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[Android] Adapted sensor implementation

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This commit is contained in:
Jonathan De Wachter 2014-04-20 12:05:06 +02:00
parent dd7a3cb30b
commit 273ad4c9ee
2 changed files with 157 additions and 13 deletions
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134
src/SFML/Window/Android/SensorImpl.cpp
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@ -26,6 +26,16 @@
// Headers
////////////////////////////////////////////////////////////
#include <SFML/Window/SensorImpl.hpp>
#include <SFML/System/Time.hpp>
#include <android/looper.h>
namespace
{
ALooper* looper;
ASensorManager* sensorManager;
ASensorEventQueue* sensorEventQueue;
sf::Vector3f sensorData[sf::Sensor::Count];
}
namespace sf
@ -35,52 +45,150 @@ namespace priv
////////////////////////////////////////////////////////////
void SensorImpl::initialize()
{
// To be implemented
// Get the looper associated with this thread
looper = ALooper_forThread();
// Get the unique sensor manager
sensorManager = ASensorManager_getInstance();
// Create the sensor events queue and attach it to the looper
sensorEventQueue = ASensorManager_createEventQueue(sensorManager, looper,
1, &processSensorEvents, NULL);
}
////////////////////////////////////////////////////////////
void SensorImpl::cleanup()
{
// To be implemented
// Detach the sensor events queue from the looper and destroy it
ASensorManager_destroyEventQueue(sensorManager, sensorEventQueue);
}
////////////////////////////////////////////////////////////
bool SensorImpl::isAvailable(Sensor::Type /*sensor*/)
bool SensorImpl::isAvailable(Sensor::Type sensor)
{
// To be implemented
return false;
const ASensor* available = getDefaultSensor(sensor);
return available? true : false;
}
////////////////////////////////////////////////////////////
bool SensorImpl::open(Sensor::Type /*sensor*/)
bool SensorImpl::open(Sensor::Type sensor)
{
// To be implemented
return false;
// Get the default sensor matching the type
m_sensor = getDefaultSensor(sensor);
// Sensor not available, stop here
if (!m_sensor)
return false;
// Get the minimum delay allowed between events
Time minimumDelay = microseconds(ASensor_getMinDelay(m_sensor));
// Set the event rate (not to consume too much battery)
ASensorEventQueue_setEventRate(sensorEventQueue, m_sensor, minimumDelay.asMicroseconds());
// Disable the sensor by default
setEnabled(true);
// Save the index of the sensor
m_index = static_cast<unsigned int>(sensor);
return true;
}
////////////////////////////////////////////////////////////
void SensorImpl::close()
{
// To be implemented
// Nothing to do
}
////////////////////////////////////////////////////////////
Vector3f SensorImpl::update()
{
// To be implemented
return Vector3f(0, 0, 0);
// Update our sensor data list
ALooper_pollAll(0, NULL, NULL, NULL);
return sensorData[m_index];
}
////////////////////////////////////////////////////////////
void SensorImpl::setEnabled(bool /*enabled*/)
void SensorImpl::setEnabled(bool enabled)
{
// To be implemented
if (enabled)
ASensorEventQueue_enableSensor(sensorEventQueue, m_sensor);
else
ASensorEventQueue_disableSensor(sensorEventQueue, m_sensor);
}
////////////////////////////////////////////////////////////
ASensor const* SensorImpl::getDefaultSensor(Sensor::Type sensor)
{
// These sensors are unavailable from the Android C API
if ((sensor == Sensor::Gravity) ||
(sensor == Sensor::UserAcceleration) ||
(sensor == Sensor::Orientation))
return NULL;
// Find the Android sensor type
static int types[] = {ASENSOR_TYPE_ACCELEROMETER,
ASENSOR_TYPE_GYROSCOPE, ASENSOR_TYPE_MAGNETIC_FIELD};
int type = types[sensor];
// Retrive the default sensor matching this type
return ASensorManager_getDefaultSensor(sensorManager, type);
}
////////////////////////////////////////////////////////////
int SensorImpl::processSensorEvents(int fd, int events, void* data)
{
ASensorEvent event;
while (ASensorEventQueue_getEvents(sensorEventQueue, &event, 1) > 0)
{
unsigned int type = Sensor::Count;
Vector3f data;
switch (event.type)
{
case ASENSOR_TYPE_ACCELEROMETER:
type = Sensor::Accelerometer;
data.x = event.acceleration.x;
data.y = event.acceleration.y;
data.z = event.acceleration.z;
break;
case ASENSOR_TYPE_GYROSCOPE:
type = Sensor::Gyroscope;
data.x = event.vector.x;
data.y = event.vector.y;
data.z = event.vector.z;
break;
case ASENSOR_TYPE_MAGNETIC_FIELD:
type = Sensor::Magnetometer;
data.x = event.magnetic.x;
data.y = event.magnetic.y;
data.z = event.magnetic.z;
break;
}
// An unknown sensor event has been detected, we don't know how to process it
if (type == Sensor::Count)
continue;
sensorData[type] = data;
}
return 1;
}
} // namespace priv

36
src/SFML/Window/Android/SensorImpl.hpp
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@ -25,6 +25,12 @@
#ifndef SFML_SENSORIMPLANDROID_HPP
#define SFML_SENSORIMPLANDROID_HPP
////////////////////////////////////////////////////////////
// Headers
////////////////////////////////////////////////////////////
#include <SFML/System/Vector3.hpp>
#include <android/sensor.h>
namespace sf
{
@ -91,6 +97,36 @@ public :
///
////////////////////////////////////////////////////////////
void setEnabled(bool enabled);
private :
////////////////////////////////////////////////////////////
/// \brief Get the default Android sensor matching the sensor type
///
/// \param type Type of the sensor
///
/// \return The default Android sensor, NULL otherwise
///
////////////////////////////////////////////////////////////
static ASensor const* getDefaultSensor(Sensor::Type sensor);
////////////////////////////////////////////////////////////
/// \brief Process the pending sensor data available and add them to our lists
///
/// \param fd File descriptor
/// \param events Bitmask of the poll events that were triggered
/// \param data Data pointer supplied
///
/// \return Whether it should continue (1) or unregister the callback (0)
///
////////////////////////////////////////////////////////////
static int processSensorEvents(int fd, int events, void* data);
////////////////////////////////////////////////////////////
// Member data
////////////////////////////////////////////////////////////
const ASensor* m_sensor; ///< Android sensor structure
unsigned int m_index; ///< Index of the sensor
};
} // namespace priv