Ljubivoj Cvitas
/
SerialMBEDtoMSP430
TVZ test
main.cpp
- Committer:
- cvitas
- Date:
- 2014-02-13
- Revision:
- 5:77ff08b129c0
- Parent:
- 4:4620184bbb1f
- Child:
- 6:be9abe81bbd1
File content as of revision 5:77ff08b129c0:
#include "mbed.h" Serial async_port(p9, p10); //set up TX and RX on pins 9 and 10 DigitalOut red_led(LED4); //red led DigitalOut green_led(LED3); //green led DigitalOut RXDIN (LED1); DigitalIn switch_ip1(p5); DigitalIn switch_ip2(p6); DigitalIn switch_ip3(p7); DigitalIn switch_ip4(p8); Serial pc(USBTX, USBRX); char header_read ; //first byte we will send char param_ads; // parameter address char recd_val; //the received value int valueADC; char Outbuff[12]; char Inbuff[12]; int valueSensA, valueSensB, valueSensC, valueSensD; float fAzimuthErr; float fElevationErr; float fSensACalib; unsigned char *pointnavar; int main() { async_port.baud(9600); //set baud rate to 9600 (ie default) switch_ip1.mode(PullUp); // Pull up internal resistor switch_ip2.mode(PullUp); switch_ip3.mode(PullUp); switch_ip4.mode(PullUp); fSensACalib= 35.77; //accept default format, of 8 bits, no parity while (1) { // read or write mode ? if (switch_ip1==0) { header_read=0x10; // read output pattern if (switch_ip2==0) { param_ads = 0; } else { param_ads = 1; } /* valueADC = 0x0302; Outbuff[0] = valueADC; Outbuff[1] = valueADC >> 8; */ while (async_port.writeable()==0); //is there a place to write? async_port.putc(header_read); //transmit haeder while (async_port.writeable()==0); //is there a place to write? async_port.putc(param_ads); //transmit parameter address if (async_port.readable()==1) { //is there a character to be read? Inbuff[0] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[1] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[2] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[3] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[4] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[5] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[6] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[7] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[8] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[9] = async_port.getc(); //if yes, t } if (async_port.readable()==1) { //is there a character to be read? Inbuff[10] = async_port.getc(); //if yes, t } RXDIN = 1; wait(1); RXDIN = 0; if (param_ads==0x00) { valueSensA = Inbuff[2]+ Inbuff[3]*256; valueSensB = Inbuff[4]+ Inbuff[5]*256; valueSensC = Inbuff[6]+ Inbuff[7]*256; valueSensD = Inbuff[8]+ Inbuff[9]*256; pc.printf("SensA: %d SensB: %d SensC: %d SensD: %d \n\r", valueSensA, valueSensB, valueSensC, valueSensD); } if (param_ads==0x01) { pointnavar = (unsigned char*) &fAzimuthErr; for (int i=2; i<6; i++) { *pointnavar = Inbuff[i]; pointnavar++; } pointnavar = (unsigned char*) &fElevationErr; for (int i=6; i<10; i++) { *pointnavar = Inbuff[i]; pointnavar++; } pc.printf("AZIMUT: %+3.0f ELEVATION; %+3.0f \n\r", fAzimuthErr, fElevationErr); } } // if (switch_ip1==0) else { header_read=0x20; // write output pattern Outbuff[0] = header_read; param_ads = 2; // parameter to write Outbuff[1] = param_ads; pointnavar = (unsigned char*) &fSensACalib; for (int i=2; i<6; i++) { Outbuff[i] = *pointnavar ; pointnavar++; } Outbuff[6]= 5; // checksum for (int i=0; i<7; i++) { while (async_port.writeable()==0); //is there a place to write? async_port.putc(Outbuff[i]); //transmit byte } } // else } // while(1) } //main