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提交 37d04007 编写于 作者: G guozhanxin
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rename rt_sen_ to rt_sensor_

上级 9458791c
隐藏空白更改
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Showing with 103 addition and 103 deletion
components/drivers/sensors/sensor.c
浏览文件 @ 37d04007
...@@ -51,12 +51,12 @@ void rt_sensor_cb(rt_sensor_t sen) ...@@ -51,12 +51,12 @@ void rt_sensor_cb(rt_sensor_t sen)
{ {
sen->parent.rx_indicate(&sen->parent, sen->data_len / sizeof(struct rt_sensor_data)); sen->parent.rx_indicate(&sen->parent, sen->data_len / sizeof(struct rt_sensor_data));
} }
else if (sen->config.mode == RT_SEN_MODE_INT) else if (sen->config.mode == RT_SENSOR_MODE_INT)
{ {
/* The interrupt mode only produces one data at a time */ /* The interrupt mode only produces one data at a time */
sen->parent.rx_indicate(&sen->parent, 1); sen->parent.rx_indicate(&sen->parent, 1);
} }
else if (sen->config.mode == RT_SEN_MODE_FIFO) else if (sen->config.mode == RT_SENSOR_MODE_FIFO)
{ {
sen->parent.rx_indicate(&sen->parent, sen->info.fifo_max); sen->parent.rx_indicate(&sen->parent, sen->info.fifo_max);
} }
...@@ -164,27 +164,27 @@ static rt_err_t rt_sensor_open(rt_device_t dev, rt_uint16_t oflag) ...@@ -164,27 +164,27 @@ static rt_err_t rt_sensor_open(rt_device_t dev, rt_uint16_t oflag)
if (oflag & RT_DEVICE_FLAG_RDONLY && dev->flag & RT_DEVICE_FLAG_RDONLY) if (oflag & RT_DEVICE_FLAG_RDONLY && dev->flag & RT_DEVICE_FLAG_RDONLY)
{ {
/* If polling mode is supported, configure it to polling mode */ /* If polling mode is supported, configure it to polling mode */
if (sensor->ops->control(sensor, RT_SEN_CTRL_SET_MODE, (void *)RT_SEN_MODE_POLLING) == RT_EOK) if (sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_MODE, (void *)RT_SENSOR_MODE_POLLING) == RT_EOK)
{ {
sensor->config.mode = RT_SEN_MODE_POLLING; sensor->config.mode = RT_SENSOR_MODE_POLLING;
} }
} }
else if (oflag & RT_DEVICE_FLAG_INT_RX && dev->flag & RT_DEVICE_FLAG_INT_RX) else if (oflag & RT_DEVICE_FLAG_INT_RX && dev->flag & RT_DEVICE_FLAG_INT_RX)
{ {
/* If interrupt mode is supported, configure it to interrupt mode */ /* If interrupt mode is supported, configure it to interrupt mode */
if (sensor->ops->control(sensor, RT_SEN_CTRL_SET_MODE, (void *)RT_SEN_MODE_INT) == RT_EOK) if (sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_MODE, (void *)RT_SENSOR_MODE_INT) == RT_EOK)
{ {
sensor->config.mode = RT_SEN_MODE_INT; sensor->config.mode = RT_SENSOR_MODE_INT;
/* Initialization sensor interrupt */ /* Initialization sensor interrupt */
rt_sensor_irq_init(sensor); rt_sensor_irq_init(sensor);
} }
} }
else if (oflag & RT_SEN_FLAG_FIFO && dev->flag & RT_SEN_FLAG_FIFO) else if (oflag & RT_SENSOR_FLAG_FIFO && dev->flag & RT_SENSOR_FLAG_FIFO)
{ {
/* If fifo mode is supported, configure it to fifo mode */ /* If fifo mode is supported, configure it to fifo mode */
if (sensor->ops->control(sensor, RT_SEN_CTRL_SET_MODE, (void *)RT_SEN_MODE_FIFO) == RT_EOK) if (sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_MODE, (void *)RT_SENSOR_MODE_FIFO) == RT_EOK)
{ {
sensor->config.mode = RT_SEN_MODE_FIFO; sensor->config.mode = RT_SENSOR_MODE_FIFO;
/* Initialization sensor interrupt */ /* Initialization sensor interrupt */
rt_sensor_irq_init(sensor); rt_sensor_irq_init(sensor);
} }
...@@ -195,9 +195,9 @@ static rt_err_t rt_sensor_open(rt_device_t dev, rt_uint16_t oflag) ...@@ -195,9 +195,9 @@ static rt_err_t rt_sensor_open(rt_device_t dev, rt_uint16_t oflag)
} }
/* Configure power mode to normal mode */ /* Configure power mode to normal mode */
if (sensor->ops->control(sensor, RT_SEN_CTRL_SET_POWER, (void *)RT_SEN_POWER_NORMAL) == RT_EOK) if (sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_POWER, (void *)RT_SENSOR_POWER_NORMAL) == RT_EOK)
{ {
sensor->config.power = RT_SEN_POWER_NORMAL; sensor->config.power = RT_SENSOR_POWER_NORMAL;
} }
if (sensor->module) if (sensor->module)
...@@ -220,9 +220,9 @@ static rt_err_t rt_sensor_close(rt_device_t dev) ...@@ -220,9 +220,9 @@ static rt_err_t rt_sensor_close(rt_device_t dev)
} }
/* Configure power mode to power down mode */ /* Configure power mode to power down mode */
if (sensor->ops->control(sensor, RT_SEN_CTRL_SET_POWER, (void *)RT_SEN_POWER_DOWN) == RT_EOK) if (sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_POWER, (void *)RT_SENSOR_POWER_DOWN) == RT_EOK)
{ {
sensor->config.power = RT_SEN_POWER_DOWN; sensor->config.power = RT_SENSOR_POWER_DOWN;
} }
/* Sensor disable interrupt */ /* Sensor disable interrupt */
...@@ -293,71 +293,71 @@ static rt_err_t rt_sensor_control(rt_device_t dev, int cmd, void *args) ...@@ -293,71 +293,71 @@ static rt_err_t rt_sensor_control(rt_device_t dev, int cmd, void *args)
switch (cmd) switch (cmd)
{ {
case RT_SEN_CTRL_GET_ID: case RT_SENSOR_CTRL_GET_ID:
if (args) if (args)
{ {
sensor->ops->control(sensor, RT_SEN_CTRL_GET_ID, args); sensor->ops->control(sensor, RT_SENSOR_CTRL_GET_ID, args);
} }
break; break;
case RT_SEN_CTRL_GET_INFO: case RT_SENSOR_CTRL_GET_INFO:
if (args) if (args)
{ {
rt_memcpy(args, &sensor->info, sizeof(struct rt_sensor_info)); rt_memcpy(args, &sensor->info, sizeof(struct rt_sensor_info));
} }
break; break;
case RT_SEN_CTRL_SET_RANGE: case RT_SENSOR_CTRL_SET_RANGE:
/* Configuration measurement range */ /* Configuration measurement range */
result = sensor->ops->control(sensor, RT_SEN_CTRL_SET_RANGE, args); result = sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_RANGE, args);
if (result == RT_EOK) if (result == RT_EOK)
{ {
sensor->config.range = (rt_int32_t)args; sensor->config.range = (rt_int32_t)args;
LOG_D("set range %d", sensor->config.range); LOG_D("set range %d", sensor->config.range);
} }
break; break;
case RT_SEN_CTRL_SET_ODR: case RT_SENSOR_CTRL_SET_ODR:
/* Configuration data output rate */ /* Configuration data output rate */
result = sensor->ops->control(sensor, RT_SEN_CTRL_SET_ODR, args); result = sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_ODR, args);
if (result == RT_EOK) if (result == RT_EOK)
{ {
sensor->config.odr = (rt_uint32_t)args & 0xFFFF; sensor->config.odr = (rt_uint32_t)args & 0xFFFF;
LOG_D("set odr %d", sensor->config.odr); LOG_D("set odr %d", sensor->config.odr);
} }
break; break;
case RT_SEN_CTRL_SET_MODE: case RT_SENSOR_CTRL_SET_MODE:
/* Configuration sensor work mode */ /* Configuration sensor work mode */
result = sensor->ops->control(sensor, RT_SEN_CTRL_SET_MODE, args); result = sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_MODE, args);
if (result == RT_EOK) if (result == RT_EOK)
{ {
sensor->config.mode = (rt_uint32_t)args & 0xFF; sensor->config.mode = (rt_uint32_t)args & 0xFF;
LOG_D("set work mode code:", sensor->config.mode); LOG_D("set work mode code:", sensor->config.mode);
if (sensor->config.mode == RT_SEN_MODE_POLLING) if (sensor->config.mode == RT_SENSOR_MODE_POLLING)
{ {
rt_sensor_irq_disable(sensor); rt_sensor_irq_disable(sensor);
} }
else if (sensor->config.mode == RT_SEN_MODE_INT || sensor->config.mode == RT_SEN_MODE_FIFO) else if (sensor->config.mode == RT_SENSOR_MODE_INT || sensor->config.mode == RT_SENSOR_MODE_FIFO)
{ {
rt_sensor_irq_enable(sensor); rt_sensor_irq_enable(sensor);
} }
} }
break; break;
case RT_SEN_CTRL_SET_POWER: case RT_SENSOR_CTRL_SET_POWER:
/* Configuration sensor power mode */ /* Configuration sensor power mode */
result = sensor->ops->control(sensor, RT_SEN_CTRL_SET_POWER, args); result = sensor->ops->control(sensor, RT_SENSOR_CTRL_SET_POWER, args);
if (result == RT_EOK) if (result == RT_EOK)
{ {
sensor->config.power = (rt_uint32_t)args & 0xFF; sensor->config.power = (rt_uint32_t)args & 0xFF;
LOG_D("set power mode code:", sensor->config.power); LOG_D("set power mode code:", sensor->config.power);
} }
break; break;
case RT_SEN_CTRL_SELF_TEST: case RT_SENSOR_CTRL_SELF_TEST:
/* Device self-test */ /* Device self-test */
result = sensor->ops->control(sensor, RT_SEN_CTRL_SELF_TEST, args); result = sensor->ops->control(sensor, RT_SENSOR_CTRL_SELF_TEST, args);
break; break;
default: default:
return -RT_ERROR; return -RT_ERROR;
......
components/drivers/sensors/sensor.h
浏览文件 @ 37d04007
...@@ -19,86 +19,86 @@ extern "C" { ...@@ -19,86 +19,86 @@ extern "C" {
#endif #endif
#ifdef RT_USING_RTC #ifdef RT_USING_RTC
#define rt_sen_get_timestamp() time() /* API for the sensor to get the timestamp */ #define rt_sensor_get_ts() time() /* API for the sensor to get the timestamp */
#else #else
#define rt_sen_get_timestamp() rt_tick_get() /* API for the sensor to get the timestamp */ #define rt_sensor_get_ts() rt_tick_get() /* API for the sensor to get the timestamp */
#endif #endif
#define RT_PIN_NONE 0xFFFF /* RT PIN NONE */ #define RT_PIN_NONE 0xFFFF /* RT PIN NONE */
#define RT_SEN_FLAG_FIFO 0x200 /* Flag to use when the sensor is open by fifo mode */ #define RT_SENSOR_FLAG_FIFO 0x200 /* Flag to use when the sensor is open by fifo mode */
#define RT_SEN_MODULE_MAX (3) /* The maximum number of members of a sensor module */ #define RT_SENSOR_MODULE_MAX (3) /* The maximum number of members of a sensor module */
/* Sensor types */ /* Sensor types */
#define RT_SEN_CLASS_NONE (0) #define RT_SENSOR_CLASS_NONE (0)
#define RT_SEN_CLASS_ACCE (1) /* Accelerometer */ #define RT_SENSOR_CLASS_ACCE (1) /* Accelerometer */
#define RT_SEN_CLASS_GYRO (2) /* Gyroscope */ #define RT_SENSOR_CLASS_GYRO (2) /* Gyroscope */
#define RT_SEN_CLASS_MAG (3) /* Magnetometer */ #define RT_SENSOR_CLASS_MAG (3) /* Magnetometer */
#define RT_SEN_CLASS_TEMP (4) /* Temperature */ #define RT_SENSOR_CLASS_TEMP (4) /* Temperature */
#define RT_SEN_CLASS_HUMI (5) /* Relative Humidity */ #define RT_SENSOR_CLASS_HUMI (5) /* Relative Humidity */
#define RT_SEN_CLASS_BARO (6) /* Barometer */ #define RT_SENSOR_CLASS_BARO (6) /* Barometer */
#define RT_SEN_CLASS_LIGHT (7) /* Ambient light */ #define RT_SENSOR_CLASS_LIGHT (7) /* Ambient light */
#define RT_SEN_CLASS_PROXIMITY (8) /* Proximity */ #define RT_SENSOR_CLASS_PROXIMITY (8) /* Proximity */
#define RT_SEN_CLASS_HR (9) /* Heart Rate */ #define RT_SENSOR_CLASS_HR (9) /* Heart Rate */
#define RT_SEN_CLASS_TVOC (10) /* TVOC Level */ #define RT_SENSOR_CLASS_TVOC (10) /* TVOC Level */
#define RT_SEN_CLASS_NOISE (11) /* Noise Loudness */ #define RT_SENSOR_CLASS_NOISE (11) /* Noise Loudness */
#define RT_SEN_CLASS_STEP (12) /* Step sensor */ #define RT_SENSOR_CLASS_STEP (12) /* Step sensor */
/* Sensor vendor types */ /* Sensor vendor types */
#define RT_SEN_VENDOR_UNKNOWN (0) #define RT_SENSOR_VENDOR_UNKNOWN (0)
#define RT_SEN_VENDOR_STM (1) /* STMicroelectronics */ #define RT_SENSOR_VENDOR_STM (1) /* STMicroelectronics */
#define RT_SEN_VENDOR_BOSCH (2) /* Bosch */ #define RT_SENSOR_VENDOR_BOSCH (2) /* Bosch */
#define RT_SEN_VENDOR_INVENSENSE (3) /* Invensense */ #define RT_SENSOR_VENDOR_INVENSENSE (3) /* Invensense */
#define RT_SEN_VENDOR_SEMTECH (4) /* Semtech */ #define RT_SENSOR_VENDOR_SEMTECH (4) /* Semtech */
#define RT_SEN_VENDOR_GOERTEK (5) /* Goertek */ #define RT_SENSOR_VENDOR_GOERTEK (5) /* Goertek */
/* Sensor unit types */ /* Sensor unit types */
#define RT_SEN_UNIT_NONE (0) #define RT_SENSOR_UNIT_NONE (0)
#define RT_SEN_UNIT_MG (1) /* Accelerometer unit: mG */ #define RT_SENSOR_UNIT_MG (1) /* Accelerometer unit: mG */
#define RT_SEN_UNIT_MDPS (2) /* Gyroscope unit: mdps */ #define RT_SENSOR_UNIT_MDPS (2) /* Gyroscope unit: mdps */
#define RT_SEN_UNIT_MGAUSS (3) /* Magnetometer unit: mGauss */ #define RT_SENSOR_UNIT_MGAUSS (3) /* Magnetometer unit: mGauss */
#define RT_SEN_UNIT_LUX (4) /* Ambient light unit: lux */ #define RT_SENSOR_UNIT_LUX (4) /* Ambient light unit: lux */
#define RT_SEN_UNIT_CM (5) /* Distance unit: cm */ #define RT_SENSOR_UNIT_CM (5) /* Distance unit: cm */
#define RT_SEN_UNIT_PA (6) /* Barometer unit: pa */ #define RT_SENSOR_UNIT_PA (6) /* Barometer unit: pa */
#define RT_SEN_UNIT_PERMILLAGE (7) /* Relative Humidity unit: permillage */ #define RT_SENSOR_UNIT_PERMILLAGE (7) /* Relative Humidity unit: permillage */
#define RT_SEN_UNIT_DCELSIUS (8) /* Temperature unit: dCelsius */ #define RT_SENSOR_UNIT_DCELSIUS (8) /* Temperature unit: dCelsius */
#define RT_SEN_UNIT_HZ (9) /* Frequency unit: HZ */ #define RT_SENSOR_UNIT_HZ (9) /* Frequency unit: HZ */
#define RT_SEN_UNIT_ONE (10) /* Dimensionless quantity unit: 1 */ #define RT_SENSOR_UNIT_ONE (10) /* Dimensionless quantity unit: 1 */
/* Sensor communication interface types */ /* Sensor communication interface types */
#define RT_SEN_INTF_I2C (1 << 0) #define RT_SENSOR_INTF_I2C (1 << 0)
#define RT_SEN_INTF_SPI (1 << 1) #define RT_SENSOR_INTF_SPI (1 << 1)
#define RT_SEN_INTF_UART (1 << 2) #define RT_SENSOR_INTF_UART (1 << 2)
#define RT_SEN_INTF_ONEWIRE (1 << 3) #define RT_SENSOR_INTF_ONEWIRE (1 << 3)
/* Sensor power mode types */ /* Sensor power mode types */
#define RT_SEN_POWER_NONE (0) #define RT_SENSOR_POWER_NONE (0)
#define RT_SEN_POWER_DOWN (1) /* power down mode */ #define RT_SENSOR_POWER_DOWN (1) /* power down mode */
#define RT_SEN_POWER_NORMAL (2) /* normal-power mode */ #define RT_SENSOR_POWER_NORMAL (2) /* normal-power mode */
#define RT_SEN_POWER_LOW (3) /* low-power mode */ #define RT_SENSOR_POWER_LOW (3) /* low-power mode */
#define RT_SEN_POWER_HIGH (4) /* high-power mode */ #define RT_SENSOR_POWER_HIGH (4) /* high-power mode */
/* Sensor work mode types */ /* Sensor work mode types */
#define RT_SEN_MODE_NONE (0) #define RT_SENSOR_MODE_NONE (0)
#define RT_SEN_MODE_POLLING (1) /* One shot only read a data */ #define RT_SENSOR_MODE_POLLING (1) /* One shot only read a data */
#define RT_SEN_MODE_INT (2) /* TODO: One shot interrupt only read a data */ #define RT_SENSOR_MODE_INT (2) /* TODO: One shot interrupt only read a data */
#define RT_SEN_MODE_FIFO (3) /* TODO: One shot interrupt read all fifo data */ #define RT_SENSOR_MODE_FIFO (3) /* TODO: One shot interrupt read all fifo data */
/* Sensor control cmd types */ /* Sensor control cmd types */
#define RT_SEN_CTRL_GET_ID (0) /* Get device id */ #define RT_SENSOR_CTRL_GET_ID (0) /* Get device id */
#define RT_SEN_CTRL_GET_INFO (1) /* Get sensor info */ #define RT_SENSOR_CTRL_GET_INFO (1) /* Get sensor info */
#define RT_SEN_CTRL_SET_RANGE (2) /* Set the measure range of sensor. unit is info of sensor */ #define RT_SENSOR_CTRL_SET_RANGE (2) /* Set the measure range of sensor. unit is info of sensor */
#define RT_SEN_CTRL_SET_ODR (3) /* Set output date rate. unit is HZ */ #define RT_SENSOR_CTRL_SET_ODR (3) /* Set output date rate. unit is HZ */
#define RT_SEN_CTRL_SET_MODE (4) /* Set sensor's work mode. ex. RT_SEN_MODE_POLLING,RT_SEN_MODE_INT */ #define RT_SENSOR_CTRL_SET_MODE (4) /* Set sensor's work mode. ex. RT_SENSOR_MODE_POLLING,RT_SENSOR_MODE_INT */
#define RT_SEN_CTRL_SET_POWER (5) /* Set power mode. args type of sensor power mode. ex. RT_SEN_POWER_DOWN,RT_SEN_POWER_NORMAL */ #define RT_SENSOR_CTRL_SET_POWER (5) /* Set power mode. args type of sensor power mode. ex. RT_SENSOR_POWER_DOWN,RT_SENSOR_POWER_NORMAL */
#define RT_SEN_CTRL_SELF_TEST (6) /* Take a self test */ #define RT_SENSOR_CTRL_SELF_TEST (6) /* Take a self test */
struct rt_sensor_info struct rt_sensor_info
{ {
...@@ -148,10 +148,10 @@ typedef struct rt_sensor_device *rt_sensor_t; ...@@ -148,10 +148,10 @@ typedef struct rt_sensor_device *rt_sensor_t;
struct rt_sensor_module struct rt_sensor_module
{ {
rt_mutex_t lock; /* The module lock */ rt_mutex_t lock; /* The module lock */
rt_sensor_t sen[RT_SEN_MODULE_MAX]; /* The module contains a list of sensors */ rt_sensor_t sen[RT_SENSOR_MODULE_MAX]; /* The module contains a list of sensors */
rt_uint8_t sen_num; /* Number of sensors contained in the module */ rt_uint8_t sen_num; /* Number of sensors contained in the module */
}; };
/* 3-axis Data Type */ /* 3-axis Data Type */
......
components/drivers/sensors/sensor_test.c
浏览文件 @ 37d04007
...@@ -25,25 +25,25 @@ static void sensor_show_data(rt_size_t num, rt_sensor_t sensor, struct rt_sensor ...@@ -25,25 +25,25 @@ static void sensor_show_data(rt_size_t num, rt_sensor_t sensor, struct rt_sensor
{ {
switch (sensor->info.type) switch (sensor->info.type)
{ {
case RT_SEN_CLASS_ACCE: case RT_SENSOR_CLASS_ACCE:
LOG_I("num:%3d, x:%5d, y:%5d, z:%5d, timestamp:%5d", num, sensor_data->data.acce.x, sensor_data->data.acce.y, sensor_data->data.acce.z, sensor_data->timestamp); LOG_I("num:%3d, x:%5d, y:%5d, z:%5d, timestamp:%5d", num, sensor_data->data.acce.x, sensor_data->data.acce.y, sensor_data->data.acce.z, sensor_data->timestamp);
break; break;
case RT_SEN_CLASS_GYRO: case RT_SENSOR_CLASS_GYRO:
LOG_I("num:%3d, x:%8d, y:%8d, z:%8d, timestamp:%5d", num, sensor_data->data.gyro.x, sensor_data->data.gyro.y, sensor_data->data.gyro.z, sensor_data->timestamp); LOG_I("num:%3d, x:%8d, y:%8d, z:%8d, timestamp:%5d", num, sensor_data->data.gyro.x, sensor_data->data.gyro.y, sensor_data->data.gyro.z, sensor_data->timestamp);
break; break;
case RT_SEN_CLASS_MAG: case RT_SENSOR_CLASS_MAG:
LOG_I("num:%3d, x:%5d, y:%5d, z:%5d, timestamp:%5d", num, sensor_data->data.mag.x, sensor_data->data.mag.y, sensor_data->data.mag.z, sensor_data->timestamp); LOG_I("num:%3d, x:%5d, y:%5d, z:%5d, timestamp:%5d", num, sensor_data->data.mag.x, sensor_data->data.mag.y, sensor_data->data.mag.z, sensor_data->timestamp);
break; break;
case RT_SEN_CLASS_HUMI: case RT_SENSOR_CLASS_HUMI:
LOG_I("num:%3d, humi:%3d.%d%%, timestamp:%5d", num, sensor_data->data.humi / 10, sensor_data->data.humi % 10, sensor_data->timestamp); LOG_I("num:%3d, humi:%3d.%d%%, timestamp:%5d", num, sensor_data->data.humi / 10, sensor_data->data.humi % 10, sensor_data->timestamp);
break; break;
case RT_SEN_CLASS_TEMP: case RT_SENSOR_CLASS_TEMP:
LOG_I("num:%3d, temp:%3d.%dC, timestamp:%5d", num, sensor_data->data.temp / 10, sensor_data->data.temp % 10, sensor_data->timestamp); LOG_I("num:%3d, temp:%3d.%dC, timestamp:%5d", num, sensor_data->data.temp / 10, sensor_data->data.temp % 10, sensor_data->timestamp);
break; break;
case RT_SEN_CLASS_BARO: case RT_SENSOR_CLASS_BARO:
LOG_I("num:%3d, press:%5d, timestamp:%5d", num, sensor_data->data.baro, sensor_data->timestamp); LOG_I("num:%3d, press:%5d, timestamp:%5d", num, sensor_data->data.baro, sensor_data->timestamp);
break; break;
case RT_SEN_CLASS_STEP: case RT_SENSOR_CLASS_STEP:
LOG_I("num:%3d, step:%5d, timestamp:%5d", num, sensor_data->data.step, sensor_data->timestamp); LOG_I("num:%3d, step:%5d, timestamp:%5d", num, sensor_data->data.step, sensor_data->timestamp);
break; break;
default: default:
...@@ -65,7 +65,7 @@ static void sensor_fifo_rx_entry(void *parameter) ...@@ -65,7 +65,7 @@ static void sensor_fifo_rx_entry(void *parameter)
struct rt_sensor_info info; struct rt_sensor_info info;
rt_size_t res, i; rt_size_t res, i;
rt_device_control(dev, RT_SEN_CTRL_GET_INFO, &info); rt_device_control(dev, RT_SENSOR_CTRL_GET_INFO, &info);
data = rt_malloc(sizeof(struct rt_sensor_data) * info.fifo_max); data = rt_malloc(sizeof(struct rt_sensor_data) * info.fifo_max);
if (data == RT_NULL) if (data == RT_NULL)
...@@ -119,12 +119,12 @@ static void sensor_fifo(int argc, char **argv) ...@@ -119,12 +119,12 @@ static void sensor_fifo(int argc, char **argv)
rt_device_set_rx_indicate(dev, rx_callback); rt_device_set_rx_indicate(dev, rx_callback);
if (rt_device_open(dev, RT_SEN_FLAG_FIFO) != RT_EOK) if (rt_device_open(dev, RT_SENSOR_FLAG_FIFO) != RT_EOK)
{ {
LOG_E("open device failed!"); LOG_E("open device failed!");
return; return;
} }
rt_device_control(dev, RT_SEN_CTRL_SET_ODR, (void *)20); rt_device_control(dev, RT_SENSOR_CTRL_SET_ODR, (void *)20);
} }
#ifdef FINSH_USING_MSH #ifdef FINSH_USING_MSH
MSH_CMD_EXPORT(sensor_fifo, Sensor fifo mode test function); MSH_CMD_EXPORT(sensor_fifo, Sensor fifo mode test function);
...@@ -188,7 +188,7 @@ static void sensor_int(int argc, char **argv) ...@@ -188,7 +188,7 @@ static void sensor_int(int argc, char **argv)
LOG_E("open device failed!"); LOG_E("open device failed!");
return; return;
} }
rt_device_control(dev, RT_SEN_CTRL_SET_ODR, (void *)20); rt_device_control(dev, RT_SENSOR_CTRL_SET_ODR, (void *)20);
} }
#ifdef FINSH_USING_MSH #ifdef FINSH_USING_MSH
MSH_CMD_EXPORT(sensor_int, Sensor interrupt mode test function); MSH_CMD_EXPORT(sensor_int, Sensor interrupt mode test function);
...@@ -218,7 +218,7 @@ static void sensor_polling(int argc, char **argv) ...@@ -218,7 +218,7 @@ static void sensor_polling(int argc, char **argv)
LOG_E("open device failed!"); LOG_E("open device failed!");
return; return;
} }
rt_device_control(dev, RT_SEN_CTRL_SET_ODR, (void *)100); rt_device_control(dev, RT_SENSOR_CTRL_SET_ODR, (void *)100);
for (i = 0; i < num; i++) for (i = 0; i < num; i++)
{ {
...@@ -263,7 +263,7 @@ static void sensor(int argc, char **argv) ...@@ -263,7 +263,7 @@ static void sensor(int argc, char **argv)
else if (!strcmp(argv[1], "info")) else if (!strcmp(argv[1], "info"))
{ {
struct rt_sensor_info info; struct rt_sensor_info info;
rt_device_control(dev, RT_SEN_CTRL_GET_INFO, &info); rt_device_control(dev, RT_SENSOR_CTRL_GET_INFO, &info);
rt_kprintf("vendor :%d\n", info.vendor); rt_kprintf("vendor :%d\n", info.vendor);
rt_kprintf("model :%s\n", info.model); rt_kprintf("model :%s\n", info.model);
rt_kprintf("unit :%d\n", info.unit); rt_kprintf("unit :%d\n", info.unit);
...@@ -321,7 +321,7 @@ static void sensor(int argc, char **argv) ...@@ -321,7 +321,7 @@ static void sensor(int argc, char **argv)
LOG_E("open device failed!"); LOG_E("open device failed!");
return; return;
} }
rt_device_control(dev, RT_SEN_CTRL_GET_ID, &reg); rt_device_control(dev, RT_SENSOR_CTRL_GET_ID, &reg);
LOG_I("device id: 0x%x!", reg); LOG_I("device id: 0x%x!", reg);
} }
...@@ -332,19 +332,19 @@ static void sensor(int argc, char **argv) ...@@ -332,19 +332,19 @@ static void sensor(int argc, char **argv)
} }
else if (!strcmp(argv[1], "sr")) else if (!strcmp(argv[1], "sr"))
{ {
rt_device_control(dev, RT_SEN_CTRL_SET_RANGE, (void *)atoi(argv[2])); rt_device_control(dev, RT_SENSOR_CTRL_SET_RANGE, (void *)atoi(argv[2]));
} }
else if (!strcmp(argv[1], "sm")) else if (!strcmp(argv[1], "sm"))
{ {
rt_device_control(dev, RT_SEN_CTRL_SET_MODE, (void *)atoi(argv[2])); rt_device_control(dev, RT_SENSOR_CTRL_SET_MODE, (void *)atoi(argv[2]));
} }
else if (!strcmp(argv[1], "sp")) else if (!strcmp(argv[1], "sp"))
{ {
rt_device_control(dev, RT_SEN_CTRL_SET_POWER, (void *)atoi(argv[2])); rt_device_control(dev, RT_SENSOR_CTRL_SET_POWER, (void *)atoi(argv[2]));
} }
else if (!strcmp(argv[1], "sodr")) else if (!strcmp(argv[1], "sodr"))
{ {
rt_device_control(dev, RT_SEN_CTRL_SET_ODR, (void *)atoi(argv[2])); rt_device_control(dev, RT_SENSOR_CTRL_SET_ODR, (void *)atoi(argv[2]));
} }
else else
{ {
......
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