Tasmota/lib/lib_rf/rc-switch/examples/ReceiveDemo_Advanced/output.ino

71 lines
1.8 KiB
C++

static const char* bin2tristate(const char* bin);
static char * dec2binWzerofill(unsigned long Dec, unsigned int bitLength);
void output(unsigned long decimal, unsigned int length, unsigned int delay, unsigned int* raw, unsigned int protocol) {
const char* b = dec2binWzerofill(decimal, length);
Serial.print("Decimal: ");
Serial.print(decimal);
Serial.print(" (");
Serial.print( length );
Serial.print("Bit) Binary: ");
Serial.print( b );
Serial.print(" Tri-State: ");
Serial.print( bin2tristate( b) );
Serial.print(" PulseLength: ");
Serial.print(delay);
Serial.print(" microseconds");
Serial.print(" Protocol: ");
Serial.println(protocol);
Serial.print("Raw data: ");
for (unsigned int i=0; i<= length*2; i++) {
Serial.print(raw[i]);
Serial.print(",");
}
Serial.println();
Serial.println();
}
static const char* bin2tristate(const char* bin) {
static char returnValue[50];
int pos = 0;
int pos2 = 0;
while (bin[pos]!='\0' && bin[pos+1]!='\0') {
if (bin[pos]=='0' && bin[pos+1]=='0') {
returnValue[pos2] = '0';
} else if (bin[pos]=='1' && bin[pos+1]=='1') {
returnValue[pos2] = '1';
} else if (bin[pos]=='0' && bin[pos+1]=='1') {
returnValue[pos2] = 'F';
} else {
return "not applicable";
}
pos = pos+2;
pos2++;
}
returnValue[pos2] = '\0';
return returnValue;
}
static char * dec2binWzerofill(unsigned long Dec, unsigned int bitLength) {
static char bin[64];
unsigned int i=0;
while (Dec > 0) {
bin[32+i++] = ((Dec & 1) > 0) ? '1' : '0';
Dec = Dec >> 1;
}
for (unsigned int j = 0; j< bitLength; j++) {
if (j >= bitLength - i) {
bin[j] = bin[ 31 + i - (j - (bitLength - i)) ];
} else {
bin[j] = '0';
}
}
bin[bitLength] = '\0';
return bin;
}