impeller/entity/render_target_cache_unittests.cc - mirrors/engine - Git at Google

 // 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 <memory>

 #include "flutter/testing/testing.h"
 #include "impeller/core/allocator.h"
 #include "impeller/core/texture_descriptor.h"
 #include "impeller/entity/render_target_cache.h"
 #include "impeller/renderer/testing/mocks.h"

 namespace impeller {
 namespace testing {

 class TestAllocator : public Allocator {
  public:
   TestAllocator() = default;

   ~TestAllocator() = default;

   ISize GetMaxTextureSizeSupported() const override {
     return ISize(1024, 1024);
   };

   std::shared_ptr<DeviceBuffer> OnCreateBuffer(
       const DeviceBufferDescriptor& desc) override {
     if (should_fail) {
       return nullptr;
     }
     return std::make_shared<MockDeviceBuffer>(desc);
   };

   virtual std::shared_ptr<Texture> OnCreateTexture(
       const TextureDescriptor& desc) override {
     if (should_fail) {
       return nullptr;
     }
     return std::make_shared<MockTexture>(desc);
   };

   bool should_fail = false;
 };

 TEST(RenderTargetCacheTest, CachesUsedTexturesAcrossFrames) {
   auto allocator = std::make_shared<TestAllocator>();
   auto render_target_cache = RenderTargetCache(allocator);
   auto desc = TextureDescriptor{
       .format = PixelFormat::kR8G8B8A8UNormInt,
       .size = ISize(100, 100),
       .usage = static_cast<TextureUsageMask>(TextureUsage::kRenderTarget)};

   render_target_cache.Start();
   // Create two textures of the same exact size/shape. Both should be marked
   // as used this frame, so the cached data set will contain two.
   render_target_cache.CreateTexture(desc);
   render_target_cache.CreateTexture(desc);

   ASSERT_EQ(render_target_cache.CachedTextureCount(), 2u);

   render_target_cache.End();
   render_target_cache.Start();

   // Next frame, only create one texture. The set will still contain two,
   // but one will be removed at the end of the frame.
   render_target_cache.CreateTexture(desc);
   ASSERT_EQ(render_target_cache.CachedTextureCount(), 2u);

   render_target_cache.End();
   ASSERT_EQ(render_target_cache.CachedTextureCount(), 1u);
 }

 TEST(RenderTargetCacheTest, DoesNotPersistFailedAllocations) {
   auto allocator = std::make_shared<TestAllocator>();
   auto render_target_cache = RenderTargetCache(allocator);
   auto desc = TextureDescriptor{
       .format = PixelFormat::kR8G8B8A8UNormInt,
       .size = ISize(100, 100),
       .usage = static_cast<TextureUsageMask>(TextureUsage::kRenderTarget)};

   render_target_cache.Start();
   allocator->should_fail = true;

   ASSERT_EQ(render_target_cache.CreateTexture(desc), nullptr);
   ASSERT_EQ(render_target_cache.CachedTextureCount(), 0u);
 }

 }  // namespace testing
 }  // namespace impeller
	// 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 <memory>

	#include "flutter/testing/testing.h"
	#include "impeller/core/allocator.h"
	#include "impeller/core/texture_descriptor.h"
	#include "impeller/entity/render_target_cache.h"
	#include "impeller/renderer/testing/mocks.h"

	namespace impeller {
	namespace testing {

	class TestAllocator : public Allocator {
	public:
	TestAllocator() = default;

	~TestAllocator() = default;

	ISize GetMaxTextureSizeSupported() const override {
	return ISize(1024, 1024);
	};

	std::shared_ptr<DeviceBuffer> OnCreateBuffer(
	const DeviceBufferDescriptor& desc) override {
	if (should_fail) {
	return nullptr;
	}
	return std::make_shared<MockDeviceBuffer>(desc);
	};

	virtual std::shared_ptr<Texture> OnCreateTexture(
	const TextureDescriptor& desc) override {
	if (should_fail) {
	return nullptr;
	}
	return std::make_shared<MockTexture>(desc);
	};

	bool should_fail = false;
	};

	TEST(RenderTargetCacheTest, CachesUsedTexturesAcrossFrames) {
	auto allocator = std::make_shared<TestAllocator>();
	auto render_target_cache = RenderTargetCache(allocator);
	auto desc = TextureDescriptor{
	.format = PixelFormat::kR8G8B8A8UNormInt,
	.size = ISize(100, 100),
	.usage = static_cast<TextureUsageMask>(TextureUsage::kRenderTarget)};

	render_target_cache.Start();
	// Create two textures of the same exact size/shape. Both should be marked
	// as used this frame, so the cached data set will contain two.
	render_target_cache.CreateTexture(desc);
	render_target_cache.CreateTexture(desc);

	ASSERT_EQ(render_target_cache.CachedTextureCount(), 2u);

	render_target_cache.End();
	render_target_cache.Start();

	// Next frame, only create one texture. The set will still contain two,
	// but one will be removed at the end of the frame.
	render_target_cache.CreateTexture(desc);
	ASSERT_EQ(render_target_cache.CachedTextureCount(), 2u);

	render_target_cache.End();
	ASSERT_EQ(render_target_cache.CachedTextureCount(), 1u);
	}

	TEST(RenderTargetCacheTest, DoesNotPersistFailedAllocations) {
	auto allocator = std::make_shared<TestAllocator>();
	auto render_target_cache = RenderTargetCache(allocator);
	auto desc = TextureDescriptor{
	.format = PixelFormat::kR8G8B8A8UNormInt,
	.size = ISize(100, 100),
	.usage = static_cast<TextureUsageMask>(TextureUsage::kRenderTarget)};

	render_target_cache.Start();
	allocator->should_fail = true;

	ASSERT_EQ(render_target_cache.CreateTexture(desc), nullptr);
	ASSERT_EQ(render_target_cache.CachedTextureCount(), 0u);
	}

	} // namespace testing
	} // namespace impeller