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flutter / mirrors / engine / refs/heads/flutter-3.4-candidate.23 / . / impeller / aiks / aiks_unittests.cc
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// 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 <array>
#include <cmath>
#include <iostream>
#include <tuple>
#include "flutter/testing/testing.h"
#include "impeller/aiks/aiks_playground.h"
#include "impeller/aiks/canvas.h"
#include "impeller/aiks/image.h"
#include "impeller/entity/contents/tiled_texture_contents.h"
#include "impeller/geometry/color.h"
#include "impeller/geometry/geometry_unittests.h"
#include "impeller/geometry/matrix.h"
#include "impeller/geometry/path_builder.h"
#include "impeller/playground/widgets.h"
#include "impeller/renderer/command_buffer.h"
#include "impeller/renderer/snapshot.h"
#include "impeller/typographer/backends/skia/text_frame_skia.h"
#include "impeller/typographer/backends/skia/text_render_context_skia.h"
#include "third_party/skia/include/core/SkData.h"
namespace impeller {
namespace testing {
using AiksTest = AiksPlayground;
INSTANTIATE_PLAYGROUND_SUITE(AiksTest);
TEST_P(AiksTest, CanvasCTMCanBeUpdated) {
Canvas canvas;
Matrix identity;
ASSERT_MATRIX_NEAR(canvas.GetCurrentTransformation(), identity);
canvas.Translate(Size{100, 100});
ASSERT_MATRIX_NEAR(canvas.GetCurrentTransformation(),
Matrix::MakeTranslation({100.0, 100.0, 0.0}));
}
TEST_P(AiksTest, CanvasCanPushPopCTM) {
Canvas canvas;
ASSERT_EQ(canvas.GetSaveCount(), 1u);
ASSERT_EQ(canvas.Restore(), false);
canvas.Translate(Size{100, 100});
canvas.Save();
ASSERT_EQ(canvas.GetSaveCount(), 2u);
ASSERT_MATRIX_NEAR(canvas.GetCurrentTransformation(),
Matrix::MakeTranslation({100.0, 100.0, 0.0}));
ASSERT_TRUE(canvas.Restore());
ASSERT_EQ(canvas.GetSaveCount(), 1u);
ASSERT_MATRIX_NEAR(canvas.GetCurrentTransformation(),
Matrix::MakeTranslation({100.0, 100.0, 0.0}));
}
TEST_P(AiksTest, CanRenderColoredRect) {
Canvas canvas;
Paint paint;
paint.color = Color::Blue();
canvas.DrawPath(PathBuilder{}
.AddRect(Rect::MakeXYWH(100.0, 100.0, 100.0, 100.0))
.TakePath(),
paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderImage) {
Canvas canvas;
Paint paint;
auto image = std::make_shared<Image>(CreateTextureForFixture("kalimba.jpg"));
paint.color = Color::Red();
canvas.DrawImage(image, Point::MakeXY(100.0, 100.0), paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
bool GenerateMipmap(std::shared_ptr<Context> context,
std::shared_ptr<Texture> texture,
std::string label) {
auto buffer = context->CreateCommandBuffer();
if (!buffer) {
return false;
}
auto pass = buffer->CreateBlitPass();
if (!pass) {
return false;
}
pass->GenerateMipmap(texture, label);
pass->EncodeCommands(context->GetResourceAllocator());
return true;
}
TEST_P(AiksTest, CanRenderTiledTexture) {
auto context = GetContext();
ASSERT_TRUE(context);
bool first_frame = true;
auto texture = CreateTextureForFixture("table_mountain_nx.png",
/*enable_mipmapping=*/true);
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
GenerateMipmap(context, texture, "table_mountain_nx");
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
const char* mip_filter_names[] = {"None", "Nearest", "Linear"};
const MipFilter mip_filters[] = {MipFilter::kNone, MipFilter::kNearest,
MipFilter::kLinear};
const char* min_mag_filter_names[] = {"Nearest", "Linear"};
const MinMagFilter min_mag_filters[] = {MinMagFilter::kNearest,
MinMagFilter::kLinear};
static int selected_x_tile_mode = 0;
static int selected_y_tile_mode = 0;
static int selected_mip_filter = 0;
static int selected_min_mag_filter = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("X tile mode", &selected_x_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
ImGui::Combo("Y tile mode", &selected_y_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
ImGui::Combo("Mip filter", &selected_mip_filter, mip_filter_names,
sizeof(mip_filter_names) / sizeof(char*));
ImGui::Combo("Min Mag filter", &selected_min_mag_filter,
min_mag_filter_names,
sizeof(min_mag_filter_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto x_tile_mode = tile_modes[selected_x_tile_mode];
auto y_tile_mode = tile_modes[selected_y_tile_mode];
SamplerDescriptor descriptor;
descriptor.mip_filter = mip_filters[selected_mip_filter];
descriptor.min_filter = min_mag_filters[selected_min_mag_filter];
descriptor.mag_filter = min_mag_filters[selected_min_mag_filter];
paint.color_source = [texture, x_tile_mode, y_tile_mode, descriptor]() {
auto contents = std::make_shared<TiledTextureContents>();
contents->SetTexture(texture);
contents->SetTileModes(x_tile_mode, y_tile_mode);
contents->SetSamplerDescriptor(descriptor);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderImageRect) {
Canvas canvas;
Paint paint;
auto image = std::make_shared<Image>(CreateTextureForFixture("kalimba.jpg"));
auto source_rect = Rect::MakeSize(Size(image->GetSize()));
// Render the bottom right quarter of the source image in a stretched rect.
source_rect.size.width /= 2;
source_rect.size.height /= 2;
source_rect.origin.x += source_rect.size.width;
source_rect.origin.y += source_rect.size.height;
canvas.DrawImageRect(image, source_rect, Rect::MakeXYWH(100, 100, 600, 600),
paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderStrokes) {
Canvas canvas;
Paint paint;
paint.color = Color::Red();
paint.stroke_width = 20.0;
paint.style = Paint::Style::kStroke;
canvas.DrawPath(PathBuilder{}.AddLine({200, 100}, {800, 100}).TakePath(),
paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderCurvedStrokes) {
Canvas canvas;
Paint paint;
paint.color = Color::Red();
paint.stroke_width = 25.0;
paint.style = Paint::Style::kStroke;
canvas.DrawPath(PathBuilder{}.AddCircle({500, 500}, 250).TakePath(), paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderClips) {
Canvas canvas;
Paint paint;
paint.color = Color::Fuchsia();
canvas.ClipPath(
PathBuilder{}.AddRect(Rect::MakeXYWH(0, 0, 500, 500)).TakePath());
canvas.DrawPath(PathBuilder{}.AddCircle({500, 500}, 250).TakePath(), paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderNestedClips) {
Canvas canvas;
Paint paint;
paint.color = Color::Fuchsia();
canvas.Save();
canvas.ClipPath(PathBuilder{}.AddCircle({200, 400}, 300).TakePath());
canvas.Restore();
canvas.ClipPath(PathBuilder{}.AddCircle({600, 400}, 300).TakePath());
canvas.ClipPath(PathBuilder{}.AddCircle({400, 600}, 300).TakePath());
canvas.DrawRect(Rect::MakeXYWH(200, 200, 400, 400), paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderDifferenceClips) {
Paint paint;
Canvas canvas;
canvas.Translate({400, 400});
// Limit drawing to face circle with a clip.
canvas.ClipPath(PathBuilder{}.AddCircle(Point(), 200).TakePath());
canvas.Save();
// Cut away eyes/mouth using difference clips.
canvas.ClipPath(PathBuilder{}.AddCircle({-100, -50}, 30).TakePath(),
Entity::ClipOperation::kDifference);
canvas.ClipPath(PathBuilder{}.AddCircle({100, -50}, 30).TakePath(),
Entity::ClipOperation::kDifference);
canvas.ClipPath(PathBuilder{}
.AddQuadraticCurve({-100, 50}, {0, 150}, {100, 50})
.TakePath(),
Entity::ClipOperation::kDifference);
// Draw a huge yellow rectangle to prove the clipping works.
paint.color = Color::Yellow();
canvas.DrawRect(Rect::MakeXYWH(-1000, -1000, 2000, 2000), paint);
// Remove the difference clips and draw hair that partially covers the eyes.
canvas.Restore();
paint.color = Color::Maroon();
canvas.DrawPath(PathBuilder{}
.MoveTo({200, -200})
.HorizontalLineTo(-200)
.VerticalLineTo(-40)
.CubicCurveTo({0, -40}, {0, -80}, {200, -80})
.TakePath(),
paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, ClipsUseCurrentTransform) {
std::array<Color, 5> colors = {Color::White(), Color::Black(),
Color::SkyBlue(), Color::Red(),
Color::Yellow()};
Canvas canvas;
Paint paint;
canvas.Translate(Vector3(300, 300));
for (int i = 0; i < 15; i++) {
canvas.Scale(Vector3(0.8, 0.8));
paint.color = colors[i % colors.size()];
canvas.ClipPath(PathBuilder{}.AddCircle({0, 0}, 300).TakePath());
canvas.DrawRect(Rect(-300, -300, 600, 600), paint);
}
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanSaveLayerStandalone) {
Canvas canvas;
Paint red;
red.color = Color::Red();
Paint alpha;
alpha.color = Color::Red().WithAlpha(0.5);
canvas.SaveLayer(alpha);
canvas.DrawCircle({125, 125}, 125, red);
canvas.Restore();
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderLinearGradient) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
std::vector<Color> colors = {Color{0.9568, 0.2627, 0.2118, 1.0},
Color{0.1294, 0.5882, 0.9529, 1.0}};
std::vector<Scalar> stops = {0.0, 1.0};
auto contents = std::make_shared<LinearGradientContents>();
contents->SetEndPoints({0, 0}, {200, 200});
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderLinearGradientManyColors) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
label.c_str();
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
std::vector<Color> colors = {
Color{0x1f / 255.0, 0.0, 0x5c / 255.0, 1.0},
Color{0x5b / 255.0, 0.0, 0x60 / 255.0, 1.0},
Color{0x87 / 255.0, 0x01 / 255.0, 0x60 / 255.0, 1.0},
Color{0xac / 255.0, 0x25 / 255.0, 0x53 / 255.0, 1.0},
Color{0xe1 / 255.0, 0x6b / 255.0, 0x5c / 255.0, 1.0},
Color{0xf3 / 255.0, 0x90 / 255.0, 0x60 / 255.0, 1.0},
Color{0xff / 255.0, 0xb5 / 255.0, 0x6b / 250.0, 1.0}};
std::vector<Scalar> stops = {
0.0,
(1.0 / 6.0) * 1,
(1.0 / 6.0) * 2,
(1.0 / 6.0) * 3,
(1.0 / 6.0) * 4,
(1.0 / 6.0) * 5,
1.0,
};
auto contents = std::make_shared<LinearGradientContents>();
contents->SetEndPoints({0, 0}, {200, 200});
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderLinearGradientWayManyColors) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
label.c_str();
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
auto color = Color{0x1f / 255.0, 0.0, 0x5c / 255.0, 1.0};
std::vector<Color> colors;
std::vector<Scalar> stops;
auto current_stop = 0.0;
for (int i = 0; i < 2000; i++) {
colors.push_back(color);
stops.push_back(current_stop);
current_stop += 1 / 2000.0;
}
stops[2000 - 1] = 1.0;
paint.color_source = [tile_mode, stops = std::move(stops),
colors = std::move(colors)]() {
auto contents = std::make_shared<LinearGradientContents>();
contents->SetEndPoints({0, 0}, {200, 200});
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderLinearGradientManyColorsUnevenStops) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
label.c_str();
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
std::vector<Color> colors = {
Color{0x1f / 255.0, 0.0, 0x5c / 255.0, 1.0},
Color{0x5b / 255.0, 0.0, 0x60 / 255.0, 1.0},
Color{0x87 / 255.0, 0x01 / 255.0, 0x60 / 255.0, 1.0},
Color{0xac / 255.0, 0x25 / 255.0, 0x53 / 255.0, 1.0},
Color{0xe1 / 255.0, 0x6b / 255.0, 0x5c / 255.0, 1.0},
Color{0xf3 / 255.0, 0x90 / 255.0, 0x60 / 255.0, 1.0},
Color{0xff / 255.0, 0xb5 / 255.0, 0x6b / 250.0, 1.0}};
std::vector<Scalar> stops = {
0.0 / 126.0, 2.0 / 126.0, 4.0 / 126.0, 8.0 / 126.0,
16.0 / 126.0, 32.0 / 126.0, 1.0,
};
auto contents = std::make_shared<LinearGradientContents>();
contents->SetEndPoints({0, 0}, {200, 200});
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderRadialGradient) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
std::vector<Color> colors = {Color{0.9568, 0.2627, 0.2118, 1.0},
Color{0.1294, 0.5882, 0.9529, 1.0}};
std::vector<Scalar> stops = {0.0, 1.0};
auto contents = std::make_shared<RadialGradientContents>();
contents->SetCenterAndRadius({100, 100}, 100);
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderRadialGradientManyColors) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
label.c_str();
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
std::vector<Color> colors = {
Color{0x1f / 255.0, 0.0, 0x5c / 255.0, 1.0},
Color{0x5b / 255.0, 0.0, 0x60 / 255.0, 1.0},
Color{0x87 / 255.0, 0x01 / 255.0, 0x60 / 255.0, 1.0},
Color{0xac / 255.0, 0x25 / 255.0, 0x53 / 255.0, 1.0},
Color{0xe1 / 255.0, 0x6b / 255.0, 0x5c / 255.0, 1.0},
Color{0xf3 / 255.0, 0x90 / 255.0, 0x60 / 255.0, 1.0},
Color{0xff / 255.0, 0xb5 / 255.0, 0x6b / 250.0, 1.0}};
std::vector<Scalar> stops = {
0.0,
(1.0 / 6.0) * 1,
(1.0 / 6.0) * 2,
(1.0 / 6.0) * 3,
(1.0 / 6.0) * 4,
(1.0 / 6.0) * 5,
1.0,
};
auto contents = std::make_shared<RadialGradientContents>();
contents->SetCenterAndRadius({100, 100}, 100);
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderSweepGradient) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
auto contents = std::make_shared<SweepGradientContents>();
contents->SetCenterAndAngles({100, 100}, Degrees(45), Degrees(135));
std::vector<Color> colors = {Color{0.9568, 0.2627, 0.2118, 1.0},
Color{0.1294, 0.5882, 0.9529, 1.0}};
std::vector<Scalar> stops = {0.0, 1.0};
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderSweepGradientManyColors) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
const char* tile_mode_names[] = {"Clamp", "Repeat", "Mirror", "Decal"};
const Entity::TileMode tile_modes[] = {
Entity::TileMode::kClamp, Entity::TileMode::kRepeat,
Entity::TileMode::kMirror, Entity::TileMode::kDecal};
static int selected_tile_mode = 0;
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::Combo("Tile mode", &selected_tile_mode, tile_mode_names,
sizeof(tile_mode_names) / sizeof(char*));
static Matrix matrix = {
1, 0, 0, 0, //
0, 1, 0, 0, //
0, 0, 1, 0, //
0, 0, 0, 1 //
};
std::string label = "##1";
label.c_str();
for (int i = 0; i < 4; i++) {
ImGui::InputScalarN(label.c_str(), ImGuiDataType_Float, &(matrix.vec[i]),
4, NULL, NULL, "%.2f", 0);
label[2]++;
}
ImGui::End();
Canvas canvas;
Paint paint;
canvas.Translate({100.0, 100.0, 0});
auto tile_mode = tile_modes[selected_tile_mode];
paint.color_source = [tile_mode]() {
auto contents = std::make_shared<SweepGradientContents>();
contents->SetCenterAndAngles({100, 100}, Degrees(45), Degrees(135));
std::vector<Color> colors = {
Color{0x1f / 255.0, 0.0, 0x5c / 255.0, 1.0},
Color{0x5b / 255.0, 0.0, 0x60 / 255.0, 1.0},
Color{0x87 / 255.0, 0x01 / 255.0, 0x60 / 255.0, 1.0},
Color{0xac / 255.0, 0x25 / 255.0, 0x53 / 255.0, 1.0},
Color{0xe1 / 255.0, 0x6b / 255.0, 0x5c / 255.0, 1.0},
Color{0xf3 / 255.0, 0x90 / 255.0, 0x60 / 255.0, 1.0},
Color{0xff / 255.0, 0xb5 / 255.0, 0x6b / 250.0, 1.0}};
std::vector<Scalar> stops = {
0.0,
(1.0 / 6.0) * 1,
(1.0 / 6.0) * 2,
(1.0 / 6.0) * 3,
(1.0 / 6.0) * 4,
(1.0 / 6.0) * 5,
1.0,
};
contents->SetStops(std::move(stops));
contents->SetColors(std::move(colors));
contents->SetTileMode(tile_mode);
contents->SetMatrix(matrix);
return contents;
};
canvas.DrawRect({0, 0, 600, 600}, paint);
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CanRenderDifferentShapesWithSameColorSource) {
Canvas canvas;
Paint paint;
paint.color_source = []() {
auto contents = std::make_shared<LinearGradientContents>();
contents->SetEndPoints({0, 0}, {100, 100});
std::vector<Color> colors = {Color{0.9568, 0.2627, 0.2118, 1.0},
Color{0.1294, 0.5882, 0.9529, 1.0}};
std::vector<Scalar> stops = {
0.0,
1.0,
};
contents->SetColors(std::move(colors));
contents->SetStops(std::move(stops));
contents->SetTileMode(Entity::TileMode::kRepeat);
return contents;
};
canvas.Save();
canvas.Translate({100, 100, 0});
canvas.DrawRect({0, 0, 200, 200}, paint);
canvas.Restore();
canvas.Save();
canvas.Translate({100, 400, 0});
canvas.DrawCircle({100, 100}, 100, paint);
canvas.Restore();
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanPictureConvertToImage) {
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
static int size[2] = {1000, 1000};
ImGui::Begin("Controls", nullptr, ImGuiWindowFlags_AlwaysAutoResize);
ImGui::SliderInt2("Size", size, 0, 1000);
ImGui::End();
Canvas recorder_canvas;
Paint paint;
paint.color = Color{0.9568, 0.2627, 0.2118, 1.0};
recorder_canvas.DrawRect({100.0, 100.0, 600, 600}, paint);
paint.color = Color{0.1294, 0.5882, 0.9529, 1.0};
recorder_canvas.DrawRect({200.0, 200.0, 600, 600}, paint);
Canvas canvas;
paint.color = Color::BlackTransparent();
canvas.DrawPaint(paint);
Picture picture = recorder_canvas.EndRecordingAsPicture();
auto image = picture.ToImage(renderer, ISize{size[0], size[1]});
if (image) {
canvas.DrawImage(image, Point(), Paint());
paint.color = Color{0.1, 0.1, 0.1, 0.2};
canvas.DrawRect(Rect::MakeSize(ISize{size[0], size[1]}), paint);
}
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, BlendModeShouldCoverWholeScreen) {
Canvas canvas;
Paint paint;
paint.color = Color::Red();
canvas.DrawPaint(paint);
paint.blend_mode = Entity::BlendMode::kSourceOver;
canvas.SaveLayer(paint);
paint.color = Color::White();
canvas.DrawRect({100, 100, 400, 400}, paint);
paint.blend_mode = Entity::BlendMode::kSource;
canvas.SaveLayer(paint);
paint.color = Color::Blue();
canvas.DrawRect({200, 200, 200, 200}, paint);
canvas.Restore();
canvas.Restore();
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderGroupOpacity) {
Canvas canvas;
Paint red;
red.color = Color::Red();
Paint green;
green.color = Color::Green().WithAlpha(0.5);
Paint blue;
blue.color = Color::Blue();
Paint alpha;
alpha.color = Color::Red().WithAlpha(0.5);
canvas.SaveLayer(alpha);
canvas.DrawRect({000, 000, 100, 100}, red);
canvas.DrawRect({020, 020, 100, 100}, green);
canvas.DrawRect({040, 040, 100, 100}, blue);
canvas.Restore();
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CoordinateConversionsAreCorrect) {
Canvas canvas;
// Render a texture directly.
{
Paint paint;
auto image =
std::make_shared<Image>(CreateTextureForFixture("kalimba.jpg"));
paint.color = Color::Red();
canvas.Save();
canvas.Translate({100, 200, 0});
canvas.Scale(Vector2{0.5, 0.5});
canvas.DrawImage(image, Point::MakeXY(100.0, 100.0), paint);
canvas.Restore();
}
// Render an offscreen rendered texture.
{
Paint red;
red.color = Color::Red();
Paint green;
green.color = Color::Green();
Paint blue;
blue.color = Color::Blue();
Paint alpha;
alpha.color = Color::Red().WithAlpha(0.5);
canvas.SaveLayer(alpha);
canvas.DrawRect({000, 000, 100, 100}, red);
canvas.DrawRect({020, 020, 100, 100}, green);
canvas.DrawRect({040, 040, 100, 100}, blue);
canvas.Restore();
}
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanPerformFullScreenMSAA) {
Canvas canvas;
Paint red;
red.color = Color::Red();
canvas.DrawCircle({250, 250}, 125, red);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanPerformSkew) {
Canvas canvas;
Paint red;
red.color = Color::Red();
canvas.Skew(2, 5);
canvas.DrawRect(Rect::MakeXYWH(0, 0, 100, 100), red);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanPerformSaveLayerWithBounds) {
Canvas canvas;
Paint red;
red.color = Color::Red();
Paint green;
green.color = Color::Green();
Paint blue;
blue.color = Color::Blue();
Paint save;
save.color = Color::Black();
canvas.SaveLayer(save, Rect{0, 0, 50, 50});
canvas.DrawRect({0, 0, 100, 100}, red);
canvas.DrawRect({10, 10, 100, 100}, green);
canvas.DrawRect({20, 20, 100, 100}, blue);
canvas.Restore();
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest,
CanPerformSaveLayerWithBoundsAndLargerIntermediateIsNotAllocated) {
Canvas canvas;
Paint red;
red.color = Color::Red();
Paint green;
green.color = Color::Green();
Paint blue;
blue.color = Color::Blue();
Paint save;
save.color = Color::Black().WithAlpha(0.5);
canvas.SaveLayer(save, Rect{0, 0, 100000, 100000});
canvas.DrawRect({0, 0, 100, 100}, red);
canvas.DrawRect({10, 10, 100, 100}, green);
canvas.DrawRect({20, 20, 100, 100}, blue);
canvas.Restore();
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderRoundedRectWithNonUniformRadii) {
Canvas canvas;
Paint paint;
paint.color = Color::Red();
PathBuilder::RoundingRadii radii;
radii.top_left = {50, 25};
radii.top_right = {25, 50};
radii.bottom_right = {50, 25};
radii.bottom_left = {25, 50};
auto path =
PathBuilder{}.AddRoundedRect(Rect{100, 100, 500, 500}, radii).TakePath();
canvas.DrawPath(path, paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderDifferencePaths) {
Canvas canvas;
Paint paint;
paint.color = Color::Red();
PathBuilder builder;
PathBuilder::RoundingRadii radii;
radii.top_left = {50, 25};
radii.top_right = {25, 50};
radii.bottom_right = {50, 25};
radii.bottom_left = {25, 50};
builder.AddRoundedRect({100, 100, 200, 200}, radii);
builder.AddCircle({200, 200}, 50);
auto path = builder.TakePath(FillType::kOdd);
canvas.DrawImage(
std::make_shared<Image>(CreateTextureForFixture("boston.jpg")), {10, 10},
Paint{});
canvas.DrawPath(std::move(path), paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
static sk_sp<SkData> OpenFixtureAsSkData(const char* fixture_name) {
auto mapping = flutter::testing::OpenFixtureAsMapping(fixture_name);
if (!mapping) {
return nullptr;
}
auto data = SkData::MakeWithProc(
mapping->GetMapping(), mapping->GetSize(),
[](const void* ptr, void* context) {
delete reinterpret_cast<fml::Mapping*>(context);
},
mapping.get());
mapping.release();
return data;
}
bool RenderTextInCanvas(std::shared_ptr<Context> context,
Canvas& canvas,
const std::string& text,
const std::string& font_fixture,
Scalar font_size = 50.0) {
Scalar baseline = 200.0;
Point text_position = {100, baseline};
// Draw the baseline.
canvas.DrawRect({50, baseline, 900, 10},
Paint{.color = Color::Aqua().WithAlpha(0.25)});
// Mark the point at which the text is drawn.
canvas.DrawCircle(text_position, 5.0,
Paint{.color = Color::Red().WithAlpha(0.25)});
// Construct the text blob.
auto mapping = OpenFixtureAsSkData(font_fixture.c_str());
if (!mapping) {
return false;
}
SkFont sk_font(SkTypeface::MakeFromData(mapping), 50.0);
auto blob = SkTextBlob::MakeFromString(text.c_str(), sk_font);
if (!blob) {
return false;
}
// Create the Impeller text frame and draw it at the designated baseline.
auto frame = TextFrameFromTextBlob(blob);
Paint text_paint;
text_paint.color = Color::Yellow();
canvas.DrawTextFrame(std::move(frame), text_position, text_paint);
return true;
}
TEST_P(AiksTest, CanRenderTextFrame) {
Canvas canvas;
ASSERT_TRUE(RenderTextInCanvas(
GetContext(), canvas, "the quick brown fox jumped over the lazy dog!.?",
"Roboto-Regular.ttf"));
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderItalicizedText) {
Canvas canvas;
ASSERT_TRUE(RenderTextInCanvas(
GetContext(), canvas, "the quick brown fox jumped over the lazy dog!.?",
"HomemadeApple.ttf"));
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderEmojiTextFrame) {
Canvas canvas;
ASSERT_TRUE(RenderTextInCanvas(GetContext(), canvas, "😀 😃 😄 😁 😆 😅 😂 🤣 🥲 ☺️ 😊",
"NotoColorEmoji.ttf"));
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderTextInSaveLayer) {
Canvas canvas;
canvas.DrawPaint({.color = Color::White()});
canvas.Translate({100, 100});
canvas.Scale(Vector2{0.5, 0.5});
// Blend the layer with the parent pass using kClear to expose the coverage.
canvas.SaveLayer({.blend_mode = Entity::BlendMode::kClear});
ASSERT_TRUE(RenderTextInCanvas(
GetContext(), canvas, "the quick brown fox jumped over the lazy dog!.?",
"Roboto-Regular.ttf"));
canvas.Restore();
// Render the text again over the cleared coverage rect.
ASSERT_TRUE(RenderTextInCanvas(
GetContext(), canvas, "the quick brown fox jumped over the lazy dog!.?",
"Roboto-Regular.ttf"));
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanDrawPaint) {
Paint paint;
paint.color = Color::MediumTurquoise();
Canvas canvas;
canvas.DrawPaint(paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, PaintBlendModeIsRespected) {
Paint paint;
Canvas canvas;
// Default is kSourceOver.
paint.color = Color(1, 0, 0, 0.5);
canvas.DrawCircle(Point(150, 200), 100, paint);
paint.color = Color(0, 1, 0, 0.5);
canvas.DrawCircle(Point(250, 200), 100, paint);
paint.blend_mode = Entity::BlendMode::kPlus;
paint.color = Color::Red();
canvas.DrawCircle(Point(450, 250), 100, paint);
paint.color = Color::Green();
canvas.DrawCircle(Point(550, 250), 100, paint);
paint.color = Color::Blue();
canvas.DrawCircle(Point(500, 150), 100, paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, ColorWheel) {
// Compare with https://fiddle.skia.org/c/@BlendModes
std::vector<const char*> blend_mode_names;
std::vector<Entity::BlendMode> blend_mode_values;
{
const std::vector<std::tuple<const char*, Entity::BlendMode>> blends = {
// Pipeline blends (Porter-Duff alpha compositing)
{"Clear", Entity::BlendMode::kClear},
{"Source", Entity::BlendMode::kSource},
{"Destination", Entity::BlendMode::kDestination},
{"SourceOver", Entity::BlendMode::kSourceOver},
{"DestinationOver", Entity::BlendMode::kDestinationOver},
{"SourceIn", Entity::BlendMode::kSourceIn},
{"DestinationIn", Entity::BlendMode::kDestinationIn},
{"SourceOut", Entity::BlendMode::kSourceOut},
{"DestinationOut", Entity::BlendMode::kDestinationOut},
{"SourceATop", Entity::BlendMode::kSourceATop},
{"DestinationATop", Entity::BlendMode::kDestinationATop},
{"Xor", Entity::BlendMode::kXor},
{"Plus", Entity::BlendMode::kPlus},
{"Modulate", Entity::BlendMode::kModulate},
// Advanced blends (color component blends)
{"Screen", Entity::BlendMode::kScreen},
{"Overlay", Entity::BlendMode::kOverlay},
{"Darken", Entity::BlendMode::kDarken},
{"Lighten", Entity::BlendMode::kLighten},
{"ColorDodge", Entity::BlendMode::kColorDodge},
{"ColorBurn", Entity::BlendMode::kColorBurn},
{"HardLight", Entity::BlendMode::kHardLight},
{"SoftLight", Entity::BlendMode::kSoftLight},
{"Difference", Entity::BlendMode::kDifference},
{"Exclusion", Entity::BlendMode::kExclusion},
{"Multiply", Entity::BlendMode::kMultiply},
{"Hue", Entity::BlendMode::kHue},
{"Saturation", Entity::BlendMode::kSaturation},
{"Color", Entity::BlendMode::kColor},
{"Luminosity", Entity::BlendMode::kLuminosity},
};
assert(blends.size() ==
static_cast<size_t>(Entity::BlendMode::kLastAdvancedBlendMode) + 1);
for (const auto& [name, mode] : blends) {
blend_mode_names.push_back(name);
blend_mode_values.push_back(mode);
}
}
auto draw_color_wheel = [](Canvas& canvas) {
/// color_wheel_sampler: r=0 -> fuchsia, r=2pi/3 -> yellow, r=4pi/3 ->
/// cyan domain: r >= 0 (because modulo used is non euclidean)
auto color_wheel_sampler = [](Radians r) {
Scalar x = r.radians / k2Pi + 1;
// https://www.desmos.com/calculator/6nhjelyoaj
auto color_cycle = [](Scalar x) {
Scalar cycle = std::fmod(x, 6.0f);
return std::max(0.0f, std::min(1.0f, 2 - std::abs(2 - cycle)));
};
return Color(color_cycle(6 * x + 1), //
color_cycle(6 * x - 1), //
color_cycle(6 * x - 3), //
1);
};
Paint paint;
paint.blend_mode = Entity::BlendMode::kSourceOver;
// Draw a fancy color wheel for the backdrop.
// https://www.desmos.com/calculator/xw7kafthwd
const int max_dist = 900;
for (int i = 0; i <= 900; i++) {
Radians r(kPhi / k2Pi * i);
Scalar distance = r.radians / std::powf(4.12, 0.0026 * r.radians);
Scalar normalized_distance = static_cast<Scalar>(i) / max_dist;
paint.color =
color_wheel_sampler(r).WithAlpha(1.0f - normalized_distance);
Point position(distance * std::sin(r.radians),
-distance * std::cos(r.radians));
canvas.DrawCircle(position, 9 + normalized_distance * 3, paint);
}
};
std::shared_ptr<Image> color_wheel;
Matrix color_wheel_transform;
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({350, 260});
ImGui::SetNextWindowPos({25, 25});
}
// UI state.
static int current_blend_index = 3;
static float alpha = 1;
static Color color0 = Color::Red();
static Color color1 = Color::Green();
static Color color2 = Color::Blue();
ImGui::Begin("Controls");
{
ImGui::ListBox("Blending mode", &current_blend_index,
blend_mode_names.data(), blend_mode_names.size());
ImGui::SliderFloat("Alpha", &alpha, 0, 1);
ImGui::ColorEdit4("Color A", reinterpret_cast<float*>(&color0));
ImGui::ColorEdit4("Color B", reinterpret_cast<float*>(&color1));
ImGui::ColorEdit4("Color C", reinterpret_cast<float*>(&color2));
}
ImGui::End();
static Point content_scale;
Point new_content_scale = GetContentScale();
if (new_content_scale != content_scale) {
content_scale = new_content_scale;
// Render the color wheel to an image.
Canvas canvas;
canvas.Scale(content_scale);
canvas.Translate(Vector2(500, 400));
canvas.Scale(Vector2(3, 3));
draw_color_wheel(canvas);
auto color_wheel_picture = canvas.EndRecordingAsPicture();
auto snapshot = color_wheel_picture.Snapshot(renderer);
if (!snapshot.has_value() || !snapshot->texture) {
return false;
}
color_wheel = std::make_shared<Image>(snapshot->texture);
color_wheel_transform = snapshot->transform;
}
Canvas canvas;
canvas.DrawPaint({.color = Color::White()});
canvas.Save();
canvas.Transform(color_wheel_transform);
canvas.DrawImage(color_wheel, Point(), Paint());
canvas.Restore();
canvas.Scale(content_scale);
canvas.Translate(Vector2(500, 400));
canvas.Scale(Vector2(3, 3));
// Draw 3 circles to a subpass and blend it in.
canvas.SaveLayer({.color = Color::White().WithAlpha(alpha),
.blend_mode = blend_mode_values[current_blend_index]});
{
Paint paint;
paint.blend_mode = Entity::BlendMode::kPlus;
const Scalar x = std::sin(k2Pi / 3);
const Scalar y = -std::cos(k2Pi / 3);
paint.color = color0;
canvas.DrawCircle(Point(-x, y) * 45, 65, paint);
paint.color = color1;
canvas.DrawCircle(Point(0, -1) * 45, 65, paint);
paint.color = color2;
canvas.DrawCircle(Point(x, y) * 45, 65, paint);
}
canvas.Restore();
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, TransformMultipliesCorrectly) {
Canvas canvas;
ASSERT_MATRIX_NEAR(canvas.GetCurrentTransformation(), Matrix());
// clang-format off
canvas.Translate(Vector3(100, 200));
ASSERT_MATRIX_NEAR(
canvas.GetCurrentTransformation(),
Matrix( 1, 0, 0, 0,
0, 1, 0, 0,
0, 0, 1, 0,
100, 200, 0, 1));
canvas.Rotate(Radians(kPiOver2));
ASSERT_MATRIX_NEAR(
canvas.GetCurrentTransformation(),
Matrix( 0, 1, 0, 0,
-1, 0, 0, 0,
0, 0, 1, 0,
100, 200, 0, 1));
canvas.Scale(Vector3(2, 3));
ASSERT_MATRIX_NEAR(
canvas.GetCurrentTransformation(),
Matrix( 0, 2, 0, 0,
-3, 0, 0, 0,
0, 0, 0, 0,
100, 200, 0, 1));
canvas.Translate(Vector3(100, 200));
ASSERT_MATRIX_NEAR(
canvas.GetCurrentTransformation(),
Matrix( 0, 2, 0, 0,
-3, 0, 0, 0,
0, 0, 0, 0,
-500, 400, 0, 1));
// clang-format on
}
TEST_P(AiksTest, SolidStrokesRenderCorrectly) {
// Compare with https://fiddle.skia.org/c/027392122bec8ac2b5d5de00a4b9bbe2
bool first_frame = true;
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
if (first_frame) {
first_frame = false;
ImGui::SetNextWindowSize({480, 100});
ImGui::SetNextWindowPos({100, 550});
}
static Color color = Color::Black().WithAlpha(0.5);
static float scale = 3;
static bool add_circle_clip = true;
ImGui::Begin("Controls");
ImGui::ColorEdit4("Color", reinterpret_cast<float*>(&color));
ImGui::SliderFloat("Scale", &scale, 0, 6);
ImGui::Checkbox("Circle clip", &add_circle_clip);
ImGui::End();
Canvas canvas;
canvas.Scale(GetContentScale());
Paint paint;
paint.color = Color::White();
canvas.DrawPaint(paint);
paint.color = color;
paint.style = Paint::Style::kStroke;
paint.stroke_width = 10;
Path path = PathBuilder{}
.MoveTo({20, 20})
.QuadraticCurveTo({60, 20}, {60, 60})
.Close()
.MoveTo({60, 20})
.QuadraticCurveTo({60, 60}, {20, 60})
.TakePath();
canvas.Scale(Vector2(scale, scale));
if (add_circle_clip) {
auto [handle_a, handle_b] = IMPELLER_PLAYGROUND_LINE(
Point(60, 300), Point(600, 300), 20, Color::Red(), Color::Red());
auto screen_to_canvas = canvas.GetCurrentTransformation().Invert();
Point point_a = screen_to_canvas * handle_a * GetContentScale();
Point point_b = screen_to_canvas * handle_b * GetContentScale();
Point middle = (point_a + point_b) / 2;
auto radius = point_a.GetDistance(middle);
canvas.ClipPath(PathBuilder{}.AddCircle(middle, radius).TakePath());
}
for (auto join :
{SolidStrokeContents::Join::kBevel, SolidStrokeContents::Join::kRound,
SolidStrokeContents::Join::kMiter}) {
paint.stroke_join = join;
for (auto cap :
{SolidStrokeContents::Cap::kButt, SolidStrokeContents::Cap::kSquare,
SolidStrokeContents::Cap::kRound}) {
paint.stroke_cap = cap;
canvas.DrawPath(path, paint);
canvas.Translate({80, 0});
}
canvas.Translate({-240, 60});
}
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, CoverageOriginShouldBeAccountedForInSubpasses) {
auto callback = [&](AiksContext& renderer, RenderTarget& render_target) {
Canvas canvas;
canvas.Scale(GetContentScale());
Paint alpha;
alpha.color = Color::Red().WithAlpha(0.5);
auto current = Point{25, 25};
const auto offset = Point{25, 25};
const auto size = Size(100, 100);
auto [b0, b1] = IMPELLER_PLAYGROUND_LINE(Point(40, 40), Point(160, 160), 10,
Color::White(), Color::White());
auto bounds = Rect::MakeLTRB(b0.x, b0.y, b1.x, b1.y);
canvas.DrawRect(bounds, Paint{.color = Color::Yellow(),
.stroke_width = 5.0f,
.style = Paint::Style::kStroke});
canvas.SaveLayer(alpha, bounds);
canvas.DrawRect({current, size}, Paint{.color = Color::Red()});
canvas.DrawRect({current += offset, size}, Paint{.color = Color::Green()});
canvas.DrawRect({current += offset, size}, Paint{.color = Color::Blue()});
canvas.Restore();
return renderer.Render(canvas.EndRecordingAsPicture(), render_target);
};
ASSERT_TRUE(OpenPlaygroundHere(callback));
}
TEST_P(AiksTest, DrawRectStrokesRenderCorrectly) {
Canvas canvas;
Paint paint;
paint.color = Color::Red();
paint.style = Paint::Style::kStroke;
paint.stroke_width = 10;
canvas.Translate({100, 100});
canvas.DrawPath(
PathBuilder{}.AddRect(Rect::MakeSize(Size{100, 100})).TakePath(),
{paint});
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, SaveLayerDrawsBehindSubsequentEntities) {
// Compare with https://fiddle.skia.org/c/9e03de8567ffb49e7e83f53b64bcf636
Canvas canvas;
Paint paint;
paint.color = Color::Black();
Rect rect(25, 25, 25, 25);
canvas.DrawRect(rect, paint);
canvas.Translate({10, 10});
canvas.SaveLayer({});
paint.color = Color::Green();
canvas.DrawRect(rect, paint);
canvas.Restore();
canvas.Translate({10, 10});
paint.color = Color::Red();
canvas.DrawRect(rect, paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, SiblingSaveLayerBoundsAreRespected) {
Canvas canvas;
Paint paint;
Rect rect(0, 0, 1000, 1000);
// Black, green, and red squares offset by [10, 10].
{
canvas.SaveLayer({}, Rect::MakeXYWH(25, 25, 25, 25));
paint.color = Color::Black();
canvas.DrawRect(rect, paint);
canvas.Restore();
}
{
canvas.SaveLayer({}, Rect::MakeXYWH(35, 35, 25, 25));
paint.color = Color::Green();
canvas.DrawRect(rect, paint);
canvas.Restore();
}
{
canvas.SaveLayer({}, Rect::MakeXYWH(45, 45, 25, 25));
paint.color = Color::Red();
canvas.DrawRect(rect, paint);
canvas.Restore();
}
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, CanRenderClippedLayers) {
Canvas canvas;
canvas.DrawPaint({.color = Color::White()});
// Draw a green circle on the screen.
{
// Increase the clip depth for the savelayer to contend with.
canvas.ClipPath(PathBuilder{}.AddCircle({100, 100}, 50).TakePath());
canvas.SaveLayer({}, Rect::MakeXYWH(50, 50, 100, 100));
// Fill the layer with white.
canvas.DrawRect(Rect::MakeSize(Size{400, 400}), {.color = Color::White()});
// Fill the layer with green, but do so with a color blend that can't be
// collapsed into the parent pass.
canvas.DrawRect(
Rect::MakeSize(Size{400, 400}),
{.color = Color::Green(), .blend_mode = Entity::BlendMode::kColorBurn});
}
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
TEST_P(AiksTest, SaveLayerFiltersScaleWithTransform) {
Canvas canvas;
canvas.Scale(GetContentScale());
canvas.Translate(Vector2(100, 100));
auto texture = std::make_shared<Image>(CreateTextureForFixture("boston.jpg"));
auto draw_image_layer = [&canvas, &texture](Paint paint) {
canvas.SaveLayer(paint);
canvas.DrawImage(texture, {}, Paint{});
canvas.Restore();
};
Paint effect_paint;
effect_paint.mask_blur_descriptor = Paint::MaskBlurDescriptor{
.style = FilterContents::BlurStyle::kNormal,
.sigma = Sigma{6},
};
draw_image_layer(effect_paint);
canvas.Translate(Vector2(300, 300));
canvas.Scale(Vector2(3, 3));
draw_image_layer(effect_paint);
ASSERT_TRUE(OpenPlaygroundHere(canvas.EndRecordingAsPicture()));
}
} // namespace testing
} // namespace impeller