react-native/React/Modules/RCTUIManager.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 "RCTUIManager.h"
#import <AVFoundation/AVFoundation.h>
#import <yoga/Yoga.h>
#import "RCTAccessibilityManager.h"
#import "RCTAnimationType.h"
#import "RCTAssert.h"
#import "RCTBridge+Private.h"
#import "RCTBridge.h"
#import "RCTComponent.h"
#import "RCTComponentData.h"
#import "RCTConvert.h"
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#import "RCTDefines.h"
[ReactNative] Introduce onLayout events Summary: Simply add an `onLayout` callback to a native view component, and the callback will be invoked with the current layout information when the view is mounted and whenever the layout changes. The only limitation is that scroll position and other stuff the layout system isn't aware of is not taken into account. This is because onLayout events wouldn't be triggered for these changes and if they are desired they should be tracked separately (e.g. with `onScroll`) and combined. Also fixes some bugs with LayoutAnimation callbacks. @public Test Plan: - Run new LayoutEventsExample in UIExplorer and see it work correctly. - New integration test passes internally (IntegrationTest project seems busted). - New jest test case passes. {F22318433} ``` 2015-05-06 15:45:05.848 [info][tid:com.facebook.React.JavaScript] "Running application "UIExplorerApp" with appParams: {"rootTag":1,"initialProps":{}}. __DEV__ === true, development-level warning are ON, performance optimizations are OFF" 2015-05-06 15:45:05.881 [info][tid:com.facebook.React.JavaScript] "received text layout event ", {"target":27,"layout":{"y":123,"x":12.5,"width":140.5,"height":18}} 2015-05-06 15:45:05.882 [info][tid:com.facebook.React.JavaScript] "received image layout event ", {"target":23,"layout":{"y":12.5,"x":122,"width":50,"height":50}} 2015-05-06 15:45:05.883 [info][tid:com.facebook.React.JavaScript] "received view layout event ", {"target":22,"layout":{"y":70.5,"x":20,"width":294,"height":204}} 2015-05-06 15:45:05.897 [info][tid:com.facebook.React.JavaScript] "received text layout event ", {"target":27,"layout":{"y":206.5,"x":12.5,"width":140.5,"height":18}} 2015-05-06 15:45:05.897 [info][tid:com.facebook.React.JavaScript] "received view layout event ", {"target":22,"layout":{"y":70.5,"x":20,"width":294,"height":287.5}} 2015-05-06 15:45:09.847 [info][tid:com.facebook.React.JavaScript] "layout animation done." 2015-05-06 15:45:09.847 [info][tid:com.facebook.React.JavaScript] "received image layout event ", {"target":23,"layout":{"y":12.5,"x":82,"width":50,"height":50}} 2015-05-06 15:45:09.848 [info][tid:com.facebook.React.JavaScript] "received view layout event ", {"target":22,"layout":{"y":110.5,"x":60,"width":214,"height":287.5}} 2015-05-06 15:45:09.862 [info][tid:com.facebook.React.JavaScript] "received text layout event ", {"target":27,"layout":{"y":206.5,"x":12.5,"width":120,"height":68}} 2015-05-06 15:45:09.863 [info][tid:com.facebook.React.JavaScript] "received image layout event ", {"target":23,"layout":{"y":12.5,"x":55,"width":50,"height":50}} 2015-05-06 15:45:09.863 [info][tid:com.facebook.React.JavaScript] "received view layout event ", {"target":22,"layout":{"y":128,"x":60,"width":160,"height":337.5}} ```
2015-05-07 19:11:02 +00:00
#import "RCTEventDispatcher.h"
#import "RCTLog.h"
#import "RCTModuleData.h"
#import "RCTModuleMethod.h"
#import "RCTProfile.h"
#import "RCTRootContentView.h"
#import "RCTRootShadowView.h"
#import "RCTRootViewInternal.h"
#import "RCTScrollableProtocol.h"
#import "RCTShadowView.h"
#import "RCTUtils.h"
#import "RCTView.h"
#import "RCTViewManager.h"
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#import "UIView+React.h"
static void RCTTraverseViewNodes(id<RCTComponent> view, void (^block)(id<RCTComponent>))
{
if (view.reactTag) {
block(view);
for (id<RCTComponent> subview in view.reactSubviews) {
RCTTraverseViewNodes(subview, block);
}
}
}
char *const RCTUIManagerQueueName = "com.facebook.react.ShadowQueue";
NSString *const RCTUIManagerWillUpdateViewsDueToContentSizeMultiplierChangeNotification = @"RCTUIManagerWillUpdateViewsDueToContentSizeMultiplierChangeNotification";
NSString *const RCTUIManagerDidRegisterRootViewNotification = @"RCTUIManagerDidRegisterRootViewNotification";
NSString *const RCTUIManagerDidRemoveRootViewNotification = @"RCTUIManagerDidRemoveRootViewNotification";
NSString *const RCTUIManagerRootViewKey = @"RCTUIManagerRootViewKey";
@interface RCTAnimation : NSObject
@property (nonatomic, readonly) NSTimeInterval duration;
@property (nonatomic, readonly) NSTimeInterval delay;
@property (nonatomic, readonly, copy) NSString *property;
@property (nonatomic, readonly) CGFloat springDamping;
@property (nonatomic, readonly) CGFloat initialVelocity;
@property (nonatomic, readonly) RCTAnimationType animationType;
@end
static UIViewAnimationCurve _currentKeyboardAnimationCurve;
@implementation RCTAnimation
static UIViewAnimationOptions UIViewAnimationOptionsFromRCTAnimationType(RCTAnimationType type)
{
switch (type) {
case RCTAnimationTypeLinear:
return UIViewAnimationOptionCurveLinear;
case RCTAnimationTypeEaseIn:
return UIViewAnimationOptionCurveEaseIn;
case RCTAnimationTypeEaseOut:
return UIViewAnimationOptionCurveEaseOut;
case RCTAnimationTypeEaseInEaseOut:
return UIViewAnimationOptionCurveEaseInOut;
case RCTAnimationTypeKeyboard:
// http://stackoverflow.com/questions/18870447/how-to-use-the-default-ios7-uianimation-curve
return (UIViewAnimationOptions)(_currentKeyboardAnimationCurve << 16);
default:
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RCTLogError(@"Unsupported animation type %zd", type);
return UIViewAnimationOptionCurveEaseInOut;
}
}
// Use a custom initialization function rather than implementing `+initialize` so that we can control
// when the initialization code runs. `+initialize` runs immediately before the first message is sent
// to the class which may be too late for us. By this time, we may have missed some
// `UIKeyboardWillChangeFrameNotification`s.
+ (void)initializeStatics
{
#if !TARGET_OS_TV
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
[[NSNotificationCenter defaultCenter] addObserver:self
selector:@selector(keyboardWillChangeFrame:)
name:UIKeyboardWillChangeFrameNotification
object:nil];
});
#endif
}
+ (void)keyboardWillChangeFrame:(NSNotification *)notification
{
#if !TARGET_OS_TV
NSDictionary *userInfo = notification.userInfo;
_currentKeyboardAnimationCurve = [userInfo[UIKeyboardAnimationCurveUserInfoKey] integerValue];
#endif
}
- (instancetype)initWithDuration:(NSTimeInterval)duration dictionary:(NSDictionary *)config
{
if (!config) {
return nil;
}
if ((self = [super init])) {
_property = [RCTConvert NSString:config[@"property"]];
_duration = [RCTConvert NSTimeInterval:config[@"duration"]] ?: duration;
if (_duration > 0.0 && _duration < 0.01) {
RCTLogError(@"RCTLayoutAnimation expects timings to be in ms, not seconds.");
_duration = _duration * 1000.0;
}
_delay = [RCTConvert NSTimeInterval:config[@"delay"]];
if (_delay > 0.0 && _delay < 0.01) {
RCTLogError(@"RCTLayoutAnimation expects timings to be in ms, not seconds.");
_delay = _delay * 1000.0;
}
_animationType = [RCTConvert RCTAnimationType:config[@"type"]];
if (_animationType == RCTAnimationTypeSpring) {
_springDamping = [RCTConvert CGFloat:config[@"springDamping"]];
_initialVelocity = [RCTConvert CGFloat:config[@"initialVelocity"]];
}
}
return self;
}
- (void)performAnimations:(void (^)(void))animations
withCompletionBlock:(void (^)(BOOL completed))completionBlock
{
if (_animationType == RCTAnimationTypeSpring) {
[UIView animateWithDuration:_duration
delay:_delay
usingSpringWithDamping:_springDamping
initialSpringVelocity:_initialVelocity
options:UIViewAnimationOptionBeginFromCurrentState
animations:animations
completion:completionBlock];
} else {
UIViewAnimationOptions options = UIViewAnimationOptionBeginFromCurrentState |
UIViewAnimationOptionsFromRCTAnimationType(_animationType);
[UIView animateWithDuration:_duration
delay:_delay
options:options
animations:animations
completion:completionBlock];
}
}
@end
@interface RCTLayoutAnimation : NSObject
@property (nonatomic, copy) NSDictionary *config;
@property (nonatomic, strong) RCTAnimation *createAnimation;
@property (nonatomic, strong) RCTAnimation *updateAnimation;
@property (nonatomic, strong) RCTAnimation *deleteAnimation;
@property (nonatomic, copy) RCTResponseSenderBlock callback;
@end
@implementation RCTLayoutAnimation
- (instancetype)initWithDictionary:(NSDictionary *)config callback:(RCTResponseSenderBlock)callback
{
if (!config) {
return nil;
}
if ((self = [super init])) {
_config = [config copy];
NSTimeInterval duration = [RCTConvert NSTimeInterval:config[@"duration"]];
if (duration > 0.0 && duration < 0.01) {
RCTLogError(@"RCTLayoutAnimation expects timings to be in ms, not seconds.");
duration = duration * 1000.0;
}
_createAnimation = [[RCTAnimation alloc] initWithDuration:duration dictionary:config[@"create"]];
_updateAnimation = [[RCTAnimation alloc] initWithDuration:duration dictionary:config[@"update"]];
_deleteAnimation = [[RCTAnimation alloc] initWithDuration:duration dictionary:config[@"delete"]];
_callback = callback;
}
return self;
}
@end
@implementation RCTUIManager
{
// Root views are only mutated on the shadow queue
NSMutableSet<NSNumber *> *_rootViewTags;
NSMutableArray<RCTViewManagerUIBlock> *_pendingUIBlocks;
// Animation
RCTLayoutAnimation *_layoutAnimation; // Main thread only
NSMutableSet<UIView *> *_viewsToBeDeleted; // Main thread only
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<NSNumber *, RCTShadowView *> *_shadowViewRegistry; // RCT thread only
NSMutableDictionary<NSNumber *, UIView *> *_viewRegistry; // Main thread only
// Keyed by viewName
NSDictionary *_componentDataByName;
NSMutableSet<id<RCTComponent>> *_bridgeTransactionListeners;
NSMutableSet<id<RCTUIManagerObserver>> *_uiManagerObservers;
}
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@synthesize bridge = _bridge;
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RCT_EXPORT_MODULE()
- (void)didReceiveNewContentSizeMultiplier
{
// Report the event across the bridge.
#pragma clang diagnostic push
#pragma clang diagnostic ignored "-Wdeprecated-declarations"
[_bridge.eventDispatcher sendDeviceEventWithName:@"didUpdateContentSizeMultiplier"
body:@([_bridge.accessibilityManager multiplier])];
#pragma clang diagnostic pop
dispatch_async(RCTGetUIManagerQueue(), ^{
[[NSNotificationCenter defaultCenter] postNotificationName:RCTUIManagerWillUpdateViewsDueToContentSizeMultiplierChangeNotification
object:self];
[self setNeedsLayout];
});
}
- (void)invalidate
{
/**
* Called on the JS Thread since all modules are invalidated on the JS thread
*/
// This only accessed from the shadow queue
_pendingUIBlocks = nil;
dispatch_async(dispatch_get_main_queue(), ^{
RCT_PROFILE_BEGIN_EVENT(RCTProfileTagAlways, @"UIManager invalidate", nil);
for (NSNumber *rootViewTag in self->_rootViewTags) {
[(id<RCTInvalidating>)self->_viewRegistry[rootViewTag] invalidate];
}
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self->_rootViewTags = nil;
self->_shadowViewRegistry = nil;
self->_viewRegistry = nil;
self->_bridgeTransactionListeners = nil;
self->_bridge = nil;
[[NSNotificationCenter defaultCenter] removeObserver:self];
RCT_PROFILE_END_EVENT(RCTProfileTagAlways, @"");
});
}
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<NSNumber *, RCTShadowView *> *)shadowViewRegistry
{
// NOTE: this method only exists so that it can be accessed by unit tests
if (!_shadowViewRegistry) {
_shadowViewRegistry = [NSMutableDictionary new];
}
return _shadowViewRegistry;
}
- (NSMutableDictionary<NSNumber *, UIView *> *)viewRegistry
{
// NOTE: this method only exists so that it can be accessed by unit tests
if (!_viewRegistry) {
_viewRegistry = [NSMutableDictionary new];
}
return _viewRegistry;
}
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- (void)setBridge:(RCTBridge *)bridge
{
RCTAssert(_bridge == nil, @"Should not re-use same UIIManager instance");
_bridge = bridge;
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
_shadowViewRegistry = [NSMutableDictionary new];
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
_viewRegistry = [NSMutableDictionary new];
// Internal resources
_pendingUIBlocks = [NSMutableArray new];
_rootViewTags = [NSMutableSet new];
_bridgeTransactionListeners = [NSMutableSet new];
_uiManagerObservers = [NSMutableSet new];
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_viewsToBeDeleted = [NSMutableSet new];
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// Get view managers from bridge
NSMutableDictionary *componentDataByName = [NSMutableDictionary new];
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 (Class moduleClass in _bridge.moduleClasses) {
if ([moduleClass isSubclassOfClass:[RCTViewManager class]]) {
RCTComponentData *componentData = [[RCTComponentData alloc] initWithManagerClass:moduleClass
bridge:_bridge];
componentDataByName[componentData.name] = componentData;
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}
}
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_componentDataByName = [componentDataByName copy];
[[NSNotificationCenter defaultCenter] addObserver:self
selector:@selector(didReceiveNewContentSizeMultiplier)
name:RCTAccessibilityManagerDidUpdateMultiplierNotification
object:_bridge.accessibilityManager];
[RCTAnimation initializeStatics];
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}
dispatch_queue_t RCTGetUIManagerQueue(void)
{
static dispatch_queue_t shadowQueue;
static dispatch_once_t onceToken;
dispatch_once(&onceToken, ^{
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 ([NSOperation instancesRespondToSelector:@selector(qualityOfService)]) {
dispatch_queue_attr_t attr = dispatch_queue_attr_make_with_qos_class(DISPATCH_QUEUE_SERIAL, QOS_CLASS_USER_INTERACTIVE, 0);
shadowQueue = dispatch_queue_create(RCTUIManagerQueueName, attr);
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
} else {
shadowQueue = dispatch_queue_create(RCTUIManagerQueueName, DISPATCH_QUEUE_SERIAL);
dispatch_set_target_queue(shadowQueue, dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_HIGH, 0));
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
}
});
return shadowQueue;
}
- (dispatch_queue_t)methodQueue
{
return RCTGetUIManagerQueue();
}
- (void)registerRootView:(RCTRootContentView *)rootView
{
RCTAssertMainQueue();
NSNumber *reactTag = rootView.reactTag;
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RCTAssert(RCTIsReactRootView(reactTag),
@"View %@ with tag #%@ is not a root view", rootView, reactTag);
UIView *existingView = _viewRegistry[reactTag];
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RCTAssert(existingView == nil || existingView == rootView,
@"Expect all root views to have unique tag. Added %@ twice", reactTag);
CGSize availableSize = rootView.availableSize;
// Register view
_viewRegistry[reactTag] = rootView;
// Register shadow view
dispatch_async(RCTGetUIManagerQueue(), ^{
if (!self->_viewRegistry) {
return;
}
RCTRootShadowView *shadowView = [RCTRootShadowView new];
shadowView.availableSize = availableSize;
shadowView.reactTag = reactTag;
shadowView.backgroundColor = rootView.backgroundColor;
shadowView.viewName = NSStringFromClass([rootView class]);
self->_shadowViewRegistry[shadowView.reactTag] = shadowView;
[self->_rootViewTags addObject:reactTag];
});
[[NSNotificationCenter defaultCenter] postNotificationName:RCTUIManagerDidRegisterRootViewNotification
object:self
userInfo:@{RCTUIManagerRootViewKey: rootView}];
}
- (NSString *)viewNameForReactTag:(NSNumber *)reactTag
{
RCTAssertThread(RCTGetUIManagerQueue(), @"viewNameForReactTag can only be called from the shadow queue");
return _shadowViewRegistry[reactTag].viewName;
}
- (UIView *)viewForReactTag:(NSNumber *)reactTag
{
RCTAssertMainQueue();
return _viewRegistry[reactTag];
}
- (void)setAvailableSize:(CGSize)availableSize forRootView:(UIView *)rootView
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{
RCTAssertMainQueue();
NSNumber *reactTag = rootView.reactTag;
dispatch_async(RCTGetUIManagerQueue(), ^{
RCTRootShadowView *shadowView = (RCTRootShadowView *)self->_shadowViewRegistry[reactTag];
RCTAssert(shadowView != nil, @"Could not locate shadow view with tag #%@", reactTag);
RCTAssert([shadowView isKindOfClass:[RCTRootShadowView class]], @"Located shadow view (with tag #%@) is actually not root view.", reactTag);
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if (CGSizeEqualToSize(availableSize, shadowView.availableSize)) {
return;
}
shadowView.availableSize = availableSize;
[self setNeedsLayout];
});
}
- (void)setSize:(CGSize)size forView:(UIView *)view
{
RCTAssertMainQueue();
NSNumber *reactTag = view.reactTag;
dispatch_async(RCTGetUIManagerQueue(), ^{
RCTShadowView *shadowView = self->_shadowViewRegistry[reactTag];
RCTAssert(shadowView != nil, @"Could not locate shadow view with tag #%@", reactTag);
if (CGSizeEqualToSize(size, shadowView.size)) {
return;
}
shadowView.size = size;
[self setNeedsLayout];
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});
}
- (void)setIntrinsicContentSize:(CGSize)size forView:(UIView *)view
{
RCTAssertMainQueue();
NSNumber *reactTag = view.reactTag;
dispatch_async(RCTGetUIManagerQueue(), ^{
RCTShadowView *shadowView = self->_shadowViewRegistry[reactTag];
RCTAssert(shadowView != nil, @"Could not locate view with tag #%@", reactTag);
if (!CGSizeEqualToSize(shadowView.intrinsicContentSize, size)) {
shadowView.intrinsicContentSize = size;
[self setNeedsLayout];
}
});
}
- (void)setBackgroundColor:(UIColor *)color forView:(UIView *)view
{
RCTAssertMainQueue();
NSNumber *reactTag = view.reactTag;
dispatch_async(RCTGetUIManagerQueue(), ^{
if (!self->_viewRegistry) {
return;
}
RCTShadowView *shadowView = self->_shadowViewRegistry[reactTag];
RCTAssert(shadowView != nil, @"Could not locate root view with tag #%@", reactTag);
shadowView.backgroundColor = color;
[self _amendPendingUIBlocksWithStylePropagationUpdateForShadowView:shadowView];
[self flushUIBlocks];
});
}
/**
* Unregisters views from registries
*/
- (void)_purgeChildren:(NSArray<id<RCTComponent>> *)children
fromRegistry:(NSMutableDictionary<NSNumber *, id<RCTComponent>> *)registry
{
for (id<RCTComponent> child in children) {
RCTTraverseViewNodes(registry[child.reactTag], ^(id<RCTComponent> subview) {
RCTAssert(![subview isReactRootView], @"Root views should not be unregistered");
if ([subview conformsToProtocol:@protocol(RCTInvalidating)]) {
[(id<RCTInvalidating>)subview invalidate];
}
[registry removeObjectForKey:subview.reactTag];
if (registry == (NSMutableDictionary<NSNumber *, id<RCTComponent>> *)self->_viewRegistry) {
[self->_bridgeTransactionListeners removeObject:subview];
}
});
}
}
- (void)addUIBlock:(RCTViewManagerUIBlock)block
{
RCTAssertThread(RCTGetUIManagerQueue(),
@"-[RCTUIManager addUIBlock:] should only be called from the "
"UIManager's queue (get this using `RCTGetUIManagerQueue()`)");
if (!block || !_viewRegistry) {
return;
}
[_pendingUIBlocks addObject:block];
}
- (void)prependUIBlock:(RCTViewManagerUIBlock)block
{
RCTAssertThread(RCTGetUIManagerQueue(),
@"-[RCTUIManager prependUIBlock:] should only be called from the "
"UIManager's queue (get this using `RCTGetUIManagerQueue()`)");
if (!block || !_viewRegistry) {
return;
}
[_pendingUIBlocks insertObject:block atIndex:0];
}
- (RCTViewManagerUIBlock)uiBlockWithLayoutUpdateForRootView:(RCTRootShadowView *)rootShadowView
{
RCTAssert(!RCTIsMainQueue(), @"Should be called on shadow queue");
// This is nuanced. In the JS thread, we create a new update buffer
// `frameTags`/`frames` that is created/mutated in the JS thread. We access
// these structures in the UI-thread block. `NSMutableArray` is not thread
// safe so we rely on the fact that we never mutate it after it's passed to
// the main thread.
NSSet<RCTShadowView *> *viewsWithNewFrames = [rootShadowView collectViewsWithUpdatedFrames];
if (!viewsWithNewFrames.count) {
// no frame change results in no UI update block
return nil;
}
typedef struct {
CGRect frame;
UIUserInterfaceLayoutDirection layoutDirection;
BOOL isNew;
BOOL parentIsNew;
BOOL isHidden;
} RCTFrameData;
// Construct arrays then hand off to main thread
NSUInteger count = viewsWithNewFrames.count;
NSMutableArray *reactTags = [[NSMutableArray alloc] initWithCapacity:count];
NSMutableData *framesData = [[NSMutableData alloc] initWithLength:sizeof(RCTFrameData) * count];
{
NSUInteger index = 0;
RCTFrameData *frameDataArray = (RCTFrameData *)framesData.mutableBytes;
for (RCTShadowView *shadowView in viewsWithNewFrames) {
reactTags[index] = shadowView.reactTag;
frameDataArray[index++] = (RCTFrameData){
shadowView.frame,
shadowView.effectiveLayoutDirection,
shadowView.isNewView,
shadowView.superview.isNewView,
shadowView.isHidden,
};
}
}
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// These are blocks to be executed on each view, immediately after
// reactSetFrame: has been called. Note that if reactSetFrame: is not called,
// these won't be called either, so this is not a suitable place to update
// properties that aren't related to layout.
NSMutableDictionary<NSNumber *, RCTViewManagerUIBlock> *updateBlocks =
[NSMutableDictionary new];
for (RCTShadowView *shadowView in viewsWithNewFrames) {
// We have to do this after we build the parentsAreNew array.
shadowView.newView = NO;
NSNumber *reactTag = shadowView.reactTag;
RCTViewManager *manager = [_componentDataByName[shadowView.viewName] manager];
RCTViewManagerUIBlock block = [manager uiBlockToAmendWithShadowView:shadowView];
if (block) {
updateBlocks[reactTag] = block;
}
if (shadowView.onLayout) {
CGRect frame = shadowView.frame;
shadowView.onLayout(@{
@"layout": @{
@"x": @(frame.origin.x),
@"y": @(frame.origin.y),
@"width": @(frame.size.width),
@"height": @(frame.size.height),
},
});
}
if (RCTIsReactRootView(reactTag)) {
CGSize contentSize = shadowView.frame.size;
dispatch_async(dispatch_get_main_queue(), ^{
UIView *view = self->_viewRegistry[reactTag];
RCTAssert(view != nil, @"view (for ID %@) not found", reactTag);
RCTRootView *rootView = (RCTRootView *)[view superview];
rootView.intrinsicContentSize = contentSize;
});
}
}
// Perform layout (possibly animated)
return ^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
const RCTFrameData *frameDataArray = (const RCTFrameData *)framesData.bytes;
RCTLayoutAnimation *layoutAnimation = uiManager->_layoutAnimation;
__block NSUInteger completionsCalled = 0;
NSInteger index = 0;
for (NSNumber *reactTag in reactTags) {
RCTFrameData frameData = frameDataArray[index++];
UIView *view = viewRegistry[reactTag];
CGRect frame = frameData.frame;
BOOL isHidden = frameData.isHidden;
UIUserInterfaceLayoutDirection layoutDirection = frameData.layoutDirection;
BOOL isNew = frameData.isNew;
RCTAnimation *updateAnimation = isNew ? nil : layoutAnimation.updateAnimation;
BOOL shouldAnimateCreation = isNew && !frameData.parentIsNew;
RCTAnimation *createAnimation = shouldAnimateCreation ? layoutAnimation.createAnimation : nil;
void (^completion)(BOOL) = ^(BOOL finished) {
completionsCalled++;
if (layoutAnimation.callback && completionsCalled == count) {
layoutAnimation.callback(@[@(finished)]);
// It's unsafe to call this callback more than once, so we nil it out here
// to make sure that doesn't happen.
layoutAnimation.callback = nil;
}
};
if (view.isHidden != isHidden) {
view.hidden = isHidden;
}
if (view.reactLayoutDirection != layoutDirection) {
view.reactLayoutDirection = layoutDirection;
}
RCTViewManagerUIBlock updateBlock = updateBlocks[reactTag];
if (createAnimation) {
// Animate view creation
[view reactSetFrame:frame];
CATransform3D finalTransform = view.layer.transform;
CGFloat finalOpacity = view.layer.opacity;
NSString *property = createAnimation.property;
if ([property isEqualToString:@"scaleXY"]) {
view.layer.transform = CATransform3DMakeScale(0, 0, 0);
} else if ([property isEqualToString:@"opacity"]) {
view.layer.opacity = 0.0;
} else {
RCTLogError(@"Unsupported layout animation createConfig property %@",
createAnimation.property);
}
[createAnimation performAnimations:^{
if ([property isEqualToString:@"scaleXY"]) {
view.layer.transform = finalTransform;
} else if ([property isEqualToString:@"opacity"]) {
view.layer.opacity = finalOpacity;
}
if (updateBlock) {
updateBlock(self, viewRegistry);
}
} withCompletionBlock:completion];
} else if (updateAnimation) {
// Animate view update
[updateAnimation performAnimations:^{
[view reactSetFrame:frame];
if (updateBlock) {
updateBlock(self, viewRegistry);
}
} withCompletionBlock:completion];
} else {
// Update without animation
[view reactSetFrame:frame];
if (updateBlock) {
updateBlock(self, viewRegistry);
}
completion(YES);
}
}
// Clean up
uiManager->_layoutAnimation = nil;
};
}
- (void)_amendPendingUIBlocksWithStylePropagationUpdateForShadowView:(RCTShadowView *)topView
{
NSMutableSet<RCTApplierBlock> *applierBlocks = [NSMutableSet setWithCapacity:1];
[topView collectUpdatedProperties:applierBlocks parentProperties:@{}];
if (applierBlocks.count) {
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
for (RCTApplierBlock block in applierBlocks) {
block(viewRegistry);
}
}];
}
}
- (void)addUIManagerObserver:(id<RCTUIManagerObserver>)observer
{
dispatch_async(RCTGetUIManagerQueue(), ^{
[self->_uiManagerObservers addObject:observer];
});
}
- (void)removeUIManagerObserver:(id<RCTUIManagerObserver>)observer
{
dispatch_async(RCTGetUIManagerQueue(), ^{
[self->_uiManagerObservers removeObject:observer];
});
}
/**
* A method to be called from JS, which takes a container ID and then releases
* all subviews for that container upon receipt.
*/
RCT_EXPORT_METHOD(removeSubviewsFromContainerWithID:(nonnull NSNumber *)containerID)
{
id<RCTComponent> container = _shadowViewRegistry[containerID];
RCTAssert(container != nil, @"container view (for ID %@) not found", containerID);
NSUInteger subviewsCount = [container reactSubviews].count;
NSMutableArray<NSNumber *> *indices = [[NSMutableArray alloc] initWithCapacity:subviewsCount];
for (NSUInteger childIndex = 0; childIndex < subviewsCount; childIndex++) {
[indices addObject:@(childIndex)];
}
[self manageChildren:containerID
moveFromIndices:nil
moveToIndices:nil
addChildReactTags:nil
addAtIndices:nil
removeAtIndices:indices];
}
/**
* Disassociates children from container. Doesn't remove from registries.
* TODO: use [NSArray getObjects:buffer] to reuse same fast buffer each time.
*
* @returns Array of removed items.
*/
- (NSArray<id<RCTComponent>> *)_childrenToRemoveFromContainer:(id<RCTComponent>)container
atIndices:(NSArray<NSNumber *> *)atIndices
{
// If there are no indices to move or the container has no subviews don't bother
// We support parents with nil subviews so long as they're all nil so this allows for this behavior
if (atIndices.count == 0 || [container reactSubviews].count == 0) {
return nil;
}
// Construction of removed children must be done "up front", before indices are disturbed by removals.
NSMutableArray<id<RCTComponent>> *removedChildren = [NSMutableArray arrayWithCapacity:atIndices.count];
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RCTAssert(container != nil, @"container view (for ID %@) not found", container);
for (NSNumber *indexNumber in atIndices) {
NSUInteger index = indexNumber.unsignedIntegerValue;
if (index < [container reactSubviews].count) {
[removedChildren addObject:[container reactSubviews][index]];
}
}
if (removedChildren.count != atIndices.count) {
NSString *message = [NSString stringWithFormat:@"removedChildren count (%tu) was not what we expected (%tu)",
removedChildren.count, atIndices.count];
RCTFatal(RCTErrorWithMessage(message));
}
return removedChildren;
}
- (void)_removeChildren:(NSArray<id<RCTComponent>> *)children
fromContainer:(id<RCTComponent>)container
{
for (id<RCTComponent> removedChild in children) {
[container removeReactSubview:removedChild];
}
}
/**
* Remove subviews from their parent with an animation.
*/
- (void)_removeChildren:(NSArray<UIView *> *)children
fromContainer:(UIView *)container
withAnimation:(RCTLayoutAnimation *)animation
{
RCTAssertMainQueue();
RCTAnimation *deleteAnimation = animation.deleteAnimation;
__block NSUInteger completionsCalled = 0;
for (UIView *removedChild in children) {
void (^completion)(BOOL) = ^(BOOL finished) {
completionsCalled++;
[self->_viewsToBeDeleted removeObject:removedChild];
[container removeReactSubview:removedChild];
if (animation.callback && completionsCalled == children.count) {
animation.callback(@[@(finished)]);
// It's unsafe to call this callback more than once, so we nil it out here
// to make sure that doesn't happen.
animation.callback = nil;
}
};
[_viewsToBeDeleted addObject:removedChild];
// Disable user interaction while the view is animating since JS won't receive
// the view events anyway.
removedChild.userInteractionEnabled = NO;
NSString *property = deleteAnimation.property;
[deleteAnimation performAnimations:^{
if ([property isEqualToString:@"scaleXY"]) {
removedChild.layer.transform = CATransform3DMakeScale(0.001, 0.001, 0.001);
} else if ([property isEqualToString:@"opacity"]) {
removedChild.layer.opacity = 0.0;
} else {
RCTLogError(@"Unsupported layout animation createConfig property %@",
deleteAnimation.property);
}
} withCompletionBlock:completion];
}
}
RCT_EXPORT_METHOD(removeRootView:(nonnull NSNumber *)rootReactTag)
{
RCTShadowView *rootShadowView = _shadowViewRegistry[rootReactTag];
RCTAssert(rootShadowView.superview == nil, @"root view cannot have superview (ID %@)", rootReactTag);
[self _purgeChildren:(NSArray<id<RCTComponent>> *)rootShadowView.reactSubviews
fromRegistry:(NSMutableDictionary<NSNumber *, id<RCTComponent>> *)_shadowViewRegistry];
[_shadowViewRegistry removeObjectForKey:rootReactTag];
[_rootViewTags removeObject:rootReactTag];
[self addUIBlock:^(RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry){
RCTAssertMainQueue();
UIView *rootView = viewRegistry[rootReactTag];
[uiManager _purgeChildren:(NSArray<id<RCTComponent>> *)rootView.reactSubviews
fromRegistry:(NSMutableDictionary<NSNumber *, id<RCTComponent>> *)viewRegistry];
[(NSMutableDictionary *)viewRegistry removeObjectForKey:rootReactTag];
[[NSNotificationCenter defaultCenter] postNotificationName:RCTUIManagerDidRemoveRootViewNotification
object:uiManager
userInfo:@{RCTUIManagerRootViewKey: rootView}];
}];
}
RCT_EXPORT_METHOD(replaceExistingNonRootView:(nonnull NSNumber *)reactTag
withView:(nonnull NSNumber *)newReactTag)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
RCTAssert(shadowView != nil, @"shadowView (for ID %@) not found", reactTag);
RCTShadowView *superShadowView = shadowView.superview;
if (!superShadowView) {
RCTAssert(NO, @"shadowView super (of ID %@) not found", reactTag);
return;
}
NSUInteger indexOfView = [superShadowView.reactSubviews indexOfObject:shadowView];
RCTAssert(indexOfView != NSNotFound, @"View's superview doesn't claim it as subview (id %@)", reactTag);
NSArray<NSNumber *> *removeAtIndices = @[@(indexOfView)];
NSArray<NSNumber *> *addTags = @[newReactTag];
[self manageChildren:superShadowView.reactTag
moveFromIndices:nil
moveToIndices:nil
addChildReactTags:addTags
addAtIndices:removeAtIndices
removeAtIndices:removeAtIndices];
}
RCT_EXPORT_METHOD(setChildren:(nonnull NSNumber *)containerTag
reactTags:(NSArray<NSNumber *> *)reactTags)
{
RCTSetChildren(containerTag, reactTags,
(NSDictionary<NSNumber *, id<RCTComponent>> *)_shadowViewRegistry);
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry){
RCTSetChildren(containerTag, reactTags,
(NSDictionary<NSNumber *, id<RCTComponent>> *)viewRegistry);
}];
}
static void RCTSetChildren(NSNumber *containerTag,
NSArray<NSNumber *> *reactTags,
NSDictionary<NSNumber *, id<RCTComponent>> *registry)
{
id<RCTComponent> container = registry[containerTag];
NSInteger index = 0;
for (NSNumber *reactTag in reactTags) {
id<RCTComponent> view = registry[reactTag];
if (view) {
[container insertReactSubview:view atIndex:index++];
}
}
}
RCT_EXPORT_METHOD(manageChildren:(nonnull NSNumber *)containerTag
moveFromIndices:(NSArray<NSNumber *> *)moveFromIndices
moveToIndices:(NSArray<NSNumber *> *)moveToIndices
addChildReactTags:(NSArray<NSNumber *> *)addChildReactTags
addAtIndices:(NSArray<NSNumber *> *)addAtIndices
removeAtIndices:(NSArray<NSNumber *> *)removeAtIndices)
{
[self _manageChildren:containerTag
moveFromIndices:moveFromIndices
moveToIndices:moveToIndices
addChildReactTags:addChildReactTags
addAtIndices:addAtIndices
removeAtIndices:removeAtIndices
registry:(NSMutableDictionary<NSNumber *, id<RCTComponent>> *)_shadowViewRegistry];
[self addUIBlock:^(RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry){
[uiManager _manageChildren:containerTag
moveFromIndices:moveFromIndices
moveToIndices:moveToIndices
addChildReactTags:addChildReactTags
addAtIndices:addAtIndices
removeAtIndices:removeAtIndices
registry:(NSMutableDictionary<NSNumber *, id<RCTComponent>> *)viewRegistry];
}];
}
- (void)_manageChildren:(NSNumber *)containerTag
moveFromIndices:(NSArray<NSNumber *> *)moveFromIndices
moveToIndices:(NSArray<NSNumber *> *)moveToIndices
addChildReactTags:(NSArray<NSNumber *> *)addChildReactTags
addAtIndices:(NSArray<NSNumber *> *)addAtIndices
removeAtIndices:(NSArray<NSNumber *> *)removeAtIndices
registry:(NSMutableDictionary<NSNumber *, id<RCTComponent>> *)registry
{
id<RCTComponent> container = registry[containerTag];
RCTAssert(moveFromIndices.count == moveToIndices.count, @"moveFromIndices had size %tu, moveToIndices had size %tu", moveFromIndices.count, moveToIndices.count);
RCTAssert(addChildReactTags.count == addAtIndices.count, @"there should be at least one React child to add");
// Removes (both permanent and temporary moves) are using "before" indices
NSArray<id<RCTComponent>> *permanentlyRemovedChildren =
[self _childrenToRemoveFromContainer:container atIndices:removeAtIndices];
NSArray<id<RCTComponent>> *temporarilyRemovedChildren =
[self _childrenToRemoveFromContainer:container atIndices:moveFromIndices];
BOOL isUIViewRegistry = ((id)registry == (id)_viewRegistry);
if (isUIViewRegistry && _layoutAnimation.deleteAnimation) {
[self _removeChildren:(NSArray<UIView *> *)permanentlyRemovedChildren
fromContainer:(UIView *)container
withAnimation:_layoutAnimation];
} else {
[self _removeChildren:permanentlyRemovedChildren fromContainer:container];
}
[self _removeChildren:temporarilyRemovedChildren fromContainer:container];
[self _purgeChildren:permanentlyRemovedChildren fromRegistry:registry];
// Figure out what to insert - merge temporary inserts and adds
NSMutableDictionary *destinationsToChildrenToAdd = [NSMutableDictionary dictionary];
for (NSInteger index = 0, length = temporarilyRemovedChildren.count; index < length; index++) {
destinationsToChildrenToAdd[moveToIndices[index]] = temporarilyRemovedChildren[index];
}
for (NSInteger index = 0, length = addAtIndices.count; index < length; index++) {
id<RCTComponent> view = registry[addChildReactTags[index]];
if (view) {
destinationsToChildrenToAdd[addAtIndices[index]] = view;
}
}
NSArray<NSNumber *> *sortedIndices =
[destinationsToChildrenToAdd.allKeys sortedArrayUsingSelector:@selector(compare:)];
for (NSNumber *reactIndex in sortedIndices) {
NSInteger insertAtIndex = reactIndex.integerValue;
// When performing a delete animation, views are not removed immediately
// from their container so we need to offset the insertion index if a view
// that will be removed appears earlier than the view we are inserting.
if (isUIViewRegistry && _viewsToBeDeleted.count > 0) {
for (NSInteger index = 0; index < insertAtIndex; index++) {
UIView *subview = ((UIView *)container).reactSubviews[index];
if ([_viewsToBeDeleted containsObject:subview]) {
insertAtIndex++;
}
}
}
[container insertReactSubview:destinationsToChildrenToAdd[reactIndex]
atIndex:insertAtIndex];
}
}
RCT_EXPORT_METHOD(createView:(nonnull NSNumber *)reactTag
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viewName:(NSString *)viewName
rootTag:(__unused NSNumber *)rootTag
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props:(NSDictionary *)props)
{
RCTComponentData *componentData = _componentDataByName[viewName];
if (componentData == nil) {
RCTLogError(@"No component found for view with name \"%@\"", viewName);
}
// Register shadow view
RCTShadowView *shadowView = [componentData createShadowViewWithTag:reactTag];
if (shadowView) {
[componentData setProps:props forShadowView:shadowView];
_shadowViewRegistry[reactTag] = shadowView;
}
// Shadow view is the source of truth for background color this is a little
// bit counter-intuitive if people try to set background color when setting up
// the view, but it's the only way that makes sense given our threading model
UIColor *backgroundColor = shadowView.backgroundColor;
// Dispatch view creation directly to the main thread instead of adding to
// UIBlocks array. This way, it doesn't get deferred until after layout.
__weak RCTUIManager *weakManager = self;
dispatch_async(dispatch_get_main_queue(), ^{
RCTUIManager *uiManager = weakManager;
if (!uiManager) {
return;
}
UIView *view = [componentData createViewWithTag:reactTag];
if (view) {
[componentData setProps:props forView:view]; // Must be done before bgColor to prevent wrong default
if ([view respondsToSelector:@selector(setBackgroundColor:)]) {
((UIView *)view).backgroundColor = backgroundColor;
}
if ([view respondsToSelector:@selector(reactBridgeDidFinishTransaction)]) {
[uiManager->_bridgeTransactionListeners addObject:view];
}
uiManager->_viewRegistry[reactTag] = view;
#if RCT_DEV
[view _DEBUG_setReactShadowView:shadowView];
#endif
}
});
}
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RCT_EXPORT_METHOD(updateView:(nonnull NSNumber *)reactTag
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viewName:(NSString *)viewName // not always reliable, use shadowView.viewName if available
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props:(NSDictionary *)props)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
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RCTComponentData *componentData = _componentDataByName[shadowView.viewName ?: viewName];
[componentData setProps:props forShadowView:shadowView];
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
UIView *view = viewRegistry[reactTag];
[componentData setProps:props forView:view];
}];
}
- (void)synchronouslyUpdateViewOnUIThread:(NSNumber *)reactTag
viewName:(NSString *)viewName
props:(NSDictionary *)props
{
RCTAssertMainQueue();
RCTComponentData *componentData = _componentDataByName[viewName];
UIView *view = _viewRegistry[reactTag];
[componentData setProps:props forView:view];
}
RCT_EXPORT_METHOD(focus:(nonnull NSNumber *)reactTag)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
UIView *newResponder = viewRegistry[reactTag];
[newResponder reactFocus];
}];
}
RCT_EXPORT_METHOD(blur:(nonnull NSNumber *)reactTag)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry){
UIView *currentResponder = viewRegistry[reactTag];
[currentResponder reactBlur];
}];
}
RCT_EXPORT_METHOD(findSubviewIn:(nonnull NSNumber *)reactTag atPoint:(CGPoint)point callback:(RCTResponseSenderBlock)callback)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
UIView *view = viewRegistry[reactTag];
UIView *target = [view hitTest:point withEvent:nil];
CGRect frame = [target convertRect:target.bounds toView:view];
while (target.reactTag == nil && target.superview != nil) {
target = target.superview;
}
callback(@[
RCTNullIfNil(target.reactTag),
@(frame.origin.x),
@(frame.origin.y),
@(frame.size.width),
@(frame.size.height),
]);
}];
}
RCT_EXPORT_METHOD(dispatchViewManagerCommand:(nonnull NSNumber *)reactTag
commandID:(NSInteger)commandID
commandArgs:(NSArray<id> *)commandArgs)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
RCTComponentData *componentData = _componentDataByName[shadowView.viewName];
Class managerClass = componentData.managerClass;
RCTModuleData *moduleData = [_bridge moduleDataForName:RCTBridgeModuleNameForClass(managerClass)];
id<RCTBridgeMethod> method = moduleData.methods[commandID];
NSArray *args = [@[reactTag] arrayByAddingObjectsFromArray:commandArgs];
[method invokeWithBridge:_bridge module:componentData.manager arguments:args];
}
- (void)partialBatchDidFlush
{
if (self.unsafeFlushUIChangesBeforeBatchEnds) {
[self flushUIBlocks];
}
}
- (void)batchDidComplete
{
[self _layoutAndMount];
}
/**
* Sets up animations, computes layout, creates UI mounting blocks for computed layout,
* runs these blocks and all other already existing blocks.
*/
- (void)_layoutAndMount
{
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// Gather blocks to be executed now that all view hierarchy manipulations have
// been completed (note that these may still take place before layout has finished)
for (RCTComponentData *componentData in _componentDataByName.allValues) {
RCTViewManagerUIBlock uiBlock = [componentData uiBlockToAmendWithShadowViewRegistry:_shadowViewRegistry];
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[self addUIBlock:uiBlock];
}
// Perform layout
for (NSNumber *reactTag in _rootViewTags) {
RCTRootShadowView *rootView = (RCTRootShadowView *)_shadowViewRegistry[reactTag];
[self addUIBlock:[self uiBlockWithLayoutUpdateForRootView:rootView]];
[self _amendPendingUIBlocksWithStylePropagationUpdateForShadowView:rootView];
}
[self addUIBlock:^(RCTUIManager *uiManager, __unused NSDictionary<NSNumber *, UIView *> *viewRegistry) {
/**
* TODO(tadeu): Remove it once and for all
*/
for (id<RCTComponent> node in uiManager->_bridgeTransactionListeners) {
[node reactBridgeDidFinishTransaction];
}
}];
for (id<RCTUIManagerObserver> observer in _uiManagerObservers) {
[observer uiManagerWillFlushUIBlocks:self];
}
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[self flushUIBlocks];
}
- (void)flushUIBlocks
{
RCTAssertThread(RCTGetUIManagerQueue(),
@"flushUIBlocks can only be called from the shadow queue");
// First copy the previous blocks into a temporary variable, then reset the
// pending blocks to a new array. This guards against mutation while
// processing the pending blocks in another thread.
NSArray<RCTViewManagerUIBlock> *previousPendingUIBlocks = _pendingUIBlocks;
_pendingUIBlocks = [NSMutableArray new];
if (previousPendingUIBlocks.count) {
// Execute the previously queued UI blocks
RCTProfileBeginFlowEvent();
dispatch_async(dispatch_get_main_queue(), ^{
RCTProfileEndFlowEvent();
RCT_PROFILE_BEGIN_EVENT(RCTProfileTagAlways, @"-[UIManager flushUIBlocks]", (@{
@"count": @(previousPendingUIBlocks.count),
}));
@try {
for (RCTViewManagerUIBlock block in previousPendingUIBlocks) {
block(self, self->_viewRegistry);
}
}
@catch (NSException *exception) {
RCTLogError(@"Exception thrown while executing UI block: %@", exception);
}
});
}
}
- (void)setNeedsLayout
{
// If there is an active batch layout will happen when batch finished, so we will wait for that.
// Otherwise we immidiately trigger layout.
if (![_bridge isBatchActive] && ![_bridge isLoading]) {
[self _layoutAndMount];
}
}
RCT_EXPORT_METHOD(measure:(nonnull NSNumber *)reactTag
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callback:(RCTResponseSenderBlock)callback)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
UIView *view = viewRegistry[reactTag];
if (!view) {
// this view was probably collapsed out
RCTLogWarn(@"measure cannot find view with tag #%@", reactTag);
callback(@[]);
return;
}
// If in a <Modal>, rootView will be the root of the modal container.
UIView *rootView = view;
while (rootView.superview && ![rootView isReactRootView]) {
rootView = rootView.superview;
}
// By convention, all coordinates, whether they be touch coordinates, or
// measurement coordinates are with respect to the root view.
CGRect frame = view.frame;
CGRect globalBounds = [view convertRect:view.bounds toView:rootView];
callback(@[
@(frame.origin.x),
@(frame.origin.y),
@(globalBounds.size.width),
@(globalBounds.size.height),
@(globalBounds.origin.x),
@(globalBounds.origin.y),
]);
}];
}
RCT_EXPORT_METHOD(measureInWindow:(nonnull NSNumber *)reactTag
callback:(RCTResponseSenderBlock)callback)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
UIView *view = viewRegistry[reactTag];
if (!view) {
// this view was probably collapsed out
RCTLogWarn(@"measure cannot find view with tag #%@", reactTag);
callback(@[]);
return;
}
// Return frame coordinates in window
CGRect windowFrame = [view.window convertRect:view.frame fromView:view.superview];
callback(@[
@(windowFrame.origin.x),
@(windowFrame.origin.y),
@(windowFrame.size.width),
@(windowFrame.size.height),
]);
}];
}
/**
* Returs if the shadow view provided has the `ancestor` shadow view as
* an actual ancestor.
*/
RCT_EXPORT_METHOD(viewIsDescendantOf:(nonnull NSNumber *)reactTag
ancestor:(nonnull NSNumber *)ancestorReactTag
callback:(RCTResponseSenderBlock)callback)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
RCTShadowView *ancestorShadowView = _shadowViewRegistry[ancestorReactTag];
if (!shadowView) {
return;
}
if (!ancestorShadowView) {
return;
}
BOOL viewIsAncestor = [shadowView viewIsDescendantOf:ancestorShadowView];
callback(@[@(viewIsAncestor)]);
}
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static void RCTMeasureLayout(RCTShadowView *view,
RCTShadowView *ancestor,
RCTResponseSenderBlock callback)
{
if (!view) {
return;
}
if (!ancestor) {
return;
}
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CGRect result = [view measureLayoutRelativeToAncestor:ancestor];
if (CGRectIsNull(result)) {
RCTLogError(@"view %@ (tag #%@) is not a descendant of %@ (tag #%@)",
view, view.reactTag, ancestor, ancestor.reactTag);
return;
}
CGFloat leftOffset = result.origin.x;
CGFloat topOffset = result.origin.y;
CGFloat width = result.size.width;
CGFloat height = result.size.height;
if (isnan(leftOffset) || isnan(topOffset) || isnan(width) || isnan(height)) {
RCTLogError(@"Attempted to measure layout but offset or dimensions were NaN");
return;
}
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callback(@[@(leftOffset), @(topOffset), @(width), @(height)]);
}
/**
* Returns the computed recursive offset layout in a dictionary form. The
* returned values are relative to the `ancestor` shadow view. Returns `nil`, if
* the `ancestor` shadow view is not actually an `ancestor`. Does not touch
* anything on the main UI thread. Invokes supplied callback with (x, y, width,
* height).
*/
RCT_EXPORT_METHOD(measureLayout:(nonnull NSNumber *)reactTag
relativeTo:(nonnull NSNumber *)ancestorReactTag
errorCallback:(__unused RCTResponseSenderBlock)errorCallback
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callback:(RCTResponseSenderBlock)callback)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
RCTShadowView *ancestorShadowView = _shadowViewRegistry[ancestorReactTag];
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RCTMeasureLayout(shadowView, ancestorShadowView, callback);
}
/**
* Returns the computed recursive offset layout in a dictionary form. The
* returned values are relative to the `ancestor` shadow view. Returns `nil`, if
* the `ancestor` shadow view is not actually an `ancestor`. Does not touch
* anything on the main UI thread. Invokes supplied callback with (x, y, width,
* height).
*/
RCT_EXPORT_METHOD(measureLayoutRelativeToParent:(nonnull NSNumber *)reactTag
errorCallback:(__unused RCTResponseSenderBlock)errorCallback
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callback:(RCTResponseSenderBlock)callback)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
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RCTMeasureLayout(shadowView, shadowView.reactSuperview, callback);
}
/**
* Returns an array of computed offset layouts in a dictionary form. The layouts are of any React subviews
* that are immediate descendants to the parent view found within a specified rect. The dictionary result
* contains left, top, width, height and an index. The index specifies the position among the other subviews.
* Only layouts for views that are within the rect passed in are returned. Invokes the error callback if the
* passed in parent view does not exist. Invokes the supplied callback with the array of computed layouts.
*/
RCT_EXPORT_METHOD(measureViewsInRect:(CGRect)rect
parentView:(nonnull NSNumber *)reactTag
errorCallback:(__unused RCTResponseSenderBlock)errorCallback
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callback:(RCTResponseSenderBlock)callback)
{
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
if (!shadowView) {
RCTLogError(@"Attempting to measure view that does not exist (tag #%@)", reactTag);
return;
}
NSArray<RCTShadowView *> *childShadowViews = [shadowView reactSubviews];
NSMutableArray<NSDictionary *> *results =
[[NSMutableArray alloc] initWithCapacity:childShadowViews.count];
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[childShadowViews enumerateObjectsUsingBlock:
^(RCTShadowView *childShadowView, NSUInteger idx, __unused BOOL *stop) {
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CGRect childLayout = [childShadowView measureLayoutRelativeToAncestor:shadowView];
if (CGRectIsNull(childLayout)) {
RCTLogError(@"View %@ (tag #%@) is not a descendant of %@ (tag #%@)",
childShadowView, childShadowView.reactTag, shadowView, shadowView.reactTag);
return;
}
CGFloat leftOffset = childLayout.origin.x;
CGFloat topOffset = childLayout.origin.y;
CGFloat width = childLayout.size.width;
CGFloat height = childLayout.size.height;
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if (leftOffset <= rect.origin.x + rect.size.width &&
leftOffset + width >= rect.origin.x &&
topOffset <= rect.origin.y + rect.size.height &&
topOffset + height >= rect.origin.y) {
// This view is within the layout rect
NSDictionary *result = @{@"index": @(idx),
@"left": @(leftOffset),
@"top": @(topOffset),
@"width": @(width),
@"height": @(height)};
[results addObject:result];
}
}];
callback(@[results]);
}
RCT_EXPORT_METHOD(takeSnapshot:(id /* NSString or NSNumber */)target
withOptions:(NSDictionary *)options
resolve:(RCTPromiseResolveBlock)resolve
reject:(RCTPromiseRejectBlock)reject)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
// Get view
UIView *view;
if (target == nil || [target isEqual:@"window"]) {
view = RCTKeyWindow();
} else if ([target isKindOfClass:[NSNumber class]]) {
view = viewRegistry[target];
if (!view) {
RCTLogError(@"No view found with reactTag: %@", target);
return;
}
}
// Get options
CGSize size = [RCTConvert CGSize:options];
NSString *format = [RCTConvert NSString:options[@"format"] ?: @"png"];
// Capture image
if (size.width < 0.1 || size.height < 0.1) {
size = view.bounds.size;
}
UIGraphicsBeginImageContextWithOptions(size, NO, 0);
BOOL success = [view drawViewHierarchyInRect:(CGRect){CGPointZero, size} afterScreenUpdates:YES];
UIImage *image = UIGraphicsGetImageFromCurrentImageContext();
UIGraphicsEndImageContext();
if (!success || !image) {
reject(RCTErrorUnspecified, @"Failed to capture view snapshot.", nil);
return;
}
// Convert image to data (on a background thread)
dispatch_async(dispatch_get_global_queue(DISPATCH_QUEUE_PRIORITY_DEFAULT, 0), ^{
NSData *data;
if ([format isEqualToString:@"png"]) {
data = UIImagePNGRepresentation(image);
} else if ([format isEqualToString:@"jpeg"]) {
CGFloat quality = [RCTConvert CGFloat:options[@"quality"] ?: @1];
data = UIImageJPEGRepresentation(image, quality);
} else {
RCTLogError(@"Unsupported image format: %@", format);
return;
}
// Save to a temp file
NSError *error = nil;
NSString *tempFilePath = RCTTempFilePath(format, &error);
if (tempFilePath) {
if ([data writeToFile:tempFilePath options:(NSDataWritingOptions)0 error:&error]) {
resolve(tempFilePath);
return;
}
}
// If we reached here, something went wrong
reject(RCTErrorUnspecified, error.localizedDescription, error);
});
}];
}
/**
* JS sets what *it* considers to be the responder. Later, scroll views can use
* this in order to determine if scrolling is appropriate.
*/
RCT_EXPORT_METHOD(setJSResponder:(nonnull NSNumber *)reactTag
blockNativeResponder:(__unused BOOL)blockNativeResponder)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, NSDictionary<NSNumber *, UIView *> *viewRegistry) {
_jsResponder = viewRegistry[reactTag];
if (!_jsResponder) {
RCTLogError(@"Invalid view set to be the JS responder - tag %zd", reactTag);
}
}];
}
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RCT_EXPORT_METHOD(clearJSResponder)
{
[self addUIBlock:^(__unused RCTUIManager *uiManager, __unused NSDictionary<NSNumber *, UIView *> *viewRegistry) {
_jsResponder = nil;
}];
}
- (NSDictionary<NSString *, id> *)constantsToExport
{
NSMutableDictionary<NSString *, NSDictionary *> *constants = [NSMutableDictionary new];
NSMutableDictionary<NSString *, NSDictionary *> *directEvents = [NSMutableDictionary new];
NSMutableDictionary<NSString *, NSDictionary *> *bubblingEvents = [NSMutableDictionary new];
[_componentDataByName enumerateKeysAndObjectsUsingBlock:^(NSString *name, RCTComponentData *componentData, __unused BOOL *stop) {
NSMutableDictionary<NSString *, id> *moduleConstants = [NSMutableDictionary new];
// Add manager class
moduleConstants[@"Manager"] = RCTBridgeModuleNameForClass(componentData.managerClass);
// Add native props
NSDictionary<NSString *, id> *viewConfig = [componentData viewConfig];
moduleConstants[@"NativeProps"] = viewConfig[@"propTypes"];
// Add direct events
for (NSString *eventName in viewConfig[@"directEvents"]) {
if (!directEvents[eventName]) {
directEvents[eventName] = @{
@"registrationName": [eventName stringByReplacingCharactersInRange:(NSRange){0, 3} withString:@"on"],
};
}
if (RCT_DEBUG && bubblingEvents[eventName]) {
RCTLogError(@"Component '%@' re-registered bubbling event '%@' as a "
"direct event", componentData.name, eventName);
}
}
// Add bubbling events
for (NSString *eventName in viewConfig[@"bubblingEvents"]) {
if (!bubblingEvents[eventName]) {
NSString *bubbleName = [eventName stringByReplacingCharactersInRange:(NSRange){0, 3} withString:@"on"];
bubblingEvents[eventName] = @{
@"phasedRegistrationNames": @{
@"bubbled": bubbleName,
@"captured": [bubbleName stringByAppendingString:@"Capture"],
}
};
}
if (RCT_DEBUG && directEvents[eventName]) {
RCTLogError(@"Component '%@' re-registered direct event '%@' as a "
"bubbling event", componentData.name, eventName);
}
}
RCTAssert(!constants[name], @"UIManager already has constants for %@", componentData.name);
constants[name] = moduleConstants;
}];
constants[@"customBubblingEventTypes"] = bubblingEvents;
constants[@"customDirectEventTypes"] = directEvents;
return constants;
}
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RCT_EXPORT_METHOD(configureNextLayoutAnimation:(NSDictionary *)config
withCallback:(RCTResponseSenderBlock)callback
errorCallback:(__unused RCTResponseSenderBlock)errorCallback)
{
RCTLayoutAnimation *currentAnimation = _layoutAnimation;
if (currentAnimation && ![config isEqualToDictionary:currentAnimation.config]) {
RCTLogWarn(@"Warning: Overriding previous layout animation with new one before the first began:\n%@ -> %@.", currentAnimation.config, config);
}
RCTLayoutAnimation *nextLayoutAnimation = [[RCTLayoutAnimation alloc] initWithDictionary:config
callback:callback];
// Set up next layout animation
[self addUIBlock:^(RCTUIManager *uiManager, __unused NSDictionary<NSNumber *, UIView *> *viewRegistry) {
uiManager->_layoutAnimation = nextLayoutAnimation;
}];
}
- (void)rootViewForReactTag:(NSNumber *)reactTag withCompletion:(void (^)(UIView *view))completion
{
RCTAssertMainQueue();
RCTAssert(completion != nil, @"Attempted to resolve rootView for tag %@ without a completion block", reactTag);
if (reactTag == nil) {
completion(nil);
return;
}
dispatch_async(RCTGetUIManagerQueue(), ^{
NSNumber *rootTag = [self _rootTagForReactTag:reactTag];
dispatch_async(dispatch_get_main_queue(), ^{
UIView *rootView = nil;
if (rootTag != nil) {
rootView = [self viewForReactTag:rootTag];
}
completion(rootView);
});
});
}
- (NSNumber *)_rootTagForReactTag:(NSNumber *)reactTag
{
RCTAssert(!RCTIsMainQueue(), @"Should be called on shadow queue");
if (reactTag == nil) {
return nil;
}
if (RCTIsReactRootView(reactTag)) {
return reactTag;
}
NSNumber *rootTag = nil;
RCTShadowView *shadowView = _shadowViewRegistry[reactTag];
while (shadowView) {
RCTShadowView *parent = [shadowView reactSuperview];
if (!parent && RCTIsReactRootView(shadowView.reactTag)) {
rootTag = shadowView.reactTag;
break;
}
shadowView = parent;
}
return rootTag;
}
static UIView *_jsResponder;
+ (UIView *)JSResponder
{
return _jsResponder;
}
@end
@implementation RCTUIManager (Deprecated)
- (void)registerRootView:(UIView *)rootView withSizeFlexibility:(__unused RCTRootViewSizeFlexibility)sizeFlexibility
{
RCTLogWarn(@"Calling of `[-RCTUIManager registerRootView:withSizeFlexibility:]` which is deprecated.");
[self registerRootView:rootView];
}
- (void)setFrame:(CGRect)frame forView:(UIView *)view
{
RCTLogWarn(@"Calling of `[-RCTUIManager setFrame:forView:]` which is deprecated.");
[self setSize:frame.size forView:view];
}
RCT_EXPORT_METHOD(getContentSizeMultiplier:(nonnull RCTResponseSenderBlock)callback)
{
RCTLogWarn(@"`getContentSizeMultiplier` is deprecated. Instead, use `PixelRatio.getFontScale()` and listen to the `didUpdateDimensions` event.");
callback(@[@(_bridge.accessibilityManager.multiplier)]);
}
@end
@implementation RCTBridge (RCTUIManager)
- (RCTUIManager *)uiManager
{
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
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return [self moduleForClass:[RCTUIManager class]];
}
@end