void Setup_configInterrupts(void) { ConfigIntCapture1(IC_INT_ON | IC_INT_PRIOR_6); ConfigIntCapture2(IC_INT_ON | IC_INT_PRIOR_6); ConfigIntCapture3(IC_INT_ON | IC_INT_PRIOR_6); ConfigIntCapture4(IC_INT_ON | IC_INT_PRIOR_6); ConfigIntCapture5(IC_INT_ON | IC_INT_PRIOR_6); }
int main(void) { //LOCALS unsigned int temp; unsigned int channel1, channel2; M1_stepPeriod = M2_stepPeriod = M3_stepPeriod = M4_stepPeriod = 50; // in tens of u-seconds unsigned char M1_state = 0, M2_state = 0, M3_state = 0, M4_state = 0; SYSTEMConfig(GetSystemClock(), SYS_CFG_WAIT_STATES | SYS_CFG_PCACHE); /* TIMER1 - now configured to interrupt at 10 khz (every 100us) */ OpenTimer1(T1_ON | T1_SOURCE_INT | T1_PS_1_1, T1_TICK); ConfigIntTimer1(T1_INT_ON | T1_INT_PRIOR_2); /* TIMER2 - 100 khz interrupt for distance measure*/ OpenTimer2(T2_ON | T2_SOURCE_INT | T2_PS_1_1, T2_TICK); ConfigIntTimer2(T2_INT_ON | T2_INT_PRIOR_3); //It is off until trigger /* PORTA b2 and b3 for servo-PWM */ mPORTAClearBits(BIT_2 | BIT_3); mPORTASetPinsDigitalOut(BIT_2 | BIT_3); /* ULTRASONICS: some bits of PORTB for ultrasonic sensors */ PORTResetPins(IOPORT_B, BIT_8 | BIT_9| BIT_10 | BIT_11 ); PORTSetPinsDigitalOut(IOPORT_B, BIT_8 | BIT_9| BIT_10 | BIT_11); //trigger /* Input Capture pins for echo signals */ //interrupt on every risging/falling edge starting with a rising edge PORTSetPinsDigitalIn(IOPORT_D, BIT_8| BIT_9| BIT_10| BIT_11); //INC1, INC2, INC3, INC4 Pin mIC1ClearIntFlag(); OpenCapture1( IC_EVERY_EDGE | IC_INT_1CAPTURE | IC_TIMER2_SRC | IC_ON );//front ConfigIntCapture1(IC_INT_ON | IC_INT_PRIOR_4 | IC_INT_SUB_PRIOR_3); OpenCapture2( IC_EVERY_EDGE | IC_INT_1CAPTURE | IC_TIMER2_SRC | IC_ON );//back ConfigIntCapture2(IC_INT_ON | IC_INT_PRIOR_4 | IC_INT_SUB_PRIOR_3); OpenCapture3( IC_EVERY_EDGE | IC_INT_1CAPTURE | IC_TIMER2_SRC | IC_ON );//left ConfigIntCapture3(IC_INT_ON | IC_INT_PRIOR_4 | IC_INT_SUB_PRIOR_3); OpenCapture4( IC_EVERY_EDGE | IC_INT_1CAPTURE | IC_TIMER2_SRC | IC_ON );//right ConfigIntCapture4(IC_INT_ON | IC_INT_PRIOR_4 | IC_INT_SUB_PRIOR_3); /* PINS used for the START (RD13) BUTTON */ PORTSetPinsDigitalIn(IOPORT_D, BIT_13); #define CONFIG (CN_ON | CN_IDLE_CON) #define INTERRUPT (CHANGE_INT_ON | CHANGE_INT_PRI_2) mCNOpen(CONFIG, CN19_ENABLE, CN19_PULLUP_ENABLE); temp = mPORTDRead(); /* PORT D and E for motors */ //motor 1 mPORTDSetBits(BIT_4 | BIT_5 | BIT_6 | BIT_7); // Turn on PORTD on startup. mPORTDSetPinsDigitalOut(BIT_4 | BIT_5 | BIT_6 | BIT_7); // Make PORTD output. //motor 2 mPORTCSetBits(BIT_1 | BIT_2 | BIT_3 | BIT_4); // Turn on PORTC on startup. mPORTCSetPinsDigitalOut(BIT_1 | BIT_2 | BIT_3 | BIT_4); // Make PORTC output. //motor 3 and 4 mPORTESetBits(BIT_0 | BIT_1 | BIT_2 | BIT_3 | BIT_4 | BIT_5 | BIT_6 | BIT_7); // Turn on PORTE on startup. mPORTESetPinsDigitalOut(BIT_0 | BIT_1 | BIT_2 | BIT_3 | BIT_4 | BIT_5 | BIT_6 | BIT_7); // Make PORTE output. // UART2 to connect to the PC. // This initialization assumes 36MHz Fpb clock. If it changes, // you will have to modify baud rate initializer. UARTConfigure(UART2, UART_ENABLE_PINS_TX_RX_ONLY); UARTSetFifoMode(UART2, UART_INTERRUPT_ON_TX_NOT_FULL | UART_INTERRUPT_ON_RX_NOT_EMPTY); UARTSetLineControl(UART2, UART_DATA_SIZE_8_BITS | UART_PARITY_NONE | UART_STOP_BITS_1); UARTSetDataRate(UART2, GetPeripheralClock(), BAUD); UARTEnable(UART2, UART_ENABLE_FLAGS(UART_PERIPHERAL | UART_RX | UART_TX)); // Configure UART2 RX Interrupt INTEnable(INT_SOURCE_UART_RX(UART2), INT_ENABLED); INTSetVectorPriority(INT_VECTOR_UART(UART2), INT_PRIORITY_LEVEL_2); INTSetVectorSubPriority(INT_VECTOR_UART(UART2), INT_SUB_PRIORITY_LEVEL_0); /* PORTD for LEDs - DEBUGGING */ mPORTDClearBits(BIT_0 | BIT_1 | BIT_2); mPORTDSetPinsDigitalOut(BIT_0 | BIT_1 | BIT_2); // Congifure Change/Notice Interrupt Flag ConfigIntCN(INTERRUPT); // configure for multi-vectored mode INTConfigureSystem(INT_SYSTEM_CONFIG_MULT_VECTOR); // enable interrupts INTEnableInterrupts(); counterDistanceMeasure=600; //measure ULTRASONICS distance each 60 ms while (1) { /***************** Robot MAIN state machine *****************/ unsigned char ret = 0; switch (Robo_State) { case 0: MotorsON = 0; Robo_State = 0; InvInitialOrientation(RESET); TestDog(RESET); GoToRoom4short(RESET); BackToStart(RESET); InitialOrientation(RESET); GoToCenter(RESET); GoToRoom4long(RESET); break; case 1: ret = InvInitialOrientation(GO); if (ret == 1) { Robo_State = 2; } break; case 2: ret = TestDog(GO); if (ret == 1) { Robo_State = 3; //DOG not found } else if (ret == 2) { Robo_State = 4; //DOG found } break; case 3: ret = GoToRoom4short(GO); if (ret == 1) { Robo_State = 0; } break; case 4: ret = BackToStart(GO); if (ret == 1) { Robo_State = 5; } break; case 5: ret = GoToCenter(GO); if (ret == 1) { Robo_State = 6; } break; case 6: ret = GoToRoom4long(GO); if (ret == 1) { Robo_State = 0; } break; } if (frontDistance < 30 || backDistance < 30 || leftDistance < 30 || rightDistance < 30) mPORTDSetBits(BIT_0); else mPORTDClearBits(BIT_0); /***************************************************************/ /***************** Motors State Machine ************************/ if (MotorsON) { /**************************** MOTOR MAP M1 O-------------O M2 ON EVEN MOTORS, STEPS MUST BE INVERTED | /\ | i.e. FORWARD IS BACKWARD | / \ | | || | | || | M3 O-------------O M4 *****************************/ if (M1_counter == 0) { switch (M1_state) { case 0: // set 0011 step (0x3 , 1); if (M1forward) M1_state = 1; else M1_state = 3; break; case 1: // set 1001 step (0x9 , 1); if (M1forward) M1_state = 2; else M1_state = 0; break; case 2: // set 1100 step (0xC , 1); if (M1forward) M1_state = 3; else M1_state = 1; break; case 3: // set 0110 default: step (0x6 , 1); if (M1forward) M1_state = 0; else M1_state = 2; break; } M1_counter = M1_stepPeriod; step_counter[0]--; if (directionNow == countingDirection) step_counter[1]--; } if (M2_counter == 0) { switch (M2_state) { case 0: // set 0011 step (0x3 , 2); if (M2forward) M2_state = 1; else M2_state = 3; break; case 1: // set 0110 step (0x6 , 2); if (M2forward) M2_state = 2; else M2_state = 0; break; case 2: // set 1100 step (0xC , 2); if (M2forward) M2_state = 3; else M2_state = 1; break; case 3: // set 1001 default: step (0x9 , 2); if (M2forward) M2_state = 0; else M2_state = 2; break; } M2_counter = M2_stepPeriod; } if (M3_counter == 0) { switch (M3_state) { case 0: // set 0011 step (0x3 , 3); if (M3forward) M3_state = 1; else M3_state = 3; break; case 1: // set 1001 step (0x9 , 3); if (M3forward) M3_state = 2; else M3_state = 0; break; case 2: // set 1100 step (0xC , 3); if (M3forward) M3_state = 3; else M3_state = 1; break; case 3: // set 0110 default: step (0x6 , 3); if (M3forward) M3_state = 0; else M3_state = 2; break; } M3_counter = M3_stepPeriod; } if (M4_counter == 0) { switch (M4_state) { case 0: // set 0011 step (0x3 , 4); if (M4forward) M4_state = 1; else M4_state = 3; break; case 1: // set 0110 step (0x6 , 4); if (M4forward) M4_state = 2; else M4_state = 0; break; case 2: // set 1100 step (0xC , 4); if (M4forward) M4_state = 3; else M4_state = 1; break; case 3: // set 1001 default: step (0x9 , 4); if (M4forward) M4_state = 0; else M4_state = 2; break; } M4_counter = M4_stepPeriod; } } else { //motors off mPORTDSetBits(BIT_4 | BIT_5 | BIT_6 | BIT_7); mPORTCSetBits(BIT_1 | BIT_2 | BIT_3 | BIT_4); mPORTESetBits(BIT_0 | BIT_1 | BIT_2 | BIT_3 | BIT_4 | BIT_5 | BIT_6 | BIT_7); } /************************************************************/ /******* TEST CODE, toggles the servos (from 90 deg. to -90 deg.) every 1 s. ********/ /* if (auxcounter == 0) { servo1_angle = 0; if (servo2_angle == 90) servo2_angle = -90; else servo2_angle = 90; auxcounter = 20000; // toggle angle every 2 s. } */ servo1_angle = 0; servo2_angle = -90; /* if (frontDistance > 13 && frontDistance < 17) { servo2_angle = 90; } else servo2_angle = -90; */ /*******************************************************************/ /****************** SERVO CONTROL ******************/ /* Changing the global servoX_angle at any point in the code will move the servo to the desired angle. */ servo1_counter = (servo1_angle + 90)*(18)/180 + 6; // between 600 and 2400 us if (servo1_period == 0) { mPORTASetBits(BIT_2); servo1_period = SERVOMAXPERIOD; /* 200 * 100us = 20000us period */ } servo2_counter = (servo2_angle + 90)*(18)/180 + 6; // between 600 and 2400 us if (servo2_period == 0) { mPORTASetBits(BIT_3); servo2_period = SERVOMAXPERIOD; /* 200 * 100us = 20000us period */ } /*****************************************************/ } /* end of while(1) */ return 0; }