Mercurial > public > ostc4
view Discovery/Src/tCCR.c @ 307:b6436edfb2c0 cleanup-4
cleanup: factor out unused stopwatch code
Visually, this looks a bit of a dangerous cleanup, but its not :-)
To explain this cleanup: stopwatch_seconds is never used, so assign
to it is useless, and the variable can be removed. Now,
stopwatch_start_at_this_dive_time_seconds is not used any more, so
remove it as well. Now, look at the boolResetStopwatch code. It
is used but only to reset itself. This makes the whole stopwatch
block in data_exchange_main.c a useless thing. All the other
cleanup is trivial.
Signed-off-by: Jan Mulder <jlmulder@xs4all.nl>
| author | Jan Mulder <jlmulder@xs4all.nl> |
|---|---|
| date | Wed, 22 May 2019 22:22:15 +0200 |
| parents | 74a8296a2318 |
| children | 31e471d60797 |
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/////////////////////////////////////////////////////////////////////////////// /// -*- coding: UTF-8 -*- /// /// \file Discovery/Src/tCCR.c /// \brief HUD data via optical port /// \author Heinrichs Weikamp gmbh /// \date 18-Dec-2014 /// /// \details /// /// $Id$ /////////////////////////////////////////////////////////////////////////////// /// \par Copyright (c) 2014-2018 Heinrichs Weikamp gmbh /// /// 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 <http://www.gnu.org/licenses/>. ////////////////////////////////////////////////////////////////////////////// /* Includes ------------------------------------------------------------------*/ #include <string.h> #include "tCCR.h" #include "ostc.h" #include "data_central.h" #include "data_exchange.h" #include "check_warning.h" /* Private types -------------------------------------------------------------*/ typedef struct { uint8_t hud_firmwareVersion; bit8_Type status_byte; uint16_t sensor_voltage_100uV[3]; uint8_t sensor_ppo2_cbar[3]; uint8_t temp1; uint16_t battery_voltage_mV; uint16_t checksum; } SIrLink; /* Private variables ---------------------------------------------------------*/ SIrLink receiveHUD[2]; uint8_t boolHUDdata = 0; uint8_t data_old__lost_connection_to_HUD = 1; uint8_t receiveHUDraw[16]; uint8_t StartListeningToUART_HUD = 0; uint16_t count = 0; /* Private variables with external access via get_xxx() function -------------*/ /* Private function prototypes -----------------------------------------------*/ static void tCCR_fallbackToFixedSetpoint(void); #ifndef USART_IR_HUD void tCCR_init(void) { } void tCCR_control(void) { } void tCCR_test(void) { } void tCCR_restart(void) { } float get_ppO2Sensor_bar(uint8_t sensor_id) { } float get_sensorVoltage_mV(uint8_t sensor_id) { } float get_HUD_battery_voltage_V(void) { } void tCCR_tick(void) { } #else /* Exported functions --------------------------------------------------------*/ float get_ppO2Sensor_bar(uint8_t sensor_id) { if((sensor_id > 2) || data_old__lost_connection_to_HUD) return 0; return (float)(receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id]) / 100.0f; } float get_sensorVoltage_mV(uint8_t sensor_id) { if((sensor_id > 2) || data_old__lost_connection_to_HUD) return 0; return (float)(receiveHUD[boolHUDdata].sensor_voltage_100uV[sensor_id]) / 10.0f; } float get_HUD_battery_voltage_V(void) { if(data_old__lost_connection_to_HUD) return 0; return (float)(receiveHUD[boolHUDdata].battery_voltage_mV) / 1000.0f; } void test_HUD_sensor_values_outOfBounds(int8_t * outOfBouds1, int8_t * outOfBouds2, int8_t * outOfBouds3) { uint8_t sensorNotActiveBinary; uint8_t sensorActive[3]; // test1: user deactivation sensorNotActiveBinary = stateUsed->diveSettings.ppo2sensors_deactivated; for(int i=0;i<3;i++) sensorActive[i] = 1; if(sensorNotActiveBinary) { if(sensorNotActiveBinary & 1) sensorActive[0] = 0; if(sensorNotActiveBinary & 2) sensorActive[1] = 0; if(sensorNotActiveBinary & 4) sensorActive[2] = 0; } // test2: mV of remaining sensors for(int i=0;i<3;i++) { if(sensorActive[i]) { if( (receiveHUD[boolHUDdata].sensor_voltage_100uV[i] < 80) || (receiveHUD[boolHUDdata].sensor_voltage_100uV[i] > 2500)) { sensorActive[i] = 0; switch(i) { case 0: sensorNotActiveBinary |= 1; break; case 1: sensorNotActiveBinary |= 2; break; case 2: sensorNotActiveBinary |= 4; break; } } } } *outOfBouds1 = 0; *outOfBouds2 = 0; *outOfBouds3 = 0; /* with two, one or no sensor, there is nothing to compare anymore */ if(sensorNotActiveBinary) { // set outOfBounds for both tests if(!sensorActive[0]) *outOfBouds1 = 1; if(!sensorActive[1]) *outOfBouds2 = 1; if(!sensorActive[2]) *outOfBouds3 = 1; return; } else { uint8_t sensor_id_ordered[3]; uint8_t difference[2]; if((receiveHUD[boolHUDdata].sensor_ppo2_cbar[1]) > (receiveHUD[boolHUDdata].sensor_ppo2_cbar[0])) { sensor_id_ordered[0] = 0; sensor_id_ordered[1] = 1; } else { sensor_id_ordered[0] = 1; sensor_id_ordered[1] = 0; } if(receiveHUD[boolHUDdata].sensor_ppo2_cbar[2] > receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id_ordered[1]]) { sensor_id_ordered[2] = 2; } else { sensor_id_ordered[2] = sensor_id_ordered[1]; if(receiveHUD[boolHUDdata].sensor_ppo2_cbar[2] > receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id_ordered[0]]) { sensor_id_ordered[1] = 2; } else { sensor_id_ordered[1] = sensor_id_ordered[0]; sensor_id_ordered[0] = 2; } } difference[0] = receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id_ordered[1]]- receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id_ordered[0]]; difference[1] = receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id_ordered[2]]- receiveHUD[boolHUDdata].sensor_ppo2_cbar[sensor_id_ordered[1]]; if((difference[0] > difference[1]) && (difference[0] > 15)) { switch(sensor_id_ordered[0]) { case 0: *outOfBouds1 = 1; break; case 1: *outOfBouds2 = 1; break; case 2: *outOfBouds3 = 1; break; } } else if((difference[0] < difference[1]) && (difference[1] > 15)) { switch(sensor_id_ordered[2]) { case 0: *outOfBouds1 = 1; break; case 1: *outOfBouds2 = 1; break; case 2: *outOfBouds3 = 1; break; } } } } uint8_t get_ppO2SensorWeightedResult_cbar(void) { int8_t sensorOutOfBound[3]; uint16_t result = 0; uint8_t count = 0; test_HUD_sensor_values_outOfBounds(&sensorOutOfBound[0], &sensorOutOfBound[1], &sensorOutOfBound[2]); for(int i=0;i<3;i++) { if(!sensorOutOfBound[i]) { result += receiveHUD[boolHUDdata].sensor_ppo2_cbar[i]; count++; } } if(count == 0) // all sensors out of bounds! return 0; else return (uint8_t)(result / count); } void tCCR_init(void) { StartListeningToUART_HUD = 1; } /* after 3 seconds without update from HUD * data is considered old */ void tCCR_tick(void) { if(count < 3 * 10) count++; else { data_old__lost_connection_to_HUD = 1; if(count < 20 * 10) count++; else tCCR_fallbackToFixedSetpoint(); } } void tCCR_restart(void) { HAL_UART_Receive_IT(&UartIR_HUD_Handle, receiveHUDraw, 15);/* 15*/ } void tCCR_control(void) { if((UartReadyHUD == RESET) && StartListeningToUART_HUD) { StartListeningToUART_HUD = 0; HAL_UART_Receive_IT(&UartIR_HUD_Handle, receiveHUDraw, 15);/* 15*/ } if(UartReadyHUD == SET) { UartReadyHUD = RESET; memcpy(&receiveHUD[!boolHUDdata], receiveHUDraw, 11); receiveHUD[!boolHUDdata].battery_voltage_mV = receiveHUDraw[11] + (256 * receiveHUDraw[12]); receiveHUD[!boolHUDdata].checksum = receiveHUDraw[13] + (256 * receiveHUDraw[14]); uint16_t checksum = 0; for(int i=0;i<13;i++) { checksum += receiveHUDraw[i]; } if(checksum == receiveHUD[!boolHUDdata].checksum) { boolHUDdata = !boolHUDdata; count = 0; data_old__lost_connection_to_HUD = 0; } StartListeningToUART_HUD = 1; } } #endif /* Private functions ---------------------------------------------------------*/ static void tCCR_fallbackToFixedSetpoint(void) { if((stateUsed->mode == MODE_DIVE) && (stateUsed->diveSettings.diveMode == DIVEMODE_CCR) && (stateUsed->diveSettings.CCR_Mode == CCRMODE_Sensors) && (stateUsed->diveSettings.fallbackOption)) { uint8_t setpointCbar, actualGasID; setpointCbar = stateUsed->diveSettings.setpoint[1].setpoint_cbar; stateUsedWrite->diveSettings.CCR_Mode = CCRMODE_FixedSetpoint; actualGasID = stateUsed->lifeData.actualGas.GasIdInSettings; setActualGas_DM(&stateUsedWrite->lifeData,actualGasID,setpointCbar); set_warning_fallback(); } }