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- //******************************************************************************
- // IRremote
- // Version 2.0.1 June, 2015
- // Copyright 2009 Ken Shirriff
- // For details, see http://arcfn.com/2009/08/multi-protocol-infrared-remote-library.html
- //
- // Modified by Paul Stoffregen <paul@pjrc.com> to support other boards and timers
- // Modified by Mitra Ardron <mitra@mitra.biz>
- // Added Sanyo and Mitsubishi controllers
- // Modified Sony to spot the repeat codes that some Sony's send
- //
- // Interrupt code based on NECIRrcv by Joe Knapp
- // http://www.arduino.cc/cgi-bin/yabb2/YaBB.pl?num=1210243556
- // Also influenced by http://zovirl.com/2008/11/12/building-a-universal-remote-with-an-arduino/
- //
- // JVC and Panasonic protocol added by Kristian Lauszus (Thanks to zenwheel and other people at the original blog post)
- // LG added by Darryl Smith (based on the JVC protocol)
- // Whynter A/C ARC-110WD added by Francesco Meschia
- //******************************************************************************
-
- // Defining IR_GLOBAL here allows us to declare the instantiation of global variables
- #define IR_GLOBAL
- # include "IRremote.h"
- # include "IRremoteInt.h"
- #undef IR_GLOBAL
-
- #ifndef IR_TIMER_USE_ESP32
- #include <avr/interrupt.h>
- #endif
-
-
- //+=============================================================================
- // The match functions were (apparently) originally MACROs to improve code speed
- // (although this would have bloated the code) hence the names being CAPS
- // A later release implemented debug output and so they needed to be converted
- // to functions.
- // I tried to implement a dual-compile mode (DEBUG/non-DEBUG) but for some
- // reason, no matter what I did I could not get them to function as macros again.
- // I have found a *lot* of bugs in the Arduino compiler over the last few weeks,
- // and I am currently assuming that one of these bugs is my problem.
- // I may revisit this code at a later date and look at the assembler produced
- // in a hope of finding out what is going on, but for now they will remain as
- // functions even in non-DEBUG mode
- //
- int MATCH (int measured, int desired)
- {
- DBG_PRINT(F("Testing: "));
- DBG_PRINT(TICKS_LOW(desired), DEC);
- DBG_PRINT(F(" <= "));
- DBG_PRINT(measured, DEC);
- DBG_PRINT(F(" <= "));
- DBG_PRINT(TICKS_HIGH(desired), DEC);
-
- bool passed = ((measured >= TICKS_LOW(desired)) && (measured <= TICKS_HIGH(desired)));
- if (passed) {
- DBG_PRINTLN(F("?; passed"));
- } else {
- DBG_PRINTLN(F("?; FAILED"));
- }
- return passed;
- }
-
- //+========================================================
- // Due to sensor lag, when received, Marks tend to be 100us too long
- //
- int MATCH_MARK (int measured_ticks, int desired_us)
- {
- DBG_PRINT(F("Testing mark (actual vs desired): "));
- DBG_PRINT(measured_ticks * USECPERTICK, DEC);
- DBG_PRINT(F("us vs "));
- DBG_PRINT(desired_us, DEC);
- DBG_PRINT("us");
- DBG_PRINT(": ");
- DBG_PRINT(TICKS_LOW(desired_us + MARK_EXCESS) * USECPERTICK, DEC);
- DBG_PRINT(F(" <= "));
- DBG_PRINT(measured_ticks * USECPERTICK, DEC);
- DBG_PRINT(F(" <= "));
- DBG_PRINT(TICKS_HIGH(desired_us + MARK_EXCESS) * USECPERTICK, DEC);
-
- bool passed = ((measured_ticks >= TICKS_LOW (desired_us + MARK_EXCESS))
- && (measured_ticks <= TICKS_HIGH(desired_us + MARK_EXCESS)));
- if (passed) {
- DBG_PRINTLN(F("?; passed"));
- } else {
- DBG_PRINTLN(F("?; FAILED"));
- }
- return passed;
- }
-
- //+========================================================
- // Due to sensor lag, when received, Spaces tend to be 100us too short
- //
- int MATCH_SPACE (int measured_ticks, int desired_us)
- {
- DBG_PRINT(F("Testing space (actual vs desired): "));
- DBG_PRINT(measured_ticks * USECPERTICK, DEC);
- DBG_PRINT(F("us vs "));
- DBG_PRINT(desired_us, DEC);
- DBG_PRINT("us");
- DBG_PRINT(": ");
- DBG_PRINT(TICKS_LOW(desired_us - MARK_EXCESS) * USECPERTICK, DEC);
- DBG_PRINT(F(" <= "));
- DBG_PRINT(measured_ticks * USECPERTICK, DEC);
- DBG_PRINT(F(" <= "));
- DBG_PRINT(TICKS_HIGH(desired_us - MARK_EXCESS) * USECPERTICK, DEC);
-
- bool passed = ((measured_ticks >= TICKS_LOW (desired_us - MARK_EXCESS))
- && (measured_ticks <= TICKS_HIGH(desired_us - MARK_EXCESS)));
- if (passed) {
- DBG_PRINTLN(F("?; passed"));
- } else {
- DBG_PRINTLN(F("?; FAILED"));
- }
- return passed;
- }
-
- //+=============================================================================
- // Interrupt Service Routine - Fires every 50uS
- // TIMER2 interrupt code to collect raw data.
- // Widths of alternating SPACE, MARK are recorded in rawbuf.
- // Recorded in ticks of 50uS [microseconds, 0.000050 seconds]
- // 'rawlen' counts the number of entries recorded so far.
- // First entry is the SPACE between transmissions.
- // As soon as a the first [SPACE] entry gets long:
- // Ready is set; State switches to IDLE; Timing of SPACE continues.
- // As soon as first MARK arrives:
- // Gap width is recorded; Ready is cleared; New logging starts
- //
- #ifdef IR_TIMER_USE_ESP32
- void IRTimer()
- #else
- ISR (TIMER_INTR_NAME)
- #endif
- {
- TIMER_RESET;
-
- // Read if IR Receiver -> SPACE [xmt LED off] or a MARK [xmt LED on]
- // digitalRead() is very slow. Optimisation is possible, but makes the code unportable
- uint8_t irdata = (uint8_t)digitalRead(irparams.recvpin);
-
- irparams.timer++; // One more 50uS tick
- if (irparams.rawlen >= RAWBUF) irparams.rcvstate = STATE_OVERFLOW ; // Buffer overflow
-
- switch(irparams.rcvstate) {
- //......................................................................
- case STATE_IDLE: // In the middle of a gap
- if (irdata == MARK) {
- if (irparams.timer < GAP_TICKS) { // Not big enough to be a gap.
- irparams.timer = 0;
-
- } else {
- // Gap just ended; Record duration; Start recording transmission
- irparams.overflow = false;
- irparams.rawlen = 0;
- irparams.rawbuf[irparams.rawlen++] = irparams.timer;
- irparams.timer = 0;
- irparams.rcvstate = STATE_MARK;
- }
- }
- break;
- //......................................................................
- case STATE_MARK: // Timing Mark
- if (irdata == SPACE) { // Mark ended; Record time
- irparams.rawbuf[irparams.rawlen++] = irparams.timer;
- irparams.timer = 0;
- irparams.rcvstate = STATE_SPACE;
- }
- break;
- //......................................................................
- case STATE_SPACE: // Timing Space
- if (irdata == MARK) { // Space just ended; Record time
- irparams.rawbuf[irparams.rawlen++] = irparams.timer;
- irparams.timer = 0;
- irparams.rcvstate = STATE_MARK;
-
- } else if (irparams.timer > GAP_TICKS) { // Space
- // A long Space, indicates gap between codes
- // Flag the current code as ready for processing
- // Switch to STOP
- // Don't reset timer; keep counting Space width
- irparams.rcvstate = STATE_STOP;
- }
- break;
- //......................................................................
- case STATE_STOP: // Waiting; Measuring Gap
- if (irdata == MARK) irparams.timer = 0 ; // Reset gap timer
- break;
- //......................................................................
- case STATE_OVERFLOW: // Flag up a read overflow; Stop the State Machine
- irparams.overflow = true;
- irparams.rcvstate = STATE_STOP;
- break;
- }
-
- // If requested, flash LED while receiving IR data
- if (irparams.blinkflag) {
- if (irdata == MARK)
- if (irparams.blinkpin) digitalWrite(irparams.blinkpin, HIGH); // Turn user defined pin LED on
- else BLINKLED_ON() ; // if no user defined LED pin, turn default LED pin for the hardware on
- else if (irparams.blinkpin) digitalWrite(irparams.blinkpin, LOW); // Turn user defined pin LED on
- else BLINKLED_OFF() ; // if no user defined LED pin, turn default LED pin for the hardware on
- }
- }
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