react-native/Libraries/NativeAnimation/RCTNativeAnimatedModule.m

283 lines
9.0 KiB
Objective-C

/**
* 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 "RCTNativeAnimatedModule.h"
#import "RCTAdditionAnimatedNode.h"
#import "RCTAnimationDriverNode.h"
#import "RCTAnimationUtils.h"
#import "RCTBridge.h"
#import "RCTConvert.h"
#import "RCTInterpolationAnimatedNode.h"
#import "RCTLog.h"
#import "RCTModuloAnimatedNode.h"
#import "RCTMultiplicationAnimatedNode.h"
#import "RCTPropsAnimatedNode.h"
#import "RCTStyleAnimatedNode.h"
#import "RCTTransformAnimatedNode.h"
#import "RCTValueAnimatedNode.h"
@implementation RCTNativeAnimatedModule
{
NSMutableDictionary<NSNumber *, RCTAnimatedNode *> *_animationNodes;
NSMutableDictionary<NSNumber *, RCTAnimationDriverNode *> *_animationDrivers;
NSMutableSet<RCTAnimationDriverNode *> *_activeAnimations;
NSMutableSet<RCTAnimationDriverNode *> *_finishedAnimations;
NSMutableSet<RCTValueAnimatedNode *> *_updatedValueNodes;
NSMutableSet<RCTPropsAnimatedNode *> *_propAnimationNodes;
CADisplayLink *_displayLink;
}
RCT_EXPORT_MODULE()
- (void)setBridge:(RCTBridge *)bridge
{
[super setBridge:bridge];
_animationNodes = [NSMutableDictionary new];
_animationDrivers = [NSMutableDictionary new];
_activeAnimations = [NSMutableSet new];
_finishedAnimations = [NSMutableSet new];
_updatedValueNodes = [NSMutableSet new];
_propAnimationNodes = [NSMutableSet new];
}
- (dispatch_queue_t)methodQueue
{
return dispatch_get_main_queue();
}
- (NSArray<NSString *> *)supportedEvents
{
return @[@"onAnimatedValueUpdate"];
}
RCT_EXPORT_METHOD(createAnimatedNode:(nonnull NSNumber *)tag
config:(NSDictionary<NSString *, id> *)config)
{
static NSDictionary *map;
static dispatch_once_t mapToken;
dispatch_once(&mapToken, ^{
map = @{@"style" : [RCTStyleAnimatedNode class],
@"value" : [RCTValueAnimatedNode class],
@"props" : [RCTPropsAnimatedNode class],
@"interpolation" : [RCTInterpolationAnimatedNode class],
@"addition" : [RCTAdditionAnimatedNode class],
@"multiplication" : [RCTMultiplicationAnimatedNode class],
@"modulus" : [RCTModuloAnimatedNode class],
@"transform" : [RCTTransformAnimatedNode class]};
});
NSString *nodeType = [RCTConvert NSString:config[@"type"]];
Class nodeClass = map[nodeType];
if (!nodeClass) {
RCTLogError(@"Animated node type %@ not supported natively", nodeType);
return;
}
RCTAnimatedNode *node = [[nodeClass alloc] initWithTag:tag config:config];
_animationNodes[tag] = node;
if ([node isKindOfClass:[RCTPropsAnimatedNode class]]) {
[_propAnimationNodes addObject:(RCTPropsAnimatedNode *)node];
}
}
RCT_EXPORT_METHOD(connectAnimatedNodes:(nonnull NSNumber *)parentTag
childTag:(nonnull NSNumber *)childTag)
{
RCTAssertParam(parentTag);
RCTAssertParam(childTag);
RCTAnimatedNode *parentNode = _animationNodes[parentTag];
RCTAnimatedNode *childNode = _animationNodes[childTag];
RCTAssertParam(parentNode);
RCTAssertParam(childNode);
[parentNode addChild:childNode];
}
RCT_EXPORT_METHOD(disconnectAnimatedNodes:(nonnull NSNumber *)parentTag
childTag:(nonnull NSNumber *)childTag)
{
RCTAssertParam(parentTag);
RCTAssertParam(childTag);
RCTAnimatedNode *parentNode = _animationNodes[parentTag];
RCTAnimatedNode *childNode = _animationNodes[childTag];
RCTAssertParam(parentNode);
RCTAssertParam(childNode);
[parentNode removeChild:childNode];
}
RCT_EXPORT_METHOD(startAnimatingNode:(nonnull NSNumber *)animationId
nodeTag:(nonnull NSNumber *)nodeTag
config:(NSDictionary<NSString *, id> *)config
endCallback:(RCTResponseSenderBlock)callBack)
{
if (RCT_DEBUG && ![config[@"type"] isEqual:@"frames"]) {
RCTLogError(@"Unsupported animation type: %@", config[@"type"]);
return;
}
NSTimeInterval delay = [RCTConvert double:config[@"delay"]];
NSNumber *toValue = [RCTConvert NSNumber:config[@"toValue"]] ?: @1;
NSArray<NSNumber *> *frames = [RCTConvert NSNumberArray:config[@"frames"]];
RCTValueAnimatedNode *valueNode = (RCTValueAnimatedNode *)_animationNodes[nodeTag];
RCTAnimationDriverNode *animationDriver =
[[RCTAnimationDriverNode alloc] initWithId:animationId
delay:delay
toValue:toValue.doubleValue
frames:frames
forNode:valueNode
callBack:callBack];
[_activeAnimations addObject:animationDriver];
_animationDrivers[animationId] = animationDriver;
[animationDriver startAnimation];
[self startAnimation];
}
RCT_EXPORT_METHOD(stopAnimation:(nonnull NSNumber *)animationId)
{
RCTAnimationDriverNode *driver = _animationDrivers[animationId];
if (driver) {
[driver removeAnimation];
[_animationDrivers removeObjectForKey:animationId];
[_activeAnimations removeObject:driver];
[_finishedAnimations removeObject:driver];
}
}
RCT_EXPORT_METHOD(setAnimatedNodeValue:(nonnull NSNumber *)nodeTag
value:(nonnull NSNumber *)value)
{
RCTAnimatedNode *node = _animationNodes[nodeTag];
if (![node isKindOfClass:[RCTValueAnimatedNode class]]) {
RCTLogError(@"Not a value node.");
return;
}
RCTValueAnimatedNode *valueNode = (RCTValueAnimatedNode *)node;
valueNode.value = value.floatValue;
[valueNode setNeedsUpdate];
}
RCT_EXPORT_METHOD(connectAnimatedNodeToView:(nonnull NSNumber *)nodeTag
viewTag:(nonnull NSNumber *)viewTag)
{
RCTAnimatedNode *node = _animationNodes[nodeTag];
if (viewTag && [node isKindOfClass:[RCTPropsAnimatedNode class]]) {
[(RCTPropsAnimatedNode *)node connectToView:viewTag animatedModule:self];
}
}
RCT_EXPORT_METHOD(disconnectAnimatedNodeFromView:(nonnull NSNumber *)nodeTag
viewTag:(nonnull NSNumber *)viewTag)
{
RCTAnimatedNode *node = _animationNodes[nodeTag];
if (viewTag && node && [node isKindOfClass:[RCTPropsAnimatedNode class]]) {
[(RCTPropsAnimatedNode *)node disconnectFromView:viewTag];
}
}
RCT_EXPORT_METHOD(dropAnimatedNode:(nonnull NSNumber *)tag)
{
RCTAnimatedNode *node = _animationNodes[tag];
if (node) {
[node detachNode];
[_animationNodes removeObjectForKey:tag];
if ([node isKindOfClass:[RCTValueAnimatedNode class]]) {
[_updatedValueNodes removeObject:(RCTValueAnimatedNode *)node];
} else if ([node isKindOfClass:[RCTPropsAnimatedNode class]]) {
[_propAnimationNodes removeObject:(RCTPropsAnimatedNode *)node];
}
}
}
RCT_EXPORT_METHOD(startListeningToAnimatedNodeValue:(nonnull NSNumber *)tag)
{
RCTAnimatedNode *node = _animationNodes[tag];
if (node && [node isKindOfClass:[RCTValueAnimatedNode class]]) {
((RCTValueAnimatedNode *)node).valueObserver = self;
}
}
RCT_EXPORT_METHOD(stopListeningToAnimatedNodeValue:(nonnull NSNumber *)tag)
{
RCTAnimatedNode *node = _animationNodes[tag];
if (node && [node isKindOfClass:[RCTValueAnimatedNode class]]) {
((RCTValueAnimatedNode *)node).valueObserver = nil;
}
}
- (void)animatedNode:(RCTValueAnimatedNode *)node didUpdateValue:(CGFloat)value
{
[self sendEventWithName:@"onAnimatedValueUpdate"
body:@{@"tag": node.nodeTag, @"value": @(value)}];
}
#pragma mark -- Animation Loop
- (void)startAnimation
{
if (!_displayLink && _activeAnimations.count > 0) {
_displayLink = [CADisplayLink displayLinkWithTarget:self selector:@selector(updateAnimations)];
[_displayLink addToRunLoop:[NSRunLoop mainRunLoop] forMode:NSRunLoopCommonModes];
}
}
- (void)updateAnimations
{
// Step Current active animations
// This also recursively marks children nodes as needing update
for (RCTAnimationDriverNode *animationDriver in _activeAnimations) {
[animationDriver stepAnimation];
}
// Perform node updates for marked nodes.
// At this point all nodes that are in need of an update are properly marked as such.
for (RCTPropsAnimatedNode *propsNode in _propAnimationNodes) {
[propsNode updateNodeIfNecessary];
}
// Cleanup nodes and prepare for next cycle. Remove updated nodes from bucket.
for (RCTAnimationDriverNode *driverNode in _activeAnimations) {
[driverNode cleanupAnimationUpdate];
}
for (RCTValueAnimatedNode *valueNode in _updatedValueNodes) {
[valueNode cleanupAnimationUpdate];
}
[_updatedValueNodes removeAllObjects];
for (RCTAnimationDriverNode *driverNode in _activeAnimations) {
if (driverNode.animationHasFinished) {
[driverNode removeAnimation];
[_finishedAnimations addObject:driverNode];
}
}
for (RCTAnimationDriverNode *driverNode in _finishedAnimations) {
[_activeAnimations removeObject:driverNode];
[_animationDrivers removeObjectForKey:driverNode.animationId];
}
[_finishedAnimations removeAllObjects];
if (_activeAnimations.count == 0) {
[_displayLink invalidate];
_displayLink = nil;
}
}
@end