modify bugs
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@ -909,7 +909,7 @@ int SensorScheduler::WriteScheduleCfg(long &ts, std::string &world_time) {
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return 0;
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}
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int SensorScheduler::Config(int eigen_value_send_interval, int wave_form_send_interval, int max_sensor_num,
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int SensorScheduler::Config(int eigen_value_send_interval, int wave_form_send_interval, int &max_sensor_num,
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int wave_resend_num, std::string &error_msg) {
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int available_slice = 0;
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int free_slice = 0;
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@ -952,13 +952,13 @@ int SensorScheduler::Config(int eigen_value_send_interval, int wave_form_send_in
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// 特征值发送间隔300秒,波形发送间隔为7200秒
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// 一次特征值发送时长为2秒,波形发送时长为60秒,所有特征值在特征值发送间隔的第1分钟中的第3秒至第57秒全部完成
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int SensorScheduler::CalcAvailableSlice(int eigen_value_send_interval, int wave_form_send_interval,
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int max_sensor_num, int &available_slice, int &free_slice,
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int &max_sensor_num, int &available_slice, int &free_slice,
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std::string &error_msg) {
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if (max_sensor_num <= 0) {
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error_msg = "max_sensor_num:" + std::to_string(max_sensor_num) + " must bigger than 0";
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zlog_error(zbt, "%s", error_msg.c_str());
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return 1;
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}
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// if (max_sensor_num <= 0) {
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// error_msg = "max_sensor_num:" + std::to_string(max_sensor_num) + " must bigger than 0";
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// zlog_error(zbt, "%s", error_msg.c_str());
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// return 1;
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// }
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if (2 > eigen_value_send_interval) {
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error_msg = "invalid max_sensor_num:" + std::to_string(max_sensor_num) +
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@ -967,12 +967,12 @@ int SensorScheduler::CalcAvailableSlice(int eigen_value_send_interval, int wave_
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return 2;
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}
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if (max_sensor_num * 60 * 2 > wave_form_send_interval) { // xy, z分开发送
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error_msg = "invalid wave_form_send_duration:" + std::to_string(60) +
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"* 2 * max_sensor_num:" + std::to_string(max_sensor_num) + " > wave_form_send_interval:" + std::to_string(wave_form_send_interval);
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zlog_error(zbt, "%s", error_msg.c_str());
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return 3;
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}
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// if (max_sensor_num * 60 * 2 > wave_form_send_interval) { // xy, z分开发送
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// error_msg = "invalid wave_form_send_duration:" + std::to_string(60) +
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// "* 2 * max_sensor_num:" + std::to_string(max_sensor_num) + " > wave_form_send_interval:" + std::to_string(wave_form_send_interval);
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// zlog_error(zbt, "%s", error_msg.c_str());
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// return 3;
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// }
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if (wave_form_send_interval % eigen_value_send_interval != 0) {
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error_msg = "wave_form_send_interval:" + std::to_string(wave_form_send_interval) + " %% eigen_value_send_interval:" + std::to_string(eigen_value_send_interval) +
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@ -985,9 +985,15 @@ int SensorScheduler::CalcAvailableSlice(int eigen_value_send_interval, int wave_
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int rest_duration = eigen_value_send_interval - total_eigen_value_send_duration;
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int slice_per_eigen_value_interval = rest_duration / 60;
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available_slice = wave_form_send_interval / eigen_value_send_interval * slice_per_eigen_value_interval;
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free_slice = available_slice - max_sensor_num * 2;
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if (free_slice < 0) {
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error_msg = "invalid config, available slice:" + std::to_string(available_slice) + ", required slice:" + std::to_string(max_sensor_num);
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// free_slice = available_slice - max_sensor_num * 2;
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max_sensor_num = available_slice / 2;
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// if (free_slice < 0) {
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// error_msg = "invalid config, available slice:" + std::to_string(available_slice) + ", required slice:" + std::to_string(max_sensor_num*2);
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// zlog_error(zbt, "%s", error_msg.c_str());
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// return 5;
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// }
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if (available_slice <= 0) {
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error_msg = "invalid config, available slice:" + std::to_string(available_slice) + ", required slice:" + std::to_string(max_sensor_num*2);
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zlog_error(zbt, "%s", error_msg.c_str());
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return 5;
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}
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@ -76,10 +76,10 @@ public:
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int UpdateConfigResult(uint16_t short_addr, int result);
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int Config(int eigen_value_send_interval, int wave_form_send_interval,
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int max_sensor_num, int wave_resend_num, std::string &error_msg);
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int &max_sensor_num, int wave_resend_num, std::string &error_msg);
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int CalcAvailableSlice(int eigen_value_send_interval, int wave_form_send_interval,
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int max_sensor_num, int &available_slice, int &free_slice,
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int &max_sensor_num, int &available_slice, int &free_slice,
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std::string &error_msg);
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int GetScheduleConfig(int &eigen_value_send_interval, int &wave_form_send_interval, int &wave_resend_num,
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@ -505,7 +505,7 @@ int Uart::DealWaveCompress(const char *pData,uint16_t ushortAdd){
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tempchannel.CountZ = BUILD_UINT32(pData[21], pData[20],pData[19],pData[18]);
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sprintf(sensor_rssi, "%02d", pData[22] & 0xFF);
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}else{
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int ret = 0;//= WaveSendCondition(shortAdd);
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int ret = WaveSendCondition(shortAdd);
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if(ret == 1){
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zlog_warn(zct, "WaveSendCondition not meet condition ,shortAddr = %s",shortAdd);
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scheduler::instance().WaveSuccess(ushortAdd,true);
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@ -63,7 +63,7 @@ void Uart::RecordBattery(std::string &strLongAddr, DataRecvStatic &dataStatic, s
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if (res_static.size() > 0){
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int zigbeeSignal = atoi(res_static[6].c_str());
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int zigbeeSignalNode = atoi(res_static[11].c_str());
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float standardRate = 5000.0f; //5kB/s
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float standardRate = 5.0f; //5kB/s
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float actualRate = 0.0f;
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if (dataStatic.nodeSendTime > 0){
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actualRate = (wave_dataLen / 1024.0f) / (dataStatic.nodeSendTime / 1000.0f); //单位:KB/s
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