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Ignore whitespace Rev 200 → Rev 201

/PIC Stuff/Cerebot_32MX7_LED_Cube/SPI1.c
3,16 → 3,15
#include "defines.h"
#include "SPI1.h"
 
static SPI1_DATA *data_ptr;
static void (*callback_function)(void);
static SPI1_DATA *spi_data_ptr;
 
void SPI1_Init(SPI1_DATA *data) {
data_ptr = data;
data_ptr->outBufferInd = 0;
data_ptr->outBufferLen = 0;
spi_data_ptr = data;
spi_data_ptr->outBufferInd = 0;
spi_data_ptr->outBufferLen = 0;
#ifndef SPI1_WRITE_ONLY
data_ptr->inBufferInd = 0;
data_ptr->inBufferLen = 0;
spi_data_ptr->inBufferInd = 0;
spi_data_ptr->inBufferLen = 0;
#endif
INTDisableInterrupts();
53,7 → 52,7
int SPI1_Read_Buffer(unsigned char *array, unsigned int count) {
if (count > SPI1_BUFFER_SIZE)
return 0;
if (data_ptr->inBufferLen == 0)
if (spi_data_ptr->inBufferLen == 0)
return 0;
 
// Save previous interrupt state
60,14 → 59,14
int prev = IEC0 & 0x03800000;
// Temporarily disable interrupts
IEC0CLR = 0x03800000;
int ret = data_ptr->inBufferLen;
int ret = spi_data_ptr->inBufferLen;
int i;
for (i = 0; i < count; i++) {
array[i] = data_ptr->inBuffer[i];
array[i] = spi_data_ptr->inBuffer[i];
}
// Reset buffer pointers
data_ptr->inBufferInd = 0;
data_ptr->inBufferLen = 0;
spi_data_ptr->inBufferInd = 0;
spi_data_ptr->inBufferLen = 0;
// Restore saved interrupt state
IEC0SET = prev;
// Return the number of valid bytes in the buffer
76,18 → 75,18
#endif
 
int SPI1_Write(unsigned char *array, unsigned int count, void (*callback)(void)) {
callback_function = callback;
spi_data_ptr->callback_function = callback;
 
if (count > SPI1_BUFFER_SIZE)
return 0;
if (data_ptr->outBufferLen != 0)
if (spi_data_ptr->outBufferLen != 0)
return 0;
 
data_ptr->outBufferLen = count;
data_ptr->outBufferInd = count-1;
spi_data_ptr->outBufferLen = count;
spi_data_ptr->outBufferInd = count-1;
int i;
for (i = 0; i < count; i++) {
data_ptr->outBuffer[i] = array[i];
spi_data_ptr->outBuffer[i] = array[i];
}
IEC0SET = 0x02000000; // Enable TX interrupt
return 1;
109,11 → 108,11
int i;
// Read the data received from the last transfer
int rxBufferCount = SPI1STATbits.RXBUFELM;
if (data_ptr->inBufferLen + rxBufferCount < SPI1_BUFFER_SIZE) {
if (spi_data_ptr->inBufferLen + rxBufferCount < SPI1_BUFFER_SIZE) {
for (i = 0; i < rxBufferCount; i++) {
data_ptr->inBuffer[data_ptr->inBufferInd] = SPI1BUF;
data_ptr->inBufferInd++;
data_ptr->inBufferLen++;
spi_data_ptr->inBuffer[spi_data_ptr->inBufferInd] = SPI1BUF;
spi_data_ptr->inBufferInd++;
spi_data_ptr->inBufferLen++;
}
} else {
// If buffer is full, discard data in enhanced buffer
129,25 → 128,25
if (IFS0bits.SPI1TXIF) {
int i;
// Disable the transmit interrupt if all data has been sent
if (data_ptr->outBufferLen == 0) {
if (spi_data_ptr->outBufferLen == 0) {
IEC0CLR=0x02000000;
if (callback_function != NULL)
(*callback_function)();
if (spi_data_ptr->callback_function != NULL)
(*spi_data_ptr->callback_function)();
} else {
// Start transmitting the data in the buffer
int txBufferFree = 16 - SPI1STATbits.TXBUFELM;
if (data_ptr->outBufferLen > txBufferFree) {
if (spi_data_ptr->outBufferLen > txBufferFree) {
for (i = 0; i < txBufferFree; i++) {
SPI1BUF = data_ptr->outBuffer[data_ptr->outBufferInd];
data_ptr->outBufferInd--;
SPI1BUF = spi_data_ptr->outBuffer[spi_data_ptr->outBufferInd];
spi_data_ptr->outBufferInd--;
}
data_ptr->outBufferLen -= txBufferFree;
spi_data_ptr->outBufferLen -= txBufferFree;
} else {
for (i = 0; i < data_ptr->outBufferLen; i++) {
SPI1BUF = data_ptr->outBuffer[data_ptr->outBufferInd];
data_ptr->outBufferInd--;
for (i = 0; i < spi_data_ptr->outBufferLen; i++) {
SPI1BUF = spi_data_ptr->outBuffer[spi_data_ptr->outBufferInd];
spi_data_ptr->outBufferInd--;
}
data_ptr->outBufferLen = 0;
spi_data_ptr->outBufferLen = 0;
}
}
IFS0CLR = 0x02000000; // Clear the TX flag