react-native/React/Base/RCTModuleMethod.m

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/**
* Copyright (c) 2015-present, Facebook, Inc.
* All rights reserved.
*
* This source code is licensed under the BSD-style license found in the
* LICENSE file in the root directory of this source tree. An additional grant
* of patent rights can be found in the PATENTS file in the same directory.
*/
#import "RCTModuleMethod.h"
#import <objc/message.h>
#import "RCTAssert.h"
#import "RCTBridge.h"
#import "RCTBridge+Private.h"
#import "RCTConvert.h"
#import "RCTLog.h"
#import "RCTParserUtils.h"
#import "RCTUtils.h"
typedef BOOL (^RCTArgumentBlock)(RCTBridge *, NSUInteger, id);
@implementation RCTMethodArgument
- (instancetype)initWithType:(NSString *)type
nullability:(RCTNullability)nullability
unused:(BOOL)unused
{
if ((self = [super init])) {
_type = [type copy];
_nullability = nullability;
_unused = unused;
}
return self;
}
@end
@implementation RCTModuleMethod
{
Class _moduleClass;
NSInvocation *_invocation;
NSArray<RCTArgumentBlock> *_argumentBlocks;
NSString *_methodSignature;
SEL _selector;
NSDictionary *_profileArgs;
}
@synthesize JSMethodName = _JSMethodName;
@synthesize functionType = _functionType;
static void RCTLogArgumentError(RCTModuleMethod *method, NSUInteger index,
id valueOrType, const char *issue)
{
RCTLogError(@"Argument %tu (%@) of %@.%@ %s", index, valueOrType,
RCTBridgeModuleNameForClass(method->_moduleClass),
method->_JSMethodName, issue);
}
RCT_NOT_IMPLEMENTED(- (instancetype)init)
// returns YES if the selector ends in a colon (indicating that there is at
// least one argument, and maybe more selector parts) or NO if it doesn't.
static BOOL RCTParseSelectorPart(const char **input, NSMutableString *selector)
{
NSString *selectorPart;
if (RCTParseIdentifier(input, &selectorPart)) {
[selector appendString:selectorPart];
}
RCTSkipWhitespace(input);
if (RCTReadChar(input, ':')) {
[selector appendString:@":"];
RCTSkipWhitespace(input);
return YES;
}
return NO;
}
static BOOL RCTParseUnused(const char **input)
{
return RCTReadString(input, "__unused") ||
RCTReadString(input, "__attribute__((unused))");
}
static RCTNullability RCTParseNullability(const char **input)
{
if (RCTReadString(input, "nullable")) {
return RCTNullable;
} else if (RCTReadString(input, "nonnull")) {
return RCTNonnullable;
}
return RCTNullabilityUnspecified;
}
SEL RCTParseMethodSignature(NSString *, NSArray<RCTMethodArgument *> **);
SEL RCTParseMethodSignature(NSString *methodSignature, NSArray<RCTMethodArgument *> **arguments)
{
const char *input = methodSignature.UTF8String;
RCTSkipWhitespace(&input);
NSMutableArray *args;
NSMutableString *selector = [NSMutableString new];
while (RCTParseSelectorPart(&input, selector)) {
if (!args) {
args = [NSMutableArray new];
}
// Parse type
if (RCTReadChar(&input, '(')) {
RCTSkipWhitespace(&input);
BOOL unused = RCTParseUnused(&input);
RCTSkipWhitespace(&input);
RCTNullability nullability = RCTParseNullability(&input);
RCTSkipWhitespace(&input);
NSString *type = RCTParseType(&input);
[args addObject:[[RCTMethodArgument alloc] initWithType:type
nullability:nullability
unused:unused]];
RCTSkipWhitespace(&input);
RCTReadChar(&input, ')');
RCTSkipWhitespace(&input);
} else {
// Type defaults to id if unspecified
[args addObject:[[RCTMethodArgument alloc] initWithType:@"id"
nullability:RCTNullable
unused:NO]];
}
// Argument name
RCTParseIdentifier(&input, NULL);
RCTSkipWhitespace(&input);
}
*arguments = [args copy];
return NSSelectorFromString(selector);
}
- (instancetype)initWithMethodSignature:(NSString *)methodSignature
JSMethodName:(NSString *)JSMethodName
moduleClass:(Class)moduleClass
{
if ((self = [super init])) {
_moduleClass = moduleClass;
_methodSignature = [methodSignature copy];
_JSMethodName = JSMethodName.length > 0 ? JSMethodName : ({
NSString *methodName = methodSignature;
NSRange colonRange = [methodName rangeOfString:@":"];
if (colonRange.location != NSNotFound) {
methodName = [methodName substringToIndex:colonRange.location];
}
methodName = [methodName stringByTrimmingCharactersInSet:[NSCharacterSet whitespaceAndNewlineCharacterSet]];
RCTAssert(methodName.length, @"%@ is not a valid JS function name, please"
" supply an alternative using RCT_REMAP_METHOD()", methodSignature);
methodName;
});
if ([_methodSignature rangeOfString:@"RCTPromise"].length) {
_functionType = RCTFunctionTypePromise;
} else {
_functionType = RCTFunctionTypeNormal;
}
}
return self;
}
- (void)processMethodSignature
{
NSArray<RCTMethodArgument *> *arguments;
_selector = RCTParseMethodSignature(_methodSignature, &arguments);
RCTAssert(_selector, @"%@ is not a valid selector", _methodSignature);
// Create method invocation
NSMethodSignature *methodSignature = [_moduleClass instanceMethodSignatureForSelector:_selector];
RCTAssert(methodSignature, @"%@ is not a recognized Objective-C method.", _methodSignature);
NSInvocation *invocation = [NSInvocation invocationWithMethodSignature:methodSignature];
invocation.selector = _selector;
_invocation = invocation;
// Process arguments
NSUInteger numberOfArguments = methodSignature.numberOfArguments;
NSMutableArray<RCTArgumentBlock> *argumentBlocks =
[[NSMutableArray alloc] initWithCapacity:numberOfArguments - 2];
#define RCT_ARG_BLOCK(_logic) \
[argumentBlocks addObject:^(__unused RCTBridge *bridge, NSUInteger index, id json) { \
_logic \
[invocation setArgument:&value atIndex:(index) + 2]; \
return YES; \
}];
/**
* Explicitly copy the block and retain it, since NSInvocation doesn't retain them.
*/
#define RCT_BLOCK_ARGUMENT(block...) \
id value = json ? [block copy] : (id)^(__unused NSArray *_){}; \
CFBridgingRetain(value)
__weak RCTModuleMethod *weakSelf = self;
void (^addBlockArgument)(void) = ^{
RCT_ARG_BLOCK(
if (RCT_DEBUG && json && ![json isKindOfClass:[NSNumber class]]) {
RCTLogArgumentError(weakSelf, index, json, "should be a function");
return NO;
}
RCT_BLOCK_ARGUMENT(^(NSArray *args) {
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
[bridge enqueueCallback:json args:args];
});
)
};
for (NSUInteger i = 2; i < numberOfArguments; i++) {
const char *objcType = [methodSignature getArgumentTypeAtIndex:i];
BOOL isNullableType = NO;
RCTMethodArgument *argument = arguments[i - 2];
NSString *typeName = argument.type;
SEL selector = RCTConvertSelectorForType(typeName);
if ([RCTConvert respondsToSelector:selector]) {
switch (objcType[0]) {
#define RCT_CASE(_value, _type) \
case _value: { \
_type (*convert)(id, SEL, id) = (typeof(convert))objc_msgSend; \
RCT_ARG_BLOCK( _type value = convert([RCTConvert class], selector, json); ) \
break; \
}
RCT_CASE(_C_CHR, char)
RCT_CASE(_C_UCHR, unsigned char)
RCT_CASE(_C_SHT, short)
RCT_CASE(_C_USHT, unsigned short)
RCT_CASE(_C_INT, int)
RCT_CASE(_C_UINT, unsigned int)
RCT_CASE(_C_LNG, long)
RCT_CASE(_C_ULNG, unsigned long)
RCT_CASE(_C_LNG_LNG, long long)
RCT_CASE(_C_ULNG_LNG, unsigned long long)
RCT_CASE(_C_FLT, float)
RCT_CASE(_C_DBL, double)
RCT_CASE(_C_BOOL, BOOL)
#define RCT_NULLABLE_CASE(_value, _type) \
case _value: { \
isNullableType = YES; \
_type (*convert)(id, SEL, id) = (typeof(convert))objc_msgSend; \
RCT_ARG_BLOCK( _type value = convert([RCTConvert class], selector, json); ) \
break; \
}
RCT_NULLABLE_CASE(_C_SEL, SEL)
RCT_NULLABLE_CASE(_C_CHARPTR, const char *)
RCT_NULLABLE_CASE(_C_PTR, void *)
case _C_ID: {
isNullableType = YES;
id (*convert)(id, SEL, id) = (typeof(convert))objc_msgSend;
RCT_ARG_BLOCK(
id value = convert([RCTConvert class], selector, json);
CFBridgingRetain(value);
)
break;
}
case _C_STRUCT_B: {
NSMethodSignature *typeSignature = [RCTConvert methodSignatureForSelector:selector];
NSInvocation *typeInvocation = [NSInvocation invocationWithMethodSignature:typeSignature];
typeInvocation.selector = selector;
typeInvocation.target = [RCTConvert class];
[argumentBlocks addObject:^(__unused RCTBridge *bridge, NSUInteger index, id json) {
void *returnValue = malloc(typeSignature.methodReturnLength);
[typeInvocation setArgument:&json atIndex:2];
[typeInvocation invoke];
[typeInvocation getReturnValue:returnValue];
[invocation setArgument:returnValue atIndex:index + 2];
free(returnValue);
return YES;
}];
break;
}
default: {
static const char *blockType = @encode(typeof(^{}));
if (!strcmp(objcType, blockType)) {
addBlockArgument();
} else {
RCTLogError(@"Unsupported argument type '%@' in method %@.",
typeName, [self methodName]);
}
}
}
} else if ([typeName isEqualToString:@"RCTResponseSenderBlock"]) {
addBlockArgument();
} else if ([typeName isEqualToString:@"RCTResponseErrorBlock"]) {
RCT_ARG_BLOCK(
if (RCT_DEBUG && json && ![json isKindOfClass:[NSNumber class]]) {
RCTLogArgumentError(weakSelf, index, json, "should be a function");
return NO;
}
RCT_BLOCK_ARGUMENT(^(NSError *error) {
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
[bridge enqueueCallback:json args:@[RCTJSErrorFromNSError(error)]];
});
)
} else if ([typeName isEqualToString:@"RCTPromiseResolveBlock"]) {
RCTAssert(i == numberOfArguments - 2,
@"The RCTPromiseResolveBlock must be the second to last parameter in -[%@ %@]",
_moduleClass, _methodSignature);
RCT_ARG_BLOCK(
if (RCT_DEBUG && ![json isKindOfClass:[NSNumber class]]) {
RCTLogArgumentError(weakSelf, index, json, "should be a promise resolver function");
return NO;
}
RCT_BLOCK_ARGUMENT(^(id result) {
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
[bridge enqueueCallback:json args:result ? @[result] : @[]];
});
)
} else if ([typeName isEqualToString:@"RCTPromiseRejectBlock"]) {
RCTAssert(i == numberOfArguments - 1,
@"The RCTPromiseRejectBlock must be the last parameter in -[%@ %@]",
_moduleClass, _methodSignature);
RCT_ARG_BLOCK(
if (RCT_DEBUG && ![json isKindOfClass:[NSNumber class]]) {
RCTLogArgumentError(weakSelf, index, json, "should be a promise rejecter function");
return NO;
}
RCT_BLOCK_ARGUMENT(^(NSError *error) {
NSDictionary *errorJSON = RCTJSErrorFromNSError(error);
Decouple Module System from Native Calls Summary: The JavaScript ecosystem doesn't have the notion of a built-in native module loader. Even Node is decoupled from its module loader. The module loader system is just JS that runs on top of the global `process` object which has all the built-in goodies. Additionally there is no such thing as a global require. That is something unique to our providesModule system. In other module systems such as node, every require is contextual. Even registered npm names are localized by version. The only global namespace that is accessible to the host environment is the global object. Normally module systems attaches itself onto the hooks provided by the host environment on the global object. Currently, we have two forms of dispatch that reaches directly into the module system. executeJSCall which reaches directly into require. Everything now calls through the BatchedBridge module (except one RCTLog edge case that I will fix). I propose that the executors calls directly onto `BatchedBridge` through an instance on the global so that everything is guaranteed to go through it. It becomes the main communication hub. I also propose that we drop the dynamic requires inside of MessageQueue/BatchBridge and instead have the modules register themselves with the bridge. executeJSCall was originally modeled after the XHP equivalent. The XHP equivalent was designed that way because the act of doing the call was the thing that defined a dependency on the module from the page. However, that is not how React Native works. The JS side is driving the dependencies by virtue of requiring new modules and frameworks and the existence of dependencies is driven by the JS side, so this design doesn't make as much sense. The main driver for this is to be able to introduce a new module system like Prepack's module system. However, it also unlocks the possibility to do dead module elimination even in our current module system. It is currently not possible because we don't know which module might be called from native. Since the module system now becomes decoupled we could publish all our providesModule modules as npm/CommonJS modules using a rewrite script. That's what React Core does. That way people could use any CommonJS bundler such as Webpack, Closure Compiler, Rollup or some new innovation to create a JS bundle. This diff expands the executeJSCalls to the BatchedBridge's three individual pieces to make them first class instead of being dynamic. This removes one layer of abstraction. Hopefully we can also remove more of the things that register themselves with the BatchedBridge (various EventEmitters) and instead have everything go through the public protocol. ReactMethod/RCT_EXPORT_METHOD. public Reviewed By: vjeux Differential Revision: D2717535 fb-gh-sync-id: 70114f05483124f5ac5c4570422bb91a60a727f6
2015-12-08 23:57:34 +00:00
[bridge enqueueCallback:json args:@[errorJSON]];
});
)
} else {
// Unknown argument type
RCTLogError(@"Unknown argument type '%@' in method %@. Extend RCTConvert"
" to support this type.", typeName, [self methodName]);
}
if (RCT_DEBUG) {
RCTNullability nullability = argument.nullability;
if (!isNullableType) {
if (nullability == RCTNullable) {
RCTLogArgumentError(weakSelf, i - 2, typeName, "is marked as "
"nullable, but is not a nullable type.");
}
nullability = RCTNonnullable;
}
/**
* Special case - Numbers are not nullable in Android, so we
* don't support this for now. In future we may allow it.
*/
if ([typeName isEqualToString:@"NSNumber"]) {
BOOL unspecified = (nullability == RCTNullabilityUnspecified);
if (!argument.unused && (nullability == RCTNullable || unspecified)) {
RCTLogArgumentError(weakSelf, i - 2, typeName,
[unspecified ? @"has unspecified nullability" : @"is marked as nullable"
stringByAppendingString: @" but React requires that all NSNumber "
"arguments are explicitly marked as `nonnull` to ensure "
"compatibility with Android."].UTF8String);
}
nullability = RCTNonnullable;
}
if (nullability == RCTNonnullable) {
RCTArgumentBlock oldBlock = argumentBlocks[i - 2];
argumentBlocks[i - 2] = ^(RCTBridge *bridge, NSUInteger index, id json) {
if (json != nil) {
if (!oldBlock(bridge, index, json)) {
return NO;
}
if (isNullableType) {
// Check converted value wasn't null either, as method probably
// won't gracefully handle a nil vallue for a nonull argument
void *value;
[invocation getArgument:&value atIndex:index + 2];
if (value == NULL) {
return NO;
}
}
return YES;
}
RCTLogArgumentError(weakSelf, index, typeName, "must not be null");
return NO;
};
}
}
}
_argumentBlocks = [argumentBlocks copy];
}
- (SEL)selector
{
if (_selector == NULL) {
[self processMethodSignature];
}
return _selector;
}
- (NSDictionary *)profileArgs
{
if (_profileArgs) {
// This sets _selector
[self processMethodSignature];
_profileArgs = @{
@"module": NSStringFromClass(_moduleClass),
@"selector": NSStringFromSelector(_selector),
};
}
return _profileArgs;
}
- (void)invokeWithBridge:(RCTBridge *)bridge
module:(id)module
arguments:(NSArray *)arguments
{
if (_argumentBlocks == nil) {
[self processMethodSignature];
}
if (RCT_DEBUG) {
// Sanity check
RCTAssert([module class] == _moduleClass, @"Attempted to invoke method \
%@ on a module of class %@", [self methodName], [module class]);
// Safety check
if (arguments.count != _argumentBlocks.count) {
NSInteger actualCount = arguments.count;
NSInteger expectedCount = _argumentBlocks.count;
// Subtract the implicit Promise resolver and rejecter functions for implementations of async functions
if (_functionType == RCTFunctionTypePromise) {
actualCount -= 2;
expectedCount -= 2;
}
RCTLogError(@"%@.%@ was called with %zd arguments, but expects %zd",
RCTBridgeModuleNameForClass(_moduleClass), _JSMethodName,
actualCount, expectedCount);
return;
}
}
// Set arguments
NSUInteger index = 0;
for (id json in arguments) {
RCTArgumentBlock block = _argumentBlocks[index];
if (!block(bridge, index, RCTNilIfNull(json))) {
// Invalid argument, abort
RCTLogArgumentError(self, index, json,
"could not be processed. Aborting method call.");
return;
}
index++;
}
// Invoke method
[_invocation invokeWithTarget:module];
RCTAssert(
@encode(RCTArgumentBlock)[0] == _C_ID,
@"Block type encoding has changed, it won't be released. A check for the block"
"type encoding (%s) has to be added below.",
@encode(RCTArgumentBlock)
);
index = 2;
for (NSUInteger length = _invocation.methodSignature.numberOfArguments; index < length; index++) {
if ([_invocation.methodSignature getArgumentTypeAtIndex:index][0] == _C_ID) {
__unsafe_unretained id value;
[_invocation getArgument:&value atIndex:index];
if (value) {
CFRelease((__bridge CFTypeRef)value);
}
}
}
}
- (NSString *)methodName
{
if (_selector == NULL) {
[self processMethodSignature];
}
return [NSString stringWithFormat:@"-[%@ %@]", _moduleClass,
NSStringFromSelector(_selector)];
}
- (NSString *)description
{
return [NSString stringWithFormat:@"<%@: %p; exports %@ as %@();>",
[self class], self, [self methodName], _JSMethodName];
}
@end