shell/platform/embedder/tests/embedder_test_context.cc - external/github.com/flutter/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 "flutter/shell/platform/embedder/tests/embedder_test_context.h"

 #include "flutter/fml/make_copyable.h"
 #include "flutter/fml/paths.h"
 #include "flutter/runtime/dart_vm.h"
 #include "flutter/shell/platform/embedder/tests/embedder_assertions.h"
 #include "flutter/testing/testing.h"
 #include "third_party/dart/runtime/bin/elf_loader.h"
 #include "third_party/skia/include/core/SkSurface.h"

 namespace flutter {
 namespace testing {

 EmbedderTestContext::EmbedderTestContext(std::string assets_path)
     : assets_path_(std::move(assets_path)),
       aot_symbols_(LoadELFSymbolFromFixturesIfNeccessary()),
       native_resolver_(std::make_shared<TestDartNativeResolver>()) {
   SetupAOTMappingsIfNecessary();
   SetupAOTDataIfNecessary();
   isolate_create_callbacks_.push_back(
       [weak_resolver =
            std::weak_ptr<TestDartNativeResolver>{native_resolver_}]() {
         if (auto resolver = weak_resolver.lock()) {
           resolver->SetNativeResolverForIsolate();
         }
       });
 }

 EmbedderTestContext::~EmbedderTestContext() = default;

 void EmbedderTestContext::SetupAOTMappingsIfNecessary() {
   if (!DartVM::IsRunningPrecompiledCode()) {
     return;
   }
   vm_snapshot_data_ =
       std::make_unique<fml::NonOwnedMapping>(aot_symbols_.vm_snapshot_data, 0u);
   vm_snapshot_instructions_ = std::make_unique<fml::NonOwnedMapping>(
       aot_symbols_.vm_snapshot_instrs, 0u);
   isolate_snapshot_data_ =
       std::make_unique<fml::NonOwnedMapping>(aot_symbols_.vm_isolate_data, 0u);
   isolate_snapshot_instructions_ = std::make_unique<fml::NonOwnedMapping>(
       aot_symbols_.vm_isolate_instrs, 0u);
 }

 void EmbedderTestContext::SetupAOTDataIfNecessary() {
   if (!DartVM::IsRunningPrecompiledCode()) {
     return;
   }
   FlutterEngineAOTDataSource data_in = {};
   FlutterEngineAOTData data_out = nullptr;

   const auto elf_path =
       fml::paths::JoinPaths({GetFixturesPath(), kAOTAppELFFileName});

   data_in.type = kFlutterEngineAOTDataSourceTypeElfPath;
   data_in.elf_path = elf_path.c_str();

   ASSERT_EQ(FlutterEngineCreateAOTData(&data_in, &data_out), kSuccess);

   aot_data_.reset(data_out);
 }

 const std::string& EmbedderTestContext::GetAssetsPath() const {
   return assets_path_;
 }

 const fml::Mapping* EmbedderTestContext::GetVMSnapshotData() const {
   return vm_snapshot_data_.get();
 }

 const fml::Mapping* EmbedderTestContext::GetVMSnapshotInstructions() const {
   return vm_snapshot_instructions_.get();
 }

 const fml::Mapping* EmbedderTestContext::GetIsolateSnapshotData() const {
   return isolate_snapshot_data_.get();
 }

 const fml::Mapping* EmbedderTestContext::GetIsolateSnapshotInstructions()
     const {
   return isolate_snapshot_instructions_.get();
 }

 FlutterEngineAOTData EmbedderTestContext::GetAOTData() const {
   return aot_data_.get();
 }

 void EmbedderTestContext::SetRootSurfaceTransformation(SkMatrix matrix) {
   root_surface_transformation_ = matrix;
 }

 void EmbedderTestContext::AddIsolateCreateCallback(fml::closure closure) {
   if (closure) {
     isolate_create_callbacks_.push_back(closure);
   }
 }

 VoidCallback EmbedderTestContext::GetIsolateCreateCallbackHook() {
   return [](void* user_data) {
     reinterpret_cast<EmbedderTestContext*>(user_data)
         ->FireIsolateCreateCallbacks();
   };
 }

 void EmbedderTestContext::FireIsolateCreateCallbacks() {
   for (auto closure : isolate_create_callbacks_) {
     closure();
   }
 }

 void EmbedderTestContext::AddNativeCallback(const char* name,
                                             Dart_NativeFunction function) {
   native_resolver_->AddNativeCallback({name}, function);
 }

 void EmbedderTestContext::SetSemanticsNodeCallback(
     const SemanticsNodeCallback& update_semantics_node_callback) {
   update_semantics_node_callback_ = update_semantics_node_callback;
 }

 void EmbedderTestContext::SetSemanticsCustomActionCallback(
     const SemanticsActionCallback& update_semantics_custom_action_callback) {
   update_semantics_custom_action_callback_ =
       update_semantics_custom_action_callback;
 }

 void EmbedderTestContext::SetPlatformMessageCallback(
     const std::function<void(const FlutterPlatformMessage*)>& callback) {
   platform_message_callback_ = callback;
 }

 void EmbedderTestContext::PlatformMessageCallback(
     const FlutterPlatformMessage* message) {
   if (platform_message_callback_) {
     platform_message_callback_(message);
   }
 }

 FlutterUpdateSemanticsNodeCallback
 EmbedderTestContext::GetUpdateSemanticsNodeCallbackHook() {
   return [](const FlutterSemanticsNode* semantics_node, void* user_data) {
     auto context = reinterpret_cast<EmbedderTestContext*>(user_data);
     if (auto callback = context->update_semantics_node_callback_) {
       callback(semantics_node);
     }
   };
 }

 FlutterUpdateSemanticsCustomActionCallback
 EmbedderTestContext::GetUpdateSemanticsCustomActionCallbackHook() {
   return [](const FlutterSemanticsCustomAction* action, void* user_data) {
     auto context = reinterpret_cast<EmbedderTestContext*>(user_data);
     if (auto callback = context->update_semantics_custom_action_callback_) {
       callback(action);
     }
   };
 }

 void EmbedderTestContext::SetupOpenGLSurface(SkISize surface_size) {
   FML_CHECK(!gl_surface_);
   gl_surface_ = std::make_unique<TestGLSurface>(surface_size);
 }

 bool EmbedderTestContext::GLMakeCurrent() {
   FML_CHECK(gl_surface_) << "GL surface must be initialized.";
   return gl_surface_->MakeCurrent();
 }

 bool EmbedderTestContext::GLClearCurrent() {
   FML_CHECK(gl_surface_) << "GL surface must be initialized.";
   return gl_surface_->ClearCurrent();
 }

 bool EmbedderTestContext::GLPresent() {
   FML_CHECK(gl_surface_) << "GL surface must be initialized.";
   gl_surface_present_count_++;

   FireRootSurfacePresentCallbackIfPresent(
       [&]() { return gl_surface_->GetRasterSurfaceSnapshot(); });

   if (!gl_surface_->Present()) {
     return false;
   }

   return true;
 }

 uint32_t EmbedderTestContext::GLGetFramebuffer() {
   FML_CHECK(gl_surface_) << "GL surface must be initialized.";
   return gl_surface_->GetFramebuffer();
 }

 bool EmbedderTestContext::GLMakeResourceCurrent() {
   FML_CHECK(gl_surface_) << "GL surface must be initialized.";
   return gl_surface_->MakeResourceCurrent();
 }

 void* EmbedderTestContext::GLGetProcAddress(const char* name) {
   FML_CHECK(gl_surface_) << "GL surface must be initialized.";
   return gl_surface_->GetProcAddress(name);
 }

 FlutterTransformation EmbedderTestContext::GetRootSurfaceTransformation() {
   return FlutterTransformationMake(root_surface_transformation_);
 }

 void EmbedderTestContext::SetupCompositor() {
   FML_CHECK(!compositor_) << "Already ssetup a compositor in this context.";
   FML_CHECK(gl_surface_)
       << "Setup the GL surface before setting up a compositor.";
   compositor_ = std::make_unique<EmbedderTestCompositor>(
       gl_surface_->GetSurfaceSize(), gl_surface_->GetGrContext());
 }

 EmbedderTestCompositor& EmbedderTestContext::GetCompositor() {
   FML_CHECK(compositor_)
       << "Accessed the compositor on a context where one was not setup. Use "
          "the config builder to setup a context with a custom compositor.";
   return *compositor_;
 }

 void EmbedderTestContext::SetNextSceneCallback(
     const NextSceneCallback& next_scene_callback) {
   if (compositor_) {
     compositor_->SetNextSceneCallback(next_scene_callback);
     return;
   }
   next_scene_callback_ = next_scene_callback;
 }

 std::future<sk_sp<SkImage>> EmbedderTestContext::GetNextSceneImage() {
   std::promise<sk_sp<SkImage>> promise;
   auto future = promise.get_future();
   SetNextSceneCallback(
       fml::MakeCopyable([promise = std::move(promise)](auto image) mutable {
         promise.set_value(image);
       }));
   return future;
 }

 bool EmbedderTestContext::SofwarePresent(sk_sp<SkImage> image) {
   software_surface_present_count_++;

   FireRootSurfacePresentCallbackIfPresent([image] { return image; });

   return true;
 }

 size_t EmbedderTestContext::GetGLSurfacePresentCount() const {
   return gl_surface_present_count_;
 }

 size_t EmbedderTestContext::GetSoftwareSurfacePresentCount() const {
   return software_surface_present_count_;
 }

 /// @note Procedure doesn't copy all closures.
 void EmbedderTestContext::FireRootSurfacePresentCallbackIfPresent(
     const std::function<sk_sp<SkImage>(void)>& image_callback) {
   if (!next_scene_callback_) {
     return;
   }
   auto callback = next_scene_callback_;
   next_scene_callback_ = nullptr;
   callback(image_callback());
 }

 }  // namespace testing
 }  // namespace flutter
	// 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 "flutter/shell/platform/embedder/tests/embedder_test_context.h"

	#include "flutter/fml/make_copyable.h"
	#include "flutter/fml/paths.h"
	#include "flutter/runtime/dart_vm.h"
	#include "flutter/shell/platform/embedder/tests/embedder_assertions.h"
	#include "flutter/testing/testing.h"
	#include "third_party/dart/runtime/bin/elf_loader.h"
	#include "third_party/skia/include/core/SkSurface.h"

	namespace flutter {
	namespace testing {

	EmbedderTestContext::EmbedderTestContext(std::string assets_path)
	: assets_path_(std::move(assets_path)),
	aot_symbols_(LoadELFSymbolFromFixturesIfNeccessary()),
	native_resolver_(std::make_shared<TestDartNativeResolver>()) {
	SetupAOTMappingsIfNecessary();
	SetupAOTDataIfNecessary();
	isolate_create_callbacks_.push_back(
	[weak_resolver =
	std::weak_ptr<TestDartNativeResolver>{native_resolver_}]() {
	if (auto resolver = weak_resolver.lock()) {
	resolver->SetNativeResolverForIsolate();
	}
	});
	}

	EmbedderTestContext::~EmbedderTestContext() = default;

	void EmbedderTestContext::SetupAOTMappingsIfNecessary() {
	if (!DartVM::IsRunningPrecompiledCode()) {
	return;
	}
	vm_snapshot_data_ =
	std::make_unique<fml::NonOwnedMapping>(aot_symbols_.vm_snapshot_data, 0u);
	vm_snapshot_instructions_ = std::make_unique<fml::NonOwnedMapping>(
	aot_symbols_.vm_snapshot_instrs, 0u);
	isolate_snapshot_data_ =
	std::make_unique<fml::NonOwnedMapping>(aot_symbols_.vm_isolate_data, 0u);
	isolate_snapshot_instructions_ = std::make_unique<fml::NonOwnedMapping>(
	aot_symbols_.vm_isolate_instrs, 0u);
	}

	void EmbedderTestContext::SetupAOTDataIfNecessary() {
	if (!DartVM::IsRunningPrecompiledCode()) {
	return;
	}
	FlutterEngineAOTDataSource data_in = {};
	FlutterEngineAOTData data_out = nullptr;

	const auto elf_path =
	fml::paths::JoinPaths({GetFixturesPath(), kAOTAppELFFileName});

	data_in.type = kFlutterEngineAOTDataSourceTypeElfPath;
	data_in.elf_path = elf_path.c_str();

	ASSERT_EQ(FlutterEngineCreateAOTData(&data_in, &data_out), kSuccess);

	aot_data_.reset(data_out);
	}

	const std::string& EmbedderTestContext::GetAssetsPath() const {
	return assets_path_;
	}

	const fml::Mapping* EmbedderTestContext::GetVMSnapshotData() const {
	return vm_snapshot_data_.get();
	}

	const fml::Mapping* EmbedderTestContext::GetVMSnapshotInstructions() const {
	return vm_snapshot_instructions_.get();
	}

	const fml::Mapping* EmbedderTestContext::GetIsolateSnapshotData() const {
	return isolate_snapshot_data_.get();
	}

	const fml::Mapping* EmbedderTestContext::GetIsolateSnapshotInstructions()
	const {
	return isolate_snapshot_instructions_.get();
	}

	FlutterEngineAOTData EmbedderTestContext::GetAOTData() const {
	return aot_data_.get();
	}

	void EmbedderTestContext::SetRootSurfaceTransformation(SkMatrix matrix) {
	root_surface_transformation_ = matrix;
	}

	void EmbedderTestContext::AddIsolateCreateCallback(fml::closure closure) {
	if (closure) {
	isolate_create_callbacks_.push_back(closure);
	}
	}

	VoidCallback EmbedderTestContext::GetIsolateCreateCallbackHook() {
	return [](void* user_data) {
	reinterpret_cast<EmbedderTestContext*>(user_data)
	->FireIsolateCreateCallbacks();
	};
	}

	void EmbedderTestContext::FireIsolateCreateCallbacks() {
	for (auto closure : isolate_create_callbacks_) {
	closure();
	}
	}

	void EmbedderTestContext::AddNativeCallback(const char* name,
	Dart_NativeFunction function) {
	native_resolver_->AddNativeCallback({name}, function);
	}

	void EmbedderTestContext::SetSemanticsNodeCallback(
	const SemanticsNodeCallback& update_semantics_node_callback) {
	update_semantics_node_callback_ = update_semantics_node_callback;
	}

	void EmbedderTestContext::SetSemanticsCustomActionCallback(
	const SemanticsActionCallback& update_semantics_custom_action_callback) {
	update_semantics_custom_action_callback_ =
	update_semantics_custom_action_callback;
	}

	void EmbedderTestContext::SetPlatformMessageCallback(
	const std::function<void(const FlutterPlatformMessage*)>& callback) {
	platform_message_callback_ = callback;
	}

	void EmbedderTestContext::PlatformMessageCallback(
	const FlutterPlatformMessage* message) {
	if (platform_message_callback_) {
	platform_message_callback_(message);
	}
	}

	FlutterUpdateSemanticsNodeCallback
	EmbedderTestContext::GetUpdateSemanticsNodeCallbackHook() {
	return [](const FlutterSemanticsNode* semantics_node, void* user_data) {
	auto context = reinterpret_cast<EmbedderTestContext*>(user_data);
	if (auto callback = context->update_semantics_node_callback_) {
	callback(semantics_node);
	}
	};
	}

	FlutterUpdateSemanticsCustomActionCallback
	EmbedderTestContext::GetUpdateSemanticsCustomActionCallbackHook() {
	return [](const FlutterSemanticsCustomAction* action, void* user_data) {
	auto context = reinterpret_cast<EmbedderTestContext*>(user_data);
	if (auto callback = context->update_semantics_custom_action_callback_) {
	callback(action);
	}
	};
	}

	void EmbedderTestContext::SetupOpenGLSurface(SkISize surface_size) {
	FML_CHECK(!gl_surface_);
	gl_surface_ = std::make_unique<TestGLSurface>(surface_size);
	}

	bool EmbedderTestContext::GLMakeCurrent() {
	FML_CHECK(gl_surface_) << "GL surface must be initialized.";
	return gl_surface_->MakeCurrent();
	}

	bool EmbedderTestContext::GLClearCurrent() {
	FML_CHECK(gl_surface_) << "GL surface must be initialized.";
	return gl_surface_->ClearCurrent();
	}

	bool EmbedderTestContext::GLPresent() {
	FML_CHECK(gl_surface_) << "GL surface must be initialized.";
	gl_surface_present_count_++;

	FireRootSurfacePresentCallbackIfPresent(
	[&]() { return gl_surface_->GetRasterSurfaceSnapshot(); });

	if (!gl_surface_->Present()) {
	return false;
	}

	return true;
	}

	uint32_t EmbedderTestContext::GLGetFramebuffer() {
	FML_CHECK(gl_surface_) << "GL surface must be initialized.";
	return gl_surface_->GetFramebuffer();
	}

	bool EmbedderTestContext::GLMakeResourceCurrent() {
	FML_CHECK(gl_surface_) << "GL surface must be initialized.";
	return gl_surface_->MakeResourceCurrent();
	}

	void* EmbedderTestContext::GLGetProcAddress(const char* name) {
	FML_CHECK(gl_surface_) << "GL surface must be initialized.";
	return gl_surface_->GetProcAddress(name);
	}

	FlutterTransformation EmbedderTestContext::GetRootSurfaceTransformation() {
	return FlutterTransformationMake(root_surface_transformation_);
	}

	void EmbedderTestContext::SetupCompositor() {
	FML_CHECK(!compositor_) << "Already ssetup a compositor in this context.";
	FML_CHECK(gl_surface_)
	<< "Setup the GL surface before setting up a compositor.";
	compositor_ = std::make_unique<EmbedderTestCompositor>(
	gl_surface_->GetSurfaceSize(), gl_surface_->GetGrContext());
	}

	EmbedderTestCompositor& EmbedderTestContext::GetCompositor() {
	FML_CHECK(compositor_)
	<< "Accessed the compositor on a context where one was not setup. Use "
	"the config builder to setup a context with a custom compositor.";
	return *compositor_;
	}

	void EmbedderTestContext::SetNextSceneCallback(
	const NextSceneCallback& next_scene_callback) {
	if (compositor_) {
	compositor_->SetNextSceneCallback(next_scene_callback);
	return;
	}
	next_scene_callback_ = next_scene_callback;
	}

	std::future<sk_sp<SkImage>> EmbedderTestContext::GetNextSceneImage() {
	std::promise<sk_sp<SkImage>> promise;
	auto future = promise.get_future();
	SetNextSceneCallback(
	fml::MakeCopyable([promise = std::move(promise)](auto image) mutable {
	promise.set_value(image);
	}));
	return future;
	}

	bool EmbedderTestContext::SofwarePresent(sk_sp<SkImage> image) {
	software_surface_present_count_++;

	FireRootSurfacePresentCallbackIfPresent([image] { return image; });

	return true;
	}

	size_t EmbedderTestContext::GetGLSurfacePresentCount() const {
	return gl_surface_present_count_;
	}

	size_t EmbedderTestContext::GetSoftwareSurfacePresentCount() const {
	return software_surface_present_count_;
	}

	/// @note Procedure doesn't copy all closures.
	void EmbedderTestContext::FireRootSurfacePresentCallbackIfPresent(
	const std::function<sk_sp<SkImage>(void)>& image_callback) {
	if (!next_scene_callback_) {
	return;
	}
	auto callback = next_scene_callback_;
	next_scene_callback_ = nullptr;
	callback(image_callback());
	}

	} // namespace testing
	} // namespace flutter