#!/usr/bin/env python # generator.py # simple C++ generator, originally targetted for Spidermonkey bindings # # Copyright (c) 2011 - Zynga Inc. from clang import cindex import sys import yaml import re import os import inspect import traceback from Cheetah.Template import Template if(sys.version_info.major >= 3): import configparser as ConfigParser else: import ConfigParser type_map = { cindex.TypeKind.VOID : "void", cindex.TypeKind.BOOL : "bool", cindex.TypeKind.CHAR_U : "unsigned char", cindex.TypeKind.UCHAR : "unsigned char", cindex.TypeKind.CHAR16 : "char", cindex.TypeKind.CHAR32 : "char", cindex.TypeKind.USHORT : "unsigned short", cindex.TypeKind.UINT : "unsigned int", cindex.TypeKind.ULONG : "unsigned long", cindex.TypeKind.ULONGLONG : "unsigned long long", cindex.TypeKind.CHAR_S : "char", cindex.TypeKind.SCHAR : "char", cindex.TypeKind.WCHAR : "wchar_t", cindex.TypeKind.SHORT : "short", cindex.TypeKind.INT : "int", cindex.TypeKind.LONG : "long", cindex.TypeKind.LONGLONG : "long long", cindex.TypeKind.FLOAT : "float", cindex.TypeKind.DOUBLE : "double", cindex.TypeKind.LONGDOUBLE : "long double", cindex.TypeKind.NULLPTR : "NULL", cindex.TypeKind.OBJCID : "id", cindex.TypeKind.OBJCCLASS : "class", cindex.TypeKind.OBJCSEL : "SEL", # cindex.TypeKind.ENUM : "int" } INVALID_NATIVE_TYPE = "??" default_arg_type_arr = [ # An integer literal. cindex.CursorKind.INTEGER_LITERAL, # A floating point number literal. cindex.CursorKind.FLOATING_LITERAL, # An imaginary number literal. cindex.CursorKind.IMAGINARY_LITERAL, # A string literal. cindex.CursorKind.STRING_LITERAL, # A character literal. cindex.CursorKind.CHARACTER_LITERAL, # [C++ 2.13.5] C++ Boolean Literal. cindex.CursorKind.CXX_BOOL_LITERAL_EXPR, # [C++0x 2.14.7] C++ Pointer Literal. cindex.CursorKind.CXX_NULL_PTR_LITERAL_EXPR, cindex.CursorKind.GNU_NULL_EXPR, # An expression that refers to some value declaration, such as a function, # varible, or enumerator. cindex.CursorKind.DECL_REF_EXPR ] stl_type_map = { 'std_function_args': 1000, 'std::unordered_map': 2, 'std::unordered_multimap': 2, 'std::map': 2, 'std::multimap': 2, 'std::vector': 1, 'std::list': 1, 'std::forward_list': 1, 'std::priority_queue': 1, 'std::set': 1, 'std::multiset': 1, 'std::unordered_set': 1, 'std::unordered_multiset': 1, 'std::stack': 1, 'std::queue': 1, 'std::deque': 1, 'std::array': 1, 'unordered_map': 2, 'unordered_multimap': 2, 'map': 2, 'multimap': 2, 'vector': 1, 'list': 1, 'forward_list': 1, 'priority_queue': 1, 'set': 1, 'multiset': 1, 'unordered_set': 1, 'unordered_multiset': 1, 'stack': 1, 'queue': 1, 'deque': 1, 'array': 1 } def find_sub_string_count(s, start, end, substr): count = 0 pos = s.find(substr, start, end) if pos != -1: next_count = find_sub_string_count(s, pos + 1, end, substr) count = next_count + 1 return count def split_container_name(name): name = name.strip() left = name.find('<') right = -1 if left != -1: right = name.rfind('>') if left == -1 or right == -1: return [name] first = name[:left] results = [first] comma = name.find(',', left + 1, right) if comma == -1: results.append(name[left+1:right].strip()) return results left += 1 while comma != -1: lt_count = find_sub_string_count(name, left, comma, '<') gt_count = find_sub_string_count(name, left, comma, '>') if lt_count == gt_count: results.append(name[left:comma].strip()) left = comma + 1 comma = name.find(',', comma + 1, right) if left < right: results.append(name[left:right].strip()) name_len = len(name) if right < name_len - 1: results.append(name[right+1:].strip()) return results def normalize_type_name_by_sections(sections): container_name = sections[0] suffix = '' index = len(sections) - 1 while sections[index] == '*' or sections[index] == '&': suffix += sections[index] index -= 1 name_for_search = container_name.replace('const ', '').replace('&', '').replace('*', '').strip() if name_for_search in stl_type_map: normalized_name = container_name + '<' + ', '.join(sections[1:1+stl_type_map[name_for_search]]) + '>' + suffix else: normalized_name = container_name + '<' + ', '.join(sections[1:]) + '>' return normalized_name def normalize_std_function_by_sections(sections): normalized_name = '' if sections[0] == 'std_function_args': normalized_name = '(' + ', '.join(sections[1:]) + ')' elif sections[0] == 'std::function' or sections[0] == 'function': normalized_name = 'std::function<' + sections[1] + ' ' + sections[2] + '>' else: assert(False) return normalized_name def normalize_type_str(s, depth=1): if s.find('std::function') == 0 or s.find('function') == 0: start = s.find('<') assert(start > 0) sections = [s[:start]] # std::function start += 1 ret_pos = s.find('(', start) sections.append(s[start:ret_pos].strip()) # return type end = s.find(')', ret_pos + 1) sections.append('std_function_args<' + s[ret_pos+1:end].strip() + '>') else: sections = split_container_name(s) section_len = len(sections) if section_len == 1: return sections[0] # for section in sections: # print('>' * depth + section) if sections[0] == 'const std::basic_string' or sections[0] == 'const basic_string': last_section = sections[len(sections) - 1] if last_section == '&' or last_section == '*' or last_section.startswith('::'): return 'const std::string' + last_section else: return 'const std::string' elif sections[0] == 'std::basic_string' or sections[0] == 'basic_string': last_section = sections[len(sections) - 1] if last_section == '&' or last_section == '*' or last_section.startswith('::'): return 'std::string' + last_section else: return 'std::string' for i in range(1, section_len): sections[i] = normalize_type_str(sections[i], depth+1) if sections[0] == 'std::function' or sections[0] == 'function' or sections[0] == 'std_function_args': normalized_name = normalize_std_function_by_sections(sections) else: normalized_name = normalize_type_name_by_sections(sections) return normalized_name class BaseEnumeration(object): """ Common base class for named enumerations held in sync with Index.h values. Subclasses must define their own _kinds and _name_map members, as: _kinds = [] _name_map = None These values hold the per-subclass instances and value-to-name mappings, respectively. """ def __init__(self, value): if value >= len(self.__class__._kinds): self.__class__._kinds += [None] * (value - len(self.__class__._kinds) + 1) if self.__class__._kinds[value] is not None: raise ValueError('{0} value {1} already loaded'.format( str(self.__class__), value)) self.value = value self.__class__._kinds[value] = self self.__class__._name_map = None def from_param(self): return self.value @property def name(self): """Get the enumeration name of this cursor kind.""" if self._name_map is None: self._name_map = {} for key, value in self.__class__.__dict__.items(): if isinstance(value, self.__class__): self._name_map[value] = key return self._name_map[self] @classmethod def from_id(cls, id): if id >= len(cls._kinds) or cls._kinds[id] is None: raise ValueError('Unknown template argument kind %d' % id) return cls._kinds[id] def __repr__(self): return '%s.%s' % (self.__class__, self.name,) ### Availability Kinds ### class AvailabilityKind(BaseEnumeration): """ Describes the availability of an entity. """ # The unique kind objects, indexed by id. _kinds = [] _name_map = None def __repr__(self): return 'AvailabilityKind.%s' % (self.name,) AvailabilityKind.AVAILABLE = AvailabilityKind(0) AvailabilityKind.DEPRECATED = AvailabilityKind(1) AvailabilityKind.NOT_AVAILABLE = AvailabilityKind(2) AvailabilityKind.NOT_ACCESSIBLE = AvailabilityKind(3) def get_availability(cursor): """ Retrieves the availability of the entity pointed at by the cursor. """ if not hasattr(cursor, '_availability'): cursor._availability = cindex.conf.lib.clang_getCursorAvailability(cursor) return AvailabilityKind.from_id(cursor._availability) def native_name_from_type(ntype, underlying=False): kind = ntype.kind #get_canonical().kind const = "" #"const " if ntype.is_const_qualified() else "" if not underlying and kind == cindex.TypeKind.ENUM: decl = ntype.get_declaration() return get_namespaced_name(decl) elif kind in type_map: return const + type_map[kind] elif kind == cindex.TypeKind.RECORD: # might be an std::string decl = ntype.get_declaration() parent = decl.semantic_parent cdecl = ntype.get_canonical().get_declaration() cparent = cdecl.semantic_parent if decl.spelling == "string" and parent and parent.spelling == "std": return "std::string" elif cdecl.spelling == "function" and cparent and cparent.spelling == "std": return "std::function" else: # print >> sys.stderr, "probably a function pointer: " + str(decl.spelling) return const + decl.spelling else: # name = ntype.get_declaration().spelling # print >> sys.stderr, "Unknown type: " + str(kind) + " " + str(name) return INVALID_NATIVE_TYPE # pdb.set_trace() def build_namespace(cursor, namespaces=[]): ''' build the full namespace for a specific cursor ''' if cursor: parent = cursor.semantic_parent if parent: if parent.kind == cindex.CursorKind.NAMESPACE or parent.kind == cindex.CursorKind.CLASS_DECL: namespaces.append(parent.displayname) build_namespace(parent, namespaces) return namespaces def get_namespaced_name(declaration_cursor): ns_list = build_namespace(declaration_cursor, []) ns_list.reverse() ns = "::".join(ns_list) display_name = declaration_cursor.displayname.replace("::__ndk1", "") if len(ns) > 0: ns = ns.replace("::__ndk1", "") return ns + "::" + display_name return display_name def generate_namespace_list(cursor, namespaces=[]): ''' build the full namespace for a specific cursor ''' if cursor: parent = cursor.semantic_parent if parent: if parent.kind == cindex.CursorKind.NAMESPACE or parent.kind == cindex.CursorKind.CLASS_DECL: if parent.kind == cindex.CursorKind.NAMESPACE: namespaces.append(parent.displayname) generate_namespace_list(parent, namespaces) return namespaces def get_namespace_name(declaration_cursor): ns_list = generate_namespace_list(declaration_cursor, []) ns_list.reverse() ns = "::".join(ns_list) if len(ns) > 0: ns = ns.replace("::__ndk1", "") return ns + "::" return declaration_cursor.displayname class NativeType(object): def __init__(self): self.is_object = False self.is_function = False self.is_enum = False self.is_numeric = False self.not_supported = False self.param_types = [] self.ret_type = None self.namespaced_name = "" # with namespace and class name self.namespace_name = "" # only contains namespace self.name = "" self.whole_name = None self.is_const = False self.is_pointer = False self.canonical_type = None @staticmethod def from_type(ntype): if ntype.kind == cindex.TypeKind.POINTER: nt = NativeType.from_type(ntype.get_pointee()) if None != nt.canonical_type: nt.canonical_type.name += "*" nt.canonical_type.namespaced_name += "*" nt.canonical_type.whole_name += "*" nt.name += "*" nt.namespaced_name += "*" nt.whole_name = nt.namespaced_name nt.is_enum = False nt.is_const = ntype.get_pointee().is_const_qualified() nt.is_pointer = True if nt.is_const: nt.whole_name = "const " + nt.whole_name elif ntype.kind == cindex.TypeKind.LVALUEREFERENCE: nt = NativeType.from_type(ntype.get_pointee()) nt.is_const = ntype.get_pointee().is_const_qualified() nt.whole_name = nt.namespaced_name + "&" if nt.is_const: nt.whole_name = "const " + nt.whole_name if None != nt.canonical_type: nt.canonical_type.whole_name += "&" else: nt = NativeType() decl = ntype.get_declaration() nt.namespaced_name = get_namespaced_name(decl).replace('::__ndk1', '') if decl.kind == cindex.CursorKind.CLASS_DECL \ and not nt.namespaced_name.startswith('std::function') \ and not nt.namespaced_name.startswith('std::string') \ and not nt.namespaced_name.startswith('std::basic_string'): nt.is_object = True displayname = decl.displayname.replace('::__ndk1', '') nt.name = normalize_type_str(displayname) nt.namespaced_name = normalize_type_str(nt.namespaced_name) nt.namespace_name = get_namespace_name(decl) nt.whole_name = nt.namespaced_name else: if decl.kind == cindex.CursorKind.NO_DECL_FOUND: nt.name = native_name_from_type(ntype) else: nt.name = decl.spelling nt.namespace_name = get_namespace_name(decl) if len(nt.namespaced_name) > 0: nt.namespaced_name = normalize_type_str(nt.namespaced_name) if nt.namespaced_name.startswith("std::function"): nt.name = "std::function" if len(nt.namespaced_name) == 0 or nt.namespaced_name.find("::") == -1: nt.namespaced_name = nt.name nt.whole_name = nt.namespaced_name nt.is_const = ntype.is_const_qualified() if nt.is_const: nt.whole_name = "const " + nt.whole_name # Check whether it's a std::function typedef cdecl = ntype.get_canonical().get_declaration() if None != cdecl.spelling and 0 == cmp(cdecl.spelling, "function"): nt.name = "std::function" if nt.name != INVALID_NATIVE_TYPE and nt.name != "std::string" and nt.name != "std::function": if ntype.kind == cindex.TypeKind.UNEXPOSED or ntype.kind == cindex.TypeKind.TYPEDEF or ntype.kind == cindex.TypeKind.ELABORATED: ret = NativeType.from_type(ntype.get_canonical()) if ret.name != "": if decl.kind == cindex.CursorKind.TYPEDEF_DECL: ret.canonical_type = nt return ret nt.is_enum = ntype.get_canonical().kind == cindex.TypeKind.ENUM if nt.name == "std::function": nt.is_object = False lambda_display_name = get_namespaced_name(cdecl) lambda_display_name = lambda_display_name.replace("::__ndk1", "") lambda_display_name = normalize_type_str(lambda_display_name) nt.namespaced_name = lambda_display_name r = re.compile('function<([^\s]+).*\((.*)\)>').search(nt.namespaced_name) (ret_type, params) = r.groups() params = filter(None, params.split(", ")) nt.is_function = True nt.ret_type = NativeType.from_string(ret_type) nt.param_types = [NativeType.from_string(string) for string in params] # mark argument as not supported if nt.name == INVALID_NATIVE_TYPE: nt.not_supported = True if re.search("(short|int|double|float|long|size_t)$", nt.name) is not None: nt.is_numeric = True return nt @staticmethod def from_string(displayname): displayname = displayname.replace(" *", "*") nt = NativeType() nt.name = displayname.split("::")[-1] nt.namespaced_name = displayname nt.whole_name = nt.namespaced_name nt.is_object = True return nt @property def lambda_parameters(self): params = ["%s larg%d" % (str(nt), i) for i, nt in enumerate(self.param_types)] return ", ".join(params) @staticmethod def dict_has_key_re(dict, real_key_list): for real_key in real_key_list: for (k, v) in dict.items(): if k.startswith('@'): k = k[1:] match = re.match("^" + k + "$", real_key) if match: return True else: if k == real_key: return True return False @staticmethod def dict_get_value_re(dict, real_key_list): for real_key in real_key_list: for (k, v) in dict.items(): if k.startswith('@'): k = k[1:] match = re.match("^" + k + "$", real_key) if match: return v else: if k == real_key: return v return None @staticmethod def dict_replace_value_re(dict, real_key_list): for real_key in real_key_list: for (k, v) in dict.items(): if k.startswith('@'): k = k[1:] match = re.match('.*' + k, real_key) if match: return re.sub(k, v, real_key) else: if k == real_key: return v return None def from_native(self, convert_opts): assert(convert_opts.has_key('generator')) generator = convert_opts['generator'] keys = [] if self.canonical_type != None: keys.append(self.canonical_type.name) keys.append(self.name) from_native_dict = generator.config['conversions']['from_native'] if self.is_object: if not NativeType.dict_has_key_re(from_native_dict, keys): keys.append("object") elif self.is_enum: keys.append("int") if NativeType.dict_has_key_re(from_native_dict, keys): tpl = NativeType.dict_get_value_re(from_native_dict, keys) tpl = Template(tpl, searchList=[convert_opts]) return str(tpl).rstrip() return "#pragma warning NO CONVERSION FROM NATIVE FOR " + self.name def to_native(self, convert_opts): assert('generator' in convert_opts) generator = convert_opts['generator'] keys = [] if self.canonical_type != None: keys.append(self.canonical_type.name) keys.append(self.name) to_native_dict = generator.config['conversions']['to_native'] if self.is_object: if not NativeType.dict_has_key_re(to_native_dict, keys): keys.append("object") elif self.is_enum: keys.append("int") if self.is_function: tpl = Template(file=os.path.join(generator.target, "templates", "lambda.c"), searchList=[convert_opts, self]) indent = convert_opts['level'] * "\t" return str(tpl).replace("\n", "\n" + indent) if NativeType.dict_has_key_re(to_native_dict, keys): tpl = NativeType.dict_get_value_re(to_native_dict, keys) tpl = Template(tpl, searchList=[convert_opts]) return str(tpl).rstrip() return "#pragma warning NO CONVERSION TO NATIVE FOR " + self.name + "\n" + convert_opts['level'] * "\t" + "ok = false" def to_string(self, generator): conversions = generator.config['conversions'] if conversions.has_key('native_types'): native_types_dict = conversions['native_types'] if NativeType.dict_has_key_re(native_types_dict, [self.namespaced_name]): return NativeType.dict_get_value_re(native_types_dict, [self.namespaced_name]) name = self.namespaced_name to_native_dict = generator.config['conversions']['to_native'] from_native_dict = generator.config['conversions']['from_native'] use_typedef = False typedef_name = self.canonical_type.name if None != self.canonical_type else None if None != typedef_name: if NativeType.dict_has_key_re(to_native_dict, [typedef_name]) or NativeType.dict_has_key_re(from_native_dict, [typedef_name]): use_typedef = True if use_typedef and self.canonical_type: name = self.canonical_type.namespaced_name return "const " + name if (self.is_pointer and self.is_const) else name def get_whole_name(self, generator): conversions = generator.config['conversions'] to_native_dict = conversions['to_native'] from_native_dict = conversions['from_native'] use_typedef = False name = self.whole_name typedef_name = self.canonical_type.name if None != self.canonical_type else None if None != typedef_name: if NativeType.dict_has_key_re(to_native_dict, [typedef_name]) or NativeType.dict_has_key_re(from_native_dict, [typedef_name]): use_typedef = True if use_typedef and self.canonical_type: name = self.canonical_type.whole_name to_replace = None if conversions.has_key('native_types'): native_types_dict = conversions['native_types'] to_replace = NativeType.dict_replace_value_re(native_types_dict, [name]) if to_replace: name = to_replace return name def object_can_convert(self, generator, is_to_native = True): if self.is_object: keys = [] if self.canonical_type != None: keys.append(self.canonical_type.name) keys.append(self.name) if is_to_native: to_native_dict = generator.config['conversions']['to_native'] if NativeType.dict_has_key_re(to_native_dict, keys): return True else: from_native_dict = generator.config['conversions']['from_native'] if NativeType.dict_has_key_re(from_native_dict, keys): return True return False def __str__(self): return self.canonical_type.whole_name if None != self.canonical_type else self.whole_name class NativeField(object): def __init__(self, cursor): cursor = cursor.canonical self.cursor = cursor self.name = cursor.displayname self.kind = cursor.type.kind self.location = cursor.location member_field_re = re.compile('m_(\w+)') match = member_field_re.match(self.name) self.signature_name = self.name self.ntype = NativeType.from_type(cursor.type) if match: self.pretty_name = match.group(1) else: self.pretty_name = self.name @staticmethod def can_parse(ntype): native_type = NativeType.from_type(ntype) if ntype.kind == cindex.TypeKind.UNEXPOSED and native_type.name != "std::string": return False return True def generate_code(self, current_class = None, generator = None): gen = current_class.generator if current_class else generator config = gen.config if config['definitions'].has_key('public_field'): tpl = Template(config['definitions']['public_field'], searchList=[current_class, self]) self.signature_name = str(tpl) tpl = Template(file=os.path.join(gen.target, "templates", "public_field.c"), searchList=[current_class, self]) gen.impl_file.write(str(tpl)) # return True if found default argument. def iterate_param_node(param_node, depth=1): for node in param_node.get_children(): # print(">"*depth+" "+str(node.kind)) if node.kind in default_arg_type_arr: return True if iterate_param_node(node, depth + 1): return True return False class NativeFunction(object): def __init__(self, cursor): self.cursor = cursor self.func_name = cursor.spelling self.signature_name = self.func_name self.arguments = [] self.argumtntTips = [] self.static = cursor.kind == cindex.CursorKind.CXX_METHOD and cursor.is_static_method() self.implementations = [] self.is_overloaded = False self.is_constructor = False self.not_supported = False self.is_override = False self.ret_type = NativeType.from_type(cursor.result_type) self.comment = self.get_comment(cursor.raw_comment) # parse the arguments # if self.func_name == "spriteWithFile": # pdb.set_trace() for arg in cursor.get_arguments(): self.argumtntTips.append(arg.spelling) for arg in cursor.type.argument_types(): nt = NativeType.from_type(arg) self.arguments.append(nt) # mark the function as not supported if at least one argument is not supported if nt.not_supported: self.not_supported = True found_default_arg = False index = -1 for arg_node in self.cursor.get_children(): if arg_node.kind == cindex.CursorKind.CXX_OVERRIDE_ATTR: self.is_override = True if arg_node.kind == cindex.CursorKind.PARM_DECL: index += 1 if iterate_param_node(arg_node): found_default_arg = True break self.min_args = index if found_default_arg else len(self.arguments) def get_comment(self, comment): replaceStr = comment if comment is None: return "" regular_replace_list = [ ("(\s)*//!",""), ("(\s)*//",""), ("(\s)*/\*\*",""), ("(\s)*/\*",""), ("\*/",""), ("\r\n", "\n"), ("\n(\s)*\*", "\n"), ("\n(\s)*@","\n"), ("\n(\s)*","\n"), ("\n(\s)*\n", "\n"), ("^(\s)*\n",""), ("\n(\s)*$", ""), ("\n","
\n"), ("\n", "\n-- ") ] for item in regular_replace_list: replaceStr = re.sub(item[0], item[1], replaceStr) return replaceStr def generate_code(self, current_class=None, generator=None, is_override=False, is_ctor=False): self.is_ctor = is_ctor gen = current_class.generator if current_class else generator config = gen.config if not is_ctor: tpl = Template(file=os.path.join(gen.target, "templates", "function.h"), searchList=[current_class, self]) if not is_override: gen.head_file.write(str(tpl)) if self.static: if config['definitions'].has_key('sfunction'): tpl = Template(config['definitions']['sfunction'], searchList=[current_class, self]) self.signature_name = str(tpl) tpl = Template(file=os.path.join(gen.target, "templates", "sfunction.c"), searchList=[current_class, self]) else: if not self.is_constructor: if config['definitions'].has_key('ifunction'): tpl = Template(config['definitions']['ifunction'], searchList=[current_class, self]) self.signature_name = str(tpl) else: if config['definitions'].has_key('constructor'): if not is_ctor: tpl = Template(config['definitions']['constructor'], searchList=[current_class, self]) else: tpl = Template(config['definitions']['ctor'], searchList=[current_class, self]) self.signature_name = str(tpl) if self.is_constructor and gen.script_type == "spidermonkey" : if not is_ctor: tpl = Template(file=os.path.join(gen.target, "templates", "constructor.c"), searchList=[current_class, self]) else: tpl = Template(file=os.path.join(gen.target, "templates", "ctor.c"), searchList=[current_class, self]) else : tpl = Template(file=os.path.join(gen.target, "templates", "ifunction.c"), searchList=[current_class, self]) if not is_override: gen.impl_file.write(str(tpl)) # if not is_ctor: # apidoc_function_script = Template(file=os.path.join(gen.target, # "templates", # "apidoc_function.script"), # searchList=[current_class, self]) # if gen.script_type == "spidermonkey": # gen.doc_file.write(str(apidoc_function_script)) # else: # if gen.script_type == "lua" and current_class != None : # current_class.doc_func_file.write(str(apidoc_function_script)) class NativeOverloadedFunction(object): def __init__(self, func_array): self.implementations = func_array self.func_name = func_array[0].func_name self.signature_name = self.func_name self.min_args = 100 self.is_constructor = False self.is_overloaded = True self.is_ctor = False for m in func_array: self.min_args = min(self.min_args, m.min_args) self.comment = self.get_comment(func_array[0].cursor.raw_comment) def get_comment(self, comment): replaceStr = comment if comment is None: return "" regular_replace_list = [ ("(\s)*//!",""), ("(\s)*//",""), ("(\s)*/\*\*",""), ("(\s)*/\*",""), ("\*/",""), ("\r\n", "\n"), ("\n(\s)*\*", "\n"), ("\n(\s)*@","\n"), ("\n(\s)*","\n"), ("\n(\s)*\n", "\n"), ("^(\s)*\n",""), ("\n(\s)*$", ""), ("\n","
\n"), ("\n", "\n-- ") ] for item in regular_replace_list: replaceStr = re.sub(item[0], item[1], replaceStr) return replaceStr def append(self, func): self.min_args = min(self.min_args, func.min_args) self.implementations.append(func) def generate_code(self, current_class=None, is_override=False, is_ctor=False): self.is_ctor = is_ctor gen = current_class.generator config = gen.config static = self.implementations[0].static if not is_ctor: tpl = Template(file=os.path.join(gen.target, "templates", "function.h"), searchList=[current_class, self]) if not is_override: gen.head_file.write(str(tpl)) if static: if config['definitions'].has_key('sfunction'): tpl = Template(config['definitions']['sfunction'], searchList=[current_class, self]) self.signature_name = str(tpl) tpl = Template(file=os.path.join(gen.target, "templates", "sfunction_overloaded.c"), searchList=[current_class, self]) else: if not self.is_constructor: if config['definitions'].has_key('ifunction'): tpl = Template(config['definitions']['ifunction'], searchList=[current_class, self]) self.signature_name = str(tpl) else: if config['definitions'].has_key('constructor'): if not is_ctor: tpl = Template(config['definitions']['constructor'], searchList=[current_class, self]) else: tpl = Template(config['definitions']['ctor'], searchList=[current_class, self]) self.signature_name = str(tpl) tpl = Template(file=os.path.join(gen.target, "templates", "ifunction_overloaded.c"), searchList=[current_class, self]) if not is_override: gen.impl_file.write(str(tpl)) # if current_class != None and not is_ctor: # if gen.script_type == "lua": # apidoc_function_overload_script = Template(file=os.path.join(gen.target, # "templates", # "apidoc_function_overload.script"), # searchList=[current_class, self]) # current_class.doc_func_file.write(str(apidoc_function_overload_script)) # else: # if gen.script_type == "spidermonkey": # apidoc_function_overload_script = Template(file=os.path.join(gen.target, # "templates", # "apidoc_function_overload.script"), # searchList=[current_class, self]) # gen.doc_file.write(str(apidoc_function_overload_script)) class NativeClass(object): def __init__(self, cursor, generator): # the cursor to the implementation self.cursor = cursor self.class_name = cursor.displayname self.is_ref_class = self.class_name == "Ref" self.namespaced_class_name = self.class_name self.parents = [] self.fields = [] self.public_fields = [] self.methods = {} self.static_methods = {} self.generator = generator self.is_abstract = self.class_name in generator.abstract_classes self._current_visibility = cindex.AccessSpecifier.PRIVATE #for generate lua api doc self.override_methods = {} self.has_constructor = False self.namespace_name = "" registration_name = generator.get_class_or_rename_class(self.class_name) if generator.remove_prefix: self.target_class_name = re.sub('^' + generator.remove_prefix, '', registration_name) else: self.target_class_name = registration_name self.namespaced_class_name = get_namespaced_name(cursor) self.namespace_name = get_namespace_name(cursor) self.parse() @property def underlined_class_name(self): return self.namespaced_class_name.replace("::", "_") def parse(self): ''' parse the current cursor, getting all the necesary information ''' self._deep_iterate(self.cursor) def methods_clean(self): ''' clean list of methods (without the ones that should be skipped) ''' ret = [] for name, impl in self.methods.iteritems(): should_skip = False if name == 'constructor': should_skip = True else: if self.generator.should_skip(self.class_name, name): should_skip = True if not should_skip: ret.append({"name": name, "impl": impl}) return ret def static_methods_clean(self): ''' clean list of static methods (without the ones that should be skipped) ''' ret = [] for name, impl in self.static_methods.iteritems(): should_skip = self.generator.should_skip(self.class_name, name) if not should_skip: ret.append({"name": name, "impl": impl}) return ret def override_methods_clean(self): ''' clean list of override methods (without the ones that should be skipped) ''' ret = [] for name, impl in self.override_methods.iteritems(): should_skip = self.generator.should_skip(self.class_name, name) if not should_skip: ret.append({"name": name, "impl": impl}) return ret def generate_code(self): ''' actually generate the code. it uses the current target templates/rules in order to generate the right code ''' if not self.is_ref_class: self.is_ref_class = self._is_ref_class() config = self.generator.config prelude_h = Template(file=os.path.join(self.generator.target, "templates", "prelude.h"), searchList=[{"current_class": self}]) prelude_c = Template(file=os.path.join(self.generator.target, "templates", "prelude.c"), searchList=[{"current_class": self}]) # apidoc_classhead_script = Template(file=os.path.join(self.generator.target, # "templates", # "apidoc_classhead.script"), # searchList=[{"current_class": self}]) # if self.generator.script_type == "lua": # docfuncfilepath = os.path.join(self.generator.outdir + "/api", self.class_name + ".lua") # self.doc_func_file = open(docfuncfilepath, "w+") # apidoc_fun_head_script = Template(file=os.path.join(self.generator.target, # "templates", # "apidoc_function_head.script"), # searchList=[{"current_class": self}]) # self.doc_func_file.write(str(apidoc_fun_head_script)) self.generator.head_file.write(str(prelude_h)) self.generator.impl_file.write(str(prelude_c)) # self.generator.doc_file.write(str(apidoc_classhead_script)) for m in self.methods_clean(): m['impl'].generate_code(self) for m in self.static_methods_clean(): m['impl'].generate_code(self) if self.generator.script_type == "lua": for m in self.override_methods_clean(): m['impl'].generate_code(self, is_override = True) for m in self.public_fields: if self.generator.should_bind_field(self.class_name, m.name): m.generate_code(self) # generate register section register = Template(file=os.path.join(self.generator.target, "templates", "register.c"), searchList=[{"current_class": self}]) # apidoc_classfoot_script = Template(file=os.path.join(self.generator.target, # "templates", # "apidoc_classfoot.script"), # searchList=[{"current_class": self}]) self.generator.impl_file.write(str(register)) # self.generator.doc_file.write(str(apidoc_classfoot_script)) # if self.generator.script_type == "lua": # apidoc_fun_foot_script = Template(file=os.path.join(self.generator.target, # "templates", # "apidoc_function_foot.script"), # searchList=[{"current_class": self}]) # self.doc_func_file.write(str(apidoc_fun_foot_script)) # self.doc_func_file.close() def _deep_iterate(self, cursor=None, depth=0): for node in cursor.get_children(): # print("%s%s - %s" % ("> " * depth, node.displayname, node.kind)) if self._process_node(node): self._deep_iterate(node, depth + 1) @staticmethod def _is_method_in_parents(current_class, method_name): if len(current_class.parents) > 0: if method_name in current_class.parents[0].methods: return True return NativeClass._is_method_in_parents(current_class.parents[0], method_name) return False def _is_ref_class(self, depth = 0): """ Mark the class as 'cocos2d::Ref' or its subclass. """ # print ">" * (depth + 1) + " " + self.class_name for parent in self.parents: if parent._is_ref_class(depth + 1): return True if self.is_ref_class: return True return False def _process_node(self, cursor): ''' process the node, depending on the type. If returns true, then it will perform a deep iteration on its children. Otherwise it will continue with its siblings (if any) @param: cursor the cursor to analyze ''' if cursor.kind == cindex.CursorKind.CXX_BASE_SPECIFIER: parent = cursor.get_definition() parent_name = parent.displayname if not self.class_name in self.generator.classes_have_no_parents: if parent_name and parent_name not in self.generator.base_classes_to_skip: #if parent and self.generator.in_listed_classes(parent.displayname): if not self.generator.generated_classes.has_key(parent.displayname): parent = NativeClass(parent, self.generator) self.generator.generated_classes[parent.class_name] = parent else: parent = self.generator.generated_classes[parent.displayname] self.parents.append(parent) if parent_name == "Ref": self.is_ref_class = True elif cursor.kind == cindex.CursorKind.FIELD_DECL: self.fields.append(NativeField(cursor)) if self._current_visibility == cindex.AccessSpecifier.PUBLIC and NativeField.can_parse(cursor.type): self.public_fields.append(NativeField(cursor)) elif cursor.kind == cindex.CursorKind.CXX_ACCESS_SPEC_DECL: self._current_visibility = cursor.access_specifier elif cursor.kind == cindex.CursorKind.CXX_METHOD and get_availability(cursor) != AvailabilityKind.DEPRECATED: # skip if variadic if self._current_visibility == cindex.AccessSpecifier.PUBLIC and not cursor.type.is_function_variadic(): m = NativeFunction(cursor) registration_name = self.generator.should_rename_function(self.class_name, m.func_name) or m.func_name # bail if the function is not supported (at least one arg not supported) if m.not_supported: return False if m.is_override: if NativeClass._is_method_in_parents(self, registration_name): if self.generator.script_type == "lua": if not self.override_methods.has_key(registration_name): self.override_methods[registration_name] = m else: previous_m = self.override_methods[registration_name] if isinstance(previous_m, NativeOverloadedFunction): previous_m.append(m) else: self.override_methods[registration_name] = NativeOverloadedFunction([m, previous_m]) return False if m.static: if not self.static_methods.has_key(registration_name): self.static_methods[registration_name] = m else: previous_m = self.static_methods[registration_name] if isinstance(previous_m, NativeOverloadedFunction): previous_m.append(m) else: self.static_methods[registration_name] = NativeOverloadedFunction([m, previous_m]) else: if not self.methods.has_key(registration_name): self.methods[registration_name] = m else: previous_m = self.methods[registration_name] if isinstance(previous_m, NativeOverloadedFunction): previous_m.append(m) else: self.methods[registration_name] = NativeOverloadedFunction([m, previous_m]) return True elif self._current_visibility == cindex.AccessSpecifier.PUBLIC and cursor.kind == cindex.CursorKind.CONSTRUCTOR and not self.is_abstract: # Skip copy constructor if cursor.displayname == self.class_name + "(const " + self.namespaced_class_name + " &)": # print("Skip copy constructor: " + cursor.displayname) return True m = NativeFunction(cursor) m.is_constructor = True self.has_constructor = True if not self.methods.has_key('constructor'): self.methods['constructor'] = m else: previous_m = self.methods['constructor'] if isinstance(previous_m, NativeOverloadedFunction): previous_m.append(m) else: m = NativeOverloadedFunction([m, previous_m]) m.is_constructor = True self.methods['constructor'] = m return True # else: # print >> sys.stderr, "unknown cursor: %s - %s" % (cursor.kind, cursor.displayname) return False class NativeEnum(object): def __init__(self, cursor, generator): # the cursor to the implementation self.cursor = cursor self.class_name = cursor.displayname self.namespaced_class_name = self.class_name self.parents = [] self.fields = [] self.public_fields = [] self.methods = {} self.static_methods = {} self.generator = generator self._current_visibility = cindex.AccessSpecifier.PRIVATE #for generate lua api doc registration_name = generator.get_class_or_rename_class(self.class_name) if generator.remove_prefix: self.target_class_name = re.sub('^' + generator.remove_prefix, '', registration_name) else: self.target_class_name = registration_name self.namespaced_class_name = get_namespaced_name(cursor) self.namespace_name = get_namespace_name(cursor) self.parse() def parse(self): self._deep_iterate(self.cursor, 0) def _deep_iterate(self, cursor=None, depth=0): for node in cursor.get_children(): #print("%s%s - %s" % ("> " * depth, node.displayname, node.kind)) if self._process_node(node): self._deep_iterate(node, depth + 1) def _process_node(self, node): if node.kind == cindex.CursorKind.ENUM_CONSTANT_DECL: field = {} field["name"] = node.displayname field["value"] = node.enum_value self.fields.append(field) def generate_code(self): ''' actually generate the code. it uses the current target templates/rules in order to generate the right code ''' # generate register section register = Template(file=os.path.join(self.generator.target, "templates", "enum.c"), searchList=[{"current_class": self, "generator": self.generator}]) self.generator.impl_file.write(str(register)) class Generator(object): def __init__(self, opts): self.index = cindex.Index.create() self.outdir = opts['outdir'] print('search_paths=' + opts['search_paths']) self.search_paths = opts['search_paths'].split(';') self.prefix = opts['prefix'] self.headers = opts['headers'].split(' ') self.classes = opts['classes'] self.classes_need_extend = opts['classes_need_extend'] self.classes_have_no_parents = opts['classes_have_no_parents'].split(' ') self.base_classes_to_skip = opts['base_classes_to_skip'].split(' ') self.abstract_classes = opts['abstract_classes'].split(' ') self.clang_args = opts['clang_args'] self.target = opts['target'] self.remove_prefix = opts['remove_prefix'] self.target_ns = opts['target_ns'] self.cpp_ns = opts['cpp_ns'] self.impl_file = None self.head_file = None self.skip_classes = {} self.bind_fields = {} self.generated_classes = {} self.rename_functions = {} self.rename_classes = {} self.replace_headers = {} self.out_file = opts['out_file'] self.script_control_cpp = opts['script_control_cpp'] == "yes" self.script_type = opts['script_type'] self.macro_judgement = opts['macro_judgement'] self.hpp_headers = opts['hpp_headers'] self.cpp_headers = opts['cpp_headers'] self.win32_clang_flags = opts['win32_clang_flags'] extend_clang_args = [] for clang_arg in self.clang_args: if not os.path.exists(clang_arg.replace("-I","")): pos = clang_arg.find("lib/clang/3.3/include") if -1 != pos: extend_clang_arg = clang_arg.replace("3.3", "3.4") if os.path.exists(extend_clang_arg.replace("-I","")): extend_clang_args.append(extend_clang_arg) if len(extend_clang_args) > 0: self.clang_args.extend(extend_clang_args) if sys.platform == 'win32' and self.win32_clang_flags != None: self.clang_args.extend(self.win32_clang_flags) if opts['skip']: list_of_skips = re.split(",\n?", opts['skip']) for skip in list_of_skips: class_name, methods = skip.split("::") self.skip_classes[class_name] = [] match = re.match("\[([^]]+)\]", methods) if match: self.skip_classes[class_name] = match.group(1).split(" ") else: raise Exception("invalid list of skip methods") if opts['field']: list_of_fields = re.split(",\n?", opts['field']) for field in list_of_fields: class_name, fields = field.split("::") self.bind_fields[class_name] = [] match = re.match("\[([^]]+)\]", fields) if match: self.bind_fields[class_name] = match.group(1).split(" ") else: raise Exception("invalid list of bind fields") if opts['rename_functions']: list_of_function_renames = re.split(",\n?", opts['rename_functions']) for rename in list_of_function_renames: class_name, methods = rename.split("::") self.rename_functions[class_name] = {} match = re.match("\[([^]]+)\]", methods) if match: list_of_methods = match.group(1).split(" ") for pair in list_of_methods: k, v = pair.split("=") self.rename_functions[class_name][k] = v else: raise Exception("invalid list of rename methods") if opts['rename_classes']: list_of_class_renames = re.split(",\n?", opts['rename_classes']) for rename in list_of_class_renames: class_name, renamed_class_name = rename.split("::") self.rename_classes[class_name] = renamed_class_name if opts['replace_headers']: list_of_replace_headers = re.split(",\n?", opts['replace_headers']) for replace in list_of_replace_headers: header, replaced_header = replace.split("::") self.replace_headers[header] = replaced_header def should_rename_function(self, class_name, method_name): if self.rename_functions.has_key(class_name) and self.rename_functions[class_name].has_key(method_name): # print >> sys.stderr, "will rename %s to %s" % (method_name, self.rename_functions[class_name][method_name]) return self.rename_functions[class_name][method_name] return None def get_class_or_rename_class(self, class_name): if self.rename_classes.has_key(class_name): # print >> sys.stderr, "will rename %s to %s" % (method_name, self.rename_functions[class_name][method_name]) return self.rename_classes[class_name] return class_name def should_skip(self, class_name, method_name, verbose=False): if class_name == "*" and self.skip_classes.has_key("*"): for func in self.skip_classes["*"]: if re.match(func, method_name): return True else: for key in self.skip_classes.iterkeys(): if key == "*" or re.match("^" + key + "$", class_name): if verbose: print("%s in skip_classes" % (class_name)) if len(self.skip_classes[key]) == 1 and self.skip_classes[key][0] == "*": if verbose: print("%s will be skipped completely" % (class_name)) return True if method_name != None: for func in self.skip_classes[key]: if re.match(func, method_name): if verbose: print("%s will skip method %s" % (class_name, method_name)) return True if verbose: print("%s will be accepted (%s, %s)" % (class_name, key, self.skip_classes[key])) return False def should_bind_field(self, class_name, field_name, verbose=False): if class_name == "*" and self.bind_fields.has_key("*"): for func in self.bind_fields["*"]: if re.match(func, method_name): return True else: for key in self.bind_fields.iterkeys(): if key == "*" or re.match("^" + key + "$", class_name): if verbose: print("%s in bind_fields" % (class_name)) if len(self.bind_fields[key]) == 1 and self.bind_fields[key][0] == "*": if verbose: print("All public fields of %s will be bound" % (class_name)) return True if field_name != None: for field in self.bind_fields[key]: if re.match(field, field_name): if verbose: print("Field %s of %s will be bound" % (field_name, class_name)) return True return False def in_listed_classes(self, class_name): """ returns True if the class is in the list of required classes and it's not in the skip list """ for key in self.classes: md = re.match("^" + key + "$", class_name) if md and not self.should_skip(class_name, None): return True return False def in_listed_classes_exactly(self, class_name): """ returns True if the class is in the list of required classes and it's not in the skip list """ for key in self.classes: if key == class_name: return True return False def in_listed_extend_classed(self, class_name): """ returns True if the class is in the list of required classes that need to extend """ for key in self.classes_need_extend: md = re.match("^" + key + "$", class_name) if md: return True return False def sorted_classes(self): ''' sorted classes in order of inheritance ''' sorted_list = [] for class_name in self.generated_classes.iterkeys(): nclass = self.generated_classes[class_name] sorted_list += self._sorted_parents(nclass) # remove dupes from the list no_dupes = [] [no_dupes.append(i) for i in sorted_list if not no_dupes.count(i)] return no_dupes def _sorted_parents(self, nclass): ''' returns the sorted list of parents for a native class ''' sorted_parents = [] for p in nclass.parents: if p.class_name in self.generated_classes.keys(): sorted_parents += self._sorted_parents(p) if nclass.class_name in self.generated_classes.keys(): sorted_parents.append(nclass.class_name) return sorted_parents def generate_code(self): # must read the yaml file first stream = file(os.path.join(self.target, "conversions.yaml"), "r") data = yaml.load(stream) self.config = data implfilepath = os.path.join(self.outdir, self.out_file + ".cpp") headfilepath = os.path.join(self.outdir, self.out_file + ".hpp") # docfiledir = self.outdir + "/api" # if not os.path.exists(docfiledir): # os.makedirs(docfiledir) # if self.script_type == "lua": # docfilepath = os.path.join(docfiledir, self.out_file + "_api.lua") # else: # docfilepath = os.path.join(docfiledir, self.out_file + "_api.js") self.impl_file = open(implfilepath, "w+") self.head_file = open(headfilepath, "w+") # self.doc_file = open(docfilepath, "w+") layout_h = Template(file=os.path.join(self.target, "templates", "layout_head.h"), searchList=[self]) layout_c = Template(file=os.path.join(self.target, "templates", "layout_head.c"), searchList=[self]) # apidoc_ns_script = Template(file=os.path.join(self.target, "templates", "apidoc_ns.script"), # searchList=[self]) self.head_file.write(str(layout_h)) self.impl_file.write(str(layout_c)) # self.doc_file.write(str(apidoc_ns_script)) self._parse_headers() layout_h = Template(file=os.path.join(self.target, "templates", "layout_foot.h"), searchList=[self]) layout_c = Template(file=os.path.join(self.target, "templates", "layout_foot.c"), searchList=[self]) self.head_file.write(str(layout_h)) self.impl_file.write(str(layout_c)) # if self.script_type == "lua": # apidoc_ns_foot_script = Template(file=os.path.join(self.target, "templates", "apidoc_ns_foot.script"), # searchList=[self]) # self.doc_file.write(str(apidoc_ns_foot_script)) self.impl_file.close() self.head_file.close() # self.doc_file.close() def _pretty_print(self, diagnostics): errors=[] for idx, d in enumerate(diagnostics): if d.severity > 2: errors.append(d) if len(errors) == 0: return print("====\nErrors in parsing headers:") severities=['Ignored', 'Note', 'Warning', 'Error', 'Fatal'] for idx, d in enumerate(errors): print("%s. " % ( idx+1, severities[d.severity], d.location, d.spelling)) print("====\n") def _parse_headers(self): for header in self.headers: print("parsing header => %s" % header) tu = self.index.parse(header, self.clang_args) if len(tu.diagnostics) > 0: self._pretty_print(tu.diagnostics) is_fatal = False for d in tu.diagnostics: if d.severity >= cindex.Diagnostic.Error: is_fatal = True if is_fatal: print("*** Found errors - can not continue") raise Exception("Fatal error in parsing headers") self._deep_iterate(tu.cursor) def _deep_iterate(self, cursor, depth=0): def get_children_array_from_iter(iter): children = [] for child in iter: children.append(child) return children #print("cursor kind is %s"%cursor.kind) # get the canonical type if cursor.kind == cindex.CursorKind.CLASS_DECL: if cursor == cursor.type.get_declaration() and len(get_children_array_from_iter(cursor.get_children())) > 0: is_targeted_class = True if self.cpp_ns: is_targeted_class = False namespaced_name = get_namespaced_name(cursor) for ns in self.cpp_ns: if namespaced_name.startswith(ns): is_targeted_class = True break if is_targeted_class and self.in_listed_classes(cursor.displayname): if not self.generated_classes.has_key(cursor.displayname): nclass = NativeClass(cursor, self) nclass.generate_code() self.generated_classes[cursor.displayname] = nclass return elif cursor.kind == cindex.CursorKind.ENUM_DECL : if cursor == cursor.type.get_declaration() and len(get_children_array_from_iter(cursor.get_children())) > 0: is_targeted_class = True if self.cpp_ns: is_targeted_class = False namespaced_name = get_namespaced_name(cursor) for ns in self.cpp_ns: if namespaced_name.startswith(ns): is_targeted_class = True break if is_targeted_class and len(cursor.displayname) > 0 and self.in_listed_classes_exactly(cursor.displayname): if not self.generated_classes.has_key(cursor.displayname): nclass = NativeEnum(cursor, self) nclass.generate_code() self.generated_classes[cursor.displayname] = nclass return for node in cursor.get_children(): # print("%s %s - %s" % (">" * depth, node.displayname, node.kind)) self._deep_iterate(node, depth + 1) def scriptname_from_native(self, namespace_class_name, namespace_name): script_ns_dict = self.config['conversions']['ns_map'] for (k, v) in script_ns_dict.items(): if k == namespace_name: return namespace_class_name.replace("*","").replace("const ", "").replace(k, v) if namespace_class_name.find("::") >= 0: if namespace_class_name.find("std::") == 0: return namespace_class_name else: raise Exception("The namespace (%s) conversion wasn't set in 'ns_map' section of the conversions.yaml" % namespace_class_name) else: return namespace_class_name.replace("*","").replace("const ", "") def is_cocos_class(self, namespace_class_name): script_ns_dict = self.config['conversions']['ns_map'] for (k, v) in script_ns_dict.items(): if namespace_class_name.find("std::") == 0: return False if namespace_class_name.find(k) >= 0: return True return False def scriptname_cocos_class(self, namespace_class_name): script_ns_dict = self.config['conversions']['ns_map'] for (k, v) in script_ns_dict.items(): if namespace_class_name.find(k) >= 0: return namespace_class_name.replace("*","").replace("const ", "").replace(k,v) raise Exception("The namespace (%s) conversion wasn't set in 'ns_map' section of the conversions.yaml" % namespace_class_name) def js_typename_from_natve(self, namespace_class_name): script_ns_dict = self.config['conversions']['ns_map'] if namespace_class_name.find("std::") == 0: if namespace_class_name.find("std::string") == 0: return "String" if namespace_class_name.find("std::vector") == 0: return "Array" if namespace_class_name.find("std::map") == 0 or namespace_class_name.find("std::unordered_map") == 0: return "map_object" if namespace_class_name.find("std::function") == 0: return "function" for (k, v) in script_ns_dict.items(): if namespace_class_name.find(k) >= 0: if namespace_class_name.find("cocos2d::Vec2") == 0: return "vec2_object" if namespace_class_name.find("cocos2d::Vec3") == 0: return "vec3_object" if namespace_class_name.find("cocos2d::Vec4") == 0: return "vec4_object" if namespace_class_name.find("cocos2d::Mat4") == 0: return "mat4_object" if namespace_class_name.find("cocos2d::Vector") == 0: return "Array" if namespace_class_name.find("cocos2d::Map") == 0: return "map_object" if namespace_class_name.find("cocos2d::Point") == 0: return "point_object" if namespace_class_name.find("cocos2d::Size") == 0: return "size_object" if namespace_class_name.find("cocos2d::Rect") == 0: return "rect_object" if namespace_class_name.find("cocos2d::Color3B") == 0: return "color3b_object" if namespace_class_name.find("cocos2d::Color4B") == 0: return "color4b_object" if namespace_class_name.find("cocos2d::Color4F") == 0: return "color4f_object" else: return namespace_class_name.replace("*","").replace("const ", "").replace(k,v) return namespace_class_name.replace("*","").replace("const ", "") def lua_typename_from_natve(self, namespace_class_name, is_ret = False): script_ns_dict = self.config['conversions']['ns_map'] if namespace_class_name.find("std::") == 0: if namespace_class_name.find("std::string") == 0: return "string" if namespace_class_name.find("std::vector") == 0: return "array_table" if namespace_class_name.find("std::map") == 0 or namespace_class_name.find("std::unordered_map") == 0: return "map_table" if namespace_class_name.find("std::function") == 0: return "function" for (k, v) in script_ns_dict.items(): if namespace_class_name.find(k) >= 0: if namespace_class_name.find("cocos2d::Vec2") == 0: return "vec2_table" if namespace_class_name.find("cocos2d::Vec3") == 0: return "vec3_table" if namespace_class_name.find("cocos2d::Vec4") == 0: return "vec4_table" if namespace_class_name.find("cocos2d::Vector") == 0: return "array_table" if namespace_class_name.find("cocos2d::Mat4") == 0: return "mat4_table" if namespace_class_name.find("cocos2d::Map") == 0: return "map_table" if namespace_class_name.find("cocos2d::Point") == 0: return "point_table" if namespace_class_name.find("cocos2d::Size") == 0: return "size_table" if namespace_class_name.find("cocos2d::Rect") == 0: return "rect_table" if namespace_class_name.find("cocos2d::Color3B") == 0: return "color3b_table" if namespace_class_name.find("cocos2d::Color4B") == 0: return "color4b_table" if namespace_class_name.find("cocos2d::Color4F") == 0: return "color4f_table" if is_ret == 1: return namespace_class_name.replace("*","").replace("const ", "").replace(k,"") else: return namespace_class_name.replace("*","").replace("const ", "").replace(k,v) return namespace_class_name.replace("*","").replace("const ","") # def api_param_name_from_native(self,native_name): # lower_name = native_name.lower() # if lower_name == "std::string" or lower_name == 'string' or lower_name == 'basic_string' or lower_name == 'std::basic_string': # return "str" # if lower_name.find("unsigned ") >= 0 : # return native_name.replace("unsigned ","") # if lower_name.find("unordered_map") >= 0 or lower_name.find("map") >= 0: # return "map" # if lower_name.find("vector") >= 0 : # return "array" # if lower_name == "std::function": # return "func" # else: # return lower_name def js_ret_name_from_native(self, namespace_class_name, is_enum) : if self.is_cocos_class(namespace_class_name): if namespace_class_name.find("cocos2d::Vector") >=0: return "new Array()" if namespace_class_name.find("cocos2d::Map") >=0: return "map_object" if is_enum: return 0 else: return self.scriptname_cocos_class(namespace_class_name) lower_name = namespace_class_name.lower() if lower_name.find("unsigned ") >= 0: lower_name = lower_name.replace("unsigned ","") if lower_name == "std::string": return "" if lower_name == "char" or lower_name == "short" or lower_name == "int" or lower_name == "float" or lower_name == "double" or lower_name == "long": return 0 if lower_name == "bool": return "false" if lower_name.find("std::vector") >= 0 or lower_name.find("vector") >= 0: return "new Array()" if lower_name.find("std::map") >= 0 or lower_name.find("std::unordered_map") >= 0 or lower_name.find("unordered_map") >= 0 or lower_name.find("map") >= 0: return "map_object" if lower_name == "std::function": return "func" else: return namespace_class_name def main(): from optparse import OptionParser parser = OptionParser("usage: %prog [options] {configfile}") parser.add_option("-s", action="store", type="string", dest="section", help="sets a specific section to be converted") parser.add_option("-t", action="store", type="string", dest="target", help="specifies the target vm. Will search for TARGET.yaml") parser.add_option("-o", action="store", type="string", dest="outdir", help="specifies the output directory for generated C++ code") parser.add_option("-n", action="store", type="string", dest="out_file", help="specifcies the name of the output file, defaults to the prefix in the .ini file") (opts, args) = parser.parse_args() # script directory workingdir = os.path.dirname(inspect.getfile(inspect.currentframe())) if len(args) == 0: parser.error('invalid number of arguments') userconfig = ConfigParser.SafeConfigParser() userconfig.read('userconf.ini') print('Using userconfig \n ', userconfig.items('DEFAULT')) clang_lib_path = os.path.join(userconfig.get('DEFAULT', 'cxxgeneratordir'), 'libclang') cindex.Config.set_library_path(clang_lib_path); config = ConfigParser.SafeConfigParser() config.read(args[0]) if (0 == len(config.sections())): raise Exception("No sections defined in config file") sections = [] if opts.section: if (opts.section in config.sections()): sections = [] sections.append(opts.section) else: raise Exception("Section not found in config file") else: print("processing all sections") sections = config.sections() # find available targets targetdir = os.path.join(workingdir, "targets") targets = [] if (os.path.isdir(targetdir)): targets = [entry for entry in os.listdir(targetdir) if (os.path.isdir(os.path.join(targetdir, entry)))] if 0 == len(targets): raise Exception("No targets defined") if opts.target: if (opts.target in targets): targets = [] targets.append(opts.target) if opts.outdir: outdir = opts.outdir else: outdir = os.path.join(workingdir, "gen") if not os.path.exists(outdir): os.makedirs(outdir) for t in targets: # Fix for hidden '.svn', '.cvs' and '.git' etc. folders - these must be ignored or otherwise they will be interpreted as a target. if t == ".svn" or t == ".cvs" or t == ".git" or t == ".gitignore": continue print( "\n.... Generating bindings for target", t) for s in sections: print( "\n.... .... Processing section", s, "\n") gen_opts = { 'prefix': config.get(s, 'prefix'), 'headers': (config.get(s, 'headers' , 0, dict(userconfig.items('DEFAULT')))), 'replace_headers': config.get(s, 'replace_headers') if config.has_option(s, 'replace_headers') else None, 'classes': config.get(s, 'classes').split(' '), 'classes_need_extend': config.get(s, 'classes_need_extend').split(' ') if config.has_option(s, 'classes_need_extend') else [], 'clang_args': (config.get(s, 'extra_arguments', 0, dict(userconfig.items('DEFAULT'))) or "").split(" "), 'target': os.path.join(workingdir, "targets", t), 'outdir': outdir, 'search_paths': os.path.abspath(os.path.join(userconfig.get('DEFAULT', 'cocosdir'), 'cocos')) + ";" + os.path.abspath(os.path.join(userconfig.get('DEFAULT', 'cocosdir'), 'extensions')), 'remove_prefix': config.get(s, 'remove_prefix'), 'target_ns': config.get(s, 'target_namespace'), 'cpp_ns': config.get(s, 'cpp_namespace').split(' ') if config.has_option(s, 'cpp_namespace') else None, 'classes_have_no_parents': config.get(s, 'classes_have_no_parents'), 'base_classes_to_skip': config.get(s, 'base_classes_to_skip'), 'abstract_classes': config.get(s, 'abstract_classes'), 'skip': config.get(s, 'skip'), 'field': config.get(s, 'field') if config.has_option(s, 'field') else None, 'rename_functions': config.get(s, 'rename_functions'), 'rename_classes': config.get(s, 'rename_classes'), 'out_file': opts.out_file or config.get(s, 'prefix'), 'script_control_cpp': config.get(s, 'script_control_cpp') if config.has_option(s, 'script_control_cpp') else 'no', 'script_type': t, 'macro_judgement': config.get(s, 'macro_judgement') if config.has_option(s, 'macro_judgement') else None, 'hpp_headers': config.get(s, 'hpp_headers', 0, dict(userconfig.items('DEFAULT'))).split(' ') if config.has_option(s, 'hpp_headers') else None, 'cpp_headers': config.get(s, 'cpp_headers', 0, dict(userconfig.items('DEFAULT'))).split(' ') if config.has_option(s, 'cpp_headers') else None, 'win32_clang_flags': (config.get(s, 'win32_clang_flags', 0, dict(userconfig.items('DEFAULT'))) or "").split(" ") if config.has_option(s, 'win32_clang_flags') else None } generator = Generator(gen_opts) generator.generate_code() if __name__ == '__main__': try: main() except Exception as e: traceback.print_exc() sys.exit(1)