0,0 → 1,80 |
#include <xc.h> |
#include "defines.h" |
#include "base_INTERRUPTS.h" |
#include "base_I2C.h" |
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void Interrupt_Init() { |
// Enable MSSP1 interrupt |
PIE1bits.SSP1IE = 1; |
} |
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void Interrupt_Enable() { |
// Enable global and peripheral interrupts |
INTCONbits.PEIE = 1; |
INTCONbits.GIE = 1; |
} |
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void Interrupt_Disable() { |
INTCONbits.PEIE = 0; |
INTCONbits.GIE = 0; |
} |
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void interrupt InterruptHandler(void) { |
// We need to check the interrupt flag of each enabled high-priority interrupt to |
// see which device generated this interrupt. Then we can call the correct handler. |
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// // Check to see if we have an SPI2 interrupt |
// if (PIR3bits.SSP2IF) { |
// // Call the handler |
// SPI2_Recv_Interrupt_Handler(); |
// |
// // Clear the interrupt flag |
// PIR3bits.SSP2IF = 0; |
// |
// return; |
// } |
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// Check to see if we have an I2C interrupt |
if (PIR1bits.SSP1IF) { |
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// Call the handler |
I2C_Interrupt_Handler(); |
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// Clear the interrupt flag |
PIR1bits.SSP1IF = 0; |
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return; |
} |
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// // Check to see if we have an interrupt on USART1 RX |
// if (PIR1bits.RC1IF) { |
// // Call the interrupt handler |
// UART1_Recv_Interrupt_Handler(); |
// |
// // Clear the interrupt flag |
// PIR1bits.RC1IF = 0; |
// |
// return; |
// } |
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// // Check to see if we have an interrupt on USART1 TX |
// if (PIR1bits.TX1IF) { |
// // Call the interrupt handler |
// UART1_Send_Interrupt_Handler(); |
// |
// // Clear the interrupt flag |
// PIR1bits.TX1IF = 0; |
// |
// return; |
// } |
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// // Check to see if we have an interrupt on USART2 RX |
// if (PIR3bits.RC2IF) { |
// DBG_PRINT_INT("INT: UART2 RX\r\n"); |
// // Call the interrupt handler |
// uart_2_recv_interrupt_handler(); |
// |
// // Clear the interrupt flag |
// PIR3bits.RC2IF = 0; |
// } |
} |