# Copyright 2014 The Emscripten Authors. All rights reserved. # Emscripten is available under two separate licenses, the MIT license and the # University of Illinois/NCSA Open Source License. Both these licenses can be # found in the LICENSE file. """WebIDL binder https://emscripten.org/docs/porting/connecting_cpp_and_javascript/WebIDL-Binder.html """ import os import sys __scriptdir__ = os.path.dirname(os.path.abspath(__file__)) __rootdir__ = os.path.dirname(__scriptdir__) sys.path.append(__rootdir__) from tools import shared, utils sys.path.append(utils.path_from_root('third_party')) sys.path.append(utils.path_from_root('third_party/ply')) import WebIDL # CHECKS='FAST' will skip most argument type checks in the wrapper methods for # performance (~3x faster than default). # CHECKS='ALL' will do extensive argument type checking (~5x slower than default). # This will catch invalid numbers, invalid pointers, invalid strings, etc. # Anything else defaults to legacy mode for backward compatibility. CHECKS = os.environ.get('IDL_CHECKS', 'DEFAULT') # DEBUG=1 will print debug info in render_function DEBUG = os.environ.get('IDL_VERBOSE') == '1' if DEBUG: print("Debug print ON, CHECKS=%s" % CHECKS) # We need to avoid some closure errors on the constructors we define here. CONSTRUCTOR_CLOSURE_SUPPRESSIONS = '/** @suppress {undefinedVars, duplicate} @this{Object} */' class Dummy: def __init__(self, init): for k, v in init.items(): self.__dict__[k] = v def getExtendedAttribute(self, name): # noqa: U100 return None input_file = sys.argv[1] output_base = sys.argv[2] shared.try_delete(output_base + '.cpp') shared.try_delete(output_base + '.js') p = WebIDL.Parser() p.parse(r''' interface VoidPtr { }; ''' + utils.read_file(input_file)) data = p.finish() interfaces = {} implements = {} enums = {} for thing in data: if isinstance(thing, WebIDL.IDLInterface): interfaces[thing.identifier.name] = thing elif isinstance(thing, WebIDL.IDLImplementsStatement): implements.setdefault(thing.implementor.identifier.name, []).append(thing.implementee.identifier.name) elif isinstance(thing, WebIDL.IDLEnum): enums[thing.identifier.name] = thing # print interfaces # print implements pre_c = [] mid_c = [] mid_js = [] pre_c += [r''' #include '''] mid_c += [r''' extern "C" { '''] def build_constructor(name): implementing_name = implements[name][0] if implements.get(name) else 'WrapperObject' return [r'''{name}.prototype = Object.create({implementing}.prototype); {name}.prototype.constructor = {name}; {name}.prototype.__class__ = {name}; {name}.__cache__ = {{}}; Module['{name}'] = {name}; '''.format(name=name, implementing=implementing_name)] mid_js += [''' // Bindings utilities /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function WrapperObject() { } '''] mid_js += build_constructor('WrapperObject') mid_js += [''' /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) @param {*=} __class__ */ function getCache(__class__) { return (__class__ || WrapperObject).__cache__; } Module['getCache'] = getCache; /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) @param {*=} __class__ */ function wrapPointer(ptr, __class__) { var cache = getCache(__class__); var ret = cache[ptr]; if (ret) return ret; ret = Object.create((__class__ || WrapperObject).prototype); ret.ptr = ptr; return cache[ptr] = ret; } Module['wrapPointer'] = wrapPointer; /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function castObject(obj, __class__) { return wrapPointer(obj.ptr, __class__); } Module['castObject'] = castObject; Module['NULL'] = wrapPointer(0); /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function destroy(obj) { if (!obj['__destroy__']) throw 'Error: Cannot destroy object. (Did you create it yourself?)'; obj['__destroy__'](); // Remove from cache, so the object can be GC'd and refs added onto it released delete getCache(obj.__class__)[obj.ptr]; } Module['destroy'] = destroy; /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function compare(obj1, obj2) { return obj1.ptr === obj2.ptr; } Module['compare'] = compare; /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function getPointer(obj) { return obj.ptr; } Module['getPointer'] = getPointer; /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function getClass(obj) { return obj.__class__; } Module['getClass'] = getClass; // Converts big (string or array) values into a C-style storage, in temporary space /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ var ensureCache = { buffer: 0, // the main buffer of temporary storage size: 0, // the size of buffer pos: 0, // the next free offset in buffer temps: [], // extra allocations needed: 0, // the total size we need next time prepare: function() { if (ensureCache.needed) { // clear the temps for (var i = 0; i < ensureCache.temps.length; i++) { Module['_free'](ensureCache.temps[i]); } ensureCache.temps.length = 0; // prepare to allocate a bigger buffer Module['_free'](ensureCache.buffer); ensureCache.buffer = 0; ensureCache.size += ensureCache.needed; // clean up ensureCache.needed = 0; } if (!ensureCache.buffer) { // happens first time, or when we need to grow ensureCache.size += 128; // heuristic, avoid many small grow events ensureCache.buffer = Module['_malloc'](ensureCache.size); assert(ensureCache.buffer); } ensureCache.pos = 0; }, alloc: function(array, view) { assert(ensureCache.buffer); var bytes = view.BYTES_PER_ELEMENT; var len = array.length * bytes; len = (len + 7) & -8; // keep things aligned to 8 byte boundaries var ret; if (ensureCache.pos + len >= ensureCache.size) { // we failed to allocate in the buffer, ensureCache time around :( assert(len > 0); // null terminator, at least ensureCache.needed += len; ret = Module['_malloc'](len); ensureCache.temps.push(ret); } else { // we can allocate in the buffer ret = ensureCache.buffer + ensureCache.pos; ensureCache.pos += len; } return ret; }, copy: function(array, view, offset) { offset >>>= 0; var bytes = view.BYTES_PER_ELEMENT; switch (bytes) { case 2: offset >>>= 1; break; case 4: offset >>>= 2; break; case 8: offset >>>= 3; break; } for (var i = 0; i < array.length; i++) { view[offset + i] = array[i]; } }, }; /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function ensureString(value) { if (typeof value === 'string') { var intArray = intArrayFromString(value); var offset = ensureCache.alloc(intArray, HEAP8); ensureCache.copy(intArray, HEAP8, offset); return offset; } return value; } /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function ensureInt8(value) { if (typeof value === 'object') { var offset = ensureCache.alloc(value, HEAP8); ensureCache.copy(value, HEAP8, offset); return offset; } return value; } /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function ensureInt16(value) { if (typeof value === 'object') { var offset = ensureCache.alloc(value, HEAP16); ensureCache.copy(value, HEAP16, offset); return offset; } return value; } /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function ensureInt32(value) { if (typeof value === 'object') { var offset = ensureCache.alloc(value, HEAP32); ensureCache.copy(value, HEAP32, offset); return offset; } return value; } /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function ensureFloat32(value) { if (typeof value === 'object') { var offset = ensureCache.alloc(value, HEAPF32); ensureCache.copy(value, HEAPF32, offset); return offset; } return value; } /** @suppress {duplicate} (TODO: avoid emitting this multiple times, it is redundant) */ function ensureFloat64(value) { if (typeof value === 'object') { var offset = ensureCache.alloc(value, HEAPF64); ensureCache.copy(value, HEAPF64, offset); return offset; } return value; } '''] mid_c += [''' // Not using size_t for array indices as the values used by the javascript code are signed. EM_JS(void, array_bounds_check_error, (size_t idx, size_t size), { throw 'Array index ' + idx + ' out of bounds: [0,' + size + ')'; }); void array_bounds_check(const int array_size, const int array_idx) { if (array_idx < 0 || array_idx >= array_size) { array_bounds_check_error(array_idx, array_size); } } '''] C_FLOATS = ['float', 'double'] def full_typename(arg): return ('const ' if arg.getExtendedAttribute('Const') else '') + arg.type.name + ('[]' if arg.type.isArray() else '') def type_to_c(t, non_pointing=False): # print 'to c ', t def base_type_to_c(t): if t == 'Long': ret = 'int' elif t == 'UnsignedLong': ret = 'unsigned int' elif t == 'LongLong': ret = 'long long' elif t == 'UnsignedLongLong': ret = 'unsigned long long' elif t == 'Short': ret = 'short' elif t == 'UnsignedShort': ret = 'unsigned short' elif t == 'Byte': ret = 'char' elif t == 'Octet': ret = 'unsigned char' elif t == 'Void': ret = 'void' elif t == 'String': ret = 'char*' elif t == 'Float': ret = 'float' elif t == 'Double': ret = 'double' elif t == 'Boolean': ret = 'bool' elif t == 'Any' or t == 'VoidPtr': ret = 'void*' elif t in interfaces: ret = (interfaces[t].getExtendedAttribute('Prefix') or [''])[0] + t + ('' if non_pointing else '*') else: ret = t return ret t = t.replace(' (Wrapper)', '') prefix = '' suffix = '' if '[]' in t: t = t.replace('[]', '') suffix = '*' if 'const ' in t: t = t.replace('const ', '') prefix = 'const ' return prefix + base_type_to_c(t) + suffix def take_addr_if_nonpointer(m): if m.getExtendedAttribute('Ref') or m.getExtendedAttribute('Value'): return '&' return '' def deref_if_nonpointer(m): if m.getExtendedAttribute('Ref') or m.getExtendedAttribute('Value'): return '*' return '' def type_to_cdec(raw): ret = type_to_c(raw.type.name, non_pointing=True) if raw.getExtendedAttribute('Const'): ret = 'const ' + ret if raw.type.name not in interfaces: return ret if raw.getExtendedAttribute('Ref'): return ret + '&' if raw.getExtendedAttribute('Value'): return ret return ret + '*' def render_function(class_name, func_name, sigs, return_type, non_pointer, copy, operator, constructor, func_scope, call_content=None, const=False, array_attribute=False): legacy_mode = CHECKS not in ['ALL', 'FAST'] all_checks = CHECKS == 'ALL' bindings_name = class_name + '_' + func_name min_args = min(sigs.keys()) max_args = max(sigs.keys()) all_args = sigs.get(max_args) if DEBUG: print('renderfunc', class_name, func_name, list(sigs.keys()), return_type, constructor) for i in range(max_args): a = all_args[i] if isinstance(a, WebIDL.IDLArgument): print(' ', a.identifier.name, a.identifier, a.type, a.optional) else: print(" arg%d" % i) # JS cache = ('getCache(%s)[this.ptr] = this;' % class_name) if constructor else '' call_prefix = '' if not constructor else 'this.ptr = ' call_postfix = '' if return_type != 'Void' and not constructor: call_prefix = 'return ' if not constructor: if return_type in interfaces: call_prefix += 'wrapPointer(' call_postfix += ', ' + return_type + ')' elif return_type == 'String': call_prefix += 'UTF8ToString(' call_postfix += ')' elif return_type == 'Boolean': call_prefix += '!!(' call_postfix += ')' args = [(all_args[i].identifier.name if isinstance(all_args[i], WebIDL.IDLArgument) else ('arg%d' % i)) for i in range(max_args)] if not constructor: body = ' var self = this.ptr;\n' pre_arg = ['self'] else: body = '' pre_arg = [] if any(arg.type.isString() or arg.type.isArray() for arg in all_args): body += ' ensureCache.prepare();\n' full_name = "%s::%s" % (class_name, func_name) for i, (js_arg, arg) in enumerate(zip(args, all_args)): if i >= min_args: optional = True else: optional = False do_default = False # Filter out arguments we don't know how to parse. Fast casing only common cases. compatible_arg = isinstance(arg, Dummy) or (isinstance(arg, WebIDL.IDLArgument) and arg.optional is False) # note: null has typeof object, but is ok to leave as is, since we are calling into asm code where null|0 = 0 if not legacy_mode and compatible_arg: if isinstance(arg, WebIDL.IDLArgument): arg_name = arg.identifier.name else: arg_name = '' # Format assert fail message check_msg = "[CHECK FAILED] %s(%s:%s): " % (full_name, js_arg, arg_name) if isinstance(arg.type, WebIDL.IDLWrapperType): inner = arg.type.inner else: inner = "" # Print type info in comments. body += " /* %s <%s> [%s] */\n" % (js_arg, arg.type.name, inner) # Wrap asserts with existence check when argument is optional. if all_checks and optional: body += "if(typeof {0} !== 'undefined' && {0} !== null) {{\n".format(js_arg) # Special case argument types. if arg.type.isNumeric(): if arg.type.isInteger(): if all_checks: body += " assert(typeof {0} === 'number' && !isNaN({0}), '{1}Expecting ');\n".format(js_arg, check_msg) else: if all_checks: body += " assert(typeof {0} === 'number', '{1}Expecting ');\n".format(js_arg, check_msg) # No transform needed for numbers elif arg.type.isBoolean(): if all_checks: body += " assert(typeof {0} === 'boolean' || (typeof {0} === 'number' && !isNaN({0})), '{1}Expecting ');\n".format(js_arg, check_msg) # No transform needed for booleans elif arg.type.isString(): # Strings can be DOM strings or pointers. if all_checks: body += " assert(typeof {0} === 'string' || ({0} && typeof {0} === 'object' && typeof {0}.ptr === 'number'), '{1}Expecting ');\n".format(js_arg, check_msg) do_default = True # legacy path is fast enough for strings. elif arg.type.isInterface(): if all_checks: body += " assert(typeof {0} === 'object' && typeof {0}.ptr === 'number', '{1}Expecting ');\n".format(js_arg, check_msg) if optional: body += " if(typeof {0} !== 'undefined' && {0} !== null) {{ {0} = {0}.ptr }};\n".format(js_arg) else: # No checks in fast mode when the arg is required body += " {0} = {0}.ptr;\n".format(js_arg) else: do_default = True if all_checks and optional: body += "}\n" else: do_default = True if do_default: if not (arg.type.isArray() and not array_attribute): body += " if ({0} && typeof {0} === 'object') {0} = {0}.ptr;\n".format(js_arg) if arg.type.isString(): body += " else {0} = ensureString({0});\n".format(js_arg) else: # an array can be received here arg_type = arg.type.name if arg_type in ['Byte', 'Octet']: body += " if (typeof {0} == 'object') {{ {0} = ensureInt8({0}); }}\n".format(js_arg) elif arg_type in ['Short', 'UnsignedShort']: body += " if (typeof {0} == 'object') {{ {0} = ensureInt16({0}); }}\n".format(js_arg) elif arg_type in ['Long', 'UnsignedLong']: body += " if (typeof {0} == 'object') {{ {0} = ensureInt32({0}); }}\n".format(js_arg) elif arg_type == 'Float': body += " if (typeof {0} == 'object') {{ {0} = ensureFloat32({0}); }}\n".format(js_arg) elif arg_type == 'Double': body += " if (typeof {0} == 'object') {{ {0} = ensureFloat64({0}); }}\n".format(js_arg) c_names = {} for i in range(min_args, max_args): c_names[i] = 'emscripten_bind_%s_%d' % (bindings_name, i) body += ' if (%s === undefined) { %s%s(%s)%s%s }\n' % (args[i], call_prefix, '_' + c_names[i], ', '.join(pre_arg + args[:i]), call_postfix, '' if 'return ' in call_prefix else '; ' + (cache or ' ') + 'return') c_names[max_args] = 'emscripten_bind_%s_%d' % (bindings_name, max_args) body += ' %s%s(%s)%s;\n' % (call_prefix, '_' + c_names[max_args], ', '.join(pre_arg + args), call_postfix) if cache: body += ' ' + cache + '\n' mid_js.append(r'''%sfunction%s(%s) { %s };''' % (CONSTRUCTOR_CLOSURE_SUPPRESSIONS, (' ' + func_name) if constructor else '', ', '.join(args), body[:-1])) # C for i in range(min_args, max_args + 1): raw = sigs.get(i) if raw is None: continue sig = list(map(full_typename, raw)) if array_attribute: sig = [x.replace('[]', '') for x in sig] # for arrays, ignore that this is an array - our get/set methods operate on the elements c_arg_types = list(map(type_to_c, sig)) normal_args = ', '.join(['%s %s' % (c_arg_types[j], args[j]) for j in range(i)]) if constructor: full_args = normal_args else: full_args = type_to_c(class_name, non_pointing=True) + '* self' + ('' if not normal_args else ', ' + normal_args) call_args = ', '.join(['%s%s' % ('*' if raw[j].getExtendedAttribute('Ref') else '', args[j]) for j in range(i)]) if constructor: call = 'new ' + type_to_c(class_name, non_pointing=True) call += '(' + call_args + ')' elif call_content is not None: call = call_content else: call = 'self->' + func_name call += '(' + call_args + ')' if operator: cast_self = 'self' if class_name != func_scope: # this function comes from an ancestor class; for operators, we must cast it cast_self = 'dynamic_cast<' + type_to_c(func_scope) + '>(' + cast_self + ')' maybe_deref = deref_if_nonpointer(raw[0]) if '=' in operator: call = '(*%s %s %s%s)' % (cast_self, operator, maybe_deref, args[0]) elif operator == '[]': call = '((*%s)[%s%s])' % (cast_self, maybe_deref, args[0]) else: raise Exception('unfamiliar operator ' + operator) pre = '' basic_return = 'return ' if constructor or return_type != 'Void' else '' return_prefix = basic_return return_postfix = '' if non_pointer: return_prefix += '&' if copy: pre += ' static %s temp;\n' % type_to_c(return_type, non_pointing=True) return_prefix += '(temp = ' return_postfix += ', &temp)' c_return_type = type_to_c(return_type) maybe_const = 'const ' if const else '' mid_c.append(r''' %s%s EMSCRIPTEN_KEEPALIVE %s(%s) { %s %s%s%s; } ''' % (maybe_const, type_to_c(class_name) if constructor else c_return_type, c_names[i], full_args, pre, return_prefix, call, return_postfix)) if not constructor: if i == max_args: dec_args = ', '.join([type_to_cdec(raw[j]) + ' ' + args[j] for j in range(i)]) js_call_args = ', '.join(['%s%s' % (('(ptrdiff_t)' if sig[j] in interfaces else '') + take_addr_if_nonpointer(raw[j]), args[j]) for j in range(i)]) js_impl_methods.append(r''' %s %s(%s) %s { %sEM_ASM_%s({ var self = Module['getCache'](Module['%s'])[$0]; if (!self.hasOwnProperty('%s')) throw 'a JSImplementation must implement all functions, you forgot %s::%s.'; %sself['%s'](%s)%s; }, (ptrdiff_t)this%s); }''' % (c_return_type, func_name, dec_args, maybe_const, basic_return, 'INT' if c_return_type not in C_FLOATS else 'DOUBLE', class_name, func_name, class_name, func_name, return_prefix, func_name, ','.join(['$%d' % i for i in range(1, max_args + 1)]), return_postfix, (', ' if js_call_args else '') + js_call_args)) for name, interface in interfaces.items(): js_impl = interface.getExtendedAttribute('JSImplementation') if not js_impl: continue implements[name] = [js_impl[0]] # Compute the height in the inheritance tree of each node. Note that the order of interation # of `implements` is irrelevant. # # After one iteration of the loop, all ancestors of child are guaranteed to have a a larger # height number than the child, and this is recursively true for each ancestor. If the height # of child is later increased, all its ancestors will be readjusted at that time to maintain # that invariant. Further, the height of a node never decreases. Therefore, when the loop # finishes, all ancestors of a given node should have a larger height number than that node. nodeHeight = {} for child, parent in implements.items(): parent = parent[0] while parent: nodeHeight[parent] = max(nodeHeight.get(parent, 0), nodeHeight.get(child, 0) + 1) grandParent = implements.get(parent) if grandParent: child = parent parent = grandParent[0] else: parent = None names = sorted(interfaces.keys(), key=lambda x: nodeHeight.get(x, 0), reverse=True) for name in names: interface = interfaces[name] mid_js += ['\n// ' + name + '\n'] mid_c += ['\n// ' + name + '\n'] js_impl_methods = [] cons = interface.getExtendedAttribute('Constructor') if type(cons) == list: raise Exception('do not use "Constructor", instead create methods with the name of the interface') js_impl = interface.getExtendedAttribute('JSImplementation') if js_impl: js_impl = js_impl[0] # Methods # Ensure a constructor even if one is not specified. if not any(m.identifier.name == name for m in interface.members): mid_js += ['%sfunction %s() { throw "cannot construct a %s, no constructor in IDL" }\n' % (CONSTRUCTOR_CLOSURE_SUPPRESSIONS, name, name)] mid_js += build_constructor(name) for m in interface.members: if not m.isMethod(): continue constructor = m.identifier.name == name if not constructor: parent_constructor = False temp = m.parentScope while temp.parentScope: if temp.identifier.name == m.identifier.name: parent_constructor = True temp = temp.parentScope if parent_constructor: continue if not constructor: mid_js += [r''' %s.prototype['%s'] = %s.prototype.%s = ''' % (name, m.identifier.name, name, m.identifier.name)] sigs = {} return_type = None for ret, args in m.signatures(): if return_type is None: return_type = ret.name else: assert return_type == ret.name, 'overloads must have the same return type' for i in range(len(args) + 1): if i == len(args) or args[i].optional: assert i not in sigs, 'overloading must differentiate by # of arguments (cannot have two signatures that differ by types but not by length)' sigs[i] = args[:i] render_function(name, m.identifier.name, sigs, return_type, m.getExtendedAttribute('Ref'), m.getExtendedAttribute('Value'), (m.getExtendedAttribute('Operator') or [None])[0], constructor, func_scope=m.parentScope.identifier.name, const=m.getExtendedAttribute('Const')) mid_js += [';\n'] if constructor: mid_js += build_constructor(name) for m in interface.members: if not m.isAttr(): continue attr = m.identifier.name if m.type.isArray(): get_sigs = {1: [Dummy({'type': WebIDL.BuiltinTypes[WebIDL.IDLBuiltinType.Types.long]})]} set_sigs = {2: [Dummy({'type': WebIDL.BuiltinTypes[WebIDL.IDLBuiltinType.Types.long]}), Dummy({'type': m.type})]} get_call_content = take_addr_if_nonpointer(m) + 'self->' + attr + '[arg0]' set_call_content = 'self->' + attr + '[arg0] = ' + deref_if_nonpointer(m) + 'arg1' if m.getExtendedAttribute('BoundsChecked'): bounds_check = "array_bounds_check(sizeof(self->%s) / sizeof(self->%s[0]), arg0)" % (attr, attr) get_call_content = "(%s, %s)" % (bounds_check, get_call_content) set_call_content = "(%s, %s)" % (bounds_check, set_call_content) else: get_sigs = {0: []} set_sigs = {1: [Dummy({'type': m.type})]} get_call_content = take_addr_if_nonpointer(m) + 'self->' + attr set_call_content = 'self->' + attr + ' = ' + deref_if_nonpointer(m) + 'arg0' get_name = 'get_' + attr mid_js += [r''' %s.prototype['%s'] = %s.prototype.%s = ''' % (name, get_name, name, get_name)] render_function(name, get_name, get_sigs, m.type.name, None, None, None, False, func_scope=interface, call_content=get_call_content, const=m.getExtendedAttribute('Const'), array_attribute=m.type.isArray()) if m.readonly: mid_js += [r''' Object.defineProperty(%s.prototype, '%s', { get: %s.prototype.%s });''' % (name, attr, name, get_name)] else: set_name = 'set_' + attr mid_js += [r''' %s.prototype['%s'] = %s.prototype.%s = ''' % (name, set_name, name, set_name)] render_function(name, set_name, set_sigs, 'Void', None, None, None, False, func_scope=interface, call_content=set_call_content, const=m.getExtendedAttribute('Const'), array_attribute=m.type.isArray()) mid_js += [r''' Object.defineProperty(%s.prototype, '%s', { get: %s.prototype.%s, set: %s.prototype.%s });''' % (name, attr, name, get_name, name, set_name)] if not interface.getExtendedAttribute('NoDelete'): mid_js += [r''' %s.prototype['__destroy__'] = %s.prototype.__destroy__ = ''' % (name, name)] render_function(name, '__destroy__', {0: []}, 'Void', None, None, None, False, func_scope=interface, call_content='delete self') # Emit C++ class implementation that calls into JS implementation if js_impl: pre_c += [r''' class %s : public %s { public: %s }; ''' % (name, type_to_c(js_impl, non_pointing=True), '\n'.join(js_impl_methods))] deferred_js = [] for name, enum in enums.items(): mid_c += ['\n// ' + name + '\n'] deferred_js += ['\n', '// ' + name + '\n'] for value in enum.values(): function_id = "%s_%s" % (name, value.split('::')[-1]) function_id = 'emscripten_enum_%s' % function_id mid_c += [r'''%s EMSCRIPTEN_KEEPALIVE %s() { return %s; } ''' % (name, function_id, value)] symbols = value.split('::') if len(symbols) == 1: identifier = symbols[0] deferred_js += ["Module['%s'] = _%s();\n" % (identifier, function_id)] elif len(symbols) == 2: [namespace, identifier] = symbols if namespace in interfaces: # namespace is a class deferred_js += ["Module['%s']['%s'] = _%s();\n" % (namespace, identifier, function_id)] else: # namespace is a namespace, so the enums get collapsed into the top level namespace. deferred_js += ["Module['%s'] = _%s();\n" % (identifier, function_id)] else: raise Exception("Illegal enum value %s" % value) mid_c += ['\n}\n\n'] if len(deferred_js): mid_js += [''' (function() { function setupEnums() { %s } if (runtimeInitialized) setupEnums(); else addOnInit(setupEnums); })(); ''' % '\n '.join(deferred_js)] # Write with open(output_base + '.cpp', 'w') as c: for x in pre_c: c.write(x) for x in mid_c: c.write(x) with open(output_base + '.js', 'w') as js: for x in mid_js: js.write(x)