cc/paint/paint_filter.cc - chromium/src - Git at Google

 // Copyright 2017 The Chromium Authors
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "cc/paint/paint_filter.h"

 #include <string>
 #include <utility>
 #include <vector>

 #include "base/memory/values_equivalent.h"
 #include "base/no_destructor.h"
 #include "base/notreached.h"
 #include "base/ranges/algorithm.h"
 #include "base/types/optional_util.h"
 #include "build/build_config.h"
 #include "cc/paint/draw_image.h"
 #include "cc/paint/filter_operations.h"
 #include "cc/paint/image_provider.h"
 #include "cc/paint/paint_image_builder.h"
 #include "cc/paint/paint_op_writer.h"
 #include "cc/paint/paint_record.h"
 #include "cc/paint/scoped_raster_flags.h"
 #include "third_party/skia/include/core/SkColorFilter.h"
 #include "third_party/skia/include/core/SkColorSpace.h"
 #include "third_party/skia/include/core/SkImage.h"
 #include "third_party/skia/include/core/SkScalar.h"
 #include "third_party/skia/include/core/SkString.h"
 #include "third_party/skia/include/core/SkTileMode.h"
 #include "third_party/skia/include/effects/SkImageFilters.h"
 #include "third_party/skia/include/effects/SkPerlinNoiseShader.h"
 #include "third_party/skia/include/effects/SkRuntimeEffect.h"

 namespace cc {
 namespace {
 const bool kHasNoDiscardableImages = false;

 template <typename T>
 bool AreValuesEqualForTesting(const sk_sp<T>& a, const sk_sp<T>& b) {
   return base::ValuesEquivalent(a, b, [](const T& x, const T& y) {
     return x.EqualsForTesting(y);  // IN-TEST
   });
 }

 template <typename T>
 bool AreEqualForTesting(const PaintFilter& a, const PaintFilter& b) {
   return static_cast<const T&>(a).EqualsForTesting(  // IN-TEST
       static_cast<const T&>(b));
 }

 bool HasDiscardableImages(const sk_sp<PaintFilter>& filter) {
   return filter ? filter->has_discardable_images() : false;
 }

 bool HasDiscardableImages(const sk_sp<PaintFilter>* const filters, int count) {
   for (int i = 0; i < count; ++i) {
     if (filters[i] && filters[i]->has_discardable_images())
       return true;
   }
   return false;
 }

 sk_sp<PaintFilter> Snapshot(const sk_sp<PaintFilter>& filter,
                             ImageProvider* image_provider) {
   if (!filter)
     return nullptr;
   return filter->SnapshotWithImages(image_provider);
 }

 }  // namespace

 PaintFilter::PaintFilter(Type type,
                          const CropRect* crop_rect,
                          bool has_discardable_images)
     : type_(type), has_discardable_images_(has_discardable_images) {
   if (crop_rect)
     crop_rect_.emplace(*crop_rect);
 }

 PaintFilter::~PaintFilter() = default;

 // static
 std::string PaintFilter::TypeToString(Type type) {
   switch (type) {
     case Type::kNullFilter:
       return "kNullFilter";
     case Type::kColorFilter:
       return "kColorFilter";
     case Type::kBlur:
       return "kBlur";
     case Type::kDropShadow:
       return "kDropShadow";
     case Type::kMagnifier:
       return "kMagnifier";
     case Type::kCompose:
       return "kCompose";
     case Type::kAlphaThreshold:
       return "kAlphaThreshold";
     case Type::kXfermode:
       return "kXfermode";
     case Type::kArithmetic:
       return "kArithmetic";
     case Type::kMatrixConvolution:
       return "kMatrixConvolution";
     case Type::kDisplacementMapEffect:
       return "kDisplacementMapEffect";
     case Type::kImage:
       return "kImage";
     case Type::kPaintRecord:
       return "kPaintRecord";
     case Type::kMerge:
       return "kMerge";
     case Type::kMorphology:
       return "kMorphology";
     case Type::kOffset:
       return "kOffset";
     case Type::kTile:
       return "kTile";
     case Type::kTurbulence:
       return "kTurbulence";
     case Type::kShader:
       return "kShader";
     case Type::kMatrix:
       return "kMatrix";
     case Type::kLightingDistant:
       return "kLightingDistant";
     case Type::kLightingPoint:
       return "kLightingPoint";
     case Type::kLightingSpot:
       return "kLightingSpot";
   }
   NOTREACHED();
   return "Unknown";
 }

 const PaintFilter::CropRect* PaintFilter::GetCropRect() const {
   return base::OptionalToPtr(crop_rect_);
 }

 size_t PaintFilter::BaseSerializedSize() const {
   size_t total_size = 0u;
   total_size += PaintOpWriter::SerializedSize(type_);
   // Bool to indicate whether crop exists.
   total_size += PaintOpWriter::SerializedSize<bool>();
   if (crop_rect_) {
     total_size += PaintOpWriter::SerializedSize(*crop_rect_);
   }
   return total_size;
 }

 sk_sp<PaintFilter> PaintFilter::SnapshotWithImages(
     ImageProvider* image_provider) const {
   if (!has_discardable_images_)
     return sk_ref_sp<PaintFilter>(this);
   return SnapshotWithImagesInternal(image_provider);
 }

 bool PaintFilter::EqualsForTesting(const PaintFilter& other) const {
   if (type_ != other.type_) {
     return false;
   }
   if (crop_rect_ != other.crop_rect_) {
     return false;
   }

   switch (type_) {
     case Type::kNullFilter:
       return true;
     case Type::kColorFilter:
       return AreEqualForTesting<ColorFilterPaintFilter>(*this, other);
     case Type::kBlur:
       return AreEqualForTesting<BlurPaintFilter>(*this, other);
     case Type::kDropShadow:
       return AreEqualForTesting<DropShadowPaintFilter>(*this, other);
     case Type::kMagnifier:
       return AreEqualForTesting<MagnifierPaintFilter>(*this, other);
     case Type::kCompose:
       return AreEqualForTesting<ComposePaintFilter>(*this, other);
     case Type::kAlphaThreshold:
       return AreEqualForTesting<AlphaThresholdPaintFilter>(*this, other);
     case Type::kXfermode:
       return AreEqualForTesting<XfermodePaintFilter>(*this, other);
     case Type::kArithmetic:
       return AreEqualForTesting<ArithmeticPaintFilter>(*this, other);
     case Type::kMatrixConvolution:
       return AreEqualForTesting<MatrixConvolutionPaintFilter>(*this, other);
     case Type::kDisplacementMapEffect:
       return AreEqualForTesting<DisplacementMapEffectPaintFilter>(*this, other);
     case Type::kImage:
       return AreEqualForTesting<ImagePaintFilter>(*this, other);
     case Type::kPaintRecord:
       return AreEqualForTesting<RecordPaintFilter>(*this, other);
     case Type::kMerge:
       return AreEqualForTesting<MergePaintFilter>(*this, other);
     case Type::kMorphology:
       return AreEqualForTesting<MorphologyPaintFilter>(*this, other);
     case Type::kOffset:
       return AreEqualForTesting<OffsetPaintFilter>(*this, other);
     case Type::kTile:
       return AreEqualForTesting<TilePaintFilter>(*this, other);
     case Type::kTurbulence:
       return AreEqualForTesting<TurbulencePaintFilter>(*this, other);
     case Type::kShader:
       return AreEqualForTesting<ShaderPaintFilter>(*this, other);
     case Type::kMatrix:
       return AreEqualForTesting<MatrixPaintFilter>(*this, other);
     case Type::kLightingDistant:
       return AreEqualForTesting<LightingDistantPaintFilter>(*this, other);
     case Type::kLightingPoint:
       return AreEqualForTesting<LightingPointPaintFilter>(*this, other);
     case Type::kLightingSpot:
       return AreEqualForTesting<LightingSpotPaintFilter>(*this, other);
   }
   NOTREACHED();
   return true;
 }

 ColorFilterPaintFilter::ColorFilterPaintFilter(
     sk_sp<SkColorFilter> color_filter,
     sk_sp<PaintFilter> input,
     const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       color_filter_(std::move(color_filter)),
       input_(std::move(input)) {
   DCHECK(color_filter_);
   cached_sk_filter_ = SkImageFilters::ColorFilter(
       color_filter_, GetSkFilter(input_.get()), crop_rect);
 }

 ColorFilterPaintFilter::~ColorFilterPaintFilter() = default;

 size_t ColorFilterPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size = 0u;
   total_size += BaseSerializedSize();
   total_size += PaintOpWriter::SerializedSize(
       static_cast<const SkFlattenable*>(color_filter_.get()));
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> ColorFilterPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<ColorFilterPaintFilter>(
       color_filter_, Snapshot(input_, image_provider), GetCropRect());
 }

 bool ColorFilterPaintFilter::EqualsForTesting(
     const ColorFilterPaintFilter& other) const {
   return base::ValuesEquivalent(
              color_filter_, other.color_filter_,
              [](const auto& a, const auto& b) {
                return a.serialize()->equals(b.serialize().get());
              }) &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 BlurPaintFilter::BlurPaintFilter(SkScalar sigma_x,
                                  SkScalar sigma_y,
                                  SkTileMode tile_mode,
                                  sk_sp<PaintFilter> input,
                                  const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       sigma_x_(sigma_x),
       sigma_y_(sigma_y),
       tile_mode_(tile_mode),
       input_(std::move(input)) {
   cached_sk_filter_ = SkImageFilters::Blur(
       sigma_x, sigma_y, tile_mode_, GetSkFilter(input_.get()), crop_rect);
 }

 BlurPaintFilter::~BlurPaintFilter() = default;

 size_t BlurPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(sigma_x_) +
       PaintOpWriter::SerializedSize(sigma_y_) +
       PaintOpWriter::SerializedSize(tile_mode_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> BlurPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<BlurPaintFilter>(sigma_x_, sigma_y_, tile_mode_,
                                      Snapshot(input_, image_provider),
                                      GetCropRect());
 }

 bool BlurPaintFilter::EqualsForTesting(const BlurPaintFilter& other) const {
   return sigma_x_ == other.sigma_x_ && sigma_y_ == other.sigma_y_ &&
          tile_mode_ == other.tile_mode_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 DropShadowPaintFilter::DropShadowPaintFilter(SkScalar dx,
                                              SkScalar dy,
                                              SkScalar sigma_x,
                                              SkScalar sigma_y,
                                              SkColor4f color,
                                              ShadowMode shadow_mode,
                                              sk_sp<PaintFilter> input,
                                              const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       dx_(dx),
       dy_(dy),
       sigma_x_(sigma_x),
       sigma_y_(sigma_y),
       color_(color),
       shadow_mode_(shadow_mode),
       input_(std::move(input)) {
   if (shadow_mode == ShadowMode::kDrawShadowOnly) {
     // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
     cached_sk_filter_ = SkImageFilters::DropShadowOnly(
         dx_, dy_, sigma_x_, sigma_y_, color_.toSkColor(),
         GetSkFilter(input_.get()), crop_rect);
   } else {
     // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
     cached_sk_filter_ = SkImageFilters::DropShadow(
         dx_, dy_, sigma_x_, sigma_y_, color_.toSkColor(),
         GetSkFilter(input_.get()), crop_rect);
   }
 }

 DropShadowPaintFilter::~DropShadowPaintFilter() = default;

 size_t DropShadowPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(dx_) +
       PaintOpWriter::SerializedSize(dy_) +
       PaintOpWriter::SerializedSize(sigma_x_) +
       PaintOpWriter::SerializedSize(sigma_y_) +
       PaintOpWriter::SerializedSize(color_) +
       PaintOpWriter::SerializedSize(shadow_mode_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> DropShadowPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<DropShadowPaintFilter>(
       dx_, dy_, sigma_x_, sigma_y_, color_, shadow_mode_,
       Snapshot(input_, image_provider), GetCropRect());
 }

 bool DropShadowPaintFilter::EqualsForTesting(
     const DropShadowPaintFilter& other) const {
   return dx_ == other.dx_ && dy_ == other.dy_ && sigma_x_ == other.sigma_x_ &&
          sigma_y_ == other.sigma_y_ && color_ == other.color_ &&
          shadow_mode_ == other.shadow_mode_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 MagnifierPaintFilter::MagnifierPaintFilter(const SkRect& src_rect,
                                            SkScalar inset,
                                            sk_sp<PaintFilter> input,
                                            const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       src_rect_(src_rect),
       inset_(inset),
       input_(std::move(input)) {
   cached_sk_filter_ = SkImageFilters::Magnifier(
       src_rect_, inset_, GetSkFilter(input_.get()), crop_rect);
 }

 MagnifierPaintFilter::~MagnifierPaintFilter() = default;

 size_t MagnifierPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(src_rect_) +
       PaintOpWriter::SerializedSize(inset_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> MagnifierPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<MagnifierPaintFilter>(
       src_rect_, inset_, Snapshot(input_, image_provider), GetCropRect());
 }

 bool MagnifierPaintFilter::EqualsForTesting(
     const MagnifierPaintFilter& other) const {
   return src_rect_ == other.src_rect_ && inset_ == other.inset_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 ComposePaintFilter::ComposePaintFilter(sk_sp<PaintFilter> outer,
                                        sk_sp<PaintFilter> inner)
     : PaintFilter(Type::kCompose,
                   nullptr,
                   HasDiscardableImages(outer) || HasDiscardableImages(inner)),
       outer_(std::move(outer)),
       inner_(std::move(inner)) {
   cached_sk_filter_ = SkImageFilters::Compose(GetSkFilter(outer_.get()),
                                               GetSkFilter(inner_.get()));
 }

 ComposePaintFilter::~ComposePaintFilter() = default;

 size_t ComposePaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size = BaseSerializedSize();
   total_size += PaintOpWriter::SerializedSize(outer_.get());
   total_size += PaintOpWriter::SerializedSize(inner_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> ComposePaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<ComposePaintFilter>(Snapshot(outer_, image_provider),
                                         Snapshot(inner_, image_provider));
 }

 bool ComposePaintFilter::EqualsForTesting(
     const ComposePaintFilter& other) const {
   return AreValuesEqualForTesting(outer_, other.outer_) &&  // IN-TEST
          AreValuesEqualForTesting(inner_, other.inner_);    // IN-TEST
 }

 AlphaThresholdPaintFilter::AlphaThresholdPaintFilter(const SkRegion& region,
                                                      SkScalar inner_min,
                                                      SkScalar outer_max,
                                                      sk_sp<PaintFilter> input,
                                                      const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       region_(region),
       inner_min_(inner_min),
       outer_max_(outer_max),
       input_(std::move(input)) {
   cached_sk_filter_ = SkImageFilters::AlphaThreshold(
       region_, inner_min_, outer_max_, GetSkFilter(input_.get()), crop_rect);
 }

 AlphaThresholdPaintFilter::~AlphaThresholdPaintFilter() = default;

 size_t AlphaThresholdPaintFilter::SerializedSize() const {
   size_t region_size = region_.writeToMemory(nullptr);
   base::CheckedNumeric<size_t> total_size;
   total_size = BaseSerializedSize() +
                PaintOpWriter::SerializedSizeOfBytes(region_size) +
                PaintOpWriter::SerializedSize(inner_min_) +
                PaintOpWriter::SerializedSize(outer_max_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> AlphaThresholdPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<AlphaThresholdPaintFilter>(region_, inner_min_, outer_max_,
                                                Snapshot(input_, image_provider),
                                                GetCropRect());
 }

 bool AlphaThresholdPaintFilter::EqualsForTesting(
     const AlphaThresholdPaintFilter& other) const {
   return region_ == other.region_ && inner_min_ == other.inner_min_ &&
          outer_max_ == other.outer_max_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 XfermodePaintFilter::XfermodePaintFilter(SkBlendMode blend_mode,
                                          sk_sp<PaintFilter> background,
                                          sk_sp<PaintFilter> foreground,
                                          const CropRect* crop_rect)
     : PaintFilter(
           kType,
           crop_rect,
           HasDiscardableImages(background) || HasDiscardableImages(foreground)),
       blend_mode_(blend_mode),
       background_(std::move(background)),
       foreground_(std::move(foreground)) {
   cached_sk_filter_ =
       SkImageFilters::Blend(blend_mode_, GetSkFilter(background_.get()),
                             GetSkFilter(foreground_.get()), crop_rect);
 }

 XfermodePaintFilter::~XfermodePaintFilter() = default;

 size_t XfermodePaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(blend_mode_);
   total_size += PaintOpWriter::SerializedSize(background_.get());
   total_size += PaintOpWriter::SerializedSize(foreground_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> XfermodePaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<XfermodePaintFilter>(
       blend_mode_, Snapshot(background_, image_provider),
       Snapshot(foreground_, image_provider), GetCropRect());
 }

 bool XfermodePaintFilter::EqualsForTesting(
     const XfermodePaintFilter& other) const {
   return blend_mode_ == other.blend_mode_ &&
          AreValuesEqualForTesting(background_, other.background_) &&  // IN-TEST
          AreValuesEqualForTesting(foreground_, other.foreground_);    // IN-TEST
 }

 ArithmeticPaintFilter::ArithmeticPaintFilter(float k1,
                                              float k2,
                                              float k3,
                                              float k4,
                                              bool enforce_pm_color,
                                              sk_sp<PaintFilter> background,
                                              sk_sp<PaintFilter> foreground,
                                              const CropRect* crop_rect)
     : PaintFilter(
           kType,
           crop_rect,
           HasDiscardableImages(background) || HasDiscardableImages(foreground)),
       k1_(k1),
       k2_(k2),
       k3_(k3),
       k4_(k4),
       enforce_pm_color_(enforce_pm_color),
       background_(std::move(background)),
       foreground_(std::move(foreground)) {
   cached_sk_filter_ = SkImageFilters::Arithmetic(
       k1_, k2_, k3_, k4_, enforce_pm_color_, GetSkFilter(background_.get()),
       GetSkFilter(foreground_.get()), crop_rect);
 }

 ArithmeticPaintFilter::~ArithmeticPaintFilter() = default;

 size_t ArithmeticPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(k1_) +
       PaintOpWriter::SerializedSize(k2_) + PaintOpWriter::SerializedSize(k3_) +
       PaintOpWriter::SerializedSize(k4_) +
       PaintOpWriter::SerializedSize(enforce_pm_color_);
   total_size += PaintOpWriter::SerializedSize(background_.get());
   total_size += PaintOpWriter::SerializedSize(foreground_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> ArithmeticPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<ArithmeticPaintFilter>(
       k1_, k2_, k3_, k4_, enforce_pm_color_,
       Snapshot(background_, image_provider),
       Snapshot(foreground_, image_provider), GetCropRect());
 }

 bool ArithmeticPaintFilter::EqualsForTesting(
     const ArithmeticPaintFilter& other) const {
   return k1_ == other.k1_ && k2_ == other.k2_ && k3_ == other.k3_ &&
          k4_ == other.k4_ && enforce_pm_color_ == other.enforce_pm_color_ &&
          AreValuesEqualForTesting(background_, other.background_) &&  // IN-TEST
          AreValuesEqualForTesting(foreground_, other.foreground_);    // IN-TEST
 }

 MatrixConvolutionPaintFilter::MatrixConvolutionPaintFilter(
     const SkISize& kernel_size,
     const SkScalar* kernel,
     SkScalar gain,
     SkScalar bias,
     const SkIPoint& kernel_offset,
     SkTileMode tile_mode,
     bool convolve_alpha,
     sk_sp<PaintFilter> input,
     const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       kernel_size_(kernel_size),
       gain_(gain),
       bias_(bias),
       kernel_offset_(kernel_offset),
       tile_mode_(tile_mode),
       convolve_alpha_(convolve_alpha),
       input_(std::move(input)) {
   DCHECK(kernel_size_.width() >= 0 && kernel_size_.height() >= 0);
   auto len = static_cast<size_t>(kernel_size_.width()) *
              static_cast<size_t>(kernel_size_.height());
   kernel_->reserve(len);
   for (size_t i = 0; i < len; ++i)
     kernel_->push_back(kernel[i]);

   cached_sk_filter_ = SkImageFilters::MatrixConvolution(
       kernel_size_, kernel, gain_, bias_, kernel_offset_, tile_mode_,
       convolve_alpha_, GetSkFilter(input_.get()), crop_rect);
 }

 MatrixConvolutionPaintFilter::~MatrixConvolutionPaintFilter() = default;

 size_t MatrixConvolutionPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(kernel_size_) +
       PaintOpWriter::SerializedSize<size_t>() +
       PaintOpWriter::SerializedSizeOfElements(kernel_->data(),
                                               kernel_->size()) +
       PaintOpWriter::SerializedSize(gain_) +
       PaintOpWriter::SerializedSize(bias_) +
       PaintOpWriter::SerializedSize(kernel_offset_) +
       PaintOpWriter::SerializedSize(tile_mode_) +
       PaintOpWriter::SerializedSize(convolve_alpha_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> MatrixConvolutionPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<MatrixConvolutionPaintFilter>(
       kernel_size_, &kernel_[0], gain_, bias_, kernel_offset_, tile_mode_,
       convolve_alpha_, Snapshot(input_, image_provider), GetCropRect());
 }

 bool MatrixConvolutionPaintFilter::EqualsForTesting(
     const MatrixConvolutionPaintFilter& other) const {
   return kernel_size_ == other.kernel_size_ &&
          base::ranges::equal(kernel_.container(), other.kernel_.container()) &&
          gain_ == other.gain_ && bias_ == other.bias_ &&
          kernel_offset_ == other.kernel_offset_ &&
          tile_mode_ == other.tile_mode_ &&
          convolve_alpha_ == other.convolve_alpha_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 DisplacementMapEffectPaintFilter::DisplacementMapEffectPaintFilter(
     SkColorChannel channel_x,
     SkColorChannel channel_y,
     SkScalar scale,
     sk_sp<PaintFilter> displacement,
     sk_sp<PaintFilter> color,
     const CropRect* crop_rect)
     : PaintFilter(
           kType,
           crop_rect,
           HasDiscardableImages(displacement) || HasDiscardableImages(color)),
       channel_x_(channel_x),
       channel_y_(channel_y),
       scale_(scale),
       displacement_(std::move(displacement)),
       color_(std::move(color)) {
   cached_sk_filter_ = SkImageFilters::DisplacementMap(
       channel_x_, channel_y_, scale_, GetSkFilter(displacement_.get()),
       GetSkFilter(color_.get()), crop_rect);
 }

 DisplacementMapEffectPaintFilter::~DisplacementMapEffectPaintFilter() = default;

 size_t DisplacementMapEffectPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(channel_x_) +
       PaintOpWriter::SerializedSize(channel_y_) +
       PaintOpWriter::SerializedSize(scale_);
   total_size += PaintOpWriter::SerializedSize(displacement_.get());
   total_size += PaintOpWriter::SerializedSize(color_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> DisplacementMapEffectPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<DisplacementMapEffectPaintFilter>(
       channel_x_, channel_y_, scale_, Snapshot(displacement_, image_provider),
       Snapshot(color_, image_provider), GetCropRect());
 }

 bool DisplacementMapEffectPaintFilter::EqualsForTesting(
     const DisplacementMapEffectPaintFilter& other) const {
   return channel_x_ == other.channel_x_ && channel_y_ == other.channel_y_ &&
          scale_ == other.scale_ &&
          AreValuesEqualForTesting(displacement_,  // IN-TEST
                                   other.displacement_) &&
          AreValuesEqualForTesting(color_, other.color_);  // IN-TEST
 }

 ImagePaintFilter::ImagePaintFilter(PaintImage image,
                                    const SkRect& src_rect,
                                    const SkRect& dst_rect,
                                    PaintFlags::FilterQuality filter_quality)
     : PaintFilter(kType, nullptr, !image.IsTextureBacked()),
       image_(std::move(image)),
       src_rect_(src_rect),
       dst_rect_(dst_rect),
       filter_quality_(filter_quality) {
   SkSamplingOptions sampling(
       PaintFlags::FilterQualityToSkSamplingOptions(filter_quality));
   cached_sk_filter_ = SkImageFilters::Image(image_.GetSkImage(), src_rect_,
                                             dst_rect_, sampling);
 }

 ImagePaintFilter::~ImagePaintFilter() = default;

 size_t ImagePaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(src_rect_) +
       PaintOpWriter::SerializedSize(dst_rect_) +
       PaintOpWriter::SerializedSize(filter_quality_);
   total_size += PaintOpWriter::SerializedSize(image_);
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> ImagePaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   DrawImage draw_image(image_, false,
                        SkIRect::MakeWH(image_.width(), image_.height()),
                        filter_quality_, SkM44());
   auto scoped_result = image_provider->GetRasterContent(draw_image);
   if (!scoped_result)
     return nullptr;

   auto decoded_sk_image = sk_ref_sp<SkImage>(
       const_cast<SkImage*>(scoped_result.decoded_image().image().get()));
   PaintImage decoded_paint_image =
       PaintImageBuilder::WithDefault()
           .set_id(image_.stable_id())
           .set_texture_image(decoded_sk_image, PaintImage::GetNextContentId())
           .TakePaintImage();

   return sk_make_sp<ImagePaintFilter>(std::move(decoded_paint_image), src_rect_,
                                       dst_rect_, filter_quality_);
 }

 bool ImagePaintFilter::EqualsForTesting(const ImagePaintFilter& other) const {
   return !!image_ == !!other.image_ && src_rect_ == other.src_rect_ &&
          dst_rect_ == other.dst_rect_ &&
          filter_quality_ == other.filter_quality_;
 }

 RecordPaintFilter::RecordPaintFilter(PaintRecord record,
                                      const SkRect& record_bounds,
                                      const gfx::SizeF& raster_scale,
                                      ScalingBehavior scaling_behavior)
     : RecordPaintFilter(std::move(record),
                         record_bounds,
                         raster_scale,
                         scaling_behavior,
                         nullptr) {}

 RecordPaintFilter::RecordPaintFilter(PaintRecord record,
                                      const SkRect& record_bounds,
                                      const gfx::SizeF& raster_scale,
                                      ScalingBehavior scaling_behavior,
                                      ImageProvider* image_provider)
     : PaintFilter(kType, nullptr, record.HasDiscardableImages()),
       record_(std::move(record)),
       record_bounds_(record_bounds),
       raster_scale_(raster_scale),
       scaling_behavior_(scaling_behavior) {
   DCHECK(raster_scale_.width() > 0.f && raster_scale_.height() > 0.f);
   DCHECK(scaling_behavior == ScalingBehavior::kFixedScale ||
          (raster_scale_.width() == 1.f && raster_scale_.height() == 1.f));

   sk_sp<SkPicture> picture =
       record_.ToSkPicture(record_bounds_, image_provider);

   if (scaling_behavior == ScalingBehavior::kRasterAtScale ||
       record_bounds_.isEmpty()) {
     cached_sk_filter_ = SkImageFilters::Picture(std::move(picture));
   } else {
     DCHECK(scaling_behavior == ScalingBehavior::kFixedScale);

     // Convert the record to an image at the scaled resolution, but draw it in
     // the filter DAG at the original record bounds.
     int width = SkScalarCeilToInt(record_bounds.width());
     int height = SkScalarCeilToInt(record_bounds.height());
     SkMatrix originAdjust =
         SkMatrix::Translate(-record_bounds.fLeft, -record_bounds.fTop);
     auto image = SkImages::DeferredFromPicture(
         std::move(picture), SkISize::Make(width, height), &originAdjust,
         nullptr, SkImages::BitDepth::kU8, SkColorSpace::MakeSRGB());

     // Must account for the raster scale when drawing the picture image,
     SkRect src = SkRect::MakeWH(record_bounds.width(), record_bounds.height());
     SkScalar inv_x = 1.f / raster_scale_.width();
     SkScalar inv_y = 1.f / raster_scale_.height();
     SkRect dst = {inv_x * record_bounds.fLeft, inv_y * record_bounds.fTop,
                   inv_x * record_bounds.fRight, inv_y * record_bounds.fBottom};

     // Use Mitchell cubic filter, matching historic
     // PaintFlags::FilterQuality::kHigh
     SkSamplingOptions sampling(SkCubicResampler::Mitchell());
     cached_sk_filter_ =
         SkImageFilters::Image(std::move(image), src, dst, sampling);
   }
 }

 RecordPaintFilter::~RecordPaintFilter() = default;

 sk_sp<RecordPaintFilter> RecordPaintFilter::CreateScaledPaintRecord(
     const SkMatrix& ctm,
     int max_texture_size) const {
   // If this is already fixed scale, then this is already good to go, and if
   // the bounds are empty the filter produces no output so keep it as-is.
   if (scaling_behavior_ == ScalingBehavior::kFixedScale ||
       record_bounds_.isEmpty()) {
     return sk_ref_sp<RecordPaintFilter>(this);
   }

   // For creating a deserialized RecordPaintFilter, extract the scale factor at
   // which it would have been rasterized at for the given ctm. This is modeled
   // after PaintShader::CreateScaledPaintRecord.
   SkRect scaled_record_bounds =
       PaintRecord::GetFixedScaleBounds(ctm, record_bounds_, max_texture_size);
   gfx::SizeF raster_scale = {
       scaled_record_bounds.width() / record_bounds_.width(),
       scaled_record_bounds.height() / record_bounds_.height()};
   if (raster_scale.IsEmpty())
     return nullptr;

   return sk_make_sp<RecordPaintFilter>(record_, scaled_record_bounds,
                                        raster_scale,
                                        ScalingBehavior::kFixedScale);
 }

 size_t RecordPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(record_bounds_) +
       PaintOpWriter::SerializedSize(raster_scale_) +
       PaintOpWriter::SerializedSize(scaling_behavior_);
   total_size += PaintOpWriter::SerializedSize(record_);
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> RecordPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_sp<RecordPaintFilter>(
       new RecordPaintFilter(record_, record_bounds_, raster_scale_,
                             scaling_behavior_, image_provider));
 }

 bool RecordPaintFilter::EqualsForTesting(const RecordPaintFilter& other) const {
   return record_.EqualsForTesting(other.record_) &&  // IN-TEST
          scaling_behavior_ == other.scaling_behavior_ &&
          raster_scale_ == other.raster_scale_ &&
          record_bounds_ == other.record_bounds_;
 }

 MergePaintFilter::MergePaintFilter(const sk_sp<PaintFilter>* const filters,
                                    int count,
                                    const CropRect* crop_rect)
     : MergePaintFilter(filters, count, crop_rect, nullptr) {}

 MergePaintFilter::MergePaintFilter(const sk_sp<PaintFilter>* const filters,
                                    int count,
                                    const CropRect* crop_rect,
                                    ImageProvider* image_provider)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(filters, count)) {
   std::vector<sk_sp<SkImageFilter>> sk_filters;
   sk_filters.reserve(count);

   for (int i = 0; i < count; ++i) {
     auto filter =
         image_provider ? Snapshot(filters[i], image_provider) : filters[i];
     inputs_->push_back(std::move(filter));
     sk_filters.push_back(GetSkFilter(inputs_->back().get()));
   }

   cached_sk_filter_ = SkImageFilters::Merge(
       static_cast<sk_sp<SkImageFilter>*>(sk_filters.data()), count, crop_rect);
 }

 MergePaintFilter::~MergePaintFilter() = default;

 size_t MergePaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size = BaseSerializedSize();
   total_size += PaintOpWriter::SerializedSize(input_count());
   for (size_t i = 0; i < input_count(); ++i) {
     total_size += PaintOpWriter::SerializedSize(input_at(i));
   }
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> MergePaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_sp<MergePaintFilter>(new MergePaintFilter(
       &inputs_[0], inputs_->size(), GetCropRect(), image_provider));
 }

 bool MergePaintFilter::EqualsForTesting(const MergePaintFilter& other) const {
   return base::ranges::equal(
       inputs_, other.inputs_, [](const auto& a, const auto& b) {
         return AreValuesEqualForTesting(a, b);  // IN-TEST
       });
 }

 MorphologyPaintFilter::MorphologyPaintFilter(MorphType morph_type,
                                              float radius_x,
                                              float radius_y,
                                              sk_sp<PaintFilter> input,
                                              const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       morph_type_(morph_type),
       radius_x_(radius_x),
       radius_y_(radius_y),
       input_(std::move(input)) {
   switch (morph_type_) {
     case MorphType::kDilate:
       cached_sk_filter_ = SkImageFilters::Dilate(
           radius_x_, radius_y_, GetSkFilter(input_.get()), crop_rect);
       break;
     case MorphType::kErode:
       cached_sk_filter_ = SkImageFilters::Erode(
           radius_x_, radius_y_, GetSkFilter(input_.get()), crop_rect);
       break;
   }
 }

 MorphologyPaintFilter::~MorphologyPaintFilter() = default;

 size_t MorphologyPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(morph_type_) +
       PaintOpWriter::SerializedSize(radius_x_) +
       PaintOpWriter::SerializedSize(radius_y_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> MorphologyPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<MorphologyPaintFilter>(morph_type_, radius_x_, radius_y_,
                                            Snapshot(input_, image_provider),
                                            GetCropRect());
 }

 bool MorphologyPaintFilter::EqualsForTesting(
     const MorphologyPaintFilter& other) const {
   return morph_type_ == other.morph_type_ && radius_x_ == other.radius_x_ &&
          radius_y_ == other.radius_y_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 OffsetPaintFilter::OffsetPaintFilter(SkScalar dx,
                                      SkScalar dy,
                                      sk_sp<PaintFilter> input,
                                      const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       dx_(dx),
       dy_(dy),
       input_(std::move(input)) {
   cached_sk_filter_ =
       SkImageFilters::Offset(dx_, dy_, GetSkFilter(input_.get()), crop_rect);
 }

 OffsetPaintFilter::~OffsetPaintFilter() = default;

 size_t OffsetPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size = BaseSerializedSize() +
                                             PaintOpWriter::SerializedSize(dx_) +
                                             PaintOpWriter::SerializedSize(dy_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> OffsetPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<OffsetPaintFilter>(
       dx_, dy_, Snapshot(input_, image_provider), GetCropRect());
 }

 bool OffsetPaintFilter::EqualsForTesting(const OffsetPaintFilter& other) const {
   return dx_ == other.dx_ && dy_ == other.dy_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 TilePaintFilter::TilePaintFilter(const SkRect& src,
                                  const SkRect& dst,
                                  sk_sp<PaintFilter> input)
     : PaintFilter(kType, nullptr, HasDiscardableImages(input)),
       src_(src),
       dst_(dst),
       input_(std::move(input)) {
   cached_sk_filter_ =
       SkImageFilters::Tile(src_, dst_, GetSkFilter(input_.get()));
 }

 TilePaintFilter::~TilePaintFilter() = default;

 size_t TilePaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(src_) +
       PaintOpWriter::SerializedSize(dst_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> TilePaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<TilePaintFilter>(src_, dst_,
                                      Snapshot(input_, image_provider));
 }

 bool TilePaintFilter::EqualsForTesting(const TilePaintFilter& other) const {
   return src_ == other.src_ && dst_ == other.dst_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 TurbulencePaintFilter::TurbulencePaintFilter(TurbulenceType turbulence_type,
                                              SkScalar base_frequency_x,
                                              SkScalar base_frequency_y,
                                              int num_octaves,
                                              SkScalar seed,
                                              const SkISize* tile_size,
                                              const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, kHasNoDiscardableImages),
       turbulence_type_(turbulence_type),
       base_frequency_x_(base_frequency_x),
       base_frequency_y_(base_frequency_y),
       num_octaves_(num_octaves),
       seed_(seed),
       tile_size_(tile_size ? *tile_size : SkISize::MakeEmpty()) {
   sk_sp<SkShader> shader;
   switch (turbulence_type_) {
     case TurbulenceType::kTurbulence:
       shader = SkPerlinNoiseShader::MakeTurbulence(
           base_frequency_x_, base_frequency_y_, num_octaves_, seed_,
           &tile_size_);
       break;
     case TurbulenceType::kFractalNoise:
       shader = SkPerlinNoiseShader::MakeFractalNoise(
           base_frequency_x_, base_frequency_y_, num_octaves_, seed_,
           &tile_size_);
       break;
   }

   cached_sk_filter_ = SkImageFilters::Shader(std::move(shader), crop_rect);
 }

 TurbulencePaintFilter::~TurbulencePaintFilter() = default;

 size_t TurbulencePaintFilter::SerializedSize() const {
   return BaseSerializedSize() +
          PaintOpWriter::SerializedSize(turbulence_type_) +
          PaintOpWriter::SerializedSize(base_frequency_x_) +
          PaintOpWriter::SerializedSize(base_frequency_y_) +
          PaintOpWriter::SerializedSize(num_octaves_) +
          PaintOpWriter::SerializedSize(seed_) +
          PaintOpWriter::SerializedSize(tile_size_);
 }

 sk_sp<PaintFilter> TurbulencePaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<TurbulencePaintFilter>(turbulence_type_, base_frequency_x_,
                                            base_frequency_y_, num_octaves_,
                                            seed_, &tile_size_, GetCropRect());
 }

 bool TurbulencePaintFilter::EqualsForTesting(
     const TurbulencePaintFilter& other) const {
   return turbulence_type_ == other.turbulence_type_ &&
          base_frequency_x_ == other.base_frequency_x_ &&
          base_frequency_y_ == other.base_frequency_y_ &&
          num_octaves_ == other.num_octaves_ && seed_ == other.seed_ &&
          tile_size_ == other.tile_size_;
 }

 ShaderPaintFilter::ShaderPaintFilter(sk_sp<PaintShader> shader,
                                      float alpha,
                                      PaintFlags::FilterQuality filter_quality,
                                      SkImageFilters::Dither dither,
                                      const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, shader->has_discardable_images()),
       shader_(std::move(shader)),
       alpha_(alpha),
       filter_quality_(filter_quality),
       dither_(dither) {
   sk_sp<SkShader> sk_shader = shader_->GetSkShader(filter_quality_);
   // Combine the alpha multiply into the SkShader if it's not opaque
   if (alpha < 1.0f) {
     // The blend effectively produces (shader * alpha), the rgb of the secondary
     // color are ignored.
     SkColor4f color{1.0f, 1.0f, 1.0f, alpha};
     // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
     sk_shader = SkShaders::Blend(SkBlendMode::kDstIn, std::move(sk_shader),
                                  SkShaders::Color(color.toSkColor()));
   }

   cached_sk_filter_ =
       SkImageFilters::Shader(std::move(sk_shader), dither, crop_rect);
 }

 ShaderPaintFilter::~ShaderPaintFilter() = default;

 size_t ShaderPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size = BaseSerializedSize();
   total_size += PaintShader::GetSerializedSize(shader_.get());
   total_size += PaintOpWriter::SerializedSize(alpha_);
   total_size +=
       PaintOpWriter::SerializedSize(filter_quality_);  // filter quality
   total_size += PaintOpWriter::SerializedSize(dither_);
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> ShaderPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   PaintFlags orig_flags;
   orig_flags.setShader(shader_);
   orig_flags.setAlphaf(alpha_);
   orig_flags.setFilterQuality(filter_quality_);
   orig_flags.setDither(dither_ == SkImageFilters::Dither::kYes);

   ScopedRasterFlags raster_flags(&orig_flags, image_provider, SkMatrix::I(), 0,
                                  1.0f);
   const PaintFlags* snapshot = raster_flags.flags();
   if (snapshot) {
     // Ref the updated paint shader so that it can outlive ScopedRasterFlags
     return sk_make_sp<ShaderPaintFilter>(
         sk_ref_sp(snapshot->getShader()), snapshot->getAlphaf(),
         snapshot->getFilterQuality(),
         snapshot->isDither() ? Dither::kYes : Dither::kNo, GetCropRect());
   } else {
     // If decode failed, then just fallback to the solid color
     return sk_make_sp<ShaderPaintFilter>(nullptr, alpha_, filter_quality_,
                                          dither_, GetCropRect());
   }
 }

 bool ShaderPaintFilter::EqualsForTesting(const ShaderPaintFilter& other) const {
   DCHECK(shader_ && other.shader_);
   return alpha_ == other.alpha_ && filter_quality_ == other.filter_quality_ &&
          dither_ == other.dither_ &&
          shader_->EqualsForTesting(*other.shader_);  // IN-TEST
 }

 MatrixPaintFilter::MatrixPaintFilter(const SkMatrix& matrix,
                                      PaintFlags::FilterQuality filter_quality,
                                      sk_sp<PaintFilter> input)
     : PaintFilter(Type::kMatrix, nullptr, HasDiscardableImages(input)),
       matrix_(matrix),
       filter_quality_(filter_quality),
       input_(std::move(input)) {
   cached_sk_filter_ = SkImageFilters::MatrixTransform(
       matrix_, PaintFlags::FilterQualityToSkSamplingOptions(filter_quality_),
       GetSkFilter(input_.get()));
 }

 MatrixPaintFilter::~MatrixPaintFilter() = default;

 size_t MatrixPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(matrix_) +
       PaintOpWriter::SerializedSize(filter_quality_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> MatrixPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<MatrixPaintFilter>(matrix_, filter_quality_,
                                        Snapshot(input_, image_provider));
 }

 bool MatrixPaintFilter::EqualsForTesting(const MatrixPaintFilter& other) const {
   return matrix_ == other.matrix_ && filter_quality_ == other.filter_quality_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 LightingDistantPaintFilter::LightingDistantPaintFilter(
     LightingType lighting_type,
     const SkPoint3& direction,
     SkColor4f light_color,
     SkScalar surface_scale,
     SkScalar kconstant,
     SkScalar shininess,
     sk_sp<PaintFilter> input,
     const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       lighting_type_(lighting_type),
       direction_(direction),
       light_color_(light_color),
       surface_scale_(surface_scale),
       kconstant_(kconstant),
       shininess_(shininess),
       input_(std::move(input)) {
   switch (lighting_type_) {
     case LightingType::kDiffuse:
       // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
       cached_sk_filter_ = SkImageFilters::DistantLitDiffuse(
           direction_, light_color_.toSkColor(), surface_scale_, kconstant_,
           GetSkFilter(input_.get()), crop_rect);
       break;
     case LightingType::kSpecular:
       // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
       cached_sk_filter_ = SkImageFilters::DistantLitSpecular(
           direction_, light_color_.toSkColor(), surface_scale_, kconstant_,
           shininess_, GetSkFilter(input_.get()), crop_rect);
       break;
   }
 }

 LightingDistantPaintFilter::~LightingDistantPaintFilter() = default;

 size_t LightingDistantPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(lighting_type_) +
       PaintOpWriter::SerializedSize(direction_) +
       PaintOpWriter::SerializedSize(light_color_) +
       PaintOpWriter::SerializedSize(surface_scale_) +
       PaintOpWriter::SerializedSize(kconstant_) +
       PaintOpWriter::SerializedSize(shininess_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> LightingDistantPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<LightingDistantPaintFilter>(
       lighting_type_, direction_, light_color_, surface_scale_, kconstant_,
       shininess_, Snapshot(input_, image_provider), GetCropRect());
 }

 bool LightingDistantPaintFilter::EqualsForTesting(
     const LightingDistantPaintFilter& other) const {
   return lighting_type_ == other.lighting_type_ &&
          direction_ == other.direction_ && light_color_ == other.light_color_ &&
          surface_scale_ == other.surface_scale_ &&
          kconstant_ == other.kconstant_ && shininess_ == other.shininess_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 LightingPointPaintFilter::LightingPointPaintFilter(LightingType lighting_type,
                                                    const SkPoint3& location,
                                                    SkColor4f light_color,
                                                    SkScalar surface_scale,
                                                    SkScalar kconstant,
                                                    SkScalar shininess,
                                                    sk_sp<PaintFilter> input,
                                                    const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       lighting_type_(lighting_type),
       location_(location),
       light_color_(light_color),
       surface_scale_(surface_scale),
       kconstant_(kconstant),
       shininess_(shininess),
       input_(std::move(input)) {
   switch (lighting_type_) {
     case LightingType::kDiffuse:
       // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
       cached_sk_filter_ = SkImageFilters::PointLitDiffuse(
           location_, light_color_.toSkColor(), surface_scale_, kconstant_,
           GetSkFilter(input_.get()), crop_rect);
       break;
     case LightingType::kSpecular:
       // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
       cached_sk_filter_ = SkImageFilters::PointLitSpecular(
           location_, light_color_.toSkColor(), surface_scale_, kconstant_,
           shininess_, GetSkFilter(input_.get()), crop_rect);
       break;
   }
 }

 LightingPointPaintFilter::~LightingPointPaintFilter() = default;

 size_t LightingPointPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(lighting_type_) +
       PaintOpWriter::SerializedSize(location_) +
       PaintOpWriter::SerializedSize(light_color_) +
       PaintOpWriter::SerializedSize(surface_scale_) +
       PaintOpWriter::SerializedSize(kconstant_) +
       PaintOpWriter::SerializedSize(shininess_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> LightingPointPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<LightingPointPaintFilter>(
       lighting_type_, location_, light_color_, surface_scale_, kconstant_,
       shininess_, Snapshot(input_, image_provider), GetCropRect());
 }

 bool LightingPointPaintFilter::EqualsForTesting(
     const LightingPointPaintFilter& other) const {
   return lighting_type_ == other.lighting_type_ &&
          location_ == other.location_ && light_color_ == other.light_color_ &&
          surface_scale_ == other.surface_scale_ &&
          kconstant_ == other.kconstant_ && shininess_ == other.shininess_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 LightingSpotPaintFilter::LightingSpotPaintFilter(LightingType lighting_type,
                                                  const SkPoint3& location,
                                                  const SkPoint3& target,
                                                  SkScalar specular_exponent,
                                                  SkScalar cutoff_angle,
                                                  SkColor4f light_color,
                                                  SkScalar surface_scale,
                                                  SkScalar kconstant,
                                                  SkScalar shininess,
                                                  sk_sp<PaintFilter> input,
                                                  const CropRect* crop_rect)
     : PaintFilter(kType, crop_rect, HasDiscardableImages(input)),
       lighting_type_(lighting_type),
       location_(location),
       target_(target),
       specular_exponent_(specular_exponent),
       cutoff_angle_(cutoff_angle),
       light_color_(light_color),
       surface_scale_(surface_scale),
       kconstant_(kconstant),
       shininess_(shininess),
       input_(std::move(input)) {
   switch (lighting_type_) {
     case LightingType::kDiffuse:
       // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
       cached_sk_filter_ = SkImageFilters::SpotLitDiffuse(
           location_, target_, specular_exponent_, cutoff_angle_,
           light_color_.toSkColor(), surface_scale_, kconstant_,
           GetSkFilter(input_.get()), crop_rect);
       break;
     case LightingType::kSpecular:
       // TODO(crbug/1308932): Remove toSkColor and make all SkColor4f.
       cached_sk_filter_ = SkImageFilters::SpotLitSpecular(
           location_, target_, specular_exponent_, cutoff_angle_,
           light_color_.toSkColor(), surface_scale_, kconstant_, shininess_,
           GetSkFilter(input_.get()), crop_rect);
       break;
   }
 }

 LightingSpotPaintFilter::~LightingSpotPaintFilter() = default;

 size_t LightingSpotPaintFilter::SerializedSize() const {
   base::CheckedNumeric<size_t> total_size =
       BaseSerializedSize() + PaintOpWriter::SerializedSize(lighting_type_) +
       PaintOpWriter::SerializedSize(location_) +
       PaintOpWriter::SerializedSize(target_) +
       PaintOpWriter::SerializedSize(specular_exponent_) +
       PaintOpWriter::SerializedSize(cutoff_angle_) +
       PaintOpWriter::SerializedSize(light_color_) +
       PaintOpWriter::SerializedSize(surface_scale_) +
       PaintOpWriter::SerializedSize(kconstant_) +
       PaintOpWriter::SerializedSize(shininess_);
   total_size += PaintOpWriter::SerializedSize(input_.get());
   return total_size.ValueOrDefault(0u);
 }

 sk_sp<PaintFilter> LightingSpotPaintFilter::SnapshotWithImagesInternal(
     ImageProvider* image_provider) const {
   return sk_make_sp<LightingSpotPaintFilter>(
       lighting_type_, location_, target_, specular_exponent_, cutoff_angle_,
       light_color_, surface_scale_, kconstant_, shininess_,
       Snapshot(input_, image_provider), GetCropRect());
 }

 bool LightingSpotPaintFilter::EqualsForTesting(
     const LightingSpotPaintFilter& other) const {
   return lighting_type_ == other.lighting_type_ &&
          location_ == other.location_ && target_ == other.target_ &&
          specular_exponent_ == other.specular_exponent_ &&
          cutoff_angle_ == other.cutoff_angle_ &&
          light_color_ == other.light_color_ &&
          surface_scale_ == other.surface_scale_ &&
          kconstant_ == other.kconstant_ && shininess_ == other.shininess_ &&
          AreValuesEqualForTesting(input_, other.input_);  // IN-TEST
 }

 }  // namespace cc