feat: 全量同步 254 个常用的 Arduino 扩展库文件

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

@@ -0,0 +1,200 @@
+// Copyright 2016 David Conran
+/// @file
+/// @brief Support for Kelvinator A/C protocols.
+
+// Supports:
+//   Brand: Kelvinator,  Model: YALIF Remote
+//   Brand: Kelvinator,  Model: KSV26CRC A/C
+//   Brand: Kelvinator,  Model: KSV26HRC A/C
+//   Brand: Kelvinator,  Model: KSV35CRC A/C
+//   Brand: Kelvinator,  Model: KSV35HRC A/C
+//   Brand: Kelvinator,  Model: KSV53HRC A/C
+//   Brand: Kelvinator,  Model: KSV62HRC A/C
+//   Brand: Kelvinator,  Model: KSV70CRC A/C
+//   Brand: Kelvinator,  Model: KSV70HRC A/C
+//   Brand: Kelvinator,  Model: KSV80HRC A/C
+//   Brand: Green,  Model: YAPOF3 remote
+
+#ifndef IR_KELVINATOR_H_
+#define IR_KELVINATOR_H_
+
+#define __STDC_LIMIT_MACROS
+#include <stdint.h>
+#ifndef UNIT_TEST
+#include <Arduino.h>
+#endif
+#include "IRremoteESP8266.h"
+#include "IRsend.h"
+#ifdef UNIT_TEST
+#include "IRsend_test.h"
+#endif
+
+// Constants
+const uint8_t kKelvinatorAuto = 0;
+const uint8_t kKelvinatorCool = 1;
+const uint8_t kKelvinatorDry = 2;
+const uint8_t kKelvinatorFan = 3;
+const uint8_t kKelvinatorHeat = 4;
+const uint8_t kKelvinatorBasicFanMax = 3;
+const uint8_t kKelvinatorFanAuto = 0;
+const uint8_t kKelvinatorFanMin = 1;
+const uint8_t kKelvinatorFanMax = 5;
+const uint8_t kKelvinatorMinTemp = 16;   // 16C
+const uint8_t kKelvinatorMaxTemp = 30;   // 30C
+const uint8_t kKelvinatorAutoTemp = 25;  // 25C
+
+// Legacy defines (Deprecated)
+#define KELVINATOR_MIN_TEMP kKelvinatorMinTemp
+#define KELVINATOR_MAX_TEMP kKelvinatorMaxTemp
+#define KELVINATOR_HEAT kKelvinatorHeat
+#define KELVINATOR_FAN_MAX kKelvinatorFanMax
+#define KELVINATOR_FAN_AUTO kKelvinatorFanAuto
+#define KELVINATOR_FAN kKelvinatorFan
+#define KELVINATOR_DRY kKelvinatorDry
+#define KELVINATOR_COOL kKelvinatorCool
+#define KELVINATOR_BASIC_FAN_MAX kKelvinatorBasicFanMax
+#define KELVINATOR_AUTO_TEMP kKelvinatorAutoTemp
+#define KELVINATOR_AUTO kKelvinatorAuto
+
+/*
+        Kelvinator AC map
+
+  (header mark and space)
+  byte 0 = Basic Modes
+    b2-0 = Modes
+      Modes:
+        000 = Auto (temp = 25C)
+        001 = Cool
+        010 = Dry (temp = 25C, but not shown)
+        011 = Fan
+        100 = Heat
+    b3 = Power Status (1 = On, 0 = Off)
+    b5-4 = Fan (Basic modes)
+      Fan:
+        00 = Auto
+        01 = Fan 1
+        10 = Fan 2
+        11 = Fan 3 or higher (See byte 14)
+    b6 = Vent swing (1 = On, 0 = Off) (See byte 4)
+    b7 = Sleep Modes 1 & 3 (1 = On, 0 = Off)
+  byte 1 = Temperature
+    b3-0: Degrees C.
+      0000 (0) = 16C
+      0001 (1) = 17C
+      0010 (2) = 18C
+      ...
+      1101 (13) = 29C
+      1110 (14) = 30C
+  byte 2 = Extras
+    b3-0 = UNKNOWN, typically 0.
+    b4 = Turbo Fan (1 = On, 0 = Off)
+    b5 = Light (Display) (1 = On, 0 = Off)
+    b6 = Ion Filter (1 = On, 0 = Off)
+    b7 = X-Fan (Fan runs for a while after power off) (1 = On, 0 = Off)
+  byte 3 = Section Indicator
+    b3-0 = Unused (Typically 0)
+    b5-4 = Unknown (possibly timer related) (Typically 0b01)
+    b7-6 = End of command block (B01)
+  (B010 marker and a gap of 20ms)
+  byte 4 = Extended options
+    b0 = Swing Vent Vertical (1 = On, 0 = Off)
+    b4 = Swing Vent Horizontal (1 = On, 0 = Off)
+  byte 5-6 = Timer related. Typically 0 except when timer in use.
+  byte 7 = checksum
+    b3-0 = Unknown (Used in Timer mode)
+    b7-4 = checksum of the previous bytes (0-6)
+  (gap of 40ms)
+  (header mark and space)
+  byte 8 = Repeat of byte 0
+  byte 9 = Repeat of byte 1
+  byte 10 = Repeat of byte 2
+  byte 11 = Section Indicator
+    b3-0 = Unused (Typically 0)
+    b5-4 = Unknown (possibly timer related) (Typically 0b11)
+    b7-6 = End of command block (B01)
+  (B010 marker and a gap of 20ms)
+  byte 12 = Extended options
+    b0 = Sleep mode 2 (1 = On, 0=Off)
+    b6-1 = Unknown (Used in Sleep Mode 3, Typically 0b000000)
+    b7 = Quiet Mode (1 = On, 0=Off)
+  byte 13 = Unknown (Sleep Mode 3 related, Typically 0x00)
+  byte 14 = Fan control
+    b3-0 = Unknown (Sleep Mode 3 related, Typically 0b0000)
+    b6-4 = Fan speed
+       0b000 (0) = Automatic
+       0b001 (1) = Fan 1
+       0b010 (2) = Fan 2
+       0b011 (3) = Fan 3
+       0b100 (4) = Fan 4
+       0b101 (5) = Fan 5
+  byte 15 = checksum
+    b3-0 = Unknown (Typically 0b0000)
+    b7-4 = checksum of the previous bytes (8-14)
+*/
+
+// Classes
+/// Class for handling detailed Kelvinator A/C messages.
+class IRKelvinatorAC {
+ public:
+  explicit IRKelvinatorAC(const uint16_t pin, const bool inverted = false,
+                          const bool use_modulation = true);
+  void stateReset(void);
+#if SEND_KELVINATOR
+  void send(const uint16_t repeat = kKelvinatorDefaultRepeat);
+  /// 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_KELVINATOR
+  void begin(void);
+  void on(void);
+  void off(void);
+  void setPower(const bool on);
+  bool getPower(void);
+  void setTemp(const uint8_t degrees);
+  uint8_t getTemp(void);
+  void setFan(const uint8_t speed);
+  uint8_t getFan(void);
+  void setMode(const uint8_t mode);
+  uint8_t getMode(void);
+  void setSwingVertical(const bool on);
+  bool getSwingVertical(void);
+  void setSwingHorizontal(const bool on);
+  bool getSwingHorizontal(void);
+  void setQuiet(const bool on);
+  bool getQuiet(void);
+  void setIonFilter(const bool on);
+  bool getIonFilter(void);
+  void setLight(const bool on);
+  bool getLight(void);
+  void setXFan(const bool on);
+  bool getXFan(void);
+  void setTurbo(const bool on);
+  bool getTurbo(void);
+  uint8_t* getRaw(void);
+  void setRaw(const uint8_t new_code[]);
+  static uint8_t calcBlockChecksum(
+      const uint8_t* block, const uint16_t length = kKelvinatorStateLength / 2);
+  static bool validChecksum(const uint8_t state[],
+                            const uint16_t length = kKelvinatorStateLength);
+  uint8_t convertMode(const stdAc::opmode_t mode);
+  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_state[kKelvinatorStateLength];  ///< The state in IR code form.
+  void checksum(const uint16_t length = kKelvinatorStateLength);
+  void fixup(void);
+};
+
+#endif  // IR_KELVINATOR_H_