device/generic_sensor/platform_sensor.cc - chromium/src - Git at Google

 // 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 "device/generic_sensor/platform_sensor.h"

 #include <utility>

 #include "base/threading/thread_task_runner_handle.h"
 #include "device/generic_sensor/platform_sensor_provider.h"
 #include "device/generic_sensor/public/cpp/platform_sensor_configuration.h"

 namespace device {

 PlatformSensor::PlatformSensor(mojom::SensorType type,
                                mojo::ScopedSharedBufferMapping mapping,
                                PlatformSensorProvider* provider)
     : task_runner_(base::ThreadTaskRunnerHandle::Get()),
       shared_buffer_mapping_(std::move(mapping)),
       type_(type),
       provider_(provider),
       weak_factory_(this) {}

 PlatformSensor::~PlatformSensor() {
   provider_->RemoveSensor(GetType());
 }

 mojom::SensorType PlatformSensor::GetType() const {
   return type_;
 }

 double PlatformSensor::GetMaximumSupportedFrequency() {
   return GetDefaultConfiguration().frequency();
 }

 double PlatformSensor::GetMinimumSupportedFrequency() {
   return 1.0 / (60 * 60);
 }

 bool PlatformSensor::StartListening(Client* client,
                                     const PlatformSensorConfiguration& config) {
   DCHECK(clients_.HasObserver(client));
   if (!CheckSensorConfiguration(config))
     return false;

   auto& config_list = config_map_[client];
   config_list.push_back(config);

   if (!UpdateSensorInternal(config_map_)) {
     config_list.pop_back();
     return false;
   }

   return true;
 }

 bool PlatformSensor::StopListening(Client* client,
                                    const PlatformSensorConfiguration& config) {
   DCHECK(clients_.HasObserver(client));
   auto client_entry = config_map_.find(client);
   if (client_entry == config_map_.end())
     return false;

   auto& config_list = client_entry->second;
   auto config_entry = std::find(config_list.begin(), config_list.end(), config);
   if (config_entry == config_list.end())
     return false;

   config_list.erase(config_entry);

   return UpdateSensorInternal(config_map_);
 }

 void PlatformSensor::UpdateSensor() {
   UpdateSensorInternal(config_map_);
 }

 void PlatformSensor::AddClient(Client* client) {
   DCHECK(client);
   clients_.AddObserver(client);
 }

 void PlatformSensor::RemoveClient(Client* client) {
   DCHECK(client);
   clients_.RemoveObserver(client);
   auto client_entry = config_map_.find(client);
   if (client_entry != config_map_.end()) {
     config_map_.erase(client_entry);
     UpdateSensorInternal(config_map_);
   }
 }

 void PlatformSensor::UpdateSensorReading(const SensorReading& reading,
                                          bool notify_clients) {
   ReadingBuffer* buffer =
       static_cast<ReadingBuffer*>(shared_buffer_mapping_.get());
   auto& seqlock = buffer->seqlock.value();
   seqlock.WriteBegin();
   buffer->reading = reading;
   seqlock.WriteEnd();

   if (notify_clients)
     task_runner_->PostTask(
         FROM_HERE, base::Bind(&PlatformSensor::NotifySensorReadingChanged,
                               weak_factory_.GetWeakPtr()));
 }

 void PlatformSensor::NotifySensorReadingChanged() {
   for (auto& client : clients_) {
     if (!client.IsNotificationSuspended())
       client.OnSensorReadingChanged();
   }
 }

 void PlatformSensor::NotifySensorError() {
   for (auto& observer : clients_)
     observer.OnSensorError();
 }

 bool PlatformSensor::UpdateSensorInternal(const ConfigMap& configurations) {
   const PlatformSensorConfiguration* optimal_configuration = nullptr;
   for (const auto& pair : configurations) {
     if (pair.first->IsNotificationSuspended())
       continue;

     const auto& conf_list = pair.second;
     for (const auto& configuration : conf_list) {
       if (!optimal_configuration || configuration > *optimal_configuration) {
         optimal_configuration = &configuration;
       }
     }
   }

   if (!optimal_configuration) {
     StopSensor();
     return true;
   }

   return StartSensor(*optimal_configuration);
 }

 }  // namespace device
	// 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 "device/generic_sensor/platform_sensor.h"

	#include <utility>

	#include "base/threading/thread_task_runner_handle.h"
	#include "device/generic_sensor/platform_sensor_provider.h"
	#include "device/generic_sensor/public/cpp/platform_sensor_configuration.h"

	namespace device {

	PlatformSensor::PlatformSensor(mojom::SensorType type,
	mojo::ScopedSharedBufferMapping mapping,
	PlatformSensorProvider* provider)
	: task_runner_(base::ThreadTaskRunnerHandle::Get()),
	shared_buffer_mapping_(std::move(mapping)),
	type_(type),
	provider_(provider),
	weak_factory_(this) {}

	PlatformSensor::~PlatformSensor() {
	provider_->RemoveSensor(GetType());
	}

	mojom::SensorType PlatformSensor::GetType() const {
	return type_;
	}

	double PlatformSensor::GetMaximumSupportedFrequency() {
	return GetDefaultConfiguration().frequency();
	}

	double PlatformSensor::GetMinimumSupportedFrequency() {
	return 1.0 / (60 * 60);
	}

	bool PlatformSensor::StartListening(Client* client,
	const PlatformSensorConfiguration& config) {
	DCHECK(clients_.HasObserver(client));
	if (!CheckSensorConfiguration(config))
	return false;

	auto& config_list = config_map_[client];
	config_list.push_back(config);

	if (!UpdateSensorInternal(config_map_)) {
	config_list.pop_back();
	return false;
	}

	return true;
	}

	bool PlatformSensor::StopListening(Client* client,
	const PlatformSensorConfiguration& config) {
	DCHECK(clients_.HasObserver(client));
	auto client_entry = config_map_.find(client);
	if (client_entry == config_map_.end())
	return false;

	auto& config_list = client_entry->second;
	auto config_entry = std::find(config_list.begin(), config_list.end(), config);
	if (config_entry == config_list.end())
	return false;

	config_list.erase(config_entry);

	return UpdateSensorInternal(config_map_);
	}

	void PlatformSensor::UpdateSensor() {
	UpdateSensorInternal(config_map_);
	}

	void PlatformSensor::AddClient(Client* client) {
	DCHECK(client);
	clients_.AddObserver(client);
	}

	void PlatformSensor::RemoveClient(Client* client) {
	DCHECK(client);
	clients_.RemoveObserver(client);
	auto client_entry = config_map_.find(client);
	if (client_entry != config_map_.end()) {
	config_map_.erase(client_entry);
	UpdateSensorInternal(config_map_);
	}
	}

	void PlatformSensor::UpdateSensorReading(const SensorReading& reading,
	bool notify_clients) {
	ReadingBuffer* buffer =
	static_cast<ReadingBuffer*>(shared_buffer_mapping_.get());
	auto& seqlock = buffer->seqlock.value();
	seqlock.WriteBegin();
	buffer->reading = reading;
	seqlock.WriteEnd();

	if (notify_clients)
	task_runner_->PostTask(
	FROM_HERE, base::Bind(&PlatformSensor::NotifySensorReadingChanged,
	weak_factory_.GetWeakPtr()));
	}

	void PlatformSensor::NotifySensorReadingChanged() {
	for (auto& client : clients_) {
	if (!client.IsNotificationSuspended())
	client.OnSensorReadingChanged();
	}
	}

	void PlatformSensor::NotifySensorError() {
	for (auto& observer : clients_)
	observer.OnSensorError();
	}

	bool PlatformSensor::UpdateSensorInternal(const ConfigMap& configurations) {
	const PlatformSensorConfiguration* optimal_configuration = nullptr;
	for (const auto& pair : configurations) {
	if (pair.first->IsNotificationSuspended())
	continue;

	const auto& conf_list = pair.second;
	for (const auto& configuration : conf_list) {
	if (!optimal_configuration \|\| configuration > *optimal_configuration) {
	optimal_configuration = &configuration;
	}
	}
	}

	if (!optimal_configuration) {
	StopSensor();
	return true;
	}

	return StartSensor(*optimal_configuration);
	}

	} // namespace device