/** * 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 "RCTImageUtils.h" #import #import #import #import "RCTLog.h" #import "RCTUtils.h" static CGFloat RCTCeilValue(CGFloat value, CGFloat scale) { return ceil(value * scale) / scale; } static CGFloat RCTFloorValue(CGFloat value, CGFloat scale) { return floor(value * scale) / scale; } static CGSize RCTCeilSize(CGSize size, CGFloat scale) { return (CGSize){ RCTCeilValue(size.width, scale), RCTCeilValue(size.height, scale) }; } CGRect RCTTargetRect(CGSize sourceSize, CGSize destSize, CGFloat destScale, RCTResizeMode resizeMode) { if (CGSizeEqualToSize(destSize, CGSizeZero)) { // Assume we require the largest size available return (CGRect){CGPointZero, sourceSize}; } CGFloat aspect = sourceSize.width / sourceSize.height; // If only one dimension in destSize is non-zero (for example, an Image // with `flex: 1` whose height is indeterminate), calculate the unknown // dimension based on the aspect ratio of sourceSize if (destSize.width == 0) { destSize.width = destSize.height * aspect; } if (destSize.height == 0) { destSize.height = destSize.width / aspect; } // Calculate target aspect ratio if needed (don't bother if resizeMode == stretch) CGFloat targetAspect = 0.0; if (resizeMode != UIViewContentModeScaleToFill) { targetAspect = destSize.width / destSize.height; if (aspect == targetAspect) { resizeMode = RCTResizeModeStretch; } } switch (resizeMode) { case RCTResizeModeStretch: case RCTResizeModeRepeat: return (CGRect){CGPointZero, RCTCeilSize(destSize, destScale)}; case RCTResizeModeContain: if (targetAspect <= aspect) { // target is taller than content sourceSize.width = destSize.width = destSize.width; sourceSize.height = sourceSize.width / aspect; } else { // target is wider than content sourceSize.height = destSize.height = destSize.height; sourceSize.width = sourceSize.height * aspect; } return (CGRect){ { RCTFloorValue((destSize.width - sourceSize.width) / 2, destScale), RCTFloorValue((destSize.height - sourceSize.height) / 2, destScale), }, RCTCeilSize(sourceSize, destScale) }; case RCTResizeModeCover: if (targetAspect <= aspect) { // target is taller than content sourceSize.height = destSize.height = destSize.height; sourceSize.width = sourceSize.height * aspect; destSize.width = destSize.height * targetAspect; return (CGRect){ {RCTFloorValue((destSize.width - sourceSize.width) / 2, destScale), 0}, RCTCeilSize(sourceSize, destScale) }; } else { // target is wider than content sourceSize.width = destSize.width = destSize.width; sourceSize.height = sourceSize.width / aspect; destSize.height = destSize.width / targetAspect; return (CGRect){ {0, RCTFloorValue((destSize.height - sourceSize.height) / 2, destScale)}, RCTCeilSize(sourceSize, destScale) }; } } } CGAffineTransform RCTTransformFromTargetRect(CGSize sourceSize, CGRect targetRect) { CGAffineTransform transform = CGAffineTransformIdentity; transform = CGAffineTransformTranslate(transform, targetRect.origin.x, targetRect.origin.y); transform = CGAffineTransformScale(transform, targetRect.size.width / sourceSize.width, targetRect.size.height / sourceSize.height); return transform; } CGSize RCTTargetSize(CGSize sourceSize, CGFloat sourceScale, CGSize destSize, CGFloat destScale, RCTResizeMode resizeMode, BOOL allowUpscaling) { switch (resizeMode) { case RCTResizeModeStretch: if (!allowUpscaling) { CGFloat scale = sourceScale / destScale; destSize.width = MIN(sourceSize.width * scale, destSize.width); destSize.height = MIN(sourceSize.height * scale, destSize.height); } return RCTCeilSize(destSize, destScale); default: { // Get target size CGSize size = RCTTargetRect(sourceSize, destSize, destScale, resizeMode).size; if (!allowUpscaling) { // return sourceSize if target size is larger if (sourceSize.width * sourceScale < size.width * destScale) { return sourceSize; } } return size; } } } BOOL RCTUpscalingRequired(CGSize sourceSize, CGFloat sourceScale, CGSize destSize, CGFloat destScale, RCTResizeMode resizeMode) { if (CGSizeEqualToSize(destSize, CGSizeZero)) { // Assume we require the largest size available return YES; } // Precompensate for scale CGFloat scale = sourceScale / destScale; sourceSize.width *= scale; sourceSize.height *= scale; // Calculate aspect ratios if needed (don't bother if resizeMode == stretch) CGFloat aspect = 0.0, targetAspect = 0.0; if (resizeMode != UIViewContentModeScaleToFill) { aspect = sourceSize.width / sourceSize.height; targetAspect = destSize.width / destSize.height; if (aspect == targetAspect) { resizeMode = RCTResizeModeStretch; } } switch (resizeMode) { case RCTResizeModeStretch: return destSize.width > sourceSize.width || destSize.height > sourceSize.height; case RCTResizeModeContain: if (targetAspect <= aspect) { // target is taller than content return destSize.width > sourceSize.width; } else { // target is wider than content return destSize.height > sourceSize.height; } case RCTResizeModeCover: if (targetAspect <= aspect) { // target is taller than content return destSize.height > sourceSize.height; } else { // target is wider than content return destSize.width > sourceSize.width; } case RCTResizeModeRepeat: return NO; } } UIImage *__nullable RCTDecodeImageWithData(NSData *data, CGSize destSize, CGFloat destScale, RCTResizeMode resizeMode) { CGImageSourceRef sourceRef = CGImageSourceCreateWithData((__bridge CFDataRef)data, NULL); if (!sourceRef) { return nil; } // Get original image size CFDictionaryRef imageProperties = CGImageSourceCopyPropertiesAtIndex(sourceRef, 0, NULL); if (!imageProperties) { CFRelease(sourceRef); return nil; } NSNumber *width = CFDictionaryGetValue(imageProperties, kCGImagePropertyPixelWidth); NSNumber *height = CFDictionaryGetValue(imageProperties, kCGImagePropertyPixelHeight); CGSize sourceSize = {width.doubleValue, height.doubleValue}; CFRelease(imageProperties); if (CGSizeEqualToSize(destSize, CGSizeZero)) { destSize = sourceSize; if (!destScale) { destScale = 1; } } else if (!destScale) { destScale = RCTScreenScale(); } if (resizeMode == UIViewContentModeScaleToFill) { // Decoder cannot change aspect ratio, so RCTResizeModeStretch is equivalent // to RCTResizeModeCover for our purposes resizeMode = RCTResizeModeCover; } // Calculate target size CGSize targetSize = RCTTargetSize(sourceSize, 1, destSize, destScale, resizeMode, NO); CGSize targetPixelSize = RCTSizeInPixels(targetSize, destScale); CGFloat maxPixelSize = fmax(fmin(sourceSize.width, targetPixelSize.width), fmin(sourceSize.height, targetPixelSize.height)); NSDictionary *options = @{ (id)kCGImageSourceShouldAllowFloat: @YES, (id)kCGImageSourceCreateThumbnailWithTransform: @YES, (id)kCGImageSourceCreateThumbnailFromImageAlways: @YES, (id)kCGImageSourceThumbnailMaxPixelSize: @(maxPixelSize), }; // Get thumbnail CGImageRef imageRef = CGImageSourceCreateThumbnailAtIndex(sourceRef, 0, (__bridge CFDictionaryRef)options); CFRelease(sourceRef); if (!imageRef) { return nil; } // Return image UIImage *image = [UIImage imageWithCGImage:imageRef scale:destScale orientation:UIImageOrientationUp]; CGImageRelease(imageRef); return image; } NSDictionary *__nullable RCTGetImageMetadata(NSData *data) { CGImageSourceRef sourceRef = CGImageSourceCreateWithData((__bridge CFDataRef)data, NULL); if (!sourceRef) { return nil; } CFDictionaryRef imageProperties = CGImageSourceCopyPropertiesAtIndex(sourceRef, 0, NULL); CFRelease(sourceRef); return (__bridge_transfer id)imageProperties; } NSData *__nullable RCTGetImageData(CGImageRef image, float quality) { NSDictionary *properties; CGImageDestinationRef destination; CFMutableDataRef imageData = CFDataCreateMutable(NULL, 0); if (RCTImageHasAlpha(image)) { // get png data destination = CGImageDestinationCreateWithData(imageData, kUTTypePNG, 1, NULL); } else { // get jpeg data destination = CGImageDestinationCreateWithData(imageData, kUTTypeJPEG, 1, NULL); properties = @{(NSString *)kCGImageDestinationLossyCompressionQuality: @(quality)}; } CGImageDestinationAddImage(destination, image, (__bridge CFDictionaryRef)properties); if (!CGImageDestinationFinalize(destination)) { CFRelease(imageData); imageData = NULL; } CFRelease(destination); return (__bridge_transfer NSData *)imageData; } UIImage *__nullable RCTTransformImage(UIImage *image, CGSize destSize, CGFloat destScale, CGAffineTransform transform) { if (destSize.width <= 0 | destSize.height <= 0 || destScale <= 0) { return nil; } BOOL opaque = !RCTImageHasAlpha(image.CGImage); UIGraphicsBeginImageContextWithOptions(destSize, opaque, destScale); CGContextRef currentContext = UIGraphicsGetCurrentContext(); CGContextConcatCTM(currentContext, transform); [image drawAtPoint:CGPointZero]; UIImage *result = UIGraphicsGetImageFromCurrentImageContext(); UIGraphicsEndImageContext(); return result; } BOOL RCTImageHasAlpha(CGImageRef image) { switch (CGImageGetAlphaInfo(image)) { case kCGImageAlphaNone: case kCGImageAlphaNoneSkipLast: case kCGImageAlphaNoneSkipFirst: return NO; default: return YES; } }