third_party/skia_next/third_party/skia/modules/skottie/src/layers/FootageLayer.cpp - cobalt - Git at Google

 /*
  * Copyright 2019 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/src/SkottiePriv.h"

 #include "include/core/SkImage.h"
 #include "modules/skottie/src/SkottieJson.h"
 #include "modules/sksg/include/SkSGImage.h"
 #include "modules/sksg/include/SkSGTransform.h"

 namespace skottie {
 namespace internal {

 namespace  {

 SkMatrix image_matrix(const ImageAsset::FrameData& frame_data, const SkISize& dest_size) {
     if (!frame_data.image) {
         return SkMatrix::I();
     }

     return frame_data.matrix * SkMatrix::RectToRect(SkRect::Make(frame_data.image->bounds()),
                                                     SkRect::Make(dest_size),
                                                     SkMatrix::kCenter_ScaleToFit);
 }

 class FootageAnimator final : public Animator {
 public:
     FootageAnimator(sk_sp<ImageAsset> asset,
                     sk_sp<sksg::Image> image_node,
                     sk_sp<sksg::Matrix<SkMatrix>> image_transform_node,
                     const SkISize& asset_size,
                     float time_bias, float time_scale)
         : fAsset(std::move(asset))
         , fImageNode(std::move(image_node))
         , fImageTransformNode(std::move(image_transform_node))
         , fAssetSize(asset_size)
         , fTimeBias(time_bias)
         , fTimeScale(time_scale)
         , fIsMultiframe(fAsset->isMultiFrame()) {}

     StateChanged onSeek(float t) override {
         if (!fIsMultiframe && fImageNode->getImage()) {
             // Single frame already resolved.
             return false;
         }

         auto frame_data = fAsset->getFrameData((t + fTimeBias) * fTimeScale);
         const auto m = image_matrix(frame_data, fAssetSize);
         if (frame_data.image    != fImageNode->getImage() ||
             frame_data.sampling != fImageNode->getSamplingOptions() ||
             m                   != fImageTransformNode->getMatrix()) {

             fImageNode->setImage(std::move(frame_data.image));
             fImageNode->setSamplingOptions(frame_data.sampling);
             fImageTransformNode->setMatrix(m);
             return true;
         }

         return false;
     }

 private:
     const sk_sp<ImageAsset>             fAsset;
     const sk_sp<sksg::Image>            fImageNode;
     const sk_sp<sksg::Matrix<SkMatrix>> fImageTransformNode;
     const SkISize                       fAssetSize;
     const float                         fTimeBias,
                                         fTimeScale;
     const bool                          fIsMultiframe;
 };

 } // namespace

 const AnimationBuilder::FootageAssetInfo*
 AnimationBuilder::loadFootageAsset(const skjson::ObjectValue& jimage) const {
     const skjson::StringValue* name = jimage["p"];
     const skjson::StringValue* path = jimage["u"];
     const skjson::StringValue* id   = jimage["id"];
     if (!name || !path || !id) {
         return nullptr;
     }

     const SkString res_id(id->begin());
     if (auto* cached_info = fImageAssetCache.find(res_id)) {
         return cached_info;
     }

     auto asset = fResourceProvider->loadImageAsset(path->begin(), name->begin(), id->begin());
     if (!asset) {
         this->log(Logger::Level::kError, nullptr, "Could not load image asset: %s/%s (id: '%s').",
                   path->begin(), name->begin(), id->begin());
         return nullptr;
     }

     const auto size = SkISize::Make(ParseDefault<int>(jimage["w"], 0),
                                     ParseDefault<int>(jimage["h"], 0));
     return fImageAssetCache.set(res_id, { std::move(asset), size });
 }

 sk_sp<sksg::RenderNode> AnimationBuilder::attachFootageAsset(const skjson::ObjectValue& jimage,
                                                              LayerInfo* layer_info) const {
     const auto* asset_info = this->loadFootageAsset(jimage);
     if (!asset_info) {
         return nullptr;
     }
     SkASSERT(asset_info->fAsset);

     auto image_node = sksg::Image::Make(nullptr);

     // Optional image transform (mapping the intrinsic image size to declared asset size).
     sk_sp<sksg::Matrix<SkMatrix>> image_transform;

     const auto requires_animator = (fFlags & Animation::Builder::kDeferImageLoading)
                                     || asset_info->fAsset->isMultiFrame();
     if (requires_animator) {
         // We don't know the intrinsic image size yet (plus, in the general case,
         // the size may change from frame to frame) -> we always prepare a scaling transform.
         image_transform = sksg::Matrix<SkMatrix>::Make(SkMatrix::I());
         fCurrentAnimatorScope->push_back(sk_make_sp<FootageAnimator>(asset_info->fAsset,
                                                                      image_node,
                                                                      image_transform,
                                                                      asset_info->fSize,
                                                                      -layer_info->fInPoint,
                                                                      1 / fFrameRate));
     } else {
         // No animator needed, resolve the (only) frame upfront.
         auto frame_data = asset_info->fAsset->getFrameData(0);
         if (!frame_data.image) {
             this->log(Logger::Level::kError, nullptr, "Could not load single-frame image asset.");
             return nullptr;
         }

         const auto m = image_matrix(frame_data, asset_info->fSize);
         if (!m.isIdentity()) {
             image_transform = sksg::Matrix<SkMatrix>::Make(m);
         }

         image_node->setImage(std::move(frame_data.image));
         image_node->setSamplingOptions(frame_data.sampling);
     }

     // Image layers are sized explicitly.
     layer_info->fSize = SkSize::Make(asset_info->fSize);

     if (!image_transform) {
         // No resize needed.
         return std::move(image_node);
     }

     return sksg::TransformEffect::Make(std::move(image_node), std::move(image_transform));
 }

 sk_sp<sksg::RenderNode> AnimationBuilder::attachFootageLayer(const skjson::ObjectValue& jlayer,
                                                              LayerInfo* layer_info) const {
     const ScopedAssetRef footage_asset(this, jlayer);

     return footage_asset
         ? this->attachFootageAsset(*footage_asset, layer_info)
         : nullptr;
 }

 } // namespace internal
 } // namespace skottie
	/*
	* Copyright 2019 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/src/SkottiePriv.h"

	#include "include/core/SkImage.h"
	#include "modules/skottie/src/SkottieJson.h"
	#include "modules/sksg/include/SkSGImage.h"
	#include "modules/sksg/include/SkSGTransform.h"

	namespace skottie {
	namespace internal {

	namespace {

	SkMatrix image_matrix(const ImageAsset::FrameData& frame_data, const SkISize& dest_size) {
	if (!frame_data.image) {
	return SkMatrix::I();
	}

	return frame_data.matrix * SkMatrix::RectToRect(SkRect::Make(frame_data.image->bounds()),
	SkRect::Make(dest_size),
	SkMatrix::kCenter_ScaleToFit);
	}

	class FootageAnimator final : public Animator {
	public:
	FootageAnimator(sk_sp<ImageAsset> asset,
	sk_sp<sksg::Image> image_node,
	sk_sp<sksg::Matrix<SkMatrix>> image_transform_node,
	const SkISize& asset_size,
	float time_bias, float time_scale)
	: fAsset(std::move(asset))
	, fImageNode(std::move(image_node))
	, fImageTransformNode(std::move(image_transform_node))
	, fAssetSize(asset_size)
	, fTimeBias(time_bias)
	, fTimeScale(time_scale)
	, fIsMultiframe(fAsset->isMultiFrame()) {}

	StateChanged onSeek(float t) override {
	if (!fIsMultiframe && fImageNode->getImage()) {
	// Single frame already resolved.
	return false;
	}

	auto frame_data = fAsset->getFrameData((t + fTimeBias) * fTimeScale);
	const auto m = image_matrix(frame_data, fAssetSize);
	if (frame_data.image != fImageNode->getImage() \|\|
	frame_data.sampling != fImageNode->getSamplingOptions() \|\|
	m != fImageTransformNode->getMatrix()) {

	fImageNode->setImage(std::move(frame_data.image));
	fImageNode->setSamplingOptions(frame_data.sampling);
	fImageTransformNode->setMatrix(m);
	return true;
	}

	return false;
	}

	private:
	const sk_sp<ImageAsset> fAsset;
	const sk_sp<sksg::Image> fImageNode;
	const sk_sp<sksg::Matrix<SkMatrix>> fImageTransformNode;
	const SkISize fAssetSize;
	const float fTimeBias,
	fTimeScale;
	const bool fIsMultiframe;
	};

	} // namespace

	const AnimationBuilder::FootageAssetInfo*
	AnimationBuilder::loadFootageAsset(const skjson::ObjectValue& jimage) const {
	const skjson::StringValue* name = jimage["p"];
	const skjson::StringValue* path = jimage["u"];
	const skjson::StringValue* id = jimage["id"];
	if (!name \|\| !path \|\| !id) {
	return nullptr;
	}

	const SkString res_id(id->begin());
	if (auto* cached_info = fImageAssetCache.find(res_id)) {
	return cached_info;
	}

	auto asset = fResourceProvider->loadImageAsset(path->begin(), name->begin(), id->begin());
	if (!asset) {
	this->log(Logger::Level::kError, nullptr, "Could not load image asset: %s/%s (id: '%s').",
	path->begin(), name->begin(), id->begin());
	return nullptr;
	}

	const auto size = SkISize::Make(ParseDefault<int>(jimage["w"], 0),
	ParseDefault<int>(jimage["h"], 0));
	return fImageAssetCache.set(res_id, { std::move(asset), size });
	}

	sk_sp<sksg::RenderNode> AnimationBuilder::attachFootageAsset(const skjson::ObjectValue& jimage,
	LayerInfo* layer_info) const {
	const auto* asset_info = this->loadFootageAsset(jimage);
	if (!asset_info) {
	return nullptr;
	}
	SkASSERT(asset_info->fAsset);

	auto image_node = sksg::Image::Make(nullptr);

	// Optional image transform (mapping the intrinsic image size to declared asset size).
	sk_sp<sksg::Matrix<SkMatrix>> image_transform;

	const auto requires_animator = (fFlags & Animation::Builder::kDeferImageLoading)
	\|\| asset_info->fAsset->isMultiFrame();
	if (requires_animator) {
	// We don't know the intrinsic image size yet (plus, in the general case,
	// the size may change from frame to frame) -> we always prepare a scaling transform.
	image_transform = sksg::Matrix<SkMatrix>::Make(SkMatrix::I());
	fCurrentAnimatorScope->push_back(sk_make_sp<FootageAnimator>(asset_info->fAsset,
	image_node,
	image_transform,
	asset_info->fSize,
	-layer_info->fInPoint,
	1 / fFrameRate));
	} else {
	// No animator needed, resolve the (only) frame upfront.
	auto frame_data = asset_info->fAsset->getFrameData(0);
	if (!frame_data.image) {
	this->log(Logger::Level::kError, nullptr, "Could not load single-frame image asset.");
	return nullptr;
	}

	const auto m = image_matrix(frame_data, asset_info->fSize);
	if (!m.isIdentity()) {
	image_transform = sksg::Matrix<SkMatrix>::Make(m);
	}

	image_node->setImage(std::move(frame_data.image));
	image_node->setSamplingOptions(frame_data.sampling);
	}

	// Image layers are sized explicitly.
	layer_info->fSize = SkSize::Make(asset_info->fSize);

	if (!image_transform) {
	// No resize needed.
	return std::move(image_node);
	}

	return sksg::TransformEffect::Make(std::move(image_node), std::move(image_transform));
	}

	sk_sp<sksg::RenderNode> AnimationBuilder::attachFootageLayer(const skjson::ObjectValue& jlayer,
	LayerInfo* layer_info) const {
	const ScopedAssetRef footage_asset(this, jlayer);

	return footage_asset
	? this->attachFootageAsset(*footage_asset, layer_info)
	: nullptr;
	}

	} // namespace internal
	} // namespace skottie