//------------------------------------------------------------------------------ // Include the IRremote library header // #include //------------------------------------------------------------------------------ // Tell IRremote which Arduino pin is connected to the IR Receiver (TSOP4838) // int recvPin = 11; IRrecv irrecv(recvPin); //+============================================================================= // Configure the Arduino // void setup ( ) { Serial.begin(9600); // Status message will be sent to PC at 9600 baud irrecv.enableIRIn(); // Start the receiver } //+============================================================================= // Display IR code // void ircode (decode_results *results) { // Panasonic has an Address if (results->decode_type == PANASONIC) { Serial.print(results->address, HEX); Serial.print(":"); } // Print Code Serial.print(results->value, HEX); } //+============================================================================= // Display encoding type // void encoding (decode_results *results) { switch (results->decode_type) { default: case UNKNOWN: Serial.print("UNKNOWN"); break ; case NEC: Serial.print("NEC"); break ; case SONY: Serial.print("SONY"); break ; case RC5: Serial.print("RC5"); break ; case RC6: Serial.print("RC6"); break ; case DISH: Serial.print("DISH"); break ; case SHARP: Serial.print("SHARP"); break ; case JVC: Serial.print("JVC"); break ; case SANYO: Serial.print("SANYO"); break ; case MITSUBISHI: Serial.print("MITSUBISHI"); break ; case SAMSUNG: Serial.print("SAMSUNG"); break ; case LG: Serial.print("LG"); break ; case WHYNTER: Serial.print("WHYNTER"); break ; case AIWA_RC_T501: Serial.print("AIWA_RC_T501"); break ; case PANASONIC: Serial.print("PANASONIC"); break ; case DENON: Serial.print("Denon"); break ; } } //+============================================================================= // Dump out the decode_results structure. // void dumpInfo (decode_results *results) { // Check if the buffer overflowed if (results->overflow) { Serial.println("IR code too long. Edit IRremoteInt.h and increase RAWLEN"); return; } // Show Encoding standard Serial.print("Encoding : "); encoding(results); Serial.println(""); // Show Code & length Serial.print("Code : "); ircode(results); Serial.print(" ("); Serial.print(results->bits, DEC); Serial.println(" bits)"); } //+============================================================================= // Dump out the decode_results structure. // void dumpRaw (decode_results *results) { // Print Raw data Serial.print("Timing["); Serial.print(results->rawlen-1, DEC); Serial.println("]: "); for (int i = 1; i < results->rawlen; i++) { unsigned long x = results->rawbuf[i] * USECPERTICK; if (!(i & 1)) { // even Serial.print("-"); if (x < 1000) Serial.print(" ") ; if (x < 100) Serial.print(" ") ; Serial.print(x, DEC); } else { // odd Serial.print(" "); Serial.print("+"); if (x < 1000) Serial.print(" ") ; if (x < 100) Serial.print(" ") ; Serial.print(x, DEC); if (i < results->rawlen-1) Serial.print(", "); //',' not needed for last one } if (!(i % 8)) Serial.println(""); } Serial.println(""); // Newline } //+============================================================================= // Dump out the decode_results structure. // void dumpCode (decode_results *results) { // Start declaration Serial.print("unsigned int "); // variable type Serial.print("rawData["); // array name Serial.print(results->rawlen - 1, DEC); // array size Serial.print("] = {"); // Start declaration // Dump data for (int i = 1; i < results->rawlen; i++) { Serial.print(results->rawbuf[i] * USECPERTICK, DEC); if ( i < results->rawlen-1 ) Serial.print(","); // ',' not needed on last one if (!(i & 1)) Serial.print(" "); } // End declaration Serial.print("};"); // // Comment Serial.print(" // "); encoding(results); Serial.print(" "); ircode(results); // Newline Serial.println(""); // Now dump "known" codes if (results->decode_type != UNKNOWN) { // Some protocols have an address if (results->decode_type == PANASONIC) { Serial.print("unsigned int addr = 0x"); Serial.print(results->address, HEX); Serial.println(";"); } // All protocols have data Serial.print("unsigned int data = 0x"); Serial.print(results->value, HEX); Serial.println(";"); } } //+============================================================================= // The repeating section of the code // void loop ( ) { decode_results results; // Somewhere to store the results if (irrecv.decode(&results)) { // Grab an IR code dumpInfo(&results); // Output the results dumpRaw(&results); // Output the results in RAW format dumpCode(&results); // Output the results as source code Serial.println(""); // Blank line between entries irrecv.resume(); // Prepare for the next value } }