Current Path : /usr/local/share/python2.5/Tools/framer/framer/ |
FreeBSD hs32.drive.ne.jp 9.1-RELEASE FreeBSD 9.1-RELEASE #1: Wed Jan 14 12:18:08 JST 2015 root@hs32.drive.ne.jp:/sys/amd64/compile/hs32 amd64 |
Current File : //usr/local/share/python2.5/Tools/framer/framer/bases.py |
"""Provides the Module and Type base classes that user code inherits from.""" __all__ = ["Module", "Type", "member"] from framer import struct, template from framer.function import Function, Method from framer.member import member from framer.slots import * from framer.util import cstring, unindent from types import FunctionType def sortitems(dict): L = dict.items() L.sort() return L # The Module and Type classes are implemented using metaclasses, # because most of the methods are class methods. It is easier to use # metaclasses than the cumbersome classmethod() builtin. They have # class methods because they are exposed to user code as base classes. class BaseMetaclass(type): """Shared infrastructure for generating modules and types.""" # just methoddef so far def dump_methoddef(self, f, functions, vars): def p(templ, vars=vars): # helper function to generate output print >> f, templ % vars if not functions: return p(template.methoddef_start) for name, func in sortitems(functions): if func.__doc__: p(template.methoddef_def_doc, func.vars) else: p(template.methoddef_def, func.vars) p(template.methoddef_end) class ModuleMetaclass(BaseMetaclass): """Provides methods for Module class.""" def gen(self): self.analyze() self.initvars() f = open(self.__filename, "w") self.dump(f) f.close() def analyze(self): self.name = getattr(self, "abbrev", self.__name__) self.__functions = {} self.__types = {} self.__members = False for name, obj in self.__dict__.iteritems(): if isinstance(obj, FunctionType): self.__functions[name] = Function(obj, self) elif isinstance(obj, TypeMetaclass): obj._TypeMetaclass__module = self.name obj.analyze() self.__types[name] = obj if obj.has_members(): self.__members = True def initvars(self): v = self.__vars = {} filename = getattr(self, "__file__", None) if filename is None: filename = self.__name__ + "module.c" self.__filename = v["FileName"] = filename name = v["ModuleName"] = self.__name__ v["MethodDefName"] = "%s_methods" % name v["ModuleDocstring"] = cstring(unindent(self.__doc__)) def dump(self, f): def p(templ, vars=self.__vars): # helper function to generate output print >> f, templ % vars p(template.module_start) if self.__members: p(template.member_include) print >> f if self.__doc__: p(template.module_doc) for name, type in sortitems(self.__types): type.dump(f) for name, func in sortitems(self.__functions): func.dump(f) self.dump_methoddef(f, self.__functions, self.__vars) p(template.module_init_start) for name, type in sortitems(self.__types): type.dump_init(f) p("}") class Module: __metaclass__ = ModuleMetaclass class TypeMetaclass(BaseMetaclass): def dump(self, f): self.initvars() # defined after initvars() so that __vars is defined def p(templ, vars=self.__vars): print >> f, templ % vars if self.struct is not None: print >> f, unindent(self.struct, False) if self.__doc__: p(template.docstring) for name, func in sortitems(self.__methods): func.dump(f) self.dump_methoddef(f, self.__methods, self.__vars) self.dump_memberdef(f) self.dump_slots(f) def has_members(self): if self.__members: return True else: return False def analyze(self): # called by ModuleMetaclass analyze() self.name = getattr(self, "abbrev", self.__name__) src = getattr(self, "struct", None) if src is not None: self.__struct = struct.parse(src) else: self.__struct = None self.__methods = {} self.__members = {} for cls in self.__mro__: for k, v in cls.__dict__.iteritems(): if isinstance(v, FunctionType): self.__methods[k] = Method(v, self) if isinstance(v, member): self.__members[k] = v assert self.__struct is not None v.register(k, self.__struct) self.analyze_slots() def analyze_slots(self): self.__slots = {} for s in Slots: if s.special is not None: meth = self.__methods.get(s.special) if meth is not None: self.__slots[s] = meth self.__slots[TP_NAME] = '"%s.%s"' % (self.__module, self.__name__) if self.__doc__: self.__slots[TP_DOC] = "%s_doc" % self.name if self.__struct is not None: self.__slots[TP_BASICSIZE] = "sizeof(%s)" % self.__struct.name self.__slots[TP_DEALLOC] = "%s_dealloc" % self.name if self.__methods: self.__slots[TP_METHODS] = "%s_methods" % self.name if self.__members: self.__slots[TP_MEMBERS] = "%s_members" % self.name def initvars(self): v = self.__vars = {} v["TypeName"] = self.__name__ v["CTypeName"] = "Py%s_Type" % self.__name__ v["MethodDefName"] = self.__slots[TP_METHODS] if self.__doc__: v["DocstringVar"] = self.__slots[TP_DOC] v["Docstring"] = cstring(unindent(self.__doc__)) if self.__struct is not None: v["StructName"] = self.__struct.name if self.__members: v["MemberDefName"] = self.__slots[TP_MEMBERS] def dump_memberdef(self, f): def p(templ, vars=self.__vars): print >> f, templ % vars if not self.__members: return p(template.memberdef_start) for name, slot in sortitems(self.__members): slot.dump(f) p(template.memberdef_end) def dump_slots(self, f): def p(templ, vars=self.__vars): print >> f, templ % vars if self.struct: p(template.dealloc_func, {"name" : self.__slots[TP_DEALLOC]}) p(template.type_struct_start) for s in Slots[:-5]: # XXX val = self.__slots.get(s, s.default) ntabs = 4 - (4 + len(val)) / 8 line = " %s,%s/* %s */" % (val, "\t" * ntabs, s.name) print >> f, line p(template.type_struct_end) def dump_init(self, f): def p(templ): print >> f, templ % self.__vars p(template.type_init_type) p(template.module_add_type) class Type: __metaclass__ = TypeMetaclass