int main(void) {
    setBoardName("TITAN ELECTRONICAL MAIN BOARD 32bits V-JJ_7");

    i2cMasterInitialize();
    
    //setRobotMustStop(false);
    // Open the serial Link for debug
    openSerialLink(&debugSerialStreamLink,
            &debugInputBuffer,
            &debugInputBufferArray,
            MAIN_BOARD_DEBUG_INPUT_BUFFER_LENGTH,
            &debugOutputBuffer,
            &debugOutputBufferArray,
            MAIN_BOARD_DEBUG_OUTPUT_BUFFER_LENGTH,
            &debugOutputStream,
            SERIAL_PORT_DEBUG,
            DEFAULT_SERIAL_SPEED);

    // Open the serial Link for the PC
    openSerialLink(&pcSerialStreamLink,
            &pcInputBuffer,
            &pcInputBufferArray,
            MAIN_BOARD_PC_INPUT_BUFFER_LENGTH,
            &pcOutputBuffer,
            &pcOutputBufferArray,
            MAIN_BOARD_PC_OUTPUT_BUFFER_LENGTH,
            &pcOutputStream,
            SERIAL_PORT_PC,
            DEFAULT_SERIAL_SPEED);

    // LCD (LCD03 via Serial interface)
    initLCDOutputStream(&lcdOutputStream);

    initTimerList(&timerListArray, MAIN_BOARD_TIMER_LENGTH);

    // Init the logs
    initLog(DEBUG);
    addLogHandler(&debugSerialLogHandler, "UART", &debugOutputStream, DEBUG);
    addLogHandler(&lcdLogHandler, "LCD", &lcdOutputStream, ERROR);

    appendString(getAlwaysOutputStreamLogger(), getBoardName());
    println(getAlwaysOutputStreamLogger());

    initDevicesDescriptor();
    initDriversDescriptor();

    i2cMasterInitialize();
    // Initialize EEPROM and RTC
    initClockPCF8563(&globalClock);
    init24C512Eeprom(&eeprom_);






    initRobotConfigPic32(&robotConfig);



    initStartMatchDetector32(&startMatchDetector);


    // Initializes the opponent robot
    // initOpponentRobot();

    /*
    // Creates a composite to notify both PC and Debug
    initCompositeOutputStream(&compositePcAndDebugOutputStream);
    addOutputStream(&compositePcAndDebugOutputStream, &debugOutputStream);
    addOutputStream(&compositePcAndDebugOutputStream, &pcOutputStream);

    // Creates a composite to redirect to driverRequest and Debug
    initCompositeOutputStream(&compositeDriverAndDebugOutputStream);
    addOutputStream(&compositeDriverAndDebugOutputStream, &debugOutputStream);
    addOutputStream(&compositeDriverAndDebugOutputStream, getDriverRequestOutputStream());
    */

    appendString(&debugOutputStream, "DEBUG\n");
    
    // Start interruptions
    //startTimerList();  //////RALENTI FORTEMENT LE PIC!!! PLANTE I2C !!!!!!!!

    // Configure data dispatcher
    //addLocalDriverDataDispatcher();

    // Stream for motorBoard
    /*
    addI2CDriverDataDispatcher(&motorI2cDispatcher,
            "MOTOR_BOARD_DISPATCHER",
            &motorBoardInputBuffer,
            &motorBoardInputBufferArray,
            MAIN_BOARD_LINK_TO_MOTOR_BOARD_BUFFER_LENGTH,
            &motorBoardOutputStream,
            &motorBoardInputStream,
            MOTOR_BOARD_I2C_ADDRESS);
    */
    /*
    // Stream for Mechanical Board 2
    addI2CDriverDataDispatcher(&mechanical2I2cDispatcher,
            "MECHANICAL_BOARD_2_DISPATCHER",
            &mechanical2BoardInputBuffer,
            &mechanical2BoardInputBufferArray,
            MAIN_BOARD_LINK_TO_MECA_BOARD_2_BUFFER_LENGTH,
            &mechanical2BoardOutputStream,
            &mechanical2BoardInputStream,
            MECHANICAL_BOARD_2_I2C_ADDRESS);
    */

 /*   // Stream for Air Conditioning
    addI2CDriverDataDispatcher(&airConditioningI2cDispatcher,
            "AIR_CONDITIONING_DISPATCHER",
            &airConditioningBoardInputBuffer,
            &airConditioningBoardInputBufferArray,
            MAIN_BOARD_LINK_TO_AIR_CONDITIONING_BOARD_BUFFER_LENGTH,
            &airConditioningBoardOutputStream,
            &airConditioningBoardInputStream,
            AIR_CONDITIONING_BOARD_I2C_ADDRESS);
*/
    // I2C Debug
    initI2CDebugBuffers(&i2cMasterDebugInputBuffer,
                        &i2cMasterDebugInputBufferArray,
                        MAIN_BOARD_I2C_DEBUG_MASTER_IN_BUFFER_LENGTH,
                        &i2cMasterDebugOutputBuffer,
                        &i2cMasterDebugOutputBufferArray,
                        MAIN_BOARD_I2C_DEBUG_MASTER_OUT_BUFFER_LENGTH);


    appendStringConfig(&lcdOutputStream);

    //pingDriverDataDispatcherList(getDebugOutputStreamLogger());

    // Inform PC waiting
    showWaitingStart(&debugOutputStream);



    // wait other board initialization
    delaymSec(1500);

    // 2012 VALUE
    unsigned int configValue = getConfigValue();
    unsigned int homologationIndex = configValue & CONFIG_STRATEGY_MASK;
    unsigned int color = configValue & CONFIG_COLOR_BLUE_MASK;

    appendString(getAlwaysOutputStreamLogger(), "Homologation:");
    appendCRLF(getAlwaysOutputStreamLogger());
    appendDec(getAlwaysOutputStreamLogger(), homologationIndex);
    
    appendString(getAlwaysOutputStreamLogger(), "Config:");
    appendHex4(getAlwaysOutputStreamLogger(), configValue);
    appendCRLF(getAlwaysOutputStreamLogger());
    useBalise = configValue & CONFIG_USE_BALISE_MASK;
    useInfrared = configValue & CONFIG_USE_SONAR_MASK;

    if (color != 0) {
        appendString(getAlwaysOutputStreamLogger(), "COLOR:VIOLET\n");
    }
    else {
        appendString(getAlwaysOutputStreamLogger(), "COLOR:RED\n");
    }    

    // TODO 2012 SV motionDriverMaintainPosition();

    // wait for start
 //   setInitialPosition(color);

    // notify game strategy
 //   sendStrategyConfiguration(configValue);

    loopUntilStart(&waitForInstruction);

    // Enable the sonar Status only after start
    //setSonarStatus(configValue & CONFIG_USE_SONAR_MASK);

    // mark that match begins
    markStartMatch();

    // write begin of match
    showStarted(&pcOutputStream);

    if (homologationIndex == 0) {
        // MATCH

        while (1) {
            waitForInstruction();
            //CLOCK Read


            if (isEnd()) {
                break;
            }
        }
    } else {
        setReadyForNextMotion(true);

        while (1) {
            
            portableStartI2C(i2cBus);
            WaitI2C(i2cBus);
            portableMasterWriteI2C(FREE_ADDRESS_2);//0x54
            WaitI2C(i2cBus);
            portableMasterWriteI2C('H');
            WaitI2C(i2cBus);
            portableMasterWriteI2C('E');
            WaitI2C(i2cBus);
            portableMasterWriteI2C('L');
            WaitI2C(i2cBus);
            portableMasterWriteI2C('L');
            WaitI2C(i2cBus);
            portableMasterWriteI2C('O');

            portableStopI2C(i2cBus);
            WaitI2C(i2cBus);
            int data1,data2,data3;
            while(1){
                waitForInstruction();
                //globalClock.readClock(&globalClock);
                //printClock(&debugOutputStream,&globalClock);
                //appendCR(&debugOutputStream);

                int data = 0;
                portableMasterWaitSendI2C(i2cBus);

                portableStartI2C(i2cBus);
                IdleI2C1();
                portableMasterWriteI2C(FREE_ADDRESS_2 + 1);//0x54
                WaitI2C(i2cBus);
                
                data = portableMasterReadI2C(i2cBus);
                portableAckI2C(i2cBus);
                IdleI2C1();

                data1 = portableMasterReadI2C(i2cBus);
                portableAckI2C(i2cBus);
                IdleI2C1();

                data2= portableMasterReadI2C(i2cBus);
                portableAckI2C(i2cBus);
                IdleI2C1();


                data3 = portableMasterReadI2C(i2cBus);
                portableNackI2C(i2cBus);
                IdleI2C1();
                append(&lcdOutputStream,data);
                append(&lcdOutputStream,data1);
                append(&lcdOutputStream,data2);
                append(&lcdOutputStream,data3);

                portableStopI2C(i2cBus);
                IdleI2C1();
                
                delaymSec(500);
            }

















            homologation(homologationIndex, color);

            // We stop if we are in homologation mode
            if (isRobotMustStop()) {
                motionDriverStop();
                break;
            }

            // ultimate tentative to restart the robot if it is blocked
            forceRobotNextStepIfNecessary();
        }
    }

    showEnd(&lcdOutputStream);

    while (1) {
        // Avoid reboot even at end
    }
}
Exemple #2
0
int main(void) {
    setBoardName("MAIN BOARD");
    setRobotMustStop(false);

    // LOG Global Configuration
    initLogs(DEBUG, &logHandlerListArray, MAIN_BOARD_LOG_HANDLER_LIST_LENGTH, LOG_HANDLER_CATEGORY_ALL_MASK);

    // LCD (LCD via Parallel interface)
    initLCDOutputStream(&lcdOutputStream);
    addLogHandler("LCD", &lcdOutputStream, LOG_LEVEL_ERROR, LOG_HANDLER_CATEGORY_ALL_MASK);

    // CONFIG
    initRobotConfigPic32(&robotConfig);

    // Open the serial Link for debug and LOG !
    openSerialLink(&debugSerialStreamLink, 
            &debugInputBuffer, &debugInputBufferArray, MAIN_BOARD_DEBUG_INPUT_BUFFER_LENGTH,
            &debugOutputBuffer, &debugOutputBufferArray, MAIN_BOARD_DEBUG_OUTPUT_BUFFER_LENGTH,
            &debugOutputStream,
            SERIAL_PORT_DEBUG,
            DEFAULT_SERIAL_SPEED);
    // Serial Debug LOG
    addLogHandler("UART", &debugOutputStream, DEBUG, LOG_HANDLER_CATEGORY_ALL_MASK);

    // LOG the BoardName
    appendString(getAlwaysOutputStreamLogger(), getBoardName());
    println(getAlwaysOutputStreamLogger());

    // SERIAL
    
    // Open the serial Link for the Motor Board
    openSerialLink(&motorSerialStreamLink,
                   &motorInputBuffer, &motorInputBufferArray, MAIN_BOARD_MOTOR_INPUT_BUFFER_LENGTH,
                   &motorOutputBuffer, &motorOutputBufferArray, MAIN_BOARD_MOTOR_OUTPUT_BUFFER_LENGTH,
                   &motorOutputStream,
                   SERIAL_PORT_MOTOR,
                   DEFAULT_SERIAL_SPEED);

    // Open the serial Link for the Mechanical Board
    openSerialLink(&mechanicalBoard2SerialStreamLink,
                   &mechanicalBoard2InputBuffer, &mechanicalBoard2InputBufferArray, MAIN_BOARD_MECA2_INPUT_BUFFER_LENGTH,
                   &mechanicalBoard2OutputBuffer, &mechanicalBoard2OutputBufferArray, MAIN_BOARD_MECA2_OUTPUT_BUFFER_LENGTH,
                   &mechanicalBoard2OutputStream,
                   SERIAL_PORT_MECA2,
                   DEFAULT_SERIAL_SPEED);

    // Open the serial Link for the PC
    openSerialLink(&pcSerialStreamLink,
                    &pcInputBuffer, &pcInputBufferArray, MAIN_BOARD_PC_INPUT_BUFFER_LENGTH,
                    &pcOutputBuffer, &pcOutputBufferArray, MAIN_BOARD_PC_OUTPUT_BUFFER_LENGTH,
                    &pcOutputStream,
                    SERIAL_PORT_PC,
                    DEFAULT_SERIAL_SPEED);

    // MAIN I2C
    initI2cBus(&i2cBus, I2C_BUS_TYPE_MASTER, I2C_BUS_PORT_1);
    i2cMasterInitialize(&i2cBus);
    initI2cBusConnection(&motorI2cBusConnection, &i2cBus, MOTOR_BOARD_I2C_ADDRESS);
    initI2cBusConnection(&mechanicalBoard2I2cBusConnection, &i2cBus, MECHANICAL_BOARD_2_I2C_ADDRESS);

    // I2C Debug
    initI2CDebugBuffers(&i2cMasterDebugInputBuffer,
                        &i2cMasterDebugInputBufferArray,
                        MAIN_BOARD_I2C_DEBUG_MASTER_IN_BUFFER_LENGTH,
                        &i2cMasterDebugOutputBuffer,
                        &i2cMasterDebugOutputBufferArray,
                        MAIN_BOARD_I2C_DEBUG_MASTER_OUT_BUFFER_LENGTH);
    setDebugI2cEnabled(false);

    // -> Eeproms
    initI2cBusConnection(&eepromI2cBusConnection, &i2cBus, ST24C512_ADDRESS_0);
    init24C512Eeprom(&eeprom, &eepromI2cBusConnection);
    // -> Clock
    initI2cBusConnection(&clockI2cBusConnection, &i2cBus, PCF8563_WRITE_ADDRESS);
    initClockPCF8563(&clock, &clockI2cBusConnection);
    // -> Temperature
    initI2cBusConnection(&temperatureI2cBusConnection, &i2cBus, LM75A_ADDRESS);
    initTemperatureLM75A(&temperature, &temperatureI2cBusConnection);

    // TIMERS
    initTimerList(&timerListArray, MAIN_BOARD_TIMER_LENGTH);

    // DEVICES, DRIVERS, DISPATCHERS
    initMainBoardDevicesDescriptor();
    initMainBoardDriversDescriptor();
    initMainBoardDriverDataDispatcherList();


    // Start interruptions
    startTimerList();

    loopUntilStart(&startMatch);

    counter = 1;

    clearBuffer(&mechanicalBoard2InputBuffer);

    // enableNotificationRobotInfraredDetector(DETECTOR_GROUP_TYPE_FORWARD);

    while (1) {
        if (!mainBoardWaitForInstruction(&startMatch)) {
            break;
        }
    }

    showEnd(getAlwaysOutputStreamLogger());

    while (1) {
        // Avoid reboot even at end
    }
}