/* This program is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see . */ #include "AP_TemperatureSensor.h" #if AP_TEMPERATURE_SENSOR_ENABLED #include #define AP_TEMPERATURE_SENSOR_DUMMY_METHODS_ENABLED (!(APM_BUILD_TYPE(APM_BUILD_ArduSub) || (AP_TEMPERATURE_SENSOR_ENABLED == 1))) #if !AP_TEMPERATURE_SENSOR_DUMMY_METHODS_ENABLED #include "AP_TemperatureSensor_TSYS01.h" #include "AP_TemperatureSensor_TSYS03.h" #include "AP_TemperatureSensor_MCP9600.h" #include "AP_TemperatureSensor_MAX31865.h" #include "AP_TemperatureSensor_Analog.h" #include "AP_TemperatureSensor_DroneCAN.h" #include #include extern const AP_HAL::HAL& hal; const AP_Param::GroupInfo AP_TemperatureSensor::var_info[] = { // SKIP INDEX 0 // @Param: _LOG // @DisplayName: Logging // @Description: Enables temperature sensor logging // @Values: 0:Disabled, 1:Enabled // @User: Standard AP_GROUPINFO("_LOG", 1, AP_TemperatureSensor, _log_flag, 0), // SKIP Index 2-9 to be for parameters that apply to every sensor // @Group: 1_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[0], "1_", 10, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 1_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[0], "1_", 19, AP_TemperatureSensor, backend_var_info[0]), #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 2 // @Group: 2_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[1], "2_", 11, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 2_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[1], "2_", 20, AP_TemperatureSensor, backend_var_info[1]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 3 // @Group: 3_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[2], "3_", 12, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 3_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[2], "3_", 21, AP_TemperatureSensor, backend_var_info[2]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 4 // @Group: 4_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[3], "4_", 13, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 4_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[3], "4_", 22, AP_TemperatureSensor, backend_var_info[3]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 5 // @Group: 5_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[4], "5_", 14, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 5_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[4], "5_", 23, AP_TemperatureSensor, backend_var_info[4]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 6 // @Group: 6_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[5], "6_", 15, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 6_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[5], "6_", 24, AP_TemperatureSensor, backend_var_info[5]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 7 // @Group: 7_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[6], "7_", 16, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 7_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[6], "7_", 25, AP_TemperatureSensor, backend_var_info[6]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 8 // @Group: 8_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[7], "8_", 17, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 8_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[7], "8_", 26, AP_TemperatureSensor, backend_var_info[7]), #endif #if AP_TEMPERATURE_SENSOR_MAX_INSTANCES >= 9 // @Group: 9_ // @Path: AP_TemperatureSensor_Params.cpp AP_SUBGROUPINFO(_params[8], "9_", 18, AP_TemperatureSensor, AP_TemperatureSensor_Params), // @Group: 9_ // @Path: AP_TemperatureSensor_Analog.cpp AP_SUBGROUPVARPTR(drivers[8], "9_", 26, AP_TemperatureSensor, backend_var_info[8]), #endif AP_GROUPEND }; const AP_Param::GroupInfo *AP_TemperatureSensor::backend_var_info[AP_TEMPERATURE_SENSOR_MAX_INSTANCES]; // Default Constructor AP_TemperatureSensor::AP_TemperatureSensor() { AP_Param::setup_object_defaults(this, var_info); if (_singleton != nullptr) { AP_HAL::panic("AP_TemperatureSensor must be singleton"); } _singleton = this; } // init - instantiate the temperature sensors void AP_TemperatureSensor::init() { // check init has not been called before if (_num_instances != 0) { return; } // For Sub set the Default: Type to TSYS01 and I2C_ADDR of 0x77 #if APM_BUILD_TYPE(APM_BUILD_ArduSub) && AP_TEMPERATURE_SENSOR_TSYS01_ENABLED AP_Param::set_default_by_name("TEMP1_TYPE", (float)AP_TemperatureSensor_Params::Type::TSYS01); AP_Param::set_default_by_name("TEMP1_ADDR", TSYS01_ADDR_CSB0); #endif // create each instance for (uint8_t instance = 0; instance < AP_TEMPERATURE_SENSOR_MAX_INSTANCES; instance++) { _state[instance].instance = instance; switch (get_type(instance)) { #if AP_TEMPERATURE_SENSOR_TSYS01_ENABLED case AP_TemperatureSensor_Params::Type::TSYS01: drivers[instance] = NEW_NOTHROW AP_TemperatureSensor_TSYS01(*this, _state[instance], _params[instance]); break; #endif #if AP_TEMPERATURE_SENSOR_MCP9600_ENABLED case AP_TemperatureSensor_Params::Type::MCP9600: drivers[instance] = NEW_NOTHROW AP_TemperatureSensor_MCP9600(*this, _state[instance], _params[instance]); break; #endif #if AP_TEMPERATURE_SENSOR_MAX31865_ENABLED case AP_TemperatureSensor_Params::Type::MAX31865: drivers[instance] = NEW_NOTHROW AP_TemperatureSensor_MAX31865(*this, _state[instance], _params[instance]); break; #endif #if AP_TEMPERATURE_SENSOR_TSYS03_ENABLED case AP_TemperatureSensor_Params::Type::TSYS03: drivers[instance] = NEW_NOTHROW AP_TemperatureSensor_TSYS03(*this, _state[instance], _params[instance]); break; #endif #if AP_TEMPERATURE_SENSOR_ANALOG_ENABLED case AP_TemperatureSensor_Params::Type::ANALOG: drivers[instance] = NEW_NOTHROW AP_TemperatureSensor_Analog(*this, _state[instance], _params[instance]); break; #endif #if AP_TEMPERATURE_SENSOR_DRONECAN_ENABLED case AP_TemperatureSensor_Params::Type::DRONECAN: drivers[instance] = NEW_NOTHROW AP_TemperatureSensor_DroneCAN(*this, _state[instance], _params[instance]); break; #endif case AP_TemperatureSensor_Params::Type::NONE: default: break; } // call init function for each backend if (drivers[instance] != nullptr) { if (_state[instance].var_info != nullptr) { // Load backend specific params backend_var_info[instance] = _state[instance].var_info; AP_Param::load_object_from_eeprom(drivers[instance], backend_var_info[instance]); } drivers[instance]->init(); // _num_instances is actually the index for looping over instances // the user may have TEMP_TYPE=0 and TEMP2_TYPE=7, in which case // there will be a gap, but as we always check for drivers[instances] being nullptr // this is safe _num_instances = instance + 1; } } if (_num_instances > 0) { // param count could have changed AP_Param::invalidate_count(); } } // update: - For all active instances update temperature and log TEMP void AP_TemperatureSensor::update() { for (uint8_t i=0; i<_num_instances; i++) { if (drivers[i] != nullptr && get_type(i) != AP_TemperatureSensor_Params::Type::NONE) { drivers[i]->update(); #if HAL_LOGGING_ENABLED const AP_Logger *logger = AP_Logger::get_singleton(); if (logger != nullptr && _log_flag) { drivers[i]->Log_Write_TEMP(); } #endif } } } AP_TemperatureSensor_Params::Type AP_TemperatureSensor::get_type(const uint8_t instance) const { if (instance >= AP_TEMPERATURE_SENSOR_MAX_INSTANCES) { return AP_TemperatureSensor_Params::Type::NONE; } return (AP_TemperatureSensor_Params::Type)_params[instance].type.get(); } // returns true if there is a temperature reading bool AP_TemperatureSensor::get_temperature(float &temp, const uint8_t instance) const { if (!healthy(instance)) { return false; } temp = _state[instance].temperature; return true; } bool AP_TemperatureSensor::healthy(const uint8_t instance) const { return instance < _num_instances && drivers[instance] != nullptr && drivers[instance]->healthy(); } AP_TemperatureSensor_Params::Source AP_TemperatureSensor::get_source(const uint8_t instance) const { return healthy(instance) ? (AP_TemperatureSensor_Params::Source)_params[instance].source.get() : AP_TemperatureSensor_Params::Source::None; } int32_t AP_TemperatureSensor::get_source_id(const uint8_t instance) const { return healthy(instance) ? _params[instance].source_id.get() : 0; } #else const AP_Param::GroupInfo AP_TemperatureSensor::var_info[] = { AP_GROUPEND }; void AP_TemperatureSensor::init() { }; void AP_TemperatureSensor::update() { }; bool AP_TemperatureSensor::get_temperature(float &temp, const uint8_t instance) const { return false; }; bool AP_TemperatureSensor::healthy(const uint8_t instance) const { return false; }; AP_TemperatureSensor_Params::Type AP_TemperatureSensor::get_type(const uint8_t instance) const { return AP_TemperatureSensor_Params::Type::NONE; }; AP_TemperatureSensor_Params::Source AP_TemperatureSensor::get_source(const uint8_t instance) const { return AP_TemperatureSensor_Params::Source::None; }; int32_t AP_TemperatureSensor::get_source_id(const uint8_t instance) const { return false; }; AP_TemperatureSensor::AP_TemperatureSensor() {} #endif // AP_TEMPERATURE_SENSOR_DUMMY_METHODS_ENABLED AP_TemperatureSensor *AP_TemperatureSensor::_singleton; namespace AP { AP_TemperatureSensor &temperature_sensor() { return *AP_TemperatureSensor::get_singleton(); } }; #endif // AP_TEMPERATURE_SENSOR_ENABLED