CatPot 2015-2016
LPC824専用プログラム
Dependencies: Ping SDFileSystem mbed-src
format.cpp
- Committer:
- lilac0112_1
- Date:
- 2015-12-31
- Revision:
- 0:2f48b11b154f
- Child:
- 1:7070fb876a2c
File content as of revision 0:2f48b11b154f:
#include "mbed.h"
#include "extern.h"
#ifdef SD_CARD
void Sd_System(void){
char buf[BUFSIZE];
uint16_t FileData[FDATA_NUM]={0}, num, data;
uint8_t spi_num, h_byte, l_byte;
uint16_t spi_data;
int i;
FILE *fp;
pc.printf("Hello World!\n");
mkdir("/sd/mydir", 0777);
while(1){
val = nucleo.receive();
if(!val) return;
spi_num = device.read();
h_byte = device.read();
l_byte = device.read();
if((spi_num&0x80)>>7 == 1){
}
else{
}
if(val) {
packet = (front_dis&0x00FF);
nucleo.reply(packet);
packet = (front_dis&0xFF00)>>8;
nucleo.reply(packet);
packet = (rear_dis&0x00FF);
nucleo.reply(packet);
packet = (rear_dis&0xFF00)>>8;
nucleo.reply(packet);
}
// example writing to SD card, sford
fp = fopen("/sd/mydir/sdtest.txt", "r");
if(fp == NULL) {
error("Could not open file for read\n");
}
while(fgets(buf, sizeof(buf), fp) != NULL){
if(buf[0] == '#') continue;
num = atol(strtok(buf, ","));
data = atol(strtok(NULL, "\r\n\0"));
if((num>=0)&&(num<FDATA_NUM)){
FileData[num] = data;
pc.printf("%d, %ld\n", num, FileData[num]);
}
else{
continue;
}
}
fclose(fp);
FileData[0] = 1;
FileData[1] = 2;
FileData[2] = 5;
FileData[3] = 10;
FileData[4] = 20;
FileData[5] = 50;
FileData[6] = 10;
FileData[7] = 20;
FileData[8] = 50;
FileData[9] = 100;
fp = fopen("/sd/mydir/sdtest.txt", "w");
for(i=0; i<FDATA_NUM; i++) fprintf(fp, "%d, %ld\n", i, FileData[i]);
fclose(fp);
//pc.printf("Goodbye World!\n");
}
}
#endif /*SD_CARD*/
#ifdef ULTRA_SONIC
void Usw_System(void){
uint8_t paket, val, order;
uint16_t front_dis=0, rear_dis=0;
while(1){
front.Send();
wait_ms(30);
front_dis = front.Read_cm();
rear.Send();
wait_ms(30);
rear_dis = rear.Read_cm();
while(1){
val = nucleo.receive();
if(val){
order = nucleo.read();
switch(order){
case 0x01:
packet = (front_dis&0x00FF);break;
case 0x02:
packet = (front_dis&0xFF00)>>8;break;
case 0x03:
packet = (rear_dis&0x00FF);break;
case 0x04:
packet = (rear_dis&0xFF00)>>8;break;
default:
packet = 0x00;break;
}
nucleo.reply(packet);
}
else{
break;
}
}
}
}
#endif /*ULTRA_SONIC*/
#ifdef COLOR_SENSOR
void Color_System(void){
while(1){
ColorSensor[0]
}
}
#endif /*COLOR_SENSOR*/
#ifdef IR_SENSOR
void Ir_System(void){
static uint8_t const START_BIT = 0x04;
static uint8_t const MODE_SINGLE = 0x02; // Single-ended mode
//static uint8_t const MODE_DIFF = 0x00; // Differential mode
static uint8_t const IR_NUM[IC_NUM] = {6, 6, 8};
uint8_t ic, ch;
unsigned int command_high, command_low;
unsigned int high_byte, low_byte;
uint8_t packet, val, order;
uint16_t ir_data[IC_NUM][CH_NUM];
ir.frequency(1000000);
for(ic=0; ic<IC_NUM; ic++) cs[ic]=1;
while(1) {
for(ic=0; ic<IC_NUM; ic++){//IC
for(ch=0; ch<IR_NUM[ic]; ch++){//Ch
command_high = START_BIT | MODE_SINGLE | ((ch & 0x04) >> 2);
command_low = (ch & 0x03) << 6;
cs[ic] = 0;
ir.write(command_high);
high_byte = ir.write(command_low) & 0x0F;
low_byte = ir.write(0);
cs[ic] = 1;
wait_us(1);
//ir_data[ic][ch] = (high_byte << 8) | low_byte;
ir_data[ic][ch] = ((high_byte << 4) | (low_byte >> 4))&0xFF;
}
}
while(1){
val = nucleo.receive();
if(val){
order = nucleo.read();
packet = ir_data[order/10][order%10] & 0x00FF;
nucleo.reply(packet);
//for(ic=0; ic<IC_NUM; ic++){//IC
// for(ch=0; ch<IR_NUM[ic]; ch++){//Ch
// packet = ir_data[ic][ch] & 0x00FF;
// nucleo.reply(packet);
// }
//}
}
else{
break;
}
}
}
}
#endif /*IR_SENSOR*/