] = pdef def define_function(self, *args): fdef = apply(FunctionDef, args) self.functions.append(fdef) self.c_name[fdef.c_name] = fdef def define_method(self, *args): mdef = apply(MethodDef, args) self.functions.append(mdef) self.c_name[mdef.c_name] = mdef def merge(self, old): for obj in self.objects: if old.c_name.has_key(obj.c_name): obj.merge(old.c_name[obj.c_name]) for f in self.functions: if old.c_name.has_key(f.c_name): f.merge(old.c_name[f.c_name]) def printMissing(self, old): for obj in self.objects: if not old.c_name.has_key(obj.c_name): obj.write_defs() for f in self.functions: if not old.c_name.has_key(f.c_name): f.write_defs() def write_defs(self, fp=sys.stdout): for obj in self.objects: obj.write_defs(fp) for enum in self.enums: enum.write_defs(fp) for boxed in self.boxes: boxed.write_defs(fp) for pointer in self.pointers: pointer.write_defs(fp) for func in self.functions: func.write_defs(fp) def find_object(self, c_name): for obj in self.objects: if obj.c_name == c_name: return obj else: raise ValueError, 'object not found' def find_constructor(self, obj, overrides): for func in self.functions: if isinstance(func, FunctionDef) and \ func.is_constructor_of == obj.c_name and \ not overrides.is_ignored(func.c_name): return func def find_methods(self, obj): objname = obj.c_name return filter(lambda func, on=objname: isinstance(func, MethodDef) and func.of_object == on, self.functions) def find_functions(self): return filter(lambda func: isinstance(func, FunctionDef) and not func.is_constructor_of, self.functions) def ifdef(self, *args): if args[0] in self.defines: for arg in args[1:]: self.handle(arg) def ifndef(self, *args): if args[0] not in self.defines: for arg in args[1:]: self.handle(arg)