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禁用传感器后不导致重采

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rtmpsuck
XI.CHEN 6 months ago
parent 816881fd89
commit a24345e01f
2 changed files with 399 additions and 247 deletions
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644
app/src/main/cpp/PhoneDevice.cpp
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@ -3792,69 +3792,99 @@ int CPhoneDevice::GetIceData(IDevice::ICE_INFO *iceInfo, IDevice::ICE_TAIL *iceT
int angleno = 0;
for(int num = 0; num < MAX_SERIAL_DEV_NUM; num++)
{
if(sensorParam[num].SensorsType == RALLY_PROTOCOL && sensorParam[num].IsNoInsta == 1)
if(sensorParam[num].SensorsType == RALLY_PROTOCOL)
{
GetPullValue(num, &airt);
if(airt.AiState == 255 || airt.AiState == -1)
if(sensorParam[num].IsNoInsta == 0)
{
iceInfo->t_sensor_data[pullno].original_tension = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,拉力未接传感器",
sensorParam[num].devaddr, airt.AiState);
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,拉力传感器未启用",
sensorParam[num].devaddr);
}else
{
iceInfo->t_sensor_data[pullno].original_tension = airt.EuValue;
XYLOG(XYLOG_SEVERITY_INFO,"地址%d,采样状态 = %d,拉力 = %f", sensorParam[num].devaddr, airt.AiState, iceInfo->t_sensor_data[pullno].original_tension);
if(airt.AiState != 2 && iceInfo->t_sensor_data[pullno].original_tension == 0)
GetPullValue(num, &airt);
if(airt.AiState == 255 || airt.AiState == -1)
{
XYLOG(XYLOG_SEVERITY_INFO,"地址%d,采样状态 = %d,拉力未采集到数据,重新采样", sensorParam[num].devaddr, airt.AiState);
status = 0;
iceInfo->t_sensor_data[pullno].original_tension = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,拉力未接传感器",
sensorParam[num].devaddr, airt.AiState);
}else
{
if(iceInfo->tension == 0xff)
iceInfo->tension =0;
iceInfo->tension = iceInfo->tension + iceInfo->t_sensor_data[pullno].original_tension;
iceInfo->t_sensor_data[pullno].original_tension = airt.EuValue;
XYLOG(XYLOG_SEVERITY_INFO,"地址%d,采样状态 = %d,拉力 = %f", sensorParam[num].devaddr, airt.AiState, iceInfo->t_sensor_data[pullno].original_tension);
if(airt.AiState != 2 && iceInfo->t_sensor_data[pullno].original_tension == 0)
{
XYLOG(XYLOG_SEVERITY_INFO,"地址%d,采样状态 = %d,拉力未采集到数据,重新采样", sensorParam[num].devaddr, airt.AiState);
status = 0;
}else
{
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceInfo->t_sensor_data[pullno].original_tension = iceInfo->t_sensor_data[pullno].original_tension * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceInfo->t_sensor_data[pullno].original_tension = iceInfo->t_sensor_data[pullno].original_tension + sensorParam[num].offset;
if(iceInfo->tension == 0xff)
iceInfo->tension =0;
iceInfo->tension = iceInfo->tension + iceInfo->t_sensor_data[pullno].original_tension;
}
}
}
pullno++;
} else if(sensorParam[num].SensorsType == SLANT_PROTOCOL && sensorParam[num].IsNoInsta == 1)
} else if(sensorParam[num].SensorsType == SLANT_PROTOCOL)
{
GetAngleValue(num, &airt, 0);
if(airt.AiState == 255 || airt.AiState == -1)
if(sensorParam[num].IsNoInsta == 0)
{
iceInfo->t_sensor_data[angleno].deflection_angle = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,倾角x未接传感器",
sensorParam[num].devaddr, airt.AiState);
iceInfo->t_sensor_data[angleno].windage_yaw_angle = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,倾角传感器未启用",
sensorParam[num].devaddr);
}else
{
iceInfo->t_sensor_data[angleno].deflection_angle = airt.EuValue;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,x = %f", sensorParam[num].devaddr,
airt.AiState, iceInfo->t_sensor_data[angleno].deflection_angle);
if (airt.AiState != 2 && iceInfo->t_sensor_data[angleno].deflection_angle == 0)
{
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,倾角x未采集到数据,重新采样",
GetAngleValue(num, &airt, 0);
if (airt.AiState == 255 || airt.AiState == -1) {
iceInfo->t_sensor_data[angleno].deflection_angle = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,倾角x未接传感器",
sensorParam[num].devaddr, airt.AiState);
status = 0;
} else {
iceInfo->t_sensor_data[angleno].deflection_angle = airt.EuValue;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,x = %f",
sensorParam[num].devaddr,
airt.AiState, iceInfo->t_sensor_data[angleno].deflection_angle);
if (airt.AiState != 2 && iceInfo->t_sensor_data[angleno].deflection_angle == 0)
{
XYLOG(XYLOG_SEVERITY_INFO,
"地址%d,采样状态 = %d,倾角x未采集到数据,重新采样",
sensorParam[num].devaddr, airt.AiState);
status = 0;
} else{
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceInfo->t_sensor_data[angleno].deflection_angle = iceInfo->t_sensor_data[angleno].deflection_angle * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceInfo->t_sensor_data[angleno].deflection_angle = iceInfo->t_sensor_data[angleno].deflection_angle + sensorParam[num].offset;
}
}
}
GetAngleValue(num, &airt, 1);
if(airt.AiState == 255 || airt.AiState == -1)
{
iceInfo->t_sensor_data[angleno].windage_yaw_angle =0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,倾角y未接传感器",
sensorParam[num].devaddr, airt.AiState);
}else
{
iceInfo->t_sensor_data[angleno].windage_yaw_angle = airt.EuValue;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,y = %f", sensorParam[num].devaddr,
airt.AiState, iceInfo->t_sensor_data[angleno].windage_yaw_angle);
if (airt.AiState != 2 && iceInfo->t_sensor_data[angleno].windage_yaw_angle == 0)
{
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,倾角y未采集到数据,重新采样",
GetAngleValue(num, &airt, 1);
if (airt.AiState == 255 || airt.AiState == -1) {
iceInfo->t_sensor_data[angleno].windage_yaw_angle = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,倾角y未接传感器",
sensorParam[num].devaddr, airt.AiState);
status = 0;
} else {
iceInfo->t_sensor_data[angleno].windage_yaw_angle = airt.EuValue;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,采样状态 = %d,y = %f",
sensorParam[num].devaddr,
airt.AiState, iceInfo->t_sensor_data[angleno].windage_yaw_angle);
if (airt.AiState != 2 &&
iceInfo->t_sensor_data[angleno].windage_yaw_angle == 0) {
XYLOG(XYLOG_SEVERITY_INFO,
"地址%d,采样状态 = %d,倾角y未采集到数据,重新采样",
sensorParam[num].devaddr, airt.AiState);
status = 0;
}else{
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceInfo->t_sensor_data[angleno].windage_yaw_angle = iceInfo->t_sensor_data[angleno].windage_yaw_angle * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceInfo->t_sensor_data[angleno].windage_yaw_angle = iceInfo->t_sensor_data[angleno].windage_yaw_angle + sensorParam[num].offset;
}
}
}
angleno++;
}
}
@ -3867,98 +3897,138 @@ int CPhoneDevice::GetIceData(IDevice::ICE_INFO *iceInfo, IDevice::ICE_TAIL *iceT
{
std::lock_guard<std::mutex> lock(m_dataLocker);
GetWindSpeedData(&airt);
if(airt.AiState == 255 || airt.AiState == -1)
{
iceTail->instantaneous_windspeed = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风速未接传感器",
airt.AiState);
}else
{
iceTail->instantaneous_windspeed = airt.EuValue;
if (airt.AiState != 2 && iceTail->instantaneous_windspeed == 0 && m_tempData.instantaneous_windspeed == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风速未采集到数据,重新采样", airt.AiState);
status = 0;
} else if (airt.AiState == 2 && m_tempData.instantaneous_windspeed == 0xff)
{
m_tempData.instantaneous_windspeed = iceTail->instantaneous_windspeed;
} else if (iceTail->instantaneous_windspeed == 0 && m_tempData.instantaneous_windspeed != 0xff)
{
iceTail->instantaneous_windspeed = m_tempData.instantaneous_windspeed;
}
}
for (int num = 0; num < MAX_SERIAL_DEV_NUM; num++) {
if (sensorParam[num].SensorsType == WIND_PROTOCOL && sensorParam[num].IsNoInsta == 0) {
iceTail->instantaneous_windspeed = 0xff;
iceTail->instantaneous_winddirection = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,风速风向传感器未启用",
sensorParam[num].devaddr);
break;
} else if (sensorParam[num].SensorsType == WIND_PROTOCOL &&
sensorParam[num].IsNoInsta == 1) {
GetWindSpeedData(&airt);
if (airt.AiState == 255 || airt.AiState == -1) {
iceTail->instantaneous_windspeed = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风速未接传感器",
airt.AiState);
} else {
iceTail->instantaneous_windspeed = airt.EuValue;
if (airt.AiState != 2 && iceTail->instantaneous_windspeed == 0 &&
m_tempData.instantaneous_windspeed == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风速未采集到数据,重新采样",
airt.AiState);
status = 0;
} else
{
if (airt.AiState == 2 && m_tempData.instantaneous_windspeed == 0xff)
{
m_tempData.instantaneous_windspeed = iceTail->instantaneous_windspeed;
} else if (iceTail->instantaneous_windspeed == 0 && m_tempData.instantaneous_windspeed != 0xff)
{
iceTail->instantaneous_windspeed = m_tempData.instantaneous_windspeed;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceTail->instantaneous_windspeed = iceTail->instantaneous_windspeed * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceTail->instantaneous_windspeed = iceTail->instantaneous_windspeed + sensorParam[num].offset;
}
}
GetWindDirectionData(&airt);
if(airt.AiState == 255 || airt.AiState == -1)
{
iceTail->instantaneous_winddirection = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风向未接传感器",
airt.AiState);
}else
{
iceTail->instantaneous_winddirection = airt.EuValue;
if (airt.AiState != 2 && iceTail->instantaneous_winddirection == 0 &&
m_tempData.instantaneous_winddirection == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风向未采集到数据,重新采样", airt.AiState);
status = 0;
} else if (airt.AiState == 2 && m_tempData.instantaneous_winddirection == 0xff)
{
m_tempData.instantaneous_winddirection = iceTail->instantaneous_winddirection;
} else if (iceTail->instantaneous_winddirection == 0 && m_tempData.instantaneous_winddirection != 0xff)
{
iceTail->instantaneous_winddirection = m_tempData.instantaneous_winddirection;
GetWindDirectionData(&airt);
if (airt.AiState == 255 || airt.AiState == -1) {
iceTail->instantaneous_winddirection = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风向未接传感器",
airt.AiState);
} else {
iceTail->instantaneous_winddirection = airt.EuValue;
if (airt.AiState != 2 && iceTail->instantaneous_winddirection == 0 &&
m_tempData.instantaneous_winddirection == 0xff) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰风向未采集到数据,重新采样",
airt.AiState);
status = 0;
} else {
if (airt.AiState == 2 && m_tempData.instantaneous_winddirection == 0xff)
{
m_tempData.instantaneous_winddirection = iceTail->instantaneous_winddirection;
} else if (iceTail->instantaneous_winddirection == 0 && m_tempData.instantaneous_winddirection != 0xff)
{
iceTail->instantaneous_winddirection = m_tempData.instantaneous_winddirection;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceTail->instantaneous_winddirection = iceTail->instantaneous_winddirection * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceTail->instantaneous_winddirection = iceTail->instantaneous_winddirection + sensorParam[num].offset;
}
}
break;
}
}
GetAirTempData(&airt);
if(airt.AiState == 255 || airt.AiState == -1)
{
iceTail->air_temperature = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰温度未接传感器",
airt.AiState);
}else
{
iceTail->air_temperature = airt.EuValue;
if (airt.AiState != 2 && iceTail->air_temperature == 0 &&
m_tempData.air_temperature == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰温度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else if (airt.AiState == 2 && m_tempData.air_temperature == 0xff)
{
m_tempData.air_temperature = iceTail->air_temperature;
} else if (iceTail->air_temperature == 0 && m_tempData.air_temperature != 0xff)
for (int num = 0; num < MAX_SERIAL_DEV_NUM; num++) {
if (sensorParam[num].SensorsType == WEATHER_PROTOCOL && sensorParam[num].IsNoInsta == 0)
{
iceTail->air_temperature = m_tempData.air_temperature;
}
}
iceTail->air_temperature = 0xff;
iceTail->humidity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,温湿度传感器未启用",
sensorParam[num].devaddr);
break;
} else if (sensorParam[num].SensorsType == WEATHER_PROTOCOL && sensorParam[num].IsNoInsta == 1) {
GetAirTempData(&airt);
if (airt.AiState == 255 || airt.AiState == -1) {
iceTail->air_temperature = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰温度未接传感器",
airt.AiState);
} else {
iceTail->air_temperature = airt.EuValue;
if (airt.AiState != 2 && iceTail->air_temperature == 0 &&
m_tempData.air_temperature == 0xff) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰温度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else {
if (airt.AiState == 2 && m_tempData.air_temperature == 0xff)
{
m_tempData.air_temperature = iceTail->air_temperature;
} else if (iceTail->air_temperature == 0 &&
m_tempData.air_temperature != 0xff)
{
iceTail->air_temperature = m_tempData.air_temperature;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceTail->air_temperature = iceTail->air_temperature * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceTail->air_temperature = iceTail->air_temperature + sensorParam[num].offset;
}
}
GetHumidityData(&airt);
if(airt.AiState == 255 || airt.AiState == -1)
{
iceTail->humidity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰湿度未接传感器",
airt.AiState);
}else
{
iceTail->humidity = airt.EuValue;
if (airt.AiState != 2 && iceTail->humidity == 0 && m_tempData.humidity == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰湿度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else if (airt.AiState == 2 && m_tempData.humidity == 0xff)
{
m_tempData.humidity = iceTail->humidity;
} else if (iceTail->humidity == 0 && m_tempData.humidity != 0xff)
{
iceTail->humidity = m_tempData.humidity;
GetHumidityData(&airt);
if (airt.AiState == 255 || airt.AiState == -1) {
iceTail->humidity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰湿度未接传感器",
airt.AiState);
} else {
iceTail->humidity = airt.EuValue;
if (airt.AiState != 2 && iceTail->humidity == 0 &&
m_tempData.humidity == 0xff) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,覆冰湿度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else {
if (airt.AiState == 2 && m_tempData.humidity == 0xff) {
m_tempData.humidity = iceTail->humidity;
} else if (iceTail->humidity == 0 && m_tempData.humidity != 0xff) {
iceTail->humidity = m_tempData.humidity;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
iceTail->humidity = iceTail->humidity * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
iceTail->humidity = iceTail->humidity + sensorParam[num].offset;
}
}
break;
}
}
}
if(status)
@ -3967,7 +4037,7 @@ int CPhoneDevice::GetIceData(IDevice::ICE_INFO *iceInfo, IDevice::ICE_TAIL *iceT
return false;
}
int CPhoneDevice::GetWData(IDevice::WEATHER_INFO *weatherInfo)
int CPhoneDevice::GetWData(IDevice::WEATHER_INFO *weatherInfo, D_SENSOR_PARAM *sensorParam)
{
m_tempData.instantaneous_windspeed = 0xff;
m_tempData.air_temperature = 0xff;
@ -3992,137 +4062,219 @@ int CPhoneDevice::GetWData(IDevice::WEATHER_INFO *weatherInfo)
Data_DEF airt;
{
std::lock_guard<std::mutex> lock(m_dataLocker);
GetWeatherData(&airt, 2);
if(airt.AiState == 255 || airt.AiState == -1)
for (int num = 0; num < MAX_SERIAL_DEV_NUM; num++)
{
weatherInfo->avg_windspeed_10min = 0xff;
weatherInfo->extreme_windspeed = 0xff;
weatherInfo->standard_windspeed = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风速未接传感器", airt.AiState);
}else
{
weatherInfo->avg_windspeed_10min = airt.EuValue;
weatherInfo->extreme_windspeed = airt.EuValue;
weatherInfo->standard_windspeed = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->avg_windspeed_10min == 0 &&
m_tempData.instantaneous_windspeed == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风速未采集到数据,重新采样",
airt.AiState);
status = 0;
} else if (airt.AiState == 2 && m_tempData.instantaneous_windspeed == 0xff)
if (sensorParam[num].SensorsType == WIND_PROTOCOL && sensorParam[num].IsNoInsta == 0)
{
m_tempData.instantaneous_windspeed = weatherInfo->avg_windspeed_10min;
} else if (weatherInfo->avg_windspeed_10min == 0 &&
m_tempData.instantaneous_windspeed != 0xff)
weatherInfo->avg_windspeed_10min = 0xff;
weatherInfo->extreme_windspeed = 0xff;
weatherInfo->standard_windspeed = 0xff;
weatherInfo->avg_winddirection_10min = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,风速风向传感器未启用",
sensorParam[num].devaddr);
break;
} else if (sensorParam[num].SensorsType == WIND_PROTOCOL && sensorParam[num].IsNoInsta == 1)
{
weatherInfo->avg_windspeed_10min = m_tempData.instantaneous_windspeed;
weatherInfo->extreme_windspeed = m_tempData.instantaneous_windspeed;
weatherInfo->standard_windspeed = m_tempData.instantaneous_windspeed;
}
}
GetWeatherData(&airt, 2);
if (airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->avg_windspeed_10min = 0xff;
weatherInfo->extreme_windspeed = 0xff;
weatherInfo->standard_windspeed = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风速未接传感器", airt.AiState);
} else
{
weatherInfo->avg_windspeed_10min = airt.EuValue;
weatherInfo->extreme_windspeed = airt.EuValue;
weatherInfo->standard_windspeed = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->avg_windspeed_10min == 0 && m_tempData.instantaneous_windspeed == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风速未采集到数据,重新采样",
airt.AiState);
status = 0;
} else {
if (airt.AiState == 2 && m_tempData.instantaneous_windspeed == 0xff)
{
m_tempData.instantaneous_windspeed = weatherInfo->avg_windspeed_10min;
} else if (weatherInfo->avg_windspeed_10min == 0 &&
m_tempData.instantaneous_windspeed != 0xff)
{
weatherInfo->avg_windspeed_10min = m_tempData.instantaneous_windspeed;
weatherInfo->extreme_windspeed = m_tempData.instantaneous_windspeed;
weatherInfo->standard_windspeed = m_tempData.instantaneous_windspeed;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
{
weatherInfo->avg_windspeed_10min = weatherInfo->avg_windspeed_10min * sensorParam[num].multiple;
weatherInfo->extreme_windspeed = weatherInfo->avg_windspeed_10min;
weatherInfo->standard_windspeed = weatherInfo->avg_windspeed_10min;
}
if(sensorParam[num].offset != 0)
{
weatherInfo->avg_windspeed_10min = weatherInfo->avg_windspeed_10min + sensorParam[num].offset;
weatherInfo->extreme_windspeed = weatherInfo->avg_windspeed_10min;
weatherInfo->standard_windspeed = weatherInfo->avg_windspeed_10min;
}
}
}
GetWeatherData(&airt, 3);
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->avg_winddirection_10min = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风向未接传感器", airt.AiState);
}else
{
weatherInfo->avg_winddirection_10min = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->avg_winddirection_10min == 0 &&
m_tempData.instantaneous_winddirection == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风向未采集到数据,重新采样", airt.AiState);
status = 0;
} else if(airt.AiState == 2 && m_tempData.instantaneous_winddirection == 0xff)
{
m_tempData.instantaneous_winddirection = weatherInfo->avg_winddirection_10min;
}else if(weatherInfo->winddirection == 0 && m_tempData.instantaneous_winddirection != 0xff)
{
weatherInfo->winddirection = m_tempData.instantaneous_winddirection;
}
}
GetWeatherData(&airt, 0);
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->air_temperature = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象温度未接传感器", airt.AiState);
}else
{
weatherInfo->air_temperature = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->air_temperature == 0 &&
m_tempData.air_temperature == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象温度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else if (airt.AiState == 2 && m_tempData.air_temperature == 0xff)
{
m_tempData.air_temperature = weatherInfo->air_temperature;
} else if (weatherInfo->air_temperature == 0 && m_tempData.air_temperature != 0xff)
{
weatherInfo->air_temperature = m_tempData.air_temperature;
GetWeatherData(&airt, 3);
if (airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->avg_winddirection_10min = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风向未接传感器", airt.AiState);
} else
{
weatherInfo->avg_winddirection_10min = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->avg_winddirection_10min == 0 && m_tempData.instantaneous_winddirection == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象风向未采集到数据,重新采样", airt.AiState);
status = 0;
} else {
if (airt.AiState == 2 && m_tempData.instantaneous_winddirection == 0xff) {
m_tempData.instantaneous_winddirection = weatherInfo->avg_winddirection_10min;
} else if (weatherInfo->winddirection == 0 && m_tempData.instantaneous_winddirection != 0xff) {
weatherInfo->avg_winddirection_10min = m_tempData.instantaneous_winddirection;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
weatherInfo->avg_winddirection_10min = weatherInfo->avg_winddirection_10min * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
weatherInfo->avg_winddirection_10min = weatherInfo->avg_winddirection_10min + sensorParam[num].offset;
}
}
GetWeatherData(&airt, 4);
weatherInfo->precipitation = airt.EuValue;
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->precipitation = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,降雨量未接传感器", airt.AiState);
}else if (airt.AiState != 2 && weatherInfo->precipitation == 0)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,降雨量未采集到数据,重新采样",
weatherInfo->precipitation, airt.AiState);
status = 0;
} else
{
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
weatherInfo->precipitation = weatherInfo->precipitation * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
weatherInfo->precipitation = weatherInfo->precipitation + sensorParam[num].offset;
}
GetWeatherData(&airt, 5);
weatherInfo->air_pressure = airt.EuValue;
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->air_pressure = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气压未接传感器", airt.AiState);
}else if (airt.AiState != 2 && weatherInfo->air_pressure == 0) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气压未采集到数据,重新采样",
weatherInfo->air_pressure, airt.AiState);
status = 0;
} else
{
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
weatherInfo->air_pressure = weatherInfo->air_pressure * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
weatherInfo->air_pressure = weatherInfo->air_pressure + sensorParam[num].offset;
}
GetWeatherData(&airt, 6);
weatherInfo->radiation_intensity = airt.EuValue;
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->radiation_intensity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,光照强度未接传感器", airt.AiState);
}else if (airt.AiState != 2 && weatherInfo->radiation_intensity == 0) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,光照强度未采集到数据,重新采样",
weatherInfo->radiation_intensity, airt.AiState);
status = 0;
} else
{
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
weatherInfo->radiation_intensity = weatherInfo->radiation_intensity * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
weatherInfo->radiation_intensity = weatherInfo->radiation_intensity + sensorParam[num].offset;
}
break;
}
}
GetWeatherData(&airt, 1);
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->humidity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象湿度未接传感器", airt.AiState);
}else
{
weatherInfo->humidity = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->humidity == 0 && m_tempData.humidity == 0xff)
for (int num = 0; num < MAX_SERIAL_DEV_NUM; num++) {
if (sensorParam[num].SensorsType == WEATHER_PROTOCOL && sensorParam[num].IsNoInsta == 0)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象湿度未采集到数据,重新采样", airt.AiState);
status = 0;
} else if(airt.AiState == 2 && m_tempData.humidity == 0xff)
{
m_tempData.humidity = weatherInfo->humidity;
}else if(weatherInfo->humidity == 0 && m_tempData.humidity != 0xff)
weatherInfo->air_temperature = 0xff;
weatherInfo->humidity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "地址%d,温湿度传感器未启用",
sensorParam[num].devaddr);
break;
} else if (sensorParam[num].SensorsType == WEATHER_PROTOCOL &&
sensorParam[num].IsNoInsta == 1)
{
weatherInfo->humidity = m_tempData.humidity;
}
}
GetWeatherData(&airt, 4);
weatherInfo->precipitation = airt.EuValue;
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->precipitation = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,降雨量未接传感器", airt.AiState);
}else if (airt.AiState != 2 && weatherInfo->precipitation == 0)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,降雨量未采集到数据,重新采样",
weatherInfo->precipitation, airt.AiState);
status = 0;
}
GetWeatherData(&airt, 0);
if (airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->air_temperature = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象温度未接传感器", airt.AiState);
} else
{
weatherInfo->air_temperature = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->air_temperature == 0 &&
m_tempData.air_temperature == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象温度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else
{
if (airt.AiState == 2 && m_tempData.air_temperature == 0xff)
{
m_tempData.air_temperature = weatherInfo->air_temperature;
} else if (weatherInfo->air_temperature == 0 && m_tempData.air_temperature != 0xff)
{
weatherInfo->air_temperature = m_tempData.air_temperature;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
weatherInfo->air_temperature = weatherInfo->air_temperature * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
weatherInfo->air_temperature = weatherInfo->air_temperature + sensorParam[num].offset;
}
}
GetWeatherData(&airt, 5);
weatherInfo->air_pressure = airt.EuValue;
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->air_pressure = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气压未接传感器", airt.AiState);
}else if (airt.AiState != 2 && weatherInfo->air_pressure == 0) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气压未采集到数据,重新采样",
weatherInfo->air_pressure, airt.AiState);
status = 0;
GetWeatherData(&airt, 1);
if (airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->humidity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象湿度未接传感器", airt.AiState);
} else
{
weatherInfo->humidity = airt.EuValue;
if (airt.AiState != 2 && weatherInfo->humidity == 0 &&
m_tempData.humidity == 0xff)
{
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,气象湿度未采集到数据,重新采样",
airt.AiState);
status = 0;
} else
{
if (airt.AiState == 2 && m_tempData.humidity == 0xff)
{
m_tempData.humidity = weatherInfo->humidity;
} else if (weatherInfo->humidity == 0 && m_tempData.humidity != 0xff)
{
weatherInfo->humidity = m_tempData.humidity;
}
if(sensorParam[num].multiple != 1 && sensorParam[num].multiple != 0)
weatherInfo->humidity = weatherInfo->humidity * sensorParam[num].multiple;
if(sensorParam[num].offset != 0)
weatherInfo->humidity = weatherInfo->humidity + sensorParam[num].offset;
}
}
break;
}
}
GetWeatherData(&airt, 6);
weatherInfo->radiation_intensity = airt.EuValue;
if(airt.AiState == 255 || airt.AiState == -1)
{
weatherInfo->radiation_intensity = 0xff;
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,光照强度未接传感器", airt.AiState);
}else if (airt.AiState != 2 && weatherInfo->radiation_intensity == 0) {
XYLOG(XYLOG_SEVERITY_INFO, "采样状态 = %d,光照强度未采集到数据,重新采样",
weatherInfo->radiation_intensity, airt.AiState);
status = 0;
}
if (status)
return true;
else

2
app/src/main/cpp/PhoneDevice.h
Unescape Escape View File

@ -231,7 +231,7 @@ public:
virtual uint64_t RequestWakelock(uint64_t timeout);
virtual bool ReleaseWakelock(uint64_t wakelock);
virtual int GetWData(WEATHER_INFO *weatherInfo);
virtual int GetWData(WEATHER_INFO *weatherInfo, D_SENSOR_PARAM *sensorParam);
virtual int GetIceData(ICE_INFO *iceInfo, ICE_TAIL *icetail, D_SENSOR_PARAM *sensorParam);
virtual bool OpenSensors(int sensortype);
virtual bool CloseSensors(int sensortype, uint32_t delayedCloseTime);

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