feat: 全量同步 254 个常用的 Arduino 扩展库文件

arduino-libs/arduino-cli/libraries/IRremoteESP8266/src/ir_Sharp.h

@@ -0,0 +1,181 @@
+// Copyright 2019 crankyoldgit
+
+/// @file
+/// @brief Support for Sharp protocols.
+/// @see http://www.sbprojects.com/knowledge/ir/sharp.htm
+/// @see http://lirc.sourceforge.net/remotes/sharp/GA538WJSA
+/// @see http://www.mwftr.com/ucF08/LEC14%20PIC%20IR.pdf
+/// @see http://www.hifi-remote.com/johnsfine/DecodeIR.html#Sharp
+/// @see GlobalCache's IR Control Tower data.
+/// @see https://github.com/crankyoldgit/IRremoteESP8266/issues/638
+/// @see https://github.com/ToniA/arduino-heatpumpir/blob/master/SharpHeatpumpIR.cpp
+
+// Supports:
+//   Brand: Sharp,  Model: LC-52D62U TV
+//   Brand: Sharp,  Model: AY-ZP40KR A/C
+//   Brand: Sharp,  Model: AH-AxSAY A/C
+//   Brand: Sharp,  Model: CRMC-A907 JBEZ remote
+//   Brand: Sharp,  Model: AH-XP10NRY A/C
+//   Brand: Sharp,  Model: CRMC-820JBEZ remote
+
+#ifndef IR_SHARP_H_
+#define IR_SHARP_H_
+
+#ifndef UNIT_TEST
+#include <Arduino.h>
+#endif
+#include "IRrecv.h"
+#include "IRremoteESP8266.h"
+#include "IRsend.h"
+#ifdef UNIT_TEST
+#include "IRsend_test.h"
+#endif
+#include "IRutils.h"
+
+// Constants
+const uint16_t kSharpAcHdrMark = 3800;
+const uint16_t kSharpAcHdrSpace = 1900;
+const uint16_t kSharpAcBitMark = 470;
+const uint16_t kSharpAcZeroSpace = 500;
+const uint16_t kSharpAcOneSpace = 1400;
+const uint32_t kSharpAcGap = kDefaultMessageGap;
+
+// Byte[4]
+const uint8_t kSharpAcByteTemp = 4;
+const uint8_t kSharpAcMinTemp = 15;  // Celsius
+const uint8_t kSharpAcMaxTemp = 30;  // Celsius
+// Byte[5]
+const uint8_t kSharpAcBytePowerSpecial = 5;
+const uint8_t kSharpAcPowerSetSpecialOffset = kHighNibble;  // 0bxxxx0000
+const uint8_t kSharpAcPowerSpecialSize = kNibbleSize;       // 0bxxxx0000
+const uint8_t kSharpAcPowerUnknown = 0;                     // 0b0000
+const uint8_t kSharpAcPowerOnFromOff = 1;                   // 0b0001
+const uint8_t kSharpAcPowerOff = 2;                         // 0b0010
+const uint8_t kSharpAcPowerOn = 3;                          // 0b0011 (Normal)
+const uint8_t kSharpAcPowerSetSpecialOn = 6;                // 0b0110
+const uint8_t kSharpAcPowerSetSpecialOff = 7;               // 0b0111
+const uint8_t kSharpAcPowerTimerSetting = 8;                // 0b1000
+// Byte[6]
+const uint8_t kSharpAcByteMode = 6;
+const uint8_t kSharpAcModeSize = 2;        // Mask 0b000000xx;
+const uint8_t kSharpAcAuto =                             0b00;
+const uint8_t kSharpAcDry =                              0b11;
+const uint8_t kSharpAcCool =                             0b10;
+const uint8_t kSharpAcHeat =                             0b01;
+const uint8_t kSharpAcByteClean = kSharpAcByteMode;
+const uint8_t kSharpAcBitCleanOffset = 3;  // Mask 0b0000x000
+const uint8_t kSharpAcByteFan = kSharpAcByteMode;
+const uint8_t kSharpAcFanOffset = 4;       // Mask 0b0xxx0000
+const uint8_t kSharpAcFanSize = 3;  // Nr. of Bits
+const uint8_t kSharpAcFanAuto =                     0b010;  // 2
+const uint8_t kSharpAcFanMin =                      0b100;  // 4 (FAN1)
+const uint8_t kSharpAcFanMed =                      0b011;  // 3 (FAN2)
+const uint8_t kSharpAcFanHigh =                     0b101;  // 5 (FAN3)
+const uint8_t kSharpAcFanMax =                      0b111;  // 7 (FAN4)
+// Byte[7]
+const uint8_t kSharpAcByteTimer = 7;
+const uint8_t kSharpAcTimerIncrement = 30;  // Mins
+const uint8_t kSharpAcTimerHoursOffset = kLowNibble;
+const uint8_t kSharpAcTimerHoursSize = kNibbleSize;   // Mask 0b0000xxxx
+const uint8_t kSharpAcTimerHoursOff =                             0b0000;
+const uint8_t kSharpAcTimerHoursMax =                             0b1100;  // 12
+const uint8_t kSharpAcBitTimerType = 6;               // Mask 0b0x000000
+const uint8_t kSharpAcOffTimerType =                           0b0;
+const uint8_t kSharpAcOnTimerType =                            0b1;
+const uint8_t kSharpAcBitTimerEnabled = 7;            // Mask 0bx0000000
+// Byte[8]
+const uint8_t kSharpAcByteSwing = 8;
+const uint8_t kSharpAcSwingOffset = 0;
+const uint8_t kSharpAcSwingSize = 3;  // Mask 0b00000xxx
+const uint8_t kSharpAcSwingToggle =                0b111;
+const uint8_t kSharpAcSwingNoToggle =              0b000;
+// Byte[10]
+const uint8_t kSharpAcByteSpecial = 10;  // Mask 0bxxxxxxxx
+const uint8_t kSharpAcSpecialPower =              0x00;
+const uint8_t kSharpAcSpecialTurbo =              0x01;
+const uint8_t kSharpAcSpecialTempEcono =          0x04;
+const uint8_t kSharpAcSpecialFan =                0x05;
+const uint8_t kSharpAcSpecialSwing =              0x06;
+const uint8_t kSharpAcSpecialTimer =              0xC0;
+const uint8_t kSharpAcSpecialTimerHalfHour =      0xDE;
+// Byte[11]
+const uint8_t kSharpAcByteIon = 11;
+const uint8_t kSharpAcBitIonOffset = 2;  // Mask 0b00000x00
+// Byte[12] (Checksum)
+
+// Classes
+/// Class for handling detailed Sharp A/C messages.
+class IRSharpAc {
+ public:
+  explicit IRSharpAc(const uint16_t pin, const bool inverted = false,
+                     const bool use_modulation = true);
+#if SEND_SHARP_AC
+  void send(const uint16_t repeat = kSharpAcDefaultRepeat);
+  /// Run the calibration to calculate uSec timing offsets for this platform.
+  /// @return The uSec timing offset needed per modulation of the IR Led.
+  /// @note This will produce a 65ms IR signal pulse at 38kHz.
+  ///   Only ever needs to be run once per object instantiation, if at all.
+  int8_t calibrate(void) { return _irsend.calibrate(); }
+#endif  // SEND_SHARP_AC
+  void begin(void);
+  void on(void);
+  void off(void);
+  void setPower(const bool on, const bool prev_on = true);
+  bool getPower(void);
+  bool isPowerSpecial(void);
+  void setTemp(const uint8_t temp, const bool save = true);
+  uint8_t getTemp(void);
+  void setFan(const uint8_t fan, const bool save = true);
+  uint8_t getFan(void);
+  void setMode(const uint8_t mode, const bool save = true);
+  uint8_t getMode(void);
+  void setSpecial(const uint8_t mode);
+  uint8_t getSpecial(void);
+  bool getTurbo(void);
+  void setTurbo(const bool on);
+  bool getSwingToggle(void);
+  void setSwingToggle(const bool on);
+  bool getIon(void);
+  void setIon(const bool on);
+  bool getEconoToggle(void);
+  void setEconoToggle(const bool on);
+  uint16_t getTimerTime(void);
+  bool getTimerEnabled(void);
+  bool getTimerType(void);
+  void setTimer(bool enable, bool timer_type, uint16_t mins);
+  bool getClean(void);
+  void setClean(const bool on);
+  uint8_t* getRaw(void);
+  void setRaw(const uint8_t new_code[],
+              const uint16_t length = kSharpAcStateLength);
+  static bool validChecksum(uint8_t state[],
+                            const uint16_t length = kSharpAcStateLength);
+  static uint8_t convertMode(const stdAc::opmode_t mode);
+  static uint8_t convertFan(const stdAc::fanspeed_t speed);
+  static stdAc::opmode_t toCommonMode(const uint8_t mode);
+  static stdAc::fanspeed_t toCommonFanSpeed(const uint8_t speed);
+  stdAc::state_t toCommon(void);
+  String toString(void);
+#ifndef UNIT_TEST
+
+ private:
+  IRsend _irsend;  ///< Instance of the IR send class
+#else  // UNIT_TEST
+  /// @cond IGNORE
+  IRsendTest _irsend;  ///< Instance of the testing IR send class
+  /// @endcond
+#endif  // UNIT_TEST
+  uint8_t remote[kSharpAcStateLength];  ///< State of the remote in IR code form
+  uint8_t _temp;  ///< Saved copy of the desired temp.
+  uint8_t _mode;  ///< Saved copy of the desired mode.
+  uint8_t _fan;  ///< Saved copy of the desired fan speed.
+  void stateReset(void);
+  void checksum(void);
+  static uint8_t calcChecksum(uint8_t state[],
+                              const uint16_t length = kSharpAcStateLength);
+  void setPowerSpecial(const uint8_t value);
+  uint8_t getPowerSpecial(void);
+  void clearPowerSpecial(void);
+};
+
+#endif  // IR_SHARP_H_