HEPTA-Sat Training 2017~2018
HeptaXbee Library
Dependents: Lab9-01_All_transmit Lab9-03_Thermal_chamber 3daf572bcae1 Team ... more
HeptaXbee.cpp
- Committer:
- HEPTA
- Date:
- 2019-08-24
- Revision:
- 12:40e317924467
- Parent:
- 10:9c8433d32d11
File content as of revision 12:40e317924467:
#include "HeptaXbee.h"
#include "mbed.h"
#include <stdarg.h>
HeptaXbee::HeptaXbee(PinName tx, PinName rx) : xbee(tx,rx)
{
rcmd = 0;
cmdflag = 0;
}
void HeptaXbee::baud(int rate)
{
xbee.baud(rate);
}
void HeptaXbee::xbee_receive(int *xrcmd, int *xcmdflag)
{
xbee.attach(this,&HeptaXbee::commandget,Serial::RxIrq);
//xbee.printf("ssXbeedata= %d,%d",HeptaXbee::rcmd,HeptaXbee::cmdflag);
*xrcmd = HeptaXbee::rcmd;
*xcmdflag = HeptaXbee::cmdflag;
}
void HeptaXbee::initialize()
{
HeptaXbee::rcmd = 0;
HeptaXbee::cmdflag = 0;
}
void HeptaXbee::commandget()
{
HeptaXbee::rcmd=xbee.getc();
HeptaXbee::cmdflag = 1;
//xbee.printf("Xbeedata= %d,%d",rcmd,cmdflag);
}
//*gyro×3 = A,B,C *Accel×3 = D,E,F *magnetic×3 = G,H,I *latitude = J *longitude = K *altitude = L *battery = M *temperature = N
void HeptaXbee::xbee_transmit(char dataA[],char dataB[],char dataC[],char dataD[],char dataE[],
char dataF[],char dataG[],char dataH[],char dataI[],char dataJ[],
char dataK[],char dataL[],char dataM[],char dataN[])
{
char OutputData[255];
int output_num,numA,numB,numC,numD,numE,numF,numG,numH,numI,numJ,numK,numL,numM,numN;
int sum = 0;
int check;
numA = sizeof(dataA) / sizeof(dataA[0]);
numB = sizeof(dataB) / sizeof(dataB[0]);
numC = sizeof(dataC) / sizeof(dataC[0]);
numD = sizeof(dataD) / sizeof(dataD[0]);
numE = sizeof(dataE) / sizeof(dataE[0]);
numF = sizeof(dataF) / sizeof(dataF[0]);
numG = sizeof(dataG) / sizeof(dataG[0]);
numH = sizeof(dataH) / sizeof(dataH[0]);
numI = sizeof(dataI) / sizeof(dataI[0]);
numJ = sizeof(dataJ) / sizeof(dataJ[0])*2;
numK = sizeof(dataK) / sizeof(dataK[0])*2;
numL = sizeof(dataL) / sizeof(dataL[0]);
numM = sizeof(dataM) / sizeof(dataM[0]);
numN = sizeof(dataN) / sizeof(dataN[0]);
output_num=numA+numB+numC+numD+numE+numF+numG+numH+numI+numJ+numK+numL+numM+numN;
int N=0,i=0,ii;
for(i = 0; i <= numA-1; i++) {
OutputData[N+i] = dataA[i];
}
N=i;
for(i = 0; i <= numB-1; i++) {
OutputData[N+i] = dataB[i];
}
N=N+i;
for(i = 0; i <= numC-1; i++) {
OutputData[N+i] = dataC[i];
}
N=N+i;
for(i = 0; i <= numD-1; i++) {
OutputData[N+i] = dataD[i];
}
N=N+i;
for(i = 0; i <= numE-1; i++) {
OutputData[N+i] = dataE[i];
}
N=N+i;
for(i = 0; i <= numF-1; i++) {
OutputData[N+i] = dataF[i];
}
N=N+i;
for(i = 0; i <= numG-1; i++) {
OutputData[N+i] = dataG[i];
}
N=N+i;
for(i = 0; i <= numH-1; i++) {
OutputData[N+i] = dataH[i];
}
N=N+i;
for(i = 0; i <= numI-1; i++) {
OutputData[N+i] = dataI[i];
}
N=N+i;
for(i = 0; i <= numJ-1; i++) {
OutputData[N+i] = dataJ[i];
}
N=N+i;
for(i = 0; i <= numK-1; i++) {
OutputData[N+i] = dataK[i];
}
N=N+i;
for(i = 0; i <= numL-1; i++) {
OutputData[N+i] = dataL[i];
}
N=N+i;
for(i = 0; i <= numM-1; i++) {
OutputData[N+i] = dataM[i];
}
N=N+i;
for(i = 0; i <= numN-1; i++) {
OutputData[N+i] = dataN[i];
}
//check sum
for(ii=0; ii<output_num; ii++) {
sum = sum + OutputData[ii];
}
check = (~sum)&0xFF;
char check_sum[2],flame[2];
sprintf( check_sum, "%02X", check);
sprintf( flame, "%02X", output_num);
// transmit data
//for(int i = 0;i<2;i++){
// xbee.putc(flame[i]);//frame length
//}
for(ii=0; ii<output_num; ii++) {
xbee.putc(OutputData[ii]);//data
}
for(int i = 0;i<2;i++){
xbee.putc(check_sum[i]);
}
xbee.putc(0x0a);//endcode
}
void HeptaXbee::puts( char *s )
{
while ( char c = *s++ )
xbee.putc( c );
}
void HeptaXbee::printf( char *format, ... )
{
char s[ 100 ];
va_list args;
va_start( args, format );
vsnprintf( s, 100, format, args );
va_end( args );
xbee.puts( s );
}
char HeptaXbee::getc()
{
char character;
character = xbee.getc();
return character;
}
void HeptaXbee::putc(char data)
{
xbee.putc(data);
}