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Arduino-IRremote/examples/SendBoseWaveDemo/SendBoseWaveDemo.ino

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/*
* SendBoseWaveDemo.cpp
*
* Prompt user for a code to send. Make sure your 940-950nm IR LED is
* connected to the default digital output. Place your Bose Wave Radio
* CD in the line of sight of your LED, and send commands!
*
* This file is part of Arduino-IRremote https://github.com/Arduino-IRremote/Arduino-IRremote.
*
************************************************************************************
* MIT License
*
* Copyright (c) 2020 Thomas Koch - 2022 AJ converted to inverted bits
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is furnished
* to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in all
* copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED,
* INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A
* PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
* HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF
* CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE
* OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
*
************************************************************************************
*/
#include <Arduino.h>
#define DISABLE_CODE_FOR_RECEIVER // Disables restarting receiver after each send. Saves 450 bytes program memory and 269 bytes RAM if receiving functions are not used.
#include "PinDefinitionsAndMore.h" // Define macros for input and output pin etc.
#include <IRremote.hpp>
//......................................................................
//
// Bose Wave Radio CD Remote Control
// |-------------------------------------|
// | On/Off Sleep VolUp |
// | Play/Pause Stop VolDown |
// | FM AM Aux |
// | Tune Down Tune Up Mute |
// | 1 2 3 |
// | 4 5 6 |
// |-------------------------------------|
#define BOSE_CMD_ON_OFF 0x00
#define BOSE_CMD_MUTE 0x01
#define BOSE_CMD_VOL_UP 0x02
#define BOSE_CMD_VOL_DOWN 0x03
#define BOSE_CMD_PRESET_6 0x04
#define BOSE_CMD_SLEEP 0x05
#define BOSE_CMD_FM 0x06
#define BOSE_CMD_AUX 0x07
#define BOSE_CMD_AM 0x08
#define BOSE_CMD_PLAY_PAUSE 0x09
#define BOSE_CMD_STOP 0x0A
#define BOSE_CMD_TUNE_UP 0x0B
#define BOSE_CMD_TUNE_DOWN 0x0C
#define BOSE_CMD_PRESET_1 0x0D
#define BOSE_CMD_PRESET_2 0x0E
#define BOSE_CMD_PRESET_3 0x0F
#define BOSE_CMD_PRESET_4 0x10
#define BOSE_CMD_PRESET_5 0x11
// Codes for Wave Music System
// https://github.com/Arduino-IRremote/Arduino-IRremote/blob/master/pictures/BoseWaveMusicSystem.jpg)
//#define BOSE_CMD_ON_OFF 0x4C
//#define BOSE_CMD_MUTE 0x01
//#define BOSE_CMD_VOL_UP 0x03
//#define BOSE_CMD_VOL_DOWN 0x02
//#define BOSE_CMD_SLEEP 0x54
//#define BOSE_CMD_FM_AM 0x06
//#define BOSE_CMD_CD 0x53
//#define BOSE_CMD_AUX 0x0F
//#define BOSE_CMD_TRACK_BW 0x18
//#define BOSE_CMD_TRACK_FW 0x19
//#define BOSE_CMD_PLAY_PAUSE 0x1B
//#define BOSE_CMD_STOP_EJECT 0x1A
//#define BOSE_CMD_TUNE_UP 0x58
//#define BOSE_CMD_TUNE_DOWN 0x57
//#define BOSE_CMD_PRESET_1 0x07
//#define BOSE_CMD_PRESET_2 0x08
//#define BOSE_CMD_PRESET_3 0x09
//#define BOSE_CMD_PRESET_4 0x0A
//#define BOSE_CMD_PRESET_5 0x0B
//#define BOSE_CMD_PRESET_6 0x0C
//#define BOSE_CMD_TIME_MINUS 0x9E
//#define BOSE_CMD_TIME_PLUS 0x24
//#define BOSE_CMD_PLAY_MODE 0x21
//#define BOSE_CMD_ALARM_ON_OFF 0x22
//#define BOSE_CMD_ALARM_WAKE_TO 0x70
//#define BOSE_CMD_ALARM_TIME 0x23
bool sPrintMenu;
void printMenu();
void setup() {
pinMode(LED_BUILTIN, OUTPUT);
Serial.begin(115200);
#if defined(__AVR_ATmega32U4__) || defined(SERIAL_PORT_USBVIRTUAL) || defined(SERIAL_USB) /*stm32duino*/|| defined(USBCON) /*STM32_stm32*/|| defined(SERIALUSB_PID) || defined(ARDUINO_attiny3217)
delay(4000); // To be able to connect Serial monitor after reset or power up and before first print out. Do not wait for an attached Serial Monitor!
#endif
// Just to know which program is running on my Arduino
Serial.println(F("START " __FILE__ " from " __DATE__ "\r\nUsing library version " VERSION_IRREMOTE));
#if defined(IR_SEND_PIN)
IrSender.begin(); // Start with IR_SEND_PIN as send pin and enable feedback LED at default feedback LED pin
Serial.println(F("Send IR signals at pin " STR(IR_SEND_PIN)));
#else
IrSender.begin(3, ENABLE_LED_FEEDBACK, USE_DEFAULT_FEEDBACK_LED_PIN); // Specify send pin and enable feedback LED at default feedback LED pin
Serial.println(F("Send IR signals at pin 3"));
#endif
sPrintMenu = true;
}
void loop() {
if (sPrintMenu) {
sPrintMenu = false;
printMenu();
}
int tSerialCommandCharacter;
if (Serial.available()) {
tSerialCommandCharacter = Serial.read();
sPrintMenu = true;
if (tSerialCommandCharacter == -1) {
Serial.print(F("available() was true, but no character read")); // should not happen
} else if (tSerialCommandCharacter == 48) { // 0
IrSender.sendBoseWave(BOSE_CMD_ON_OFF); // On/Off
} else if (tSerialCommandCharacter == 49) { // 1
IrSender.sendBoseWave(BOSE_CMD_VOL_UP); // Volume Up
} else if (tSerialCommandCharacter == 50) { // 2
IrSender.sendBoseWave(BOSE_CMD_VOL_DOWN); // Volume Down
} else if (tSerialCommandCharacter == 51) { // 3
IrSender.sendBoseWave(BOSE_CMD_TUNE_UP); // Tune Up
} else if (tSerialCommandCharacter == 52) { // 4
IrSender.sendBoseWave(BOSE_CMD_TUNE_DOWN); // Tune Down
} else if (tSerialCommandCharacter == 53) { // 5
IrSender.sendBoseWave(BOSE_CMD_AM); // AM
} else if (tSerialCommandCharacter == 54) { // 6
IrSender.sendBoseWave(BOSE_CMD_FM); // FM
} else if (tSerialCommandCharacter == 55) { // 7
IrSender.sendBoseWave(BOSE_CMD_PRESET_1); // Preset 1
} else if (tSerialCommandCharacter == 56) { // 8
IrSender.sendBoseWave(BOSE_CMD_PRESET_2); // Preset 2
} else if (tSerialCommandCharacter == 57) { // 9
IrSender.sendBoseWave(BOSE_CMD_PRESET_3); // Preset 3
} else if (tSerialCommandCharacter == 97) { // a
IrSender.sendBoseWave(BOSE_CMD_PRESET_4); // Preset 4
} else if (tSerialCommandCharacter == 98) { // b
IrSender.sendBoseWave(BOSE_CMD_PRESET_5); // Preset 5
} else if (tSerialCommandCharacter == 99) { // c
IrSender.sendBoseWave(BOSE_CMD_PRESET_6); // Preset 6
} else if (tSerialCommandCharacter == 100) { // d
IrSender.sendBoseWave(BOSE_CMD_MUTE); // Mute
} else if (tSerialCommandCharacter == 101) { // e
IrSender.sendBoseWave(BOSE_CMD_PLAY_PAUSE); // Pause
} else if (tSerialCommandCharacter == 102) { // f
IrSender.sendBoseWave(BOSE_CMD_STOP); // Stop
} else if (tSerialCommandCharacter == 103) { // g
IrSender.sendBoseWave(BOSE_CMD_AUX); // Aux
} else if (tSerialCommandCharacter == 104) { // h
IrSender.sendBoseWave(BOSE_CMD_SLEEP); // Sleep
} else {
sPrintMenu = false;
}
delay(300);
}
}
void printMenu() {
Serial.println("0: On / Off");
Serial.println("1: Volume Up");
Serial.println("2: Volume Down");
Serial.println("3: Tune Up");
Serial.println("4: Tune Down");
Serial.println("5: AM");
Serial.println("6: FM");
Serial.println("7: Preset 1");
Serial.println("8: Preset 2");
Serial.println("9: Preset 3");
Serial.println("a: Preset 4");
Serial.println("b: Preset 5");
Serial.println("c: Preset 6");
Serial.println("d: Mute");
Serial.println("e: Play/Pause");
Serial.println("f: Stop");
Serial.println("g: Aux");
Serial.println("h: Sleep");
}
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