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• This comparison shows the changes necessary to convert path

  → /PIC Stuff/PICX_27J13/ @ 155

  → /PIC Stuff/PICX_27J13 @ 153

  ↔ Reverse comparison

• Compare Path:	Rev

  With Path:	Rev

Ignore whitespace Rev 155 → Rev 153

/PIC Stuff/PICX_27J13/xbee.h
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/PIC Stuff/PICX_27J13/temp_BMP085.h
File deleted

/PIC Stuff/PICX_27J13/i2c.h
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/PIC Stuff/PICX_27J13/led_HT16K33.c
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/PIC Stuff/PICX_27J13/glcdfont.c
File deleted

/PIC Stuff/PICX_27J13/led_HT16K33.h
File deleted

/PIC Stuff/PICX_27J13/oled_ssd1306.c
File deleted

/PIC Stuff/PICX_27J13/oled_ssd1331.c
File deleted

/PIC Stuff/PICX_27J13/oled_ssd1306.h
File deleted

/PIC Stuff/PICX_27J13/oled_ssd1331.h
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/PIC Stuff/PICX_27J13/interrupts.c
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/PIC Stuff/PICX_27J13/interrupts.h
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/PIC Stuff/PICX_27J13/spi.c
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/PIC Stuff/PICX_27J13/oled_NHD-0216KZW-AB5.c
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/PIC Stuff/PICX_27J13/nfc_PN532.c
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/PIC Stuff/PICX_27J13/spi.h
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/PIC Stuff/PICX_27J13/oled_NHD-0216KZW-AB5.h
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/PIC Stuff/PICX_27J13/nfc_PN532.h
File deleted

/PIC Stuff/PICX_27J13/lux_TSL2561.c
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/PIC Stuff/PICX_27J13/timers.h
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/PIC Stuff/PICX_27J13/timers.c
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/PIC Stuff/PICX_27J13/adc.c
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/PIC Stuff/PICX_27J13/lux_TSL2561.h
File deleted

/PIC Stuff/PICX_27J13/adc.h
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/PIC Stuff/PICX_27J13/xbee.c
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\ No newline at end of file

/PIC Stuff/PICX_27J13/temp_BMP085.c
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/PIC Stuff/PICX_27J13/i2c.c
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/PIC Stuff/PICX_27J13/defines.h
5,7 → 5,6
//#define UART1_RX_TO_XBEE
#define _DEBUG
//#define _TEST_UART
//#define _TEST_I2C_MASTER
//#define _TEST_I2C_SLAVE
14,41 → 13,28
//#define _TEST_LED_BACKPACK
//#define _TEST_SSD1306_OLED
//#define _TEST_SSD1331_OLED
//#define _TEST_TIMER1_RTC
//#define _TEST_LUX
//#define _TEST_OLED_CHAR
//#define _TEST_NFC_TO_SSD1306_OLED
//#define _TEST_LUX_TO_CHAR_OLED
//#define _TEST_ADC
//#define _TEST_BMP //TODO: Test this again once compiler is fixed
//#define _TEST_XBEE // TODO: Reimplement this
//#define _TEST_XBEE
//#define _TEST_BMP
// Enable or disable debug prints depending on project preprocessor (_DEBUG)
#ifdef _DEBUG
#define DBG_PRINT_MAIN UART1_WriteS
#define DBG_PRINT_UART UART1_WriteS
#define DBG_PRINT_I2C UART1_WriteS
#define DBG_PRINT_SPI UART1_WriteS
#define DBG_PRINT_XBEE UART1_WriteS
#define DBG_PRINT_PORTB_INT
#define DBG_PRINT_INT
#define DBG_PRINT_LUX
#define DBG_PRINT_BMP
#define DBG_PRINT_UART(x) UART1_WriteS(x)
#define DBG_PRINT_I2C(x) UART1_WriteS(x)
#define DBG_PRINT_SPI(x) UART1_WriteS(x)
#define DBG_PRINT_XBEE(x) UART1_WriteS(x)
#define DBG_PRINT_PORTB_INT(x)
#define DBG_PRINT_INT(x)
#define DBG_PRINT_BUFFER(x)
#else
#define DBG_PRINT_MAIN
#define DBG_PRINT_UART
#define DBG_PRINT_I2C
#define DBG_PRINT_SPI
#define DBG_PRINT_XBEE
#define DBG_PRINT_PORTB_INT
#define DBG_PRINT_INT
#define DBG_PRINT_LUX
#define DBG_PRINT_BMP
#define DBG_PRINT_MAIN(x)
#define DBG_PRINT_UART(x)
#define DBG_PRINT_I2C(x)
#define DBG_PRINT_SPI(x)
#define DBG_PRINT_XBEE(x)
#define DBG_PRINT_PORTB_INT(x)
#define DBG_PRINT_INT(x)
#define DBG_PRINT_BUFFER(x)
#endif
// Pin allocations

/PIC Stuff/PICX_27J13/funclist
1,22 → 1,4
_I2C_Interrupt_Master: CODE, 67304 0 1764
exp@coeff: MEDIUMCONST, 0 0 65155
__stringdata: MEDIUMCONST, 65206 0 329
_UART1_WriteS: CODE, 71142 0 64
_I2C_Interrupt_Slave: CODE, 65536 0 1768
_strlen: CODE, 71074 0 68
_font: MEDIUMCONST, 63824 0 1275
_UART1_Recv_Interrupt_Handler: CODE, 70092 0 428
_pn532response_firmwarevers: MEDIUMCONST, 65191 0 8
_main: CODE, 71210 0 4
_numbertable: MEDIUMCONST, 65099 0 10
_pn532ack: MEDIUMCONST, 65199 0 7
_I2C_Process_Send: CODE, 70520 0 164
_I2C_Interrupt_Handler: CODE, 71002 0 72
__initialization: CODE, 70822 0 90
_alphatable: MEDIUMCONST, 65109 0 6
_sprintf: CODE, 70918 0 84
_InterruptHandlerLow: CODE, 24 0 154
_Timer1_Interrupt_Handler: CODE, 71214 0 2
_InterruptHandlerHigh: CODE, 8 0 70814
log@coeff: MEDIUMCONST, 0 0 65191
Total: 207457
__stringdata: SMALLCONST, 3840 0 25
_main: CODE, 3866 0 224
__initialization: CODE, 4090 0 44
Total: 293

/PIC Stuff/PICX_27J13/main.c
1,21 → 1,8
#include <xc.h>
#include <delays.h>
#include <stdio.h>
#include <string.h>
#include "defines.h"
#include "interrupts.h"
#include "uart.h"
#include "i2c.h"
#include "spi.h"
#include "nfc_PN532.h"
#include "led_HT16K33.h"
#include "oled_ssd1306.h"
#include "oled_ssd1331.h"
#include "timers.h"
#include "lux_TSL2561.h"
#include "oled_NHD-0216KZW-AB5.h"
#include "adc.h"
#include "temp_BMP085.h"
// <editor-fold defaultstate="collapsed" desc="Configuration Bits">
/* --------------------------- Configuration Bits --------------------------- */
64,1006 → 51,11
#if defined(_TEST_UART)
int main() {
char buffer[100];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
char output[] = "\r\nBegin Program\r\n";
DBG_PRINT_MAIN(output, strlen(output));
while (1) {
char length = UART1_Read_Buffer((char *) buffer);
if (length != 0) {
UART1_WriteS(buffer, length);
}
Delay10KTCYx(255);
Delay10KTCYx(255);
}
}
#elif defined(_TEST_I2C_MASTER)
void main(void) {
char length = 0;
char result = 0;
char buffer[100];
char output[64];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
I2C_DATA i2c_data;
I2C_Init(&i2c_data); // Initialize the I2C handler code
I2C_Configure_Master(I2C_100KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
while (1) {
buffer[0] = 0x8;
I2C_Master_Send(0x24, 1, buffer);
do {
result = I2C_Get_Status();
} while (!result);
sprintf(output, "S: %X ", result);
DBG_PRINT_MAIN(output, strlen(output));
I2C_Master_Recv(0x24, 2);
do {
result = I2C_Get_Status();
} while (!result);
sprintf(output, "S: %X ", result);
DBG_PRINT_MAIN(output, strlen(output));
length = I2C_Read_Buffer(buffer);
sprintf(output, "L: %d D: ", length);
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < length; i++) {
sprintf(output, "%c ", buffer[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
I2C_Master_Restart(0x30, 0xBB, 2);
result = I2C_Get_Status();
while (!result) {
result = I2C_Get_Status();
}
sprintf(output, "S: %X ", result);
DBG_PRINT_MAIN(output, strlen(output));
length = I2C_Read_Buffer(buffer);
sprintf(output, "L: %d D: ", length);
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < length; i++) {
sprintf(output, "%c ", buffer[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
Delay10KTCYx(255);
Delay10KTCYx(255);
}
}
#elif defined(_TEST_I2C_SLAVE)
void main(void) {
char length = 0;
char result = 0;
char buffer[100];
char output[64];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
I2C_DATA i2c_data;
I2C_Init(&i2c_data); // Initialize the I2C handler code
I2C_Configure_Slave(0x24);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
while (1) {
result = I2C_Get_Status();
while (!result) {
result = I2C_Get_Status();
}
sprintf(output, "S: %X ", result);
DBG_PRINT_MAIN(output, strlen(output));
length = I2C_Read_Buffer(buffer);
sprintf(output, "L: %d D: ", length);
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < length; i++) {
sprintf(output, "%X ", buffer[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
Delay10KTCYx(255);
Delay10KTCYx(255);
}
}
#elif defined(_TEST_SPI)
void main(void) {
char length = 0;
char result = 0;
char buffer[100];
char output[64];
char test[8] = "ASDF123";
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
SPI_DATA spi_data;
SPI2_Init(&spi_data, SPI2_FOSC_8); // Initialize the SPI module
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
while (1) {
SPI2_Write(test, 7);
while (result != 7) {
length = SPI2_Read_Buffer(buffer);
if (length) {
result += length;
}
}
result = 0;
for (char i = 0; i < result; i++) {
sprintf(output, "%X ", buffer[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
Delay10KTCYx(255);
Delay10KTCYx(255);
}
}
#elif defined(_TEST_NFC)
void main(void) {
char length = 0;
char output[64];
// NFC stuff
NFC_FIRMWARE_VERSION version;
NFC_TargetDataMiFare cardData[2];
NFC_TargetDataMiFare cardData_prev[2];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
I2C_DATA i2c_data;
I2C_Init(&i2c_data); // Initialize the I2C handler code
NFC_DATA nfc_data;
NFC_Init(&nfc_data); // Initialize the NFC chip (uses I2C)
I2C_Configure_Master(I2C_400KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
version = NFC_Get_Firmware_Version();
while (!version.IC) {
sprintf(output, "Waiting for NFC board..\r\n");
DBG_PRINT_MAIN(output, strlen(output));
Delay10KTCYx(3);
version = NFC_Get_Firmware_Version();
}
sprintf(output, "Found chip PN5%X\r\n", version.IC);
DBG_PRINT_MAIN(output, strlen(output));
sprintf(output, "Firmware ver. %d.%d\r\n", version.Ver, version.Rev);
DBG_PRINT_MAIN(output, strlen(output));
NFC_SAMConfig();
memset(cardData, 0, 24);
while (1) {
// // This query will hang until the NFC chip replies (card detected)
// length = NFC_readPassiveTargetID(cardData);
// if (length) {
// DBG_PRINT_MAIN("Cards Found: %u\r\n", length);
// DBG_PRINT_MAIN("UID Length: %d bytes\r\n", cardData[0].NFCID_LEN);
// DBG_PRINT_MAIN("UID: ");
// for (i = 0; i < cardData[0].NFCID_LEN; i++) {
// DBG_PRINT_MAIN("%02X ", cardData[0].NFCID[i]);
// }
// DBG_PRINT_MAIN("\r\n");
// if (length == 2) {
// DBG_PRINT_MAIN("UID Length: %d bytes\r\n", cardData[1].NFCID_LEN);
// DBG_PRINT_MAIN("UID: ");
// for (i = 0; i < cardData[1].NFCID_LEN; i++) {
// DBG_PRINT_MAIN("%02X ", cardData[1].NFCID[i]);
// }
// DBG_PRINT_MAIN("\r\n");
// }
// }
// // This query will hang until the NFC chip replies (card detected)
// length = NFC_readPassiveTargetID(cardData);
// if (length) {
// DBG_PRINT_MAIN("Cards Found: %u\r\n", length);
// DBG_PRINT_MAIN("UID Length: %d bytes\r\n", cardData[0].NFCID_LEN);
// DBG_PRINT_MAIN("UID: ");
// for (i = 0; i < cardData[0].NFCID_LEN; i++) {
// DBG_PRINT_MAIN("%02X ", cardData[0].NFCID[i]);
// }
// DBG_PRINT_MAIN("\r\n");
// if (length == 2) {
// DBG_PRINT_MAIN("UID Length: %d bytes\r\n", cardData[1].NFCID_LEN);
// DBG_PRINT_MAIN("UID: ");
// for (i = 0; i < cardData[1].NFCID_LEN; i++) {
// DBG_PRINT_MAIN("%02X ", cardData[1].NFCID[i]);
// }
// DBG_PRINT_MAIN("\r\n");
// }
// }
// This query will not wait for a detection before responding
length = NFC_Poll_Targets(1, 1, cardData);
if (!length) {
memset(cardData_prev, 0, 24);
} else if (length == 1) {
if (memcmp(&cardData[0].NFCID, &cardData_prev[0].NFCID, cardData[0].NFCID_LEN) == 0) {
// Do nothing
} else if (memcmp(&cardData[0].NFCID, &cardData_prev[1].NFCID, cardData[0].NFCID_LEN) == 0) {
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
} else {
sprintf(output, "UID: ");
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < cardData[0].NFCID_LEN; i++) {
sprintf(output, "%02X ", cardData[0].NFCID[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
}
memset(&cardData_prev[1], 0, 12);
} else if (length == 2) {
if (memcmp(&cardData[0].NFCID, &cardData_prev[0].NFCID, cardData[0].NFCID_LEN) == 0 &&
memcmp(&cardData[1].NFCID, &cardData_prev[1].NFCID, cardData[1].NFCID_LEN) == 0) {
// Do nothing
} else if (memcmp(&cardData[0].NFCID, &cardData_prev[1].NFCID, cardData[0].NFCID_LEN) == 0 &&
memcmp(&cardData[1].NFCID, &cardData_prev[0].NFCID, cardData[1].NFCID_LEN) == 0) {
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
memcpy((char *) &cardData_prev[1], (const char *) &cardData[1], 12);
} else if (memcmp(&cardData[0].NFCID, &cardData_prev[0].NFCID, cardData[0].NFCID_LEN) == 0) {
// First card matched
sprintf(output, "UID2: ");
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < cardData[1].NFCID_LEN; i++) {
sprintf(output, "%02X ", cardData[1].NFCID[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
memcpy(&cardData_prev[1], (const char *) &cardData[1], 12);
} else if (memcmp(&cardData[1].NFCID, &cardData_prev[1].NFCID, cardData[1].NFCID_LEN) == 0) {
// Second card matched
sprintf(output, "UID1: ");
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < cardData[0].NFCID_LEN; i++) {
sprintf(output, "%02X ", cardData[0].NFCID[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
} else {
// No match
sprintf(output, "UID1: ");
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < cardData[0].NFCID_LEN; i++) {
sprintf(output, "%02X ", cardData[0].NFCID[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
sprintf(output, "UID2: ");
DBG_PRINT_MAIN(output, strlen(output));
for (char i = 0; i < cardData[1].NFCID_LEN; i++) {
sprintf(output, "%02X ", cardData[1].NFCID[i]);
DBG_PRINT_MAIN(output, strlen(output));
}
sprintf(output, "\r\n");
DBG_PRINT_MAIN(output, strlen(output));
memcpy((char *) &cardData_prev[1], (const char *) &cardData[1], 12);
}
}
}
}
#elif defined(_TEST_LED_BACKPACK)
void main(void) {
unsigned int counter = 0;
char output[64];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
I2C_DATA i2c_data;
I2C_Init(&i2c_data); // Initialize the I2C handler code
LED_DATA led_data;
LED_Init(&led_data); // Initialize the LED backpack (uses I2C);
I2C_Configure_Master(I2C_400KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
LED_Start();
LED_Write_Digit_Num(0, 1, 1);
LED_Write_Digit_Num(1, 2, 0);
LED_Write_Digit_Num(2, 3, 0);
LED_Write_Digit_Num(3, 4, 0);
LED_Write_Display();
for (char i = 0; i < 15; i++) {
LED_Set_Brightness(15 - i);
Delay10KTCYx(100);
}
for (char i = 0; i < 15; i++) {
LED_Set_Brightness(i);
Delay10KTCYx(100);
}
LED_Blink_Rate(HT16K33_BLINK_OFF);
while (1) {
LED_Write_Num(counter);
counter++;
if (counter > 9999)
counter = 0;
// Delay10KTCYx(255);
}
}
#elif defined(_TEST_SSD1306_OLED)
void main(void) {
char output[64];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
SPI_DATA spi_data;
SPI2_Init(&spi_data, SPI2_FOSC_4); // Initialize the SPI module
SSD1306_DATA ssd1306_data;
SSD1306_Init(&ssd1306_data); // Initialize the OLED code
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
SSD1306_Begin(SSD1306_SWITCHCAPVCC);
SSD1306_Display(); // Show splashscreen
while (1) {
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_DrawLine();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_DrawRect();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_FillRect();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_DrawCircle();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Fill_Circle(SSD1306_LCDWIDTH / 2, SSD1306_LCDHEIGHT / 2, 10, SSD1306_WHITE);
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_DrawRoundRect();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_FillRoundRect();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_DrawTriangle();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_FillTriangle();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Test_DrawChar();
SSD1306_Display();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1306_Clear_Display();
SSD1306_Set_Text_Size(1);
SSD1306_Set_Text_Color(SSD1306_WHITE);
SSD1306_Set_Cursor(0, 0);
sprintf(output, "Hello World!\n");
SSD1306_Write_String(output, strlen(output));
// SSD1306_Set_Text_Color_BG(BLACK, WHITE);
unsigned int i = 65535;
sprintf(output, "%u %d\n", i, i);
SSD1306_Write_String(output, strlen(output));
// SSD1306_Set_Text_Size(2);
// SSD1306_Set_Text_Color(WHITE);
unsigned long l = 0xDEADBEEF;
sprintf(output, "0x%lX", (long) l);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
// SSD1306_Clear_Display();
// SSD1306_Set_Rotation(0);
// SSD1306_Set_Text_Size(1);
// SSD1306_Set_Text_Color(SSD1306_WHITE);
// SSD1306_Set_Cursor(0, 0);
// SSD1306_Write_String("%u", i);
// i++;
// SSD1306_Display();
}
}
#elif defined(_TEST_SSD1331_OLED)
void main(void) {
char output[128];
// Set all ports as digial I/O
ANCON0 = 0xFF;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
SPI_DATA spi_data;
SPI2_Init(&spi_data, SPI2_FOSC_64); // Initialize the SPI module
SSD1331_DATA ssd1331_data;
SSD1331_Init(&ssd1331_data); // Initialize the OLED code
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
SSD1331_Begin();
while (1) {
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Test_Pattern();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Clear_Display();
SSD1331_Set_Rotation(0);
SSD1331_Set_Cursor(0, 0);
// TODO: Figure out why this isnt working (probably a compiler issue)
sprintf(output, "Lorem ipsum dolor sit amet, consectetur adipiscing elit. Curabit adipiscing ante sed nibh tincidunt feugiat.");
DBG_PRINT_MAIN(output, strlen(output));
// Delay10KTCYx(255);
// Delay10KTCYx(255);
// SSD1331_Clear_Display();
// SSD1331_Set_Rotation(3);
// SSD1331_Set_Cursor(0, 0);
// SSD1331_Write_String("Lorem ipsum dolor sit amet, consectetur adipiscing elit. Curabitur adipiscing ante sed nibh tincidunt feugiat. Maecenas enim massa");
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Test_DrawLines(SSD1331_YELLOW);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(3);
SSD1331_Test_DrawLines(SSD1331_BLUE);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Test_DrawRect(SSD1331_GREEN);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(1);
SSD1331_Test_DrawRect(SSD1331_RED);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(2);
SSD1331_Test_DrawRect(SSD1331_BLUE);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(3);
SSD1331_Test_DrawRect(SSD1331_YELLOW);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Test_FillRect(SSD1331_YELLOW, SSD1331_MAGENTA);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(3);
SSD1331_Test_FillRect(SSD1331_BLUE, SSD1331_GREEN);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Clear_Display();
SSD1331_Test_FillCircle(10, SSD1331_BLUE);
SSD1331_Test_DrawCircle(10, SSD1331_WHITE);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(3);
SSD1331_Clear_Display();
SSD1331_Test_FillCircle(10, SSD1331_MAGENTA);
SSD1331_Test_DrawCircle(10, SSD1331_YELLOW);
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Test_DrawTria();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(3);
SSD1331_Test_DrawTria();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(0);
SSD1331_Test_DrawRoundRect();
Delay10KTCYx(255);
Delay10KTCYx(255);
SSD1331_Set_Rotation(3);
SSD1331_Test_DrawRoundRect();
// SSD1331_Clear_Display();
// SSD1331_Set_Rotation(3);
// SSD1331_Set_Cursor(0,0);
// SSD1331_Set_Text_Color_BG(SSD1331_WHITE, SSD1331_BLACK);
// SSD1331_Write_String("%u", i);
// i++;
}
}
#elif defined(_TEST_TIMER1_RTC)
void main(void) {
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xF8;
ANCON1 = 0x1F;
Timer1_Init();
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
LED_BLUE_TRIS = 0;
LED_RED_TRIS = 0;
Timer1_Enable();
while (1) {
}
}
#elif defined(_TEST_LUX)
void main(void) {
char output[64];
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xF8;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data);
I2C_DATA i2c_data;
I2C_Init(&i2c_data);
TSL2561_DATA lux_data;
LUX_Init(&lux_data, TSL2561_ADDR_FLOAT);
I2C_Configure_Master(I2C_100KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
LUX_Begin();
// You can change the gain on the fly, to adapt to brighter/dimmer light situations
// LUX_Set_Gain(TSL2561_GAIN_0X); // set no gain (for bright situtations)
LUX_Set_Gain(TSL2561_GAIN_16X); // set 16x gain (for dim situations)
// Changing the integration time gives you a longer time over which to sense light
// longer timelines are slower, but are good in very low light situtations!
// LUX_Set_Timing(TSL2561_INTEGRATIONTIME_13MS); // shortest integration time (bright light)
LUX_Set_Timing(TSL2561_INTEGRATIONTIME_101MS); // medium integration time (medium light)
// LUX_Set_Timing(TSL2561_INTEGRATIONTIME_402MS); // longest integration time (dim light)
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
while (1) {
unsigned long lum = LUX_Get_Full_Luminosity();
unsigned int ir = lum >> 16;
unsigned int full = lum & 0xFFFF;
sprintf(output, "IR: %d\r\n", ir);
DBG_PRINT_MAIN(output, strlen(output));
sprintf(output, "Visible: %d\r\n", full - ir);
DBG_PRINT_MAIN(output, strlen(output));
sprintf(output, "Full: %d\r\n", full);
DBG_PRINT_MAIN(output, strlen(output));
sprintf(output, "Lux: %ld\r\n\r\n", LUX_Calculate_Lux(full, ir));
DBG_PRINT_MAIN(output, strlen(output));
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
}
}
#elif defined(_TEST_OLED_CHAR)
void main(void) {
char output[64];
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xFF;
ANCON1 = 0x1F;
// UART1_Init();
OLED_CHAR_DATA oled_data;
NHD_Init(&oled_data);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
NHD_Begin(16, 2);
sprintf(output, "Lorem ipsum dolor sit amet, consectetur adipisicing elit, sed do");
NHD_Write_String(output, strlen(output));
NHD_Set_Cursor(0,1);
sprintf(output, "eiusmod tempor incididunt ut labore et dolore magna aliqua. Ut e");
NHD_Write_String(output, strlen(output));
while (1) {
Delay10KTCYx(150);
NHD_Scroll_Display_Left();
}
}
#elif defined(_TEST_NFC_TO_SSD1306_OLED)
void main(void) {
char output[64];
// NFC stuff
NFC_FIRMWARE_VERSION version;
NFC_TargetDataMiFare cardData[2];
NFC_TargetDataMiFare cardData_prev[2];
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xF8;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data);
I2C_DATA i2c_data;
I2C_Init(&i2c_data);
NFC_DATA nfc_data;
NFC_Init(&nfc_data);
SPI_DATA spi_data;
SPI2_Init(&spi_data, SPI2_FOSC_4);
SSD1306_DATA ssd1306_data;
SSD1306_Init(&ssd1306_data);
I2C_Configure_Master(I2C_400KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(output, "\r\nBegin Program\r\n");
DBG_PRINT_MAIN(output, strlen(output));
SSD1306_Begin(SSD1306_SWITCHCAPVCC);
memset(cardData, 0, 24);
memset(cardData_prev, 0, 24);
SSD1306_Clear_Display();
SSD1306_Set_Rotation(0);
SSD1306_Set_Cursor(0, 0);
version = NFC_Get_Firmware_Version();
while (!version.IC) {
sprintf(output, "Waiting for NFC board..\n");
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
Delay10KTCYx(255);
version = NFC_Get_Firmware_Version();
}
sprintf(output, "PN5%X Ver. %d.%d\n", version.IC, version.Ver, version.Rev);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
NFC_SAMConfig();
while (1) {
// This query will not wait for a detection before responding
char length = NFC_Poll_Targets(1, 1, cardData);
if (!length) {
memset(cardData_prev, 0, 24);
} else if (length == 1) {
if (memcmp(&cardData[0].NFCID, &cardData_prev[0].NFCID, cardData[0].NFCID_LEN) == 0) {
// Do nothing
} else if (memcmp(&cardData[0].NFCID, &cardData_prev[1].NFCID, cardData[0].NFCID_LEN) == 0) {
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
} else {
sprintf(output, "UID: %02X %02X %02X %02X\n", cardData[0].NFCID[0], cardData[0].NFCID[1], cardData[0].NFCID[2], cardData[0].NFCID[3]);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
}
memset(&cardData_prev[1], 0, 12);
} else if (length == 2) {
if (memcmp(&cardData[0].NFCID, &cardData_prev[0].NFCID, cardData[0].NFCID_LEN) == 0 &&
memcmp(&cardData[1].NFCID, &cardData_prev[1].NFCID, cardData[1].NFCID_LEN) == 0) {
// Do nothing
} else if (memcmp(&cardData[0].NFCID, &cardData_prev[1].NFCID, cardData[0].NFCID_LEN) == 0 &&
memcmp(&cardData[1].NFCID, &cardData_prev[0].NFCID, cardData[1].NFCID_LEN) == 0) {
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
memcpy((char *) &cardData_prev[1], (const char *) &cardData[1], 12);
} else if (memcmp(&cardData[0].NFCID, &cardData_prev[0].NFCID, cardData[0].NFCID_LEN) == 0) {
// First card matched
sprintf(output, "UID: %02X %02X %02X %02X\n", cardData[1].NFCID[0], cardData[1].NFCID[1], cardData[1].NFCID[2], cardData[1].NFCID[3]);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
memcpy(&cardData_prev[1], (const char *) &cardData[1], 12);
} else if (memcmp(&cardData[1].NFCID, &cardData_prev[1].NFCID, cardData[1].NFCID_LEN) == 0) {
// Second card matched
sprintf(output, "UID: %02X %02X %02X %02X\n", cardData[0].NFCID[0], cardData[0].NFCID[1], cardData[0].NFCID[2], cardData[0].NFCID[3]);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
} else {
// No match
sprintf(output, "UID: %02X %02X %02X %02X\n", cardData[0].NFCID[0], cardData[0].NFCID[1], cardData[0].NFCID[2], cardData[0].NFCID[3]);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
memcpy((char *) &cardData_prev[0], (const char *) &cardData[0], 12);
sprintf(output, "UID: %02X %02X %02X %02X\n", cardData[1].NFCID[0], cardData[1].NFCID[1], cardData[1].NFCID[2], cardData[1].NFCID[3]);
SSD1306_Write_String(output, strlen(output));
SSD1306_Display();
memcpy((char *) &cardData_prev[1], (const char *) &cardData[1], 12);
}
}
}
}
#elif defined(_TEST_LUX_TO_CHAR_OLED)
void main(void) {
char output[64];
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xF8;
ANCON1 = 0x1F;
I2C_DATA i2c_data;
I2C_Init(&i2c_data);
OLED_CHAR_DATA oled_data;
NHD_Init(&oled_data);
TSL2561_DATA lux_data;
LUX_Init(&lux_data, TSL2561_ADDR_FLOAT);
I2C_Configure_Master(I2C_400KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
NHD_Begin(16, 2);
// You can change the gain on the fly, to adapt to brighter/dimmer light situations
// LUX_SetGain(TSL2561_GAIN_0X); // set no gain (for bright situtations)
LUX_Set_Gain(TSL2561_GAIN_16X); // set 16x gain (for dim situations)
// Changing the integration time gives you a longer time over which to sense light
// longer timelines are slower, but are good in very low light situtations!
// LUX_SetTiming(TSL2561_INTEGRATIONTIME_13MS); // shortest integration time (bright light)
LUX_Set_Timing(TSL2561_INTEGRATIONTIME_101MS); // medium integration time (medium light)
// LUX_SetTiming(TSL2561_INTEGRATIONTIME_402MS); // longest integration time (dim light)
while (1) {
unsigned long lum = LUX_Get_Full_Luminosity();
unsigned int ir = lum >> 16;
unsigned int full = lum & 0xFFFF;
NHD_Set_Cursor(0, 0);
sprintf(output, "I: %d ", ir);
NHD_Write_String(output, strlen(output));
sprintf(output, "V: %d ", full - ir);
NHD_Write_String(output, strlen(output));
NHD_Set_Cursor(0, 1);
sprintf(output, "Lux: %ld ", LUX_Calculate_Lux(full, ir));
NHD_Write_String(output, strlen(output));
Delay10KTCYx(100);
}
}
#elif defined(_TEST_ADC)
void main(void) {
unsigned int x, y, z;
char buffer[60];
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xF8;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data); // Initialize the UART handler code
SPI_DATA spi_data;
SPI2_Init(&spi_data, SPI2_FOSC_8); // Initialize the SPI module
SSD1306_DATA ssd1306_data;
SSD1306_Init(&ssd1306_data); // Initialize the SSD1331 OLED display (uses SPI2)
ADC_DATA adc_data;
ADC_Init(&adc_data, ADC_TAD_20, ADC_FOSC_64_);
SSD1306_Begin(SSD1306_SWITCHCAPVCC);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
sprintf(buffer, "\r\nBegin Program\r\n");
SSD1306_Write_String(buffer, strlen(buffer));
memset(buffer, 0, 60);
SSD1306_Clear_Display();
SSD1306_Display();
while (1) {
// ADC read from AN0-AN2 and prints to display
ADC_Start(ADC_CHANNEL_AN2);
// SSD1306_Fill_Rect(0, 0, SSD1306_LCDWIDTH, 8, SSD1331_BLACK);
SSD1306_Set_Cursor(0, 0);
while (!ADC_Get_Result(&x));
sprintf(buffer, "X: %u", x);
SSD1306_Write_String(buffer, strlen(buffer));
SSD1306_Display();
ADC_Start(ADC_CHANNEL_AN1);
// SSD1306_Fill_Rect(0, 8, SSD1306_LCDWIDTH, 8, SSD1331_BLACK);
SSD1306_Set_Cursor(0, 8);
while (!ADC_Get_Result(&y));
sprintf(buffer, "Y: %u", y);
SSD1306_Write_String(buffer, strlen(buffer));
SSD1306_Display();
ADC_Start(ADC_CHANNEL_AN0);
// SSD1306_Fill_Rect(0, 16, SSD1306_LCDWIDTH, 8, SSD1331_BLACK);
SSD1306_Set_Cursor(0, 16);
while (!ADC_Get_Result(&z));
sprintf(buffer, "Z: %u", z);
SSD1306_Write_String(buffer, strlen(buffer));
SSD1306_Display();
}
}
#elif defined(_TEST_BMP)
void main(void) {
char output[64];
// Set all ports as digial I/O except for AN0-AN2 (pins 2-4)
ANCON0 = 0xF8;
ANCON1 = 0x1F;
UART_DATA uart_data;
UART1_Init(&uart_data);
I2C_DATA i2c_data;
I2C_Init(&i2c_data);
BMP085_DATA bmp_data;
BMP_Init(&bmp_data);
I2C_Configure_Master(I2C_100KHZ);
Interrupt_Init(); // Initialize the interrupt priorities
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
BMP_Begin(BMP085_ULTRAHIGHRES);
while (1) {
sprintf(output, "Temp: %f *C\r\n", BMP_Read_Temperature());
DBG_PRINT_MAIN(output, strlen(output));
sprintf(output, "Pressure: %ld Pa\r\n", BMP_Read_Pressure());
DBG_PRINT_MAIN(output, strlen(output));
sprintf(output, "Altitude: %f meters\r\n", BMP_Read_Altitude(101592));
DBG_PRINT_MAIN(output, strlen(output));
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
}
}
#elif defined(_TEST_XBEE)
void main(void) {
unsigned int i, length = 0;
buffer[0] = 1;
unsigned char length = 12345;
unsigned char buffer[100];
float f = 3.1415;
XBEE_RX_AT_COMMAND_RESPONSE_FRAME *rx_at_cmd_response_frame;
XBEE_RX_DATA_PACKET_FRAME *rx_data_frame;
XBEE_RX_DATA_TX_STATUS_FRAME *rx_tx_status_frame;
XBEE_RX_REMOTE_AT_COMMAND_FRAME *rx_remote_at_cmd_frame;
XBEE_RX_NODE_IDENTIFICATION_INDICATOR_FRAME *rx_node_ident_frame;
XBEE_RX_MODEM_STATUS_FRAME *rx_modem_status_frame;
/* --------------------- Oscillator Configuration --------------------- */
// OSCTUNEbits.PLLEN = 1; // Enable 4x PLL
OSCCONbits.IRCF = 0b111; // Set INTOSC postscaler to 8MHz
1075,142 → 67,75
ANCON1 = 0x1F;
UART1_Init(); // Initialize the UART handler code
XBee_Init();
Interrupt_Enable(); // Enable high-priority interrupts and low-priority interrupts
Interrupt_Init(); // Initialize the interrupt priorities
// interrupt_enable(); // Enable high-priority interrupts and low-priority interrupts
// interrupt_init(); // Initialize the interrupt priorities
DBG_PRINT_MAIN("\r\nBegin Program\r\n");
// DBG_PRINT_MAIN("\r\nBegin Program\r\n");
// DBG_PRINT_MAIN("%d\r\n", length);
// printf("asf\r\n");
while (1) {
//#define _ROUTER
#define _COORDINATOR
#ifdef _ROUTER
XBEE_TX_DATA_PACKET_FRAME *tx_data_frame;
tx_data_frame = (void *) buffer;
tx_data_frame->frame_type = XBEE_TX_DATA_PACKET;
tx_data_frame->frame_id = 1;
tx_data_frame->destination_64.UPPER_32.long_value = 0x00000000;
tx_data_frame->destination_64.LOWER_32.long_value = 0x00000000;
tx_data_frame->destination_16.INT_16.int_value = 0xFEFF;
tx_data_frame->broadcast_radius = 0;
tx_data_frame->options = 0;
tx_data_frame->data[0] = 0x54;
tx_data_frame->data[1] = 0x78;
tx_data_frame->data[2] = 0x32;
tx_data_frame->data[3] = 0x43;
tx_data_frame->data[4] = 0x6F;
tx_data_frame->data[5] = 0x6F;
tx_data_frame->data[6] = 0x72;
tx_data_frame->data[7] = 0x11;
XBee_Process_Transmit_Frame(buffer, XBEE_TX_DATA_PACKET_FRAME_SIZE + 8);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
Delay10KTCYx(255);
#endif
#ifdef _COORDINATOR
length = XBee_Get_Received_Frame(buffer);
if (length != 0) {
switch (*(unsigned char *) buffer) {
case XBEE_RX_AT_COMMAND_RESPONSE:
DBG_PRINT_MAIN("XBEE: parsing recieved AT command response frame\r\n");
rx_at_cmd_response_frame = (void *) buffer;
DBG_PRINT_MAIN("Frame ID: %u\r\n", rx_at_cmd_response_frame->frame_id);
DBG_PRINT_MAIN("AT Command: %c%c Status: %02X\r\n", rx_at_cmd_response_frame->command[0], \\
rx_at_cmd_response_frame->command[1], rx_at_cmd_response_frame->command_status);
if (length > XBEE_RX_AT_COMMAND_RESPONSE_FRAME_SIZE) {
DBG_PRINT_MAIN("Command Data: ");
for (i = 0; i < length - XBEE_RX_AT_COMMAND_RESPONSE_FRAME_SIZE; i++) {
DBG_PRINT_MAIN("%02X ", rx_at_cmd_response_frame->data[i]);
}
DBG_PRINT_MAIN("\r\n");
}
break;
case XBEE_RX_DATA_PACKET:
DBG_PRINT_MAIN("XBEE: parsing recieved data recieved frame\r\n");
rx_data_frame = (void *) buffer;
XBee_Convert_Endian_64(&(rx_data_frame->source_64));
XBee_Convert_Endian_16(&(rx_data_frame->source_16));
DBG_PRINT_MAIN("Source 64: %08lX %08lX Source 16: %04X Options: %02X\r\n", \\
rx_data_frame->source_64.UPPER_32.long_value, \\
rx_data_frame->source_64.LOWER_32.long_value, \\
rx_data_frame->source_16.INT_16.int_value, \\
rx_data_frame->recieve_options);
DBG_PRINT_MAIN("Data: ");
for (i = 0; i < length - XBEE_RX_DATA_PACKET_FRAME_SIZE; i++) {
DBG_PRINT_MAIN("%02X ", rx_data_frame->data[i]);
}
DBG_PRINT_MAIN("\r\n");
break;
case XBEE_RX_DATA_TX_STATUS:
DBG_PRINT_MAIN("XBEE: parsing recieved TX status frame\r\n");
rx_tx_status_frame = (void *) buffer;
XBee_Convert_Endian_16(&(rx_tx_status_frame->destination_16));
DBG_PRINT_MAIN("Frame ID: %u Destination 16: %04X\r\n", \\
rx_tx_status_frame->frame_id, rx_tx_status_frame->destination_16.INT_16.int_value);
DBG_PRINT_MAIN("Transmit Retry Count: %02X Delivery Status: %02X Discovery Status: %02X\r\n", \\
rx_tx_status_frame->transmit_retry_count, rx_tx_status_frame->delivery_status, \\
rx_tx_status_frame->discovery_status);
break;
case XBEE_RX_IO_DATA_SAMPLE:
DBG_PRINT_MAIN("XBEE: parsing recieved IO data sample frame\r\n");
break;
case XBEE_RX_EXPLICIT_COMMAND:
DBG_PRINT_MAIN("XBEE: parsing recieved explicit command frame\r\n");
break;
case XBEE_RX_REMOTE_AT_COMMAND_RESPONSE:
DBG_PRINT_MAIN("XBEE: parsing recieved remote AT command frame\r\n");
rx_remote_at_cmd_frame = (void *) buffer;
break;
case XBEE_RX_ROUTE_RECORD:
DBG_PRINT_MAIN("XBEE: parsing recieved route record frame\r\n");
break;
case XBEE_RX_NODE_IDENTIFICATION:
DBG_PRINT_MAIN("XBEE: parsing recieved node identification frame\r\n");
rx_node_ident_frame = (void *) buffer;
XBee_Convert_Endian_64(&(rx_node_ident_frame->source_64));
XBee_Convert_Endian_16(&(rx_node_ident_frame->source_16));
XBee_Convert_Endian_64(&(rx_node_ident_frame->remote_64));
XBee_Convert_Endian_16(&(rx_node_ident_frame->remote_16));
XBee_Convert_Endian_16(&(rx_node_ident_frame->parent_16));
DBG_PRINT_MAIN("Source 64: %08lX %08lX Source 16: %04X Options: %02X\r\n", \\
rx_node_ident_frame->source_64.UPPER_32.long_value, \\
rx_node_ident_frame->source_64.LOWER_32.long_value, \\
rx_node_ident_frame->source_16.INT_16.int_value, \\
rx_node_ident_frame->recieve_options);
DBG_PRINT_MAIN("Remote 64: %08lX %08lX Remote 16: %04X Parent 16: %04X\r\n", \\
rx_node_ident_frame->remote_64.UPPER_32.long_value, \\
rx_node_ident_frame->remote_64.LOWER_32.long_value, \\
rx_node_ident_frame->remote_16.INT_16.int_value, \\
rx_node_ident_frame->parent_16.INT_16.int_value);
DBG_PRINT_MAIN("Device Type: %02X Source Event: %02X\r\n", \\
rx_node_ident_frame->device_type, rx_node_ident_frame->source_event);
break;
case XBEE_RX_FRAME_MODEM_STATUS:
DBG_PRINT_MAIN("XBEE: parsing recieved modem status frame\r\n");
rx_modem_status_frame = (void *) buffer;
DBG_PRINT_MAIN("Status: %02X\r\n", rx_modem_status_frame->status);
break;
default:
DBG_PRINT_MAIN("??\r\n");
break;
}
}
#endif
// length = UART1_Read_Buffer((unsigned char *) buffer);
// if (length != 0) {
// UART1_WriteB((char *) buffer, length);
// }
//
// Delay10KTCYx(255);
// Delay10KTCYx(255);
}
}
#elif defined(_TEST_I2C_MASTER)
int main() {
char buffer[100];
buffer[0] = 1;
}
#else
int main() {
char buffer[255];
char buffer1[255];
char buffer2[255];
char buffer3[255];
char buffer4[255];
char buffer5[255];
char buffer6[255];
char buffer7[255];
char buffer8[255];
char buffer9[255];
char buffer10[255];
char buffer11[255];
char buffer12[100];
char buffer13[100];
char buffer14[50];
char buffer15[50];
char buffer16[50];
char buffer17[40];
char buffer18[20];
buffer[0] = 1;
buffer1[0] = 1;
buffer2[0] = 1;
buffer3[0] = 1;
buffer4[0] = 1;
buffer5[0] = 1;
buffer6[0] = 1;
buffer7[0] = 1;
buffer8[0] = 1;
buffer9[0] = 1;
buffer10[0] = 1;
buffer11[0] = 1;
buffer12[0] = 1;
buffer13[0] = 1;
buffer14[0] = 1;
buffer15[0] = 1;
buffer16[0] = 1;
buffer17[0] = 1;
buffer18[0] = 1;
}
#endif
void putch(char data) {
while (!TXIF)
continue;
TXREG = data;
}

/PIC Stuff/PICX_27J13/nbproject/Makefile-default.mk
45,11 → 45,11
DISTDIR=dist/${CND_CONF}/${IMAGE_TYPE}
# Object Files Quoted if spaced
OBJECTFILES_QUOTED_IF_SPACED=${OBJECTDIR}/main.p1 ${OBJECTDIR}/uart.p1 ${OBJECTDIR}/i2c.p1 ${OBJECTDIR}/spi.p1 ${OBJECTDIR}/interrupts.p1 ${OBJECTDIR}/led_HT16K33.p1 ${OBJECTDIR}/nfc_PN532.p1 ${OBJECTDIR}/oled_ssd1306.p1 ${OBJECTDIR}/oled_ssd1331.p1 ${OBJECTDIR}/timers.p1 ${OBJECTDIR}/lux_TSL2561.p1 ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1 ${OBJECTDIR}/adc.p1 ${OBJECTDIR}/temp_BMP085.p1
POSSIBLE_DEPFILES=${OBJECTDIR}/main.p1.d ${OBJECTDIR}/uart.p1.d ${OBJECTDIR}/i2c.p1.d ${OBJECTDIR}/spi.p1.d ${OBJECTDIR}/interrupts.p1.d ${OBJECTDIR}/led_HT16K33.p1.d ${OBJECTDIR}/nfc_PN532.p1.d ${OBJECTDIR}/oled_ssd1306.p1.d ${OBJECTDIR}/oled_ssd1331.p1.d ${OBJECTDIR}/timers.p1.d ${OBJECTDIR}/lux_TSL2561.p1.d ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d ${OBJECTDIR}/adc.p1.d ${OBJECTDIR}/temp_BMP085.p1.d
OBJECTFILES_QUOTED_IF_SPACED=${OBJECTDIR}/main.p1 ${OBJECTDIR}/uart.p1
POSSIBLE_DEPFILES=${OBJECTDIR}/main.p1.d ${OBJECTDIR}/uart.p1.d
# Object Files
OBJECTFILES=${OBJECTDIR}/main.p1 ${OBJECTDIR}/uart.p1 ${OBJECTDIR}/i2c.p1 ${OBJECTDIR}/spi.p1 ${OBJECTDIR}/interrupts.p1 ${OBJECTDIR}/led_HT16K33.p1 ${OBJECTDIR}/nfc_PN532.p1 ${OBJECTDIR}/oled_ssd1306.p1 ${OBJECTDIR}/oled_ssd1331.p1 ${OBJECTDIR}/timers.p1 ${OBJECTDIR}/lux_TSL2561.p1 ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1 ${OBJECTDIR}/adc.p1 ${OBJECTDIR}/temp_BMP085.p1
OBJECTFILES=${OBJECTDIR}/main.p1 ${OBJECTDIR}/uart.p1
CFLAGS=
86,90 → 86,6
@-${MV} ${OBJECTDIR}/uart.d ${OBJECTDIR}/uart.p1.d
@${FIXDEPS} ${OBJECTDIR}/uart.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/i2c.p1: i2c.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/i2c.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/i2c.p1 i2c.c
@-${MV} ${OBJECTDIR}/i2c.d ${OBJECTDIR}/i2c.p1.d
@${FIXDEPS} ${OBJECTDIR}/i2c.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/spi.p1: spi.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/spi.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/spi.p1 spi.c
@-${MV} ${OBJECTDIR}/spi.d ${OBJECTDIR}/spi.p1.d
@${FIXDEPS} ${OBJECTDIR}/spi.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/interrupts.p1: interrupts.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/interrupts.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/interrupts.p1 interrupts.c
@-${MV} ${OBJECTDIR}/interrupts.d ${OBJECTDIR}/interrupts.p1.d
@${FIXDEPS} ${OBJECTDIR}/interrupts.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/led_HT16K33.p1: led_HT16K33.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/led_HT16K33.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/led_HT16K33.p1 led_HT16K33.c
@-${MV} ${OBJECTDIR}/led_HT16K33.d ${OBJECTDIR}/led_HT16K33.p1.d
@${FIXDEPS} ${OBJECTDIR}/led_HT16K33.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/nfc_PN532.p1: nfc_PN532.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/nfc_PN532.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/nfc_PN532.p1 nfc_PN532.c
@-${MV} ${OBJECTDIR}/nfc_PN532.d ${OBJECTDIR}/nfc_PN532.p1.d
@${FIXDEPS} ${OBJECTDIR}/nfc_PN532.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/oled_ssd1306.p1: oled_ssd1306.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/oled_ssd1306.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/oled_ssd1306.p1 oled_ssd1306.c
@-${MV} ${OBJECTDIR}/oled_ssd1306.d ${OBJECTDIR}/oled_ssd1306.p1.d
@${FIXDEPS} ${OBJECTDIR}/oled_ssd1306.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/oled_ssd1331.p1: oled_ssd1331.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/oled_ssd1331.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/oled_ssd1331.p1 oled_ssd1331.c
@-${MV} ${OBJECTDIR}/oled_ssd1331.d ${OBJECTDIR}/oled_ssd1331.p1.d
@${FIXDEPS} ${OBJECTDIR}/oled_ssd1331.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/timers.p1: timers.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/timers.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/timers.p1 timers.c
@-${MV} ${OBJECTDIR}/timers.d ${OBJECTDIR}/timers.p1.d
@${FIXDEPS} ${OBJECTDIR}/timers.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/lux_TSL2561.p1: lux_TSL2561.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/lux_TSL2561.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/lux_TSL2561.p1 lux_TSL2561.c
@-${MV} ${OBJECTDIR}/lux_TSL2561.d ${OBJECTDIR}/lux_TSL2561.p1.d
@${FIXDEPS} ${OBJECTDIR}/lux_TSL2561.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1: oled_NHD-0216KZW-AB5.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1 oled_NHD-0216KZW-AB5.c
@-${MV} ${OBJECTDIR}/oled_NHD-0216KZW-AB5.d ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d
@${FIXDEPS} ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/adc.p1: adc.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/adc.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/adc.p1 adc.c
@-${MV} ${OBJECTDIR}/adc.d ${OBJECTDIR}/adc.p1.d
@${FIXDEPS} ${OBJECTDIR}/adc.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/temp_BMP085.p1: temp_BMP085.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/temp_BMP085.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist -D__DEBUG=1 --debugger=pickit3 --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/temp_BMP085.p1 temp_BMP085.c
@-${MV} ${OBJECTDIR}/temp_BMP085.d ${OBJECTDIR}/temp_BMP085.p1.d
@${FIXDEPS} ${OBJECTDIR}/temp_BMP085.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
else
${OBJECTDIR}/main.p1: main.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
185,90 → 101,6
@-${MV} ${OBJECTDIR}/uart.d ${OBJECTDIR}/uart.p1.d
@${FIXDEPS} ${OBJECTDIR}/uart.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/i2c.p1: i2c.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/i2c.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/i2c.p1 i2c.c
@-${MV} ${OBJECTDIR}/i2c.d ${OBJECTDIR}/i2c.p1.d
@${FIXDEPS} ${OBJECTDIR}/i2c.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/spi.p1: spi.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/spi.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/spi.p1 spi.c
@-${MV} ${OBJECTDIR}/spi.d ${OBJECTDIR}/spi.p1.d
@${FIXDEPS} ${OBJECTDIR}/spi.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/interrupts.p1: interrupts.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/interrupts.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/interrupts.p1 interrupts.c
@-${MV} ${OBJECTDIR}/interrupts.d ${OBJECTDIR}/interrupts.p1.d
@${FIXDEPS} ${OBJECTDIR}/interrupts.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/led_HT16K33.p1: led_HT16K33.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/led_HT16K33.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/led_HT16K33.p1 led_HT16K33.c
@-${MV} ${OBJECTDIR}/led_HT16K33.d ${OBJECTDIR}/led_HT16K33.p1.d
@${FIXDEPS} ${OBJECTDIR}/led_HT16K33.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/nfc_PN532.p1: nfc_PN532.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/nfc_PN532.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/nfc_PN532.p1 nfc_PN532.c
@-${MV} ${OBJECTDIR}/nfc_PN532.d ${OBJECTDIR}/nfc_PN532.p1.d
@${FIXDEPS} ${OBJECTDIR}/nfc_PN532.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/oled_ssd1306.p1: oled_ssd1306.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/oled_ssd1306.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/oled_ssd1306.p1 oled_ssd1306.c
@-${MV} ${OBJECTDIR}/oled_ssd1306.d ${OBJECTDIR}/oled_ssd1306.p1.d
@${FIXDEPS} ${OBJECTDIR}/oled_ssd1306.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/oled_ssd1331.p1: oled_ssd1331.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/oled_ssd1331.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/oled_ssd1331.p1 oled_ssd1331.c
@-${MV} ${OBJECTDIR}/oled_ssd1331.d ${OBJECTDIR}/oled_ssd1331.p1.d
@${FIXDEPS} ${OBJECTDIR}/oled_ssd1331.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/timers.p1: timers.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/timers.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/timers.p1 timers.c
@-${MV} ${OBJECTDIR}/timers.d ${OBJECTDIR}/timers.p1.d
@${FIXDEPS} ${OBJECTDIR}/timers.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/lux_TSL2561.p1: lux_TSL2561.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/lux_TSL2561.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/lux_TSL2561.p1 lux_TSL2561.c
@-${MV} ${OBJECTDIR}/lux_TSL2561.d ${OBJECTDIR}/lux_TSL2561.p1.d
@${FIXDEPS} ${OBJECTDIR}/lux_TSL2561.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1: oled_NHD-0216KZW-AB5.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1 oled_NHD-0216KZW-AB5.c
@-${MV} ${OBJECTDIR}/oled_NHD-0216KZW-AB5.d ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d
@${FIXDEPS} ${OBJECTDIR}/oled_NHD-0216KZW-AB5.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/adc.p1: adc.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/adc.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/adc.p1 adc.c
@-${MV} ${OBJECTDIR}/adc.d ${OBJECTDIR}/adc.p1.d
@${FIXDEPS} ${OBJECTDIR}/adc.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
${OBJECTDIR}/temp_BMP085.p1: temp_BMP085.c nbproject/Makefile-${CND_CONF}.mk
@${MKDIR} ${OBJECTDIR}
@${RM} ${OBJECTDIR}/temp_BMP085.p1.d
${MP_CC} --pass1 $(MP_EXTRA_CC_PRE) --chip=$(MP_PROCESSOR_OPTION) -Q -G --asmlist --double=32 --float=32 --emi=wordwrite --opt=default,+asm,-asmfile,+speed,-space,-debug,9 --addrqual=ignore --mode=free -P -N255 --warn=0 --summary=default,-psect,-class,+mem,-hex,-file --runtime=default,+clear,+init,-keep,-no_startup,-download,+config,+clib,+plib "--errformat=%%f:%%l: error: %%s" "--warnformat=%%f:%%l: warning: %%s" "--msgformat=%%f:%%l: advisory: %%s" -o${OBJECTDIR}/temp_BMP085.p1 temp_BMP085.c
@-${MV} ${OBJECTDIR}/temp_BMP085.d ${OBJECTDIR}/temp_BMP085.p1.d
@${FIXDEPS} ${OBJECTDIR}/temp_BMP085.p1.d $(SILENT) -rsi ${MP_CC_DIR}../
endif
# ------------------------------------------------------------------------------------

/PIC Stuff/PICX_27J13/nbproject/Makefile-genesis.properties
1,5 → 1,5
#
#Sun Dec 23 06:07:58 EST 2012
#Sat Dec 22 14:37:03 EST 2012
default.languagetoolchain.dir=C\:\\Program Files (x86)\\Microchip\\xc8\\v1.12\\bin
com-microchip-mplab-nbide-embedded-makeproject-MakeProject.md5=d94e033fce233e60ccb9abf3a212a9b7
default.languagetoolchain.version=1.12

/PIC Stuff/PICX_27J13/nbproject/configurations.xml
6,18 → 6,6
projectFiles="true">
<itemPath>defines.h</itemPath>
<itemPath>uart.h</itemPath>
<itemPath>spi.h</itemPath>
<itemPath>i2c.h</itemPath>
<itemPath>interrupts.h</itemPath>
<itemPath>oled_ssd1306.h</itemPath>
<itemPath>nfc_PN532.h</itemPath>
<itemPath>led_HT16K33.h</itemPath>
<itemPath>oled_ssd1331.h</itemPath>
<itemPath>timers.h</itemPath>
<itemPath>lux_TSL2561.h</itemPath>
<itemPath>oled_NHD-0216KZW-AB5.h</itemPath>
<itemPath>adc.h</itemPath>
<itemPath>temp_BMP085.h</itemPath>
</logicalFolder>
<logicalFolder name="LinkerScript"
displayName="Linker Files"
28,18 → 16,6
projectFiles="true">
<itemPath>main.c</itemPath>
<itemPath>uart.c</itemPath>
<itemPath>i2c.c</itemPath>
<itemPath>spi.c</itemPath>
<itemPath>interrupts.c</itemPath>
<itemPath>led_HT16K33.c</itemPath>
<itemPath>nfc_PN532.c</itemPath>
<itemPath>oled_ssd1306.c</itemPath>
<itemPath>oled_ssd1331.c</itemPath>
<itemPath>timers.c</itemPath>
<itemPath>lux_TSL2561.c</itemPath>
<itemPath>oled_NHD-0216KZW-AB5.c</itemPath>
<itemPath>adc.c</itemPath>
<itemPath>temp_BMP085.c</itemPath>
</logicalFolder>
<logicalFolder name="ExternalFiles"
displayName="Important Files"

/PIC Stuff/PICX_27J13/nbproject/private/SuppressibleMessageMemo.properties
File deleted

/PIC Stuff/PICX_27J13/nbproject/private/private.xml
1,4 → 1,10
<?xml version="1.0" encoding="UTF-8"?>
<project-private xmlns="http://www.netbeans.org/ns/project-private/1">
<editor-bookmarks xmlns="http://www.netbeans.org/ns/editor-bookmarks/1"/>
<open-files xmlns="http://www.netbeans.org/ns/projectui-open-files/1">
<file>file:/C:/Users/Kevin/Documents/Code/PICX_27J13.X/defines.h</file>
<file>file:/C:/Users/Kevin/Documents/Code/PICX_27J13.X/uart.h</file>
<file>file:/C:/Users/Kevin/Documents/Code/PICX_27J13.X/main.c</file>
<file>file:/C:/Users/Kevin/Documents/Code/PICX_27J13.X/uart.c</file>
</open-files>
</project-private>

/PIC Stuff/PICX_27J13/uart.c
4,10 → 4,13
#include "defines.h"
#include "uart.h"
static UART_DATA *uart_1_data_p;
static UART_DATA uart_1_data;
static UART_DATA *uart_1_data_p = &uart_1_data;
void UART1_Init(UART_DATA *data) {
uart_1_data_p = data;
void UART1_Init() {
// Configure the hardware USART device
// UART1 TX RC6
// UART1 RX RC7
UART1_TX_TRIS = 0; // Tx pin set to output
UART1_RX_TRIS = 1; // Rx pin set to input
38,10 → 41,8
uart_1_data_p->buffer_in_len_tmp = 0;
}
#pragma interrupt_level 0
void UART1_Recv_Interrupt_Handler() {
char c;
unsigned char c;
if (PIR1bits.RC1IF) { // Check if data receive flag is set
c = RCREG1;
#ifdef UART1_RX_TO_BUFFER
79,9 → 80,7
// We've overrun the USART and must reset
RCSTA1bits.CREN = 0; // Reset UART1
RCSTA1bits.CREN = 1;
char output[64];
sprintf(output, "UART1: (ERROR) Overrun Occurred\r\n");
DBG_PRINT_UART(output, strlen(output));
DBG_PRINT_UART("UART1: (ERROR) overrun\r\n");
TXSTA1bits.TXEN = 0; // Kill anything currently sending
}
}
99,71 → 98,39
}
}
//void UART1_WriteS(const char *fmt, ...) {
//#ifdef _DEBUG
// char i;
// va_list args;
// va_start(args, fmt);
void UART1_WriteS(const char *fmt, ...) {
#ifdef _DEBUG
unsigned char i;
va_list args;
va_start(args, fmt);
// vsprintf((char *) uart_1_data_p->buffer_out, fmt, args);
// va_end(args);
// uart_1_data_p->buffer_out_len = strlen((char *) uart_1_data_p->buffer_out);
// uart_1_data_p->buffer_out_ind = 1;
// for (i = 0; i < uart_1_data_p->buffer_out_len; i++) {
// TXREG1 = uart_1_data_p->buffer_out[i];
// Nop();
// while (!PIR1bits.TX1IF); // Wait for byte to be transmitted
// }
//#else
// va_list args;
// while (TXSTA1bits.TXEN); // Wait for previous message to finish sending
// va_start(args, fmt);
// vsprintf((char *) uart_1_data_p->buffer_out, fmt, args);
// va_end(args);
// uart_1_data_p->buffer_out_len = strlen((char *) uart_1_data_p->buffer_out);
// uart_1_data_p->buffer_out_ind = 1;
// TXREG1 = uart_1_data_p->buffer_out[0]; // Put first byte in TSR
// TXSTA1bits.TXEN = 1; // Begin transmission
//#endif
//}
vprintf(fmt, args);
va_end(args);
uart_1_data_p->buffer_out_len = strlen((char *) uart_1_data_p->buffer_out);
uart_1_data_p->buffer_out_ind = 1;
for (i = 0; i < uart_1_data_p->buffer_out_len; i++) {
TXREG1 = uart_1_data_p->buffer_out[i];
Nop();
while (!PIR1bits.TX1IF); // Wait for byte to be transmitted
}
#else
va_list args;
while (TXSTA1bits.TXEN); // Wait for previous message to finish sending
va_start(args, fmt);
vsprintf((char *) uart_1_data_p->buffer_out, fmt, args);
va_end(args);
uart_1_data_p->buffer_out_len = strlen((char *) uart_1_data_p->buffer_out);
uart_1_data_p->buffer_out_ind = 1;
TXREG1 = uart_1_data_p->buffer_out[0]; // Put first byte in TSR
TXSTA1bits.TXEN = 1; // Begin transmission
#endif
}
//void UART1_WriteF(float f, char m) {
// long whole = 0;
// unsigned long decimal = 0;
// unsigned int multiplier = 1;
// char i;
//
// for (i = 0; i < m; i++)
// multiplier *= 10;
//
// whole = (long)((float)f);
// decimal = (long)((float)f*multiplier) - whole*multiplier;
// // Round up if necessary
// if ((long)((float)f*multiplier*10) % 10 >= 5)
// decimal += 1;
//#ifdef _DEBUG
// sprintf((char *) uart_1_data_p->buffer_out, "%ld.%ld", whole, decimal);
// uart_1_data_p->buffer_out_len = strlen((char *) uart_1_data_p->buffer_out);
// uart_1_data_p->buffer_out_ind = 1;
// for (i = 0; i < uart_1_data_p->buffer_out_len; i++) {
// TXREG1 = uart_1_data_p->buffer_out[i];
// Nop();
// while (!PIR1bits.TX1IF); // Wait for byte to be transmitted
// }
//#else
// while (TXSTA1bits.TXEN); // Wait for previous message to finish sending
// sprintf((char *) uart_1_data_p->buffer_out, "%ld.%ld", whole, decimal);
// uart_1_data_p->buffer_out_len = strlen((char *) uart_1_data_p->buffer_out);
// uart_1_data_p->buffer_out_ind = 1;
// TXREG1 = uart_1_data_p->buffer_out[0]; // Put first byte in TSR
// TXSTA1bits.TXEN = 1; // Begin transmission
//#endif
//}
void UART1_WriteS(char *string, char length) {
char i;
void UART1_WriteB(const char *msg, unsigned char length) {
unsigned char i;
#ifdef _DEBUG
for (i = 0; i < length; i++) {
TXREG1 = string[i];
TXREG1 = msg[i];
Nop();
while (!PIR1bits.TX1IF); // Wait for byte to be transmitted
}
172,7 → 139,7
uart_1_data_p->buffer_out_len = length;
uart_1_data_p->buffer_out_ind = 1;
for (i = 0; i < length; i++) {
uart_1_data_p->buffer_out[i] = string[i];
uart_1_data_p->buffer_out[i] = msg[i];
}
TXREG1 = uart_1_data_p->buffer_out[0]; // Put first byte in TSR
TXSTA1bits.TXEN = 1; // Begin transmission
179,7 → 146,7
#endif
}
void UART1_WriteC(const char c) {
void UART1_WriteC(const unsigned char c) {
#ifdef _DEBUG
TXREG1 = c;
Nop();
194,13 → 161,13
}
char UART1_Buffer_Len() {
unsigned char UART1_Buffer_Len() {
return uart_1_data_p->buffer_in_len;
}
/* Reader interface to the UART buffer, returns the number of bytes read */
char UART1_Read_Buffer(char *buffer) {
char i = 0;
unsigned char UART1_Read_Buffer(unsigned char *buffer) {
unsigned char i = 0;
while (uart_1_data_p->buffer_in_len != 0) {
buffer[i] = uart_1_data_p->buffer_in[uart_1_data_p->buffer_in_read_ind];
i++;

/PIC Stuff/PICX_27J13/uart.h
1,5 → 1,5
#ifndef UART_H
#define UART_H
#ifndef __uart_h
#define __uart_h
#define MAXUARTBUF 125
8,25 → 8,24
#define UART1_RECV_BUFFER
//#define UART1_RECV_XBEE
typedef struct {
char buffer_in[MAXUARTBUF];
char buffer_in_read_ind;
char buffer_in_write_ind;
char buffer_in_len;
char buffer_in_len_tmp;
typedef struct __UART_DATA {
unsigned char buffer_in[MAXUARTBUF];
unsigned char buffer_in_read_ind;
unsigned char buffer_in_write_ind;
unsigned char buffer_in_len;
unsigned char buffer_in_len_tmp;
char buffer_out[MAXUARTBUF];
char buffer_out_ind;
char buffer_out_len;
unsigned char buffer_out[MAXUARTBUF];
unsigned char buffer_out_ind;
unsigned char buffer_out_len;
} UART_DATA;
void UART1_Init(UART_DATA *data);
void UART1_Init(void);
void UART1_Recv_Interrupt_Handler(void);
void UART1_Send_Interrupt_Handler(void);
//void UART1_WriteS(const char *fmt, ...);
//void UART1_WriteF(float f, char m);
void UART1_WriteS(char *string, char length);
void UART1_WriteC(const char c);
char UART1_Buffer_Len(void);
char UART1_Read_Buffer(char *buffer);
void UART1_WriteS(const char *fmt, ...);
void UART1_WriteB(const char *msg, unsigned char length);
void UART1_WriteC(const unsigned char c);
unsigned char UART1_Buffer_Len(void);
unsigned char UART1_Read_Buffer(unsigned char *buffer);
#endif