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//
// Tizen Web Device API
// Copyright (c) 2012 Samsung Electronics Co., Ltd.
//
// Licensed under the Apache License, Version 2.0 (the License);
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
//
#ifndef __TIZEN_SENSOR_SERVICE_H__
#define __TIZEN_SENSOR_SERVICE_H__
#include <map>
#include <list>
#include <glib.h>
#include <boost/shared_ptr.hpp>
#include <CallbackUserData.h>
#include <sensors.h>
//#include "SensorTypes.h"
using namespace DeviceAPI::Common;
namespace DeviceAPI {
namespace Sensor {
class ProximitySuccessCallback;
typedef std::shared_ptr<ProximitySuccessCallback> ProximitySuccessCallbackPtr;
class LightSuccessCallback;
typedef std::shared_ptr<LightSuccessCallback> LightSuccessCallbackPtr;
class MagneticSuccessCallback;
typedef std::shared_ptr<MagneticSuccessCallback> MagneticSuccessCallbackPtr;
struct ProximitySuccessCallbackHolder {
ProximitySuccessCallbackPtr ptr;
JSValueRef mJSProximityData;
};
struct LightSuccessCallbackHolder {
LightSuccessCallbackPtr ptr;
JSValueRef mJSLightData;
};
struct MagneticSuccessCallbackHolder {
MagneticSuccessCallbackPtr ptr;
JSValueRef mJSMagneticData;
};
class SensorService
{
public:
SensorService();
virtual ~SensorService();
JSValueRef getAvailableSensor(JSContextRef context);
static SensorService* getInstance();
private:
};
class ProximitySuccessCallback : public Common::CallbackUserData
{
public:
ProximitySuccessCallback(JSContextRef globalCtx);
virtual ~ProximitySuccessCallback();
private:
};
class LightSuccessCallback : public Common::CallbackUserData
{
public:
LightSuccessCallback(JSContextRef globalCtx);
virtual ~LightSuccessCallback();
private:
};
class MagneticSuccessCallback : public Common::CallbackUserData
{
public:
MagneticSuccessCallback(JSContextRef globalCtx);
virtual ~MagneticSuccessCallback();
private:
};
class ProximitySensor
{
public:
ProximitySensor();
virtual ~ProximitySensor();
static ProximitySensor* getInstance();
void start(ProximitySuccessCallbackPtr successCB);
void stop(JSContextRef globalCtx);
void setChangeListener(ProximitySuccessCallbackPtr callback);
void unsetChangeListener(JSContextRef globalCtx);
void getSensorData(ProximitySuccessCallbackPtr callback);
void broadcast_proximity(float proximityLevel);
bool isSupported();
static void sensor_proximity_callback(unsigned long long timestamp, float distance, void* user_data);
static gboolean callProximitySuccessCallback(void* data);
static gboolean callProximityStartSuccessCB(void* data);
private:
sensor_h mProximityHandle;
bool mBStart;
bool mBSupported;
std::map<JSContextRef, ProximitySuccessCallbackPtr> mProximityCallbackMap;
std::map<JSContextRef, bool> mProximityStartMap;
};
class LightSensor
{
public:
LightSensor();
virtual ~LightSensor();
static LightSensor* getInstance();
void start(LightSuccessCallbackPtr successCB);
void stop(JSContextRef globalCtx);
void setChangeListener(LightSuccessCallbackPtr callback);
void unsetChangeListener(JSContextRef globalCtx);
void getSensorData(LightSuccessCallbackPtr callback);
void broadcast_light(float lux);
bool isSupported();
static void sensor_light_callback(unsigned long long timestamp, float lux, void* user_data);
static gboolean callLightSuccessCallback(void* data);
static gboolean callLightStartSuccessCallback(void* data);
private:
sensor_h mLightHandle;
bool mBStart;
bool mBSupported;
std::map<JSContextRef, LightSuccessCallbackPtr> mLightCallbackMap;
std::map<JSContextRef, bool> mLightStartMap;
};
class MagneticSensor
{
public:
MagneticSensor();
virtual ~MagneticSensor();
static MagneticSensor* getInstance();
void start(MagneticSuccessCallbackPtr successCB);
void stop(JSContextRef globalCtx);
void setChangeListener(MagneticSuccessCallbackPtr callback);
void unsetChangeListener(JSContextRef globalCtx);
void setCalibrationListener(MagneticSuccessCallbackPtr callback);
void unsetCalibrationListener(JSContextRef globalCtx);
void getSensorData(MagneticSuccessCallbackPtr callback);
void broadcast_magnetic(float x, float y, float z, sensor_data_accuracy_e accuracy);
void broadcast_calibaratiion();
bool isSupported();
static void sensor_magnetic_callback(unsigned long long timestamp, sensor_data_accuracy_e accuracy, float x, float y, float z, void *user_data);
static void sensor_magnetic_calibration_callback(void *user_data);
static gboolean callMagneticStartSuccessCallback(void* data);
static gboolean callMagneticSuccessCallback(void* data);
static gboolean callMagneticCalibarationSuccessCB(void* data);
private:
sensor_h mMagneticHandle;
bool mBStart;
bool mBSupported;
std::map<JSContextRef, MagneticSuccessCallbackPtr> mMagneticCallbackMap;
std::map<JSContextRef, MagneticSuccessCallbackPtr> mCalibrationCallbackMap;
std::map<JSContextRef, bool> mMagneticStartMap;
};
} // Sensor
} // DeviceAPI
#endif // __TIZEN_SENSOR_SERVICE_H__
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