react-native/React/Base/RCTBatchedBridge.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 <Foundation/Foundation.h>
#import "RCTAssert.h"
#import "RCTBridge.h"
#import "RCTBridge+Private.h"
#import "RCTBridgeMethod.h"
#import "RCTConvert.h"
#import "RCTDisplayLink.h"
#import "RCTJSCExecutor.h"
#import "RCTJavaScriptLoader.h"
#import "RCTLog.h"
#import "RCTModuleData.h"
#import "RCTPerformanceLogger.h"
#import "RCTProfile.h"
#import "RCTSourceCode.h"
#import "RCTUtils.h"
#import "RCTRedBox.h"
#define RCTAssertJSThread() \
RCTAssert(![NSStringFromClass([_javaScriptExecutor class]) isEqualToString:@"RCTJSCExecutor"] || \
[[[NSThread currentThread] name] isEqualToString:RCTJSCThreadName], \
@"This method must be called on JS thread")
/**
* Must be kept in sync with `MessageQueue.js`.
*/
typedef NS_ENUM(NSUInteger, RCTBridgeFields) {
RCTBridgeFieldRequestModuleIDs = 0,
RCTBridgeFieldMethodIDs,
RCTBridgeFieldParams,
RCTBridgeFieldCallID,
};
RCT_EXTERN NSArray<Class> *RCTGetModuleClasses(void);
@implementation RCTBatchedBridge
{
BOOL _wasBatchActive;
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
NSMutableArray<dispatch_block_t> *_pendingCalls;
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
NSMutableDictionary<NSString *, RCTModuleData *> *_moduleDataByName;
NSArray<RCTModuleData *> *_moduleDataByID;
NSArray<Class> *_moduleClassesByID;
RCTDisplayLink *_displayLink;
}
@synthesize flowID = _flowID;
@synthesize flowIDMap = _flowIDMap;
@synthesize flowIDMapLock = _flowIDMapLock;
@synthesize loading = _loading;
@synthesize valid = _valid;
- (instancetype)initWithParentBridge:(RCTBridge *)bridge
{
RCTAssertParam(bridge);
if ((self = [super initWithBundleURL:bridge.bundleURL
moduleProvider:bridge.moduleProvider
launchOptions:bridge.launchOptions])) {
_parentBridge = bridge;
/**
* Set Initial State
*/
_valid = YES;
_loading = YES;
_pendingCalls = [NSMutableArray new];
_displayLink = [RCTDisplayLink new];
2015-08-19 12:27:43 +00:00
[RCTBridge setCurrentBridge:self];
[[NSNotificationCenter defaultCenter]
postNotificationName:RCTJavaScriptWillStartLoadingNotification
object:_parentBridge userInfo:@{@"bridge": self}];
[self start];
}
return self;
}
- (void)start
{
dispatch_queue_t bridgeQueue = dispatch_queue_create("com.facebook.react.RCTBridgeQueue", DISPATCH_QUEUE_CONCURRENT);
dispatch_group_t initModulesAndLoadSource = dispatch_group_create();
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
// Asynchronously load source code
dispatch_group_enter(initModulesAndLoadSource);
__weak RCTBatchedBridge *weakSelf = self;
__block NSData *sourceCode;
[self loadSource:^(NSError *error, NSData *source) {
if (error) {
dispatch_async(dispatch_get_main_queue(), ^{
[weakSelf stopLoadingWithError:error];
});
}
sourceCode = source;
dispatch_group_leave(initModulesAndLoadSource);
}];
// Synchronously initialize all native modules that cannot be loaded lazily
[self initModulesWithDispatchGroup:initModulesAndLoadSource];
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
__block NSString *config;
dispatch_group_enter(initModulesAndLoadSource);
dispatch_async(bridgeQueue, ^{
dispatch_group_t setupJSExecutorAndModuleConfig = dispatch_group_create();
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
// Asynchronously initialize the JS executor
dispatch_group_async(setupJSExecutorAndModuleConfig, bridgeQueue, ^{
RCTPerformanceLoggerStart(RCTPLJSCExecutorSetup);
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
[weakSelf setUpExecutor];
RCTPerformanceLoggerEnd(RCTPLJSCExecutorSetup);
});
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
// Asynchronously gather the module config
dispatch_group_async(setupJSExecutorAndModuleConfig, bridgeQueue, ^{
if (weakSelf.valid) {
RCTPerformanceLoggerStart(RCTPLNativeModulePrepareConfig);
config = [weakSelf moduleConfig];
RCTPerformanceLoggerEnd(RCTPLNativeModulePrepareConfig);
}
});
dispatch_group_notify(setupJSExecutorAndModuleConfig, bridgeQueue, ^{
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
// We're not waiting for this to complete to leave dispatch group, since
// injectJSONConfiguration and executeSourceCode will schedule operations
// on the same queue anyway.
RCTPerformanceLoggerStart(RCTPLNativeModuleInjectConfig);
[weakSelf injectJSONConfiguration:config onComplete:^(NSError *error) {
RCTPerformanceLoggerEnd(RCTPLNativeModuleInjectConfig);
if (error) {
dispatch_async(dispatch_get_main_queue(), ^{
[weakSelf stopLoadingWithError:error];
});
}
}];
dispatch_group_leave(initModulesAndLoadSource);
});
});
dispatch_group_notify(initModulesAndLoadSource, bridgeQueue, ^{
RCTBatchedBridge *strongSelf = weakSelf;
if (sourceCode && strongSelf.loading) {
[strongSelf executeSourceCode:sourceCode];
}
});
}
- (void)loadSource:(RCTSourceLoadBlock)_onSourceLoad
{
RCTPerformanceLoggerStart(RCTPLScriptDownload);
RCTSourceLoadBlock onSourceLoad = ^(NSError *error, NSData *source) {
RCTPerformanceLoggerEnd(RCTPLScriptDownload);
_onSourceLoad(error, source);
};
if ([self.delegate respondsToSelector:@selector(loadSourceForBridge:withBlock:)]) {
[self.delegate loadSourceForBridge:_parentBridge withBlock:onSourceLoad];
} else if (self.bundleURL) {
[RCTJavaScriptLoader loadBundleAtURL:self.bundleURL onComplete:^(NSError *error, NSData *source) {
if (error && [self.delegate respondsToSelector:@selector(fallbackSourceURLForBridge:)]) {
NSURL *fallbackURL = [self.delegate fallbackSourceURLForBridge:_parentBridge];
if (fallbackURL && ![fallbackURL isEqual:self.bundleURL]) {
RCTLogError(@"Failed to load bundle(%@) with error:(%@)", self.bundleURL, error.localizedDescription);
self.bundleURL = fallbackURL;
[RCTJavaScriptLoader loadBundleAtURL:self.bundleURL onComplete:onSourceLoad];
return;
}
}
onSourceLoad(error, source);
}];
} else {
// Allow testing without a script
dispatch_async(dispatch_get_main_queue(), ^{
[self didFinishLoading];
[[NSNotificationCenter defaultCenter]
postNotificationName:RCTJavaScriptDidLoadNotification
object:_parentBridge userInfo:@{@"bridge": self}];
});
onSourceLoad(nil, nil);
}
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
- (NSArray<Class> *)moduleClasses
{
if (RCT_DEBUG && _valid && _moduleClassesByID == nil) {
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
RCTLogError(@"Bridge modules have not yet been initialized. You may be "
"trying to access a module too early in the startup procedure.");
}
return _moduleClassesByID;
}
/**
* Used by RCTUIManager
*/
- (RCTModuleData *)moduleDataForName:(NSString *)moduleName
{
return _moduleDataByName[moduleName];
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
- (id)moduleForName:(NSString *)moduleName
{
return _moduleDataByName[moduleName].instance;
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
}
- (BOOL)moduleIsInitialized:(Class)moduleClass
{
return _moduleDataByName[RCTBridgeModuleNameForClass(moduleClass)].hasInstance;
}
- (NSArray *)configForModuleName:(NSString *)moduleName
{
RCTModuleData *moduleData = _moduleDataByName[moduleName];
if (!moduleData) {
moduleData = _moduleDataByName[[@"RCT" stringByAppendingString:moduleName]];
}
if (moduleData) {
return moduleData.config;
}
return (id)kCFNull;
}
- (void)initModulesWithDispatchGroup:(dispatch_group_t)dispatchGroup
{
RCTPerformanceLoggerStart(RCTPLNativeModuleInit);
NSArray<id<RCTBridgeModule>> *extraModules = nil;
if (self.delegate) {
if ([self.delegate respondsToSelector:@selector(extraModulesForBridge:)]) {
extraModules = [self.delegate extraModulesForBridge:_parentBridge];
}
} else if (self.moduleProvider) {
extraModules = self.moduleProvider();
}
if (RCT_DEBUG && !RCTRunningInTestEnvironment()) {
// Check for unexported modules
static Class *classes;
static unsigned int classCount;
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
classes = objc_copyClassList(&classCount);
});
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
NSMutableSet *moduleClasses = [NSMutableSet new];
[moduleClasses addObjectsFromArray:RCTGetModuleClasses()];
[moduleClasses addObjectsFromArray:[extraModules valueForKeyPath:@"class"]];
for (unsigned int i = 0; i < classCount; i++)
{
Class cls = classes[i];
Class superclass = cls;
while (superclass)
{
if (class_conformsToProtocol(superclass, @protocol(RCTBridgeModule)))
{
Added native event emitter Summary: This is a solution for the problem I raised in https://www.facebook.com/groups/react.native.community/permalink/768218933313687/ I've added a new native base class, `RCTEventEmitter` as well as an equivalent JS class/module `NativeEventEmitter` (RCTEventEmitter.js and EventEmitter.js were taken already). Instead of arbitrary modules sending events via `bridge.eventDispatcher`, the idea is that any module that sends events should now subclass `RCTEventEmitter`, and provide an equivalent JS module that subclasses `NativeEventEmitter`. JS code that wants to observe the events should now observe it via the specific JS module rather than via `RCTDeviceEventEmitter` directly. e.g. to observer a keyboard event, instead of writing: const RCTDeviceEventEmitter = require('RCTDeviceEventEmitter'); RCTDeviceEventEmitter.addListener('keyboardWillShow', (event) => { ... }); You'd now write: const Keyboard = require('Keyboard'); Keyboard.addListener('keyboardWillShow', (event) => { ... }); Within a component, you can also use the `Subscribable.Mixin` as you would previously, but instead of: this.addListenerOn(RCTDeviceEventEmitter, 'keyboardWillShow', ...); Write: this.addListenerOn(Keyboard, 'keyboardWillShow', ...); This approach allows the native `RCTKeyboardObserver` module to be created lazily the first time a listener is added, and to stop sending events when the last listener is removed. It also allows us to validate that the event strings being observed and omitted match the supported events for that module. As a proof-of-concept, I've converted the `RCTStatusBarManager` and `RCTKeyboardObserver` modules to use the new system. I'll convert the rest in a follow up diff. For now, the new `NativeEventEmitter` JS module wraps the `RCTDeviceEventEmitter` JS module, and just uses the native `RCTEventEmitter` module for bookkeeping. This allows for full backwards compatibility (code that is observing the event via `RCTDeviceEventEmitter` instead of the specific module will still work as expected, albeit with a warning). Once all legacy calls have been removed, this could be refactored to something more elegant internally, whilst maintaining the same public interface. Note: currently, all device events still share a single global namespace, since they're really all registered on the same emitter instance internally. We should move away from that as soon as possible because it's not intuitive and will likely lead to strange bugs if people add generic events such as "onChange" or "onError" to their modules (which is common practice for components, where it's not a problem). Reviewed By: javache Differential Revision: D3269966 fbshipit-source-id: 1412daba850cd373020e1086673ba38ef9193050
2016-05-11 13:26:53 +00:00
if (![moduleClasses containsObject:cls] &&
![cls respondsToSelector:@selector(moduleName)]) {
RCTLogWarn(@"Class %@ was not exported. Did you forget to use "
"RCT_EXPORT_MODULE()?", cls);
}
break;
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
}
superclass = class_getSuperclass(superclass);
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
}
}
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
NSMutableArray<Class> *moduleClassesByID = [NSMutableArray new];
NSMutableArray<RCTModuleData *> *moduleDataByID = [NSMutableArray new];
NSMutableDictionary<NSString *, RCTModuleData *> *moduleDataByName = [NSMutableDictionary new];
// Set up moduleData for pre-initialized module instances
for (id<RCTBridgeModule> module in extraModules) {
Class moduleClass = [module class];
NSString *moduleName = RCTBridgeModuleNameForClass(moduleClass);
if (RCT_DEBUG) {
// Check for name collisions between preregistered modules
RCTModuleData *moduleData = moduleDataByName[moduleName];
if (moduleData) {
RCTLogError(@"Attempted to register RCTBridgeModule class %@ for the "
"name '%@', but name was already registered by class %@",
moduleClass, moduleName, moduleData.moduleClass);
continue;
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
}
}
// Instantiate moduleData container
RCTModuleData *moduleData = [[RCTModuleData alloc] initWithModuleInstance:module
bridge:self];
moduleDataByName[moduleName] = moduleData;
[moduleClassesByID addObject:moduleClass];
[moduleDataByID addObject:moduleData];
// Set executor instance
if (moduleClass == self.executorClass) {
_javaScriptExecutor = (id<RCTJavaScriptExecutor>)module;
}
}
// The executor is a bridge module, but we want it to be instantiated before
// any other module has access to the bridge, in case they need the JS thread.
// TODO: once we have more fine-grained control of init (t11106126) we can
// probably just replace this with [self moduleForClass:self.executorClass]
if (!_javaScriptExecutor) {
id<RCTJavaScriptExecutor> executorModule = [self.executorClass new];
RCTModuleData *moduleData = [[RCTModuleData alloc] initWithModuleInstance:executorModule
bridge:self];
moduleDataByName[moduleData.name] = moduleData;
[moduleClassesByID addObject:self.executorClass];
[moduleDataByID addObject:moduleData];
// NOTE: _javaScriptExecutor is a weak reference
_javaScriptExecutor = executorModule;
}
// Set up moduleData for automatically-exported modules
for (Class moduleClass in RCTGetModuleClasses()) {
NSString *moduleName = RCTBridgeModuleNameForClass(moduleClass);
// Check for module name collisions
RCTModuleData *moduleData = moduleDataByName[moduleName];
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
if (moduleData) {
if (moduleData.hasInstance) {
// Existing module was preregistered, so it takes precedence
continue;
} else if ([moduleClass new] == nil) {
// The new module returned nil from init, so use the old module
continue;
} else if ([moduleData.moduleClass new] != nil) {
// Both modules were non-nil, so it's unclear which should take precedence
RCTLogError(@"Attempted to register RCTBridgeModule class %@ for the "
"name '%@', but name was already registered by class %@",
moduleClass, moduleName, moduleData.moduleClass);
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
}
// Instantiate moduleData (TODO: can we defer this until config generation?)
moduleData = [[RCTModuleData alloc] initWithModuleClass:moduleClass
bridge:self];
moduleDataByName[moduleName] = moduleData;
[moduleClassesByID addObject:moduleClass];
[moduleDataByID addObject:moduleData];
}
// Store modules
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
_moduleDataByID = [moduleDataByID copy];
_moduleDataByName = [moduleDataByName copy];
_moduleClassesByID = [moduleClassesByID copy];
// Synchronously set up the pre-initialized modules
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
for (RCTModuleData *moduleData in _moduleDataByID) {
if (moduleData.hasInstance &&
(!moduleData.requiresMainQueueSetup || RCTIsMainQueue())) {
// Modules that were pre-initialized should ideally be set up before
// bridge init has finished, otherwise the caller may try to access the
// module directly rather than via `[bridge moduleForClass:]`, which won't
// trigger the lazy initialization process. If the module cannot safely be
// set up on the current thread, it will instead be async dispatched
// to the main thread to be set up in the loop below.
(void)[moduleData instance];
}
}
// From this point on, RCTDidInitializeModuleNotification notifications will
// be sent the first time a module is accessed.
_moduleSetupComplete = YES;
// Set up modules that require main thread init or constants export
RCTPerformanceLoggerSet(RCTPLNativeModuleMainThread, 0);
NSUInteger modulesOnMainQueueCount = 0;
for (RCTModuleData *moduleData in _moduleDataByID) {
__weak RCTBatchedBridge *weakSelf = self;
if (moduleData.requiresMainQueueSetup || moduleData.hasConstantsToExport) {
// Modules that need to be set up on the main thread cannot be initialized
// lazily when required without doing a dispatch_sync to the main thread,
// which can result in deadlock. To avoid this, we initialize all of these
// modules on the main thread in parallel with loading the JS code, so
// they will already be available before they are ever required.
dispatch_group_async(dispatchGroup, dispatch_get_main_queue(), ^{
if (weakSelf.valid) {
RCTPerformanceLoggerAppendStart(RCTPLNativeModuleMainThread);
(void)[moduleData instance];
[moduleData gatherConstants];
RCTPerformanceLoggerAppendEnd(RCTPLNativeModuleMainThread);
}
});
modulesOnMainQueueCount++;
}
}
RCTPerformanceLoggerEnd(RCTPLNativeModuleInit);
RCTPerformanceLoggerSet(RCTPLNativeModuleMainThreadUsesCount, modulesOnMainQueueCount);
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
- (void)setUpExecutor
{
[_javaScriptExecutor setUp];
}
- (void)registerModuleForFrameUpdates:(id<RCTBridgeModule>)module
withModuleData:(RCTModuleData *)moduleData
{
[_displayLink registerModuleForFrameUpdates:module withModuleData:moduleData];
}
- (NSString *)moduleConfig
{
NSMutableArray<NSArray *> *config = [NSMutableArray new];
for (RCTModuleData *moduleData in _moduleDataByID) {
if (self.executorClass == [RCTJSCExecutor class]) {
[config addObject:@[moduleData.name]];
} else {
[config addObject:RCTNullIfNil(moduleData.config)];
}
}
return RCTJSONStringify(@{
@"remoteModuleConfig": config,
}, NULL);
}
- (void)injectJSONConfiguration:(NSString *)configJSON
onComplete:(void (^)(NSError *))onComplete
{
if (!_valid) {
return;
}
[_javaScriptExecutor injectJSONText:configJSON
asGlobalObjectNamed:@"__fbBatchedBridgeConfig"
callback:onComplete];
}
- (void)executeSourceCode:(NSData *)sourceCode
{
if (!_valid || !_javaScriptExecutor) {
return;
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
RCTSourceCode *sourceCodeModule = [self moduleForClass:[RCTSourceCode class]];
sourceCodeModule.scriptURL = self.bundleURL;
[self enqueueApplicationScript:sourceCode url:self.bundleURL onComplete:^(NSError *loadError) {
if (!_valid) {
return;
}
if (loadError) {
dispatch_async(dispatch_get_main_queue(), ^{
[self stopLoadingWithError:loadError];
});
return;
}
// Register the display link to start sending js calls after everything is setup
NSRunLoop *targetRunLoop = [_javaScriptExecutor isKindOfClass:[RCTJSCExecutor class]] ? [NSRunLoop currentRunLoop] : [NSRunLoop mainRunLoop];
[_displayLink addToRunLoop:targetRunLoop];
// Perform the state update and notification on the main thread, so we can't run into
// timing issues with RCTRootView
dispatch_async(dispatch_get_main_queue(), ^{
[self didFinishLoading];
[[NSNotificationCenter defaultCenter]
postNotificationName:RCTJavaScriptDidLoadNotification
object:_parentBridge userInfo:@{@"bridge": self}];
});
}];
#if RCT_DEV
if ([RCTGetURLQueryParam(self.bundleURL, @"hot") boolValue]) {
NSString *path = [self.bundleURL.path substringFromIndex:1]; // strip initial slash
NSString *host = self.bundleURL.host;
NSNumber *port = self.bundleURL.port;
[self enqueueJSCall:@"HMRClient.enable" args:@[@"ios", path, host, RCTNullIfNil(port)]];
}
#endif
}
- (void)didFinishLoading
{
RCTPerformanceLoggerEnd(RCTPLBridgeStartup);
_loading = NO;
[_javaScriptExecutor executeBlockOnJavaScriptQueue:^{
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
for (dispatch_block_t call in _pendingCalls) {
call();
}
}];
}
- (void)stopLoadingWithError:(NSError *)error
{
RCTAssertMainQueue();
if (!_valid || !_loading) {
return;
}
_loading = NO;
[_javaScriptExecutor invalidate];
[[NSNotificationCenter defaultCenter]
postNotificationName:RCTJavaScriptDidFailToLoadNotification
object:_parentBridge userInfo:@{@"bridge": self, @"error": error}];
if ([error userInfo][RCTJSStackTraceKey]) {
[self.redBox showErrorMessage:[error localizedDescription]
withStack:[error userInfo][RCTJSStackTraceKey]];
}
RCTFatal(error);
}
RCT_NOT_IMPLEMENTED(- (instancetype)initWithBundleURL:(__unused NSURL *)bundleURL
moduleProvider:(__unused RCTBridgeModuleProviderBlock)block
launchOptions:(__unused NSDictionary *)launchOptions)
/**
* Prevent super from calling setUp (that'd create another batchedBridge)
*/
- (void)setUp {}
- (void)bindKeys {}
- (void)reload
{
[_parentBridge reload];
}
- (Class)executorClass
{
return _parentBridge.executorClass ?: [RCTJSCExecutor class];
}
- (void)setExecutorClass:(Class)executorClass
{
RCTAssertMainQueue();
_parentBridge.executorClass = executorClass;
}
- (NSURL *)bundleURL
{
return _parentBridge.bundleURL;
}
- (void)setBundleURL:(NSURL *)bundleURL
{
_parentBridge.bundleURL = bundleURL;
}
- (id<RCTBridgeDelegate>)delegate
{
return _parentBridge.delegate;
}
- (BOOL)isLoading
{
return _loading;
}
- (BOOL)isValid
{
return _valid;
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
- (void)dispatchBlock:(dispatch_block_t)block
queue:(dispatch_queue_t)queue
{
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
if (queue == RCTJSThread) {
[_javaScriptExecutor executeBlockOnJavaScriptQueue:block];
} else if (queue) {
dispatch_async(queue, block);
}
}
#pragma mark - RCTInvalidating
- (void)invalidate
{
if (!_valid) {
return;
}
RCTAssertMainQueue();
RCTAssert(_javaScriptExecutor != nil, @"Can't complete invalidation without a JS executor");
_loading = NO;
_valid = NO;
2015-08-19 12:27:43 +00:00
if ([RCTBridge currentBridge] == self) {
[RCTBridge setCurrentBridge:nil];
}
// Invalidate modules
dispatch_group_t group = dispatch_group_create();
for (RCTModuleData *moduleData in _moduleDataByID) {
// Be careful when grabbing an instance here, we don't want to instantiate
// any modules just to invalidate them.
id<RCTBridgeModule> instance = nil;
if ([moduleData hasInstance]) {
instance = moduleData.instance;
}
if (instance == _javaScriptExecutor) {
continue;
}
if ([instance respondsToSelector:@selector(invalidate)]) {
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
dispatch_group_enter(group);
[self dispatchBlock:^{
[(id<RCTInvalidating>)instance invalidate];
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
dispatch_group_leave(group);
} queue:moduleData.methodQueue];
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
[moduleData invalidate];
}
dispatch_group_notify(group, dispatch_get_main_queue(), ^{
[_javaScriptExecutor executeBlockOnJavaScriptQueue:^{
[_displayLink invalidate];
_displayLink = nil;
[_javaScriptExecutor invalidate];
_javaScriptExecutor = nil;
if (RCTProfileIsProfiling()) {
RCTProfileUnhookModules(self);
}
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
_moduleDataByName = nil;
_moduleDataByID = nil;
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
_moduleClassesByID = nil;
_pendingCalls = nil;
if (_flowIDMap != NULL) {
CFRelease(_flowIDMap);
}
}];
});
}
2015-08-19 12:27:43 +00:00
- (void)logMessage:(NSString *)message level:(NSString *)level
{
if (RCT_DEBUG && [_javaScriptExecutor isValid]) {
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
[self enqueueJSCall:@"RCTLog.logIfNoNativeHook"
args:@[level, message]];
2015-08-19 12:27:43 +00:00
}
}
#pragma mark - RCTBridge methods
/**
* Public. Can be invoked from any thread.
*/
- (void)enqueueJSCall:(NSString *)moduleDotMethod args:(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
/**
* AnyThread
*/
RCT_PROFILE_BEGIN_EVENT(RCTProfileTagAlways, @"-[RCTBatchedBridge enqueueJSCall:]", nil);
NSArray<NSString *> *ids = [moduleDotMethod componentsSeparatedByString:@"."];
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
NSString *module = ids[0];
NSString *method = ids[1];
RCTProfileBeginFlowEvent();
__weak RCTBatchedBridge *weakSelf = self;
[_javaScriptExecutor executeBlockOnJavaScriptQueue:^{
RCTProfileEndFlowEvent();
RCTBatchedBridge *strongSelf = weakSelf;
if (!strongSelf || !strongSelf.valid) {
return;
}
if (strongSelf.loading) {
dispatch_block_t pendingCall = ^{
[weakSelf _actuallyInvokeAndProcessModule:module method:method arguments:args ?: @[]];
};
[strongSelf->_pendingCalls addObject:pendingCall];
} else {
[strongSelf _actuallyInvokeAndProcessModule:module method:method arguments:args ?: @[]];
}
}];
RCT_PROFILE_END_EVENT(RCTProfileTagAlways, @"", nil);
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
}
/**
* Called by RCTModuleMethod from any thread.
*/
- (void)enqueueCallback:(NSNumber *)cbID args:(NSArray *)args
{
/**
* AnyThread
*/
RCTProfileBeginFlowEvent();
__weak RCTBatchedBridge *weakSelf = self;
[_javaScriptExecutor executeBlockOnJavaScriptQueue:^{
RCTProfileEndFlowEvent();
RCTBatchedBridge *strongSelf = weakSelf;
if (!strongSelf || !strongSelf.valid) {
return;
}
if (strongSelf.loading) {
dispatch_block_t pendingCall = ^{
[weakSelf _actuallyInvokeCallback:cbID arguments:args ?: @[]];
};
[strongSelf->_pendingCalls addObject:pendingCall];
} else {
[strongSelf _actuallyInvokeCallback:cbID arguments:args];
}
}];
}
/**
* Private hack to support `setTimeout(fn, 0)`
*/
- (void)_immediatelyCallTimer:(NSNumber *)timer
{
RCTAssertJSThread();
dispatch_block_t block = ^{
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
[self _actuallyInvokeAndProcessModule:@"JSTimersExecution"
method:@"callTimers"
arguments:@[@[timer]]];
};
if ([_javaScriptExecutor respondsToSelector:@selector(executeAsyncBlockOnJavaScriptQueue:)]) {
[_javaScriptExecutor executeAsyncBlockOnJavaScriptQueue:block];
} else {
[_javaScriptExecutor executeBlockOnJavaScriptQueue:block];
}
}
- (void)enqueueApplicationScript:(NSData *)script
url:(NSURL *)url
onComplete:(RCTJavaScriptCompleteBlock)onComplete
{
RCTAssert(onComplete != nil, @"onComplete block passed in should be non-nil");
RCTProfileBeginFlowEvent();
[_javaScriptExecutor executeApplicationScript:script sourceURL:url onComplete:^(NSError *scriptLoadError) {
RCTProfileEndFlowEvent();
RCTAssertJSThread();
if (scriptLoadError) {
onComplete(scriptLoadError);
return;
}
RCT_PROFILE_BEGIN_EVENT(RCTProfileTagAlways, @"FetchApplicationScriptCallbacks", nil);
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
[_javaScriptExecutor flushedQueue:^(id json, NSError *error)
{
RCT_PROFILE_END_EVENT(RCTProfileTagAlways, @"js_call,init", @{
@"json": RCTNullIfNil(json),
@"error": RCTNullIfNil(error),
});
[self handleBuffer:json batchEnded:YES];
onComplete(error);
}];
}];
}
#pragma mark - Payload Generation
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
- (void)_actuallyInvokeAndProcessModule:(NSString *)module
method:(NSString *)method
arguments:(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
RCTAssertJSThread();
__weak typeof(self) weakSelf = self;
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
[_javaScriptExecutor callFunctionOnModule:module
method:method
arguments:args
callback:^(id json, NSError *error) {
[weakSelf _processResponse:json error: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
- (void)_actuallyInvokeCallback:(NSNumber *)cbID
arguments:(NSArray *)args
{
RCTAssertJSThread();
__weak typeof(self) weakSelf = self;
[_javaScriptExecutor invokeCallbackID:cbID
arguments:args
callback:^(id json, NSError *error) {
[weakSelf _processResponse:json error:error];
}];
}
- (void)_processResponse:(id)json error:(NSError *)error
{
if (error) {
if ([error userInfo][RCTJSStackTraceKey]) {
[self.redBox showErrorMessage:[error localizedDescription]
withStack:[error userInfo][RCTJSStackTraceKey]];
}
RCTFatal(error);
}
if (!_valid) {
return;
}
[self handleBuffer:json batchEnded:YES];
}
#pragma mark - Payload Processing
- (void)handleBuffer:(id)buffer batchEnded:(BOOL)batchEnded
{
RCTAssertJSThread();
if (buffer != nil && buffer != (id)kCFNull) {
_wasBatchActive = YES;
[self handleBuffer:buffer];
[self partialBatchDidFlush];
}
if (batchEnded) {
if (_wasBatchActive) {
[self batchDidComplete];
}
_wasBatchActive = NO;
}
}
- (void)handleBuffer:(NSArray *)buffer
{
NSArray *requestsArray = [RCTConvert NSArray:buffer];
if (RCT_DEBUG && requestsArray.count <= RCTBridgeFieldParams) {
RCTLogError(@"Buffer should contain at least %tu sub-arrays. Only found %tu",
RCTBridgeFieldParams + 1, requestsArray.count);
return;
}
NSArray<NSNumber *> *moduleIDs = [RCTConvert NSNumberArray:requestsArray[RCTBridgeFieldRequestModuleIDs]];
NSArray<NSNumber *> *methodIDs = [RCTConvert NSNumberArray:requestsArray[RCTBridgeFieldMethodIDs]];
NSArray<NSArray *> *paramsArrays = [RCTConvert NSArrayArray:requestsArray[RCTBridgeFieldParams]];
int64_t callID = -1;
if (requestsArray.count > 3) {
callID = [requestsArray[RCTBridgeFieldCallID] longLongValue];
}
if (RCT_DEBUG && (moduleIDs.count != methodIDs.count || moduleIDs.count != paramsArrays.count)) {
RCTLogError(@"Invalid data message - all must be length: %zd", moduleIDs.count);
return;
}
NSMapTable *buckets = [[NSMapTable alloc] initWithKeyOptions:NSPointerFunctionsStrongMemory
valueOptions:NSPointerFunctionsStrongMemory
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
capacity:_moduleDataByName.count];
[moduleIDs enumerateObjectsUsingBlock:^(NSNumber *moduleID, NSUInteger i, __unused BOOL *stop) {
RCTModuleData *moduleData = _moduleDataByID[moduleID.integerValue];
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
dispatch_queue_t queue = moduleData.methodQueue;
NSMutableOrderedSet<NSNumber *> *set = [buckets objectForKey:queue];
if (!set) {
set = [NSMutableOrderedSet new];
[buckets setObject:set forKey:queue];
}
[set addObject:@(i)];
}];
for (dispatch_queue_t queue in buckets) {
RCTProfileBeginFlowEvent();
dispatch_block_t block = ^{
RCTProfileEndFlowEvent();
RCT_PROFILE_BEGIN_EVENT(RCTProfileTagAlways, @"-[RCTBatchedBridge handleBuffer:]", nil);
NSOrderedSet *calls = [buckets objectForKey:queue];
@autoreleasepool {
for (NSNumber *indexObj in calls) {
NSUInteger index = indexObj.unsignedIntegerValue;
if (RCT_DEV && callID != -1 && _flowIDMap != NULL && RCTProfileIsProfiling()) {
[self.flowIDMapLock lock];
int64_t newFlowID = (int64_t)CFDictionaryGetValue(_flowIDMap, (const void *)(_flowID + index));
_RCTProfileEndFlowEvent(@(newFlowID));
CFDictionaryRemoveValue(_flowIDMap, (const void *)(_flowID + index));
[self.flowIDMapLock unlock];
}
[self _handleRequestNumber:index
moduleID:[moduleIDs[index] integerValue]
methodID:[methodIDs[index] integerValue]
params:paramsArrays[index]];
}
}
RCT_PROFILE_END_EVENT(RCTProfileTagAlways, @"objc_call,dispatch_async", @{
@"calls": @(calls.count),
});
};
if (queue == RCTJSThread) {
[_javaScriptExecutor executeBlockOnJavaScriptQueue:block];
} else if (queue) {
dispatch_async(queue, block);
}
}
_flowID = callID;
}
- (void)partialBatchDidFlush
{
for (RCTModuleData *moduleData in _moduleDataByID) {
if (moduleData.implementsPartialBatchDidFlush) {
[self dispatchBlock:^{
[moduleData.instance partialBatchDidFlush];
} queue:moduleData.methodQueue];
}
}
}
- (void)batchDidComplete
{
// TODO: batchDidComplete is only used by RCTUIManager - can we eliminate this special case?
for (RCTModuleData *moduleData in _moduleDataByID) {
if (moduleData.implementsBatchDidComplete) {
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
[self dispatchBlock:^{
[moduleData.instance batchDidComplete];
Refactored module access to allow for lazy loading Summary: public The `bridge.modules` dictionary provides access to all native modules, but this API requires that every module is initialized in advance so that any module can be accessed. This diff introduces a better API that will allow modules to be initialized lazily as they are needed, and deprecates `bridge.modules` (modules that use it will still work, but should be rewritten to use `bridge.moduleClasses` or `-[bridge moduleForName/Class:` instead. The rules are now as follows: * Any module that overrides `init` or `setBridge:` will be initialized on the main thread when the bridge is created * Any module that implements `constantsToExport:` will be initialized later when the config is exported (the module itself will be initialized on a background queue, but `constantsToExport:` will still be called on the main thread. * All other modules will be initialized lazily when a method is first called on them. These rules may seem slightly arcane, but they have the advantage of not violating any assumptions that may have been made by existing code - any module written under the original assumption that it would be initialized synchronously on the main thread when the bridge is created should still function exactly the same, but modules that avoid overriding `init` or `setBridge:` will now be loaded lazily. I've rewritten most of the standard modules to take advantage of this new lazy loading, with the following results: Out of the 65 modules included in UIExplorer: * 16 are initialized on the main thread when the bridge is created * A further 8 are initialized when the config is exported to JS * The remaining 41 will be initialized lazily on-demand Reviewed By: jspahrsummers Differential Revision: D2677695 fb-gh-sync-id: 507ae7e9fd6b563e89292c7371767c978e928f33
2015-11-25 11:09:00 +00:00
} queue:moduleData.methodQueue];
}
}
}
- (BOOL)_handleRequestNumber:(NSUInteger)i
moduleID:(NSUInteger)moduleID
methodID:(NSUInteger)methodID
params:(NSArray *)params
{
if (!_valid) {
return NO;
}
if (RCT_DEBUG && ![params isKindOfClass:[NSArray class]]) {
RCTLogError(@"Invalid module/method/params tuple for request #%zd", i);
return NO;
}
RCTModuleData *moduleData = _moduleDataByID[moduleID];
if (RCT_DEBUG && !moduleData) {
RCTLogError(@"No module found for id '%zd'", moduleID);
return NO;
}
id<RCTBridgeMethod> method = moduleData.methods[methodID];
if (RCT_DEBUG && !method) {
RCTLogError(@"Unknown methodID: %zd for module: %zd (%@)", methodID, moduleID, moduleData.name);
return NO;
}
@try {
[method invokeWithBridge:self module:moduleData.instance arguments:params];
}
@catch (NSException *exception) {
// Pass on JS exceptions
if ([exception.name hasPrefix:RCTFatalExceptionName]) {
@throw exception;
}
NSString *message = [NSString stringWithFormat:
@"Exception '%@' was thrown while invoking %@ on target %@ with params %@",
exception, method.JSMethodName, moduleData.name, params];
RCTFatal(RCTErrorWithMessage(message));
}
return YES;
}
- (void)startProfiling
{
RCTAssertMainQueue();
[_javaScriptExecutor executeBlockOnJavaScriptQueue:^{
RCTProfileInit(self);
}];
}
- (void)stopProfiling:(void (^)(NSData *))callback
{
RCTAssertMainQueue();
[_javaScriptExecutor executeBlockOnJavaScriptQueue:^{
RCTProfileEnd(self, ^(NSString *log) {
NSData *logData = [log dataUsingEncoding:NSUTF8StringEncoding];
callback(logData);
});
}];
}
- (BOOL)isBatchActive
{
return _wasBatchActive;
}
@end