ir_recive_demov2
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@ -13,3 +13,4 @@ platform = espressif8266
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board = nodemcuv2
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board = nodemcuv2
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framework = arduino
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framework = arduino
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lib_deps = crankyoldgit/IRremoteESP8266@^2.8.5
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lib_deps = crankyoldgit/IRremoteESP8266@^2.8.5
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monitor_speed = 115200
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192
src/main.cpp
192
src/main.cpp
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@ -1,18 +1,186 @@
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/*
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* IRremoteESP8266: IRrecvDumpV2 - dump details of IR codes with IRrecv
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* An IR detector/demodulator must be connected to the input kRecvPin.
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*
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* Copyright 2009 Ken Shirriff, http://arcfn.com
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* Copyright 2017-2019 David Conran
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*
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* Example circuit diagram:
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* https://github.com/crankyoldgit/IRremoteESP8266/wiki#ir-receiving
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*
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* Changes:
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* Version 1.2 October, 2020
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* - Enable easy setting of the decoding tolerance value.
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* Version 1.0 October, 2019
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* - Internationalisation (i18n) support.
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* - Stop displaying the legacy raw timing info.
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* Version 0.5 June, 2019
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* - Move A/C description to IRac.cpp.
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* Version 0.4 July, 2018
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* - Minor improvements and more A/C unit support.
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* Version 0.3 November, 2017
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* - Support for A/C decoding for some protocols.
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* Version 0.2 April, 2017
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* - Decode from a copy of the data so we can start capturing faster thus
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* reduce the likelihood of miscaptures.
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* Based on Ken Shirriff's IrsendDemo Version 0.1 July, 2009,
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*/
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#include <Arduino.h>
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#include <Arduino.h>
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#include <assert.h>
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#include <IRrecv.h>
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#include <IRremoteESP8266.h>
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#include <IRac.h>
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#include <IRtext.h>
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#include <IRutils.h>
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// put function declarations here:
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// ==================== start of TUNEABLE PARAMETERS ====================
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int myFunction(int, int);
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// An IR detector/demodulator is connected to GPIO pin 14
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// e.g. D5 on a NodeMCU board.
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// Note: GPIO 16 won't work on the ESP8266 as it does not have interrupts.
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// Note: GPIO 14 won't work on the ESP32-C3 as it causes the board to reboot.
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#ifdef ARDUINO_ESP32C3_DEV
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const uint16_t kRecvPin = 10; // 14 on a ESP32-C3 causes a boot loop.
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#else // ARDUINO_ESP32C3_DEV
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const uint16_t kRecvPin = 14;
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#endif // ARDUINO_ESP32C3_DEV
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void setup() {
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// The Serial connection baud rate.
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// put your setup code here, to run once:
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// i.e. Status message will be sent to the PC at this baud rate.
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int result = myFunction(2, 3);
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// Try to avoid slow speeds like 9600, as you will miss messages and
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// cause other problems. 115200 (or faster) is recommended.
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// NOTE: Make sure you set your Serial Monitor to the same speed.
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const uint32_t kBaudRate = 115200;
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// As this program is a special purpose capture/decoder, let us use a larger
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// than normal buffer so we can handle Air Conditioner remote codes.
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const uint16_t kCaptureBufferSize = 1024;
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// kTimeout is the Nr. of milli-Seconds of no-more-data before we consider a
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// message ended.
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// This parameter is an interesting trade-off. The longer the timeout, the more
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// complex a message it can capture. e.g. Some device protocols will send
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// multiple message packets in quick succession, like Air Conditioner remotes.
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// Air Coniditioner protocols often have a considerable gap (20-40+ms) between
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// packets.
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// The downside of a large timeout value is a lot of less complex protocols
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// send multiple messages when the remote's button is held down. The gap between
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// them is often also around 20+ms. This can result in the raw data be 2-3+
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// times larger than needed as it has captured 2-3+ messages in a single
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// capture. Setting a low timeout value can resolve this.
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// So, choosing the best kTimeout value for your use particular case is
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// quite nuanced. Good luck and happy hunting.
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// NOTE: Don't exceed kMaxTimeoutMs. Typically 130ms.
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#if DECODE_AC
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// Some A/C units have gaps in their protocols of ~40ms. e.g. Kelvinator
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// A value this large may swallow repeats of some protocols
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const uint8_t kTimeout = 50;
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#else // DECODE_AC
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// Suits most messages, while not swallowing many repeats.
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const uint8_t kTimeout = 15;
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#endif // DECODE_AC
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// Alternatives:
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// const uint8_t kTimeout = 90;
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// Suits messages with big gaps like XMP-1 & some aircon units, but can
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// accidentally swallow repeated messages in the rawData[] output.
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//
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// const uint8_t kTimeout = kMaxTimeoutMs;
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// This will set it to our currently allowed maximum.
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// Values this high are problematic because it is roughly the typical boundary
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// where most messages repeat.
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// e.g. It will stop decoding a message and start sending it to serial at
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// precisely the time when the next message is likely to be transmitted,
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// and may miss it.
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// Set the smallest sized "UNKNOWN" message packets we actually care about.
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// This value helps reduce the false-positive detection rate of IR background
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// noise as real messages. The chances of background IR noise getting detected
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// as a message increases with the length of the kTimeout value. (See above)
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// The downside of setting this message too large is you can miss some valid
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// short messages for protocols that this library doesn't yet decode.
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//
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// Set higher if you get lots of random short UNKNOWN messages when nothing
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// should be sending a message.
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// Set lower if you are sure your setup is working, but it doesn't see messages
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// from your device. (e.g. Other IR remotes work.)
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// NOTE: Set this value very high to effectively turn off UNKNOWN detection.
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const uint16_t kMinUnknownSize = 12;
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// How much percentage lee way do we give to incoming signals in order to match
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// it?
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// e.g. +/- 25% (default) to an expected value of 500 would mean matching a
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// value between 375 & 625 inclusive.
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// Note: Default is 25(%). Going to a value >= 50(%) will cause some protocols
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// to no longer match correctly. In normal situations you probably do not
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// need to adjust this value. Typically that's when the library detects
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// your remote's message some of the time, but not all of the time.
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const uint8_t kTolerancePercentage = kTolerance; // kTolerance is normally 25%
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// Legacy (No longer supported!)
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//
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// Change to `true` if you miss/need the old "Raw Timing[]" display.
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#define LEGACY_TIMING_INFO false
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// ==================== end of TUNEABLE PARAMETERS ====================
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// Use turn on the save buffer feature for more complete capture coverage.
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IRrecv irrecv(kRecvPin, kCaptureBufferSize, kTimeout, true);
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decode_results results; // Somewhere to store the results
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// This section of code runs only once at start-up.
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void setup()
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{
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#if defined(ESP8266)
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Serial.begin(kBaudRate, SERIAL_8N1, SERIAL_TX_ONLY);
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#else // ESP8266
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Serial.begin(kBaudRate, SERIAL_8N1);
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#endif // ESP8266
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while (!Serial) // Wait for the serial connection to be establised.
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delay(50);
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// Perform a low level sanity checks that the compiler performs bit field
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// packing as we expect and Endianness is as we expect.
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assert(irutils::lowLevelSanityCheck() == 0);
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Serial.printf("\n" D_STR_IRRECVDUMP_STARTUP "\n", kRecvPin);
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#if DECODE_HASH
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// Ignore messages with less than minimum on or off pulses.
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irrecv.setUnknownThreshold(kMinUnknownSize);
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#endif // DECODE_HASH
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irrecv.setTolerance(kTolerancePercentage); // Override the default tolerance.
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irrecv.enableIRIn(); // Start the receiver
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}
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}
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void loop() {
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// The repeating section of the code
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// put your main code here, to run repeatedly:
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void loop()
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}
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{
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// Check if the IR code has been received.
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// put function definitions here:
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if (irrecv.decode(&results))
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int myFunction(int x, int y) {
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{
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return x + y;
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// Display a crude timestamp.
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uint32_t now = millis();
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Serial.printf(D_STR_TIMESTAMP " : %06u.%03u\n", now / 1000, now % 1000);
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// Check if we got an IR message that was to big for our capture buffer.
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if (results.overflow)
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Serial.printf(D_WARN_BUFFERFULL "\n", kCaptureBufferSize);
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// Display the library version the message was captured with.
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Serial.println(D_STR_LIBRARY " : v" _IRREMOTEESP8266_VERSION_STR "\n");
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// Display the tolerance percentage if it has been change from the default.
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if (kTolerancePercentage != kTolerance)
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Serial.printf(D_STR_TOLERANCE " : %d%%\n", kTolerancePercentage);
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// Display the basic output of what we found.
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Serial.print(resultToHumanReadableBasic(&results));
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// Display any extra A/C info if we have it.
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String description = IRAcUtils::resultAcToString(&results);
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if (description.length())
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Serial.println(D_STR_MESGDESC ": " + description);
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yield(); // Feed the WDT as the text output can take a while to print.
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#if LEGACY_TIMING_INFO
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// Output legacy RAW timing info of the result.
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Serial.println(resultToTimingInfo(&results));
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yield(); // Feed the WDT (again)
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#endif // LEGACY_TIMING_INFO
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// Output the results as source code
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Serial.println(resultToSourceCode(&results));
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Serial.println(); // Blank line between entries
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yield(); // Feed the WDT (again)
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}
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}
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}
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