From: Stefan Behnel Date: Wed, 9 Apr 2008 09:14:48 +0000 (+0200) Subject: reverted 'circular cdef' patch, leaving unrelated changes intact X-Git-Tag: 0.9.6.14~24 X-Git-Url: http://git.tremily.us/?a=commitdiff_plain;h=acf0ef36c475979146c231e2a8b541d63877548d;p=cython.git reverted 'circular cdef' patch, leaving unrelated changes intact --- diff --git a/Cython/Compiler/Main.py b/Cython/Compiler/Main.py index 819cabc1..ca8dc88d 100644 --- a/Cython/Compiler/Main.py +++ b/Cython/Compiler/Main.py @@ -310,7 +310,6 @@ def compile(source, options = None, c_compile = 0, c_link = 0, #------------------------------------------------------------------------ def main(command_line = 0): - args = sys.argv[1:] any_failures = 0 if command_line: diff --git a/Cython/Compiler/ModuleNode.py b/Cython/Compiler/ModuleNode.py index 16f223c5..73ec489a 100644 --- a/Cython/Compiler/ModuleNode.py +++ b/Cython/Compiler/ModuleNode.py @@ -19,35 +19,6 @@ from Errors import error from PyrexTypes import py_object_type from Cython.Utils import open_new_file, replace_suffix - -def recurse_vtab_check_inheritance(entry, b, dict): - base = entry - while base is not None: - if base.type.base_type is None or base.type.base_type.vtabstruct_cname is None: - return False - if base.type.base_type.vtabstruct_cname == b.type.vtabstruct_cname: - return True - try: - base = dict[base.type.base_type.vtabstruct_cname] - except KeyError: - return True - return False - -def recurse_vtabslot_check_inheritance(entry, b, dict): - base = entry - while base is not None: - if base.type.base_type is None: - return False - if base.type.base_type.objstruct_cname == b.type.objstruct_cname: - return True - try: - base = dict[base.type.base_type.objstruct_cname] - except KeyError: - return True - return False - - - class ModuleNode(Nodes.Node, Nodes.BlockNode): # doc string or None # body StatListNode @@ -255,13 +226,14 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): self.generate_method_table(env, code) self.generate_filename_init_prototype(code) self.generate_module_init_func(modules[:-1], env, code) - self.generate_module_init2_func(modules[:-1], env, code) code.mark_pos(None) self.generate_module_cleanup_func(env, code) self.generate_filename_table(code) self.generate_utility_functions(env, code) - self.generate_declarations_for_modules(env, modules, code.h) + for module in modules: + self.generate_declarations_for_module(module, code.h, + definition = module is env) f = open_new_file(result.c_file) f.write(code.h.f.getvalue()) @@ -273,9 +245,6 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): self.annotate(code) code.save_annotation(result.c_file[:-1] + "pyx") # change? - - - def find_referenced_modules(self, env, module_list, modules_seen): if env not in modules_seen: modules_seen[env] = 1 @@ -363,103 +332,18 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): # Some C compilers don't like an empty array code.putln("0") code.putln("};") - - def generate_vtab_dict(self, module_list): - vtab_dict = {} - for module in module_list: - for entry in module.c_class_entries: - if not entry.in_cinclude: - type = entry.type - scope = type.scope - if type.vtabstruct_cname: - vtab_dict[type.vtabstruct_cname]=entry - return vtab_dict - def generate_vtab_list(self, vtab_dict): - vtab_list = list() - for entry in vtab_dict.itervalues(): - vtab_list.append(entry) - for i in range(0,len(vtab_list)): - for j in range(0,len(vtab_list)): - if(recurse_vtab_check_inheritance(vtab_list[j],vtab_list[i], vtab_dict)==1): - if i > j: - vtab_list.insert(j,vtab_list[i]) - if i > j: - vtab_list.pop(i+1) - else: - vtab_list.pop(i) - #for entry in vtab_list: - #print entry.type.vtabstruct_cname - return vtab_list - - def generate_vtabslot_dict(self, module_list, env): - vtab_dict={} - type_entries=[] - for module in module_list: - definition = module is env - if definition: - type_entries.extend( env.type_entries) - else: - for entry in module.type_entries: - if entry.defined_in_pxd: - type_entries.append(entry) - for entry in type_entries: - type = entry.type - if type.is_extension_type: - if not entry.in_cinclude: - type = entry.type - scope = type.scope - vtab_dict[type.objstruct_cname]=entry - return vtab_dict - - def generate_vtabslot_list(self, vtab_dict): - vtab_list = list() - for entry in vtab_dict.itervalues(): - vtab_list.append(entry) - for i in range(0,len(vtab_list)): - for j in range(0,len(vtab_list)): - if(recurse_vtabslot_check_inheritance(vtab_list[j],vtab_list[i], vtab_dict)==1): - if i > j: - vtab_list.insert(j,vtab_list[i]) - if i > j: - vtab_list.pop(i+1) - else: - vtab_list.pop(i) - #for entry in vtab_list: - #print entry.type.vtabstruct_cname - return vtab_list - - - def generate_type_definitions(self, env, modules, vtab_list, vtabslot_list, code): - for module in modules: - definition = module is env - if definition: - type_entries = module.type_entries - else: - type_entries = [] - for entry in module.type_entries: - if entry.defined_in_pxd: - type_entries.append(entry) - self.generate_type_header_code(type_entries, code) - for entry in vtabslot_list: - self.generate_obj_struct_definition(entry.type, code) - for entry in vtab_list: - self.generate_typeobject_predeclaration(entry, code) - self.generate_exttype_vtable_struct(entry, code) - self.generate_exttype_vtabptr_declaration(entry, code) - - def generate_declarations_for_modules(self, env, modules, code): + + def generate_declarations_for_module(self, env, code, definition): code.putln("") - code.putln("/* Declarations */") - vtab_dict = self.generate_vtab_dict(modules) - vtab_list = self.generate_vtab_list(vtab_dict) - vtabslot_dict = self.generate_vtabslot_dict(modules,env) - vtabslot_list = self.generate_vtabslot_list(vtabslot_dict) - self.generate_type_definitions(env, modules, vtab_list, vtabslot_list, code) - for module in modules: - definition = module is env - self.generate_global_declarations(module, code, definition) - self.generate_cfunction_predeclarations(module, code, definition) - + code.putln("/* Declarations from %s */" % env.qualified_name) + self.generate_type_predeclarations(env, code) + self.generate_type_definitions(env, code, definition) + self.generate_global_declarations(env, code, definition) + self.generate_cfunction_predeclarations(env, code, definition) + + def generate_type_predeclarations(self, env, code): + pass + def generate_type_header_code(self, type_entries, code): # Generate definitions of structs/unions/enums/typedefs/objstructs. #self.generate_gcc33_hack(env, code) # Is this still needed? @@ -474,6 +358,23 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): self.generate_struct_union_definition(entry, code) elif type.is_enum: self.generate_enum_definition(entry, code) + elif type.is_extension_type: + self.generate_obj_struct_definition(type, code) + + def generate_type_definitions(self, env, code, definition): + if definition: + type_entries = env.type_entries + else: + type_entries = [] + for entry in env.type_entries: + if entry.defined_in_pxd: + type_entries.append(entry) + self.generate_type_header_code(type_entries, code) + for entry in env.c_class_entries: + if not entry.in_cinclude: + self.generate_typeobject_predeclaration(entry, code) + self.generate_exttype_vtable_struct(entry, code) + self.generate_exttype_vtabptr_declaration(entry, code) def generate_gcc33_hack(self, env, code): # Workaround for spurious warning generation in gcc 3.3 @@ -1382,13 +1283,10 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): code.putln("static void %s(void); /*proto*/" % Naming.fileinit_cname) def generate_module_init_func(self, imported_modules, env, code): - code.putln("") - code.putln("PyMODINIT_FUNC init2%s(void);" % env.module_name) code.putln("") header = "PyMODINIT_FUNC init%s(void)" % env.module_name code.putln("%s; /*proto*/" % header) code.putln("%s {" % header) - # do we need any of these here, or just in init2? code.put_var_declarations(env.temp_entries) code.putln("/*--- Libary function declarations ---*/") @@ -1417,48 +1315,31 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): code.putln("/*--- Function export code ---*/") self.generate_c_function_export_code(env, code) - env.use_utility_code(function_export_utility_code) - code.putln('if (__Pyx_ExportFunction("init2%s", (void*)init2%s, "int (void)") < 0) %s' % (env.module_name, env.module_name, code.error_goto((env.qualified_name,0,0) ) ) ) + code.putln("/*--- Function import code ---*/") + for module in imported_modules: + self.generate_c_function_import_code_for_module(module, env, code) + code.putln("/*--- Type init code ---*/") self.generate_type_init_code(env, code) + code.putln("/*--- Type import code ---*/") for module in imported_modules: self.generate_type_import_code_for_module(module, env, code) - code.putln("/*--- Function import code ---*/") - for module in imported_modules: - self.generate_c_function_import_code_for_module(module, env, code) - code.putln('init2%s();' % env.module_name) - if Options.generate_cleanup_code: - code.putln("if (__Pyx_RegisterCleanup()) %s;" % code.error_goto(self.pos)) - code.putln("return;") - code.put_label(code.error_label) - code.put_var_xdecrefs(env.temp_entries) - code.putln('__Pyx_AddTraceback("%s");' % env.qualified_name) - env.use_utility_code(Nodes.traceback_utility_code) - code.putln('}') - def generate_module_init2_func(self, imported_modules, env, code): - code.init_labels() - code.putln("") - header = "PyMODINIT_FUNC init2%s(void)" % env.module_name - code.putln("%s; /*proto*/" % header) - code.putln("%s {" % header) - code.putln("static int __Pyx_unique = 0;") - code.putln("if (__Pyx_unique==1) return;") - code.putln("__Pyx_unique = 1;") - code.put_var_declarations(env.temp_entries) code.putln("/*--- Execution code ---*/") code.mark_pos(None) self.body.generate_execution_code(code) + if Options.generate_cleanup_code: code.putln("if (__Pyx_RegisterCleanup()) %s;" % code.error_goto(self.pos)) + code.putln("return;") code.put_label(code.error_label) code.put_var_xdecrefs(env.temp_entries) code.putln('__Pyx_AddTraceback("%s");' % env.qualified_name) env.use_utility_code(Nodes.traceback_utility_code) - code.putln('}') - + code.putln('}') + def generate_module_cleanup_func(self, env, code): if not Options.generate_cleanup_code: return @@ -1642,7 +1523,7 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): self.generate_exttype_vtable_init_code(entry, code) self.generate_type_ready_code(env, entry, code) self.generate_typeptr_assignment_code(entry, code) - + def generate_base_type_import_code(self, env, entry, code): base_type = entry.type.base_type if base_type and base_type.module_name != env.qualified_name: @@ -1776,49 +1657,6 @@ class ModuleNode(Nodes.Node, Nodes.BlockNode): # #------------------------------------------------------------------------------------ - -call_module_function_code = [ -""" -static PyObject *__Pyx_CallModuleFunction(char* module, char *name); /*proto*/ -""",""" -static PyObject *__Pyx_CallModuleFunction(char* module, char *name) -{ - PyObject* py_name = 0; - PyObject* py_module_name = 0; - PyObject* py_module = 0; - PyObject* py_dict = 0; - PyObject* py_func = 0; - PyObject* py_tuple = PyTuple_New(0); - PyObject* ret = 0; - py_dict = PyImport_GetModuleDict(); - if(py_dict == 0) - goto bad; - if(py_tuple == 0) - goto bad; - py_name = PyString_FromString(name); - if(py_name == 0) - goto bad; - py_module_name = PyString_FromString(module); - if(py_module_name == 0) - goto bad; - py_module = PyObject_GetItem(py_dict, py_module); - if(py_module == 0) - goto bad; - if ( (py_func = PyObject_GetAttr(py_module, py_name) ) == 0) - goto bad; - if ( (ret = PyObject_Call(py_func, py_tuple,NULL) ) == 0) - goto bad; - return ret; -bad: - Py_XDECREF(py_name); - Py_XDECREF(py_module_name); - Py_XDECREF(py_module); - Py_XDECREF(py_dict); - Py_XDECREF(py_func); - return 0; -} -"""] - import_module_utility_code = [ """ static PyObject *__Pyx_ImportModule(char *name); /*proto*/ @@ -1860,7 +1698,7 @@ static PyTypeObject *__Pyx_ImportType(char *module_name, char *class_name, py_name = PyString_FromString(module_name); if (!py_name) goto bad; - + py_module = __Pyx_ImportModule(module_name); if (!py_module) goto bad; @@ -1892,7 +1730,7 @@ bad: function_export_utility_code = [ """ -static int __Pyx_ExportFunction(char *n, void *f, char *s); /*proto*/ +static int __Pyx_ExportFunction(char *name, void *f, char *sig); /*proto*/ """,r""" static int __Pyx_ExportFunction(char *name, void *f, char *sig) { PyObject *d = 0;