src/third_party/skia/modules/skottie/utils/SkottieUtils.cpp - cobalt - Git at Google

 /*
  * Copyright 2018 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "modules/skottie/utils/SkottieUtils.h"

 #include "include/codec/SkCodec.h"
 #include "include/core/SkData.h"
 #include "include/core/SkImage.h"
 #include "include/utils/SkAnimCodecPlayer.h"
 #include "src/core/SkMakeUnique.h"
 #include "src/core/SkOSFile.h"
 #include "src/utils/SkOSPath.h"

 #include <cmath>

 namespace skottie_utils {

 sk_sp<MultiFrameImageAsset> MultiFrameImageAsset::Make(sk_sp<SkData> data, bool predecode) {
     if (auto codec = SkCodec::MakeFromData(std::move(data))) {
         return sk_sp<MultiFrameImageAsset>(
               new MultiFrameImageAsset(skstd::make_unique<SkAnimCodecPlayer>(std::move(codec)),
                                                                              predecode));
     }

     return nullptr;
 }

 MultiFrameImageAsset::MultiFrameImageAsset(std::unique_ptr<SkAnimCodecPlayer> player,
                                            bool predecode)
     : fPlayer(std::move(player))
     , fPreDecode(predecode) {
     SkASSERT(fPlayer);
 }

 bool MultiFrameImageAsset::isMultiFrame() {
     return fPlayer->duration() > 0;
 }

 sk_sp<SkImage> MultiFrameImageAsset::getFrame(float t) {
     auto decode = [](sk_sp<SkImage> image) {
         SkASSERT(image->isLazyGenerated());

         static constexpr size_t kMaxArea = 2048 * 2048;
         const auto image_area = SkToSizeT(image->width() * image->height());

         if (image_area > kMaxArea) {
             // When the image is too large, decode and scale down to a reasonable size.
             const auto scale = std::sqrt(static_cast<float>(kMaxArea) / image_area);
             const auto info  = SkImageInfo::MakeN32Premul(scale * image->width(),
                                                           scale * image->height());
             SkBitmap bm;
             if (bm.tryAllocPixels(info, info.minRowBytes()) &&
                     image->scalePixels(bm.pixmap(),
                                        SkFilterQuality::kMedium_SkFilterQuality,
                                        SkImage::kDisallow_CachingHint)) {
                 image = SkImage::MakeFromBitmap(bm);
             }
         } else {
             // When the image size is OK, just force-decode.
             image = image->makeRasterImage();
         }

         return image;
     };

     fPlayer->seek(static_cast<uint32_t>(t * 1000));
     auto frame = fPlayer->getFrame();

     if (fPreDecode && frame && frame->isLazyGenerated()) {
         frame = decode(std::move(frame));
     }

     return frame;
 }

 sk_sp<FileResourceProvider> FileResourceProvider::Make(SkString base_dir, bool predecode) {
     return sk_isdir(base_dir.c_str())
         ? sk_sp<FileResourceProvider>(new FileResourceProvider(std::move(base_dir), predecode))
         : nullptr;
 }

 FileResourceProvider::FileResourceProvider(SkString base_dir, bool predecode)
     : fDir(std::move(base_dir))
     , fPredecode(predecode) {}

 sk_sp<SkData> FileResourceProvider::load(const char resource_path[],
                                          const char resource_name[]) const {
     const auto full_dir  = SkOSPath::Join(fDir.c_str()    , resource_path),
                full_path = SkOSPath::Join(full_dir.c_str(), resource_name);
     return SkData::MakeFromFileName(full_path.c_str());
 }

 sk_sp<skottie::ImageAsset> FileResourceProvider::loadImageAsset(const char resource_path[],
                                                                 const char resource_name[],
                                                                 const char[]) const {
     return MultiFrameImageAsset::Make(this->load(resource_path, resource_name), fPredecode);
 }

 CachingResourceProvider::CachingResourceProvider(sk_sp<ResourceProvider> rp)
     : fProxy(std::move(rp)) {}

 sk_sp<skottie::ImageAsset> CachingResourceProvider::loadImageAsset(const char resource_path[],
                                                                    const char resource_name[],
                                                                    const char resource_id[]) const {
     SkAutoMutexExclusive amx(fMutex);

     const SkString key(resource_id);
     if (const auto* asset = fImageCache.find(key)) {
         return *asset;
     }

     auto asset = fProxy->loadImageAsset(resource_path, resource_name, resource_id);
     fImageCache.set(key, asset);

     return asset;
 }

 class CustomPropertyManager::PropertyInterceptor final : public skottie::PropertyObserver {
 public:
     explicit PropertyInterceptor(CustomPropertyManager* mgr) : fMgr(mgr) {}

     void onColorProperty(const char node_name[],
                          const LazyHandle<skottie::ColorPropertyHandle>& c) override {
         const auto key = fMgr->acceptKey(node_name);
         if (!key.empty()) {
             fMgr->fColorMap[key].push_back(c());
         }
     }

     void onOpacityProperty(const char node_name[],
                            const LazyHandle<skottie::OpacityPropertyHandle>& o) override {
         const auto key = fMgr->acceptKey(node_name);
         if (!key.empty()) {
             fMgr->fOpacityMap[key].push_back(o());
         }
     }

     void onTransformProperty(const char node_name[],
                              const LazyHandle<skottie::TransformPropertyHandle>& t) override {
         const auto key = fMgr->acceptKey(node_name);
         if (!key.empty()) {
             fMgr->fTransformMap[key].push_back(t());
         }
     }

 private:
     CustomPropertyManager* fMgr;
 };

 class CustomPropertyManager::MarkerInterceptor final : public skottie::MarkerObserver {
 public:
     explicit MarkerInterceptor(CustomPropertyManager* mgr) : fMgr(mgr) {}

     void onMarker(const char name[], float t0, float t1) override {
         const auto key = fMgr->acceptKey(name);
         if (!key.empty()) {
             fMgr->fMarkers.push_back({ std::move(key), t0, t1 });
         }
     }

 private:
     CustomPropertyManager* fMgr;
 };

 CustomPropertyManager::CustomPropertyManager()
     : fPropertyInterceptor(sk_make_sp<PropertyInterceptor>(this))
     , fMarkerInterceptor(sk_make_sp<MarkerInterceptor>(this)) {}

 CustomPropertyManager::~CustomPropertyManager() = default;

 sk_sp<skottie::PropertyObserver> CustomPropertyManager::getPropertyObserver() const {
     return fPropertyInterceptor;
 }

 sk_sp<skottie::MarkerObserver> CustomPropertyManager::getMarkerObserver() const {
     return fMarkerInterceptor;
 }

 template <typename T>
 std::vector<CustomPropertyManager::PropKey>
 CustomPropertyManager::getProps(const PropMap<T>& container) const {
     std::vector<PropKey> props;

     for (const auto& prop_list : container) {
         SkASSERT(!prop_list.second.empty());
         props.push_back(prop_list.first);
     }

     return props;
 }

 template <typename V, typename T>
 V CustomPropertyManager::get(const PropKey& key, const PropMap<T>& container) const {
     auto prop_group = container.find(key);

     return prop_group == container.end()
             ? V()
             : prop_group->second.front()->get();
 }

 template <typename V, typename T>
 bool CustomPropertyManager::set(const PropKey& key, const V& val, const PropMap<T>& container) {
     auto prop_group = container.find(key);

     if (prop_group == container.end()) {
         return false;
     }

     for (auto& handle : prop_group->second) {
         handle->set(val);
     }

     return true;
 }

 std::vector<CustomPropertyManager::PropKey>
 CustomPropertyManager::getColorProps() const {
     return this->getProps(fColorMap);
 }

 skottie::ColorPropertyValue CustomPropertyManager::getColor(const PropKey& key) const {
     return this->get<skottie::ColorPropertyValue>(key, fColorMap);
 }

 bool CustomPropertyManager::setColor(const PropKey& key, const skottie::ColorPropertyValue& c) {
     return this->set(key, c, fColorMap);
 }

 std::vector<CustomPropertyManager::PropKey>
 CustomPropertyManager::getOpacityProps() const {
     return this->getProps(fOpacityMap);
 }

 skottie::OpacityPropertyValue CustomPropertyManager::getOpacity(const PropKey& key) const {
     return this->get<skottie::OpacityPropertyValue>(key, fOpacityMap);
 }

 bool CustomPropertyManager::setOpacity(const PropKey& key, const skottie::OpacityPropertyValue& o) {
     return this->set(key, o, fOpacityMap);
 }

 std::vector<CustomPropertyManager::PropKey>
 CustomPropertyManager::getTransformProps() const {
     return this->getProps(fTransformMap);
 }

 bool CustomPropertyManager::setTransform(const PropKey& key,
                                          const skottie::TransformPropertyValue& t) {
     return this->set(key, t, fTransformMap);
 }

 } // namespace skottie_utils
	/*
	* Copyright 2018 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "modules/skottie/utils/SkottieUtils.h"

	#include "include/codec/SkCodec.h"
	#include "include/core/SkData.h"
	#include "include/core/SkImage.h"
	#include "include/utils/SkAnimCodecPlayer.h"
	#include "src/core/SkMakeUnique.h"
	#include "src/core/SkOSFile.h"
	#include "src/utils/SkOSPath.h"

	#include <cmath>

	namespace skottie_utils {

	sk_sp<MultiFrameImageAsset> MultiFrameImageAsset::Make(sk_sp<SkData> data, bool predecode) {
	if (auto codec = SkCodec::MakeFromData(std::move(data))) {
	return sk_sp<MultiFrameImageAsset>(
	new MultiFrameImageAsset(skstd::make_unique<SkAnimCodecPlayer>(std::move(codec)),
	predecode));
	}

	return nullptr;
	}

	MultiFrameImageAsset::MultiFrameImageAsset(std::unique_ptr<SkAnimCodecPlayer> player,
	bool predecode)
	: fPlayer(std::move(player))
	, fPreDecode(predecode) {
	SkASSERT(fPlayer);
	}

	bool MultiFrameImageAsset::isMultiFrame() {
	return fPlayer->duration() > 0;
	}

	sk_sp<SkImage> MultiFrameImageAsset::getFrame(float t) {
	auto decode = [](sk_sp<SkImage> image) {
	SkASSERT(image->isLazyGenerated());

	static constexpr size_t kMaxArea = 2048 * 2048;
	const auto image_area = SkToSizeT(image->width() * image->height());

	if (image_area > kMaxArea) {
	// When the image is too large, decode and scale down to a reasonable size.
	const auto scale = std::sqrt(static_cast<float>(kMaxArea) / image_area);
	const auto info = SkImageInfo::MakeN32Premul(scale * image->width(),
	scale * image->height());
	SkBitmap bm;
	if (bm.tryAllocPixels(info, info.minRowBytes()) &&
	image->scalePixels(bm.pixmap(),
	SkFilterQuality::kMedium_SkFilterQuality,
	SkImage::kDisallow_CachingHint)) {
	image = SkImage::MakeFromBitmap(bm);
	}
	} else {
	// When the image size is OK, just force-decode.
	image = image->makeRasterImage();
	}

	return image;
	};

	fPlayer->seek(static_cast<uint32_t>(t * 1000));
	auto frame = fPlayer->getFrame();

	if (fPreDecode && frame && frame->isLazyGenerated()) {
	frame = decode(std::move(frame));
	}

	return frame;
	}

	sk_sp<FileResourceProvider> FileResourceProvider::Make(SkString base_dir, bool predecode) {
	return sk_isdir(base_dir.c_str())
	? sk_sp<FileResourceProvider>(new FileResourceProvider(std::move(base_dir), predecode))
	: nullptr;
	}

	FileResourceProvider::FileResourceProvider(SkString base_dir, bool predecode)
	: fDir(std::move(base_dir))
	, fPredecode(predecode) {}

	sk_sp<SkData> FileResourceProvider::load(const char resource_path[],
	const char resource_name[]) const {
	const auto full_dir = SkOSPath::Join(fDir.c_str() , resource_path),
	full_path = SkOSPath::Join(full_dir.c_str(), resource_name);
	return SkData::MakeFromFileName(full_path.c_str());
	}

	sk_sp<skottie::ImageAsset> FileResourceProvider::loadImageAsset(const char resource_path[],
	const char resource_name[],
	const char[]) const {
	return MultiFrameImageAsset::Make(this->load(resource_path, resource_name), fPredecode);
	}

	CachingResourceProvider::CachingResourceProvider(sk_sp<ResourceProvider> rp)
	: fProxy(std::move(rp)) {}

	sk_sp<skottie::ImageAsset> CachingResourceProvider::loadImageAsset(const char resource_path[],
	const char resource_name[],
	const char resource_id[]) const {
	SkAutoMutexExclusive amx(fMutex);

	const SkString key(resource_id);
	if (const auto* asset = fImageCache.find(key)) {
	return *asset;
	}

	auto asset = fProxy->loadImageAsset(resource_path, resource_name, resource_id);
	fImageCache.set(key, asset);

	return asset;
	}

	class CustomPropertyManager::PropertyInterceptor final : public skottie::PropertyObserver {
	public:
	explicit PropertyInterceptor(CustomPropertyManager* mgr) : fMgr(mgr) {}

	void onColorProperty(const char node_name[],
	const LazyHandle<skottie::ColorPropertyHandle>& c) override {
	const auto key = fMgr->acceptKey(node_name);
	if (!key.empty()) {
	fMgr->fColorMap[key].push_back(c());
	}
	}

	void onOpacityProperty(const char node_name[],
	const LazyHandle<skottie::OpacityPropertyHandle>& o) override {
	const auto key = fMgr->acceptKey(node_name);
	if (!key.empty()) {
	fMgr->fOpacityMap[key].push_back(o());
	}
	}

	void onTransformProperty(const char node_name[],
	const LazyHandle<skottie::TransformPropertyHandle>& t) override {
	const auto key = fMgr->acceptKey(node_name);
	if (!key.empty()) {
	fMgr->fTransformMap[key].push_back(t());
	}
	}

	private:
	CustomPropertyManager* fMgr;
	};

	class CustomPropertyManager::MarkerInterceptor final : public skottie::MarkerObserver {
	public:
	explicit MarkerInterceptor(CustomPropertyManager* mgr) : fMgr(mgr) {}

	void onMarker(const char name[], float t0, float t1) override {
	const auto key = fMgr->acceptKey(name);
	if (!key.empty()) {
	fMgr->fMarkers.push_back({ std::move(key), t0, t1 });
	}
	}

	private:
	CustomPropertyManager* fMgr;
	};

	CustomPropertyManager::CustomPropertyManager()
	: fPropertyInterceptor(sk_make_sp<PropertyInterceptor>(this))
	, fMarkerInterceptor(sk_make_sp<MarkerInterceptor>(this)) {}

	CustomPropertyManager::~CustomPropertyManager() = default;

	sk_sp<skottie::PropertyObserver> CustomPropertyManager::getPropertyObserver() const {
	return fPropertyInterceptor;
	}

	sk_sp<skottie::MarkerObserver> CustomPropertyManager::getMarkerObserver() const {
	return fMarkerInterceptor;
	}

	template <typename T>
	std::vector<CustomPropertyManager::PropKey>
	CustomPropertyManager::getProps(const PropMap<T>& container) const {
	std::vector<PropKey> props;

	for (const auto& prop_list : container) {
	SkASSERT(!prop_list.second.empty());
	props.push_back(prop_list.first);
	}

	return props;
	}

	template <typename V, typename T>
	V CustomPropertyManager::get(const PropKey& key, const PropMap<T>& container) const {
	auto prop_group = container.find(key);

	return prop_group == container.end()
	? V()
	: prop_group->second.front()->get();
	}

	template <typename V, typename T>
	bool CustomPropertyManager::set(const PropKey& key, const V& val, const PropMap<T>& container) {
	auto prop_group = container.find(key);

	if (prop_group == container.end()) {
	return false;
	}

	for (auto& handle : prop_group->second) {
	handle->set(val);
	}

	return true;
	}

	std::vector<CustomPropertyManager::PropKey>
	CustomPropertyManager::getColorProps() const {
	return this->getProps(fColorMap);
	}

	skottie::ColorPropertyValue CustomPropertyManager::getColor(const PropKey& key) const {
	return this->get<skottie::ColorPropertyValue>(key, fColorMap);
	}

	bool CustomPropertyManager::setColor(const PropKey& key, const skottie::ColorPropertyValue& c) {
	return this->set(key, c, fColorMap);
	}

	std::vector<CustomPropertyManager::PropKey>
	CustomPropertyManager::getOpacityProps() const {
	return this->getProps(fOpacityMap);
	}

	skottie::OpacityPropertyValue CustomPropertyManager::getOpacity(const PropKey& key) const {
	return this->get<skottie::OpacityPropertyValue>(key, fOpacityMap);
	}

	bool CustomPropertyManager::setOpacity(const PropKey& key, const skottie::OpacityPropertyValue& o) {
	return this->set(key, o, fOpacityMap);
	}

	std::vector<CustomPropertyManager::PropKey>
	CustomPropertyManager::getTransformProps() const {
	return this->getProps(fTransformMap);
	}

	bool CustomPropertyManager::setTransform(const PropKey& key,
	const skottie::TransformPropertyValue& t) {
	return this->set(key, t, fTransformMap);
	}

	} // namespace skottie_utils