/* * Copyright (c) 2012 Zynga Inc. * Copyright (c) 2013-2014 Chukong Technologies Inc. * * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * * The above copyright notice and this permission notice shall be included in * all copies or substantial portions of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN * THE SOFTWARE. */ #include "jsapi.h" #include "jsfriendapi.h" #include "extensions/cocos-ext.h" #include "js_bindings_config.h" #include "cocos2d_specifics.hpp" #ifdef JSB_INCLUDE_CHIPMUNK #include "js_bindings_chipmunk_manual.h" #include "js_manual_conversions.h" USING_NS_CC_EXT; // Function declarations void static freeSpaceChildren(cpSpace *space); template static bool dummy_constructor(JSContext *cx, uint32_t argc, jsval *vp) { TypeTest t; T* cobj = new T(); cobj->autorelease(); js_type_class_t *p; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); p = typeMapIter->second; CCASSERT(p, "The value is null."); JSObject *_tmp = JS_NewObject(cx, p->jsclass, JS::RootedObject(cx, p->proto), JS::RootedObject(cx, p->parentProto)); js_proxy_t *pp = jsb_new_proxy(cobj, _tmp); JS::AddObjectRoot(cx, &pp->obj); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); args.rval().set(OBJECT_TO_JSVAL(_tmp)); return true; } #pragma mark - convertions /* * PhysicsSprite */ #pragma mark - PhysicsSprite JSClass* JSPROXY_CCPhysicsSprite_class = NULL; JSObject* JSPROXY_CCPhysicsSprite_object = NULL; // Constructor // Destructor void JSPROXY_CCPhysicsSprite_finalize(JSFreeOp *fop, JSObject *obj) { CCLOGINFO("jsbindings: finalizing JS object %p (PhysicsSprite)", obj); } // Arguments: // Ret value: BOOL (b) bool JSPROXY_CCPhysicsSprite_isDirty(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject *obj = JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(obj); PhysicsSprite* real = (PhysicsSprite *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) if (real->isDirty()) { args.rval().set(JSVAL_TRUE); } else args.rval().set(JSVAL_FALSE); return true; } // Arguments: // Ret value: cpBody* (N/A) bool JSPROXY_CCPhysicsSprite_getCPBody(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject *obj = JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(obj); PhysicsSprite* real = (PhysicsSprite *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) cpBody* ret_val; ret_val = real->getCPBody(); jsval ret_jsval = c_class_to_jsval( cx, ret_val, JS::RootedObject(cx, JSB_cpBody_object), JSB_cpBody_class, "cpBody" ); args.rval().set(ret_jsval); return true; } // Arguments: // Ret value: BOOL (b) bool JSPROXY_CCPhysicsSprite_ignoreBodyRotation(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject *obj = JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(obj); PhysicsSprite* real = (PhysicsSprite *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) bool ret_val; ret_val = real->isIgnoreBodyRotation(); args.rval().set(BOOLEAN_TO_JSVAL(ret_val)); return true; } // Arguments: cpBody* // Ret value: void (None) bool JSPROXY_CCPhysicsSprite_setCPBody_(JSContext *cx, uint32_t argc, jsval *vp) { JSObject *obj = JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(obj); PhysicsSprite* real = (PhysicsSprite *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); if( ! ok ) return false; real->setCPBody((cpBody*)arg0); args.rval().setUndefined(); return true; } // Arguments: BOOL // Ret value: void (None) bool JSPROXY_CCPhysicsSprite_setIgnoreBodyRotation_(JSContext *cx, uint32_t argc, jsval *vp) { JSObject *obj = JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(obj); PhysicsSprite* real = (PhysicsSprite *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool arg0 = JS::ToBoolean( args.get(0) ); real->setIgnoreBodyRotation((bool)arg0); args.rval().setUndefined(); return true; } /* * PhysicsDebugNode */ //#pragma mark - PhysicsDebugNode JSClass* JSB_CCPhysicsDebugNode_class = NULL; JSObject* JSB_CCPhysicsDebugNode_object = NULL; extern JSObject *js_cocos2dx_CCDrawNode_prototype; // Constructor // Destructor void JSB_CCPhysicsDebugNode_finalize(JSFreeOp *fop, JSObject *obj) { CCLOGINFO("jsbindings: finalizing JS object %p (PhysicsDebugNode)", obj); } // Arguments: cpSpace* // Ret value: PhysicsDebugNode* (o) bool JSB_CCPhysicsDebugNode_debugNodeForCPSpace__static(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); PhysicsDebugNode* ret = PhysicsDebugNode::create(arg0); jsval jsret; do { if (ret) { TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSObject *obj = JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto)); jsret = OBJECT_TO_JSVAL(obj); js_proxy_t *p = jsb_new_proxy(ret, obj); JS::AddNamedObjectRoot(cx, &p->obj, "CCDebugNode"); } else { jsret = JSVAL_NULL; } } while (0); args.rval().set(jsret); return true; } // Arguments: cpSpace* // Ret value: void (None) bool JSB_CCPhysicsDebugNode_setSpace_(JSContext *cx, uint32_t argc, jsval *vp) { JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(jsthis); PhysicsDebugNode* real = (PhysicsDebugNode *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) JSB_PRECONDITION2( argc == 1, cx, false, "Invalid number of arguments" ); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpSpace* arg0; ok &= jsval_to_opaque( cx, args.get(0), (void**)&arg0 ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); real->setSpace(arg0); args.rval().setUndefined(); return true; } // Arguments: // Ret value: cpSpace* (N/A) bool JSB_CCPhysicsDebugNode_space(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); js_proxy_t *proxy = jsb_get_js_proxy(jsthis); PhysicsDebugNode* real = (PhysicsDebugNode *)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, real) JSB_PRECONDITION2( argc == 0, cx, false, "Invalid number of arguments" ); cpSpace* ret_val; ret_val = real->getSpace(); jsval ret_jsval = opaque_to_jsval( cx, ret_val ); args.rval().set(ret_jsval); return true; } bool JSB_CCPhysicsDebugNode_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; PhysicsDebugNode* cobj = new (std::nothrow) PhysicsDebugNode(); cocos2d::Ref *_ccobj = dynamic_cast(cobj); if (_ccobj) { _ccobj->autorelease(); } TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); //JS::RootedObject obj(cx, JS_NewObjectForConstructor(cx, typeClass->jsclass, args)); JS::RootedObject obj(cx, JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto))); args.rval().set(OBJECT_TO_JSVAL(obj)); // link the native object with the javascript object js_proxy_t* p = jsb_new_proxy(cobj, obj); JS::AddNamedObjectRoot(cx, &p->obj, "PhysicsDebugNode"); if (JS_HasProperty(cx, obj, "_ctor", &ok)) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(obj), "_ctor", args); return true; } void JSB_CCPhysicsDebugNode_createClass(JSContext *cx, JS::HandleObject globalObj, const char* name ) { JSB_CCPhysicsDebugNode_class = (JSClass *)calloc(1, sizeof(JSClass)); JSB_CCPhysicsDebugNode_class->name = name; JSB_CCPhysicsDebugNode_class->addProperty = JS_PropertyStub; JSB_CCPhysicsDebugNode_class->delProperty = JS_DeletePropertyStub; JSB_CCPhysicsDebugNode_class->getProperty = JS_PropertyStub; JSB_CCPhysicsDebugNode_class->setProperty = JS_StrictPropertyStub; JSB_CCPhysicsDebugNode_class->enumerate = JS_EnumerateStub; JSB_CCPhysicsDebugNode_class->resolve = JS_ResolveStub; JSB_CCPhysicsDebugNode_class->convert = JS_ConvertStub; JSB_CCPhysicsDebugNode_class->finalize = JSB_CCPhysicsDebugNode_finalize; JSB_CCPhysicsDebugNode_class->flags = 0; static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("_setSpace", JSB_CCPhysicsDebugNode_setSpace_, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getSpace", JSB_CCPhysicsDebugNode_space, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("_create", JSB_CCPhysicsDebugNode_debugNodeForCPSpace__static, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; TypeTest t1; js_type_class_t *typeClass = nullptr; std::string typeName = t1.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSB_CCPhysicsDebugNode_object = JS_InitClass(cx, globalObj, JS::RootedObject(cx, typeClass->proto), JSB_CCPhysicsDebugNode_class, JSB_CCPhysicsDebugNode_constructor, 0,properties,funcs,NULL,st_funcs); TypeTest t; js_type_class_t *p; typeName = t.s_name(); if (_js_global_type_map.find(typeName) == _js_global_type_map.end()) { p = (js_type_class_t *)malloc(sizeof(js_type_class_t)); p->jsclass = JSB_CCPhysicsDebugNode_class; p->proto = JSB_CCPhysicsDebugNode_object; p->parentProto = typeClass->proto; _js_global_type_map.insert(std::make_pair(typeName, p)); } } // Arguments: NSString*, CGRect // Ret value: PhysicsSprite* (o) bool JSPROXY_CCPhysicsSprite_spriteWithFile_rect__static(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; if (argc == 2) { const char* arg0; std::string arg0_tmp; ok &= jsval_to_std_string(cx, args.get(0), &arg0_tmp); arg0 = arg0_tmp.c_str(); cocos2d::Rect arg1; ok &= jsval_to_ccrect(cx, args.get(1), &arg1); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); PhysicsSprite* ret = PhysicsSprite::create(arg0, arg1); jsval jsret; do { if (ret) { TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSObject *obj = JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto)); jsret = OBJECT_TO_JSVAL(obj); js_proxy_t *p = jsb_new_proxy(ret, obj); JS::AddNamedObjectRoot(cx, &p->obj, "CCPhysicsSprite"); } else { jsret = JSVAL_NULL; } } while (0); args.rval().set(jsret); return true; } if (argc == 1) { const char* arg0; std::string arg0_tmp; ok &= jsval_to_std_string(cx, args.get(0), &arg0_tmp); arg0 = arg0_tmp.c_str(); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); PhysicsSprite* ret = PhysicsSprite::create(arg0); jsval jsret; do { if (ret) { TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSObject *obj = JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto)); jsret = OBJECT_TO_JSVAL(obj); js_proxy_t *p = jsb_new_proxy(ret, obj); JS::AddNamedObjectRoot(cx, &p->obj, "CCPhysicsSprite"); } else { jsret = JSVAL_NULL; } } while (0); args.rval().set(jsret); return true; } return false; } // Arguments: SpriteFrame* // Ret value: PhysicsSprite* (o) bool JSPROXY_CCPhysicsSprite_spriteWithSpriteFrame__static(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cocos2d::SpriteFrame* arg0; if (argc >= 1) { do { js_proxy_t *proxy; JSObject *tmpObj = args.get(0).toObjectOrNull(); proxy = jsb_get_js_proxy(tmpObj); arg0 = (cocos2d::SpriteFrame*)(proxy ? proxy->ptr : NULL); TEST_NATIVE_OBJECT(cx, arg0) } while (0); } PhysicsSprite* ret = PhysicsSprite::createWithSpriteFrame(arg0); jsval jsret; do { if (ret) { TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSObject *obj = JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto)); jsret = OBJECT_TO_JSVAL(obj); js_proxy_t *p = jsb_new_proxy(ret, obj); JS::AddNamedObjectRoot(cx, &p->obj, "CCPhysicsSprite"); } else { jsret = JSVAL_NULL; } } while (0); args.rval().set(jsret); return true; } // Arguments: NSString* // Ret value: PhysicsSprite* (o) bool JSPROXY_CCPhysicsSprite_spriteWithSpriteFrameName__static(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; const char* arg0; std::string arg0_tmp; if (argc == 1) { ok &= jsval_to_std_string(cx, args.get(0), &arg0_tmp); arg0 = arg0_tmp.c_str(); PhysicsSprite* ret = PhysicsSprite::createWithSpriteFrameName(arg0); jsval jsret; do { if (ret) { TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSObject *obj = JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto)); jsret = OBJECT_TO_JSVAL(obj); js_proxy_t *p = jsb_new_proxy(ret, obj); JS::AddNamedObjectRoot(cx, &p->obj, "CCPhysicsSprite"); } else { jsret = JSVAL_NULL; } } while (0); args.rval().set(jsret); return true; } JS_ReportError(cx, "wrong number of arguments: %d, was expecting %d", argc, 1); return false; } bool JSPROXY_CCPhysicsSprite_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; PhysicsSprite* cobj = new PhysicsSprite(); cocos2d::Ref *_ccobj = dynamic_cast(cobj); if (_ccobj) { _ccobj->autorelease(); } TypeTest t; js_type_class_t *typeClass = nullptr; std::string typeName = t.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); //JS::RootedObject obj(cx, JS_NewObjectForConstructor(cx, typeClass->jsclass, args)); JS::RootedObject obj(cx, JS_NewObject(cx, typeClass->jsclass, JS::RootedObject(cx, typeClass->proto), JS::RootedObject(cx, typeClass->parentProto))); args.rval().set(OBJECT_TO_JSVAL(obj)); // link the native object with the javascript object js_proxy_t* p = jsb_new_proxy(cobj, obj); JS::AddNamedObjectRoot(cx, &p->obj, "cocos2d::extension::PhysicsSprite"); if (JS_HasProperty(cx, obj, "_ctor", &ok)) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(obj), "_ctor", args); return true; } static bool JSPROXY_CCPhysicsSprite_ctor(JSContext *cx, uint32_t argc, jsval *vp) { JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JS::RootedObject obj(cx, args.thisv().toObjectOrNull()); PhysicsSprite *nobj = new PhysicsSprite(); if (nobj) { nobj->autorelease(); } js_proxy_t* p = jsb_new_proxy(nobj, obj); JS::AddNamedObjectRoot(cx, &p->obj, "cocos2d::extension::SpriteFrame"); bool isFound = false; if (JS_HasProperty(cx, obj, "_ctor", &isFound)) ScriptingCore::getInstance()->executeFunctionWithOwner(OBJECT_TO_JSVAL(obj), "_ctor", args); args.rval().setUndefined(); return true; } void JSPROXY_CCPhysicsSprite_createClass(JSContext *cx, JS::HandleObject globalObj) { JSPROXY_CCPhysicsSprite_class = (JSClass *)calloc(1, sizeof(JSClass)); JSPROXY_CCPhysicsSprite_class->name = "PhysicsSprite"; JSPROXY_CCPhysicsSprite_class->addProperty = JS_PropertyStub; JSPROXY_CCPhysicsSprite_class->delProperty = JS_DeletePropertyStub; JSPROXY_CCPhysicsSprite_class->getProperty = JS_PropertyStub; JSPROXY_CCPhysicsSprite_class->setProperty = JS_StrictPropertyStub; JSPROXY_CCPhysicsSprite_class->enumerate = JS_EnumerateStub; JSPROXY_CCPhysicsSprite_class->resolve = JS_ResolveStub; JSPROXY_CCPhysicsSprite_class->convert = JS_ConvertStub; JSPROXY_CCPhysicsSprite_class->finalize = JSPROXY_CCPhysicsSprite_finalize; JSPROXY_CCPhysicsSprite_class->flags = 0; static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("isDirty", JSPROXY_CCPhysicsSprite_isDirty, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getCPBody", JSPROXY_CCPhysicsSprite_getCPBody, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("getIgnoreBodyRotation", JSPROXY_CCPhysicsSprite_ignoreBodyRotation, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("_setCPBody", JSPROXY_CCPhysicsSprite_setCPBody_, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setIgnoreBodyRotation", JSPROXY_CCPhysicsSprite_setIgnoreBodyRotation_, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("ctor", JSPROXY_CCPhysicsSprite_ctor, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FN("create", JSPROXY_CCPhysicsSprite_spriteWithFile_rect__static, 2, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("createWithSpriteFrame", JSPROXY_CCPhysicsSprite_spriteWithSpriteFrame__static, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("createWithSpriteFrameName", JSPROXY_CCPhysicsSprite_spriteWithSpriteFrameName__static, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; TypeTest t1; js_type_class_t *typeClass = nullptr; std::string typeName = t1.s_name(); auto typeMapIter = _js_global_type_map.find(typeName); CCASSERT(typeMapIter != _js_global_type_map.end(), "Can't find the class type!"); typeClass = typeMapIter->second; CCASSERT(typeClass, "The value is null."); JSPROXY_CCPhysicsSprite_object = JS_InitClass(cx, globalObj, JS::RootedObject(cx, typeClass->proto), JSPROXY_CCPhysicsSprite_class,/* dummy_constructor*/JSPROXY_CCPhysicsSprite_constructor, 0,properties,funcs,NULL,st_funcs); TypeTest t; js_type_class_t *p; typeName = t.s_name(); if (_js_global_type_map.find(typeName) == _js_global_type_map.end()) { p = (js_type_class_t *)malloc(sizeof(js_type_class_t)); p->jsclass = JSPROXY_CCPhysicsSprite_class; p->proto = JSPROXY_CCPhysicsSprite_object; p->parentProto = typeClass->proto; _js_global_type_map.insert(std::make_pair(typeName, p)); } } void register_CCPhysicsSprite(JSContext *cx, JS::HandleObject obj) { JS::RootedObject ccObj(cx); get_or_create_js_obj(cx, obj, "cc", &ccObj); JSPROXY_CCPhysicsSprite_createClass(cx, ccObj); } void register_CCPhysicsDebugNode(JSContext *cx, JS::HandleObject obj) { JS::RootedObject ccObj(cx); get_or_create_js_obj(cx, obj, "cc", &ccObj); JSB_CCPhysicsDebugNode_createClass(cx, ccObj, "PhysicsDebugNode"); } bool jsval_to_cpBB( JSContext *cx, jsval vp, cpBB *ret ) { JS::RootedObject jsobj(cx); bool ok = JS_ValueToObject( cx, JS::RootedValue(cx, vp), &jsobj ); JSB_PRECONDITION( ok, "Error converting value to object"); JSB_PRECONDITION( jsobj, "Not a valid JS object"); JS::RootedValue vall(cx); JS::RootedValue valb(cx); JS::RootedValue valr(cx); JS::RootedValue valt(cx); ok = true; ok &= JS_GetProperty(cx, jsobj, "l", &vall); ok &= JS_GetProperty(cx, jsobj, "b", &valb); ok &= JS_GetProperty(cx, jsobj, "r", &valr); ok &= JS_GetProperty(cx, jsobj, "t", &valt); JSB_PRECONDITION( ok, "Error obtaining point properties"); double l, b, r, t; ok &= JS::ToNumber(cx, vall, &l); ok &= JS::ToNumber(cx, valb, &b); ok &= JS::ToNumber(cx, valr, &r); ok &= JS::ToNumber(cx, valt, &t); JSB_PRECONDITION( ok, "Error converting value to numbers"); ret->l = l; ret->b = b; ret->r = r; ret->t = t; return true; } jsval cpBB_to_jsval(JSContext *cx, cpBB bb ) { JS::RootedObject object(cx, JS_NewObject(cx, NULL, JS::NullPtr(), JS::NullPtr())); if (!object) return JSVAL_VOID; if (!JS_DefineProperty(cx, object, "l", bb.l, JSPROP_ENUMERATE | JSPROP_PERMANENT) || !JS_DefineProperty(cx, object, "b", bb.b, JSPROP_ENUMERATE | JSPROP_PERMANENT) || !JS_DefineProperty(cx, object, "r", bb.r, JSPROP_ENUMERATE | JSPROP_PERMANENT) || !JS_DefineProperty(cx, object, "t", bb.t, JSPROP_ENUMERATE | JSPROP_PERMANENT) ) return JSVAL_VOID; return OBJECT_TO_JSVAL(object); } // In order to be compatible with Chipmunk-JS API, // this function expect to receive an array of numbers, and not an array of vects // OK: [1,2, 3,4, 5,6] <- expected // BAD: [{x:1, y:2}, {x:3,y:4}, {x:5, y:6}] <- not expected bool jsval_to_array_of_cpvect( JSContext *cx, jsval vp, cpVect**verts, int *numVerts) { // Parsing sequence JS::RootedObject jsobj(cx); bool ok = JS_ValueToObject( cx, JS::RootedValue(cx, vp), &jsobj ); JSB_PRECONDITION( ok, "Error converting value to object"); JSB_PRECONDITION( jsobj && JS_IsArrayObject( cx, jsobj), "Object must be an array"); uint32_t len; JS_GetArrayLength(cx, jsobj, &len); JSB_PRECONDITION( len%2==0, "Array lenght should be even"); cpVect *array = (cpVect*)malloc( sizeof(cpVect) * len/2); for( uint32_t i=0; i< len;i++ ) { JS::RootedValue valarg(cx); JS_GetElement(cx, jsobj, i, &valarg); double value; ok = JS::ToNumber(cx, valarg, &value); JSB_PRECONDITION( ok, "Error converting value to nsobject"); if(i%2==0) array[i/2].x = value; else array[i/2].y = value; } *numVerts = len/2; *verts = array; return true; } bool jsval_to_cpVect( JSContext *cx, jsval vp, cpVect *ret ) { #ifdef JSB_COMPATIBLE_WITH_COCOS2D_HTML5_BASIC_TYPES JS::RootedObject jsobj(cx); if( ! JS_ValueToObject( cx, JS::RootedValue(cx, vp), &jsobj ) ) return false; JSB_PRECONDITION( jsobj, "Not a valid JS object"); JS::RootedValue valx(cx); JS::RootedValue valy(cx); bool ok = true; ok &= JS_GetProperty(cx, jsobj, "x", &valx); ok &= JS_GetProperty(cx, jsobj, "y", &valy); if( ! ok ) return false; double x, y; ok &= JS::ToNumber(cx, valx, &x); ok &= JS::ToNumber(cx, valy, &y); if( ! ok ) return false; ret->x = x; ret->y = y; return true; #else // #! JSB_COMPATIBLE_WITH_COCOS2D_HTML5_BASIC_TYPES JSObject *tmp_arg; if( ! JS_ValueToObject( cx, vp, &tmp_arg ) ) return false; JSB_PRECONDITION( tmp_arg && JS_IsTypedArrayObject( tmp_arg, cx ), "Not a TypedArray object"); JSB_PRECONDITION( JS_GetTypedArrayByteLength( tmp_arg, cx ) == sizeof(cpVect), "Invalid length"); *ret = *(cpVect*)JS_GetArrayBufferViewData( tmp_arg, cx ); return true; #endif // #! JSB_COMPATIBLE_WITH_COCOS2D_HTML5_BASIC_TYPES } jsval cpVect_to_jsval( JSContext *cx, cpVect p) { #ifdef JSB_COMPATIBLE_WITH_COCOS2D_HTML5_BASIC_TYPES JS::RootedObject object(cx, JS_NewObject(cx, NULL, JS::NullPtr(), JS::NullPtr() )); if (!object) return JSVAL_VOID; if (!JS_DefineProperty(cx, object, "x", p.x, JSPROP_ENUMERATE | JSPROP_PERMANENT) || !JS_DefineProperty(cx, object, "y", p.y, JSPROP_ENUMERATE | JSPROP_PERMANENT) ) return JSVAL_VOID; return OBJECT_TO_JSVAL(object); #else // JSB_COMPATIBLE_WITH_COCOS2D_HTML5_BASIC_TYPES #ifdef __LP64__ JSObject *typedArray = JS_NewFloat64Array( cx, 2 ); #else JSObject *typedArray = JS_NewFloat32Array( cx, 2 ); #endif cpVect *buffer = (cpVect*)JS_GetArrayBufferViewData(typedArray, cx ); *buffer = p; return OBJECT_TO_JSVAL(typedArray); #endif // ! JSB_COMPATIBLE_WITH_COCOS2D_HTML5_BASIC_TYPES } #pragma mark - Collision Handler struct collision_handler { cpCollisionType typeA; cpCollisionType typeB; JS::Heap begin; JS::Heap pre; JS::Heap post; JS::Heap separate; JS::Heap jsthis; JSContext *cx; // "owner" of the collision handler // Needed when the space goes out of scope, it will remove all the allocated collision handlers for him. cpSpace *space; unsigned long hash_key; unsigned int is_oo; // Objected oriented API ? UT_hash_handle hh; }; // hash struct collision_handler* collision_handler_hash = NULL; // helper pair static unsigned long pair_ints( unsigned long A, unsigned long B ) { // order is not important unsigned long k1 = MIN(A, B ); unsigned long k2 = MAX(A, B ); return (k1 + k2) * (k1 + k2 + 1) /2 + k2; } static cpBool myCollisionBegin(cpArbiter *arb, cpSpace *space, void *data) { struct collision_handler *handler = (struct collision_handler*) data; jsval args[2]; if( handler->is_oo ) { args[0] = c_class_to_jsval(handler->cx, arb, JS::RootedObject(handler->cx, JSB_cpArbiter_object), JSB_cpArbiter_class, "cpArbiter"); args[1] = c_class_to_jsval(handler->cx, space, JS::RootedObject(handler->cx, JSB_cpSpace_object), JSB_cpSpace_class, "cpArbiter"); } else { args[0] = opaque_to_jsval( handler->cx, arb); args[1] = opaque_to_jsval( handler->cx, space ); } JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS::RootedValue rval(handler->cx); bool ok = JS_CallFunctionValue( handler->cx, JS::RootedObject(handler->cx, handler->jsthis), JS::RootedValue(handler->cx, OBJECT_TO_JSVAL(handler->begin)), JS::HandleValueArray::fromMarkedLocation(2, args), &rval); JSB_PRECONDITION2(ok, handler->cx, cpFalse, "Error calling collision callback: begin"); if( rval.isBoolean() ) { bool ret = rval.toBoolean(); return (cpBool)ret; } return cpTrue; } static cpBool myCollisionPre(cpArbiter *arb, cpSpace *space, void *data) { struct collision_handler *handler = (struct collision_handler*) data; jsval args[2]; if( handler->is_oo ) { args[0] = c_class_to_jsval(handler->cx, arb, JS::RootedObject(handler->cx, JSB_cpArbiter_object), JSB_cpArbiter_class, "cpArbiter"); args[1] = c_class_to_jsval(handler->cx, space, JS::RootedObject(handler->cx, JSB_cpSpace_object), JSB_cpSpace_class, "cpArbiter"); } else { args[0] = opaque_to_jsval( handler->cx, arb); args[1] = opaque_to_jsval( handler->cx, space ); } JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS::RootedValue rval(handler->cx); bool ok = JS_CallFunctionValue( handler->cx, JS::RootedObject(handler->cx, handler->jsthis), JS::RootedValue(handler->cx, OBJECT_TO_JSVAL(handler->pre)), JS::HandleValueArray::fromMarkedLocation(2, args), &rval); JSB_PRECONDITION2(ok, handler->cx, false, "Error calling collision callback: pre"); if( rval.isBoolean() ) { bool ret = rval.toBoolean(); return (cpBool)ret; } return cpTrue; } static void myCollisionPost(cpArbiter *arb, cpSpace *space, void *data) { struct collision_handler *handler = (struct collision_handler*) data; jsval args[2]; if( handler->is_oo ) { args[0] = c_class_to_jsval(handler->cx, arb, JS::RootedObject(handler->cx, JSB_cpArbiter_object), JSB_cpArbiter_class, "cpArbiter"); args[1] = c_class_to_jsval(handler->cx, space, JS::RootedObject(handler->cx, JSB_cpSpace_object), JSB_cpSpace_class, "cpArbiter"); } else { args[0] = opaque_to_jsval( handler->cx, arb); args[1] = opaque_to_jsval( handler->cx, space ); } JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS::RootedValue ignore(handler->cx); bool ok = JS_CallFunctionValue( handler->cx, JS::RootedObject(handler->cx, handler->jsthis), JS::RootedValue(handler->cx, OBJECT_TO_JSVAL(handler->post)), JS::HandleValueArray::fromMarkedLocation(2, args), &ignore); JSB_PRECONDITION2(ok, handler->cx, , "Error calling collision callback: Post"); } static void myCollisionSeparate(cpArbiter *arb, cpSpace *space, void *data) { struct collision_handler *handler = (struct collision_handler*) data; if(! handler->cx || !handler->space) return; jsval args[2]; if( handler->is_oo ) { args[0] = c_class_to_jsval(handler->cx, arb, JS::RootedObject(handler->cx, JSB_cpArbiter_object), JSB_cpArbiter_class, "cpArbiter"); args[1] = c_class_to_jsval(handler->cx, space, JS::RootedObject(handler->cx, JSB_cpSpace_object), JSB_cpSpace_class, "cpArbiter"); } else { args[0] = opaque_to_jsval( handler->cx, arb); args[1] = opaque_to_jsval( handler->cx, space ); } JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS::RootedValue ignore(handler->cx); bool ok = JS_CallFunctionValue( handler->cx, JS::RootedObject(handler->cx, handler->jsthis), JS::RootedValue(handler->cx, OBJECT_TO_JSVAL(handler->separate)), JS::HandleValueArray::fromMarkedLocation(2, args), &ignore); JSB_PRECONDITION2(ok, handler->cx, , "Error calling collision callback: Separate");} #pragma mark - cpSpace #pragma mark constructor / destructor void JSB_cpSpace_finalize(JSFreeOp *fop, JSObject *jsthis) { struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); if( proxy ) { CCLOGINFO("jsbindings: finalizing JS object %p (cpSpace), handle: %p", jsthis, proxy->handle); // space cpSpace *space = (cpSpace*) proxy->handle; // Remove collision handlers, since the user might have forgotten to manually remove them struct collision_handler *current, *tmp; HASH_ITER(hh, collision_handler_hash, current, tmp) { if( current->space == space ) { JSContext *cx = current->cx; // unroot it if( current->begin ) { JS::RemoveObjectRoot(cx, ¤t->begin); } if( current->pre ) JS::RemoveObjectRoot(cx, ¤t->pre); if( current->post ) JS::RemoveObjectRoot(cx, ¤t->post); if( current->separate ) JS::RemoveObjectRoot(cx, ¤t->separate); HASH_DEL(collision_handler_hash,current); /* delete; users advances to next */ free(current); /* optional- if you want to free */ } } // Free Space Children freeSpaceChildren(space); jsb_del_jsobject_for_proxy(space); if(proxy->flags == JSB_C_FLAG_CALL_FREE) cpSpaceFree(space); jsb_del_c_proxy_for_jsobject(jsthis); } } #pragma mark addCollisionHandler static bool __jsb_cpSpace_addCollisionHandler(JSContext *cx, jsval *vp, jsval *argvp, cpSpace *space, unsigned int is_oo) { struct collision_handler *handler = (struct collision_handler*) malloc( sizeof(*handler) ); JSB_PRECONDITION(handler, "Error allocating memory"); bool ok = true; // args ok &= jsval_to_int(cx, JS::RootedValue(cx, *argvp++), (int32_t*) &handler->typeA ); ok &= jsval_to_int(cx, JS::RootedValue(cx, *argvp++), (int32_t*) &handler->typeB ); // this is no longer passed, so "this" is going to be "this". // ok &= JS_ValueToObject(cx, *argvp++, &handler->jsthis ); handler->jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); handler->begin = argvp->toObjectOrNull(); argvp++; handler->pre = argvp->toObjectOrNull(); argvp++; handler->post = argvp->toObjectOrNull(); argvp++; handler->separate = argvp->toObjectOrNull(); argvp++; JSB_PRECONDITION(ok, "Error parsing arguments"); // Object Oriented API ? handler->is_oo = is_oo; // owner of the collision handler handler->space = space; // Root it if( handler->begin ) JS::AddNamedObjectRoot(cx, &handler->begin, "begin collision_handler"); if( handler->pre ) JS::AddNamedObjectRoot(cx, &handler->pre, "pre collision_handler"); if( handler->post ) JS::AddNamedObjectRoot(cx, &handler->post, "post collision_handler"); if( handler->separate ) JS::AddNamedObjectRoot(cx, &handler->separate, "separate collision_handler"); handler->cx = cx; cpSpaceAddCollisionHandler(space, handler->typeA, handler->typeB, !handler->begin ? NULL : &myCollisionBegin, !handler->pre ? NULL : &myCollisionPre, !handler->post ? NULL : &myCollisionPost, !handler->separate ? NULL : &myCollisionSeparate, handler ); // // Already added ? If so, remove it. // Then add new entry // struct collision_handler *hashElement = NULL; unsigned long paired_key = pair_ints(handler->typeA, handler->typeB ); HASH_FIND_INT(collision_handler_hash, &paired_key, hashElement); if( hashElement ) { HASH_DEL( collision_handler_hash, hashElement ); free( hashElement ); } handler->hash_key = paired_key; HASH_ADD_INT( collision_handler_hash, hash_key, handler ); return true; } bool JSB_cpSpaceAddCollisionHandler(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==7, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); // args cpSpace *space; jsval* argvp = args.array(); bool ok = jsval_to_opaque( cx, JS::RootedValue(cx, *argvp++), (void**)&space); JSB_PRECONDITION(ok, "Error parsing arguments"); return __jsb_cpSpace_addCollisionHandler(cx, vp, argvp, space, 0); } // method bool JSB_cpSpace_addCollisionHandler(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==6, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); void *handle = proxy->handle; return __jsb_cpSpace_addCollisionHandler(cx, vp, args.array(), (cpSpace*)handle, 1); } bool JSB_cpSpace_setDefaultCollisionHandler(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==4, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; collision_handler *handler = (collision_handler*) malloc( sizeof(collision_handler) ); JSB_PRECONDITION(handler, "Error allocating memory"); handler->typeA = 0; handler->typeB = 0; handler->jsthis = jsthis; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); handler->begin = args.get(0).toObjectOrNull(); handler->pre = args.get(1).toObjectOrNull(); handler->post = args.get(2).toObjectOrNull(); handler->separate = args.get(3).toObjectOrNull(); // Object Oriented API ? handler->is_oo = 1; // owner of the collision handler handler->space = space; handler->cx = cx; cpSpaceSetDefaultCollisionHandler(space, !handler->begin ? NULL : &myCollisionBegin, !handler->pre ? NULL : &myCollisionPre, !handler->post ? NULL : &myCollisionPost, !handler->separate ? NULL : &myCollisionSeparate, handler ); // // Already added ? If so, remove it. // Then add new entry // struct collision_handler *hashElement = NULL; unsigned long paired_key = pair_ints(handler->typeA, handler->typeB ); HASH_FIND_INT(collision_handler_hash, &paired_key, hashElement); if( hashElement ) { if( hashElement->begin ) { JS::RemoveObjectRoot(cx, &hashElement->begin); } if( hashElement->pre ) JS::RemoveObjectRoot(cx, &hashElement->pre); if( hashElement->post ) JS::RemoveObjectRoot(cx, &hashElement->post); if( hashElement->separate ) JS::RemoveObjectRoot(cx, &hashElement->separate); HASH_DEL( collision_handler_hash, hashElement ); free( hashElement ); } handler->hash_key = paired_key; HASH_ADD_INT( collision_handler_hash, hash_key, handler ); // Root it if( handler->begin ) JS::AddNamedObjectRoot(cx, &handler->begin, "begin collision_handler"); if( handler->pre ) JS::AddNamedObjectRoot(cx, &handler->pre, "pre collision_handler"); if( handler->post ) JS::AddNamedObjectRoot(cx, &handler->post, "post collision_handler"); if( handler->separate ) JS::AddNamedObjectRoot(cx, &handler->separate, "separate collision_handler"); args.rval().setUndefined(); return true; } #pragma mark removeCollisionHandler static bool __jsb_cpSpace_removeCollisionHandler(JSContext *cx, jsval *vp, jsval *argvp, cpSpace *space) { bool ok = true; cpCollisionType typeA; cpCollisionType typeB; ok &= jsval_to_int(cx, JS::RootedValue(cx, *argvp++), (int32_t*) &typeA ); ok &= jsval_to_int(cx, JS::RootedValue(cx, *argvp++), (int32_t*) &typeB ); JSB_PRECONDITION(ok, "Error parsing arguments"); cpSpaceRemoveCollisionHandler(space, typeA, typeB ); // Remove it struct collision_handler *hashElement = NULL; unsigned long key = pair_ints(typeA, typeB ); HASH_FIND_INT(collision_handler_hash, &key, hashElement); if( hashElement ) { // unroot it if( hashElement->begin ) JS::RemoveObjectRoot(cx, &hashElement->begin); if( hashElement->pre ) JS::RemoveObjectRoot(cx, &hashElement->pre); if( hashElement->post ) JS::RemoveObjectRoot(cx, &hashElement->post); if( hashElement->separate ) JS::RemoveObjectRoot(cx, &hashElement->separate); HASH_DEL( collision_handler_hash, hashElement ); free( hashElement ); } return true; } // Free function bool JSB_cpSpaceRemoveCollisionHandler(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==3, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpSpace* space; jsval* argvp = args.array(); bool ok = jsval_to_opaque( cx, JS::RootedValue(cx, *argvp++), (void**)&space); JSB_PRECONDITION(ok, "Error parsing arguments"); return __jsb_cpSpace_removeCollisionHandler(cx, vp, argvp, space); } // method bool JSB_cpSpace_removeCollisionHandler(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==2, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); void *handle = proxy->handle; return __jsb_cpSpace_removeCollisionHandler(cx, vp, args.array(), (cpSpace*)handle); } #pragma mark Add functios. Root JSObjects // Arguments: cpBody* // Ret value: cpBody* bool JSB_cpSpace_addBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg1; jsval retval = args.get(0); struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceAddBody((cpSpace*)arg0 , (cpBody*)arg1 ); // Root it: JS::AddNamedObjectRoot(cx, &retproxy->jsobj, "cpBody"); // addBody returns the same object that was added, so return it without conversions args.rval().set(retval); return true; } // Arguments: cpConstraint* // Ret value: cpConstraint* bool JSB_cpSpace_addConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg1; jsval retval = args.get(0); struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceAddConstraint((cpSpace*)arg0 , (cpConstraint*)arg1 ); // Root it: JS::AddNamedObjectRoot(cx, &retproxy->jsobj, "cpConstraint"); // addConstraint returns the same object that was added, so return it without conversions args.rval().set(retval); return true; } // Arguments: cpShape* // Ret value: cpShape* bool JSB_cpSpace_addShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg1; jsval retval = args.get(0); struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceAddShape((cpSpace*)arg0 , (cpShape*)arg1 ); // Root it: JS::AddNamedObjectRoot(cx, &retproxy->jsobj, "cpShape"); // addShape returns the same object that was added, so return it without conversions args.rval().set(retval); return true; } // Arguments: cpShape* // Ret value: cpShape* bool JSB_cpSpace_addStaticShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg1; jsval retval = args.get(0); struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceAddStaticShape((cpSpace*)arg0 , (cpShape*)arg1 ); // Root it: JS::AddNamedObjectRoot(cx, &retproxy->jsobj, "cpShape (static)"); // addStaticShape returns the same object that was added, so return it without conversions args.rval().set(retval); return true; } #pragma mark Remove functios. Untoot JSObjects // Arguments: cpBody* // Ret value: void bool JSB_cpSpace_removeBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* arg1; struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceRemoveBody((cpSpace*)arg0 , (cpBody*)arg1 ); JS::RemoveObjectRoot(cx, &retproxy->jsobj); args.rval().setUndefined(); return true; } // Arguments: cpConstraint* // Ret value: void bool JSB_cpSpace_removeConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpConstraint* arg1; struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceRemoveConstraint((cpSpace*)arg0 , (cpConstraint*)arg1 ); JS::RemoveObjectRoot(cx, &retproxy->jsobj); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: void bool JSB_cpSpace_removeShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg1; struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceRemoveShape((cpSpace*)arg0 , (cpShape*)arg1 ); JS::RemoveObjectRoot(cx, &retproxy->jsobj); args.rval().setUndefined(); return true; } // Arguments: cpShape* // Ret value: void bool JSB_cpSpace_removeStaticShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* arg0 = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpShape* arg1; struct jsb_c_proxy_s *retproxy; ok &= jsval_to_c_class( cx, args.get(0), (void**)&arg1, &retproxy ); JSB_PRECONDITION(ok, "Error processing arguments"); cpSpaceRemoveStaticShape((cpSpace*)arg0 , (cpShape*)arg1 ); JS::RemoveObjectRoot(cx, &retproxy->jsobj); args.rval().setUndefined(); return true; } #pragma mark segmentQueryFirst function bool JSB_cpSpace_segmentQueryFirst(JSContext *cx, uint32_t argc, jsval *vp){ JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpVect start; cpVect end; cpLayers layers; cpGroup group; bool ok = true; ok &= jsval_to_cpVect( cx, args.get(0), &start ); ok &= jsval_to_cpVect( cx, args.get(1), &end ); ok &= jsval_to_uint32( cx, args.get(2), &layers ); ok &= jsval_to_uint( cx, args.get(3), (unsigned int*)&group ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpSegmentQueryInfo *out = new cpSegmentQueryInfo(); cpShape* target = cpSpaceSegmentQueryFirst(space, start, end, layers, group, out); if(target) { JSObject *jsobj = JS_NewObject(cx, JSB_cpSegmentQueryInfo_class, JS::RootedObject(cx, JSB_cpSegmentQueryInfo_object), JS::NullPtr()); jsb_set_jsobject_for_proxy(jsobj, out); jsb_set_c_proxy_for_jsobject(jsobj, out, JSB_C_FLAG_CALL_FREE); args.rval().set(OBJECT_TO_JSVAL(jsobj)); } else { delete out; args.rval().set(JSVAL_NULL); } return true; } #pragma mark nearestPointQueryNearest function bool JSB_cpSpace_nearestPointQueryNearest(JSContext *cx, uint32_t argc, jsval *vp){ JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpVect point; double maxDistance; cpLayers layers; cpGroup group; bool ok = true; ok &= jsval_to_cpVect( cx, args.get(0), &point ); ok &= JS::ToNumber(cx, args.get(1), &maxDistance); ok &= jsval_to_uint32( cx, args.get(2), &layers ); ok &= jsval_to_uint( cx, args.get(3), (unsigned int*)&group ); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); cpNearestPointQueryInfo* info = new cpNearestPointQueryInfo(); cpShape* target = cpSpaceNearestPointQueryNearest(space, point, maxDistance, layers, group, info); if(target) { JSObject *jsobj = JS_NewObject(cx, JSB_cpNearestPointQueryInfo_class, JS::RootedObject(cx, JSB_cpNearestPointQueryInfo_object), JS::NullPtr()); jsb_set_jsobject_for_proxy(jsobj, info); jsb_set_c_proxy_for_jsobject(jsobj, info, JSB_C_FLAG_CALL_FREE); args.rval().set(OBJECT_TO_JSVAL(jsobj)); } else { delete info; args.rval().set(JSVAL_NULL); } return true; } struct JSB_cp_each_UserData { JSContext *cx; jsval* func; }; void JSB_cpSpace_pointQuery_func(cpShape *shape, void *data) { JSObject *jsCpObject = jsb_get_jsobject_for_proxy(shape); if(jsCpObject) { JSContext* cx = ((JSB_cp_each_UserData*)data)->cx; jsval* func = ((JSB_cp_each_UserData*)data)->func; JS::RootedValue rval(cx); jsval argv = OBJECT_TO_JSVAL(jsCpObject); JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS_CallFunctionValue(cx, JS::NullPtr(), JS::RootedValue(cx, *func), JS::HandleValueArray::fromMarkedLocation(1, &argv), &rval); } } bool JSB_cpSpace_pointQuery(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 4, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = args.thisv().toObjectOrNull(); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; cpVect point; cpLayers layers; cpGroup group; bool ok = jsval_to_cpVect(cx, args.get(0), &point); ok &= jsval_to_uint32(cx, args.get(1), &layers); ok &= jsval_to_uint(cx, args.get(2), (unsigned int*)&group); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(3).address()); cpSpacePointQuery(space, point, layers, group, JSB_cpSpace_pointQuery_func, data); free(data); args.rval().setUndefined(); return true; } void JSB_cpSpace_nearestPointQuery_func(cpShape *shape, cpFloat distance, cpVect point, void *data) { JSObject *jsCpObject = jsb_get_jsobject_for_proxy(shape); if(jsCpObject) { JSContext* cx = ((JSB_cp_each_UserData*)data)->cx; jsval* func = ((JSB_cp_each_UserData*)data)->func; JS::RootedValue rval(cx); jsval argv[3]; argv[0] = OBJECT_TO_JSVAL(jsCpObject); argv[1] = DOUBLE_TO_JSVAL(distance); argv[2] = cpVect_to_jsval(cx, point); JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS_CallFunctionValue(cx, JS::NullPtr(), JS::RootedValue(cx, *func), JS::HandleValueArray::fromMarkedLocation(3, argv), &rval); } } bool JSB_cpSpace_nearestPointQuery(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 5, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = args.thisv().toObjectOrNull(); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; cpVect point; double maxDistance; cpLayers layers; cpGroup group; bool ok = jsval_to_cpVect(cx, args.get(0), &point); ok &= JS::ToNumber(cx, args.get(1), &maxDistance); ok &= jsval_to_uint32(cx, args.get(2), &layers); ok &= jsval_to_uint(cx, args.get(3), (unsigned int*)&group); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(4).address()); cpSpaceNearestPointQuery(space, point, maxDistance, layers, group, JSB_cpSpace_nearestPointQuery_func, data); free(data); args.rval().setUndefined(); return true; } void JSB_cpSpace_segmentQuery_func(cpShape *shape, cpFloat t, cpVect n, void *data) { JSObject *jsCpObject = jsb_get_jsobject_for_proxy(shape); if(jsCpObject) { JSContext* cx = ((JSB_cp_each_UserData*)data)->cx; jsval* func = ((JSB_cp_each_UserData*)data)->func; JS::RootedValue rval(cx); jsval argv[3]; argv[0] = OBJECT_TO_JSVAL(jsCpObject); argv[1] = DOUBLE_TO_JSVAL(t); argv[2] = cpVect_to_jsval(cx, n); JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS_CallFunctionValue(cx, JS::NullPtr(), JS::RootedValue(cx, *func), JS::HandleValueArray::fromMarkedLocation(3, argv), &rval); } } bool JSB_cpSpace_segmentQuery(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 5, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = args.thisv().toObjectOrNull(); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; cpVect start; cpVect end; cpLayers layers; cpGroup group; bool ok = jsval_to_cpVect(cx, args.get(0), &start); ok = jsval_to_cpVect(cx, args.get(1), &end); ok &= jsval_to_uint32(cx, args.get(2), &layers); ok &= jsval_to_uint(cx, args.get(3), (unsigned int*)&group); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(4).address()); cpSpaceSegmentQuery(space, start, end, layers, group, JSB_cpSpace_segmentQuery_func, data); free(data); args.rval().setUndefined(); return true; } #define JSB_cpSpace_bbQuery_func JSB_cpSpace_pointQuery_func bool JSB_cpSpace_bbQuery(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 4, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = args.thisv().toObjectOrNull(); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*) proxy->handle; cpBB bb; cpLayers layers; cpGroup group; bool ok = jsval_to_cpBB(cx, args.get(0), &bb); ok &= jsval_to_uint32(cx, args.get(1), &layers); ok &= jsval_to_uint(cx, args.get(2), (unsigned int*)&group); JSB_PRECONDITION2(ok, cx, false, "Error processing arguments"); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(3).address()); cpSpaceBBQuery(space, bb, layers, group, JSB_cpSpace_bbQuery_func, data); free(data); args.rval().setUndefined(); return true; } template void JSB_cpSpace_each_func(T* cpObject, void *data) { JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JSObject *jsCpObject = jsb_get_jsobject_for_proxy(cpObject); if(jsCpObject) { JSContext* cx = ((JSB_cp_each_UserData*)data)->cx; jsval* func = ((JSB_cp_each_UserData*)data)->func; JS::RootedValue rval(cx); jsval argv = OBJECT_TO_JSVAL(jsCpObject); JS_CallFunctionValue(cx, JS::NullPtr(), JS::RootedValue(cx, *func), JS::HandleValueArray::fromMarkedLocation(1, &argv), &rval); } } bool JSB_cpSpace_eachShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*)proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(0).address()); cpSpaceEachShape(space, JSB_cpSpace_each_func, data); free(data); return true; } bool JSB_cpSpace_eachBody(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*)proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(0).address()); cpSpaceEachBody(space, JSB_cpSpace_each_func, data); free(data); return true; } bool JSB_cpSpace_eachConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*)proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(0).address()); cpSpaceEachConstraint(space, JSB_cpSpace_each_func, data); free(data); return true; } struct __PostStep_data{ JSContext* cx; JS::Heap func; }; void __JSB_PostStep_callback(cpSpace *space, void *key, __PostStep_data *data) { JSContext* cx = data->cx; JS::RootedValue func(cx, data->func); JS::RootedValue rval(cx); JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JS_CallFunctionValue(cx, JS::NullPtr(), func, JS::HandleValueArray::empty(), &rval); free(data); } bool JSB_cpSpace_addPostStepCallback(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSObject* jsthis = args.thisv().toObjectOrNull(); jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpSpace* space = (cpSpace*)proxy->handle; __PostStep_data* volatile data = (__PostStep_data*)malloc(sizeof(__PostStep_data)); if (!data) return false; data->cx = cx; data->func = args.get(0); cpSpaceAddPostStepCallback(space, (cpPostStepFunc)__JSB_PostStep_callback, data, data); // free(data); args.rval().setUndefined(); return true; } template void JSB_cpBody_each_func(cpBody* body, T* cpObject, void* data) { JSB_AUTOCOMPARTMENT_WITH_GLOBAL_OBJCET JSObject *jsCpObject = jsb_get_jsobject_for_proxy(cpObject); if(jsCpObject) { JSContext* cx = ((JSB_cp_each_UserData*)data)->cx; jsval* func = ((JSB_cp_each_UserData*)data)->func; JS::RootedValue rval(cx); jsval argv = OBJECT_TO_JSVAL(jsCpObject); JS_CallFunctionValue(cx, JS::NullPtr(), JS::RootedValue(cx, *func), JS::HandleValueArray::fromMarkedLocation(1, &argv), &rval); } } bool JSB_cpBody_eachShape(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpBody* body = (cpBody*)proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(0).address()); cpBodyEachShape(body, JSB_cpBody_each_func, data); free(data); return true; } bool JSB_cpBody_eachConstraint(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpBody* body = (cpBody*)proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(0).address()); cpBodyEachConstraint(body, JSB_cpBody_each_func, data); free(data); return true; } bool JSB_cpBody_eachArbiter(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc == 1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsthis); cpBody* body = (cpBody*)proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); JSB_cp_each_UserData *data = (JSB_cp_each_UserData*)malloc(sizeof(JSB_cp_each_UserData)); if (!data) return false; data->cx = cx; data->func = const_cast(args.get(0).address()); cpBodyEachArbiter(body, JSB_cpBody_each_func, data); free(data); return true; } #pragma mark - Arbiter #pragma mark getBodies static bool __jsb_cpArbiter_getBodies(JSContext *cx, const JS::CallArgs& args, cpArbiter *arbiter, unsigned int is_oo) { cpBody *bodyA; cpBody *bodyB; cpArbiterGetBodies(arbiter, &bodyA, &bodyB); JS::RootedValue valA(cx); JS::RootedValue valB(cx); if( is_oo ) { valA = c_class_to_jsval(cx, bodyA, JS::RootedObject(cx, JSB_cpBody_object), JSB_cpBody_class, "cpArbiter"); valB = c_class_to_jsval(cx, bodyB, JS::RootedObject(cx, JSB_cpBody_object), JSB_cpBody_class, "cpArbiter"); } else { valA = opaque_to_jsval(cx, bodyA); valB = opaque_to_jsval(cx, bodyB); } JS::RootedObject jsobj(cx, JS_NewArrayObject(cx, 2)); JS_SetElement(cx, jsobj, 0, valA); JS_SetElement(cx, jsobj, 1, valB); args.rval().set(OBJECT_TO_JSVAL(jsobj)); return true; } // Free function bool JSB_cpArbiterGetBodies(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpArbiter* arbiter; if( ! jsval_to_opaque( cx, args.get(0), (void**)&arbiter ) ) return false; return __jsb_cpArbiter_getBodies(cx, args, arbiter, 0); } // Method bool JSB_cpArbiter_getBodies(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==0, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); JSB_PRECONDITION( proxy, "Invalid private object"); void *handle = proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); return __jsb_cpArbiter_getBodies(cx, args, (cpArbiter*)handle, 1); } #pragma mark getShapes static bool __jsb_cpArbiter_getShapes(JSContext *cx, const JS::CallArgs& args, cpArbiter *arbiter, unsigned int is_oo) { cpShape *shapeA; cpShape *shapeB; cpArbiterGetShapes(arbiter, &shapeA, &shapeB); JS::RootedValue valA(cx); JS::RootedValue valB(cx); if( is_oo ) { valA = c_class_to_jsval(cx, shapeA, JS::RootedObject(cx, JSB_cpShape_object), JSB_cpShape_class, "cpShape"); valB = c_class_to_jsval(cx, shapeB, JS::RootedObject(cx, JSB_cpShape_object), JSB_cpShape_class, "cpShape"); } else { valA = opaque_to_jsval(cx, shapeA); valB = opaque_to_jsval(cx, shapeB); } JS::RootedObject jsobj(cx, JS_NewArrayObject(cx, 2)); JS_SetElement(cx, jsobj, 0, valA); JS_SetElement(cx, jsobj, 1, valB); args.rval().set(OBJECT_TO_JSVAL(jsobj)); return true; } // function bool JSB_cpArbiterGetShapes(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpArbiter* arbiter; if( ! jsval_to_opaque( cx, args.get(0), (void**) &arbiter ) ) return false; return __jsb_cpArbiter_getShapes(cx, args, arbiter, 0); } // method bool JSB_cpArbiter_getShapes(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==0, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); void *handle = proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); return __jsb_cpArbiter_getShapes(cx, args, (cpArbiter*)handle, 1); } #pragma mark - Body #pragma mark constructor // Manually added to identify static vs dynamic bodies bool JSB_cpBody_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==2, cx, false, "Invalid number of arguments"); JSObject *jsobj = JS_NewObject(cx, JSB_cpBody_class, JS::RootedObject(cx, JSB_cpBody_object), JS::NullPtr()); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; double m; double i; ok &= JS::ToNumber( cx, args.get(0), &m ); ok &= JS::ToNumber( cx, args.get(1), &i ); JSB_PRECONDITION(ok, "Error processing arguments"); cpBody *ret_body = NULL; if( m == INFINITY && i == INFINITY) { ret_body = cpBodyNewStatic(); // XXX: Hack. IT WILL LEAK "rogue" objects., But at least it prevents a crash. // The thing is that "rogue" bodies needs to be freed after the its shape, and I am not sure // how to do it in a "js" way. jsb_set_c_proxy_for_jsobject(jsobj, ret_body, JSB_C_FLAG_DO_NOT_CALL_FREE); } else { ret_body = cpBodyNew((cpFloat)m , (cpFloat)i ); jsb_set_c_proxy_for_jsobject(jsobj, ret_body, JSB_C_FLAG_CALL_FREE); } jsb_set_jsobject_for_proxy(jsobj, ret_body); args.rval().set(OBJECT_TO_JSVAL(jsobj)); return true; } #pragma mark getUserData static bool __jsb_cpBody_getUserData(JSContext *cx, const JS::CallArgs& args, cpBody *body) { JSObject *data = (JSObject*) cpBodyGetUserData(body); args.rval().set(OBJECT_TO_JSVAL(data)); return true; } // free function bool JSB_cpBodyGetUserData(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpBody *body; if( ! jsval_to_opaque( cx, args.get(0), (void**) &body ) ) return false; return __jsb_cpBody_getUserData(cx, args, body); } // method bool JSB_cpBody_getUserData(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==0, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); void *handle = proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); return __jsb_cpBody_getUserData(cx, args, (cpBody*)handle); } #pragma mark setUserData static bool __jsb_cpBody_setUserData(JSContext *cx, jsval *vp, jsval *argvp, cpBody *body) { JS::RootedObject jsobj(cx); bool ok = JS_ValueToObject(cx, JS::RootedValue(cx, *argvp), &jsobj); JSB_PRECONDITION(ok, "Error parsing arguments"); cpBodySetUserData(body, jsobj); return true; } // free function bool JSB_cpBodySetUserData(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==2, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); cpBody *body; jsval* argvp = args.array(); bool ok = jsval_to_opaque( cx, JS::RootedValue(cx, *argvp++), (void**) &body ); JSB_PRECONDITION(ok, "Error parsing arguments"); return __jsb_cpBody_setUserData(cx, vp, argvp, body); } // method bool JSB_cpBody_setUserData(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); void *handle = proxy->handle; JS::CallArgs args = JS::CallArgsFromVp(argc, vp); return __jsb_cpBody_setUserData(cx, vp, args.array(), (cpBody*)handle); } #pragma mark - Poly related // cpFloat cpAreaForPoly(const int numVerts, const cpVect *verts); bool JSB_cpAreaForPoly(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect *verts; int numVerts; ok &= jsval_to_array_of_cpvect( cx, args.get(0), &verts, &numVerts); JSB_PRECONDITION2(ok, cx, false, "Error parsing array"); cpFloat area = cpAreaForPoly(numVerts, verts); free(verts); args.rval().set(DOUBLE_TO_JSVAL(area)); return true; } // cpFloat cpMomentForPoly(cpFloat m, int numVerts, const cpVect *verts, cpVect offset); bool JSB_cpMomentForPoly(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==3, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect *verts; cpVect offset; int numVerts; double m; ok &= JS::ToNumber(cx, args.get(0), &m); ok &= jsval_to_array_of_cpvect( cx, args.get(1), &verts, &numVerts); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &offset ); JSB_PRECONDITION2(ok, cx, false, "Error parsing args"); cpFloat moment = cpMomentForPoly((cpFloat)m, numVerts, verts, offset); free(verts); args.rval().set(DOUBLE_TO_JSVAL(moment)); return true; } // cpVect cpCentroidForPoly(const int numVerts, const cpVect *verts); bool JSB_cpCentroidForPoly(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpVect *verts; int numVerts; ok &= jsval_to_array_of_cpvect( cx, args.get(0), &verts, &numVerts); JSB_PRECONDITION2(ok, cx, false, "Error parsing args"); cpVect centroid = cpCentroidForPoly(numVerts, verts); free(verts); args.rval().set(cpVect_to_jsval(cx, (cpVect)centroid)); return true; } // void cpRecenterPoly(const int numVerts, cpVect *verts); bool JSB_cpRecenterPoly(JSContext *cx, uint32_t argc, jsval *vp) { CCASSERT(false, "NOT IMPLEMENTED"); return false; } #pragma mark - Object Oriented Chipmunk /* * Chipmunk Base Object */ JSClass* JSB_cpBase_class = NULL; JSObject* JSB_cpBase_object = NULL; // Constructor bool JSB_cpBase_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2( argc==1, cx, false, "Invalid arguments. Expecting 1"); JSObject *jsobj = JS_NewObject(cx, JSB_cpBase_class, JS::RootedObject(cx, JSB_cpBase_object), JS::NullPtr()); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; void *handle = NULL; ok = jsval_to_opaque(cx, args.get(0), &handle); JSB_PRECONDITION(ok, "Error converting arguments for JSB_cpBase_constructor"); jsb_set_c_proxy_for_jsobject(jsobj, handle, JSB_C_FLAG_DO_NOT_CALL_FREE); jsb_set_jsobject_for_proxy(jsobj, handle); args.rval().set(OBJECT_TO_JSVAL(jsobj)); return true; } // Destructor void JSB_cpBase_finalize(JSFreeOp *fop, JSObject *obj) { CCLOGINFO("jsbindings: finalizing JS object %p (cpBase)", obj); // should not delete the handle since it was manually added } bool JSB_cpBase_getHandle(JSContext *cx, uint32_t argc, jsval *vp) { JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); JSB_PRECONDITION2(argc==0, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); struct jsb_c_proxy_s* proxy = jsb_get_c_proxy_for_jsobject(jsthis); void *handle = proxy->handle; jsval ret_val = opaque_to_jsval(cx, handle); args.rval().set(ret_val); return true; } bool JSB_cpBase_setHandle(JSContext *cx, uint32_t argc, jsval *vp) { JSObject* jsthis = (JSObject *)JS_THIS_OBJECT(cx, vp); JSB_PRECONDITION( jsthis, "Invalid jsthis object"); JSB_PRECONDITION2(argc==1, cx, false, "Invalid number of arguments"); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); void *handle; bool ok = jsval_to_opaque(cx, args.get(0), &handle); JSB_PRECONDITION( ok, "Invalid parsing arguments"); jsb_set_c_proxy_for_jsobject(jsthis, handle, JSB_C_FLAG_DO_NOT_CALL_FREE); jsb_set_jsobject_for_proxy(jsthis, handle); args.rval().setUndefined(); return true; } void JSB_cpBase_createClass(JSContext *cx, JS::HandleObject globalObj, const char* name ) { JSB_cpBase_class = (JSClass *)calloc(1, sizeof(JSClass)); JSB_cpBase_class->name = name; JSB_cpBase_class->addProperty = JS_PropertyStub; JSB_cpBase_class->delProperty = JS_DeletePropertyStub; JSB_cpBase_class->getProperty = JS_PropertyStub; JSB_cpBase_class->setProperty = JS_StrictPropertyStub; JSB_cpBase_class->enumerate = JS_EnumerateStub; JSB_cpBase_class->resolve = JS_ResolveStub; JSB_cpBase_class->convert = JS_ConvertStub; JSB_cpBase_class->finalize = JSB_cpBase_finalize; JSB_cpBase_class->flags = JSCLASS_HAS_PRIVATE; static JSPropertySpec properties[] = { JS_PS_END }; static JSFunctionSpec funcs[] = { JS_FN("getHandle", JSB_cpBase_getHandle, 0, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FN("setHandle", JSB_cpBase_setHandle, 1, JSPROP_PERMANENT | JSPROP_ENUMERATE), JS_FS_END }; static JSFunctionSpec st_funcs[] = { JS_FS_END }; JSB_cpBase_object = JS_InitClass(cx, globalObj, JS::NullPtr(), JSB_cpBase_class, JSB_cpBase_constructor,0,properties,funcs,NULL,st_funcs); // bool found; // JS_SetPropertyAttributes(cx, globalObj, name, JSPROP_ENUMERATE | JSPROP_READONLY, &found); } // Manual "methods" // Constructor bool JSB_cpPolyShape_constructor(JSContext *cx, uint32_t argc, jsval *vp) { JSB_PRECONDITION2(argc==3, cx, false, "Invalid number of arguments"); JSObject *jsobj = JS_NewObject(cx, JSB_cpPolyShape_class, JS::RootedObject(cx, JSB_cpPolyShape_object), JS::NullPtr()); JS::CallArgs args = JS::CallArgsFromVp(argc, vp); bool ok = true; cpBody* body; cpVect *verts; cpVect offset; int numVerts; ok &= jsval_to_c_class( cx, args.get(0), (void**)&body, NULL ); ok &= jsval_to_array_of_cpvect( cx, args.get(1), &verts, &numVerts); ok &= jsval_to_cpVect( cx, args.get(2), (cpVect*) &offset ); JSB_PRECONDITION(ok, "Error processing arguments"); cpShape *shape = cpPolyShapeNew(body, numVerts, verts, offset); jsb_set_c_proxy_for_jsobject(jsobj, shape, JSB_C_FLAG_CALL_FREE); jsb_set_jsobject_for_proxy(jsobj, shape); args.rval().set(OBJECT_TO_JSVAL(jsobj)); free(verts); return true; } #pragma mark Space Free functions // // When the space is removed, it should all remove its children. But not "free" them. // "free" will be performed by the JS Garbage Collector // // Functions copied & pasted from ChipmunkDemo.c // https://github.com/slembcke/Chipmunk-Physics/blob/master/Demo/ChipmunkDemo.c#L89 // static void unroot_jsobject_from_handle(void *handle) { JSObject *jsobj = jsb_get_jsobject_for_proxy(handle); //2014.9.19 by joshua //add safe guard if(jsobj) { struct jsb_c_proxy_s *proxy = jsb_get_c_proxy_for_jsobject(jsobj); // HACK context from global JSContext *cx = ScriptingCore::getInstance()->getGlobalContext(); JS::RemoveObjectRoot(cx, &proxy->jsobj); } } static void shapeFreeWrap(cpSpace *space, cpShape *shape, void *unused){ cpSpaceRemoveShape(space, shape); unroot_jsobject_from_handle(shape); // cpShapeFree(shape); } static void postShapeFree(cpShape *shape, cpSpace *space){ cpSpaceAddPostStepCallback(space, (cpPostStepFunc)shapeFreeWrap, shape, NULL); } static void constraintFreeWrap(cpSpace *space, cpConstraint *constraint, void *unused){ cpSpaceRemoveConstraint(space, constraint); unroot_jsobject_from_handle(constraint); // cpConstraintFree(constraint); } static void postConstraintFree(cpConstraint *constraint, cpSpace *space){ cpSpaceAddPostStepCallback(space, (cpPostStepFunc)constraintFreeWrap, constraint, NULL); } static void bodyFreeWrap(cpSpace *space, cpBody *body, void *unused){ cpSpaceRemoveBody(space, body); unroot_jsobject_from_handle(body); // cpBodyFree(body); } static void postBodyFree(cpBody *body, cpSpace *space){ cpSpaceAddPostStepCallback(space, (cpPostStepFunc)bodyFreeWrap, body, NULL); } // Safe and future proof way to remove and free all objects that have been added to the space. void static freeSpaceChildren(cpSpace *space) { // Must remove these BEFORE freeing the body or you will access dangling pointers. cpSpaceEachShape(space, (cpSpaceShapeIteratorFunc)postShapeFree, space); cpSpaceEachConstraint(space, (cpSpaceConstraintIteratorFunc)postConstraintFree, space); cpSpaceEachBody(space, (cpSpaceBodyIteratorFunc)postBodyFree, space); } #endif // JSB_INCLUDE_CHIPMUNK