blob: bbe6c61aebf85ef0ad37531751081c921fd5f490 [file] [log] [blame]
// Copyright 2013 The Flutter Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <optional>
#include "fml/logging.h"
#include "impeller/entity/contents/clip_contents.h"
#include "impeller/entity/contents/content_context.h"
#include "impeller/entity/contents/solid_fill_utils.h"
#include "impeller/entity/entity.h"
#include "impeller/geometry/path_builder.h"
#include "impeller/renderer/formats.h"
#include "impeller/renderer/render_pass.h"
#include "impeller/renderer/vertex_buffer_builder.h"
namespace impeller {
/*******************************************************************************
******* ClipContents
******************************************************************************/
ClipContents::ClipContents() = default;
ClipContents::~ClipContents() = default;
void ClipContents::SetPath(Path path) {
path_ = std::move(path);
}
void ClipContents::SetClipOperation(Entity::ClipOperation clip_op) {
clip_op_ = clip_op;
}
std::optional<Rect> ClipContents::GetCoverage(const Entity& entity) const {
return std::nullopt;
};
Contents::StencilCoverage ClipContents::GetStencilCoverage(
const Entity& entity,
const std::optional<Rect>& current_stencil_coverage) const {
if (!current_stencil_coverage.has_value()) {
return {.type = StencilCoverage::Type::kAppend, .coverage = std::nullopt};
}
switch (clip_op_) {
case Entity::ClipOperation::kDifference:
// This can be optimized further by considering cases when the bounds of
// the current stencil will shrink.
return {.type = StencilCoverage::Type::kAppend,
.coverage = current_stencil_coverage};
case Entity::ClipOperation::kIntersect:
return {
.type = StencilCoverage::Type::kAppend,
.coverage = current_stencil_coverage->Intersection(
path_.GetTransformedBoundingBox(entity.GetTransformation())
.value()),
};
}
FML_UNREACHABLE();
}
bool ClipContents::ShouldRender(
const Entity& entity,
const std::optional<Rect>& stencil_coverage) const {
return true;
}
bool ClipContents::Render(const ContentContext& renderer,
const Entity& entity,
RenderPass& pass) const {
using VS = ClipPipeline::VertexShader;
using FS = ClipPipeline::FragmentShader;
VS::VertInfo info;
Command cmd;
FS::FragInfo frag_info;
// The color really doesn't matter.
frag_info.color = Color::SkyBlue();
FS::BindFragInfo(cmd, pass.GetTransientsBuffer().EmplaceUniform(frag_info));
auto options = OptionsFromPassAndEntity(pass, entity);
cmd.stencil_reference = entity.GetStencilDepth();
options.stencil_compare = CompareFunction::kEqual;
options.stencil_operation = StencilOperation::kIncrementClamp;
if (clip_op_ == Entity::ClipOperation::kDifference) {
{
cmd.label = "Difference Clip (Increment)";
cmd.primitive_type = PrimitiveType::kTriangleStrip;
auto points = Rect(Size(pass.GetRenderTargetSize())).GetPoints();
auto vertices =
VertexBufferBuilder<VS::PerVertexData>{}
.AddVertices({{points[0]}, {points[1]}, {points[2]}, {points[3]}})
.CreateVertexBuffer(pass.GetTransientsBuffer());
cmd.BindVertices(std::move(vertices));
info.mvp = Matrix::MakeOrthographic(pass.GetRenderTargetSize());
VS::BindVertInfo(cmd, pass.GetTransientsBuffer().EmplaceUniform(info));
cmd.pipeline = renderer.GetClipPipeline(options);
pass.AddCommand(cmd);
}
{
cmd.label = "Difference Clip (Punch)";
cmd.primitive_type = PrimitiveType::kTriangle;
cmd.stencil_reference = entity.GetStencilDepth() + 1;
options.stencil_compare = CompareFunction::kEqual;
options.stencil_operation = StencilOperation::kDecrementClamp;
}
} else {
cmd.label = "Intersect Clip";
options.stencil_compare = CompareFunction::kEqual;
options.stencil_operation = StencilOperation::kIncrementClamp;
}
cmd.pipeline = renderer.GetClipPipeline(options);
cmd.BindVertices(CreateSolidFillVertices(renderer.GetTessellator(), path_,
pass.GetTransientsBuffer()));
info.mvp = Matrix::MakeOrthographic(pass.GetRenderTargetSize()) *
entity.GetTransformation();
VS::BindVertInfo(cmd, pass.GetTransientsBuffer().EmplaceUniform(info));
pass.AddCommand(std::move(cmd));
return true;
}
/*******************************************************************************
******* ClipRestoreContents
******************************************************************************/
ClipRestoreContents::ClipRestoreContents() = default;
ClipRestoreContents::~ClipRestoreContents() = default;
std::optional<Rect> ClipRestoreContents::GetCoverage(
const Entity& entity) const {
return std::nullopt;
};
Contents::StencilCoverage ClipRestoreContents::GetStencilCoverage(
const Entity& entity,
const std::optional<Rect>& current_stencil_coverage) const {
return {.type = StencilCoverage::Type::kRestore, .coverage = std::nullopt};
}
bool ClipRestoreContents::ShouldRender(
const Entity& entity,
const std::optional<Rect>& stencil_coverage) const {
return true;
}
bool ClipRestoreContents::Render(const ContentContext& renderer,
const Entity& entity,
RenderPass& pass) const {
using VS = ClipPipeline::VertexShader;
using FS = ClipPipeline::FragmentShader;
Command cmd;
cmd.label = "Restore Clip";
auto options = OptionsFromPassAndEntity(pass, entity);
options.stencil_compare = CompareFunction::kLess;
options.stencil_operation = StencilOperation::kSetToReferenceValue;
cmd.pipeline = renderer.GetClipPipeline(options);
cmd.stencil_reference = entity.GetStencilDepth();
// Create a rect that covers the whole render target.
auto size = pass.GetRenderTargetSize();
VertexBufferBuilder<VS::PerVertexData> vtx_builder;
vtx_builder.AddVertices({
{Point(0.0, 0.0)},
{Point(size.width, 0.0)},
{Point(size.width, size.height)},
{Point(0.0, 0.0)},
{Point(size.width, size.height)},
{Point(0.0, size.height)},
});
cmd.BindVertices(vtx_builder.CreateVertexBuffer(pass.GetTransientsBuffer()));
VS::VertInfo info;
info.mvp = Matrix::MakeOrthographic(pass.GetRenderTargetSize());
VS::BindVertInfo(cmd, pass.GetTransientsBuffer().EmplaceUniform(info));
FS::FragInfo frag_info;
// The color really doesn't matter.
frag_info.color = Color::SkyBlue();
FS::BindFragInfo(cmd, pass.GetTransientsBuffer().EmplaceUniform(frag_info));
pass.AddCommand(std::move(cmd));
return true;
}
}; // namespace impeller