| Index: third_party/cython/src/Cython/Compiler/ModuleNode.py
|
| diff --git a/third_party/cython/src/Cython/Compiler/ModuleNode.py b/third_party/cython/src/Cython/Compiler/ModuleNode.py
|
| new file mode 100644
|
| index 0000000000000000000000000000000000000000..dce65cb741ffe096e8d45c28e2661c8e0768c852
|
| --- /dev/null
|
| +++ b/third_party/cython/src/Cython/Compiler/ModuleNode.py
|
| @@ -0,0 +1,2874 @@
|
| +#
|
| +# Module parse tree node
|
| +#
|
| +
|
| +import cython
|
| +cython.declare(Naming=object, Options=object, PyrexTypes=object, TypeSlots=object,
|
| + error=object, warning=object, py_object_type=object, UtilityCode=object,
|
| + EncodedString=object)
|
| +
|
| +import os
|
| +import operator
|
| +from PyrexTypes import CPtrType
|
| +import Future
|
| +
|
| +import Annotate
|
| +import Code
|
| +import Naming
|
| +import Nodes
|
| +import Options
|
| +import TypeSlots
|
| +import Version
|
| +import PyrexTypes
|
| +
|
| +from Errors import error, warning
|
| +from PyrexTypes import py_object_type
|
| +from Cython.Utils import open_new_file, replace_suffix, decode_filename
|
| +from Code import UtilityCode
|
| +from StringEncoding import EncodedString
|
| +
|
| +
|
| +
|
| +def check_c_declarations_pxd(module_node):
|
| + module_node.scope.check_c_classes_pxd()
|
| + return module_node
|
| +
|
| +def check_c_declarations(module_node):
|
| + module_node.scope.check_c_classes()
|
| + module_node.scope.check_c_functions()
|
| + return module_node
|
| +
|
| +class ModuleNode(Nodes.Node, Nodes.BlockNode):
|
| + # doc string or None
|
| + # body StatListNode
|
| + #
|
| + # referenced_modules [ModuleScope]
|
| + # full_module_name string
|
| + #
|
| + # scope The module scope.
|
| + # compilation_source A CompilationSource (see Main)
|
| + # directives Top-level compiler directives
|
| +
|
| + child_attrs = ["body"]
|
| + directives = None
|
| +
|
| + def merge_in(self, tree, scope, merge_scope=False):
|
| + # Merges in the contents of another tree, and possibly scope. With the
|
| + # current implementation below, this must be done right prior
|
| + # to code generation.
|
| + #
|
| + # Note: This way of doing it seems strange -- I believe the
|
| + # right concept is to split ModuleNode into a ModuleNode and a
|
| + # CodeGenerator, and tell that CodeGenerator to generate code
|
| + # from multiple sources.
|
| + assert isinstance(self.body, Nodes.StatListNode)
|
| + if isinstance(tree, Nodes.StatListNode):
|
| + self.body.stats.extend(tree.stats)
|
| + else:
|
| + self.body.stats.append(tree)
|
| +
|
| + self.scope.utility_code_list.extend(scope.utility_code_list)
|
| +
|
| + def extend_if_not_in(L1, L2):
|
| + for x in L2:
|
| + if x not in L1:
|
| + L1.append(x)
|
| +
|
| + extend_if_not_in(self.scope.include_files, scope.include_files)
|
| + extend_if_not_in(self.scope.included_files, scope.included_files)
|
| + extend_if_not_in(self.scope.python_include_files,
|
| + scope.python_include_files)
|
| +
|
| + if merge_scope:
|
| + # Ensure that we don't generate import code for these entries!
|
| + for entry in scope.c_class_entries:
|
| + entry.type.module_name = self.full_module_name
|
| + entry.type.scope.directives["internal"] = True
|
| +
|
| + self.scope.merge_in(scope)
|
| +
|
| + def analyse_declarations(self, env):
|
| + if not Options.docstrings:
|
| + env.doc = self.doc = None
|
| + elif Options.embed_pos_in_docstring:
|
| + env.doc = EncodedString(u'File: %s (starting at line %s)' % Nodes.relative_position(self.pos))
|
| + if not self.doc is None:
|
| + env.doc = EncodedString(env.doc + u'\n' + self.doc)
|
| + env.doc.encoding = self.doc.encoding
|
| + else:
|
| + env.doc = self.doc
|
| + env.directives = self.directives
|
| + self.body.analyse_declarations(env)
|
| +
|
| + def process_implementation(self, options, result):
|
| + env = self.scope
|
| + env.return_type = PyrexTypes.c_void_type
|
| + self.referenced_modules = []
|
| + self.find_referenced_modules(env, self.referenced_modules, {})
|
| + self.sort_cdef_classes(env)
|
| + self.generate_c_code(env, options, result)
|
| + self.generate_h_code(env, options, result)
|
| + self.generate_api_code(env, result)
|
| +
|
| + def has_imported_c_functions(self):
|
| + for module in self.referenced_modules:
|
| + for entry in module.cfunc_entries:
|
| + if entry.defined_in_pxd:
|
| + return 1
|
| + return 0
|
| +
|
| + def generate_h_code(self, env, options, result):
|
| + def h_entries(entries, api=0, pxd=0):
|
| + return [entry for entry in entries
|
| + if ((entry.visibility == 'public') or
|
| + (api and entry.api) or
|
| + (pxd and entry.defined_in_pxd))]
|
| + h_types = h_entries(env.type_entries, api=1)
|
| + h_vars = h_entries(env.var_entries)
|
| + h_funcs = h_entries(env.cfunc_entries)
|
| + h_extension_types = h_entries(env.c_class_entries)
|
| + if (h_types or h_vars or h_funcs or h_extension_types):
|
| + result.h_file = replace_suffix(result.c_file, ".h")
|
| + h_code = Code.CCodeWriter()
|
| + Code.GlobalState(h_code, self)
|
| + if options.generate_pxi:
|
| + result.i_file = replace_suffix(result.c_file, ".pxi")
|
| + i_code = Code.PyrexCodeWriter(result.i_file)
|
| + else:
|
| + i_code = None
|
| +
|
| + h_guard = Naming.h_guard_prefix + self.api_name(env)
|
| + h_code.put_h_guard(h_guard)
|
| + h_code.putln("")
|
| + self.generate_type_header_code(h_types, h_code)
|
| + if options.capi_reexport_cincludes:
|
| + self.generate_includes(env, [], h_code)
|
| + h_code.putln("")
|
| + api_guard = Naming.api_guard_prefix + self.api_name(env)
|
| + h_code.putln("#ifndef %s" % api_guard)
|
| + h_code.putln("")
|
| + self.generate_extern_c_macro_definition(h_code)
|
| + if h_extension_types:
|
| + h_code.putln("")
|
| + for entry in h_extension_types:
|
| + self.generate_cclass_header_code(entry.type, h_code)
|
| + if i_code:
|
| + self.generate_cclass_include_code(entry.type, i_code)
|
| + if h_funcs:
|
| + h_code.putln("")
|
| + for entry in h_funcs:
|
| + self.generate_public_declaration(entry, h_code, i_code)
|
| + if h_vars:
|
| + h_code.putln("")
|
| + for entry in h_vars:
|
| + self.generate_public_declaration(entry, h_code, i_code)
|
| + h_code.putln("")
|
| + h_code.putln("#endif /* !%s */" % api_guard)
|
| + h_code.putln("")
|
| + h_code.putln("#if PY_MAJOR_VERSION < 3")
|
| + h_code.putln("PyMODINIT_FUNC init%s(void);" % env.module_name)
|
| + h_code.putln("#else")
|
| + h_code.putln("PyMODINIT_FUNC PyInit_%s(void);" % env.module_name)
|
| + h_code.putln("#endif")
|
| + h_code.putln("")
|
| + h_code.putln("#endif /* !%s */" % h_guard)
|
| +
|
| + f = open_new_file(result.h_file)
|
| + try:
|
| + h_code.copyto(f)
|
| + finally:
|
| + f.close()
|
| +
|
| + def generate_public_declaration(self, entry, h_code, i_code):
|
| + h_code.putln("%s %s;" % (
|
| + Naming.extern_c_macro,
|
| + entry.type.declaration_code(
|
| + entry.cname, dll_linkage = "DL_IMPORT")))
|
| + if i_code:
|
| + i_code.putln("cdef extern %s" %
|
| + entry.type.declaration_code(entry.cname, pyrex = 1))
|
| +
|
| + def api_name(self, env):
|
| + return env.qualified_name.replace(".", "__")
|
| +
|
| + def generate_api_code(self, env, result):
|
| + def api_entries(entries, pxd=0):
|
| + return [entry for entry in entries
|
| + if entry.api or (pxd and entry.defined_in_pxd)]
|
| + api_vars = api_entries(env.var_entries)
|
| + api_funcs = api_entries(env.cfunc_entries)
|
| + api_extension_types = api_entries(env.c_class_entries)
|
| + if api_vars or api_funcs or api_extension_types:
|
| + result.api_file = replace_suffix(result.c_file, "_api.h")
|
| + h_code = Code.CCodeWriter()
|
| + Code.GlobalState(h_code, self)
|
| + api_guard = Naming.api_guard_prefix + self.api_name(env)
|
| + h_code.put_h_guard(api_guard)
|
| + h_code.putln('#include "Python.h"')
|
| + if result.h_file:
|
| + h_code.putln('#include "%s"' % os.path.basename(result.h_file))
|
| + if api_extension_types:
|
| + h_code.putln("")
|
| + for entry in api_extension_types:
|
| + type = entry.type
|
| + h_code.putln("static PyTypeObject *%s = 0;" % type.typeptr_cname)
|
| + h_code.putln("#define %s (*%s)" % (
|
| + type.typeobj_cname, type.typeptr_cname))
|
| + if api_funcs:
|
| + h_code.putln("")
|
| + for entry in api_funcs:
|
| + type = CPtrType(entry.type)
|
| + cname = env.mangle(Naming.func_prefix, entry.name)
|
| + h_code.putln("static %s = 0;" % type.declaration_code(cname))
|
| + h_code.putln("#define %s %s" % (entry.name, cname))
|
| + if api_vars:
|
| + h_code.putln("")
|
| + for entry in api_vars:
|
| + type = CPtrType(entry.type)
|
| + cname = env.mangle(Naming.varptr_prefix, entry.name)
|
| + h_code.putln("static %s = 0;" % type.declaration_code(cname))
|
| + h_code.putln("#define %s (*%s)" % (entry.name, cname))
|
| + h_code.put(UtilityCode.load_as_string("PyIdentifierFromString", "ImportExport.c")[0])
|
| + h_code.put(UtilityCode.load_as_string("ModuleImport", "ImportExport.c")[1])
|
| + if api_vars:
|
| + h_code.put(UtilityCode.load_as_string("VoidPtrImport", "ImportExport.c")[1])
|
| + if api_funcs:
|
| + h_code.put(UtilityCode.load_as_string("FunctionImport", "ImportExport.c")[1])
|
| + if api_extension_types:
|
| + h_code.put(UtilityCode.load_as_string("TypeImport", "ImportExport.c")[1])
|
| + h_code.putln("")
|
| + h_code.putln("static int import_%s(void) {" % self.api_name(env))
|
| + h_code.putln("PyObject *module = 0;")
|
| + h_code.putln('module = __Pyx_ImportModule("%s");' % env.qualified_name)
|
| + h_code.putln("if (!module) goto bad;")
|
| + for entry in api_funcs:
|
| + cname = env.mangle(Naming.func_prefix, entry.name)
|
| + sig = entry.type.signature_string()
|
| + h_code.putln(
|
| + 'if (__Pyx_ImportFunction(module, "%s", (void (**)(void))&%s, "%s") < 0) goto bad;'
|
| + % (entry.name, cname, sig))
|
| + for entry in api_vars:
|
| + cname = env.mangle(Naming.varptr_prefix, entry.name)
|
| + sig = entry.type.declaration_code("")
|
| + h_code.putln(
|
| + 'if (__Pyx_ImportVoidPtr(module, "%s", (void **)&%s, "%s") < 0) goto bad;'
|
| + % (entry.name, cname, sig))
|
| + h_code.putln("Py_DECREF(module); module = 0;")
|
| + for entry in api_extension_types:
|
| + self.generate_type_import_call(
|
| + entry.type, h_code,
|
| + "if (!%s) goto bad;" % entry.type.typeptr_cname)
|
| + h_code.putln("return 0;")
|
| + h_code.putln("bad:")
|
| + h_code.putln("Py_XDECREF(module);")
|
| + h_code.putln("return -1;")
|
| + h_code.putln("}")
|
| + h_code.putln("")
|
| + h_code.putln("#endif /* !%s */" % api_guard)
|
| +
|
| + f = open_new_file(result.api_file)
|
| + try:
|
| + h_code.copyto(f)
|
| + finally:
|
| + f.close()
|
| +
|
| + def generate_cclass_header_code(self, type, h_code):
|
| + h_code.putln("%s %s %s;" % (
|
| + Naming.extern_c_macro,
|
| + PyrexTypes.public_decl("PyTypeObject", "DL_IMPORT"),
|
| + type.typeobj_cname))
|
| +
|
| + def generate_cclass_include_code(self, type, i_code):
|
| + i_code.putln("cdef extern class %s.%s:" % (
|
| + type.module_name, type.name))
|
| + i_code.indent()
|
| + var_entries = type.scope.var_entries
|
| + if var_entries:
|
| + for entry in var_entries:
|
| + i_code.putln("cdef %s" %
|
| + entry.type.declaration_code(entry.cname, pyrex = 1))
|
| + else:
|
| + i_code.putln("pass")
|
| + i_code.dedent()
|
| +
|
| + def generate_c_code(self, env, options, result):
|
| + modules = self.referenced_modules
|
| +
|
| + if Options.annotate or options.annotate:
|
| + emit_linenums = False
|
| + rootwriter = Annotate.AnnotationCCodeWriter()
|
| + else:
|
| + emit_linenums = options.emit_linenums
|
| + rootwriter = Code.CCodeWriter(emit_linenums=emit_linenums, c_line_in_traceback=options.c_line_in_traceback)
|
| + globalstate = Code.GlobalState(rootwriter, self, emit_linenums, options.common_utility_include_dir)
|
| + globalstate.initialize_main_c_code()
|
| + h_code = globalstate['h_code']
|
| +
|
| + self.generate_module_preamble(env, modules, h_code)
|
| +
|
| + globalstate.module_pos = self.pos
|
| + globalstate.directives = self.directives
|
| +
|
| + globalstate.use_utility_code(refnanny_utility_code)
|
| +
|
| + code = globalstate['before_global_var']
|
| + code.putln('#define __Pyx_MODULE_NAME "%s"' % self.full_module_name)
|
| + code.putln("int %s%s = 0;" % (Naming.module_is_main, self.full_module_name.replace('.', '__')))
|
| + code.putln("")
|
| + code.putln("/* Implementation of '%s' */" % env.qualified_name)
|
| +
|
| + code = globalstate['all_the_rest']
|
| +
|
| + self.generate_cached_builtins_decls(env, code)
|
| + self.generate_lambda_definitions(env, code)
|
| + # generate normal variable and function definitions
|
| + self.generate_variable_definitions(env, code)
|
| + self.body.generate_function_definitions(env, code)
|
| + code.mark_pos(None)
|
| + self.generate_typeobj_definitions(env, code)
|
| + self.generate_method_table(env, code)
|
| + if env.has_import_star:
|
| + self.generate_import_star(env, code)
|
| + self.generate_pymoduledef_struct(env, code)
|
| +
|
| + # init_globals is inserted before this
|
| + self.generate_module_init_func(modules[:-1], env, globalstate['init_module'])
|
| + self.generate_module_cleanup_func(env, globalstate['cleanup_module'])
|
| + if Options.embed:
|
| + self.generate_main_method(env, globalstate['main_method'])
|
| + self.generate_filename_table(globalstate['filename_table'])
|
| +
|
| + self.generate_declarations_for_modules(env, modules, globalstate)
|
| + h_code.write('\n')
|
| +
|
| + for utilcode in env.utility_code_list[:]:
|
| + globalstate.use_utility_code(utilcode)
|
| + globalstate.finalize_main_c_code()
|
| +
|
| + f = open_new_file(result.c_file)
|
| + try:
|
| + rootwriter.copyto(f)
|
| + finally:
|
| + f.close()
|
| + result.c_file_generated = 1
|
| + if options.gdb_debug:
|
| + self._serialize_lineno_map(env, rootwriter)
|
| + if Options.annotate or options.annotate:
|
| + self._generate_annotations(rootwriter, result)
|
| +
|
| + def _generate_annotations(self, rootwriter, result):
|
| + self.annotate(rootwriter)
|
| + rootwriter.save_annotation(result.main_source_file, result.c_file)
|
| +
|
| + # if we included files, additionally generate one annotation file for each
|
| + if not self.scope.included_files:
|
| + return
|
| +
|
| + search_include_file = self.scope.context.search_include_directories
|
| + target_dir = os.path.abspath(os.path.dirname(result.c_file))
|
| + for included_file in self.scope.included_files:
|
| + target_file = os.path.abspath(os.path.join(target_dir, included_file))
|
| + target_file_dir = os.path.dirname(target_file)
|
| + if not target_file_dir.startswith(target_dir):
|
| + # any other directories may not be writable => avoid trying
|
| + continue
|
| + source_file = search_include_file(included_file, "", self.pos, include=True)
|
| + if not source_file:
|
| + continue
|
| + if target_file_dir != target_dir and not os.path.exists(target_file_dir):
|
| + try:
|
| + os.makedirs(target_file_dir)
|
| + except OSError, e:
|
| + import errno
|
| + if e.errno != errno.EEXIST:
|
| + raise
|
| + rootwriter.save_annotation(source_file, target_file)
|
| +
|
| + def _serialize_lineno_map(self, env, ccodewriter):
|
| + tb = env.context.gdb_debug_outputwriter
|
| + markers = ccodewriter.buffer.allmarkers()
|
| +
|
| + d = {}
|
| + for c_lineno, cython_lineno in enumerate(markers):
|
| + if cython_lineno > 0:
|
| + d.setdefault(cython_lineno, []).append(c_lineno + 1)
|
| +
|
| + tb.start('LineNumberMapping')
|
| + for cython_lineno, c_linenos in sorted(d.iteritems()):
|
| + attrs = {
|
| + 'c_linenos': ' '.join(map(str, c_linenos)),
|
| + 'cython_lineno': str(cython_lineno),
|
| + }
|
| + tb.start('LineNumber', attrs)
|
| + tb.end('LineNumber')
|
| + tb.end('LineNumberMapping')
|
| + tb.serialize()
|
| +
|
| + def find_referenced_modules(self, env, module_list, modules_seen):
|
| + if env not in modules_seen:
|
| + modules_seen[env] = 1
|
| + for imported_module in env.cimported_modules:
|
| + self.find_referenced_modules(imported_module, module_list, modules_seen)
|
| + module_list.append(env)
|
| +
|
| + def sort_types_by_inheritance(self, type_dict, type_order, getkey):
|
| + # copy the types into a list moving each parent type before
|
| + # its first child
|
| + type_list = []
|
| + for i, key in enumerate(type_order):
|
| + new_entry = type_dict[key]
|
| +
|
| + # collect all base classes to check for children
|
| + hierarchy = set()
|
| + base = new_entry
|
| + while base:
|
| + base_type = base.type.base_type
|
| + if not base_type:
|
| + break
|
| + base_key = getkey(base_type)
|
| + hierarchy.add(base_key)
|
| + base = type_dict.get(base_key)
|
| + new_entry.base_keys = hierarchy
|
| +
|
| + # find the first (sub-)subclass and insert before that
|
| + for j in range(i):
|
| + entry = type_list[j]
|
| + if key in entry.base_keys:
|
| + type_list.insert(j, new_entry)
|
| + break
|
| + else:
|
| + type_list.append(new_entry)
|
| + return type_list
|
| +
|
| + def sort_type_hierarchy(self, module_list, env):
|
| + # poor developer's OrderedDict
|
| + vtab_dict, vtab_dict_order = {}, []
|
| + vtabslot_dict, vtabslot_dict_order = {}, []
|
| +
|
| + for module in module_list:
|
| + for entry in module.c_class_entries:
|
| + if entry.used and not entry.in_cinclude:
|
| + type = entry.type
|
| + key = type.vtabstruct_cname
|
| + if not key:
|
| + continue
|
| + if key in vtab_dict:
|
| + # FIXME: this should *never* happen, but apparently it does
|
| + # for Cython generated utility code
|
| + from Cython.Compiler.UtilityCode import NonManglingModuleScope
|
| + assert isinstance(entry.scope, NonManglingModuleScope), str(entry.scope)
|
| + assert isinstance(vtab_dict[key].scope, NonManglingModuleScope), str(vtab_dict[key].scope)
|
| + else:
|
| + vtab_dict[key] = entry
|
| + vtab_dict_order.append(key)
|
| + all_defined_here = module is env
|
| + for entry in module.type_entries:
|
| + if entry.used and (all_defined_here or entry.defined_in_pxd):
|
| + type = entry.type
|
| + if type.is_extension_type and not entry.in_cinclude:
|
| + type = entry.type
|
| + key = type.objstruct_cname
|
| + assert key not in vtabslot_dict, key
|
| + vtabslot_dict[key] = entry
|
| + vtabslot_dict_order.append(key)
|
| +
|
| + def vtabstruct_cname(entry_type):
|
| + return entry_type.vtabstruct_cname
|
| + vtab_list = self.sort_types_by_inheritance(
|
| + vtab_dict, vtab_dict_order, vtabstruct_cname)
|
| +
|
| + def objstruct_cname(entry_type):
|
| + return entry_type.objstruct_cname
|
| + vtabslot_list = self.sort_types_by_inheritance(
|
| + vtabslot_dict, vtabslot_dict_order, objstruct_cname)
|
| +
|
| + return (vtab_list, vtabslot_list)
|
| +
|
| + def sort_cdef_classes(self, env):
|
| + key_func = operator.attrgetter('objstruct_cname')
|
| + entry_dict, entry_order = {}, []
|
| + for entry in env.c_class_entries:
|
| + key = key_func(entry.type)
|
| + assert key not in entry_dict, key
|
| + entry_dict[key] = entry
|
| + entry_order.append(key)
|
| + env.c_class_entries[:] = self.sort_types_by_inheritance(
|
| + entry_dict, entry_order, key_func)
|
| +
|
| + def generate_type_definitions(self, env, modules, vtab_list, vtabslot_list, code):
|
| + # TODO: Why are these separated out?
|
| + for entry in vtabslot_list:
|
| + self.generate_objstruct_predeclaration(entry.type, code)
|
| + vtabslot_entries = set(vtabslot_list)
|
| + 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)
|
| + type_entries = [t for t in type_entries if t not in vtabslot_entries]
|
| + self.generate_type_header_code(type_entries, code)
|
| + for entry in vtabslot_list:
|
| + self.generate_objstruct_definition(entry.type, code)
|
| + self.generate_typeobj_predeclaration(entry, code)
|
| + for entry in vtab_list:
|
| + self.generate_typeobj_predeclaration(entry, code)
|
| + self.generate_exttype_vtable_struct(entry, code)
|
| + self.generate_exttype_vtabptr_declaration(entry, code)
|
| + self.generate_exttype_final_methods_declaration(entry, code)
|
| +
|
| + def generate_declarations_for_modules(self, env, modules, globalstate):
|
| + typecode = globalstate['type_declarations']
|
| + typecode.putln("")
|
| + typecode.putln("/*--- Type declarations ---*/")
|
| + # This is to work around the fact that array.h isn't part of the C-API,
|
| + # but we need to declare it earlier than utility code.
|
| + if 'cpython.array' in [m.qualified_name for m in modules]:
|
| + typecode.putln('#ifndef _ARRAYARRAY_H')
|
| + typecode.putln('struct arrayobject;')
|
| + typecode.putln('typedef struct arrayobject arrayobject;')
|
| + typecode.putln('#endif')
|
| + vtab_list, vtabslot_list = self.sort_type_hierarchy(modules, env)
|
| + self.generate_type_definitions(
|
| + env, modules, vtab_list, vtabslot_list, typecode)
|
| + modulecode = globalstate['module_declarations']
|
| + for module in modules:
|
| + defined_here = module is env
|
| + modulecode.putln("")
|
| + modulecode.putln("/* Module declarations from '%s' */" % module.qualified_name)
|
| + self.generate_c_class_declarations(module, modulecode, defined_here)
|
| + self.generate_cvariable_declarations(module, modulecode, defined_here)
|
| + self.generate_cfunction_declarations(module, modulecode, defined_here)
|
| +
|
| + def generate_module_preamble(self, env, cimported_modules, code):
|
| + code.putln("/* Generated by Cython %s */" % Version.watermark)
|
| + code.putln("")
|
| + code.putln("#define PY_SSIZE_T_CLEAN")
|
| +
|
| + # sizeof(PyLongObject.ob_digit[0]) may have been determined dynamically
|
| + # at compile time in CPython, in which case we can't know the correct
|
| + # storage size for an installed system. We can rely on it only if
|
| + # pyconfig.h defines it statically, i.e. if it was set by "configure".
|
| + # Once we include "Python.h", it will come up with its own idea about
|
| + # a suitable value, which may or may not match the real one.
|
| + code.putln("#ifndef CYTHON_USE_PYLONG_INTERNALS")
|
| + code.putln("#ifdef PYLONG_BITS_IN_DIGIT")
|
| + # assume it's an incorrect left-over
|
| + code.putln("#define CYTHON_USE_PYLONG_INTERNALS 0")
|
| + code.putln("#else")
|
| + code.putln('#include "pyconfig.h"')
|
| + code.putln("#ifdef PYLONG_BITS_IN_DIGIT")
|
| + code.putln("#define CYTHON_USE_PYLONG_INTERNALS 1")
|
| + code.putln("#else")
|
| + code.putln("#define CYTHON_USE_PYLONG_INTERNALS 0")
|
| + code.putln("#endif")
|
| + code.putln("#endif")
|
| + code.putln("#endif")
|
| +
|
| + for filename in env.python_include_files:
|
| + code.putln('#include "%s"' % filename)
|
| + code.putln("#ifndef Py_PYTHON_H")
|
| + code.putln(" #error Python headers needed to compile C extensions, please install development version of Python.")
|
| + code.putln("#elif PY_VERSION_HEX < 0x02040000")
|
| + code.putln(" #error Cython requires Python 2.4+.")
|
| + code.putln("#else")
|
| + code.globalstate["end"].putln("#endif /* Py_PYTHON_H */")
|
| +
|
| + from Cython import __version__
|
| + code.putln('#define CYTHON_ABI "%s"' % __version__.replace('.', '_'))
|
| +
|
| + code.put(UtilityCode.load_as_string("CModulePreamble", "ModuleSetupCode.c")[1])
|
| +
|
| + code.put("""
|
| +#if PY_MAJOR_VERSION >= 3
|
| + #define __Pyx_PyNumber_Divide(x,y) PyNumber_TrueDivide(x,y)
|
| + #define __Pyx_PyNumber_InPlaceDivide(x,y) PyNumber_InPlaceTrueDivide(x,y)
|
| +#else
|
| +""")
|
| + if Future.division in env.context.future_directives:
|
| + code.putln(" #define __Pyx_PyNumber_Divide(x,y) PyNumber_TrueDivide(x,y)")
|
| + code.putln(" #define __Pyx_PyNumber_InPlaceDivide(x,y) PyNumber_InPlaceTrueDivide(x,y)")
|
| + else:
|
| + code.putln(" #define __Pyx_PyNumber_Divide(x,y) PyNumber_Divide(x,y)")
|
| + code.putln(" #define __Pyx_PyNumber_InPlaceDivide(x,y) PyNumber_InPlaceDivide(x,y)")
|
| + code.putln("#endif")
|
| +
|
| + code.putln("")
|
| + self.generate_extern_c_macro_definition(code)
|
| + code.putln("")
|
| +
|
| + code.putln("#if defined(WIN32) || defined(MS_WINDOWS)")
|
| + code.putln("#define _USE_MATH_DEFINES")
|
| + code.putln("#endif")
|
| + code.putln("#include <math.h>")
|
| +
|
| + code.putln("#define %s" % Naming.h_guard_prefix + self.api_name(env))
|
| + code.putln("#define %s" % Naming.api_guard_prefix + self.api_name(env))
|
| + self.generate_includes(env, cimported_modules, code)
|
| + code.putln("")
|
| + code.putln("#ifdef PYREX_WITHOUT_ASSERTIONS")
|
| + code.putln("#define CYTHON_WITHOUT_ASSERTIONS")
|
| + code.putln("#endif")
|
| + code.putln("")
|
| +
|
| + if env.directives['ccomplex']:
|
| + code.putln("")
|
| + code.putln("#if !defined(CYTHON_CCOMPLEX)")
|
| + code.putln("#define CYTHON_CCOMPLEX 1")
|
| + code.putln("#endif")
|
| + code.putln("")
|
| + code.put(UtilityCode.load_as_string("UtilityFunctionPredeclarations", "ModuleSetupCode.c")[0])
|
| +
|
| + c_string_type = env.directives['c_string_type']
|
| + c_string_encoding = env.directives['c_string_encoding']
|
| + if c_string_type not in ('bytes', 'bytearray') and not c_string_encoding:
|
| + error(self.pos, "a default encoding must be provided if c_string_type is not a byte type")
|
| + code.putln('#define __PYX_DEFAULT_STRING_ENCODING_IS_ASCII %s' % int(c_string_encoding == 'ascii'))
|
| + if c_string_encoding == 'default':
|
| + code.putln('#define __PYX_DEFAULT_STRING_ENCODING_IS_DEFAULT 1')
|
| + else:
|
| + code.putln('#define __PYX_DEFAULT_STRING_ENCODING_IS_DEFAULT 0')
|
| + code.putln('#define __PYX_DEFAULT_STRING_ENCODING "%s"' % c_string_encoding)
|
| + if c_string_type == 'bytearray':
|
| + c_string_func_name = 'ByteArray'
|
| + else:
|
| + c_string_func_name = c_string_type.title()
|
| + code.putln('#define __Pyx_PyObject_FromString __Pyx_Py%s_FromString' % c_string_func_name)
|
| + code.putln('#define __Pyx_PyObject_FromStringAndSize __Pyx_Py%s_FromStringAndSize' % c_string_func_name)
|
| + code.put(UtilityCode.load_as_string("TypeConversions", "TypeConversion.c")[0])
|
| +
|
| + # These utility functions are assumed to exist and used elsewhere.
|
| + PyrexTypes.c_long_type.create_to_py_utility_code(env)
|
| + PyrexTypes.c_long_type.create_from_py_utility_code(env)
|
| + PyrexTypes.c_int_type.create_from_py_utility_code(env)
|
| +
|
| + code.put(Nodes.branch_prediction_macros)
|
| + code.putln('')
|
| + code.putln('static PyObject *%s;' % env.module_cname)
|
| + code.putln('static PyObject *%s;' % env.module_dict_cname)
|
| + code.putln('static PyObject *%s;' % Naming.builtins_cname)
|
| + code.putln('static PyObject *%s;' % Naming.empty_tuple)
|
| + code.putln('static PyObject *%s;' % Naming.empty_bytes)
|
| + if Options.pre_import is not None:
|
| + code.putln('static PyObject *%s;' % Naming.preimport_cname)
|
| + code.putln('static int %s;' % Naming.lineno_cname)
|
| + code.putln('static int %s = 0;' % Naming.clineno_cname)
|
| + code.putln('static const char * %s= %s;' % (Naming.cfilenm_cname, Naming.file_c_macro))
|
| + code.putln('static const char *%s;' % Naming.filename_cname)
|
| +
|
| + def generate_extern_c_macro_definition(self, code):
|
| + name = Naming.extern_c_macro
|
| + code.putln("#ifndef %s" % name)
|
| + code.putln(" #ifdef __cplusplus")
|
| + code.putln(' #define %s extern "C"' % name)
|
| + code.putln(" #else")
|
| + code.putln(" #define %s extern" % name)
|
| + code.putln(" #endif")
|
| + code.putln("#endif")
|
| +
|
| + def generate_includes(self, env, cimported_modules, code):
|
| + includes = []
|
| + for filename in env.include_files:
|
| + byte_decoded_filenname = str(filename)
|
| + if byte_decoded_filenname[0] == '<' and byte_decoded_filenname[-1] == '>':
|
| + code.putln('#include %s' % byte_decoded_filenname)
|
| + else:
|
| + code.putln('#include "%s"' % byte_decoded_filenname)
|
| +
|
| + code.putln_openmp("#include <omp.h>")
|
| +
|
| + def generate_filename_table(self, code):
|
| + code.putln("")
|
| + code.putln("static const char *%s[] = {" % Naming.filetable_cname)
|
| + if code.globalstate.filename_list:
|
| + for source_desc in code.globalstate.filename_list:
|
| + filename = os.path.basename(source_desc.get_filenametable_entry())
|
| + escaped_filename = filename.replace("\\", "\\\\").replace('"', r'\"')
|
| + code.putln('"%s",' % escaped_filename)
|
| + else:
|
| + # Some C compilers don't like an empty array
|
| + code.putln("0")
|
| + code.putln("};")
|
| +
|
| + 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?
|
| + # Forward declarations
|
| + for entry in type_entries:
|
| + if not entry.in_cinclude:
|
| + #print "generate_type_header_code:", entry.name, repr(entry.type) ###
|
| + type = entry.type
|
| + if type.is_typedef: # Must test this first!
|
| + pass
|
| + elif type.is_struct_or_union or type.is_cpp_class:
|
| + self.generate_struct_union_predeclaration(entry, code)
|
| + elif type.is_extension_type:
|
| + self.generate_objstruct_predeclaration(type, code)
|
| + # Actual declarations
|
| + for entry in type_entries:
|
| + if not entry.in_cinclude:
|
| + #print "generate_type_header_code:", entry.name, repr(entry.type) ###
|
| + type = entry.type
|
| + if type.is_typedef: # Must test this first!
|
| + self.generate_typedef(entry, code)
|
| + elif type.is_enum:
|
| + self.generate_enum_definition(entry, code)
|
| + elif type.is_struct_or_union:
|
| + self.generate_struct_union_definition(entry, code)
|
| + elif type.is_cpp_class:
|
| + self.generate_cpp_class_definition(entry, code)
|
| + elif type.is_extension_type:
|
| + self.generate_objstruct_definition(type, code)
|
| +
|
| + def generate_gcc33_hack(self, env, code):
|
| + # Workaround for spurious warning generation in gcc 3.3
|
| + code.putln("")
|
| + for entry in env.c_class_entries:
|
| + type = entry.type
|
| + if not type.typedef_flag:
|
| + name = type.objstruct_cname
|
| + if name.startswith("__pyx_"):
|
| + tail = name[6:]
|
| + else:
|
| + tail = name
|
| + code.putln("typedef struct %s __pyx_gcc33_%s;" % (
|
| + name, tail))
|
| +
|
| + def generate_typedef(self, entry, code):
|
| + base_type = entry.type.typedef_base_type
|
| + if base_type.is_numeric:
|
| + try:
|
| + writer = code.globalstate['numeric_typedefs']
|
| + except KeyError:
|
| + writer = code
|
| + else:
|
| + writer = code
|
| + writer.mark_pos(entry.pos)
|
| + writer.putln("typedef %s;" % base_type.declaration_code(entry.cname))
|
| +
|
| + def sue_predeclaration(self, type, kind, name):
|
| + if type.typedef_flag:
|
| + return "%s %s;\ntypedef %s %s %s;" % (
|
| + kind, name,
|
| + kind, name, name)
|
| + else:
|
| + return "%s %s;" % (kind, name)
|
| +
|
| + def generate_struct_union_predeclaration(self, entry, code):
|
| + type = entry.type
|
| + if type.is_cpp_class and type.templates:
|
| + code.putln("template <typename %s>" % ", typename ".join([T.declaration_code("") for T in type.templates]))
|
| + code.putln(self.sue_predeclaration(type, type.kind, type.cname))
|
| +
|
| + def sue_header_footer(self, type, kind, name):
|
| + header = "%s %s {" % (kind, name)
|
| + footer = "};"
|
| + return header, footer
|
| +
|
| + def generate_struct_union_definition(self, entry, code):
|
| + code.mark_pos(entry.pos)
|
| + type = entry.type
|
| + scope = type.scope
|
| + if scope:
|
| + kind = type.kind
|
| + packed = type.is_struct and type.packed
|
| + if packed:
|
| + kind = "%s %s" % (type.kind, "__Pyx_PACKED")
|
| + code.globalstate.use_utility_code(packed_struct_utility_code)
|
| + header, footer = \
|
| + self.sue_header_footer(type, kind, type.cname)
|
| + if packed:
|
| + code.putln("#if defined(__SUNPRO_C)")
|
| + code.putln(" #pragma pack(1)")
|
| + code.putln("#elif !defined(__GNUC__)")
|
| + code.putln(" #pragma pack(push, 1)")
|
| + code.putln("#endif")
|
| + code.putln(header)
|
| + var_entries = scope.var_entries
|
| + if not var_entries:
|
| + error(entry.pos,
|
| + "Empty struct or union definition not allowed outside a"
|
| + " 'cdef extern from' block")
|
| + for attr in var_entries:
|
| + code.putln(
|
| + "%s;" %
|
| + attr.type.declaration_code(attr.cname))
|
| + code.putln(footer)
|
| + if packed:
|
| + code.putln("#if defined(__SUNPRO_C)")
|
| + code.putln(" #pragma pack()")
|
| + code.putln("#elif !defined(__GNUC__)")
|
| + code.putln(" #pragma pack(pop)")
|
| + code.putln("#endif")
|
| +
|
| + def generate_cpp_class_definition(self, entry, code):
|
| + code.mark_pos(entry.pos)
|
| + type = entry.type
|
| + scope = type.scope
|
| + if scope:
|
| + if type.templates:
|
| + code.putln("template <class %s>" % ", class ".join([T.declaration_code("") for T in type.templates]))
|
| + # Just let everything be public.
|
| + code.put("struct %s" % type.cname)
|
| + if type.base_classes:
|
| + base_class_decl = ", public ".join(
|
| + [base_class.declaration_code("") for base_class in type.base_classes])
|
| + code.put(" : public %s" % base_class_decl)
|
| + code.putln(" {")
|
| + has_virtual_methods = False
|
| + has_destructor = False
|
| + for attr in scope.var_entries:
|
| + if attr.type.is_cfunction and attr.name != "<init>":
|
| + code.put("virtual ")
|
| + has_virtual_methods = True
|
| + if attr.cname[0] == '~':
|
| + has_destructor = True
|
| + code.putln(
|
| + "%s;" %
|
| + attr.type.declaration_code(attr.cname))
|
| + if has_virtual_methods and not has_destructor:
|
| + code.put("virtual ~%s() { }" % type.cname)
|
| + code.putln("};")
|
| +
|
| + def generate_enum_definition(self, entry, code):
|
| + code.mark_pos(entry.pos)
|
| + type = entry.type
|
| + name = entry.cname or entry.name or ""
|
| + header, footer = \
|
| + self.sue_header_footer(type, "enum", name)
|
| + code.putln(header)
|
| + enum_values = entry.enum_values
|
| + if not enum_values:
|
| + error(entry.pos,
|
| + "Empty enum definition not allowed outside a"
|
| + " 'cdef extern from' block")
|
| + else:
|
| + last_entry = enum_values[-1]
|
| + # this does not really generate code, just builds the result value
|
| + for value_entry in enum_values:
|
| + if value_entry.value_node is not None:
|
| + value_entry.value_node.generate_evaluation_code(code)
|
| +
|
| + for value_entry in enum_values:
|
| + if value_entry.value_node is None:
|
| + value_code = value_entry.cname
|
| + else:
|
| + value_code = ("%s = %s" % (
|
| + value_entry.cname,
|
| + value_entry.value_node.result()))
|
| + if value_entry is not last_entry:
|
| + value_code += ","
|
| + code.putln(value_code)
|
| + code.putln(footer)
|
| + if entry.type.typedef_flag:
|
| + # Not pre-declared.
|
| + code.putln("typedef enum %s %s;" % (name, name))
|
| +
|
| + def generate_typeobj_predeclaration(self, entry, code):
|
| + code.putln("")
|
| + name = entry.type.typeobj_cname
|
| + if name:
|
| + if entry.visibility == 'extern' and not entry.in_cinclude:
|
| + code.putln("%s %s %s;" % (
|
| + Naming.extern_c_macro,
|
| + PyrexTypes.public_decl("PyTypeObject", "DL_IMPORT"),
|
| + name))
|
| + elif entry.visibility == 'public':
|
| + code.putln("%s %s %s;" % (
|
| + Naming.extern_c_macro,
|
| + PyrexTypes.public_decl("PyTypeObject", "DL_EXPORT"),
|
| + name))
|
| + # ??? Do we really need the rest of this? ???
|
| + #else:
|
| + # code.putln("static PyTypeObject %s;" % name)
|
| +
|
| + def generate_exttype_vtable_struct(self, entry, code):
|
| + if not entry.used:
|
| + return
|
| +
|
| + code.mark_pos(entry.pos)
|
| + # Generate struct declaration for an extension type's vtable.
|
| + type = entry.type
|
| + scope = type.scope
|
| +
|
| + self.specialize_fused_types(scope)
|
| +
|
| + if type.vtabstruct_cname:
|
| + code.putln("")
|
| + code.putln(
|
| + "struct %s {" %
|
| + type.vtabstruct_cname)
|
| + if type.base_type and type.base_type.vtabstruct_cname:
|
| + code.putln("struct %s %s;" % (
|
| + type.base_type.vtabstruct_cname,
|
| + Naming.obj_base_cname))
|
| + for method_entry in scope.cfunc_entries:
|
| + if not method_entry.is_inherited:
|
| + code.putln(
|
| + "%s;" % method_entry.type.declaration_code("(*%s)" % method_entry.cname))
|
| + code.putln(
|
| + "};")
|
| +
|
| + def generate_exttype_vtabptr_declaration(self, entry, code):
|
| + if not entry.used:
|
| + return
|
| +
|
| + code.mark_pos(entry.pos)
|
| + # Generate declaration of pointer to an extension type's vtable.
|
| + type = entry.type
|
| + if type.vtabptr_cname:
|
| + code.putln("static struct %s *%s;" % (
|
| + type.vtabstruct_cname,
|
| + type.vtabptr_cname))
|
| +
|
| + def generate_exttype_final_methods_declaration(self, entry, code):
|
| + if not entry.used:
|
| + return
|
| +
|
| + code.mark_pos(entry.pos)
|
| + # Generate final methods prototypes
|
| + type = entry.type
|
| + for method_entry in entry.type.scope.cfunc_entries:
|
| + if not method_entry.is_inherited and method_entry.final_func_cname:
|
| + declaration = method_entry.type.declaration_code(
|
| + method_entry.final_func_cname)
|
| + modifiers = code.build_function_modifiers(method_entry.func_modifiers)
|
| + code.putln("static %s%s;" % (modifiers, declaration))
|
| +
|
| + def generate_objstruct_predeclaration(self, type, code):
|
| + if not type.scope:
|
| + return
|
| + code.putln(self.sue_predeclaration(type, "struct", type.objstruct_cname))
|
| +
|
| + def generate_objstruct_definition(self, type, code):
|
| + code.mark_pos(type.pos)
|
| + # Generate object struct definition for an
|
| + # extension type.
|
| + if not type.scope:
|
| + return # Forward declared but never defined
|
| + header, footer = \
|
| + self.sue_header_footer(type, "struct", type.objstruct_cname)
|
| + code.putln(header)
|
| + base_type = type.base_type
|
| + if base_type:
|
| + basestruct_cname = base_type.objstruct_cname
|
| + if basestruct_cname == "PyTypeObject":
|
| + # User-defined subclasses of type are heap allocated.
|
| + basestruct_cname = "PyHeapTypeObject"
|
| + code.putln(
|
| + "%s%s %s;" % (
|
| + ("struct ", "")[base_type.typedef_flag],
|
| + basestruct_cname,
|
| + Naming.obj_base_cname))
|
| + else:
|
| + code.putln(
|
| + "PyObject_HEAD")
|
| + if type.vtabslot_cname and not (type.base_type and type.base_type.vtabslot_cname):
|
| + code.putln(
|
| + "struct %s *%s;" % (
|
| + type.vtabstruct_cname,
|
| + type.vtabslot_cname))
|
| + for attr in type.scope.var_entries:
|
| + if attr.is_declared_generic:
|
| + attr_type = py_object_type
|
| + else:
|
| + attr_type = attr.type
|
| + code.putln(
|
| + "%s;" %
|
| + attr_type.declaration_code(attr.cname))
|
| + code.putln(footer)
|
| + if type.objtypedef_cname is not None:
|
| + # Only for exposing public typedef name.
|
| + code.putln("typedef struct %s %s;" % (type.objstruct_cname, type.objtypedef_cname))
|
| +
|
| + def generate_c_class_declarations(self, env, code, definition):
|
| + for entry in env.c_class_entries:
|
| + if definition or entry.defined_in_pxd:
|
| + code.putln("static PyTypeObject *%s = 0;" %
|
| + entry.type.typeptr_cname)
|
| +
|
| + def generate_cvariable_declarations(self, env, code, definition):
|
| + if env.is_cython_builtin:
|
| + return
|
| + for entry in env.var_entries:
|
| + if (entry.in_cinclude or entry.in_closure or
|
| + (entry.visibility == 'private' and
|
| + not (entry.defined_in_pxd or entry.used))):
|
| + continue
|
| +
|
| + storage_class = None
|
| + dll_linkage = None
|
| + cname = None
|
| + init = None
|
| +
|
| + if entry.visibility == 'extern':
|
| + storage_class = Naming.extern_c_macro
|
| + dll_linkage = "DL_IMPORT"
|
| + elif entry.visibility == 'public':
|
| + storage_class = Naming.extern_c_macro
|
| + if definition:
|
| + dll_linkage = "DL_EXPORT"
|
| + else:
|
| + dll_linkage = "DL_IMPORT"
|
| + elif entry.visibility == 'private':
|
| + storage_class = "static"
|
| + dll_linkage = None
|
| + if entry.init is not None:
|
| + init = entry.type.literal_code(entry.init)
|
| + type = entry.type
|
| + cname = entry.cname
|
| +
|
| + if entry.defined_in_pxd and not definition:
|
| + storage_class = "static"
|
| + dll_linkage = None
|
| + type = CPtrType(type)
|
| + cname = env.mangle(Naming.varptr_prefix, entry.name)
|
| + init = 0
|
| +
|
| + if storage_class:
|
| + code.put("%s " % storage_class)
|
| + code.put(type.declaration_code(
|
| + cname, dll_linkage = dll_linkage))
|
| + if init is not None:
|
| + code.put_safe(" = %s" % init)
|
| + code.putln(";")
|
| + if entry.cname != cname:
|
| + code.putln("#define %s (*%s)" % (entry.cname, cname))
|
| +
|
| + def generate_cfunction_declarations(self, env, code, definition):
|
| + for entry in env.cfunc_entries:
|
| + if entry.used or (entry.visibility == 'public' or entry.api):
|
| + generate_cfunction_declaration(entry, env, code, definition)
|
| +
|
| + def generate_variable_definitions(self, env, code):
|
| + for entry in env.var_entries:
|
| + if (not entry.in_cinclude and
|
| + entry.visibility == "public"):
|
| + code.put(entry.type.declaration_code(entry.cname))
|
| + if entry.init is not None:
|
| + init = entry.type.literal_code(entry.init)
|
| + code.put_safe(" = %s" % init)
|
| + code.putln(";")
|
| +
|
| + def generate_typeobj_definitions(self, env, code):
|
| + full_module_name = env.qualified_name
|
| + for entry in env.c_class_entries:
|
| + #print "generate_typeobj_definitions:", entry.name
|
| + #print "...visibility =", entry.visibility
|
| + if entry.visibility != 'extern':
|
| + type = entry.type
|
| + scope = type.scope
|
| + if scope: # could be None if there was an error
|
| + self.generate_exttype_vtable(scope, code)
|
| + self.generate_new_function(scope, code, entry)
|
| + self.generate_dealloc_function(scope, code)
|
| + if scope.needs_gc():
|
| + self.generate_traverse_function(scope, code, entry)
|
| + if scope.needs_tp_clear():
|
| + self.generate_clear_function(scope, code, entry)
|
| + if scope.defines_any(["__getitem__"]):
|
| + self.generate_getitem_int_function(scope, code)
|
| + if scope.defines_any(["__setitem__", "__delitem__"]):
|
| + self.generate_ass_subscript_function(scope, code)
|
| + if scope.defines_any(["__getslice__", "__setslice__", "__delslice__"]):
|
| + warning(self.pos, "__getslice__, __setslice__, and __delslice__ are not supported by Python 3, use __getitem__, __setitem__, and __delitem__ instead", 1)
|
| + code.putln("#if PY_MAJOR_VERSION >= 3")
|
| + code.putln("#error __getslice__, __setslice__, and __delslice__ not supported in Python 3.")
|
| + code.putln("#endif")
|
| + if scope.defines_any(["__setslice__", "__delslice__"]):
|
| + self.generate_ass_slice_function(scope, code)
|
| + if scope.defines_any(["__getattr__","__getattribute__"]):
|
| + self.generate_getattro_function(scope, code)
|
| + if scope.defines_any(["__setattr__", "__delattr__"]):
|
| + self.generate_setattro_function(scope, code)
|
| + if scope.defines_any(["__get__"]):
|
| + self.generate_descr_get_function(scope, code)
|
| + if scope.defines_any(["__set__", "__delete__"]):
|
| + self.generate_descr_set_function(scope, code)
|
| + self.generate_property_accessors(scope, code)
|
| + self.generate_method_table(scope, code)
|
| + self.generate_getset_table(scope, code)
|
| + self.generate_typeobj_definition(full_module_name, entry, code)
|
| +
|
| + def generate_exttype_vtable(self, scope, code):
|
| + # Generate the definition of an extension type's vtable.
|
| + type = scope.parent_type
|
| + if type.vtable_cname:
|
| + code.putln("static struct %s %s;" % (
|
| + type.vtabstruct_cname,
|
| + type.vtable_cname))
|
| +
|
| + def generate_self_cast(self, scope, code):
|
| + type = scope.parent_type
|
| + code.putln(
|
| + "%s = (%s)o;" % (
|
| + type.declaration_code("p"),
|
| + type.declaration_code("")))
|
| +
|
| + def generate_new_function(self, scope, code, cclass_entry):
|
| + tp_slot = TypeSlots.ConstructorSlot("tp_new", '__new__')
|
| + slot_func = scope.mangle_internal("tp_new")
|
| + type = scope.parent_type
|
| + base_type = type.base_type
|
| +
|
| + have_entries, (py_attrs, py_buffers, memoryview_slices) = \
|
| + scope.get_refcounted_entries()
|
| + is_final_type = scope.parent_type.is_final_type
|
| + if scope.is_internal:
|
| + # internal classes (should) never need None inits, normal zeroing will do
|
| + py_attrs = []
|
| + cpp_class_attrs = [entry for entry in scope.var_entries
|
| + if entry.type.is_cpp_class]
|
| +
|
| + new_func_entry = scope.lookup_here("__new__")
|
| + if base_type or (new_func_entry and new_func_entry.is_special
|
| + and not new_func_entry.trivial_signature):
|
| + unused_marker = ''
|
| + else:
|
| + unused_marker = 'CYTHON_UNUSED '
|
| +
|
| + if base_type:
|
| + freelist_size = 0 # not currently supported
|
| + else:
|
| + freelist_size = scope.directives.get('freelist', 0)
|
| + freelist_name = scope.mangle_internal(Naming.freelist_name)
|
| + freecount_name = scope.mangle_internal(Naming.freecount_name)
|
| +
|
| + decls = code.globalstate['decls']
|
| + decls.putln("static PyObject *%s(PyTypeObject *t, PyObject *a, PyObject *k); /*proto*/" %
|
| + slot_func)
|
| + code.putln("")
|
| + if freelist_size:
|
| + code.putln("static %s[%d];" % (
|
| + scope.parent_type.declaration_code(freelist_name),
|
| + freelist_size))
|
| + code.putln("static int %s = 0;" % freecount_name)
|
| + code.putln("")
|
| + code.putln(
|
| + "static PyObject *%s(PyTypeObject *t, %sPyObject *a, %sPyObject *k) {"
|
| + % (slot_func, unused_marker, unused_marker))
|
| +
|
| + need_self_cast = (type.vtabslot_cname or
|
| + (py_buffers or memoryview_slices or py_attrs) or
|
| + cpp_class_attrs)
|
| + if need_self_cast:
|
| + code.putln("%s;" % scope.parent_type.declaration_code("p"))
|
| + if base_type:
|
| + tp_new = TypeSlots.get_base_slot_function(scope, tp_slot)
|
| + if tp_new is None:
|
| + tp_new = "%s->tp_new" % base_type.typeptr_cname
|
| + code.putln("PyObject *o = %s(t, a, k);" % tp_new)
|
| + else:
|
| + code.putln("PyObject *o;")
|
| + if freelist_size:
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached("IncludeStringH", "StringTools.c"))
|
| + if is_final_type:
|
| + type_safety_check = ''
|
| + else:
|
| + type_safety_check = ' & ((t->tp_flags & (Py_TPFLAGS_IS_ABSTRACT | Py_TPFLAGS_HEAPTYPE)) == 0)'
|
| + obj_struct = type.declaration_code("", deref=True)
|
| + code.putln("if (CYTHON_COMPILING_IN_CPYTHON && likely((%s > 0) & (t->tp_basicsize == sizeof(%s))%s)) {" % (
|
| + freecount_name, obj_struct, type_safety_check))
|
| + code.putln("o = (PyObject*)%s[--%s];" % (
|
| + freelist_name, freecount_name))
|
| + code.putln("memset(o, 0, sizeof(%s));" % obj_struct)
|
| + code.putln("(void) PyObject_INIT(o, t);")
|
| + if scope.needs_gc():
|
| + code.putln("PyObject_GC_Track(o);")
|
| + code.putln("} else {")
|
| + if not is_final_type:
|
| + code.putln("if (likely((t->tp_flags & Py_TPFLAGS_IS_ABSTRACT) == 0)) {")
|
| + code.putln("o = (*t->tp_alloc)(t, 0);")
|
| + if not is_final_type:
|
| + code.putln("} else {")
|
| + code.putln("o = (PyObject *) PyBaseObject_Type.tp_new(t, %s, 0);" % Naming.empty_tuple)
|
| + code.putln("}")
|
| + code.putln("if (unlikely(!o)) return 0;")
|
| + if freelist_size and not base_type:
|
| + code.putln('}')
|
| + if need_self_cast:
|
| + code.putln("p = %s;" % type.cast_code("o"))
|
| + #if need_self_cast:
|
| + # self.generate_self_cast(scope, code)
|
| + if type.vtabslot_cname:
|
| + vtab_base_type = type
|
| + while vtab_base_type.base_type and vtab_base_type.base_type.vtabstruct_cname:
|
| + vtab_base_type = vtab_base_type.base_type
|
| + if vtab_base_type is not type:
|
| + struct_type_cast = "(struct %s*)" % vtab_base_type.vtabstruct_cname
|
| + else:
|
| + struct_type_cast = ""
|
| + code.putln("p->%s = %s%s;" % (
|
| + type.vtabslot_cname,
|
| + struct_type_cast, type.vtabptr_cname))
|
| +
|
| + for entry in cpp_class_attrs:
|
| + code.putln("new((void*)&(p->%s)) %s();" %
|
| + (entry.cname, entry.type.declaration_code("")))
|
| +
|
| + for entry in py_attrs:
|
| + code.put_init_var_to_py_none(entry, "p->%s", nanny=False)
|
| +
|
| + for entry in memoryview_slices:
|
| + code.putln("p->%s.data = NULL;" % entry.cname)
|
| + code.putln("p->%s.memview = NULL;" % entry.cname)
|
| +
|
| + for entry in py_buffers:
|
| + code.putln("p->%s.obj = NULL;" % entry.cname)
|
| +
|
| + if cclass_entry.cname == '__pyx_memoryviewslice':
|
| + code.putln("p->from_slice.memview = NULL;")
|
| +
|
| + if new_func_entry and new_func_entry.is_special:
|
| + if new_func_entry.trivial_signature:
|
| + cinit_args = "o, %s, NULL" % Naming.empty_tuple
|
| + else:
|
| + cinit_args = "o, a, k"
|
| + code.putln(
|
| + "if (unlikely(%s(%s) < 0)) {" %
|
| + (new_func_entry.func_cname, cinit_args))
|
| + code.put_decref_clear("o", py_object_type, nanny=False)
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "return o;")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_dealloc_function(self, scope, code):
|
| + tp_slot = TypeSlots.ConstructorSlot("tp_dealloc", '__dealloc__')
|
| + slot_func = scope.mangle_internal("tp_dealloc")
|
| + base_type = scope.parent_type.base_type
|
| + if tp_slot.slot_code(scope) != slot_func:
|
| + return # never used
|
| +
|
| + slot_func_cname = scope.mangle_internal("tp_dealloc")
|
| + code.putln("")
|
| + code.putln(
|
| + "static void %s(PyObject *o) {" % slot_func_cname)
|
| +
|
| + is_final_type = scope.parent_type.is_final_type
|
| + needs_gc = scope.needs_gc()
|
| +
|
| + weakref_slot = scope.lookup_here("__weakref__")
|
| + if weakref_slot not in scope.var_entries:
|
| + weakref_slot = None
|
| +
|
| + _, (py_attrs, _, memoryview_slices) = scope.get_refcounted_entries()
|
| + cpp_class_attrs = [entry for entry in scope.var_entries
|
| + if entry.type.is_cpp_class]
|
| +
|
| + if py_attrs or cpp_class_attrs or memoryview_slices or weakref_slot:
|
| + self.generate_self_cast(scope, code)
|
| +
|
| + if not is_final_type:
|
| + # in Py3.4+, call tp_finalize() as early as possible
|
| + code.putln("#if PY_VERSION_HEX >= 0x030400a1")
|
| + if needs_gc:
|
| + finalised_check = '!_PyGC_FINALIZED(o)'
|
| + else:
|
| + finalised_check = (
|
| + '(!PyType_IS_GC(Py_TYPE(o)) || !_PyGC_FINALIZED(o))')
|
| + code.putln("if (unlikely(Py_TYPE(o)->tp_finalize) && %s) {" %
|
| + finalised_check)
|
| + # if instance was resurrected by finaliser, return
|
| + code.putln("if (PyObject_CallFinalizerFromDealloc(o)) return;")
|
| + code.putln("}")
|
| + code.putln("#endif")
|
| +
|
| + if needs_gc:
|
| + # We must mark this object as (gc) untracked while tearing
|
| + # it down, lest the garbage collection is invoked while
|
| + # running this destructor.
|
| + code.putln("PyObject_GC_UnTrack(o);")
|
| +
|
| + # call the user's __dealloc__
|
| + self.generate_usr_dealloc_call(scope, code)
|
| +
|
| + if weakref_slot:
|
| + code.putln("if (p->__weakref__) PyObject_ClearWeakRefs(o);")
|
| +
|
| + for entry in cpp_class_attrs:
|
| + code.putln("__Pyx_call_destructor(&p->%s);" % entry.cname)
|
| +
|
| + for entry in py_attrs:
|
| + code.put_xdecref_clear("p->%s" % entry.cname, entry.type, nanny=False,
|
| + clear_before_decref=True)
|
| +
|
| + for entry in memoryview_slices:
|
| + code.put_xdecref_memoryviewslice("p->%s" % entry.cname,
|
| + have_gil=True)
|
| +
|
| + if base_type:
|
| + if needs_gc:
|
| + # The base class deallocator probably expects this to be tracked,
|
| + # so undo the untracking above.
|
| + if base_type.scope and base_type.scope.needs_gc():
|
| + code.putln("PyObject_GC_Track(o);")
|
| + else:
|
| + code.putln("#if CYTHON_COMPILING_IN_CPYTHON")
|
| + code.putln("if (PyType_IS_GC(Py_TYPE(o)->tp_base))")
|
| + code.putln("#endif")
|
| + code.putln("PyObject_GC_Track(o);")
|
| +
|
| + tp_dealloc = TypeSlots.get_base_slot_function(scope, tp_slot)
|
| + if tp_dealloc is not None:
|
| + code.putln("%s(o);" % tp_dealloc)
|
| + elif base_type.is_builtin_type:
|
| + code.putln("%s->tp_dealloc(o);" % base_type.typeptr_cname)
|
| + else:
|
| + # This is an externally defined type. Calling through the
|
| + # cimported base type pointer directly interacts badly with
|
| + # the module cleanup, which may already have cleared it.
|
| + # In that case, fall back to traversing the type hierarchy.
|
| + base_cname = base_type.typeptr_cname
|
| + code.putln("if (likely(%s)) %s->tp_dealloc(o); "
|
| + "else __Pyx_call_next_tp_dealloc(o, %s);" % (
|
| + base_cname, base_cname, slot_func_cname))
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached("CallNextTpDealloc", "ExtensionTypes.c"))
|
| + else:
|
| + freelist_size = scope.directives.get('freelist', 0)
|
| + if freelist_size:
|
| + freelist_name = scope.mangle_internal(Naming.freelist_name)
|
| + freecount_name = scope.mangle_internal(Naming.freecount_name)
|
| +
|
| + if is_final_type:
|
| + type_safety_check = ''
|
| + else:
|
| + type_safety_check = (
|
| + ' & ((Py_TYPE(o)->tp_flags & (Py_TPFLAGS_IS_ABSTRACT | Py_TPFLAGS_HEAPTYPE)) == 0)')
|
| +
|
| + type = scope.parent_type
|
| + code.putln("if (CYTHON_COMPILING_IN_CPYTHON && ((%s < %d) & (Py_TYPE(o)->tp_basicsize == sizeof(%s))%s)) {" % (
|
| + freecount_name, freelist_size, type.declaration_code("", deref=True),
|
| + type_safety_check))
|
| + code.putln("%s[%s++] = %s;" % (
|
| + freelist_name, freecount_name, type.cast_code("o")))
|
| + code.putln("} else {")
|
| + code.putln("(*Py_TYPE(o)->tp_free)(o);")
|
| + if freelist_size:
|
| + code.putln("}")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_usr_dealloc_call(self, scope, code):
|
| + entry = scope.lookup_here("__dealloc__")
|
| + if not entry:
|
| + return
|
| +
|
| + code.putln("{")
|
| + code.putln("PyObject *etype, *eval, *etb;")
|
| + code.putln("PyErr_Fetch(&etype, &eval, &etb);")
|
| + code.putln("++Py_REFCNT(o);")
|
| + code.putln("%s(o);" % entry.func_cname)
|
| + code.putln("--Py_REFCNT(o);")
|
| + code.putln("PyErr_Restore(etype, eval, etb);")
|
| + code.putln("}")
|
| +
|
| + def generate_traverse_function(self, scope, code, cclass_entry):
|
| + tp_slot = TypeSlots.GCDependentSlot("tp_traverse")
|
| + slot_func = scope.mangle_internal("tp_traverse")
|
| + base_type = scope.parent_type.base_type
|
| + if tp_slot.slot_code(scope) != slot_func:
|
| + return # never used
|
| + code.putln("")
|
| + code.putln(
|
| + "static int %s(PyObject *o, visitproc v, void *a) {"
|
| + % slot_func)
|
| +
|
| + have_entries, (py_attrs, py_buffers, memoryview_slices) = (
|
| + scope.get_refcounted_entries(include_gc_simple=False))
|
| +
|
| + if base_type or py_attrs:
|
| + code.putln("int e;")
|
| +
|
| + if py_attrs or py_buffers:
|
| + self.generate_self_cast(scope, code)
|
| +
|
| + if base_type:
|
| + # want to call it explicitly if possible so inlining can be performed
|
| + static_call = TypeSlots.get_base_slot_function(scope, tp_slot)
|
| + if static_call:
|
| + code.putln("e = %s(o, v, a); if (e) return e;" % static_call)
|
| + elif base_type.is_builtin_type:
|
| + base_cname = base_type.typeptr_cname
|
| + code.putln("if (!%s->tp_traverse); else { e = %s->tp_traverse(o,v,a); if (e) return e; }" % (
|
| + base_cname, base_cname))
|
| + else:
|
| + # This is an externally defined type. Calling through the
|
| + # cimported base type pointer directly interacts badly with
|
| + # the module cleanup, which may already have cleared it.
|
| + # In that case, fall back to traversing the type hierarchy.
|
| + base_cname = base_type.typeptr_cname
|
| + code.putln("e = ((likely(%s)) ? ((%s->tp_traverse) ? %s->tp_traverse(o, v, a) : 0) : __Pyx_call_next_tp_traverse(o, v, a, %s)); if (e) return e;" % (
|
| + base_cname, base_cname, base_cname, slot_func))
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached("CallNextTpTraverse", "ExtensionTypes.c"))
|
| +
|
| + for entry in py_attrs:
|
| + var_code = "p->%s" % entry.cname
|
| + code.putln(
|
| + "if (%s) {"
|
| + % var_code)
|
| + if entry.type.is_extension_type:
|
| + var_code = "((PyObject*)%s)" % var_code
|
| + code.putln(
|
| + "e = (*v)(%s, a); if (e) return e;"
|
| + % var_code)
|
| + code.putln(
|
| + "}")
|
| +
|
| + # Traverse buffer exporting objects.
|
| + # Note: not traversing memoryview attributes of memoryview slices!
|
| + # When triggered by the GC, it would cause multiple visits (gc_refs
|
| + # subtractions which is not matched by its reference count!)
|
| + for entry in py_buffers:
|
| + cname = entry.cname + ".obj"
|
| + code.putln("if (p->%s) {" % cname)
|
| + code.putln( "e = (*v)(p->%s, a); if (e) return e;" % cname)
|
| + code.putln("}")
|
| +
|
| + code.putln(
|
| + "return 0;")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_clear_function(self, scope, code, cclass_entry):
|
| + tp_slot = TypeSlots.GCDependentSlot("tp_clear")
|
| + slot_func = scope.mangle_internal("tp_clear")
|
| + base_type = scope.parent_type.base_type
|
| + if tp_slot.slot_code(scope) != slot_func:
|
| + return # never used
|
| +
|
| + have_entries, (py_attrs, py_buffers, memoryview_slices) = (
|
| + scope.get_refcounted_entries(include_gc_simple=False))
|
| +
|
| + if py_attrs or py_buffers or base_type:
|
| + unused = ''
|
| + else:
|
| + unused = 'CYTHON_UNUSED '
|
| +
|
| + code.putln("")
|
| + code.putln("static int %s(%sPyObject *o) {" % (slot_func, unused))
|
| +
|
| + if py_attrs and Options.clear_to_none:
|
| + code.putln("PyObject* tmp;")
|
| +
|
| + if py_attrs or py_buffers:
|
| + self.generate_self_cast(scope, code)
|
| +
|
| + if base_type:
|
| + # want to call it explicitly if possible so inlining can be performed
|
| + static_call = TypeSlots.get_base_slot_function(scope, tp_slot)
|
| + if static_call:
|
| + code.putln("%s(o);" % static_call)
|
| + elif base_type.is_builtin_type:
|
| + base_cname = base_type.typeptr_cname
|
| + code.putln("if (!%s->tp_clear); else %s->tp_clear(o);" % (
|
| + base_cname, base_cname))
|
| + else:
|
| + # This is an externally defined type. Calling through the
|
| + # cimported base type pointer directly interacts badly with
|
| + # the module cleanup, which may already have cleared it.
|
| + # In that case, fall back to traversing the type hierarchy.
|
| + base_cname = base_type.typeptr_cname
|
| + code.putln("if (likely(%s)) { if (%s->tp_clear) %s->tp_clear(o); } else __Pyx_call_next_tp_clear(o, %s);" % (
|
| + base_cname, base_cname, base_cname, slot_func))
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached("CallNextTpClear", "ExtensionTypes.c"))
|
| +
|
| + if Options.clear_to_none:
|
| + for entry in py_attrs:
|
| + name = "p->%s" % entry.cname
|
| + code.putln("tmp = ((PyObject*)%s);" % name)
|
| + if entry.is_declared_generic:
|
| + code.put_init_to_py_none(name, py_object_type, nanny=False)
|
| + else:
|
| + code.put_init_to_py_none(name, entry.type, nanny=False)
|
| + code.putln("Py_XDECREF(tmp);")
|
| + else:
|
| + for entry in py_attrs:
|
| + code.putln("Py_CLEAR(p->%s);" % entry.cname)
|
| +
|
| + for entry in py_buffers:
|
| + # Note: shouldn't this call __Pyx_ReleaseBuffer ??
|
| + code.putln("Py_CLEAR(p->%s.obj);" % entry.cname)
|
| +
|
| + if cclass_entry.cname == '__pyx_memoryviewslice':
|
| + code.putln("__PYX_XDEC_MEMVIEW(&p->from_slice, 1);")
|
| +
|
| + code.putln(
|
| + "return 0;")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_getitem_int_function(self, scope, code):
|
| + # This function is put into the sq_item slot when
|
| + # a __getitem__ method is present. It converts its
|
| + # argument to a Python integer and calls mp_subscript.
|
| + code.putln(
|
| + "static PyObject *%s(PyObject *o, Py_ssize_t i) {" %
|
| + scope.mangle_internal("sq_item"))
|
| + code.putln(
|
| + "PyObject *r;")
|
| + code.putln(
|
| + "PyObject *x = PyInt_FromSsize_t(i); if(!x) return 0;")
|
| + code.putln(
|
| + "r = Py_TYPE(o)->tp_as_mapping->mp_subscript(o, x);")
|
| + code.putln(
|
| + "Py_DECREF(x);")
|
| + code.putln(
|
| + "return r;")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_ass_subscript_function(self, scope, code):
|
| + # Setting and deleting an item are both done through
|
| + # the ass_subscript method, so we dispatch to user's __setitem__
|
| + # or __delitem__, or raise an exception.
|
| + base_type = scope.parent_type.base_type
|
| + set_entry = scope.lookup_here("__setitem__")
|
| + del_entry = scope.lookup_here("__delitem__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static int %s(PyObject *o, PyObject *i, PyObject *v) {" %
|
| + scope.mangle_internal("mp_ass_subscript"))
|
| + code.putln(
|
| + "if (v) {")
|
| + if set_entry:
|
| + code.putln(
|
| + "return %s(o, i, v);" %
|
| + set_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, "tp_as_mapping", "mp_ass_subscript", "o, i, v", code)
|
| + code.putln(
|
| + "PyErr_Format(PyExc_NotImplementedError,")
|
| + code.putln(
|
| + ' "Subscript assignment not supported by %.200s", Py_TYPE(o)->tp_name);')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "else {")
|
| + if del_entry:
|
| + code.putln(
|
| + "return %s(o, i);" %
|
| + del_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, "tp_as_mapping", "mp_ass_subscript", "o, i, v", code)
|
| + code.putln(
|
| + "PyErr_Format(PyExc_NotImplementedError,")
|
| + code.putln(
|
| + ' "Subscript deletion not supported by %.200s", Py_TYPE(o)->tp_name);')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_guarded_basetype_call(
|
| + self, base_type, substructure, slot, args, code):
|
| + if base_type:
|
| + base_tpname = base_type.typeptr_cname
|
| + if substructure:
|
| + code.putln(
|
| + "if (%s->%s && %s->%s->%s)" % (
|
| + base_tpname, substructure, base_tpname, substructure, slot))
|
| + code.putln(
|
| + " return %s->%s->%s(%s);" % (
|
| + base_tpname, substructure, slot, args))
|
| + else:
|
| + code.putln(
|
| + "if (%s->%s)" % (
|
| + base_tpname, slot))
|
| + code.putln(
|
| + " return %s->%s(%s);" % (
|
| + base_tpname, slot, args))
|
| +
|
| + def generate_ass_slice_function(self, scope, code):
|
| + # Setting and deleting a slice are both done through
|
| + # the ass_slice method, so we dispatch to user's __setslice__
|
| + # or __delslice__, or raise an exception.
|
| + base_type = scope.parent_type.base_type
|
| + set_entry = scope.lookup_here("__setslice__")
|
| + del_entry = scope.lookup_here("__delslice__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static int %s(PyObject *o, Py_ssize_t i, Py_ssize_t j, PyObject *v) {" %
|
| + scope.mangle_internal("sq_ass_slice"))
|
| + code.putln(
|
| + "if (v) {")
|
| + if set_entry:
|
| + code.putln(
|
| + "return %s(o, i, j, v);" %
|
| + set_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, "tp_as_sequence", "sq_ass_slice", "o, i, j, v", code)
|
| + code.putln(
|
| + "PyErr_Format(PyExc_NotImplementedError,")
|
| + code.putln(
|
| + ' "2-element slice assignment not supported by %.200s", Py_TYPE(o)->tp_name);')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "else {")
|
| + if del_entry:
|
| + code.putln(
|
| + "return %s(o, i, j);" %
|
| + del_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, "tp_as_sequence", "sq_ass_slice", "o, i, j, v", code)
|
| + code.putln(
|
| + "PyErr_Format(PyExc_NotImplementedError,")
|
| + code.putln(
|
| + ' "2-element slice deletion not supported by %.200s", Py_TYPE(o)->tp_name);')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_getattro_function(self, scope, code):
|
| + # First try to get the attribute using __getattribute__, if defined, or
|
| + # PyObject_GenericGetAttr.
|
| + #
|
| + # If that raises an AttributeError, call the __getattr__ if defined.
|
| + #
|
| + # In both cases, defined can be in this class, or any base class.
|
| + def lookup_here_or_base(n,type=None):
|
| + # Recursive lookup
|
| + if type is None:
|
| + type = scope.parent_type
|
| + r = type.scope.lookup_here(n)
|
| + if r is None and \
|
| + type.base_type is not None:
|
| + return lookup_here_or_base(n,type.base_type)
|
| + else:
|
| + return r
|
| + getattr_entry = lookup_here_or_base("__getattr__")
|
| + getattribute_entry = lookup_here_or_base("__getattribute__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static PyObject *%s(PyObject *o, PyObject *n) {"
|
| + % scope.mangle_internal("tp_getattro"))
|
| + if getattribute_entry is not None:
|
| + code.putln(
|
| + "PyObject *v = %s(o, n);" %
|
| + getattribute_entry.func_cname)
|
| + else:
|
| + code.putln(
|
| + "PyObject *v = PyObject_GenericGetAttr(o, n);")
|
| + if getattr_entry is not None:
|
| + code.putln(
|
| + "if (!v && PyErr_ExceptionMatches(PyExc_AttributeError)) {")
|
| + code.putln(
|
| + "PyErr_Clear();")
|
| + code.putln(
|
| + "v = %s(o, n);" %
|
| + getattr_entry.func_cname)
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "return v;")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_setattro_function(self, scope, code):
|
| + # Setting and deleting an attribute are both done through
|
| + # the setattro method, so we dispatch to user's __setattr__
|
| + # or __delattr__ or fall back on PyObject_GenericSetAttr.
|
| + base_type = scope.parent_type.base_type
|
| + set_entry = scope.lookup_here("__setattr__")
|
| + del_entry = scope.lookup_here("__delattr__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static int %s(PyObject *o, PyObject *n, PyObject *v) {" %
|
| + scope.mangle_internal("tp_setattro"))
|
| + code.putln(
|
| + "if (v) {")
|
| + if set_entry:
|
| + code.putln(
|
| + "return %s(o, n, v);" %
|
| + set_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, None, "tp_setattro", "o, n, v", code)
|
| + code.putln(
|
| + "return PyObject_GenericSetAttr(o, n, v);")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "else {")
|
| + if del_entry:
|
| + code.putln(
|
| + "return %s(o, n);" %
|
| + del_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, None, "tp_setattro", "o, n, v", code)
|
| + code.putln(
|
| + "return PyObject_GenericSetAttr(o, n, 0);")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_descr_get_function(self, scope, code):
|
| + # The __get__ function of a descriptor object can be
|
| + # called with NULL for the second or third arguments
|
| + # under some circumstances, so we replace them with
|
| + # None in that case.
|
| + user_get_entry = scope.lookup_here("__get__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static PyObject *%s(PyObject *o, PyObject *i, PyObject *c) {" %
|
| + scope.mangle_internal("tp_descr_get"))
|
| + code.putln(
|
| + "PyObject *r = 0;")
|
| + code.putln(
|
| + "if (!i) i = Py_None;")
|
| + code.putln(
|
| + "if (!c) c = Py_None;")
|
| + #code.put_incref("i", py_object_type)
|
| + #code.put_incref("c", py_object_type)
|
| + code.putln(
|
| + "r = %s(o, i, c);" %
|
| + user_get_entry.func_cname)
|
| + #code.put_decref("i", py_object_type)
|
| + #code.put_decref("c", py_object_type)
|
| + code.putln(
|
| + "return r;")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_descr_set_function(self, scope, code):
|
| + # Setting and deleting are both done through the __set__
|
| + # method of a descriptor, so we dispatch to user's __set__
|
| + # or __delete__ or raise an exception.
|
| + base_type = scope.parent_type.base_type
|
| + user_set_entry = scope.lookup_here("__set__")
|
| + user_del_entry = scope.lookup_here("__delete__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static int %s(PyObject *o, PyObject *i, PyObject *v) {" %
|
| + scope.mangle_internal("tp_descr_set"))
|
| + code.putln(
|
| + "if (v) {")
|
| + if user_set_entry:
|
| + code.putln(
|
| + "return %s(o, i, v);" %
|
| + user_set_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, None, "tp_descr_set", "o, i, v", code)
|
| + code.putln(
|
| + 'PyErr_SetString(PyExc_NotImplementedError, "__set__");')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "else {")
|
| + if user_del_entry:
|
| + code.putln(
|
| + "return %s(o, i);" %
|
| + user_del_entry.func_cname)
|
| + else:
|
| + self.generate_guarded_basetype_call(
|
| + base_type, None, "tp_descr_set", "o, i, v", code)
|
| + code.putln(
|
| + 'PyErr_SetString(PyExc_NotImplementedError, "__delete__");')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_property_accessors(self, cclass_scope, code):
|
| + for entry in cclass_scope.property_entries:
|
| + property_scope = entry.scope
|
| + if property_scope.defines_any(["__get__"]):
|
| + self.generate_property_get_function(entry, code)
|
| + if property_scope.defines_any(["__set__", "__del__"]):
|
| + self.generate_property_set_function(entry, code)
|
| +
|
| + def generate_property_get_function(self, property_entry, code):
|
| + property_scope = property_entry.scope
|
| + property_entry.getter_cname = property_scope.parent_scope.mangle(
|
| + Naming.prop_get_prefix, property_entry.name)
|
| + get_entry = property_scope.lookup_here("__get__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static PyObject *%s(PyObject *o, CYTHON_UNUSED void *x) {" %
|
| + property_entry.getter_cname)
|
| + code.putln(
|
| + "return %s(o);" %
|
| + get_entry.func_cname)
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_property_set_function(self, property_entry, code):
|
| + property_scope = property_entry.scope
|
| + property_entry.setter_cname = property_scope.parent_scope.mangle(
|
| + Naming.prop_set_prefix, property_entry.name)
|
| + set_entry = property_scope.lookup_here("__set__")
|
| + del_entry = property_scope.lookup_here("__del__")
|
| + code.putln("")
|
| + code.putln(
|
| + "static int %s(PyObject *o, PyObject *v, CYTHON_UNUSED void *x) {" %
|
| + property_entry.setter_cname)
|
| + code.putln(
|
| + "if (v) {")
|
| + if set_entry:
|
| + code.putln(
|
| + "return %s(o, v);" %
|
| + set_entry.func_cname)
|
| + else:
|
| + code.putln(
|
| + 'PyErr_SetString(PyExc_NotImplementedError, "__set__");')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "else {")
|
| + if del_entry:
|
| + code.putln(
|
| + "return %s(o);" %
|
| + del_entry.func_cname)
|
| + else:
|
| + code.putln(
|
| + 'PyErr_SetString(PyExc_NotImplementedError, "__del__");')
|
| + code.putln(
|
| + "return -1;")
|
| + code.putln(
|
| + "}")
|
| + code.putln(
|
| + "}")
|
| +
|
| + def generate_typeobj_definition(self, modname, entry, code):
|
| + type = entry.type
|
| + scope = type.scope
|
| + for suite in TypeSlots.substructures:
|
| + suite.generate_substructure(scope, code)
|
| + code.putln("")
|
| + if entry.visibility == 'public':
|
| + header = "DL_EXPORT(PyTypeObject) %s = {"
|
| + else:
|
| + header = "static PyTypeObject %s = {"
|
| + #code.putln(header % scope.parent_type.typeobj_cname)
|
| + code.putln(header % type.typeobj_cname)
|
| + code.putln(
|
| + "PyVarObject_HEAD_INIT(0, 0)")
|
| + code.putln(
|
| + '__Pyx_NAMESTR("%s.%s"), /*tp_name*/' % (
|
| + self.full_module_name, scope.class_name))
|
| + if type.typedef_flag:
|
| + objstruct = type.objstruct_cname
|
| + else:
|
| + objstruct = "struct %s" % type.objstruct_cname
|
| + code.putln(
|
| + "sizeof(%s), /*tp_basicsize*/" %
|
| + objstruct)
|
| + code.putln(
|
| + "0, /*tp_itemsize*/")
|
| + for slot in TypeSlots.slot_table:
|
| + slot.generate(scope, code)
|
| + code.putln(
|
| + "};")
|
| +
|
| + def generate_method_table(self, env, code):
|
| + if env.is_c_class_scope and not env.pyfunc_entries:
|
| + return
|
| + code.putln("")
|
| + code.putln(
|
| + "static PyMethodDef %s[] = {" %
|
| + env.method_table_cname)
|
| + for entry in env.pyfunc_entries:
|
| + if not entry.fused_cfunction:
|
| + code.put_pymethoddef(entry, ",")
|
| + code.putln(
|
| + "{0, 0, 0, 0}")
|
| + code.putln(
|
| + "};")
|
| +
|
| + def generate_getset_table(self, env, code):
|
| + if env.property_entries:
|
| + code.putln("")
|
| + code.putln(
|
| + "static struct PyGetSetDef %s[] = {" %
|
| + env.getset_table_cname)
|
| + for entry in env.property_entries:
|
| + if entry.doc:
|
| + doc_code = "__Pyx_DOCSTR(%s)" % code.get_string_const(entry.doc)
|
| + else:
|
| + doc_code = "0"
|
| + code.putln(
|
| + '{(char *)"%s", %s, %s, %s, 0},' % (
|
| + entry.name,
|
| + entry.getter_cname or "0",
|
| + entry.setter_cname or "0",
|
| + doc_code))
|
| + code.putln(
|
| + "{0, 0, 0, 0, 0}")
|
| + code.putln(
|
| + "};")
|
| +
|
| + def generate_import_star(self, env, code):
|
| + env.use_utility_code(streq_utility_code)
|
| + code.putln()
|
| + code.putln("static char* %s_type_names[] = {" % Naming.import_star)
|
| + for name, entry in sorted(env.entries.items()):
|
| + if entry.is_type:
|
| + code.putln('"%s",' % name)
|
| + code.putln("0")
|
| + code.putln("};")
|
| + code.putln()
|
| + code.enter_cfunc_scope() # as we need labels
|
| + code.putln("static int %s(PyObject *o, PyObject* py_name, char *name) {" % Naming.import_star_set)
|
| + code.putln("char** type_name = %s_type_names;" % Naming.import_star)
|
| + code.putln("while (*type_name) {")
|
| + code.putln("if (__Pyx_StrEq(name, *type_name)) {")
|
| + code.putln('PyErr_Format(PyExc_TypeError, "Cannot overwrite C type %s", name);')
|
| + code.putln('goto bad;')
|
| + code.putln("}")
|
| + code.putln("type_name++;")
|
| + code.putln("}")
|
| + old_error_label = code.new_error_label()
|
| + code.putln("if (0);") # so the first one can be "else if"
|
| + for name, entry in env.entries.items():
|
| + if entry.is_cglobal and entry.used:
|
| + code.putln('else if (__Pyx_StrEq(name, "%s")) {' % name)
|
| + if entry.type.is_pyobject:
|
| + if entry.type.is_extension_type or entry.type.is_builtin_type:
|
| + code.putln("if (!(%s)) %s;" % (
|
| + entry.type.type_test_code("o"),
|
| + code.error_goto(entry.pos)))
|
| + code.putln("Py_INCREF(o);")
|
| + code.put_decref(entry.cname, entry.type, nanny=False)
|
| + code.putln("%s = %s;" % (
|
| + entry.cname,
|
| + PyrexTypes.typecast(entry.type, py_object_type, "o")))
|
| + elif entry.type.from_py_function:
|
| + rhs = "%s(o)" % entry.type.from_py_function
|
| + if entry.type.is_enum:
|
| + rhs = PyrexTypes.typecast(entry.type, PyrexTypes.c_long_type, rhs)
|
| + code.putln("%s = %s; if (%s) %s;" % (
|
| + entry.cname,
|
| + rhs,
|
| + entry.type.error_condition(entry.cname),
|
| + code.error_goto(entry.pos)))
|
| + else:
|
| + code.putln('PyErr_Format(PyExc_TypeError, "Cannot convert Python object %s to %s");' % (name, entry.type))
|
| + code.putln(code.error_goto(entry.pos))
|
| + code.putln("}")
|
| + code.putln("else {")
|
| + code.putln("if (PyObject_SetAttr(%s, py_name, o) < 0) goto bad;" % Naming.module_cname)
|
| + code.putln("}")
|
| + code.putln("return 0;")
|
| + if code.label_used(code.error_label):
|
| + code.put_label(code.error_label)
|
| + # This helps locate the offending name.
|
| + code.put_add_traceback(self.full_module_name)
|
| + code.error_label = old_error_label
|
| + code.putln("bad:")
|
| + code.putln("return -1;")
|
| + code.putln("}")
|
| + code.putln(import_star_utility_code)
|
| + code.exit_cfunc_scope() # done with labels
|
| +
|
| + def generate_module_init_func(self, imported_modules, env, code):
|
| + code.enter_cfunc_scope()
|
| + code.putln("")
|
| + header2 = "PyMODINIT_FUNC init%s(void)" % env.module_name
|
| + header3 = "PyMODINIT_FUNC PyInit_%s(void)" % env.module_name
|
| + code.putln("#if PY_MAJOR_VERSION < 3")
|
| + code.putln("%s; /*proto*/" % header2)
|
| + code.putln(header2)
|
| + code.putln("#else")
|
| + code.putln("%s; /*proto*/" % header3)
|
| + code.putln(header3)
|
| + code.putln("#endif")
|
| + code.putln("{")
|
| + tempdecl_code = code.insertion_point()
|
| +
|
| + code.put_declare_refcount_context()
|
| + code.putln("#if CYTHON_REFNANNY")
|
| + code.putln("__Pyx_RefNanny = __Pyx_RefNannyImportAPI(\"refnanny\");")
|
| + code.putln("if (!__Pyx_RefNanny) {")
|
| + code.putln(" PyErr_Clear();")
|
| + code.putln(" __Pyx_RefNanny = __Pyx_RefNannyImportAPI(\"Cython.Runtime.refnanny\");")
|
| + code.putln(" if (!__Pyx_RefNanny)")
|
| + code.putln(" Py_FatalError(\"failed to import 'refnanny' module\");")
|
| + code.putln("}")
|
| + code.putln("#endif")
|
| + code.put_setup_refcount_context(header3)
|
| +
|
| + env.use_utility_code(UtilityCode.load("CheckBinaryVersion", "ModuleSetupCode.c"))
|
| + code.putln("if ( __Pyx_check_binary_version() < 0) %s" % code.error_goto(self.pos))
|
| +
|
| + code.putln("%s = PyTuple_New(0); %s" % (Naming.empty_tuple, code.error_goto_if_null(Naming.empty_tuple, self.pos)))
|
| + code.putln("%s = PyBytes_FromStringAndSize(\"\", 0); %s" % (Naming.empty_bytes, code.error_goto_if_null(Naming.empty_bytes, self.pos)))
|
| +
|
| + code.putln("#ifdef __Pyx_CyFunction_USED")
|
| + code.putln("if (__Pyx_CyFunction_init() < 0) %s" % code.error_goto(self.pos))
|
| + code.putln("#endif")
|
| +
|
| + code.putln("#ifdef __Pyx_FusedFunction_USED")
|
| + code.putln("if (__pyx_FusedFunction_init() < 0) %s" % code.error_goto(self.pos))
|
| + code.putln("#endif")
|
| +
|
| + code.putln("#ifdef __Pyx_Generator_USED")
|
| + code.putln("if (__pyx_Generator_init() < 0) %s" % code.error_goto(self.pos))
|
| + code.putln("#endif")
|
| +
|
| + code.putln("/*--- Library function declarations ---*/")
|
| + env.generate_library_function_declarations(code)
|
| +
|
| + code.putln("/*--- Threads initialization code ---*/")
|
| + code.putln("#if defined(__PYX_FORCE_INIT_THREADS) && __PYX_FORCE_INIT_THREADS")
|
| + code.putln("#ifdef WITH_THREAD /* Python build with threading support? */")
|
| + code.putln("PyEval_InitThreads();")
|
| + code.putln("#endif")
|
| + code.putln("#endif")
|
| +
|
| + code.putln("/*--- Module creation code ---*/")
|
| + self.generate_module_creation_code(env, code)
|
| +
|
| + code.putln("/*--- Initialize various global constants etc. ---*/")
|
| + code.putln(code.error_goto_if_neg("__Pyx_InitGlobals()", self.pos))
|
| +
|
| + code.putln("#if PY_MAJOR_VERSION < 3 && (__PYX_DEFAULT_STRING_ENCODING_IS_ASCII || __PYX_DEFAULT_STRING_ENCODING_IS_DEFAULT)")
|
| + code.putln("if (__Pyx_init_sys_getdefaultencoding_params() < 0) %s" % code.error_goto(self.pos))
|
| + code.putln("#endif")
|
| +
|
| + __main__name = code.globalstate.get_py_string_const(
|
| + EncodedString("__main__"), identifier=True)
|
| + code.putln("if (%s%s) {" % (Naming.module_is_main, self.full_module_name.replace('.', '__')))
|
| + code.putln(
|
| + 'if (__Pyx_SetAttrString(%s, "__name__", %s) < 0) %s;' % (
|
| + env.module_cname,
|
| + __main__name.cname,
|
| + code.error_goto(self.pos)))
|
| + code.putln("}")
|
| +
|
| + # set up __file__ and __path__, then add the module to sys.modules
|
| + self.generate_module_import_setup(env, code)
|
| +
|
| + if Options.cache_builtins:
|
| + code.putln("/*--- Builtin init code ---*/")
|
| + code.putln(code.error_goto_if_neg("__Pyx_InitCachedBuiltins()", self.pos))
|
| +
|
| + code.putln("/*--- Constants init code ---*/")
|
| + code.putln(code.error_goto_if_neg("__Pyx_InitCachedConstants()", self.pos))
|
| +
|
| + code.putln("/*--- Global init code ---*/")
|
| + self.generate_global_init_code(env, code)
|
| +
|
| + code.putln("/*--- Variable export code ---*/")
|
| + self.generate_c_variable_export_code(env, code)
|
| +
|
| + code.putln("/*--- Function export code ---*/")
|
| + self.generate_c_function_export_code(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("/*--- Variable import code ---*/")
|
| + for module in imported_modules:
|
| + self.generate_c_variable_import_code_for_module(module, env, code)
|
| +
|
| + code.putln("/*--- Function import code ---*/")
|
| + for module in imported_modules:
|
| + self.specialize_fused_types(module)
|
| + self.generate_c_function_import_code_for_module(module, env, code)
|
| +
|
| + code.putln("/*--- Execution code ---*/")
|
| + code.mark_pos(None)
|
| +
|
| + self.body.generate_execution_code(code)
|
| +
|
| + if Options.generate_cleanup_code:
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached("RegisterModuleCleanup", "ModuleSetupCode.c"))
|
| + code.putln("if (__Pyx_RegisterCleanup()) %s;" % code.error_goto(self.pos))
|
| +
|
| + code.put_goto(code.return_label)
|
| + code.put_label(code.error_label)
|
| + for cname, type in code.funcstate.all_managed_temps():
|
| + code.put_xdecref(cname, type)
|
| + code.putln('if (%s) {' % env.module_cname)
|
| + code.put_add_traceback("init %s" % env.qualified_name)
|
| + env.use_utility_code(Nodes.traceback_utility_code)
|
| + code.put_decref_clear(env.module_cname, py_object_type, nanny=False)
|
| + code.putln('} else if (!PyErr_Occurred()) {')
|
| + code.putln('PyErr_SetString(PyExc_ImportError, "init %s");' % env.qualified_name)
|
| + code.putln('}')
|
| + code.put_label(code.return_label)
|
| +
|
| + code.put_finish_refcount_context()
|
| +
|
| + code.putln("#if PY_MAJOR_VERSION < 3")
|
| + code.putln("return;")
|
| + code.putln("#else")
|
| + code.putln("return %s;" % env.module_cname)
|
| + code.putln("#endif")
|
| + code.putln('}')
|
| +
|
| + tempdecl_code.put_temp_declarations(code.funcstate)
|
| +
|
| + code.exit_cfunc_scope()
|
| +
|
| + def generate_module_import_setup(self, env, code):
|
| + module_path = env.directives['set_initial_path']
|
| + if module_path == 'SOURCEFILE':
|
| + module_path = self.pos[0].filename
|
| +
|
| + if module_path:
|
| + code.putln('if (__Pyx_SetAttrString(%s, "__file__", %s) < 0) %s;' % (
|
| + env.module_cname,
|
| + code.globalstate.get_py_string_const(
|
| + EncodedString(decode_filename(module_path))).cname,
|
| + code.error_goto(self.pos)))
|
| +
|
| + if env.is_package:
|
| + # set __path__ to mark the module as package
|
| + temp = code.funcstate.allocate_temp(py_object_type, True)
|
| + code.putln('%s = Py_BuildValue("[O]", %s); %s' % (
|
| + temp,
|
| + code.globalstate.get_py_string_const(
|
| + EncodedString(decode_filename(
|
| + os.path.dirname(module_path)))).cname,
|
| + code.error_goto_if_null(temp, self.pos)))
|
| + code.put_gotref(temp)
|
| + code.putln(
|
| + 'if (__Pyx_SetAttrString(%s, "__path__", %s) < 0) %s;' % (
|
| + env.module_cname, temp, code.error_goto(self.pos)))
|
| + code.put_decref_clear(temp, py_object_type)
|
| + code.funcstate.release_temp(temp)
|
| +
|
| + elif env.is_package:
|
| + # packages require __path__, so all we can do is try to figure
|
| + # out the module path at runtime by rerunning the import lookup
|
| + package_name, _ = self.full_module_name.rsplit('.', 1)
|
| + if '.' in package_name:
|
| + parent_name = '"%s"' % (package_name.rsplit('.', 1)[0],)
|
| + else:
|
| + parent_name = 'NULL'
|
| + code.globalstate.use_utility_code(UtilityCode.load(
|
| + "SetPackagePathFromImportLib", "ImportExport.c"))
|
| + code.putln(code.error_goto_if_neg(
|
| + '__Pyx_SetPackagePathFromImportLib(%s, %s)' % (
|
| + parent_name,
|
| + code.globalstate.get_py_string_const(
|
| + EncodedString(env.module_name)).cname),
|
| + self.pos))
|
| +
|
| + # CPython may not have put us into sys.modules yet, but relative imports and reimports require it
|
| + fq_module_name = self.full_module_name
|
| + if fq_module_name.endswith('.__init__'):
|
| + fq_module_name = fq_module_name[:-len('.__init__')]
|
| + code.putln("#if PY_MAJOR_VERSION >= 3")
|
| + code.putln("{")
|
| + code.putln("PyObject *modules = PyImport_GetModuleDict(); %s" %
|
| + code.error_goto_if_null("modules", self.pos))
|
| + code.putln('if (!PyDict_GetItemString(modules, "%s")) {' % fq_module_name)
|
| + code.putln(code.error_goto_if_neg('PyDict_SetItemString(modules, "%s", %s)' % (
|
| + fq_module_name, env.module_cname), self.pos))
|
| + code.putln("}")
|
| + code.putln("}")
|
| + code.putln("#endif")
|
| +
|
| + def generate_module_cleanup_func(self, env, code):
|
| + if not Options.generate_cleanup_code:
|
| + return
|
| +
|
| + code.putln('static void %s(CYTHON_UNUSED PyObject *self) {' %
|
| + Naming.cleanup_cname)
|
| + if Options.generate_cleanup_code >= 2:
|
| + code.putln("/*--- Global cleanup code ---*/")
|
| + rev_entries = list(env.var_entries)
|
| + rev_entries.reverse()
|
| + for entry in rev_entries:
|
| + if entry.visibility != 'extern':
|
| + if entry.type.is_pyobject and entry.used:
|
| + code.put_xdecref_clear(
|
| + entry.cname, entry.type,
|
| + clear_before_decref=True,
|
| + nanny=False)
|
| + code.putln("__Pyx_CleanupGlobals();")
|
| + if Options.generate_cleanup_code >= 3:
|
| + code.putln("/*--- Type import cleanup code ---*/")
|
| + for ext_type in sorted(env.types_imported, key=operator.attrgetter('typeptr_cname')):
|
| + code.put_xdecref_clear(
|
| + ext_type.typeptr_cname, ext_type,
|
| + clear_before_decref=True,
|
| + nanny=False)
|
| + if Options.cache_builtins:
|
| + code.putln("/*--- Builtin cleanup code ---*/")
|
| + for entry in env.cached_builtins:
|
| + code.put_xdecref_clear(
|
| + entry.cname, PyrexTypes.py_object_type,
|
| + clear_before_decref=True,
|
| + nanny=False)
|
| + code.putln("/*--- Intern cleanup code ---*/")
|
| + code.put_decref_clear(Naming.empty_tuple,
|
| + PyrexTypes.py_object_type,
|
| + clear_before_decref=True,
|
| + nanny=False)
|
| + for entry in env.c_class_entries:
|
| + cclass_type = entry.type
|
| + if cclass_type.is_external or cclass_type.base_type:
|
| + continue
|
| + if cclass_type.scope.directives.get('freelist', 0):
|
| + scope = cclass_type.scope
|
| + freelist_name = scope.mangle_internal(Naming.freelist_name)
|
| + freecount_name = scope.mangle_internal(Naming.freecount_name)
|
| + code.putln("while (%s > 0) {" % freecount_name)
|
| + code.putln("PyObject* o = (PyObject*)%s[--%s];" % (
|
| + freelist_name, freecount_name))
|
| + code.putln("(*Py_TYPE(o)->tp_free)(o);")
|
| + code.putln("}")
|
| +# for entry in env.pynum_entries:
|
| +# code.put_decref_clear(entry.cname,
|
| +# PyrexTypes.py_object_type,
|
| +# nanny=False)
|
| +# for entry in env.all_pystring_entries:
|
| +# if entry.is_interned:
|
| +# code.put_decref_clear(entry.pystring_cname,
|
| +# PyrexTypes.py_object_type,
|
| +# nanny=False)
|
| +# for entry in env.default_entries:
|
| +# if entry.type.is_pyobject and entry.used:
|
| +# code.putln("Py_DECREF(%s); %s = 0;" % (
|
| +# code.entry_as_pyobject(entry), entry.cname))
|
| + code.putln('#if CYTHON_COMPILING_IN_PYPY')
|
| + code.putln('Py_CLEAR(%s);' % Naming.builtins_cname)
|
| + code.putln('#endif')
|
| + code.put_decref_clear(env.module_dict_cname, py_object_type,
|
| + nanny=False, clear_before_decref=True)
|
| +
|
| + def generate_main_method(self, env, code):
|
| + module_is_main = "%s%s" % (Naming.module_is_main, self.full_module_name.replace('.', '__'))
|
| + if Options.embed == "main":
|
| + wmain = "wmain"
|
| + else:
|
| + wmain = Options.embed
|
| + code.globalstate.use_utility_code(
|
| + main_method.specialize(
|
| + module_name = env.module_name,
|
| + module_is_main = module_is_main,
|
| + main_method = Options.embed,
|
| + wmain_method = wmain))
|
| +
|
| + def generate_pymoduledef_struct(self, env, code):
|
| + if env.doc:
|
| + doc = "__Pyx_DOCSTR(%s)" % code.get_string_const(env.doc)
|
| + else:
|
| + doc = "0"
|
| + if Options.generate_cleanup_code:
|
| + cleanup_func = "(freefunc)%s" % Naming.cleanup_cname
|
| + else:
|
| + cleanup_func = 'NULL'
|
| +
|
| + code.putln("")
|
| + code.putln("#if PY_MAJOR_VERSION >= 3")
|
| + code.putln("static struct PyModuleDef %s = {" % Naming.pymoduledef_cname)
|
| + code.putln("#if PY_VERSION_HEX < 0x03020000")
|
| + # fix C compiler warnings due to missing initialisers
|
| + code.putln(" { PyObject_HEAD_INIT(NULL) NULL, 0, NULL },")
|
| + code.putln("#else")
|
| + code.putln(" PyModuleDef_HEAD_INIT,")
|
| + code.putln("#endif")
|
| + code.putln(' __Pyx_NAMESTR("%s"),' % env.module_name)
|
| + code.putln(" %s, /* m_doc */" % doc)
|
| + code.putln(" -1, /* m_size */")
|
| + code.putln(" %s /* m_methods */," % env.method_table_cname)
|
| + code.putln(" NULL, /* m_reload */")
|
| + code.putln(" NULL, /* m_traverse */")
|
| + code.putln(" NULL, /* m_clear */")
|
| + code.putln(" %s /* m_free */" % cleanup_func)
|
| + code.putln("};")
|
| + code.putln("#endif")
|
| +
|
| + def generate_module_creation_code(self, env, code):
|
| + # Generate code to create the module object and
|
| + # install the builtins.
|
| + if env.doc:
|
| + doc = "__Pyx_DOCSTR(%s)" % code.get_string_const(env.doc)
|
| + else:
|
| + doc = "0"
|
| + code.putln("#if PY_MAJOR_VERSION < 3")
|
| + code.putln(
|
| + '%s = Py_InitModule4(__Pyx_NAMESTR("%s"), %s, %s, 0, PYTHON_API_VERSION); Py_XINCREF(%s);' % (
|
| + env.module_cname,
|
| + env.module_name,
|
| + env.method_table_cname,
|
| + doc,
|
| + env.module_cname))
|
| + code.putln("#else")
|
| + code.putln(
|
| + "%s = PyModule_Create(&%s);" % (
|
| + env.module_cname,
|
| + Naming.pymoduledef_cname))
|
| + code.putln("#endif")
|
| + code.putln(code.error_goto_if_null(env.module_cname, self.pos))
|
| + code.putln(
|
| + "%s = PyModule_GetDict(%s); %s" % (
|
| + env.module_dict_cname, env.module_cname,
|
| + code.error_goto_if_null(env.module_dict_cname, self.pos)))
|
| + code.put_incref(env.module_dict_cname, py_object_type, nanny=False)
|
| +
|
| + code.putln(
|
| + '%s = PyImport_AddModule(__Pyx_NAMESTR(__Pyx_BUILTIN_MODULE_NAME)); %s' % (
|
| + Naming.builtins_cname,
|
| + code.error_goto_if_null(Naming.builtins_cname, self.pos)))
|
| + code.putln('#if CYTHON_COMPILING_IN_PYPY')
|
| + code.putln('Py_INCREF(%s);' % Naming.builtins_cname)
|
| + code.putln('#endif')
|
| + code.putln(
|
| + 'if (__Pyx_SetAttrString(%s, "__builtins__", %s) < 0) %s;' % (
|
| + env.module_cname,
|
| + Naming.builtins_cname,
|
| + code.error_goto(self.pos)))
|
| + if Options.pre_import is not None:
|
| + code.putln(
|
| + '%s = PyImport_AddModule(__Pyx_NAMESTR("%s")); %s' % (
|
| + Naming.preimport_cname,
|
| + Options.pre_import,
|
| + code.error_goto_if_null(Naming.preimport_cname, self.pos)))
|
| +
|
| + def generate_global_init_code(self, env, code):
|
| + # Generate code to initialise global PyObject *
|
| + # variables to None.
|
| + for entry in env.var_entries:
|
| + if entry.visibility != 'extern':
|
| + if entry.used:
|
| + entry.type.global_init_code(entry, code)
|
| +
|
| + def generate_c_variable_export_code(self, env, code):
|
| + # Generate code to create PyCFunction wrappers for exported C functions.
|
| + entries = []
|
| + for entry in env.var_entries:
|
| + if (entry.api
|
| + or entry.defined_in_pxd
|
| + or (Options.cimport_from_pyx and not entry.visibility == 'extern')):
|
| + entries.append(entry)
|
| + if entries:
|
| + env.use_utility_code(UtilityCode.load_cached("VoidPtrExport", "ImportExport.c"))
|
| + for entry in entries:
|
| + signature = entry.type.declaration_code("")
|
| + name = code.intern_identifier(entry.name)
|
| + code.putln('if (__Pyx_ExportVoidPtr(%s, (void *)&%s, "%s") < 0) %s' % (
|
| + name, entry.cname, signature,
|
| + code.error_goto(self.pos)))
|
| +
|
| + def generate_c_function_export_code(self, env, code):
|
| + # Generate code to create PyCFunction wrappers for exported C functions.
|
| + entries = []
|
| + for entry in env.cfunc_entries:
|
| + if (entry.api
|
| + or entry.defined_in_pxd
|
| + or (Options.cimport_from_pyx and not entry.visibility == 'extern')):
|
| + entries.append(entry)
|
| + if entries:
|
| + env.use_utility_code(
|
| + UtilityCode.load_cached("FunctionExport", "ImportExport.c"))
|
| + for entry in entries:
|
| + signature = entry.type.signature_string()
|
| + code.putln('if (__Pyx_ExportFunction("%s", (void (*)(void))%s, "%s") < 0) %s' % (
|
| + entry.name,
|
| + entry.cname,
|
| + signature,
|
| + code.error_goto(self.pos)))
|
| +
|
| + def generate_type_import_code_for_module(self, module, env, code):
|
| + # Generate type import code for all exported extension types in
|
| + # an imported module.
|
| + #if module.c_class_entries:
|
| + for entry in module.c_class_entries:
|
| + if entry.defined_in_pxd:
|
| + self.generate_type_import_code(env, entry.type, entry.pos, code)
|
| +
|
| + def specialize_fused_types(self, pxd_env):
|
| + """
|
| + If fused c(p)def functions are defined in an imported pxd, but not
|
| + used in this implementation file, we still have fused entries and
|
| + not specialized ones. This method replaces any fused entries with their
|
| + specialized ones.
|
| + """
|
| + for entry in pxd_env.cfunc_entries[:]:
|
| + if entry.type.is_fused:
|
| + # This call modifies the cfunc_entries in-place
|
| + entry.type.get_all_specialized_function_types()
|
| +
|
| + def generate_c_variable_import_code_for_module(self, module, env, code):
|
| + # Generate import code for all exported C functions in a cimported module.
|
| + entries = []
|
| + for entry in module.var_entries:
|
| + if entry.defined_in_pxd:
|
| + entries.append(entry)
|
| + if entries:
|
| + env.use_utility_code(
|
| + UtilityCode.load_cached("ModuleImport", "ImportExport.c"))
|
| + env.use_utility_code(
|
| + UtilityCode.load_cached("VoidPtrImport", "ImportExport.c"))
|
| + temp = code.funcstate.allocate_temp(py_object_type, manage_ref=True)
|
| + code.putln(
|
| + '%s = __Pyx_ImportModule("%s"); if (!%s) %s' % (
|
| + temp,
|
| + module.qualified_name,
|
| + temp,
|
| + code.error_goto(self.pos)))
|
| + for entry in entries:
|
| + if env is module:
|
| + cname = entry.cname
|
| + else:
|
| + cname = module.mangle(Naming.varptr_prefix, entry.name)
|
| + signature = entry.type.declaration_code("")
|
| + code.putln(
|
| + 'if (__Pyx_ImportVoidPtr(%s, "%s", (void **)&%s, "%s") < 0) %s' % (
|
| + temp, entry.name, cname, signature,
|
| + code.error_goto(self.pos)))
|
| + code.putln("Py_DECREF(%s); %s = 0;" % (temp, temp))
|
| +
|
| + def generate_c_function_import_code_for_module(self, module, env, code):
|
| + # Generate import code for all exported C functions in a cimported module.
|
| + entries = []
|
| + for entry in module.cfunc_entries:
|
| + if entry.defined_in_pxd and entry.used:
|
| + entries.append(entry)
|
| + if entries:
|
| + env.use_utility_code(
|
| + UtilityCode.load_cached("ModuleImport", "ImportExport.c"))
|
| + env.use_utility_code(
|
| + UtilityCode.load_cached("FunctionImport", "ImportExport.c"))
|
| + temp = code.funcstate.allocate_temp(py_object_type, manage_ref=True)
|
| + code.putln(
|
| + '%s = __Pyx_ImportModule("%s"); if (!%s) %s' % (
|
| + temp,
|
| + module.qualified_name,
|
| + temp,
|
| + code.error_goto(self.pos)))
|
| + for entry in entries:
|
| + code.putln(
|
| + 'if (__Pyx_ImportFunction(%s, "%s", (void (**)(void))&%s, "%s") < 0) %s' % (
|
| + temp,
|
| + entry.name,
|
| + entry.cname,
|
| + entry.type.signature_string(),
|
| + code.error_goto(self.pos)))
|
| + code.putln("Py_DECREF(%s); %s = 0;" % (temp, temp))
|
| +
|
| + def generate_type_init_code(self, env, code):
|
| + # Generate type import code for extern extension types
|
| + # and type ready code for non-extern ones.
|
| + for entry in env.c_class_entries:
|
| + if entry.visibility == 'extern' and not entry.utility_code_definition:
|
| + self.generate_type_import_code(env, entry.type, entry.pos, code)
|
| + else:
|
| + self.generate_base_type_import_code(env, entry, code)
|
| + 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 and not
|
| + base_type.is_builtin_type and not entry.utility_code_definition):
|
| + self.generate_type_import_code(env, base_type, self.pos, code)
|
| +
|
| + def generate_type_import_code(self, env, type, pos, code):
|
| + # If not already done, generate code to import the typeobject of an
|
| + # extension type defined in another module, and extract its C method
|
| + # table pointer if any.
|
| + if type in env.types_imported:
|
| + return
|
| + env.use_utility_code(UtilityCode.load_cached("TypeImport", "ImportExport.c"))
|
| + self.generate_type_import_call(type, code,
|
| + code.error_goto_if_null(type.typeptr_cname, pos))
|
| + if type.vtabptr_cname:
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached('GetVTable', 'ImportExport.c'))
|
| + code.putln("%s = (struct %s*)__Pyx_GetVtable(%s->tp_dict); %s" % (
|
| + type.vtabptr_cname,
|
| + type.vtabstruct_cname,
|
| + type.typeptr_cname,
|
| + code.error_goto_if_null(type.vtabptr_cname, pos)))
|
| + env.types_imported.add(type)
|
| +
|
| + py3_type_name_map = {'str' : 'bytes', 'unicode' : 'str'}
|
| +
|
| + def generate_type_import_call(self, type, code, error_code):
|
| + if type.typedef_flag:
|
| + objstruct = type.objstruct_cname
|
| + else:
|
| + objstruct = "struct %s" % type.objstruct_cname
|
| + sizeof_objstruct = objstruct
|
| + module_name = type.module_name
|
| + condition = replacement = None
|
| + if module_name not in ('__builtin__', 'builtins'):
|
| + module_name = '"%s"' % module_name
|
| + else:
|
| + module_name = '__Pyx_BUILTIN_MODULE_NAME'
|
| + if type.name in Code.non_portable_builtins_map:
|
| + condition, replacement = Code.non_portable_builtins_map[type.name]
|
| + if objstruct in Code.basicsize_builtins_map:
|
| + # Some builtin types have a tp_basicsize which differs from sizeof(...):
|
| + sizeof_objstruct = Code.basicsize_builtins_map[objstruct]
|
| +
|
| + code.put('%s = __Pyx_ImportType(%s,' % (
|
| + type.typeptr_cname,
|
| + module_name))
|
| +
|
| + if condition and replacement:
|
| + code.putln("") # start in new line
|
| + code.putln("#if %s" % condition)
|
| + code.putln('"%s",' % replacement)
|
| + code.putln("#else")
|
| + code.putln('"%s",' % type.name)
|
| + code.putln("#endif")
|
| + else:
|
| + code.put(' "%s", ' % type.name)
|
| +
|
| + if sizeof_objstruct != objstruct:
|
| + if not condition:
|
| + code.putln("") # start in new line
|
| + code.putln("#if CYTHON_COMPILING_IN_PYPY")
|
| + code.putln('sizeof(%s),' % objstruct)
|
| + code.putln("#else")
|
| + code.putln('sizeof(%s),' % sizeof_objstruct)
|
| + code.putln("#endif")
|
| + else:
|
| + code.put('sizeof(%s), ' % objstruct)
|
| +
|
| + code.putln('%i); %s' % (
|
| + not type.is_external or type.is_subclassed,
|
| + error_code))
|
| +
|
| + def generate_type_ready_code(self, env, entry, code):
|
| + # Generate a call to PyType_Ready for an extension
|
| + # type defined in this module.
|
| + type = entry.type
|
| + typeobj_cname = type.typeobj_cname
|
| + scope = type.scope
|
| + if scope: # could be None if there was an error
|
| + if entry.visibility != 'extern':
|
| + for slot in TypeSlots.slot_table:
|
| + slot.generate_dynamic_init_code(scope, code)
|
| + code.putln(
|
| + "if (PyType_Ready(&%s) < 0) %s" % (
|
| + typeobj_cname,
|
| + code.error_goto(entry.pos)))
|
| + # Don't inherit tp_print from builtin types, restoring the
|
| + # behavior of using tp_repr or tp_str instead.
|
| + code.putln("%s.tp_print = 0;" % typeobj_cname)
|
| + # Fix special method docstrings. This is a bit of a hack, but
|
| + # unless we let PyType_Ready create the slot wrappers we have
|
| + # a significant performance hit. (See trac #561.)
|
| + for func in entry.type.scope.pyfunc_entries:
|
| + is_buffer = func.name in ('__getbuffer__',
|
| + '__releasebuffer__')
|
| + if (func.is_special and Options.docstrings and
|
| + func.wrapperbase_cname and not is_buffer):
|
| + slot = TypeSlots.method_name_to_slot[func.name]
|
| + preprocessor_guard = slot.preprocessor_guard_code()
|
| + if preprocessor_guard:
|
| + code.putln(preprocessor_guard)
|
| + code.putln('#if CYTHON_COMPILING_IN_CPYTHON')
|
| + code.putln("{")
|
| + code.putln(
|
| + 'PyObject *wrapper = __Pyx_GetAttrString((PyObject *)&%s, "%s"); %s' % (
|
| + typeobj_cname,
|
| + func.name,
|
| + code.error_goto_if_null('wrapper', entry.pos)))
|
| + code.putln(
|
| + "if (Py_TYPE(wrapper) == &PyWrapperDescr_Type) {")
|
| + code.putln(
|
| + "%s = *((PyWrapperDescrObject *)wrapper)->d_base;" % (
|
| + func.wrapperbase_cname))
|
| + code.putln(
|
| + "%s.doc = %s;" % (func.wrapperbase_cname, func.doc_cname))
|
| + code.putln(
|
| + "((PyWrapperDescrObject *)wrapper)->d_base = &%s;" % (
|
| + func.wrapperbase_cname))
|
| + code.putln("}")
|
| + code.putln("}")
|
| + code.putln('#endif')
|
| + if preprocessor_guard:
|
| + code.putln('#endif')
|
| + if type.vtable_cname:
|
| + code.putln(
|
| + "if (__Pyx_SetVtable(%s.tp_dict, %s) < 0) %s" % (
|
| + typeobj_cname,
|
| + type.vtabptr_cname,
|
| + code.error_goto(entry.pos)))
|
| + code.globalstate.use_utility_code(
|
| + UtilityCode.load_cached('SetVTable', 'ImportExport.c'))
|
| + if not type.scope.is_internal and not type.scope.directives['internal']:
|
| + # scope.is_internal is set for types defined by
|
| + # Cython (such as closures), the 'internal'
|
| + # directive is set by users
|
| + code.putln(
|
| + 'if (__Pyx_SetAttrString(%s, "%s", (PyObject *)&%s) < 0) %s' % (
|
| + Naming.module_cname,
|
| + scope.class_name,
|
| + typeobj_cname,
|
| + code.error_goto(entry.pos)))
|
| + weakref_entry = scope.lookup_here("__weakref__")
|
| + if weakref_entry:
|
| + if weakref_entry.type is py_object_type:
|
| + tp_weaklistoffset = "%s.tp_weaklistoffset" % typeobj_cname
|
| + if type.typedef_flag:
|
| + objstruct = type.objstruct_cname
|
| + else:
|
| + objstruct = "struct %s" % type.objstruct_cname
|
| + code.putln("if (%s == 0) %s = offsetof(%s, %s);" % (
|
| + tp_weaklistoffset,
|
| + tp_weaklistoffset,
|
| + objstruct,
|
| + weakref_entry.cname))
|
| + else:
|
| + error(weakref_entry.pos, "__weakref__ slot must be of type 'object'")
|
| +
|
| + def generate_exttype_vtable_init_code(self, entry, code):
|
| + # Generate code to initialise the C method table of an
|
| + # extension type.
|
| + type = entry.type
|
| + if type.vtable_cname:
|
| + code.putln(
|
| + "%s = &%s;" % (
|
| + type.vtabptr_cname,
|
| + type.vtable_cname))
|
| + if type.base_type and type.base_type.vtabptr_cname:
|
| + code.putln(
|
| + "%s.%s = *%s;" % (
|
| + type.vtable_cname,
|
| + Naming.obj_base_cname,
|
| + type.base_type.vtabptr_cname))
|
| +
|
| + c_method_entries = [
|
| + entry for entry in type.scope.cfunc_entries
|
| + if entry.func_cname ]
|
| + if c_method_entries:
|
| + for meth_entry in c_method_entries:
|
| + cast = meth_entry.type.signature_cast_string()
|
| + code.putln(
|
| + "%s.%s = %s%s;" % (
|
| + type.vtable_cname,
|
| + meth_entry.cname,
|
| + cast,
|
| + meth_entry.func_cname))
|
| +
|
| + def generate_typeptr_assignment_code(self, entry, code):
|
| + # Generate code to initialise the typeptr of an extension
|
| + # type defined in this module to point to its type object.
|
| + type = entry.type
|
| + if type.typeobj_cname:
|
| + code.putln(
|
| + "%s = &%s;" % (
|
| + type.typeptr_cname, type.typeobj_cname))
|
| +
|
| +def generate_cfunction_declaration(entry, env, code, definition):
|
| + from_cy_utility = entry.used and entry.utility_code_definition
|
| + if entry.used and entry.inline_func_in_pxd or (not entry.in_cinclude and (definition
|
| + or entry.defined_in_pxd or entry.visibility == 'extern' or from_cy_utility)):
|
| + if entry.visibility == 'extern':
|
| + storage_class = Naming.extern_c_macro
|
| + dll_linkage = "DL_IMPORT"
|
| + elif entry.visibility == 'public':
|
| + storage_class = Naming.extern_c_macro
|
| + dll_linkage = "DL_EXPORT"
|
| + elif entry.visibility == 'private':
|
| + storage_class = "static"
|
| + dll_linkage = None
|
| + else:
|
| + storage_class = "static"
|
| + dll_linkage = None
|
| + type = entry.type
|
| +
|
| + if entry.defined_in_pxd and not definition:
|
| + storage_class = "static"
|
| + dll_linkage = None
|
| + type = CPtrType(type)
|
| +
|
| + header = type.declaration_code(
|
| + entry.cname, dll_linkage = dll_linkage)
|
| + modifiers = code.build_function_modifiers(entry.func_modifiers)
|
| + code.putln("%s %s%s; /*proto*/" % (
|
| + storage_class,
|
| + modifiers,
|
| + header))
|
| +
|
| +#------------------------------------------------------------------------------------
|
| +#
|
| +# Runtime support code
|
| +#
|
| +#------------------------------------------------------------------------------------
|
| +
|
| +streq_utility_code = UtilityCode(
|
| +proto = """
|
| +static CYTHON_INLINE int __Pyx_StrEq(const char *, const char *); /*proto*/
|
| +""",
|
| +impl = """
|
| +static CYTHON_INLINE int __Pyx_StrEq(const char *s1, const char *s2) {
|
| + while (*s1 != '\\0' && *s1 == *s2) { s1++; s2++; }
|
| + return *s1 == *s2;
|
| +}
|
| +""")
|
| +
|
| +#------------------------------------------------------------------------------------
|
| +
|
| +import_star_utility_code = """
|
| +
|
| +/* import_all_from is an unexposed function from ceval.c */
|
| +
|
| +static int
|
| +__Pyx_import_all_from(PyObject *locals, PyObject *v)
|
| +{
|
| + PyObject *all = __Pyx_GetAttrString(v, "__all__");
|
| + PyObject *dict, *name, *value;
|
| + int skip_leading_underscores = 0;
|
| + int pos, err;
|
| +
|
| + if (all == NULL) {
|
| + if (!PyErr_ExceptionMatches(PyExc_AttributeError))
|
| + return -1; /* Unexpected error */
|
| + PyErr_Clear();
|
| + dict = __Pyx_GetAttrString(v, "__dict__");
|
| + if (dict == NULL) {
|
| + if (!PyErr_ExceptionMatches(PyExc_AttributeError))
|
| + return -1;
|
| + PyErr_SetString(PyExc_ImportError,
|
| + "from-import-* object has no __dict__ and no __all__");
|
| + return -1;
|
| + }
|
| +#if PY_MAJOR_VERSION < 3
|
| + all = PyObject_CallMethod(dict, (char *)"keys", NULL);
|
| +#else
|
| + all = PyMapping_Keys(dict);
|
| +#endif
|
| + Py_DECREF(dict);
|
| + if (all == NULL)
|
| + return -1;
|
| + skip_leading_underscores = 1;
|
| + }
|
| +
|
| + for (pos = 0, err = 0; ; pos++) {
|
| + name = PySequence_GetItem(all, pos);
|
| + if (name == NULL) {
|
| + if (!PyErr_ExceptionMatches(PyExc_IndexError))
|
| + err = -1;
|
| + else
|
| + PyErr_Clear();
|
| + break;
|
| + }
|
| + if (skip_leading_underscores &&
|
| +#if PY_MAJOR_VERSION < 3
|
| + PyString_Check(name) &&
|
| + PyString_AS_STRING(name)[0] == '_')
|
| +#else
|
| + PyUnicode_Check(name) &&
|
| + PyUnicode_AS_UNICODE(name)[0] == '_')
|
| +#endif
|
| + {
|
| + Py_DECREF(name);
|
| + continue;
|
| + }
|
| + value = PyObject_GetAttr(v, name);
|
| + if (value == NULL)
|
| + err = -1;
|
| + else if (PyDict_CheckExact(locals))
|
| + err = PyDict_SetItem(locals, name, value);
|
| + else
|
| + err = PyObject_SetItem(locals, name, value);
|
| + Py_DECREF(name);
|
| + Py_XDECREF(value);
|
| + if (err != 0)
|
| + break;
|
| + }
|
| + Py_DECREF(all);
|
| + return err;
|
| +}
|
| +
|
| +
|
| +static int %(IMPORT_STAR)s(PyObject* m) {
|
| +
|
| + int i;
|
| + int ret = -1;
|
| + char* s;
|
| + PyObject *locals = 0;
|
| + PyObject *list = 0;
|
| +#if PY_MAJOR_VERSION >= 3
|
| + PyObject *utf8_name = 0;
|
| +#endif
|
| + PyObject *name;
|
| + PyObject *item;
|
| +
|
| + locals = PyDict_New(); if (!locals) goto bad;
|
| + if (__Pyx_import_all_from(locals, m) < 0) goto bad;
|
| + list = PyDict_Items(locals); if (!list) goto bad;
|
| +
|
| + for(i=0; i<PyList_GET_SIZE(list); i++) {
|
| + name = PyTuple_GET_ITEM(PyList_GET_ITEM(list, i), 0);
|
| + item = PyTuple_GET_ITEM(PyList_GET_ITEM(list, i), 1);
|
| +#if PY_MAJOR_VERSION >= 3
|
| + utf8_name = PyUnicode_AsUTF8String(name);
|
| + if (!utf8_name) goto bad;
|
| + s = PyBytes_AS_STRING(utf8_name);
|
| + if (%(IMPORT_STAR_SET)s(item, name, s) < 0) goto bad;
|
| + Py_DECREF(utf8_name); utf8_name = 0;
|
| +#else
|
| + s = PyString_AsString(name);
|
| + if (!s) goto bad;
|
| + if (%(IMPORT_STAR_SET)s(item, name, s) < 0) goto bad;
|
| +#endif
|
| + }
|
| + ret = 0;
|
| +
|
| +bad:
|
| + Py_XDECREF(locals);
|
| + Py_XDECREF(list);
|
| +#if PY_MAJOR_VERSION >= 3
|
| + Py_XDECREF(utf8_name);
|
| +#endif
|
| + return ret;
|
| +}
|
| +""" % {'IMPORT_STAR' : Naming.import_star,
|
| + 'IMPORT_STAR_SET' : Naming.import_star_set }
|
| +
|
| +refnanny_utility_code = UtilityCode.load_cached("Refnanny", "ModuleSetupCode.c")
|
| +
|
| +main_method = UtilityCode.load("MainFunction", "Embed.c")
|
| +
|
| +packed_struct_utility_code = UtilityCode(proto="""
|
| +#if defined(__GNUC__)
|
| +#define __Pyx_PACKED __attribute__((__packed__))
|
| +#else
|
| +#define __Pyx_PACKED
|
| +#endif
|
| +""", impl="", proto_block='utility_code_proto_before_types')
|
| +
|
| +capsule_utility_code = UtilityCode.load("Capsule")
|
|
|
Chromium Code Reviews
Issue 385073004:
Adding cython v0.20.2 in third-party. (Closed)
Base URL: svn://svn.chromium.org/chrome/trunk/src