/* * Copyright [2019] [Doric.Pub] * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ // // DoricViewNode.m // Doric // // Created by pengfei.zhou on 2019/7/30. // #import "DoricViewNode.h" #import "DoricUtil.h" #import "DoricGroupNode.h" #import "DoricRootNode.h" #import "DoricConstant.h" #import "DoricSuperNode.h" #import "DoricExtensions.h" #import "DoricPromise.h" #import "DoricFlexNode.h" void DoricAddEllipticArcPath(CGMutablePathRef path, CGPoint origin, CGFloat radius, CGFloat startAngle, CGFloat endAngle) { CGAffineTransform t = CGAffineTransformMakeTranslation(origin.x, origin.y); CGPathAddArc(path, &t, 0, 0, radius, startAngle, endAngle, NO); } CGPathRef DoricCreateRoundedRectPath(CGRect bounds, CGFloat leftTop, CGFloat rightTop, CGFloat rightBottom, CGFloat leftBottom) { const CGFloat minX = CGRectGetMinX(bounds); const CGFloat minY = CGRectGetMinY(bounds); const CGFloat maxX = CGRectGetMaxX(bounds); const CGFloat maxY = CGRectGetMaxY(bounds); CGMutablePathRef path = CGPathCreateMutable(); DoricAddEllipticArcPath(path, (CGPoint) { minX + leftTop, minY + leftTop }, leftTop, M_PI, 3 * M_PI_2); DoricAddEllipticArcPath(path, (CGPoint) { maxX - rightTop, minY + rightTop }, rightTop, 3 * M_PI_2, 0); DoricAddEllipticArcPath(path, (CGPoint) { maxX - rightBottom, maxY - rightBottom }, rightBottom, 0, M_PI_2); DoricAddEllipticArcPath(path, (CGPoint) { minX + leftBottom, maxY - leftBottom }, leftBottom, M_PI_2, M_PI); CGPathCloseSubpath(path); return path; } @interface AnimationCallback : NSObject @property(nonatomic, strong) NSMutableDictionary *dictionary; @property(nonatomic, strong) void (^startBlock)(AnimationCallback *callback); @property(nonatomic, strong) void (^endBlock)(AnimationCallback *callback); @end @implementation AnimationCallback - (instancetype)init { if (self = [super init]) { _dictionary = [NSMutableDictionary new]; } return self; } - (void)animationDidStart:(CAAnimation *)anim { if (self.startBlock) { self.startBlock(self); } } - (void)animationDidStop:(CAAnimation *)anim finished:(BOOL)flag { if (self.endBlock) { self.endBlock(self); } } @end @interface DoricViewNode () @property(nonatomic, strong) NSMutableDictionary *callbackIds; @property(nonatomic, copy) NSNumber *translationX; @property(nonatomic, copy) NSNumber *translationY; @property(nonatomic, copy) NSNumber *scaleX; @property(nonatomic, copy) NSNumber *scaleY; @property(nonatomic, copy) NSNumber *rotation; @property(nonatomic, copy) NSNumber *pivotX; @property(nonatomic, copy) NSNumber *pivotY; @property(nonatomic, strong) NSDictionary *gradientProps; @property(nonatomic, assign) CGSize gradientSize; @end @implementation DoricViewNode - (instancetype)initWithContext:(DoricContext *)doricContext { if (self = [super initWithContext:doricContext]) { _callbackIds = [[NSMutableDictionary alloc] init]; } return self; } - (void)initWithSuperNode:(DoricSuperNode *)superNode { if ([self isKindOfClass:[DoricSuperNode class]]) { ((DoricSuperNode *) self).reusable = superNode.reusable; } self.superNode = superNode; self.view = [self build]; } - (UIView *)build { return [[UIView alloc] init]; } - (void)blend:(NSDictionary *)props { for (NSString *key in props) { id value = props[key]; if (!value || [value isKindOfClass:[NSNull class]]) { continue; } [self blendView:self.view forPropName:key propValue:value]; } [self afterBlended:props]; [self transformProperties]; } - (void)afterBlended:(NSDictionary *)props { } - (void)transformProperties { CGAffineTransform transform = CGAffineTransformIdentity; if (self.translationX || self.translationY) { transform = CGAffineTransformTranslate(transform, [self.translationX floatValue] ?: 0, [self.translationY floatValue] ?: 0); } if (self.scaleX || self.scaleY) { transform = CGAffineTransformScale(transform, [self.scaleX floatValue] ?: 1, [self.scaleY floatValue] ?: 1); } if (self.rotation) { transform = CGAffineTransformRotate(transform, (self.rotation.floatValue ?: 0) * M_PI); } self.view.layer.anchorPoint = CGPointMake(self.pivotX.floatValue ?: 0.5f, self.pivotY.floatValue ?: 0.5f); if (!CGAffineTransformEqualToTransform(transform, self.view.transform)) { self.view.transform = transform; } } - (void)blendView:(UIView *)view forPropName:(NSString *)name propValue:(id)prop { if ([name isEqualToString:@"width"]) { view.doricLayout.width = [prop floatValue]; } else if ([name isEqualToString:@"height"]) { view.doricLayout.height = [prop floatValue]; } else if ([name isEqualToString:@"x"]) { view.doricLayout.marginLeft = [prop floatValue]; } else if ([name isEqualToString:@"y"]) { view.doricLayout.marginTop = [prop floatValue]; } else if ([name isEqualToString:@"backgroundColor"]) { if ([prop isKindOfClass:[NSNumber class]]) { view.backgroundColor = DoricColor(prop); self.gradientProps = nil; self.gradientSize = CGSizeZero; } else if ([prop isKindOfClass:[NSDictionary class]]) { self.gradientProps = prop; } } else if ([name isEqualToString:@"alpha"]) { view.alpha = [prop floatValue]; } else if ([name isEqualToString:@"layoutConfig"]) { if (self.superNode && [prop isKindOfClass:[NSDictionary class]]) { [self.superNode blendSubNode:self layoutConfig:prop]; } else { [self blendLayoutConfig:prop]; } } else if ([name isEqualToString:@"onClick"]) { self.callbackIds[@"onClick"] = prop; view.userInteractionEnabled = YES; UITapGestureRecognizer *tapGestureRecognizer = [[UITapGestureRecognizer alloc] initWithTarget:self action:@selector(onClick:)]; [view addGestureRecognizer:tapGestureRecognizer]; } else if ([name isEqualToString:@"border"]) { NSDictionary *dic = prop; CGFloat width = [(NSNumber *) dic[@"width"] floatValue]; UIColor *color = DoricColor((NSNumber *) dic[@"color"]); view.layer.borderWidth = width; view.layer.borderColor = color.CGColor; } else if ([name isEqualToString:@"corners"]) { self.view.clipsToBounds = YES; if ([prop isKindOfClass:NSNumber.class]) { view.layer.cornerRadius = [(NSNumber *) prop floatValue]; } else if ([prop isKindOfClass:NSDictionary.class]) { NSDictionary *dic = prop; CGFloat leftTop = [(NSNumber *) dic[@"leftTop"] floatValue]; CGFloat rightTop = [(NSNumber *) dic[@"rightTop"] floatValue]; CGFloat rightBottom = [(NSNumber *) dic[@"rightBottom"] floatValue]; CGFloat leftBottom = [(NSNumber *) dic[@"leftBottom"] floatValue]; if (ABS(leftTop - rightTop) > CGFLOAT_MIN || ABS(leftTop - rightBottom) > CGFLOAT_MIN || ABS(leftTop - leftBottom) > CGFLOAT_MIN) { view.layer.cornerRadius = 0; dispatch_async(dispatch_get_main_queue(), ^{ CAShapeLayer *shapeLayer = [CAShapeLayer layer]; CGPathRef path = DoricCreateRoundedRectPath(self.view.bounds, leftTop, rightTop, rightBottom, leftBottom); shapeLayer.path = path; CGPathRelease(path); view.layer.mask = shapeLayer; }); } else { view.layer.cornerRadius = leftTop; view.layer.mask = nil; } } } else if ([name isEqualToString:@"shadow"]) { NSDictionary *dic = prop; CGFloat opacity = [(NSNumber *) dic[@"opacity"] floatValue]; if (opacity > CGFLOAT_MIN) { view.clipsToBounds = NO; UIColor *color = DoricColor((NSNumber *) dic[@"color"]); view.layer.shadowColor = color.CGColor; view.layer.shadowRadius = [(NSNumber *) dic[@"radius"] floatValue]; view.layer.shadowOffset = CGSizeMake([(NSNumber *) dic[@"offsetX"] floatValue], [(NSNumber *) dic[@"offsetY"] floatValue]); view.layer.shadowOpacity = (float) opacity; } else { view.clipsToBounds = YES; } } else if ([name isEqualToString:@"translationX"]) { self.translationX = prop; } else if ([name isEqualToString:@"translationY"]) { self.translationY = prop; } else if ([name isEqualToString:@"scaleX"]) { self.scaleX = prop; } else if ([name isEqualToString:@"scaleY"]) { self.scaleY = prop; } else if ([name isEqualToString:@"pivotX"]) { self.pivotX = prop; } else if ([name isEqualToString:@"pivotY"]) { self.pivotY = prop; } else if ([name isEqualToString:@"rotation"]) { self.rotation = prop; } else if ([name isEqualToString:@"padding"]) { view.doricLayout.paddingLeft = 0; view.doricLayout.paddingRight = 0; view.doricLayout.paddingTop = 0; view.doricLayout.paddingBottom = 0; if ([prop isKindOfClass:[NSDictionary class]]) { NSDictionary *dictionary = prop; view.doricLayout.paddingLeft = [dictionary[@"left"] floatValue]; view.doricLayout.paddingRight = [dictionary[@"right"] floatValue]; view.doricLayout.paddingTop = [dictionary[@"top"] floatValue]; view.doricLayout.paddingBottom = [dictionary[@"bottom"] floatValue]; } } else if ([name isEqualToString:@"hidden"]) { self.view.hidden = [prop boolValue]; self.view.doricLayout.disabled = [prop boolValue]; } else if ([name isEqualToString:@"flexConfig"]) { if ([prop isKindOfClass:[NSDictionary class]]) { if ([self.superNode isKindOfClass:[DoricFlexNode class]]) { [((DoricFlexNode *) self.superNode) blendSubNode:self flexConfig:prop]; } } } else { DoricLog(@"Blend View error for View Type :%@, prop is %@", self.class, name); } } - (void)onClick:(UIView *)view { [self callJSResponse:self.callbackIds[@"onClick"], nil]; } - (NSArray *)idList { NSMutableArray *ret = [[NSMutableArray alloc] init]; DoricViewNode *node = self; do { [ret addObject:node.viewId]; node = node.superNode; } while (node); return [[ret reverseObjectEnumerator] allObjects]; } - (DoricAsyncResult *)callJSResponse:(NSString *)funcId, ... { NSMutableArray *array = [[NSMutableArray alloc] init]; [array addObject:self.idList]; [array addObject:funcId]; va_list args; va_start(args, funcId); id arg; while ((arg = va_arg(args, id)) != nil) { [array addObject:arg]; } DoricAsyncResult *ret = [self.doricContext callEntity:DORIC_ENTITY_RESPONSE withArgumentsArray:array]; va_end(args); return ret; } + (__kindof DoricViewNode *)create:(DoricContext *)context withType:(NSString *)type { DoricRegistry *registry = context.driver.registry; Class clz = [registry acquireViewNode:type]; DoricViewNode *viewNode = [(DoricViewNode *) [clz alloc] initWithContext:context]; viewNode.type = type; return viewNode; } - (UIImage *)gradientImageFromColors:(NSArray *)colors startPoint:(CGPoint)startPoint endPoint:(CGPoint)endPoint imgSize:(CGSize)imgSize { UIGraphicsBeginImageContextWithOptions(imgSize, NO, [UIScreen mainScreen].scale); CGContextRef context = UIGraphicsGetCurrentContext(); CGContextSaveGState(context); CGColorSpaceRef colorSpace = CGColorGetColorSpace((__bridge CGColorRef) colors.lastObject); CGGradientRef gradient = CGGradientCreateWithColors(colorSpace, (__bridge CFArrayRef) colors, NULL); CGPoint start = (CGPoint) {startPoint.x * imgSize.width, startPoint.y * imgSize.height}; CGPoint end = (CGPoint) {endPoint.x * imgSize.width, endPoint.y * imgSize.height}; CGContextDrawLinearGradient(context, gradient, start, end, kCGGradientDrawsBeforeStartLocation | kCGGradientDrawsAfterEndLocation); UIImage *image = UIGraphicsGetImageFromCurrentImageContext(); CGGradientRelease(gradient); CGContextRestoreGState(context); UIGraphicsEndImageContext(); return image; } - (void)requestLayout { [self.gradientProps also:^(NSDictionary *dict) { if (CGSizeEqualToSize(self.gradientSize, self.view.frame.size)) { return; } self.gradientSize = self.view.frame.size; UIColor *start = DoricColor(dict[@"start"]); UIColor *end = DoricColor(dict[@"end"]); int orientation = [dict[@"orientation"] intValue]; CGPoint startPoint; CGPoint endPoint; if (orientation == 1) { startPoint = CGPointMake(1, 0); endPoint = CGPointMake(0, 1); } else if (orientation == 2) { startPoint = CGPointMake(1, 0); endPoint = CGPointMake(0, 0); } else if (orientation == 3) { startPoint = CGPointMake(1, 1); endPoint = CGPointMake(0, 0); } else if (orientation == 4) { startPoint = CGPointMake(0, 1); endPoint = CGPointMake(0, 0); } else if (orientation == 5) { startPoint = CGPointMake(0, 1); endPoint = CGPointMake(1, 0); } else if (orientation == 6) { startPoint = CGPointMake(0, 0); endPoint = CGPointMake(1, 0); } else if (orientation == 7) { startPoint = CGPointMake(0, 0); endPoint = CGPointMake(1, 1); } else { startPoint = CGPointMake(0, 0); endPoint = CGPointMake(0, 1); } UIImage *gradientImage = [self gradientImageFromColors:@[(__bridge id) start.CGColor, (__bridge id) end.CGColor] startPoint:startPoint endPoint:endPoint imgSize:self.gradientSize]; self.view.backgroundColor = [UIColor colorWithPatternImage:gradientImage]; }]; } - (NSNumber *)getWidth { return @(self.view.width); } - (NSNumber *)getHeight { return @(self.view.height); } - (NSNumber *)getX { return @(self.view.x); } - (NSNumber *)getY { return @(self.view.y); } - (NSDictionary *)getLocationOnScreen { CGPoint point = [self.view convertPoint:CGPointMake(0, 0) toView:[UIApplication sharedApplication].keyWindow]; return @{@"x": @(point.x), @"y": @(point.y)}; } - (void)blendLayoutConfig:(NSDictionary *)params { [params[@"widthSpec"] also:^(NSNumber *it) { self.view.doricLayout.widthSpec = (DoricLayoutSpec) [it integerValue]; }]; [params[@"heightSpec"] also:^(NSNumber *it) { self.view.doricLayout.heightSpec = (DoricLayoutSpec) [it integerValue]; }]; [params[@"margin"] also:^(NSDictionary *it) { [it[@"left"] also:^(NSNumber *it) { self.view.doricLayout.marginLeft = [it floatValue]; }]; [it[@"top"] also:^(NSNumber *it) { self.view.doricLayout.marginTop = [it floatValue]; }]; [it[@"right"] also:^(NSNumber *it) { self.view.doricLayout.marginRight = [it floatValue]; }]; [it[@"bottom"] also:^(NSNumber *it) { self.view.doricLayout.marginBottom = [it floatValue]; }]; }]; [params[@"alignment"] also:^(NSNumber *it) { self.view.doricLayout.alignment = (DoricGravity) [it integerValue]; }]; [params[@"weight"] also:^(NSNumber *it) { self.view.doricLayout.weight = (DoricGravity) [it integerValue]; }]; [params[@"maxWidth"] also:^(NSNumber *it) { self.view.doricLayout.maxWidth = (DoricGravity) [it integerValue]; }]; [params[@"maxHeight"] also:^(NSNumber *it) { self.view.doricLayout.maxHeight = (DoricGravity) [it integerValue]; }]; [params[@"minWidth"] also:^(NSNumber *it) { self.view.doricLayout.minWidth = (DoricGravity) [it integerValue]; }]; [params[@"minHeight"] also:^(NSNumber *it) { self.view.doricLayout.minHeight = (DoricGravity) [it integerValue]; }]; } - (NSDictionary *)transformation { NSMutableDictionary *dictionary = [NSMutableDictionary new]; if (self.translationX) { dictionary[@"translationX"] = self.translationX; } if (self.translationY) { dictionary[@"translationY"] = self.translationY; } if (self.scaleX) { dictionary[@"scaleX"] = self.scaleX; } if (self.scaleY) { dictionary[@"scaleY"] = self.scaleY; } if (self.rotation) { dictionary[@"rotation"] = self.rotation; } return dictionary; } #pragma animations - (void)doAnimation:(id)params withPromise:(DoricPromise *)promise { CAAnimation *animation = [self parseAnimation:params]; AnimationCallback *originDelegate = animation.delegate; AnimationCallback *animationCallback = [[AnimationCallback new] also:^(AnimationCallback *it) { it.startBlock = ^(AnimationCallback *callback) { if (originDelegate) { originDelegate.startBlock(callback); } [self transformProperties]; }; it.endBlock = ^(AnimationCallback *callback) { if (originDelegate) { originDelegate.endBlock(callback); } [self.view.layer removeAllAnimations]; [self transformProperties]; [promise resolve:self.transformation]; }; }]; animation.delegate = animationCallback; if (params[@"delay"]) { animation.beginTime = CACurrentMediaTime() + [params[@"delay"] floatValue] / 1000; } animation.removedOnCompletion = NO; animation.fillMode = kCAFillModeForwards; [self.view.layer addAnimation:animation forKey:nil]; } - (CFTimeInterval)computeDurationOfAnimations:(NSArray *)animations { __block CFTimeInterval interval = 0; [animations forEach:^(CAAnimation *obj) { interval = MAX(interval, obj.beginTime + obj.duration * (1 + obj.repeatCount)); }]; return interval; } - (CAAnimation *)parseAnimation:(id)params { if (params[@"animations"]) { NSArray *anims = params[@"animations"]; CAAnimationGroup *animationGroup = [CAAnimationGroup animation]; NSMutableArray *animations = [NSMutableArray new]; [anims forEach:^(id obj) { [animations addObject:[self parseAnimation:obj]]; }]; animationGroup.duration = [self computeDurationOfAnimations:animations]; animationGroup.animations = animations; animationGroup.delegate = [[AnimationCallback new] also:^(AnimationCallback *it) { it.startBlock = ^(AnimationCallback *callback) { [[animations map:^id(CABasicAnimation *obj) { return obj.delegate; }] forEach:^(AnimationCallback *obj) { if (obj.startBlock) { obj.startBlock(obj); } }]; }; it.endBlock = ^(AnimationCallback *callback) { [[animations map:^id(CABasicAnimation *obj) { return obj.delegate; }] forEach:^(AnimationCallback *obj) { if (obj.endBlock) { obj.endBlock(obj); } }]; }; }]; if (params[@"delay"]) { animationGroup.beginTime = [params[@"delay"] floatValue] / 1000; } return animationGroup; } else if ([params isKindOfClass:[NSDictionary class]]) { NSArray *changeables = params[@"changeables"]; NSString *type = params[@"type"]; if ([@"TranslationAnimation" isEqualToString:type]) { __block CGPoint from = self.view.layer.position; __block CGPoint to = self.view.layer.position; CABasicAnimation *animation = [CABasicAnimation animationWithKeyPath:@"position"]; [changeables forEach:^(NSDictionary *obj) { NSString *key = obj[@"key"]; if ([@"translationX" isEqualToString:key]) { from.x += [obj[@"fromValue"] floatValue] - self.translationX.floatValue; to.x += [obj[@"toValue"] floatValue] - self.translationX.floatValue; [self setFillMode:animation key:key startValue:obj[@"fromValue"] endValue:obj[@"toValue"] fillMode:params[@"fillMode"]]; } else if ([@"translationY" isEqualToString:key]) { from.y += [obj[@"fromValue"] floatValue] - self.translationY.floatValue; to.y += [obj[@"toValue"] floatValue] - self.translationY.floatValue; [self setFillMode:animation key:key startValue:obj[@"fromValue"] endValue:obj[@"toValue"] fillMode:params[@"fillMode"]]; } }]; animation.fromValue = [NSValue valueWithCGPoint:from]; animation.toValue = [NSValue valueWithCGPoint:to]; if (params[@"timingFunction"]) { animation.timingFunction = [self translateToTimingFunction:params[@"timingFunction"]]; } [self setAnimation:animation params:params]; return animation; } else { CAAnimationGroup *animationGroup = [CAAnimationGroup animation]; NSMutableArray *animations = [NSMutableArray new]; [changeables forEach:^(NSDictionary *obj) { CABasicAnimation *animation = [self parseChangeable:obj fillMode:params[@"fillMode"]]; if (params[@"timingFunction"]) { animation.timingFunction = [self translateToTimingFunction:params[@"timingFunction"]]; } [animations addObject:animation]; }]; animationGroup.animations = animations; animationGroup.delegate = [[AnimationCallback new] also:^(AnimationCallback *it) { it.startBlock = ^(AnimationCallback *callback) { [[animations map:^id(CABasicAnimation *obj) { return obj.delegate; }] forEach:^(AnimationCallback *obj) { if (obj.startBlock) { obj.startBlock(obj); } }]; }; it.endBlock = ^(AnimationCallback *callback) { [[animations map:^id(CABasicAnimation *obj) { return obj.delegate; }] forEach:^(AnimationCallback *obj) { if (obj.endBlock) { obj.endBlock(obj); } }]; }; }]; [self setAnimation:animationGroup params:params]; return animationGroup; } } return nil; } - (void)setAnimation:(CAAnimation *)animation params:(NSDictionary *)params { if (params[@"repeatCount"]) { NSInteger repeatCount = [params[@"repeatCount"] integerValue]; if (repeatCount < 0) { repeatCount = NSNotFound; } animation.repeatCount = repeatCount; } if (params[@"repeatMode"]) { NSInteger repeatMode = [params[@"repeatMode"] integerValue]; animation.autoreverses = repeatMode == 2; } if (params[@"delay"]) { animation.beginTime = [params[@"delay"] floatValue] / 1000; } animation.duration = [params[@"duration"] floatValue] / 1000; } - (void)setFillMode:(CAAnimation *)animation key:(NSString *)key startValue:(NSNumber *)startValue endValue:(NSNumber *)endValue fillMode:(NSNumber *)fillMode { NSUInteger fillModeInt = fillMode.unsignedIntegerValue; if ((fillModeInt & 2) == 2) { [self setAnimatedValue:key value:startValue]; } AnimationCallback *callback = [AnimationCallback new]; AnimationCallback *originCallback = animation.delegate; __weak typeof(self) _self = self; callback.startBlock = ^(AnimationCallback *callback) { __strong typeof(_self) self = _self; callback.dictionary[key] = [self getAnimatedValue:key]; if (originCallback) { originCallback.startBlock(callback); } }; callback.endBlock = ^(AnimationCallback *callback) { __strong typeof(_self) self = _self; if ((fillModeInt & 1) == 1) { [self setAnimatedValue:key value:endValue]; } if (originCallback) { originCallback.endBlock(callback); } }; animation.delegate = callback; } - (NSNumber *)getAnimatedValue:(NSString *)key { if ([@"translationX" isEqualToString:key]) { return self.translationX; } if ([@"translationY" isEqualToString:key]) { return self.translationY; } if ([@"scaleX" isEqualToString:key]) { return self.scaleX; } if ([@"scaleY" isEqualToString:key]) { return self.scaleY; } if ([@"rotation" isEqualToString:key]) { return self.rotation; } return nil; } - (void)setAnimatedValue:(NSString *)key value:(NSNumber *)value { if ([@"translationX" isEqualToString:key]) { self.translationX = value; } else if ([@"translationY" isEqualToString:key]) { self.translationY = value; } else if ([@"scaleX" isEqualToString:key]) { self.scaleX = value; } else if ([@"scaleY" isEqualToString:key]) { self.scaleY = value; } else if ([@"rotation" isEqualToString:key]) { self.rotation = value; } } - (CABasicAnimation *)parseChangeable:(NSDictionary *)params fillMode:(NSNumber *)fillMode { NSString *key = params[@"key"]; CABasicAnimation *animation = [CABasicAnimation animation]; if ([@"scaleX" isEqualToString:key]) { animation.keyPath = @"transform.scale.x"; animation.fromValue = params[@"fromValue"]; animation.toValue = params[@"toValue"]; } else if ([@"scaleY" isEqualToString:key]) { animation.keyPath = @"transform.scale.y"; animation.fromValue = params[@"fromValue"]; animation.toValue = params[@"toValue"]; } else if ([@"rotation" isEqualToString:key]) { animation.keyPath = @"transform.rotation.z"; animation.fromValue = @([params[@"fromValue"] floatValue] * M_PI); animation.toValue = @([params[@"toValue"] floatValue] * M_PI); } else if ([@"backgroundColor" isEqualToString:key]) { animation.keyPath = @"backgroundColor"; animation.fromValue = params[@"fromValue"]; animation.toValue = params[@"toValue"]; } [self setFillMode:animation key:key startValue:params[@"fromValue"] endValue:params[@"toValue"] fillMode:fillMode]; return animation; } - (CAMediaTimingFunction *)translateToTimingFunction:(NSNumber *)timingFunction { switch (timingFunction.integerValue) { case 1: return [CAMediaTimingFunction functionWithName:kCAMediaTimingFunctionLinear]; case 2: return [CAMediaTimingFunction functionWithName:kCAMediaTimingFunctionEaseIn]; case 3: return [CAMediaTimingFunction functionWithName:kCAMediaTimingFunctionEaseOut]; case 4: return [CAMediaTimingFunction functionWithName:kCAMediaTimingFunctionEaseInEaseOut]; default: return [CAMediaTimingFunction functionWithName:kCAMediaTimingFunctionDefault]; } } @end