shell/common/engine.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/common/engine.h"

 #include <memory>
 #include <string>
 #include <utility>
 #include <vector>

 #include "flutter/common/settings.h"
 #include "flutter/fml/eintr_wrapper.h"
 #include "flutter/fml/file.h"
 #include "flutter/fml/make_copyable.h"
 #include "flutter/fml/paths.h"
 #include "flutter/fml/trace_event.h"
 #include "flutter/fml/unique_fd.h"
 #include "flutter/lib/snapshot/snapshot.h"
 #include "flutter/lib/ui/text/font_collection.h"
 #include "flutter/shell/common/animator.h"
 #include "flutter/shell/common/platform_view.h"
 #include "flutter/shell/common/shell.h"
 #include "rapidjson/document.h"
 #include "third_party/dart/runtime/include/dart_tools_api.h"
 #include "third_party/skia/include/core/SkCanvas.h"
 #include "third_party/skia/include/core/SkPictureRecorder.h"

 namespace flutter {

 static constexpr char kAssetChannel[] = "flutter/assets";
 static constexpr char kLifecycleChannel[] = "flutter/lifecycle";
 static constexpr char kNavigationChannel[] = "flutter/navigation";
 static constexpr char kLocalizationChannel[] = "flutter/localization";
 static constexpr char kSettingsChannel[] = "flutter/settings";
 static constexpr char kIsolateChannel[] = "flutter/isolate";

 Engine::Engine(Delegate& delegate,
                const PointerDataDispatcherMaker& dispatcher_maker,
                DartVM& vm,
                fml::RefPtr<const DartSnapshot> isolate_snapshot,
                TaskRunners task_runners,
                const WindowData window_data,
                Settings settings,
                std::unique_ptr<Animator> animator,
                fml::WeakPtr<IOManager> io_manager,
                fml::RefPtr<SkiaUnrefQueue> unref_queue,
                fml::WeakPtr<SnapshotDelegate> snapshot_delegate)
     : delegate_(delegate),
       settings_(std::move(settings)),
       animator_(std::move(animator)),
       activity_running_(true),
       have_surface_(false),
       image_decoder_(task_runners,
                      vm.GetConcurrentWorkerTaskRunner(),
                      io_manager),
       task_runners_(std::move(task_runners)),
       weak_factory_(this) {
   // Runtime controller is initialized here because it takes a reference to this
   // object as its delegate. The delegate may be called in the constructor and
   // we want to be fully initilazed by that point.
   runtime_controller_ = std::make_unique<RuntimeController>(
       *this,                        // runtime delegate
       &vm,                          // VM
       std::move(isolate_snapshot),  // isolate snapshot
       task_runners_,                // task runners
       std::move(snapshot_delegate),
       std::move(io_manager),                 // io manager
       std::move(unref_queue),                // Skia unref queue
       image_decoder_.GetWeakPtr(),           // image decoder
       settings_.advisory_script_uri,         // advisory script uri
       settings_.advisory_script_entrypoint,  // advisory script entrypoint
       settings_.idle_notification_callback,  // idle notification callback
       window_data,                           // window data
       settings_.isolate_create_callback,     // isolate create callback
       settings_.isolate_shutdown_callback,   // isolate shutdown callback
       settings_.persistent_isolate_data      // persistent isolate data
   );

   pointer_data_dispatcher_ = dispatcher_maker(*this);
 }

 Engine::~Engine() = default;

 float Engine::GetDisplayRefreshRate() const {
   return animator_->GetDisplayRefreshRate();
 }

 fml::WeakPtr<Engine> Engine::GetWeakPtr() const {
   return weak_factory_.GetWeakPtr();
 }

 void Engine::SetupDefaultFontManager() {
   TRACE_EVENT0("flutter", "Engine::SetupDefaultFontManager");
   font_collection_.SetupDefaultFontManager();
 }

 bool Engine::UpdateAssetManager(
     std::shared_ptr<AssetManager> new_asset_manager) {
   if (asset_manager_ == new_asset_manager) {
     return false;
   }

   asset_manager_ = new_asset_manager;

   if (!asset_manager_) {
     return false;
   }

   // Using libTXT as the text engine.
   font_collection_.RegisterFonts(asset_manager_);

   if (settings_.use_test_fonts) {
     font_collection_.RegisterTestFonts();
   }

   return true;
 }

 bool Engine::Restart(RunConfiguration configuration) {
   TRACE_EVENT0("flutter", "Engine::Restart");
   if (!configuration.IsValid()) {
     FML_LOG(ERROR) << "Engine run configuration was invalid.";
     return false;
   }
   delegate_.OnPreEngineRestart();
   runtime_controller_ = runtime_controller_->Clone();
   UpdateAssetManager(nullptr);
   return Run(std::move(configuration)) == Engine::RunStatus::Success;
 }

 Engine::RunStatus Engine::Run(RunConfiguration configuration) {
   if (!configuration.IsValid()) {
     FML_LOG(ERROR) << "Engine run configuration was invalid.";
     return RunStatus::Failure;
   }

   last_entry_point_ = configuration.GetEntrypoint();
   last_entry_point_library_ = configuration.GetEntrypointLibrary();

   auto isolate_launch_status =
       PrepareAndLaunchIsolate(std::move(configuration));
   if (isolate_launch_status == Engine::RunStatus::Failure) {
     FML_LOG(ERROR) << "Engine not prepare and launch isolate.";
     return isolate_launch_status;
   } else if (isolate_launch_status ==
              Engine::RunStatus::FailureAlreadyRunning) {
     return isolate_launch_status;
   }

   std::shared_ptr<DartIsolate> isolate =
       runtime_controller_->GetRootIsolate().lock();

   bool isolate_running =
       isolate && isolate->GetPhase() == DartIsolate::Phase::Running;

   if (isolate_running) {
     tonic::DartState::Scope scope(isolate.get());

     if (settings_.root_isolate_create_callback) {
       settings_.root_isolate_create_callback();
     }

     if (settings_.root_isolate_shutdown_callback) {
       isolate->AddIsolateShutdownCallback(
           settings_.root_isolate_shutdown_callback);
     }

     std::string service_id = isolate->GetServiceId();
     fml::RefPtr<PlatformMessage> service_id_message =
         fml::MakeRefCounted<flutter::PlatformMessage>(
             kIsolateChannel,
             std::vector<uint8_t>(service_id.begin(), service_id.end()),
             nullptr);
     HandlePlatformMessage(service_id_message);
   }

   return isolate_running ? Engine::RunStatus::Success
                          : Engine::RunStatus::Failure;
 }

 Engine::RunStatus Engine::PrepareAndLaunchIsolate(
     RunConfiguration configuration) {
   TRACE_EVENT0("flutter", "Engine::PrepareAndLaunchIsolate");

   UpdateAssetManager(configuration.GetAssetManager());

   auto isolate_configuration = configuration.TakeIsolateConfiguration();

   std::shared_ptr<DartIsolate> isolate =
       runtime_controller_->GetRootIsolate().lock();

   if (!isolate) {
     return RunStatus::Failure;
   }

   // This can happen on iOS after a plugin shows a native window and returns to
   // the Flutter ViewController.
   if (isolate->GetPhase() == DartIsolate::Phase::Running) {
     FML_DLOG(WARNING) << "Isolate was already running!";
     return RunStatus::FailureAlreadyRunning;
   }

   if (!isolate_configuration->PrepareIsolate(*isolate)) {
     FML_LOG(ERROR) << "Could not prepare to run the isolate.";
     return RunStatus::Failure;
   }

   if (configuration.GetEntrypointLibrary().empty()) {
     if (!isolate->Run(configuration.GetEntrypoint(),
                       settings_.dart_entrypoint_args)) {
       FML_LOG(ERROR) << "Could not run the isolate.";
       return RunStatus::Failure;
     }
   } else {
     if (!isolate->RunFromLibrary(configuration.GetEntrypointLibrary(),
                                  configuration.GetEntrypoint(),
                                  settings_.dart_entrypoint_args)) {
       FML_LOG(ERROR) << "Could not run the isolate.";
       return RunStatus::Failure;
     }
   }

   return RunStatus::Success;
 }

 void Engine::BeginFrame(fml::TimePoint frame_time) {
   TRACE_EVENT0("flutter", "Engine::BeginFrame");
   runtime_controller_->BeginFrame(frame_time);
 }

 void Engine::ReportTimings(std::vector<int64_t> timings) {
   TRACE_EVENT0("flutter", "Engine::ReportTimings");
   runtime_controller_->ReportTimings(std::move(timings));
 }

 void Engine::NotifyIdle(int64_t deadline) {
   auto trace_event = std::to_string(deadline - Dart_TimelineGetMicros());
   TRACE_EVENT1("flutter", "Engine::NotifyIdle", "deadline_now_delta",
                trace_event.c_str());
   runtime_controller_->NotifyIdle(deadline);
 }

 std::pair<bool, uint32_t> Engine::GetUIIsolateReturnCode() {
   return runtime_controller_->GetRootIsolateReturnCode();
 }

 Dart_Port Engine::GetUIIsolateMainPort() {
   return runtime_controller_->GetMainPort();
 }

 std::string Engine::GetUIIsolateName() {
   return runtime_controller_->GetIsolateName();
 }

 bool Engine::UIIsolateHasLivePorts() {
   return runtime_controller_->HasLivePorts();
 }

 tonic::DartErrorHandleType Engine::GetUIIsolateLastError() {
   return runtime_controller_->GetLastError();
 }

 void Engine::OnOutputSurfaceCreated() {
   have_surface_ = true;
   StartAnimatorIfPossible();
   ScheduleFrame();
 }

 void Engine::OnOutputSurfaceDestroyed() {
   have_surface_ = false;
   StopAnimator();
 }

 void Engine::SetViewportMetrics(const ViewportMetrics& metrics) {
   bool dimensions_changed =
       viewport_metrics_.physical_height != metrics.physical_height ||
       viewport_metrics_.physical_width != metrics.physical_width ||
       viewport_metrics_.physical_depth != metrics.physical_depth;
   viewport_metrics_ = metrics;
   runtime_controller_->SetViewportMetrics(viewport_metrics_);
   if (animator_) {
     if (dimensions_changed)
       animator_->SetDimensionChangePending();
     if (have_surface_)
       ScheduleFrame();
   }
 }

 void Engine::DispatchPlatformMessage(fml::RefPtr<PlatformMessage> message) {
   if (message->channel() == kLifecycleChannel) {
     if (HandleLifecyclePlatformMessage(message.get()))
       return;
   } else if (message->channel() == kLocalizationChannel) {
     if (HandleLocalizationPlatformMessage(message.get()))
       return;
   } else if (message->channel() == kSettingsChannel) {
     HandleSettingsPlatformMessage(message.get());
     return;
   }

   if (runtime_controller_->IsRootIsolateRunning() &&
       runtime_controller_->DispatchPlatformMessage(std::move(message))) {
     return;
   }

   // If there's no runtime_, we may still need to set the initial route.
   if (message->channel() == kNavigationChannel) {
     HandleNavigationPlatformMessage(std::move(message));
     return;
   }

   FML_DLOG(WARNING) << "Dropping platform message on channel: "
                     << message->channel();
 }

 bool Engine::HandleLifecyclePlatformMessage(PlatformMessage* message) {
   const auto& data = message->data();
   std::string state(reinterpret_cast<const char*>(data.data()), data.size());
   if (state == "AppLifecycleState.paused" ||
       state == "AppLifecycleState.detached") {
     activity_running_ = false;
     StopAnimator();
   } else if (state == "AppLifecycleState.resumed" ||
              state == "AppLifecycleState.inactive") {
     activity_running_ = true;
     StartAnimatorIfPossible();
   }

   // Always schedule a frame when the app does become active as per API
   // recommendation
   // https://developer.apple.com/documentation/uikit/uiapplicationdelegate/1622956-applicationdidbecomeactive?language=objc
   if (state == "AppLifecycleState.resumed" && have_surface_) {
     ScheduleFrame();
   }
   runtime_controller_->SetLifecycleState(state);
   // Always forward these messages to the framework by returning false.
   return false;
 }

 bool Engine::HandleNavigationPlatformMessage(
     fml::RefPtr<PlatformMessage> message) {
   const auto& data = message->data();

   rapidjson::Document document;
   document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
   if (document.HasParseError() || !document.IsObject())
     return false;
   auto root = document.GetObject();
   auto method = root.FindMember("method");
   if (method->value != "setInitialRoute")
     return false;
   auto route = root.FindMember("args");
   initial_route_ = std::move(route->value.GetString());
   return true;
 }

 bool Engine::HandleLocalizationPlatformMessage(PlatformMessage* message) {
   const auto& data = message->data();

   rapidjson::Document document;
   document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
   if (document.HasParseError() || !document.IsObject())
     return false;
   auto root = document.GetObject();
   auto method = root.FindMember("method");
   if (method == root.MemberEnd())
     return false;
   const size_t strings_per_locale = 4;
   if (method->value == "setLocale") {
     // Decode and pass the list of locale data onwards to dart.
     auto args = root.FindMember("args");
     if (args == root.MemberEnd() || !args->value.IsArray())
       return false;

     if (args->value.Size() % strings_per_locale != 0)
       return false;
     std::vector<std::string> locale_data;
     for (size_t locale_index = 0; locale_index < args->value.Size();
          locale_index += strings_per_locale) {
       if (!args->value[locale_index].IsString() ||
           !args->value[locale_index + 1].IsString())
         return false;
       locale_data.push_back(args->value[locale_index].GetString());
       locale_data.push_back(args->value[locale_index + 1].GetString());
       locale_data.push_back(args->value[locale_index + 2].GetString());
       locale_data.push_back(args->value[locale_index + 3].GetString());
     }

     return runtime_controller_->SetLocales(locale_data);
   } else if (method->value == "setPlatformResolvedLocale") {
     // Decode and pass the single locale data onwards to dart.
     auto args = root.FindMember("args");
     if (args == root.MemberEnd() || !args->value.IsArray())
       return false;

     if (args->value.Size() != strings_per_locale)
       return false;

     std::vector<std::string> locale_data;
     if (!args->value[0].IsString() || !args->value[1].IsString())
       return false;
     locale_data.push_back(args->value[0].GetString());
     locale_data.push_back(args->value[1].GetString());
     locale_data.push_back(args->value[2].GetString());
     locale_data.push_back(args->value[3].GetString());

     return runtime_controller_->SetPlatformResolvedLocale(locale_data);
   }
   return false;
 }

 void Engine::HandleSettingsPlatformMessage(PlatformMessage* message) {
   const auto& data = message->data();
   std::string jsonData(reinterpret_cast<const char*>(data.data()), data.size());
   if (runtime_controller_->SetUserSettingsData(std::move(jsonData)) &&
       have_surface_) {
     ScheduleFrame();
   }
 }

 void Engine::DispatchPointerDataPacket(
     std::unique_ptr<PointerDataPacket> packet,
     uint64_t trace_flow_id) {
   TRACE_EVENT0("flutter", "Engine::DispatchPointerDataPacket");
   TRACE_FLOW_STEP("flutter", "PointerEvent", trace_flow_id);
   pointer_data_dispatcher_->DispatchPacket(std::move(packet), trace_flow_id);
 }

 void Engine::DispatchSemanticsAction(int id,
                                      SemanticsAction action,
                                      std::vector<uint8_t> args) {
   runtime_controller_->DispatchSemanticsAction(id, action, std::move(args));
 }

 void Engine::SetSemanticsEnabled(bool enabled) {
   runtime_controller_->SetSemanticsEnabled(enabled);
 }

 void Engine::SetAccessibilityFeatures(int32_t flags) {
   runtime_controller_->SetAccessibilityFeatures(flags);
 }

 void Engine::StopAnimator() {
   animator_->Stop();
 }

 void Engine::StartAnimatorIfPossible() {
   if (activity_running_ && have_surface_)
     animator_->Start();
 }

 std::string Engine::DefaultRouteName() {
   if (!initial_route_.empty()) {
     return initial_route_;
   }
   return "/";
 }

 void Engine::ScheduleFrame(bool regenerate_layer_tree) {
   animator_->RequestFrame(regenerate_layer_tree);
 }

 void Engine::Render(std::unique_ptr<flutter::LayerTree> layer_tree) {
   if (!layer_tree)
     return;

   // Ensure frame dimensions are sane.
   if (layer_tree->frame_size().isEmpty() ||
       layer_tree->frame_physical_depth() <= 0.0f ||
       layer_tree->frame_device_pixel_ratio() <= 0.0f)
     return;

   animator_->Render(std::move(layer_tree));
 }

 void Engine::UpdateSemantics(SemanticsNodeUpdates update,
                              CustomAccessibilityActionUpdates actions) {
   delegate_.OnEngineUpdateSemantics(std::move(update), std::move(actions));
 }

 void Engine::HandlePlatformMessage(fml::RefPtr<PlatformMessage> message) {
   if (message->channel() == kAssetChannel) {
     HandleAssetPlatformMessage(std::move(message));
   } else {
     delegate_.OnEngineHandlePlatformMessage(std::move(message));
   }
 }

 void Engine::UpdateIsolateDescription(const std::string isolate_name,
                                       int64_t isolate_port) {
   delegate_.UpdateIsolateDescription(isolate_name, isolate_port);
 }

 void Engine::SetNeedsReportTimings(bool needs_reporting) {
   delegate_.SetNeedsReportTimings(needs_reporting);
 }

 FontCollection& Engine::GetFontCollection() {
   return font_collection_;
 }

 void Engine::DoDispatchPacket(std::unique_ptr<PointerDataPacket> packet,
                               uint64_t trace_flow_id) {
   animator_->EnqueueTraceFlowId(trace_flow_id);
   if (runtime_controller_) {
     runtime_controller_->DispatchPointerDataPacket(*packet);
   }
 }

 void Engine::ScheduleSecondaryVsyncCallback(const fml::closure& callback) {
   animator_->ScheduleSecondaryVsyncCallback(callback);
 }

 void Engine::HandleAssetPlatformMessage(fml::RefPtr<PlatformMessage> message) {
   fml::RefPtr<PlatformMessageResponse> response = message->response();
   if (!response) {
     return;
   }
   const auto& data = message->data();
   std::string asset_name(reinterpret_cast<const char*>(data.data()),
                          data.size());

   if (asset_manager_) {
     std::unique_ptr<fml::Mapping> asset_mapping =
         asset_manager_->GetAsMapping(asset_name);
     if (asset_mapping) {
       response->Complete(std::move(asset_mapping));
       return;
     }
   }

   response->CompleteEmpty();
 }

 const std::string& Engine::GetLastEntrypoint() const {
   return last_entry_point_;
 }

 const std::string& Engine::GetLastEntrypointLibrary() const {
   return last_entry_point_library_;
 }

 }  // 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/common/engine.h"

	#include <memory>
	#include <string>
	#include <utility>
	#include <vector>

	#include "flutter/common/settings.h"
	#include "flutter/fml/eintr_wrapper.h"
	#include "flutter/fml/file.h"
	#include "flutter/fml/make_copyable.h"
	#include "flutter/fml/paths.h"
	#include "flutter/fml/trace_event.h"
	#include "flutter/fml/unique_fd.h"
	#include "flutter/lib/snapshot/snapshot.h"
	#include "flutter/lib/ui/text/font_collection.h"
	#include "flutter/shell/common/animator.h"
	#include "flutter/shell/common/platform_view.h"
	#include "flutter/shell/common/shell.h"
	#include "rapidjson/document.h"
	#include "third_party/dart/runtime/include/dart_tools_api.h"
	#include "third_party/skia/include/core/SkCanvas.h"
	#include "third_party/skia/include/core/SkPictureRecorder.h"

	namespace flutter {

	static constexpr char kAssetChannel[] = "flutter/assets";
	static constexpr char kLifecycleChannel[] = "flutter/lifecycle";
	static constexpr char kNavigationChannel[] = "flutter/navigation";
	static constexpr char kLocalizationChannel[] = "flutter/localization";
	static constexpr char kSettingsChannel[] = "flutter/settings";
	static constexpr char kIsolateChannel[] = "flutter/isolate";

	Engine::Engine(Delegate& delegate,
	const PointerDataDispatcherMaker& dispatcher_maker,
	DartVM& vm,
	fml::RefPtr<const DartSnapshot> isolate_snapshot,
	TaskRunners task_runners,
	const WindowData window_data,
	Settings settings,
	std::unique_ptr<Animator> animator,
	fml::WeakPtr<IOManager> io_manager,
	fml::RefPtr<SkiaUnrefQueue> unref_queue,
	fml::WeakPtr<SnapshotDelegate> snapshot_delegate)
	: delegate_(delegate),
	settings_(std::move(settings)),
	animator_(std::move(animator)),
	activity_running_(true),
	have_surface_(false),
	image_decoder_(task_runners,
	vm.GetConcurrentWorkerTaskRunner(),
	io_manager),
	task_runners_(std::move(task_runners)),
	weak_factory_(this) {
	// Runtime controller is initialized here because it takes a reference to this
	// object as its delegate. The delegate may be called in the constructor and
	// we want to be fully initilazed by that point.
	runtime_controller_ = std::make_unique<RuntimeController>(
	*this, // runtime delegate
	&vm, // VM
	std::move(isolate_snapshot), // isolate snapshot
	task_runners_, // task runners
	std::move(snapshot_delegate),
	std::move(io_manager), // io manager
	std::move(unref_queue), // Skia unref queue
	image_decoder_.GetWeakPtr(), // image decoder
	settings_.advisory_script_uri, // advisory script uri
	settings_.advisory_script_entrypoint, // advisory script entrypoint
	settings_.idle_notification_callback, // idle notification callback
	window_data, // window data
	settings_.isolate_create_callback, // isolate create callback
	settings_.isolate_shutdown_callback, // isolate shutdown callback
	settings_.persistent_isolate_data // persistent isolate data
	);

	pointer_data_dispatcher_ = dispatcher_maker(*this);
	}

	Engine::~Engine() = default;

	float Engine::GetDisplayRefreshRate() const {
	return animator_->GetDisplayRefreshRate();
	}

	fml::WeakPtr<Engine> Engine::GetWeakPtr() const {
	return weak_factory_.GetWeakPtr();
	}

	void Engine::SetupDefaultFontManager() {
	TRACE_EVENT0("flutter", "Engine::SetupDefaultFontManager");
	font_collection_.SetupDefaultFontManager();
	}

	bool Engine::UpdateAssetManager(
	std::shared_ptr<AssetManager> new_asset_manager) {
	if (asset_manager_ == new_asset_manager) {
	return false;
	}

	asset_manager_ = new_asset_manager;

	if (!asset_manager_) {
	return false;
	}

	// Using libTXT as the text engine.
	font_collection_.RegisterFonts(asset_manager_);

	if (settings_.use_test_fonts) {
	font_collection_.RegisterTestFonts();
	}

	return true;
	}

	bool Engine::Restart(RunConfiguration configuration) {
	TRACE_EVENT0("flutter", "Engine::Restart");
	if (!configuration.IsValid()) {
	FML_LOG(ERROR) << "Engine run configuration was invalid.";
	return false;
	}
	delegate_.OnPreEngineRestart();
	runtime_controller_ = runtime_controller_->Clone();
	UpdateAssetManager(nullptr);
	return Run(std::move(configuration)) == Engine::RunStatus::Success;
	}

	Engine::RunStatus Engine::Run(RunConfiguration configuration) {
	if (!configuration.IsValid()) {
	FML_LOG(ERROR) << "Engine run configuration was invalid.";
	return RunStatus::Failure;
	}

	last_entry_point_ = configuration.GetEntrypoint();
	last_entry_point_library_ = configuration.GetEntrypointLibrary();

	auto isolate_launch_status =
	PrepareAndLaunchIsolate(std::move(configuration));
	if (isolate_launch_status == Engine::RunStatus::Failure) {
	FML_LOG(ERROR) << "Engine not prepare and launch isolate.";
	return isolate_launch_status;
	} else if (isolate_launch_status ==
	Engine::RunStatus::FailureAlreadyRunning) {
	return isolate_launch_status;
	}

	std::shared_ptr<DartIsolate> isolate =
	runtime_controller_->GetRootIsolate().lock();

	bool isolate_running =
	isolate && isolate->GetPhase() == DartIsolate::Phase::Running;

	if (isolate_running) {
	tonic::DartState::Scope scope(isolate.get());

	if (settings_.root_isolate_create_callback) {
	settings_.root_isolate_create_callback();
	}

	if (settings_.root_isolate_shutdown_callback) {
	isolate->AddIsolateShutdownCallback(
	settings_.root_isolate_shutdown_callback);
	}

	std::string service_id = isolate->GetServiceId();
	fml::RefPtr<PlatformMessage> service_id_message =
	fml::MakeRefCounted<flutter::PlatformMessage>(
	kIsolateChannel,
	std::vector<uint8_t>(service_id.begin(), service_id.end()),
	nullptr);
	HandlePlatformMessage(service_id_message);
	}

	return isolate_running ? Engine::RunStatus::Success
	: Engine::RunStatus::Failure;
	}

	Engine::RunStatus Engine::PrepareAndLaunchIsolate(
	RunConfiguration configuration) {
	TRACE_EVENT0("flutter", "Engine::PrepareAndLaunchIsolate");

	UpdateAssetManager(configuration.GetAssetManager());

	auto isolate_configuration = configuration.TakeIsolateConfiguration();

	std::shared_ptr<DartIsolate> isolate =
	runtime_controller_->GetRootIsolate().lock();

	if (!isolate) {
	return RunStatus::Failure;
	}

	// This can happen on iOS after a plugin shows a native window and returns to
	// the Flutter ViewController.
	if (isolate->GetPhase() == DartIsolate::Phase::Running) {
	FML_DLOG(WARNING) << "Isolate was already running!";
	return RunStatus::FailureAlreadyRunning;
	}

	if (!isolate_configuration->PrepareIsolate(*isolate)) {
	FML_LOG(ERROR) << "Could not prepare to run the isolate.";
	return RunStatus::Failure;
	}

	if (configuration.GetEntrypointLibrary().empty()) {
	if (!isolate->Run(configuration.GetEntrypoint(),
	settings_.dart_entrypoint_args)) {
	FML_LOG(ERROR) << "Could not run the isolate.";
	return RunStatus::Failure;
	}
	} else {
	if (!isolate->RunFromLibrary(configuration.GetEntrypointLibrary(),
	configuration.GetEntrypoint(),
	settings_.dart_entrypoint_args)) {
	FML_LOG(ERROR) << "Could not run the isolate.";
	return RunStatus::Failure;
	}
	}

	return RunStatus::Success;
	}

	void Engine::BeginFrame(fml::TimePoint frame_time) {
	TRACE_EVENT0("flutter", "Engine::BeginFrame");
	runtime_controller_->BeginFrame(frame_time);
	}

	void Engine::ReportTimings(std::vector<int64_t> timings) {
	TRACE_EVENT0("flutter", "Engine::ReportTimings");
	runtime_controller_->ReportTimings(std::move(timings));
	}

	void Engine::NotifyIdle(int64_t deadline) {
	auto trace_event = std::to_string(deadline - Dart_TimelineGetMicros());
	TRACE_EVENT1("flutter", "Engine::NotifyIdle", "deadline_now_delta",
	trace_event.c_str());
	runtime_controller_->NotifyIdle(deadline);
	}

	std::pair<bool, uint32_t> Engine::GetUIIsolateReturnCode() {
	return runtime_controller_->GetRootIsolateReturnCode();
	}

	Dart_Port Engine::GetUIIsolateMainPort() {
	return runtime_controller_->GetMainPort();
	}

	std::string Engine::GetUIIsolateName() {
	return runtime_controller_->GetIsolateName();
	}

	bool Engine::UIIsolateHasLivePorts() {
	return runtime_controller_->HasLivePorts();
	}

	tonic::DartErrorHandleType Engine::GetUIIsolateLastError() {
	return runtime_controller_->GetLastError();
	}

	void Engine::OnOutputSurfaceCreated() {
	have_surface_ = true;
	StartAnimatorIfPossible();
	ScheduleFrame();
	}

	void Engine::OnOutputSurfaceDestroyed() {
	have_surface_ = false;
	StopAnimator();
	}

	void Engine::SetViewportMetrics(const ViewportMetrics& metrics) {
	bool dimensions_changed =
	viewport_metrics_.physical_height != metrics.physical_height \|\|
	viewport_metrics_.physical_width != metrics.physical_width \|\|
	viewport_metrics_.physical_depth != metrics.physical_depth;
	viewport_metrics_ = metrics;
	runtime_controller_->SetViewportMetrics(viewport_metrics_);
	if (animator_) {
	if (dimensions_changed)
	animator_->SetDimensionChangePending();
	if (have_surface_)
	ScheduleFrame();
	}
	}

	void Engine::DispatchPlatformMessage(fml::RefPtr<PlatformMessage> message) {
	if (message->channel() == kLifecycleChannel) {
	if (HandleLifecyclePlatformMessage(message.get()))
	return;
	} else if (message->channel() == kLocalizationChannel) {
	if (HandleLocalizationPlatformMessage(message.get()))
	return;
	} else if (message->channel() == kSettingsChannel) {
	HandleSettingsPlatformMessage(message.get());
	return;
	}

	if (runtime_controller_->IsRootIsolateRunning() &&
	runtime_controller_->DispatchPlatformMessage(std::move(message))) {
	return;
	}

	// If there's no runtime_, we may still need to set the initial route.
	if (message->channel() == kNavigationChannel) {
	HandleNavigationPlatformMessage(std::move(message));
	return;
	}

	FML_DLOG(WARNING) << "Dropping platform message on channel: "
	<< message->channel();
	}

	bool Engine::HandleLifecyclePlatformMessage(PlatformMessage* message) {
	const auto& data = message->data();
	std::string state(reinterpret_cast<const char*>(data.data()), data.size());
	if (state == "AppLifecycleState.paused" \|\|
	state == "AppLifecycleState.detached") {
	activity_running_ = false;
	StopAnimator();
	} else if (state == "AppLifecycleState.resumed" \|\|
	state == "AppLifecycleState.inactive") {
	activity_running_ = true;
	StartAnimatorIfPossible();
	}

	// Always schedule a frame when the app does become active as per API
	// recommendation
	// https://developer.apple.com/documentation/uikit/uiapplicationdelegate/1622956-applicationdidbecomeactive?language=objc
	if (state == "AppLifecycleState.resumed" && have_surface_) {
	ScheduleFrame();
	}
	runtime_controller_->SetLifecycleState(state);
	// Always forward these messages to the framework by returning false.
	return false;
	}

	bool Engine::HandleNavigationPlatformMessage(
	fml::RefPtr<PlatformMessage> message) {
	const auto& data = message->data();

	rapidjson::Document document;
	document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
	if (document.HasParseError() \|\| !document.IsObject())
	return false;
	auto root = document.GetObject();
	auto method = root.FindMember("method");
	if (method->value != "setInitialRoute")
	return false;
	auto route = root.FindMember("args");
	initial_route_ = std::move(route->value.GetString());
	return true;
	}

	bool Engine::HandleLocalizationPlatformMessage(PlatformMessage* message) {
	const auto& data = message->data();

	rapidjson::Document document;
	document.Parse(reinterpret_cast<const char*>(data.data()), data.size());
	if (document.HasParseError() \|\| !document.IsObject())
	return false;
	auto root = document.GetObject();
	auto method = root.FindMember("method");
	if (method == root.MemberEnd())
	return false;
	const size_t strings_per_locale = 4;
	if (method->value == "setLocale") {
	// Decode and pass the list of locale data onwards to dart.
	auto args = root.FindMember("args");
	if (args == root.MemberEnd() \|\| !args->value.IsArray())
	return false;

	if (args->value.Size() % strings_per_locale != 0)
	return false;
	std::vector<std::string> locale_data;
	for (size_t locale_index = 0; locale_index < args->value.Size();
	locale_index += strings_per_locale) {
	if (!args->value[locale_index].IsString() \|\|
	!args->value[locale_index + 1].IsString())
	return false;
	locale_data.push_back(args->value[locale_index].GetString());
	locale_data.push_back(args->value[locale_index + 1].GetString());
	locale_data.push_back(args->value[locale_index + 2].GetString());
	locale_data.push_back(args->value[locale_index + 3].GetString());
	}

	return runtime_controller_->SetLocales(locale_data);
	} else if (method->value == "setPlatformResolvedLocale") {
	// Decode and pass the single locale data onwards to dart.
	auto args = root.FindMember("args");
	if (args == root.MemberEnd() \|\| !args->value.IsArray())
	return false;

	if (args->value.Size() != strings_per_locale)
	return false;

	std::vector<std::string> locale_data;
	if (!args->value[0].IsString() \|\| !args->value[1].IsString())
	return false;
	locale_data.push_back(args->value[0].GetString());
	locale_data.push_back(args->value[1].GetString());
	locale_data.push_back(args->value[2].GetString());
	locale_data.push_back(args->value[3].GetString());

	return runtime_controller_->SetPlatformResolvedLocale(locale_data);
	}
	return false;
	}

	void Engine::HandleSettingsPlatformMessage(PlatformMessage* message) {
	const auto& data = message->data();
	std::string jsonData(reinterpret_cast<const char*>(data.data()), data.size());
	if (runtime_controller_->SetUserSettingsData(std::move(jsonData)) &&
	have_surface_) {
	ScheduleFrame();
	}
	}

	void Engine::DispatchPointerDataPacket(
	std::unique_ptr<PointerDataPacket> packet,
	uint64_t trace_flow_id) {
	TRACE_EVENT0("flutter", "Engine::DispatchPointerDataPacket");
	TRACE_FLOW_STEP("flutter", "PointerEvent", trace_flow_id);
	pointer_data_dispatcher_->DispatchPacket(std::move(packet), trace_flow_id);
	}

	void Engine::DispatchSemanticsAction(int id,
	SemanticsAction action,
	std::vector<uint8_t> args) {
	runtime_controller_->DispatchSemanticsAction(id, action, std::move(args));
	}

	void Engine::SetSemanticsEnabled(bool enabled) {
	runtime_controller_->SetSemanticsEnabled(enabled);
	}

	void Engine::SetAccessibilityFeatures(int32_t flags) {
	runtime_controller_->SetAccessibilityFeatures(flags);
	}

	void Engine::StopAnimator() {
	animator_->Stop();
	}

	void Engine::StartAnimatorIfPossible() {
	if (activity_running_ && have_surface_)
	animator_->Start();
	}

	std::string Engine::DefaultRouteName() {
	if (!initial_route_.empty()) {
	return initial_route_;
	}
	return "/";
	}

	void Engine::ScheduleFrame(bool regenerate_layer_tree) {
	animator_->RequestFrame(regenerate_layer_tree);
	}

	void Engine::Render(std::unique_ptr<flutter::LayerTree> layer_tree) {
	if (!layer_tree)
	return;

	// Ensure frame dimensions are sane.
	if (layer_tree->frame_size().isEmpty() \|\|
	layer_tree->frame_physical_depth() <= 0.0f \|\|
	layer_tree->frame_device_pixel_ratio() <= 0.0f)
	return;

	animator_->Render(std::move(layer_tree));
	}

	void Engine::UpdateSemantics(SemanticsNodeUpdates update,
	CustomAccessibilityActionUpdates actions) {
	delegate_.OnEngineUpdateSemantics(std::move(update), std::move(actions));
	}

	void Engine::HandlePlatformMessage(fml::RefPtr<PlatformMessage> message) {
	if (message->channel() == kAssetChannel) {
	HandleAssetPlatformMessage(std::move(message));
	} else {
	delegate_.OnEngineHandlePlatformMessage(std::move(message));
	}
	}

	void Engine::UpdateIsolateDescription(const std::string isolate_name,
	int64_t isolate_port) {
	delegate_.UpdateIsolateDescription(isolate_name, isolate_port);
	}

	void Engine::SetNeedsReportTimings(bool needs_reporting) {
	delegate_.SetNeedsReportTimings(needs_reporting);
	}

	FontCollection& Engine::GetFontCollection() {
	return font_collection_;
	}

	void Engine::DoDispatchPacket(std::unique_ptr<PointerDataPacket> packet,
	uint64_t trace_flow_id) {
	animator_->EnqueueTraceFlowId(trace_flow_id);
	if (runtime_controller_) {
	runtime_controller_->DispatchPointerDataPacket(*packet);
	}
	}

	void Engine::ScheduleSecondaryVsyncCallback(const fml::closure& callback) {
	animator_->ScheduleSecondaryVsyncCallback(callback);
	}

	void Engine::HandleAssetPlatformMessage(fml::RefPtr<PlatformMessage> message) {
	fml::RefPtr<PlatformMessageResponse> response = message->response();
	if (!response) {
	return;
	}
	const auto& data = message->data();
	std::string asset_name(reinterpret_cast<const char*>(data.data()),
	data.size());

	if (asset_manager_) {
	std::unique_ptr<fml::Mapping> asset_mapping =
	asset_manager_->GetAsMapping(asset_name);
	if (asset_mapping) {
	response->Complete(std::move(asset_mapping));
	return;
	}
	}

	response->CompleteEmpty();
	}

	const std::string& Engine::GetLastEntrypoint() const {
	return last_entry_point_;
	}

	const std::string& Engine::GetLastEntrypointLibrary() const {
	return last_entry_point_library_;
	}

	} // namespace flutter