// Copyright 2014 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/trees/property_tree_builder.h"

#include <stddef.h>

#include <map>
#include <memory>
#include <set>
#include <utility>
#include <vector>

#include "base/memory/raw_ptr.h"
#include "base/memory/raw_ref.h"
#include "cc/base/math_util.h"
#include "cc/layers/layer.h"
#include "cc/layers/layer_impl.h"
#include "cc/layers/picture_layer.h"
#include "cc/trees/clip_node.h"
#include "cc/trees/draw_property_utils.h"
#include "cc/trees/effect_node.h"
#include "cc/trees/layer_tree_host.h"
#include "cc/trees/layer_tree_settings.h"
#include "cc/trees/mutator_host.h"
#include "cc/trees/scroll_node.h"
#include "cc/trees/transform_node.h"
#include "components/viz/common/frame_sinks/copy_output_request.h"
#include "ui/gfx/geometry/point_f.h"
#include "ui/gfx/geometry/rect_f.h"
#include "ui/gfx/geometry/size.h"
#include "ui/gfx/geometry/vector2d_conversions.h"

namespace cc {

namespace {

struct DataForRecursion {
  int transform_tree_parent;
  int clip_tree_parent;
  int effect_tree_parent;
  int scroll_tree_parent;
  int closest_ancestor_with_cached_render_surface;
  int closest_ancestor_with_copy_request;
  int closest_ancestor_being_captured;
  SkColor4f safe_opaque_background_color;
  bool animation_axis_aligned_since_render_target;
  bool not_axis_aligned_since_last_clip;
  gfx::Transform compound_transform_since_render_target;
  raw_ptr<bool> subtree_has_overlapping_rounded_corner;
  raw_ptr<bool> subtree_has_gradient_mask;
};

class PropertyTreeBuilderContext {
 public:
  explicit PropertyTreeBuilderContext(LayerTreeHost* layer_tree_host)
      : layer_tree_host_(layer_tree_host),
        root_layer_(layer_tree_host->root_layer()),
        mutator_host_(*layer_tree_host->mutator_host()),
        property_trees_(*layer_tree_host->property_trees()),
        transform_tree_(property_trees_->transform_tree_mutable()),
        clip_tree_(property_trees_->clip_tree_mutable()),
        effect_tree_(property_trees_->effect_tree_mutable()),
        scroll_tree_(property_trees_->scroll_tree_mutable()) {}

  void BuildPropertyTrees();

 private:
  void BuildPropertyTreesInternal(
      Layer* layer,
      const DataForRecursion& data_from_parent) const;

  bool AddTransformNodeIfNeeded(const DataForRecursion& data_from_ancestor,
                                Layer* layer,
                                bool created_render_surface,
                                DataForRecursion* data_for_children) const;

  void AddClipNodeIfNeeded(const DataForRecursion& data_from_ancestor,
                           Layer* layer,
                           bool created_transform_node,
                           DataForRecursion* data_for_children) const;

  bool AddEffectNodeIfNeeded(const DataForRecursion& data_from_ancestor,
                             Layer* layer,
                             DataForRecursion* data_for_children) const;

  void AddScrollNodeIfNeeded(const DataForRecursion& data_from_ancestor,
                             Layer* layer,
                             DataForRecursion* data_for_children) const;

  bool UpdateRenderSurfaceIfNeeded(
      int parent_effect_tree_id,
      DataForRecursion* data_for_children,
      bool is_rounded_corner_layer_within_parent_bounds,
      bool subtree_has_overlapping_rounded_corner,
      bool subtree_has_gradient_mask,
      bool created_transform_node) const;

  // Returns true if the layer is a rounded corner layer that fits into the
  // bounds of its parent after applying transforms, moving pixel filters and
  // clipping bounds or it's a root layer with rounded corners.
  bool IsRoundedCornerLayerWithinParentLayerBounds(const Layer* layer) const;

  raw_ptr<LayerTreeHost> layer_tree_host_;
  raw_ptr<Layer> root_layer_;
  const raw_ref<MutatorHost> mutator_host_;
  const raw_ref<PropertyTrees> property_trees_;

  // Ordinarily, it would not be OK to store references to these instances,
  // because doing so evades the protections of ProtectedSequenceSynchronizer.
  // It's permitted in this case because PropertyTreeBuilderContext is only ever
  // allocated on the stack, and it cannot initiate a protected sequence (by
  // calling into LayerTreeHost::WillCommit).
  const raw_ref<TransformTree> transform_tree_;
  const raw_ref<ClipTree> clip_tree_;
  const raw_ref<EffectTree> effect_tree_;
  const raw_ref<ScrollTree> scroll_tree_;
};

// Methods to query state from the AnimationHost ----------------------
bool HasPotentiallyRunningOpacityAnimation(const MutatorHost& host,
                                           Layer* layer) {
  return host.HasPotentiallyRunningAnimationForProperty(
      layer->element_id(), layer->GetElementTypeForAnimation(),
      TargetProperty::OPACITY);
}

bool HasPotentialOpacityAnimation(const MutatorHost& host, Layer* layer) {
  return HasPotentiallyRunningOpacityAnimation(host, layer) ||
         layer->OpacityCanAnimateOnImplThread();
}

bool HasPotentiallyRunningFilterAnimation(const MutatorHost& host,
                                          Layer* layer) {
  return host.HasPotentiallyRunningAnimationForProperty(
      layer->element_id(), layer->GetElementTypeForAnimation(),
      TargetProperty::FILTER);
}

bool TransformIsAnimating(const MutatorHost& host, Layer* layer) {
  DCHECK(!host.IsAnimatingProperty(layer->element_id(),
                                   layer->GetElementTypeForAnimation(),
                                   TargetProperty::SCALE) &&
         !host.IsAnimatingProperty(layer->element_id(),
                                   layer->GetElementTypeForAnimation(),
                                   TargetProperty::ROTATE) &&
         !host.IsAnimatingProperty(layer->element_id(),
                                   layer->GetElementTypeForAnimation(),
                                   TargetProperty::TRANSLATE))
      << "individual transform properties only supported in layer lists mode";
  return host.IsAnimatingProperty(layer->element_id(),
                                  layer->GetElementTypeForAnimation(),
                                  TargetProperty::TRANSFORM);
}

bool HasPotentiallyRunningTransformAnimation(const MutatorHost& host,
                                             Layer* layer) {
  DCHECK(!host.HasPotentiallyRunningAnimationForProperty(
             layer->element_id(), layer->GetElementTypeForAnimation(),
             TargetProperty::SCALE) &&
         !host.HasPotentiallyRunningAnimationForProperty(
             layer->element_id(), layer->GetElementTypeForAnimation(),
             TargetProperty::ROTATE) &&
         !host.HasPotentiallyRunningAnimationForProperty(
             layer->element_id(), layer->GetElementTypeForAnimation(),
             TargetProperty::TRANSLATE))
      << "individual transform properties only supported in layer lists mode";
  return host.HasPotentiallyRunningAnimationForProperty(
      layer->element_id(), layer->GetElementTypeForAnimation(),
      TargetProperty::TRANSFORM);
}

float MaximumAnimationScale(const MutatorHost& host, Layer* layer) {
  return host.MaximumScale(layer->element_id(),
                           layer->GetElementTypeForAnimation());
}

bool AnimationsPreserveAxisAlignment(const MutatorHost& host, Layer* layer) {
  return host.AnimationsPreserveAxisAlignment(layer->element_id());
}

bool HasAnyAnimationTargetingProperty(const MutatorHost& host,
                                      Layer* layer,
                                      TargetProperty::Type property) {
  return host.HasAnyAnimationTargetingProperty(layer->element_id(), property);
}

// -------------------------------------------------------------------

bool LayerClipsSubtreeToItsBounds(Layer* layer) {
  return layer->masks_to_bounds() || layer->mask_layer();
}

bool LayerClipsSubtree(Layer* layer) {
  return LayerClipsSubtreeToItsBounds(layer) || layer->HasMaskFilter() ||
         !layer->clip_rect().IsEmpty();
}

void PropertyTreeBuilderContext::AddClipNodeIfNeeded(
    const DataForRecursion& data_from_ancestor,
    Layer* layer,
    bool created_transform_node,
    DataForRecursion* data_for_children) const {
  const int parent_id = data_from_ancestor.clip_tree_parent;

  bool layer_clips_subtree = LayerClipsSubtree(layer);
  bool requires_node =
      layer_clips_subtree || layer->filters().HasFilterThatMovesPixels();
  if (!requires_node) {
    data_for_children->clip_tree_parent = parent_id;
  } else {
    ClipNode node;
    if (layer_clips_subtree) {
      node.clip = layer->EffectiveClipRect();
      // Move the clip bounds so that it is relative to the transform parent.
      node.clip += layer->offset_to_transform_parent();
    } else {
      DCHECK(layer->filters().HasFilterThatMovesPixels());
      node.pixel_moving_filter_id = layer->effect_tree_index();
    }
    node.transform_id = created_transform_node
                            ? data_for_children->transform_tree_parent
                            : data_from_ancestor.transform_tree_parent;
    data_for_children->clip_tree_parent = clip_tree_->Insert(node, parent_id);
  }

  layer->SetHasClipNode(requires_node);
  layer->SetClipTreeIndex(data_for_children->clip_tree_parent);
}

bool PropertyTreeBuilderContext::AddTransformNodeIfNeeded(
    const DataForRecursion& data_from_ancestor,
    Layer* layer,
    bool created_render_surface,
    DataForRecursion* data_for_children) const {
  const bool is_root = !layer->parent();
  const bool is_scrollable = layer->scrollable();
  // Scrolling a layer should not move it from being pixel-aligned to moving off
  // the pixel grid and becoming fuzzy. So always snap scrollable things to the
  // pixel grid. Layers may also request to be snapped as such.
  const bool is_snapped =
      is_scrollable || layer->IsSnappedToPixelGridInTarget();

  const bool has_significant_transform =
      !layer->transform().IsIdentityOr2dTranslation();

  const bool has_potentially_animated_transform =
      HasPotentiallyRunningTransformAnimation(*mutator_host_, layer);

  // A transform node is needed even for a finished animation, since differences
  // in the timing of animation state updates can mean that an animation that's
  // in the Finished state at tree-building time on the main thread is still in
  // the Running state right after commit on the compositor thread.
  const bool has_any_transform_animation = HasAnyAnimationTargetingProperty(
      *mutator_host_, layer, TargetProperty::TRANSFORM);
  DCHECK(!HasAnyAnimationTargetingProperty(*mutator_host_, layer,
                                           TargetProperty::SCALE) &&
         !HasAnyAnimationTargetingProperty(*mutator_host_, layer,
                                           TargetProperty::ROTATE) &&
         !HasAnyAnimationTargetingProperty(*mutator_host_, layer,
                                           TargetProperty::TRANSLATE))
      << "individual transform properties only supported in layer lists mode";

  const bool has_surface = created_render_surface;

  DCHECK(!is_scrollable || is_snapped);
  bool requires_node = is_root || is_snapped || has_significant_transform ||
                       has_any_transform_animation || has_surface ||
                       layer->HasMaskFilter();

  int parent_index = kRootPropertyNodeId;
  gfx::Vector2dF parent_offset;
  if (!is_root) {
    parent_index = data_from_ancestor.transform_tree_parent;
    // Now layer tree mode (IsUsingLayerLists is false) is for ui compositor
    // only. The transform tree hierarchy is always the same as layer hierarchy.
    DCHECK_EQ(parent_index, layer->parent()->transform_tree_index());
    parent_offset = layer->parent()->offset_to_transform_parent();
  }

  if (!requires_node) {
    gfx::Vector2dF local_offset = layer->position().OffsetFromOrigin() +
                                  layer->transform().To2dTranslation();
    layer->SetOffsetToTransformParent(parent_offset + local_offset);
    layer->SetTransformTreeIndex(parent_index);
    return false;
  }

  transform_tree_->Insert(TransformNode(), parent_index);
  TransformNode* node = transform_tree_->back();
  layer->SetTransformTreeIndex(node->id);
  data_for_children->transform_tree_parent = node->id;

  // For animation subsystem purposes, if this layer has a compositor element
  // id, we build a map from that id to this transform node.
  if (layer->element_id()) {
    transform_tree_->SetElementIdForNodeId(node->id, layer->element_id());
    node->element_id = layer->element_id();
  }

  node->scrolls = is_scrollable;
  node->should_be_snapped = is_snapped;

  if (is_root) {
    // Root layer and page scale layer should not have transform or offset.
    DCHECK(layer->position().IsOrigin());
    DCHECK(parent_offset.IsZero());
    DCHECK(layer->transform().IsIdentity());

    transform_tree_->SetRootScaleAndTransform(
        transform_tree_->device_scale_factor(), gfx::Transform());
  } else {
    node->local = layer->transform();
    node->origin = layer->transform_origin();
    node->post_translation =
        parent_offset + layer->position().OffsetFromOrigin();
  }

  node->has_potential_animation = has_potentially_animated_transform;
  node->is_currently_animating = TransformIsAnimating(*mutator_host_, layer);
  node->maximum_animation_scale = MaximumAnimationScale(*mutator_host_, layer);

  node->SetScrollOffset(layer->scroll_offset(), DamageReason::kUntracked);

  node->needs_local_transform_update = true;
  transform_tree_->UpdateTransforms(node->id);

  layer->SetOffsetToTransformParent(gfx::Vector2dF());

  return true;
}

RenderSurfaceReason ComputeRenderSurfaceReason(const MutatorHost& mutator_host,
                                               Layer* layer,
                                               gfx::Transform current_transform,
                                               bool animation_axis_aligned) {
  const bool preserves_2d_axis_alignment =
      current_transform.Preserves2dAxisAlignment() && animation_axis_aligned;
  const bool is_root = !layer->parent();
  if (is_root)
    return RenderSurfaceReason::kRoot;

  if (layer->mask_layer()) {
    return RenderSurfaceReason::kMask;
  }

  if (layer->trilinear_filtering()) {
    return RenderSurfaceReason::kTrilinearFiltering;
  }

  if (!layer->filters().IsEmpty()) {
    return RenderSurfaceReason::kFilter;
  }

  if (!layer->backdrop_filters().IsEmpty()) {
    return RenderSurfaceReason::kBackdropFilter;
  }

  // If the layer will use a CSS filter.  In this case, the animation
  // will start and add a filter to this layer, so it needs a surface.
  if (HasPotentiallyRunningFilterAnimation(mutator_host, layer)) {
    return RenderSurfaceReason::kFilterAnimation;
  }

  int num_descendants_that_draw_content =
      layer->NumDescendantsThatDrawContent();

  if (!layer->is_fast_rounded_corner() && layer->HasRoundedCorner() &&
      num_descendants_that_draw_content > 1) {
    return RenderSurfaceReason::kRoundedCorner;
  }

  // If the layer has blending.
  // TODO(rosca): this is temporary, until blending is implemented for other
  // types of quads than viz::CompositorRenderPassDrawQuad. Layers having
  // descendants that draw content will still create a separate rendering
  // surface.
  if (layer->blend_mode() != SkBlendMode::kSrcOver) {
    return RenderSurfaceReason::kBlendMode;
  }
  // If the layer clips its descendants but it is not axis-aligned with respect
  // to its parent.
  bool layer_clips_external_content = LayerClipsSubtree(layer);
  if (layer_clips_external_content && !preserves_2d_axis_alignment &&
      num_descendants_that_draw_content > 0) {
    return RenderSurfaceReason::kClipAxisAlignment;
  }

  // If the layer has some translucency and does not have a preserves-3d
  // transform style.  This condition only needs a render surface if two or more
  // layers in the subtree overlap. But checking layer overlaps is unnecessarily
  // costly so instead we conservatively create a surface whenever at least two
  // layers draw content for this subtree.
  bool at_least_two_layers_in_subtree_draw_content =
      num_descendants_that_draw_content > 0 &&
      (layer->draws_content() || num_descendants_that_draw_content > 1);

  bool may_have_transparency =
      layer->EffectiveOpacity() != 1.f ||
      HasPotentiallyRunningOpacityAnimation(mutator_host, layer);
  if (may_have_transparency && at_least_two_layers_in_subtree_draw_content) {
    DCHECK(!is_root);
    return RenderSurfaceReason::kOpacity;
  }

  // A layer with gradient mask is translucent too.
  if (layer->HasGradientMask() && at_least_two_layers_in_subtree_draw_content)
    return RenderSurfaceReason::kGradientMask;

  // If we force it.
  if (layer->force_render_surface_for_testing())
    return RenderSurfaceReason::kTest;

  // If we cache it.
  if (layer->cache_render_surface())
    return RenderSurfaceReason::kCache;

  // If we'll make a copy of the layer's contents.
  if (layer->HasCopyRequest())
    return RenderSurfaceReason::kCopyRequest;

  // If the layer is mirrored.
  if (layer->mirror_count())
    return RenderSurfaceReason::kMirrored;

  if (layer->subtree_capture_id().is_valid())
    return RenderSurfaceReason::kSubtreeIsBeingCaptured;

  return RenderSurfaceReason::kNone;
}

bool UpdateSubtreeHasCopyRequestRecursive(Layer* layer) {
  bool subtree_has_copy_request = false;
  if (layer->HasCopyRequest())
    subtree_has_copy_request = true;
  for (const scoped_refptr<Layer>& child : layer->children()) {
    subtree_has_copy_request |=
        UpdateSubtreeHasCopyRequestRecursive(child.get());
  }
  layer->SetSubtreeHasCopyRequest(subtree_has_copy_request);
  return subtree_has_copy_request;
}

bool PropertyTreeBuilderContext::AddEffectNodeIfNeeded(
    const DataForRecursion& data_from_ancestor,
    Layer* layer,
    DataForRecursion* data_for_children) const {
  const bool is_root = !layer->parent();
  const bool has_transparency = layer->EffectiveOpacity() != 1.f;
  const bool has_potential_opacity_animation =
      HasPotentialOpacityAnimation(*mutator_host_, layer);
  const bool has_potential_filter_animation =
      HasPotentiallyRunningFilterAnimation(*mutator_host_, layer);

  data_for_children->animation_axis_aligned_since_render_target &=
      AnimationsPreserveAxisAlignment(*mutator_host_, layer);
  data_for_children->compound_transform_since_render_target *=
      layer->transform();
  auto render_surface_reason = ComputeRenderSurfaceReason(
      *mutator_host_, layer,
      data_for_children->compound_transform_since_render_target,
      data_for_children->animation_axis_aligned_since_render_target);
  bool should_create_render_surface =
      render_surface_reason != RenderSurfaceReason::kNone;

  bool not_axis_aligned_since_last_clip =
      data_from_ancestor.not_axis_aligned_since_last_clip
          ? true
          : !AnimationsPreserveAxisAlignment(*mutator_host_, layer) ||
                !layer->transform().Preserves2dAxisAlignment();
  // A non-axis aligned clip may need a render surface. So, we create an effect
  // node.
  bool has_non_axis_aligned_clip =
      not_axis_aligned_since_last_clip && LayerClipsSubtree(layer);

  bool requires_node =
      is_root || has_transparency || has_potential_opacity_animation ||
      has_potential_filter_animation || has_non_axis_aligned_clip ||
      should_create_render_surface || layer->HasMaskFilter();

  int parent_id = data_from_ancestor.effect_tree_parent;

  if (!requires_node) {
    layer->SetEffectTreeIndex(parent_id);
    data_for_children->effect_tree_parent = parent_id;
    return false;
  }

  int node_id = effect_tree_->Insert(EffectNode(), parent_id);
  EffectNode* node = effect_tree_->back();

  node->element_id =
      layer->element_id() ? layer->element_id() : ElementId(layer->id());
  node->opacity = layer->opacity();
  node->blend_mode = layer->blend_mode();
  node->subtree_capture_id = layer->subtree_capture_id();

  // Layers marked with a valid |subtree_capture_id| represent a subsection
  // of the tree that should be rendered and copied as a separate render pass.
  // Using the layer bounds as the subtree size here allows us to crop out
  // undesired sections of the render pass, such as the shadow added by the
  // shadow layer.
  //
  // If it becomes desirable to capture a different sub-rectangle of the render
  // pass, a new custom size (or potentially rect) can be plumbed through the
  // layer to here.
  if (node->subtree_capture_id.is_valid()) {
    // Layer bounds are specified in layer space, which excludes device and
    // page scale factors. While the page scale can be ignored for subtree
    // capture purposes, the device scale must be accounted for here.
    node->subtree_size = gfx::ScaleToFlooredSize(
        layer->bounds(), layer_tree_host_->device_scale_factor());
  }
  node->cache_render_surface = layer->cache_render_surface();
  node->filters = layer->filters();
  node->backdrop_filters = layer->backdrop_filters();
  node->backdrop_filter_bounds = layer->backdrop_filter_bounds();
  node->backdrop_filter_quality = layer->backdrop_filter_quality();
  if (!node->backdrop_filters.IsEmpty() && layer->mask_layer()) {
    DCHECK(layer->mask_layer()->element_id());
    node->backdrop_mask_element_id = layer->mask_layer()->element_id();
    layer->mask_layer()->SetIsBackdropFilterMask(true);
  }
  node->trilinear_filtering = layer->trilinear_filtering();
  node->has_potential_opacity_animation = has_potential_opacity_animation;
  node->has_potential_filter_animation = has_potential_filter_animation;
  node->subtree_hidden = layer->hide_layer_and_subtree();
  node->effect_changed = layer->subtree_property_changed();
  node->subtree_has_copy_request = layer->subtree_has_copy_request();
  node->render_surface_reason = render_surface_reason;
  node->closest_ancestor_with_cached_render_surface_id =
      layer->cache_render_surface()
          ? node_id
          : data_from_ancestor.closest_ancestor_with_cached_render_surface;
  node->closest_ancestor_with_copy_request_id =
      layer->HasCopyRequest()
          ? node_id
          : data_from_ancestor.closest_ancestor_with_copy_request;
  node->closest_ancestor_being_captured_id =
      layer->subtree_capture_id().is_valid()
          ? node_id
          : data_from_ancestor.closest_ancestor_being_captured;

  if (layer->HasMaskFilter()) {
    // This is currently in the local space of the layer and hence in an invalid
    // space. Once we have the associated transform node for this effect node,
    // we will update this to the transform node's coordinate space.
    node->mask_filter_info =
        gfx::MaskFilterInfo(layer->EffectiveClipRect(), layer->corner_radii(),
                            layer->gradient_mask());
    node->is_fast_rounded_corner = layer->is_fast_rounded_corner();
  }

  if (!is_root) {
    // Rounded corner, gradient mask or render surface should trigger the
    // creation of a transform node.
    if (should_create_render_surface || layer->HasMaskFilter()) {
      // In this case, we will create a transform node, so it's safe to use the
      // next available id from the transform tree as this effect node's
      // transform id.
      node->transform_id = transform_tree_->next_available_id();
    }
    node->clip_id = data_from_ancestor.clip_tree_parent;
  } else {
    // The root render surface acts as the unbounded and untransformed surface
    // into which content is drawn. The transform node created from the root
    // layer (which includes device scale factor) and the clip node created from
    // the root layer apply to the root render surface's content, but not to the
    // root render surface itself.
    node->transform_id = kRootPropertyNodeId;
    node->clip_id = kViewportPropertyNodeId;
  }

  data_for_children->closest_ancestor_with_cached_render_surface =
      node->closest_ancestor_with_cached_render_surface_id;
  data_for_children->closest_ancestor_with_copy_request =
      node->closest_ancestor_with_copy_request_id;
  data_for_children->closest_ancestor_being_captured =
      node->closest_ancestor_being_captured_id;
  data_for_children->effect_tree_parent = node_id;
  layer->SetEffectTreeIndex(node_id);

  // For animation subsystem purposes, if this layer has a compositor element
  // id, we build a map from that id to this effect node.
  if (layer->element_id()) {
    effect_tree_->SetElementIdForNodeId(node_id, layer->element_id());
  }

  std::vector<std::unique_ptr<viz::CopyOutputRequest>> layer_copy_requests;
  layer->TakeCopyRequests(&layer_copy_requests);
  for (auto& it : layer_copy_requests) {
    effect_tree_->AddCopyRequest(node_id, std::move(it));
  }
  layer_copy_requests.clear();

  if (should_create_render_surface) {
    data_for_children->compound_transform_since_render_target =
        gfx::Transform();
    data_for_children->animation_axis_aligned_since_render_target = true;
  }
  return should_create_render_surface;
}

bool PropertyTreeBuilderContext::UpdateRenderSurfaceIfNeeded(
    int parent_effect_tree_id,
    DataForRecursion* data_for_children,
    bool is_rounded_corner_layer_within_parent_bounds,
    bool subtree_has_overlapping_rounded_corner,
    bool subtree_has_gradient_mask,
    bool created_transform_node) const {
  // No effect node was generated for this layer.
  if (parent_effect_tree_id == data_for_children->effect_tree_parent) {
    *data_for_children->subtree_has_gradient_mask = subtree_has_gradient_mask;
    *data_for_children->subtree_has_overlapping_rounded_corner =
        subtree_has_overlapping_rounded_corner;
    return false;
  }

  EffectNode* effect_node =
      effect_tree_->Node(data_for_children->effect_tree_parent);
  const bool has_rounded_corner =
      effect_node->mask_filter_info.HasRoundedCorners();
  const bool has_gradient_mask =
      effect_node->mask_filter_info.HasGradientMask();

  // Having a mask (either rounded corner or gradient) should trigger a
  // transform node.
  if (has_rounded_corner || has_gradient_mask)
    DCHECK(created_transform_node);

  // If the subtree has a node that doesn't fit this node and it has a rounded
  // corner mask or it has a gradient mask (regardless it fits or not), and this
  // node also has a mask too, then this node needs to have a render surface to
  // prevent any intersections between the masks. Since GL renderer can only
  // handle a single rrect/gradient mask per quad at draw time, it would be
  // unable to handle intersections thus resulting in artifacts.
  if (subtree_has_overlapping_rounded_corner && has_rounded_corner) {
    effect_node->render_surface_reason = RenderSurfaceReason::kRoundedCorner;
  } else if (subtree_has_gradient_mask && has_gradient_mask) {
    effect_node->render_surface_reason = RenderSurfaceReason::kGradientMask;
  }

  // Inform the parent that its subtree has a mask (either rounded corner or
  // gradient) if one of the two scenario is true:
  //   - The subtree rooted at this node has a mask (either rounded corner or
  //     gradient) and this node does not have a render surface.
  //   - This node has a mask (either rounded corner or mask)
  // The parent may have a rounded corner and would want to create a render
  // surface of its own to prevent blending artifacts due to intersecting
  // rounded corners.
  *data_for_children->subtree_has_overlapping_rounded_corner =
      (subtree_has_overlapping_rounded_corner &&
       !effect_node->HasRenderSurface()) ||
      (has_rounded_corner && !is_rounded_corner_layer_within_parent_bounds);
  *data_for_children->subtree_has_gradient_mask =
      (subtree_has_gradient_mask && !effect_node->HasRenderSurface()) ||
      has_gradient_mask;
  return effect_node->HasRenderSurface();
}

bool PropertyTreeBuilderContext::IsRoundedCornerLayerWithinParentLayerBounds(
    const Layer* layer) const {
  if (!layer || !layer->HasRoundedCorner()) {
    return false;
  }

  // This is a root surface. Return early.
  if (!layer->parent()) {
    return true;
  }

  // TODO(crbug.com/40245439): support cases when the layer has transforms or
  // pixel moving filters.
  if (!layer->transform().IsIdentity() ||
      layer->filters().HasFilterThatMovesPixels()) {
    return false;
  }

  const auto* parent_layer = layer->parent();
  // The parent clips subtree to its bounds. The |layer| must never span outside
  // the parent layer's bounds.
  if (parent_layer->masks_to_bounds()) {
    return true;
  }

  const gfx::RectF current_layers_bounds =
      gfx::RectF(layer->position(), gfx::SizeF(layer->bounds()));
  const gfx::RectF parent_rect =
      gfx::RectF(gfx::PointF(0, 0), gfx::SizeF(parent_layer->bounds()));
  return parent_rect.Contains(current_layers_bounds);
}

void PropertyTreeBuilderContext::AddScrollNodeIfNeeded(
    const DataForRecursion& data_from_ancestor,
    Layer* layer,
    DataForRecursion* data_for_children) const {
  int parent_id = data_from_ancestor.scroll_tree_parent;

  bool is_root = !layer->parent();
  bool scrollable = layer->scrollable();
  CHECK(layer->main_thread_scroll_hit_test_region().IsEmpty());
  bool requires_node = is_root || scrollable;

  int node_id;
  if (!requires_node) {
    node_id = parent_id;
    data_for_children->scroll_tree_parent = node_id;
  } else {
    CHECK(!is_root || !scrollable);
    CHECK(!is_root || layer->offset_to_transform_parent().IsZero());
    ScrollNode node;
    node.bounds = layer->bounds();
    node.container_bounds = layer->scroll_container_bounds();
    node.user_scrollable_horizontal = node.user_scrollable_vertical =
        scrollable;
    node.element_id = layer->element_id();
    node.transform_id = data_for_children->transform_tree_parent;
    node.is_composited = true;

    node_id = scroll_tree_->Insert(node, parent_id);
    data_for_children->scroll_tree_parent = node_id;

    // For animation subsystem purposes, if this layer has a compositor element
    // id, we build a map from that id to this scroll node.
    if (layer->element_id()) {
      scroll_tree_->SetElementIdForNodeId(node_id, layer->element_id());
    }

    scroll_tree_->SetBaseScrollOffset(layer->element_id(),
                                      layer->scroll_offset());
  }

  layer->SetScrollTreeIndex(node_id);
}

void SetSafeOpaqueBackgroundColor(const DataForRecursion& data_from_ancestor,
                                  Layer* layer,
                                  DataForRecursion* data_for_children) {
  SkColor4f background_color = layer->background_color();
  data_for_children->safe_opaque_background_color =
      background_color.isOpaque()
          ? background_color
          : data_from_ancestor.safe_opaque_background_color;
  layer->SetSafeOpaqueBackgroundColor(
      data_for_children->safe_opaque_background_color);
}

void PropertyTreeBuilderContext::BuildPropertyTreesInternal(
    Layer* layer,
    const DataForRecursion& data_from_parent) const {
  layer->set_property_tree_sequence_number(property_trees_->sequence_number());

  DataForRecursion data_for_children(data_from_parent);
  *data_for_children.subtree_has_overlapping_rounded_corner = false;
  *data_for_children.subtree_has_gradient_mask = false;

  bool created_render_surface =
      AddEffectNodeIfNeeded(data_from_parent, layer, &data_for_children);

  bool created_transform_node = AddTransformNodeIfNeeded(
      data_from_parent, layer, created_render_surface, &data_for_children);
  layer->SetHasTransformNode(created_transform_node);
  AddClipNodeIfNeeded(data_from_parent, layer, created_transform_node,
                      &data_for_children);

  AddScrollNodeIfNeeded(data_from_parent, layer, &data_for_children);

  SetSafeOpaqueBackgroundColor(data_from_parent, layer, &data_for_children);

  bool not_axis_aligned_since_last_clip =
      data_from_parent.not_axis_aligned_since_last_clip
          ? true
          : !AnimationsPreserveAxisAlignment(*mutator_host_, layer) ||
                !layer->transform().Preserves2dAxisAlignment();
  bool has_non_axis_aligned_clip =
      not_axis_aligned_since_last_clip && LayerClipsSubtree(layer);
  data_for_children.not_axis_aligned_since_last_clip =
      !has_non_axis_aligned_clip;

  bool subtree_has_overlapping_rounded_corner = false;
  bool subtree_has_gradient_mask = false;
  for (const scoped_refptr<Layer>& child : layer->children()) {
    if (layer->subtree_property_changed())
      child->SetSubtreePropertyChanged();
    BuildPropertyTreesInternal(child.get(), data_for_children);
    subtree_has_overlapping_rounded_corner |=
        *data_for_children.subtree_has_overlapping_rounded_corner;
    subtree_has_gradient_mask |= *data_for_children.subtree_has_gradient_mask;
  }

  const bool is_rounded_corner_layer_within_parent_bounds =
      IsRoundedCornerLayerWithinParentLayerBounds(layer);
  created_render_surface = UpdateRenderSurfaceIfNeeded(
      data_from_parent.effect_tree_parent, &data_for_children,
      is_rounded_corner_layer_within_parent_bounds,
      subtree_has_overlapping_rounded_corner, subtree_has_gradient_mask,
      created_transform_node);
}

void PropertyTreeBuilderContext::BuildPropertyTrees() {
  property_trees_->set_is_main_thread(true);
  property_trees_->set_is_active(false);

  UpdateSubtreeHasCopyRequestRecursive(root_layer_);

  if (!property_trees_->needs_rebuild()) {
    clip_tree_->SetViewportClip(
        gfx::RectF(layer_tree_host_->device_viewport_rect()));
    // SetRootScaleAndTransform will be incorrect if the root layer has
    // non-zero position, so ensure it is zero.
    DCHECK(root_layer_->position().IsOrigin());
    transform_tree_->SetRootScaleAndTransform(
        layer_tree_host_->device_scale_factor(), gfx::Transform());
    return;
  }

  // Must outlive `data_for_recursion`.
  bool subtree_has_overlapping_rounded_corner;
  bool subtree_has_gradient_mask;

  DataForRecursion data_for_recursion;
  data_for_recursion.transform_tree_parent = kInvalidPropertyNodeId;
  data_for_recursion.effect_tree_parent = kInvalidPropertyNodeId;
  data_for_recursion.scroll_tree_parent = kRootPropertyNodeId;
  data_for_recursion.closest_ancestor_with_cached_render_surface =
      kInvalidPropertyNodeId;
  data_for_recursion.closest_ancestor_with_copy_request =
      kInvalidPropertyNodeId;
  data_for_recursion.closest_ancestor_being_captured = kInvalidPropertyNodeId;
  data_for_recursion.compound_transform_since_render_target = gfx::Transform();
  data_for_recursion.animation_axis_aligned_since_render_target = true;
  data_for_recursion.not_axis_aligned_since_last_clip = false;

  data_for_recursion.safe_opaque_background_color =
      layer_tree_host_->background_color().isOpaque()
          ? layer_tree_host_->background_color()
          : layer_tree_host_->background_color().makeOpaque();

  property_trees_->clear();
  transform_tree_->set_device_scale_factor(
      layer_tree_host_->device_scale_factor());
  ClipNode root_clip;
  root_clip.clip = gfx::RectF(layer_tree_host_->device_viewport_rect());
  root_clip.transform_id = kRootPropertyNodeId;
  data_for_recursion.clip_tree_parent =
      clip_tree_->Insert(root_clip, kRootPropertyNodeId);

  data_for_recursion.subtree_has_overlapping_rounded_corner =
      &subtree_has_overlapping_rounded_corner;
  data_for_recursion.subtree_has_gradient_mask = &subtree_has_gradient_mask;

  BuildPropertyTreesInternal(root_layer_, data_for_recursion);
  property_trees_->set_needs_rebuild(false);

  // The transform tree is kept up to date as it is built, but the
  // combined_clips stored in the clip tree and the screen_space_opacity and
  // is_drawn in the effect tree aren't computed during tree building.
  transform_tree_->set_needs_update(false);
  clip_tree_->set_needs_update(true);
  effect_tree_->set_needs_update(true);
}

}  // namespace

void PropertyTreeBuilder::BuildPropertyTrees(LayerTreeHost* layer_tree_host) {
  PropertyTreeBuilderContext(layer_tree_host).BuildPropertyTrees();

  layer_tree_host->property_trees()->ResetCachedData();
  // During building property trees, all copy requests are moved from layers to
  // effect tree, which are then pushed at commit to compositor thread and
  // handled there. LayerTreeHost::has_copy_request is only required to
  // decide if we want to create a effect node. So, it can be reset now.
  layer_tree_host->SetHasCopyRequest(false);
}

}  // namespace cc