Google Git
Sign in
chromium / chromium / src / 50bf9075cac0e5d69f5adfc0763968d5afa1734b / . / cc / tiles / gpu_image_decode_controller_unittest.cc
blob: 1891f2e55710e4e4ec3ac055a2327a02038063d0 [file] [log] [blame]
// Copyright 2016 The Chromium 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 "cc/tiles/gpu_image_decode_controller.h"
#include "cc/playback/draw_image.h"
#include "cc/raster/tile_task.h"
#include "cc/test/test_context_provider.h"
#include "testing/gtest/include/gtest/gtest.h"
#include "third_party/skia/include/core/SkRefCnt.h"
namespace cc {
namespace {
sk_sp<SkImage> CreateImage(int width, int height) {
SkBitmap bitmap;
bitmap.allocPixels(SkImageInfo::MakeN32Premul(width, height));
return SkImage::MakeFromBitmap(bitmap);
}
SkMatrix CreateMatrix(const SkSize& scale, bool is_decomposable) {
SkMatrix matrix;
matrix.setScale(scale.width(), scale.height());
if (!is_decomposable) {
// Perspective is not decomposable, add it.
matrix[SkMatrix::kMPersp0] = 0.1f;
}
return matrix;
}
void ScheduleTask(TileTask* task) {
task->WillSchedule();
task->ScheduleOnOriginThread(nullptr);
task->DidSchedule();
}
void RunTask(TileTask* task) {
// TODO(prashant.n): Once ScheduleOnOriginThread() and
// CompleteOnOriginThread() functions are removed, modify this function
// accordingly. (crbug.com/599863)
task->state().DidSchedule();
task->state().DidStart();
task->RunOnWorkerThread();
task->state().DidFinish();
}
void CompleteTask(TileTask* task) {
task->WillComplete();
task->CompleteOnOriginThread(nullptr);
task->DidComplete();
}
void ProcessTask(TileTask* task) {
ScheduleTask(task);
RunTask(task);
CompleteTask(task);
}
TEST(GpuImageDecodeControllerTest, GetTaskForImageSameImage) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
sk_sp<SkImage> image = CreateImage(100, 100);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
DrawImage another_draw_image(
image, SkIRect::MakeWH(image->width(), image->height()), quality,
CreateMatrix(SkSize::Make(1.5f, 1.5f), is_decomposable));
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
another_draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task.get() == another_task.get());
ProcessTask(task->dependencies()[0].get());
ProcessTask(task.get());
controller.UnrefImage(draw_image);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetTaskForImageDifferentImage) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> first_image = CreateImage(100, 100);
DrawImage first_draw_image(
first_image, SkIRect::MakeWH(first_image->width(), first_image->height()),
quality, CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> first_task;
bool need_unref = controller.GetTaskForImageAndRef(
first_draw_image, ImageDecodeController::TracingInfo(), &first_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(first_task);
sk_sp<SkImage> second_image = CreateImage(100, 100);
DrawImage second_draw_image(
second_image,
SkIRect::MakeWH(second_image->width(), second_image->height()), quality,
CreateMatrix(SkSize::Make(0.25f, 0.25f), is_decomposable));
scoped_refptr<TileTask> second_task;
need_unref = controller.GetTaskForImageAndRef(
second_draw_image, ImageDecodeController::TracingInfo(), &second_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(second_task);
EXPECT_TRUE(first_task.get() != second_task.get());
ProcessTask(first_task->dependencies()[0].get());
ProcessTask(first_task.get());
ProcessTask(second_task->dependencies()[0].get());
ProcessTask(second_task.get());
controller.UnrefImage(first_draw_image);
controller.UnrefImage(second_draw_image);
}
TEST(GpuImageDecodeControllerTest, GetTaskForImageAlreadyDecodedAndLocked) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
EXPECT_EQ(task->dependencies().size(), 1u);
EXPECT_TRUE(task->dependencies()[0]);
// Run the decode but don't complete it (this will keep the decode locked).
ScheduleTask(task->dependencies()[0].get());
RunTask(task->dependencies()[0].get());
// Cancel the upload.
ScheduleTask(task.get());
CompleteTask(task.get());
// Get the image again - we should have an upload task, but no dependent
// decode task, as the decode was already locked.
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(another_task);
EXPECT_EQ(another_task->dependencies().size(), 0u);
ProcessTask(another_task.get());
// Finally, complete the original decode task.
CompleteTask(task->dependencies()[0].get());
controller.UnrefImage(draw_image);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetTaskForImageAlreadyDecodedNotLocked) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
EXPECT_EQ(task->dependencies().size(), 1u);
EXPECT_TRUE(task->dependencies()[0]);
// Run the decode.
ProcessTask(task->dependencies()[0].get());
// Cancel the upload.
ScheduleTask(task.get());
CompleteTask(task.get());
// Unref the image.
controller.UnrefImage(draw_image);
// Get the image again - we should have an upload task and a dependent decode
// task - this dependent task will typically just re-lock the image.
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(another_task);
EXPECT_EQ(another_task->dependencies().size(), 1u);
EXPECT_TRUE(task->dependencies()[0]);
ProcessTask(another_task->dependencies()[0].get());
ProcessTask(another_task.get());
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetTaskForImageAlreadyUploaded) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
EXPECT_EQ(task->dependencies().size(), 1u);
EXPECT_TRUE(task->dependencies()[0]);
ProcessTask(task->dependencies()[0].get());
ScheduleTask(task.get());
RunTask(task.get());
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_TRUE(need_unref);
EXPECT_FALSE(another_task);
CompleteTask(task.get());
controller.UnrefImage(draw_image);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetTaskForImageCanceledGetsNewTask) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
ProcessTask(task->dependencies()[0].get());
ScheduleTask(task.get());
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(another_task.get() == task.get());
// Didn't run the task, complete it (it was canceled).
CompleteTask(task.get());
// Fully cancel everything (so the raster would unref things).
controller.UnrefImage(draw_image);
controller.UnrefImage(draw_image);
// Here a new task is created.
scoped_refptr<TileTask> third_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &third_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(third_task);
EXPECT_FALSE(third_task.get() == task.get());
ProcessTask(third_task->dependencies()[0].get());
ProcessTask(third_task.get());
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest,
GetTaskForImageCanceledWhileReffedGetsNewTask) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
ProcessTask(task->dependencies()[0].get());
ScheduleTask(task.get());
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(another_task.get() == task.get());
// Didn't run the task, complete it (it was canceled).
CompleteTask(task.get());
// Note that here, everything is reffed, but a new task is created. This is
// possible with repeated schedule/cancel operations.
scoped_refptr<TileTask> third_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &third_task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(third_task);
EXPECT_FALSE(third_task.get() == task.get());
ProcessTask(third_task->dependencies()[0].get());
ProcessTask(third_task.get());
// 3 Unrefs!
controller.UnrefImage(draw_image);
controller.UnrefImage(draw_image);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, NoTaskForImageAlreadyFailedDecoding) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
ProcessTask(task->dependencies()[0].get());
ScheduleTask(task.get());
// Didn't run the task, complete it (it was canceled).
CompleteTask(task.get());
controller.SetImageDecodingFailedForTesting(draw_image);
scoped_refptr<TileTask> another_task;
need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &another_task);
EXPECT_FALSE(need_unref);
EXPECT_EQ(another_task.get(), nullptr);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetDecodedImageForDraw) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
ProcessTask(task->dependencies()[0].get());
ProcessTask(task.get());
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_TRUE(decoded_draw_image.image());
EXPECT_TRUE(decoded_draw_image.image()->isTextureBacked());
EXPECT_FALSE(decoded_draw_image.is_at_raster_decode());
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetLargeDecodedImageForDraw) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(1, 24000);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
ProcessTask(task->dependencies()[0].get());
ProcessTask(task.get());
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_TRUE(decoded_draw_image.image());
EXPECT_FALSE(decoded_draw_image.image()->isTextureBacked());
EXPECT_FALSE(decoded_draw_image.is_at_raster_decode());
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest, GetDecodedImageForDrawAtRasterDecode) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
controller.SetCachedItemLimitForTesting(0);
controller.SetCachedBytesLimitForTesting(0);
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_FALSE(need_unref);
EXPECT_FALSE(task);
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_TRUE(decoded_draw_image.image());
EXPECT_TRUE(decoded_draw_image.image()->isTextureBacked());
EXPECT_TRUE(decoded_draw_image.is_at_raster_decode());
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
}
TEST(GpuImageDecodeControllerTest, AtRasterUsedDirectlyIfSpaceAllows) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
controller.SetCachedItemLimitForTesting(0);
controller.SetCachedBytesLimitForTesting(0);
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_FALSE(need_unref);
EXPECT_FALSE(task);
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_TRUE(decoded_draw_image.image());
EXPECT_TRUE(decoded_draw_image.image()->isTextureBacked());
EXPECT_TRUE(decoded_draw_image.is_at_raster_decode());
controller.SetCachedItemLimitForTesting(1000);
controller.SetCachedBytesLimitForTesting(96 * 1024 * 1024);
// Finish our draw after increasing the memory limit, image should be added to
// cache.
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
scoped_refptr<TileTask> another_task;
bool another_task_needs_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(another_task_needs_unref);
EXPECT_FALSE(another_task);
controller.UnrefImage(draw_image);
}
TEST(GpuImageDecodeControllerTest,
GetDecodedImageForDrawAtRasterDecodeMultipleTimes) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
controller.SetCachedItemLimitForTesting(0);
controller.SetCachedBytesLimitForTesting(0);
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_TRUE(decoded_draw_image.image());
EXPECT_TRUE(decoded_draw_image.image()->isTextureBacked());
EXPECT_TRUE(decoded_draw_image.is_at_raster_decode());
DecodedDrawImage another_decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_EQ(decoded_draw_image.image()->uniqueID(),
another_decoded_draw_image.image()->uniqueID());
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
controller.DrawWithImageFinished(draw_image, another_decoded_draw_image);
}
TEST(GpuImageDecodeControllerTest, ZeroSizedImagesAreSkipped) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.f, 0.f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_FALSE(task);
EXPECT_FALSE(need_unref);
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_FALSE(decoded_draw_image.image());
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
}
TEST(GpuImageDecodeControllerTest, NonOverlappingSrcRectImagesAreSkipped) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(
image, SkIRect::MakeXYWH(150, 150, image->width(), image->height()),
quality, CreateMatrix(SkSize::Make(1.f, 1.f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_FALSE(task);
EXPECT_FALSE(need_unref);
// Must hold context lock before calling GetDecodedImageForDraw /
// DrawWithImageFinished.
ContextProvider::ScopedContextLock context_lock(context_provider.get());
DecodedDrawImage decoded_draw_image =
controller.GetDecodedImageForDraw(draw_image);
EXPECT_FALSE(decoded_draw_image.image());
controller.DrawWithImageFinished(draw_image, decoded_draw_image);
}
TEST(GpuImageDecodeControllerTest, CanceledTasksDoNotCountAgainstBudget) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(
image, SkIRect::MakeXYWH(0, 0, image->width(), image->height()), quality,
CreateMatrix(SkSize::Make(1.f, 1.f), is_decomposable));
scoped_refptr<TileTask> task;
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_NE(0u, controller.GetBytesUsedForTesting());
EXPECT_TRUE(task);
EXPECT_TRUE(need_unref);
ScheduleTask(task->dependencies()[0].get());
CompleteTask(task->dependencies()[0].get());
ScheduleTask(task.get());
CompleteTask(task.get());
controller.UnrefImage(draw_image);
EXPECT_EQ(0u, controller.GetBytesUsedForTesting());
}
TEST(GpuImageDecodeControllerTest, ShouldAggressivelyFreeResources) {
auto context_provider = TestContextProvider::Create();
context_provider->BindToCurrentThread();
GpuImageDecodeController controller(context_provider.get(),
ResourceFormat::RGBA_8888);
bool is_decomposable = true;
SkFilterQuality quality = kHigh_SkFilterQuality;
sk_sp<SkImage> image = CreateImage(100, 100);
DrawImage draw_image(image, SkIRect::MakeWH(image->width(), image->height()),
quality,
CreateMatrix(SkSize::Make(0.5f, 0.5f), is_decomposable));
scoped_refptr<TileTask> task;
{
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
}
ProcessTask(task->dependencies()[0].get());
ProcessTask(task.get());
controller.UnrefImage(draw_image);
// We should now have data image in our cache.
DCHECK_GT(controller.GetBytesUsedForTesting(), 0u);
// Tell our controller to aggressively free resources.
controller.SetShouldAggressivelyFreeResources(true);
DCHECK_EQ(0u, controller.GetBytesUsedForTesting());
// Attempting to upload a new image should result in at-raster decode.
{
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_FALSE(need_unref);
EXPECT_FALSE(task);
}
// We now tell the controller to not aggressively free resources. Uploads
// should work again.
controller.SetShouldAggressivelyFreeResources(false);
{
bool need_unref = controller.GetTaskForImageAndRef(
draw_image, ImageDecodeController::TracingInfo(), &task);
EXPECT_TRUE(need_unref);
EXPECT_TRUE(task);
}
ProcessTask(task->dependencies()[0].get());
ProcessTask(task.get());
// The image should be in our cache after un-ref.
controller.UnrefImage(draw_image);
DCHECK_GT(controller.GetBytesUsedForTesting(), 0u);
}
} // namespace
} // namespace cc