Jeremy Thompson
asdf
Dependencies: NokiaLCD XMIT_IR mbed
Fork of
4180_mP_WirelessPong_revC
by 
Curtis Mulady
main.cpp
- Committer:
- cmulady
- Date:
- 2012-10-06
- Revision:
- 15:21c512907cf6
- Parent:
- 14:68f7cefd7359
- Child:
- 16:bc0e213ba52d
File content as of revision 15:21c512907cf6:
#include "mbed.h"
#include "rtos.h"
#include "NokiaLCD.h"
#include "XMIT_IR.h"
#define FPS 5
/****************************************
|=======================================|
|MBED Connections: |
| -p5 : DIO on Sparkfun Nokia LCD |
| -p7 : CLK on Sparkfun Nokia LCD |
| -p8 : CS on Sparkfun Nokia LCD |
| -p9 : RST on Sparkfun Nokia LCD |
| -p21: CTL on Sparkfun IR Xmitter |
| -p14: OUT on Sparkfun IR Rcvr |
| -p13: GND on Sparkfun IR Xmitter |
|=======================================|
****************************************/
//Function Prototypes
void BlinkAlive(void const* arguments);
void UpdateLCD(void const* arguments);
void IRStuff(void const* arguments);
void ISR_UARTRX(void);
char CheckPacket(char new_data, char* packet_buffer, char* data, int data_len);
void MakePacket2(char* data,int len);
//Pin Setup
PwmOut led1(LED1);
PwmOut led2(LED2);
DigitalOut led3(LED3);
DigitalOut led4(LED4);
NokiaLCD lcd(p5, p7, p8, p9, NokiaLCD::LCD6610); // mosi, sclk, cs, rst, type
Serial* devicerx;
//Serial devicetx(p13,NC);
Serial pc(USBTX,USBRX);
PwmOut IRLED_mod(p21);
//IRTransmitter ir_tx(p13,p21,p14,4,&ISR_UARTRX); //tx,pwm,size
//Global Vars
char text_buffer[32];
char irdatOUT[10];
char irdatIN[10];
char irdata_out=0;
char error_code=0;
Thread* threadptr_irstuff;
char packet_buff[10];
Mail<char,64> rx_data_mailbox;
int main()
{
//LCD init
lcd.background(0x000000);
//PC serial init
pc.baud(19200);
pc.printf("Starting...\n\n");
//Variable Init
for(int i=0; i<10; i++) packet_buff[i]=0;
//Threads init
Thread thread_blinkalive(BlinkAlive);
Thread thread_updatelcd(UpdateLCD);
Thread thread_irstuff(IRStuff);
threadptr_irstuff = &thread_irstuff;
while(1) {
//Use main loop to set LCD framerate
thread_updatelcd.signal_set(0x1);
Thread::wait(1000/FPS);
}
}
void UpdateLCD(void const* arguments)
{
while(true) {
//Start flash LED
led2 = 0.02;
//Write debug text to screen
lcd.locate(0,1);
lcd.printf("Debug:");
lcd.locate(0,3);
time_t seconds = time(NULL);
strftime(text_buffer, 32, "%I:%M:%S %p\n", localtime(&seconds));
lcd.printf("%s", text_buffer);
lcd.locate(0,4);
lcd.printf("IR_OUT=0x%02X,0x%02X", irdatOUT[0],irdatOUT[1]);
lcd.locate(0,5);
lcd.printf("IR_IN= 0x%02X,0x%02X", irdatIN[0],irdatIN[1]);
lcd.locate(0,6);
lcd.printf("Error= 0x%02X", error_code);
//End - flash LED
led2 = 0.0;
//End - Sleep thread
Thread::signal_wait(0x1);
}
}
void IRStuff(void const* arguments)
{
while(true) {
//If data available - Print data directly to USB port (for debug)
/*osEvent evt = rx_data_mailbox.get();
while(evt.status == osEventMail) {
char* mail = (char*)evt.value.p;
//if((*mail)==0x02) pc.printf("\n");
//pc.printf("0x%02X.",*mail);
error_code = CheckPacket(*mail,packet_buff,irdatIN,4);
pc.printf(" ERROR=0x%02X.\n",error_code);
rx_data_mailbox.free(mail);
evt = rx_data_mailbox.get();
}*/
/*osEvent evt = ir_tx.ir_data_mailbox.get();
while(evt.status == osEventMail) {
char* mail = (char*)evt.value.p;
//if((*mail)==0x02) pc.printf("\n");
//pc.printf("0x%02X.",*mail);
//error_code = CheckPacket(*mail,packet_buff,irdatIN,4);
//pc.printf(" ERROR=0x%02X.\n",error_code);
ir_tx.ir_data_mailbox.free(mail);
evt = ir_tx.ir_data_mailbox.get();
}*/
char error_code;
//error_code = ir_tx.ReadPacket(irdatIN,4);
pc.printf("0x%02X.",error_code);
//Do not return until we have more data
//Thread::signal_wait(0x1);
Thread::wait(20);
}
}
char CheckPacket(char new_data, char* packet_buffer, char* data, int data_len)
{
//Requires a packet buffer of length 'data_len'+3.
//Shifts data and checks each 'set' for a valid packet.
//Once a valid packet is receievd, the data buffer is updated with new values.
//returns success(0) or failure(error code)
char check=0x0;
//Shift All data 1 cell over
for(int i=0; i<data_len+2; i++) {
packet_buffer[i] = packet_buffer[i+1];
}
packet_buffer[data_len+2] = new_data;
//check for valid packet
if(packet_buffer[0]!=ASCII_STX)
return 0x1; //bad start byte
if(packet_buffer[data_len+2]!=ASCII_ETX)
return 0x2; //bad end byte
for(int i=1; i<data_len+1; i++) {
check^=packet_buffer[i];
}
if(check!=packet_buffer[data_len+1]) {
return 0x3; //bad checksum
}
return 0;
}
void BlinkAlive(void const* arguments)
{
while(true) {
//Change LED1 state (debug)
(led1==0.0)?led1=0.02:led1=0.0;
//Form a test packet and send it over IR transmitter
irdatOUT[0] = 0xA5;
irdatOUT[1] = ++irdata_out;
irdatOUT[2] = ~(irdata_out*2);
irdatOUT[3] = irdata_out*7+13;
//MakePacket2(irdatOUT,4);
//ir_tx.MakePacket(irdatOUT,4);
//Roughly use to set rate of data packets per second
Thread::wait(50);
}
}
void MakePacket2(char* data,int len)
{
/*char check =0x0;
(*devicerx).putc(ASCII_STX);
for(int i=0; i<len; i++) {
check^=data[i];
(*devicerx).putc(data[i]);
}
(*devicerx).putc(check);
(*devicerx).putc(ASCII_ETX);*/
}
//Handle Reception of RX data (mail it to appropriate thread)
void ISR_UARTRX()
{
//get RX data (and prevent ISR from looping forever
uint32_t RBR = LPC_UART1->RBR;
//write letter and put in mailbox
/*char* mail = rx_data_mailbox.alloc();
mail[0] = (char)RBR;
rx_data_mailbox.put(mail);*/
/*char* mail = ir_tx.ir_data_mailbox.alloc();
mail[0] = (char)RBR;
ir_tx.ir_data_mailbox.put(mail);*/
//ir_tx.isr(RBR);
//Let message handler run
//(*threadptr_irstuff).signal_set(0x1);
}