void Structor_(CYPool &pool, sig::Type *&type) {
if (
type->primitive == sig::pointer_P &&
- type->data.data.type != NULL &&
type->data.data.type->primitive == sig::struct_P &&
type->data.data.type->name != NULL &&
strcmp(type->data.data.type->name, "_objc_class") == 0
return CYCastJSValue(context, name);
} CYCatch(NULL) }
+static void (*JSSynchronousGarbageCollectForDebugging$)(JSContextRef);
+
+void CYGarbageCollect(JSContextRef context) {
+ (JSSynchronousGarbageCollectForDebugging$ ?: &JSGarbageCollect)(context);
+}
+
static JSValueRef Cycript_gc_callAsFunction(JSContextRef context, JSObjectRef object, JSObjectRef _this, size_t count, const JSValueRef arguments[], JSValueRef *exception) { CYTry {
- JSGarbageCollect(context);
+ CYGarbageCollect(context);
return CYJSUndefined(context);
} CYCatch(NULL) }
return CYMakeType(context, &type);
} CYCatch(NULL) }
+static JSValueRef Type_callAsFunction_long(JSContextRef context, JSObjectRef object, JSObjectRef _this, size_t count, const JSValueRef arguments[], JSValueRef *exception) { CYTry {
+ if (count != 0)
+ throw CYJSError(context, "incorrect number of arguments to Type.long");
+ Type_privateData *internal(reinterpret_cast<Type_privateData *>(JSObjectGetPrivate(_this)));
+
+ sig::Type type(*internal->type_);
+
+ switch (type.primitive) {
+ case sig::short_P: type.primitive = sig::int_P; break;
+ case sig::int_P: type.primitive = sig::long_P; break;
+ case sig::long_P: type.primitive = sig::longlong_P; break;
+ default: throw CYJSError(context, "invalid type argument to Type.long");
+ }
+
+ return CYMakeType(context, &type);
+} CYCatch(NULL) }
+
+static JSValueRef Type_callAsFunction_short(JSContextRef context, JSObjectRef object, JSObjectRef _this, size_t count, const JSValueRef arguments[], JSValueRef *exception) { CYTry {
+ if (count != 0)
+ throw CYJSError(context, "incorrect number of arguments to Type.short");
+ Type_privateData *internal(reinterpret_cast<Type_privateData *>(JSObjectGetPrivate(_this)));
+
+ sig::Type type(*internal->type_);
+
+ switch (type.primitive) {
+ case sig::int_P: type.primitive = sig::short_P; break;
+ case sig::long_P: type.primitive = sig::int_P; break;
+ case sig::longlong_P: type.primitive = sig::long_P; break;
+ default: throw CYJSError(context, "invalid type argument to Type.short");
+ }
+
+ return CYMakeType(context, &type);
+} CYCatch(NULL) }
+
+static JSValueRef Type_callAsFunction_signed(JSContextRef context, JSObjectRef object, JSObjectRef _this, size_t count, const JSValueRef arguments[], JSValueRef *exception) { CYTry {
+ if (count != 0)
+ throw CYJSError(context, "incorrect number of arguments to Type.signed");
+ Type_privateData *internal(reinterpret_cast<Type_privateData *>(JSObjectGetPrivate(_this)));
+
+ sig::Type type(*internal->type_);
+
+ switch (type.primitive) {
+ case sig::char_P: case sig::uchar_P: type.primitive = sig::char_P; break;
+ case sig::short_P: case sig::ushort_P: type.primitive = sig::short_P; break;
+ case sig::int_P: case sig::uint_P: type.primitive = sig::int_P; break;
+ case sig::long_P: case sig::ulong_P: type.primitive = sig::long_P; break;
+ case sig::longlong_P: case sig::ulonglong_P: type.primitive = sig::longlong_P; break;
+ default: throw CYJSError(context, "invalid type argument to Type.signed");
+ }
+
+ return CYMakeType(context, &type);
+} CYCatch(NULL) }
+
+static JSValueRef Type_callAsFunction_unsigned(JSContextRef context, JSObjectRef object, JSObjectRef _this, size_t count, const JSValueRef arguments[], JSValueRef *exception) { CYTry {
+ if (count != 0)
+ throw CYJSError(context, "incorrect number of arguments to Type.unsigned");
+ Type_privateData *internal(reinterpret_cast<Type_privateData *>(JSObjectGetPrivate(_this)));
+
+ sig::Type type(*internal->type_);
+
+ switch (type.primitive) {
+ case sig::char_P: case sig::uchar_P: type.primitive = sig::uchar_P; break;
+ case sig::short_P: case sig::ushort_P: type.primitive = sig::ushort_P; break;
+ case sig::int_P: case sig::uint_P: type.primitive = sig::uint_P; break;
+ case sig::long_P: case sig::ulong_P: type.primitive = sig::ulong_P; break;
+ case sig::longlong_P: case sig::ulonglong_P: type.primitive = sig::ulonglong_P; break;
+ default: throw CYJSError(context, "invalid type argument to Type.unsigned");
+ }
+
+ return CYMakeType(context, &type);
+} CYCatch(NULL) }
+
static JSValueRef Type_callAsFunction_functionWith(JSContextRef context, JSObjectRef object, JSObjectRef _this, size_t count, const JSValueRef arguments[], JSValueRef *exception) {
return Type_callAsFunction_$With(context, object, _this, count, arguments, sig::function_P, exception);
}
{NULL, NULL, NULL, 0}
};
-static JSStaticFunction Type_staticFunctions[10] = {
+static JSStaticFunction Type_staticFunctions[14] = {
{"arrayOf", &Type_callAsFunction_arrayOf, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"blockWith", &Type_callAsFunction_blockWith, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"constant", &Type_callAsFunction_constant, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"functionWith", &Type_callAsFunction_functionWith, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
+ {"long", &Type_callAsFunction_long, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"pointerTo", &Type_callAsFunction_pointerTo, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
+ {"short", &Type_callAsFunction_short, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
+ {"signed", &Type_callAsFunction_signed, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"withName", &Type_callAsFunction_withName, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"toCYON", &Type_callAsFunction_toCYON, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"toJSON", &Type_callAsFunction_toJSON, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{"toString", &Type_callAsFunction_toString, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
+ {"unsigned", &Type_callAsFunction_unsigned, kJSPropertyAttributeDontEnum | kJSPropertyAttributeDontDelete},
{NULL, NULL, 0}
};
return JSContextGetGlobalObject(context);
}
+class ExecutionHandle {
+ private:
+ JSContextRef context_;
+ void *handle_;
+
+ public:
+ ExecutionHandle(JSContextRef context) :
+ context_(context)
+ {
+ if (hooks_ != NULL && hooks_->ExecuteStart != NULL)
+ handle_ = (*hooks_->ExecuteStart)(context_);
+ else
+ handle_ = NULL;
+ }
+
+ ~ExecutionHandle() {
+ if (hooks_ != NULL && hooks_->ExecuteEnd != NULL)
+ (*hooks_->ExecuteEnd)(context_, handle_);
+ }
+};
+
const char *CYExecute(JSContextRef context, CYPool &pool, CYUTF8String code) {
JSValueRef exception(NULL);
- void *handle;
- if (hooks_ != NULL && hooks_->ExecuteStart != NULL)
- handle = (*hooks_->ExecuteStart)(context);
- else
- handle = NULL;
-
- try {
+ ExecutionHandle handle(context);
- JSValueRef result;
- try {
+ JSValueRef result; try {
result = JSEvaluateScript(context, CYJSString(code), NULL, NULL, 0, &exception);
} catch (const char *error) {
return error;
if (JSValueIsUndefined(context, result))
return NULL;
- const char *json;
- try {
+ const char *json; try {
json = CYPoolCCYON(pool, context, result, &exception);
} catch (const char *error) {
return error;
CYSetProperty(context, CYGetGlobalObject(context), Result_, result);
return json;
-
- } catch (...) {
- if (hooks_ != NULL && hooks_->ExecuteEnd != NULL)
- (*hooks_->ExecuteEnd)(context, handle);
- throw;
- }
}
static bool initialized_ = false;
else return;
JSObjectMakeArray$ = reinterpret_cast<JSObjectRef (*)(JSContextRef, size_t, const JSValueRef[], JSValueRef *)>(dlsym(RTLD_DEFAULT, "JSObjectMakeArray"));
+ JSSynchronousGarbageCollectForDebugging$ = reinterpret_cast<void (*)(JSContextRef)>(dlsym(RTLD_DEFAULT, "JSSynchronousGarbageCollectForDebugging"));
JSClassDefinition definition;
JSObjectRef Array_prototype(CYCastJSObject(context, CYGetProperty(context, Array, prototype_s)));
CYSetProperty(context, cy, CYJSString("Array_prototype"), Array_prototype);
+ JSObjectRef Boolean(CYCastJSObject(context, CYGetProperty(context, global, CYJSString("Boolean"))));
+ CYSetProperty(context, cy, CYJSString("Boolean"), Boolean);
+
+ JSObjectRef Boolean_prototype(CYCastJSObject(context, CYGetProperty(context, Boolean, prototype_s)));
+ CYSetProperty(context, cy, CYJSString("Boolean_prototype"), Boolean_prototype);
+
JSObjectRef Error(CYCastJSObject(context, CYGetProperty(context, global, CYJSString("Error"))));
CYSetProperty(context, cy, CYJSString("Error"), Error);
JSObjectRef Function_prototype(CYCastJSObject(context, CYGetProperty(context, Function, prototype_s)));
CYSetProperty(context, cy, CYJSString("Function_prototype"), Function_prototype);
+ JSObjectRef Number(CYCastJSObject(context, CYGetProperty(context, global, CYJSString("Number"))));
+ CYSetProperty(context, cy, CYJSString("Number"), Number);
+
+ JSObjectRef Number_prototype(CYCastJSObject(context, CYGetProperty(context, Number, prototype_s)));
+ CYSetProperty(context, cy, CYJSString("Number_prototype"), Number_prototype);
+
JSObjectRef Object(CYCastJSObject(context, CYGetProperty(context, global, CYJSString("Object"))));
CYSetProperty(context, cy, CYJSString("Object"), Object);
CYRunSetups(context);
}
+static JSGlobalContextRef context_;
+
JSGlobalContextRef CYGetJSContext() {
CYInitializeDynamic();
- static JSGlobalContextRef context_;
-
if (context_ == NULL) {
context_ = JSGlobalContextCreate(Global_);
CYSetupContext(context_);
return context_;
}
+
+void CYDestroyContext() {
+ if (context_ == NULL)
+ return;
+ JSGlobalContextRelease(context_);
+ context_ = NULL;
+}