// // KFOptionsSetter.swift // Kingfisher // // Created by onevcat on 2020/12/22. // // Copyright (c) 2020 Wei Wang // // Permission is hereby granted, free of charge, to any person obtaining a copy // of this software and associated documentation files (the "Software"), to deal // in the Software without restriction, including without limitation the rights // to use, copy, modify, merge, publish, distribute, sublicense, and/or sell // copies of the Software, and to permit persons to whom the Software is // furnished to do so, subject to the following conditions: // // The above copyright notice and this permission notice shall be included in // all copies or substantial portions of the Software. // // THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR // IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, // FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE // AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER // LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, // OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN // THE SOFTWARE. import Foundation import CoreGraphics #if os(macOS) import AppKit #else import UIKit #endif public protocol KFOptionSetter { var options: KingfisherParsedOptionsInfo { get nonmutating set } var onFailureDelegate: Delegate { get } var onSuccessDelegate: Delegate { get } var onProgressDelegate: Delegate<(Int64, Int64), Void> { get } var delegateObserver: AnyObject { get } } extension KF.Builder: KFOptionSetter { public var delegateObserver: AnyObject { self } } // MARK: - Life cycles extension KFOptionSetter { /// Sets the progress block to current builder. /// - Parameter block: Called when the image downloading progress gets updated. If the response does not contain an /// `expectedContentLength`, this block will not be called. If `block` is `nil`, the callback /// will be reset. /// - Returns: A `Self` value with changes applied. public func onProgress(_ block: DownloadProgressBlock?) -> Self { onProgressDelegate.delegate(on: delegateObserver) { (observer, result) in block?(result.0, result.1) } return self } /// Sets the the done block to current builder. /// - Parameter block: Called when the image task successfully completes and the the image set is done. If `block` /// is `nil`, the callback will be reset. /// - Returns: A `KF.Builder` with changes applied. public func onSuccess(_ block: ((RetrieveImageResult) -> Void)?) -> Self { onSuccessDelegate.delegate(on: delegateObserver) { (observer, result) in block?(result) } return self } /// Sets the catch block to current builder. /// - Parameter block: Called when an error happens during the image task. If `block` /// is `nil`, the callback will be reset. /// - Returns: A `KF.Builder` with changes applied. public func onFailure(_ block: ((KingfisherError) -> Void)?) -> Self { onFailureDelegate.delegate(on: delegateObserver) { (observer, error) in block?(error) } return self } } // MARK: - Basic options settings. extension KFOptionSetter { /// Sets the target image cache for this task. /// - Parameter cache: The target cache is about to be used for the task. /// - Returns: A `Self` value with changes applied. /// /// Kingfisher will use the associated `ImageCache` object when handling related operations, /// including trying to retrieve the cached images and store the downloaded image to it. /// public func targetCache(_ cache: ImageCache) -> Self { options.targetCache = cache return self } /// Sets the target image cache to store the original downloaded image for this task. /// - Parameter cache: The target cache is about to be used for storing the original downloaded image from the task. /// - Returns: A `Self` value with changes applied. /// /// The `ImageCache` for storing and retrieving original images. If `originalCache` is /// contained in the options, it will be preferred for storing and retrieving original images. /// If there is no `.originalCache` in the options, `.targetCache` will be used to store original images. /// /// When using KingfisherManager to download and store an image, if `cacheOriginalImage` is /// applied in the option, the original image will be stored to this `originalCache`. At the /// same time, if a requested final image (with processor applied) cannot be found in `targetCache`, /// Kingfisher will try to search the original image to check whether it is already there. If found, /// it will be used and applied with the given processor. It is an optimization for not downloading /// the same image for multiple times. /// public func originalCache(_ cache: ImageCache) -> Self { options.originalCache = cache return self } /// Sets the downloader used to perform the image download task. /// - Parameter downloader: The downloader which is about to be used for downloading. /// - Returns: A `Self` value with changes applied. /// /// Kingfisher will use the set `ImageDownloader` object to download the requested images. public func downloader(_ downloader: ImageDownloader) -> Self { options.downloader = downloader return self } /// Sets the download priority for the image task. /// - Parameter priority: The download priority of image download task. /// - Returns: A `Self` value with changes applied. /// /// The `priority` value will be set as the priority of the image download task. The value for it should be /// between 0.0~1.0. You can choose a value between `URLSessionTask.defaultPriority`, `URLSessionTask.lowPriority` /// or `URLSessionTask.highPriority`. If this option not set, the default value (`URLSessionTask.defaultPriority`) /// will be used. public func downloadPriority(_ priority: Float) -> Self { options.downloadPriority = priority return self } /// Sets whether Kingfisher should ignore the cache and try to start a download task for the image source. /// - Parameter enabled: Enable the force refresh or not. /// - Returns: A `Self` value with changes applied. public func forceRefresh(_ enabled: Bool = true) -> Self { options.forceRefresh = enabled return self } /// Sets whether Kingfisher should try to retrieve the image from memory cache first. If not found, it ignores the /// disk cache and starts a download task for the image source. /// - Parameter enabled: Enable the memory-only cache searching or not. /// - Returns: A `Self` value with changes applied. /// /// This is useful when you want to display a changeable image behind the same url at the same app session, while /// avoiding download it for multiple times. public func fromMemoryCacheOrRefresh(_ enabled: Bool = true) -> Self { options.fromMemoryCacheOrRefresh = enabled return self } /// Sets whether the image should only be cached in memory but not in disk. /// - Parameter enabled: Whether the image should be only cache in memory or not. /// - Returns: A `Self` value with changes applied. public func cacheMemoryOnly(_ enabled: Bool = true) -> Self { options.cacheMemoryOnly = enabled return self } /// Sets whether Kingfisher should wait for caching operation to be completed before calling the /// `onSuccess` or `onFailure` block. /// - Parameter enabled: Whether Kingfisher should wait for caching operation. /// - Returns: A `Self` value with changes applied. public func waitForCache(_ enabled: Bool = true) -> Self { options.waitForCache = enabled return self } /// Sets whether Kingfisher should only try to retrieve the image from cache, but not from network. /// - Parameter enabled: Whether Kingfisher should only try to retrieve the image from cache. /// - Returns: A `Self` value with changes applied. /// /// If the image is not in cache, the image retrieving will fail with the /// `KingfisherError.cacheError` with `.imageNotExisting` as its reason. public func onlyFromCache(_ enabled: Bool = true) -> Self { options.onlyFromCache = enabled return self } /// Sets whether the image should be decoded in a background thread before using. /// - Parameter enabled: Whether the image should be decoded in a background thread before using. /// - Returns: A `Self` value with changes applied. /// /// Setting to `true` will decode the downloaded image data and do a off-screen rendering to extract pixel /// information in background. This can speed up display, but will cost more time and memory to prepare the image /// for using. public func backgroundDecode(_ enabled: Bool = true) -> Self { options.backgroundDecode = enabled return self } /// Sets the callback queue which is used as the target queue of dispatch callbacks when retrieving images from /// cache. If not set, Kingfisher will use main queue for callbacks. /// - Parameter queue: The target queue which the cache retrieving callback will be invoked on. /// - Returns: A `Self` value with changes applied. /// /// - Note: /// This option does not affect the callbacks for UI related extension methods or `KFImage` result handlers. /// You will always get the callbacks called from main queue. public func callbackQueue(_ queue: CallbackQueue) -> Self { options.callbackQueue = queue return self } /// Sets the scale factor value when converting retrieved data to an image. /// - Parameter factor: The scale factor value. /// - Returns: A `Self` value with changes applied. /// /// Specify the image scale, instead of your screen scale. You may need to set the correct scale when you dealing /// with 2x or 3x retina images. Otherwise, Kingfisher will convert the data to image object at `scale` 1.0. /// public func scaleFactor(_ factor: CGFloat) -> Self { options.scaleFactor = factor return self } /// Sets whether the original image should be cached even when the original image has been processed by any other /// `ImageProcessor`s. /// - Parameter enabled: Whether the original image should be cached. /// - Returns: A `Self` value with changes applied. /// /// If set and an `ImageProcessor` is used, Kingfisher will try to cache both the final result and original /// image. Kingfisher will have a chance to use the original image when another processor is applied to the same /// resource, instead of downloading it again. You can use `.originalCache` to specify a cache or the original /// images if necessary. /// /// The original image will be only cached to disk storage. /// public func cacheOriginalImage(_ enabled: Bool = true) -> Self { options.cacheOriginalImage = enabled return self } /// Sets writing options for an original image on a first write /// - Parameter writingOptions: Options to control the writing of data to a disk storage. /// - Returns: A `Self` value with changes applied. /// If set, options will be passed the store operation for a new files. /// /// This is useful if you want to implement file enctyption on first write - eg [.completeFileProtection] /// public func diskStoreWriteOptions(_ writingOptions: Data.WritingOptions) -> Self { options.diskStoreWriteOptions = writingOptions return self } /// Sets whether the disk storage loading should happen in the same calling queue. /// - Parameter enabled: Whether the disk storage loading should happen in the same calling queue. /// - Returns: A `Self` value with changes applied. /// /// By default, disk storage file loading /// happens in its own queue with an asynchronous dispatch behavior. Although it provides better non-blocking disk /// loading performance, it also causes a flickering when you reload an image from disk, if the image view already /// has an image set. /// /// Set this options will stop that flickering by keeping all loading in the same queue (typically the UI queue /// if you are using Kingfisher's extension methods to set an image), with a tradeoff of loading performance. /// public func loadDiskFileSynchronously(_ enabled: Bool = true) -> Self { options.loadDiskFileSynchronously = enabled return self } /// Sets a queue on which the image processing should happen. /// - Parameter queue: The queue on which the image processing should happen. /// - Returns: A `Self` value with changes applied. /// /// By default, Kingfisher uses a pre-defined serial /// queue to process images. Use this option to change this behavior. For example, specify a `.mainCurrentOrAsync` /// to let the image be processed in main queue to prevent a possible flickering (but with a possibility of /// blocking the UI, especially if the processor needs a lot of time to run). public func processingQueue(_ queue: CallbackQueue?) -> Self { options.processingQueue = queue return self } /// Sets the alternative sources that will be used when loading of the original input `Source` fails. /// - Parameter sources: The alternative sources will be used. /// - Returns: A `Self` value with changes applied. /// /// Values of the `sources` array will be used to start a new image loading task if the previous task /// fails due to an error. The image source loading process will stop as soon as a source is loaded successfully. /// If all `sources` are used but the loading is still failing, an `imageSettingError` with /// `alternativeSourcesExhausted` as its reason will be given out in the `catch` block. /// /// This is useful if you want to implement a fallback solution for setting image. /// /// User cancellation will not trigger the alternative source loading. public func alternativeSources(_ sources: [Source]?) -> Self { options.alternativeSources = sources return self } /// Sets a retry strategy that will be used when something gets wrong during the image retrieving. /// - Parameter strategy: The provided strategy to define how the retrying should happen. /// - Returns: A `Self` value with changes applied. public func retry(_ strategy: RetryStrategy?) -> Self { options.retryStrategy = strategy return self } /// Sets a retry strategy with a max retry count and retrying interval. /// - Parameters: /// - maxCount: The maximum count before the retry stops. /// - interval: The time interval between each retry attempt. /// - Returns: A `Self` value with changes applied. /// /// This defines the simplest retry strategy, which retry a failing request for several times, with some certain /// interval between each time. For example, `.retry(maxCount: 3, interval: .second(3))` means attempt for at most /// three times, and wait for 3 seconds if a previous retry attempt fails, then start a new attempt. public func retry(maxCount: Int, interval: DelayRetryStrategy.Interval = .seconds(3)) -> Self { let strategy = DelayRetryStrategy(maxRetryCount: maxCount, retryInterval: interval) options.retryStrategy = strategy return self } /// Sets the `Source` should be loaded when user enables Low Data Mode and the original source fails with an /// `NSURLErrorNetworkUnavailableReason.constrained` error. /// - Parameter source: The `Source` will be loaded under low data mode. /// - Returns: A `Self` value with changes applied. /// /// When this option is set, the /// `allowsConstrainedNetworkAccess` property of the request for the original source will be set to `false` and the /// `Source` in associated value will be used to retrieve the image for low data mode. Usually, you can provide a /// low-resolution version of your image or a local image provider to display a placeholder. /// /// If not set or the `source` is `nil`, the device Low Data Mode will be ignored and the original source will /// be loaded following the system default behavior, in a normal way. public func lowDataModeSource(_ source: Source?) -> Self { options.lowDataModeSource = source return self } /// Sets whether the image setting for an image view should happen with transition even when retrieved from cache. /// - Parameter enabled: Enable the force transition or not. /// - Returns: A `Self` with changes applied. public func forceTransition(_ enabled: Bool = true) -> Self { options.forceTransition = enabled return self } /// Sets the image that will be used if an image retrieving task fails. /// - Parameter image: The image that will be used when something goes wrong. /// - Returns: A `Self` with changes applied. /// /// If set and an image retrieving error occurred Kingfisher will set provided image (or empty) /// in place of requested one. It's useful when you don't want to show placeholder /// during loading time but wants to use some default image when requests will be failed. /// public func onFailureImage(_ image: KFCrossPlatformImage?) -> Self { options.onFailureImage = .some(image) return self } } // MARK: - Request Modifier extension KFOptionSetter { /// Sets an `ImageDownloadRequestModifier` to change the image download request before it being sent. /// - Parameter modifier: The modifier will be used to change the request before it being sent. /// - Returns: A `Self` value with changes applied. /// /// This is the last chance you can modify the image download request. You can modify the request for some /// customizing purpose, such as adding auth token to the header, do basic HTTP auth or something like url mapping. /// public func requestModifier(_ modifier: AsyncImageDownloadRequestModifier) -> Self { options.requestModifier = modifier return self } /// Sets a block to change the image download request before it being sent. /// - Parameter modifyBlock: The modifying block will be called to change the request before it being sent. /// - Returns: A `Self` value with changes applied. /// /// This is the last chance you can modify the image download request. You can modify the request for some /// customizing purpose, such as adding auth token to the header, do basic HTTP auth or something like url mapping. /// public func requestModifier(_ modifyBlock: @escaping (inout URLRequest) -> Void) -> Self { options.requestModifier = AnyModifier { r -> URLRequest? in var request = r modifyBlock(&request) return request } return self } } // MARK: - Redirect Handler extension KFOptionSetter { /// The `ImageDownloadRedirectHandler` argument will be used to change the request before redirection. /// This is the possibility you can modify the image download request during redirect. You can modify the request for /// some customizing purpose, such as adding auth token to the header, do basic HTTP auth or something like url /// mapping. /// The original redirection request will be sent without any modification by default. /// - Parameter handler: The handler will be used for redirection. /// - Returns: A `Self` value with changes applied. public func redirectHandler(_ handler: ImageDownloadRedirectHandler) -> Self { options.redirectHandler = handler return self } /// The `block` will be used to change the request before redirection. /// This is the possibility you can modify the image download request during redirect. You can modify the request for /// some customizing purpose, such as adding auth token to the header, do basic HTTP auth or something like url /// mapping. /// The original redirection request will be sent without any modification by default. /// - Parameter block: The block will be used for redirection. /// - Returns: A `Self` value with changes applied. public func redirectHandler(_ block: @escaping (KF.RedirectPayload) -> Void) -> Self { let redirectHandler = AnyRedirectHandler { (task, response, request, handler) in let payload = KF.RedirectPayload( task: task, response: response, newRequest: request, completionHandler: handler ) block(payload) } options.redirectHandler = redirectHandler return self } } // MARK: - Processor extension KFOptionSetter { /// Sets an image processor for the image task. It replaces the current image processor settings. /// /// - Parameter processor: The processor you want to use to process the image after it is downloaded. /// - Returns: A `Self` value with changes applied. /// /// - Note: /// To append a processor to current ones instead of replacing them all, use `appendProcessor(_:)`. public func setProcessor(_ processor: ImageProcessor) -> Self { options.processor = processor return self } /// Sets an array of image processors for the image task. It replaces the current image processor settings. /// - Parameter processors: An array of processors. The processors inside this array will be concatenated one by one /// to form a processor pipeline. /// - Returns: A `Self` value with changes applied. /// /// - Note: To append processors to current ones instead of replacing them all, concatenate them by `|>`, then use /// `appendProcessor(_:)`. public func setProcessors(_ processors: [ImageProcessor]) -> Self { switch processors.count { case 0: options.processor = DefaultImageProcessor.default case 1...: options.processor = processors.dropFirst().reduce(processors[0]) { $0 |> $1 } default: assertionFailure("Never happen") } return self } /// Appends a processor to the current set processors. /// - Parameter processor: The processor which will be appended to current processor settings. /// - Returns: A `Self` value with changes applied. public func appendProcessor(_ processor: ImageProcessor) -> Self { options.processor = options.processor |> processor return self } /// Appends a `RoundCornerImageProcessor` to current processors. /// - Parameters: /// - radius: The radius will be applied in processing. Specify a certain point value with `.point`, or a fraction /// of the target image with `.widthFraction`. or `.heightFraction`. For example, given a square image /// with width and height equals, `.widthFraction(0.5)` means use half of the length of size and makes /// the final image a round one. /// - targetSize: Target size of output image should be. If `nil`, the image will keep its original size after processing. /// - corners: The target corners which will be applied rounding. /// - backgroundColor: Background color of the output image. If `nil`, it will use a transparent background. /// - Returns: A `Self` value with changes applied. public func roundCorner( radius: Radius, targetSize: CGSize? = nil, roundingCorners corners: RectCorner = .all, backgroundColor: KFCrossPlatformColor? = nil ) -> Self { let processor = RoundCornerImageProcessor( radius: radius, targetSize: targetSize, roundingCorners: corners, backgroundColor: backgroundColor ) return appendProcessor(processor) } /// Appends a `BlurImageProcessor` to current processors. /// - Parameter radius: Blur radius for the simulated Gaussian blur. /// - Returns: A `Self` value with changes applied. public func blur(radius: CGFloat) -> Self { appendProcessor( BlurImageProcessor(blurRadius: radius) ) } /// Appends a `OverlayImageProcessor` to current processors. /// - Parameters: /// - color: Overlay color will be used to overlay the input image. /// - fraction: Fraction will be used when overlay the color to image. /// - Returns: A `Self` value with changes applied. public func overlay(color: KFCrossPlatformColor, fraction: CGFloat = 0.5) -> Self { appendProcessor( OverlayImageProcessor(overlay: color, fraction: fraction) ) } /// Appends a `TintImageProcessor` to current processors. /// - Parameter color: Tint color will be used to tint the input image. /// - Returns: A `Self` value with changes applied. public func tint(color: KFCrossPlatformColor) -> Self { appendProcessor( TintImageProcessor(tint: color) ) } /// Appends a `BlackWhiteProcessor` to current processors. /// - Returns: A `Self` value with changes applied. public func blackWhite() -> Self { appendProcessor( BlackWhiteProcessor() ) } /// Appends a `CroppingImageProcessor` to current processors. /// - Parameters: /// - size: Target size of output image should be. /// - anchor: Anchor point from which the output size should be calculate. The anchor point is consisted by two /// values between 0.0 and 1.0. It indicates a related point in current image. /// See `CroppingImageProcessor.init(size:anchor:)` for more. /// - Returns: A `Self` value with changes applied. public func cropping(size: CGSize, anchor: CGPoint = .init(x: 0.5, y: 0.5)) -> Self { appendProcessor( CroppingImageProcessor(size: size, anchor: anchor) ) } /// Appends a `DownsamplingImageProcessor` to current processors. /// /// Compared to `ResizingImageProcessor`, the `DownsamplingImageProcessor` does not render the original images and /// then resize it. Instead, it downsamples the input data directly to a thumbnail image. So it is a more efficient /// than `ResizingImageProcessor`. Prefer to use `DownsamplingImageProcessor` as possible /// as you can than the `ResizingImageProcessor`. /// /// Only CG-based images are supported. Animated images (like GIF) is not supported. /// /// - Parameter size: Target size of output image should be. It should be smaller than the size of input image. /// If it is larger, the result image will be the same size of input data without downsampling. /// - Returns: A `Self` value with changes applied. public func downsampling(size: CGSize) -> Self { let processor = DownsamplingImageProcessor(size: size) if options.processor == DefaultImageProcessor.default { return setProcessor(processor) } else { return appendProcessor(processor) } } /// Appends a `ResizingImageProcessor` to current processors. /// /// If you need to resize a data represented image to a smaller size, use `DownsamplingImageProcessor` /// instead, which is more efficient and uses less memory. /// /// - Parameters: /// - referenceSize: The reference size for resizing operation in point. /// - mode: Target content mode of output image should be. Default is `.none`. /// - Returns: A `Self` value with changes applied. public func resizing(referenceSize: CGSize, mode: ContentMode = .none) -> Self { appendProcessor( ResizingImageProcessor(referenceSize: referenceSize, mode: mode) ) } } // MARK: - Cache Serializer extension KFOptionSetter { /// Uses a given `CacheSerializer` to convert some data to an image object for retrieving from disk cache or vice /// versa for storing to disk cache. /// - Parameter cacheSerializer: The `CacheSerializer` which will be used. /// - Returns: A `Self` value with changes applied. public func serialize(by cacheSerializer: CacheSerializer) -> Self { options.cacheSerializer = cacheSerializer return self } /// Uses a given format to serializer the image data to disk. It converts the image object to the give data format. /// - Parameters: /// - format: The desired data encoding format when store the image on disk. /// - jpegCompressionQuality: If the format is `.JPEG`, it specify the compression quality when converting the /// image to a JPEG data. Otherwise, it is ignored. /// - Returns: A `Self` value with changes applied. public func serialize(as format: ImageFormat, jpegCompressionQuality: CGFloat? = nil) -> Self { let cacheSerializer: FormatIndicatedCacheSerializer switch format { case .JPEG: cacheSerializer = .jpeg(compressionQuality: jpegCompressionQuality ?? 1.0) case .PNG: cacheSerializer = .png case .GIF: cacheSerializer = .gif case .unknown: cacheSerializer = .png } options.cacheSerializer = cacheSerializer return self } } // MARK: - Image Modifier extension KFOptionSetter { /// Sets an `ImageModifier` to the image task. Use this to modify the fetched image object properties if needed. /// /// If the image was fetched directly from the downloader, the modifier will run directly after the /// `ImageProcessor`. If the image is being fetched from a cache, the modifier will run after the `CacheSerializer`. /// - Parameter modifier: The `ImageModifier` which will be used to modify the image object. /// - Returns: A `Self` value with changes applied. public func imageModifier(_ modifier: ImageModifier?) -> Self { options.imageModifier = modifier return self } /// Sets a block to modify the image object. Use this to modify the fetched image object properties if needed. /// /// If the image was fetched directly from the downloader, the modifier block will run directly after the /// `ImageProcessor`. If the image is being fetched from a cache, the modifier will run after the `CacheSerializer`. /// /// - Parameter block: The block which is used to modify the image object. /// - Returns: A `Self` value with changes applied. public func imageModifier(_ block: @escaping (inout KFCrossPlatformImage) throws -> Void) -> Self { let modifier = AnyImageModifier { image -> KFCrossPlatformImage in var image = image try block(&image) return image } options.imageModifier = modifier return self } } // MARK: - Cache Expiration extension KFOptionSetter { /// Sets the expiration setting for memory cache of this image task. /// /// By default, the underlying `MemoryStorage.Backend` uses the /// expiration in its config for all items. If set, the `MemoryStorage.Backend` will use this value to overwrite /// the config setting for this caching item. /// /// - Parameter expiration: The expiration setting used in cache storage. /// - Returns: A `Self` value with changes applied. public func memoryCacheExpiration(_ expiration: StorageExpiration?) -> Self { options.memoryCacheExpiration = expiration return self } /// Sets the expiration extending setting for memory cache. The item expiration time will be incremented by this /// value after access. /// /// By default, the underlying `MemoryStorage.Backend` uses the initial cache expiration as extending /// value: .cacheTime. /// /// To disable extending option at all, sets `.none` to it. /// /// - Parameter extending: The expiration extending setting used in cache storage. /// - Returns: A `Self` value with changes applied. public func memoryCacheAccessExtending(_ extending: ExpirationExtending) -> Self { options.memoryCacheAccessExtendingExpiration = extending return self } /// Sets the expiration setting for disk cache of this image task. /// /// By default, the underlying `DiskStorage.Backend` uses the expiration in its config for all items. If set, /// the `DiskStorage.Backend` will use this value to overwrite the config setting for this caching item. /// /// - Parameter expiration: The expiration setting used in cache storage. /// - Returns: A `Self` value with changes applied. public func diskCacheExpiration(_ expiration: StorageExpiration?) -> Self { options.diskCacheExpiration = expiration return self } /// Sets the expiration extending setting for disk cache. The item expiration time will be incremented by this /// value after access. /// /// By default, the underlying `DiskStorage.Backend` uses the initial cache expiration as extending /// value: .cacheTime. /// /// To disable extending option at all, sets `.none` to it. /// /// - Parameter extending: The expiration extending setting used in cache storage. /// - Returns: A `Self` value with changes applied. public func diskCacheAccessExtending(_ extending: ExpirationExtending) -> Self { options.diskCacheAccessExtendingExpiration = extending return self } }