395 lines
13 KiB
C++
395 lines
13 KiB
C++
/**
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* @file MicroGirs.ino
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*
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* @brief This is a minimalistic <a href="http://harctoolbox.org/Girs.html">Girs server</a>.
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* It only depends on (a subset of) IRremote. It can be used with
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* <a href="http://www.harctoolbox.org/IrScrutinizer.html">IrScrutinizer</a>
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* (select Sending/Capturing hw = Girs Client) as well as
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* <a href="http://lirc.org">Lirc</a>
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* version 0.9.4 and later, using the driver <a href="http://lirc.org/html/girs.html">Girs</a>).
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* (Authors of similar software are encourage to implement support.)
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*
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* It runs on all hardware on which IRemote runs.
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*
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* It consists of an interactive IR server, taking one-line commands from
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* the "user" (which is typically not a person but another program), and
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* responds with a one-line response. In the language of the Girs
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* specifications, the modules "base", receive, and transmit are
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* implemented. (The two latter can be disabled by not defining two
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* corresponding CPP symbols.)
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*
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* It understands the following commands:
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*
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* The "version" command returns the program name and version,
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* The "modules" command returns the modules implemented, normally base, receive and transmit.
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* The "receive" command reads an IR signal using the used, demodulating IR sensor.
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* The "send" commands transmits a supplied raw signal the requested number of times.
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*
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* Only the first character of the command is evaluated in this implementation.
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*
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* The "receive" command returns the received IR sequence as a sequence
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* of durations, including a (dummy) trailing silence. On-periods
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* ("marks", "flashes") are prefixed by "+", while off-periods ("spaces",
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* "gaps") are prefixed by "-". The present version never times out.
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*
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* The \c send command takes the following parameters:
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*
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* send noSends frequencyHz introLength repeatLength endingLength durations...
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* where
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*
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* * frequencyHz denotes the modulation frequency in Hz
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* (\e not khz, as is normally used in IRremote)
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* * introLength denotes the length of the intro sequence, must be even,
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* * repeatLength denotes the length of the repeat sequence, must be even,
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* * endingLength denotes the length of the ending sequence (normally 0), must be even.
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* * duration... denotes the microsecond durations to send,
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* starting with the first on-period, ending with a (possibly dummy) trailing silence
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*
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* Semantics: first the intro sequence will be sent once (i.e., the first
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* repeatLength durations) (if non-empty). Then the repeat sequence will
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* be sent (noSends-1) times, unless the intro sequence was empty, in
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* which case it will be send noSends times. Finally, the ending
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* sequence will be send once (if non-empty).
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*
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* Weaknesses of the IRremote implementation:
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* * Reception never times out if no IR is seen.
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* * The IRrecv class does its own decoding which is irrelevant for us.
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* * The timeout at the end on a signal reception is not configurable.
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* For example, a NEC1 type signal will cut after the intro sequence,
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* and the repeats will be considered independent signals.
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* In IrSqrutinizer, recognition of repeating signals will therefore not work.
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* The size of the data is platform dependent ("unsigned int", which is 16 bit on AVR boards, 32 bits on 32 bit boards).
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*
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*/
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#include <Arduino.h>
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#if RAMEND <= 0x4FF || (defined(RAMSIZE) && RAMSIZE < 0x4FF)
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#define RAW_BUFFER_LENGTH 180 // 750 (600 if we have only 2k RAM) is the value for air condition remotes. Default is 112 if DECODE_MAGIQUEST is enabled, otherwise 100.
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#elif RAMEND <= 0x8FF || (defined(RAMSIZE) && RAMSIZE < 0x8FF)
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#define RAW_BUFFER_LENGTH 500 // 750 (600 if we have only 2k RAM) is the value for air condition remotes. Default is 112 if DECODE_MAGIQUEST is enabled, otherwise 100.
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#else
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#define RAW_BUFFER_LENGTH 750 // 750 (600 if we have only 2k RAM) is the value for air condition remotes. Default is 112 if DECODE_MAGIQUEST is enabled, otherwise 100.
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#endif
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// Change the following two entries if desired
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/**
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* Baud rate for the serial/USB connection.
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* (115200 is the default for IrScrutinizer and Lirc.)
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*/
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#define BAUDRATE 115200
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#define NO_DECODER
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#include "PinDefinitionsAndMore.h" // Define macros for input and output pin etc.
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#include "IRremote.hpp"
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#include <limits.h>
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/**
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* Define to support reception of IR.
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*/
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#define RECEIVE
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/**
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* Define to support transmission of IR signals.
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*/
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#define TRANSMIT
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// (The sending pin is in general not configurable, see the documentation of IRremote.)
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/**
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* Character that ends the command lines. Do not change unless you known what
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* you are doing. IrScrutinizer and Lirc expects \r.
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*/
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#define EOLCHAR '\r'
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////// End of user configurable variables ////////////////////
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/**
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* The modules supported, as given by the "modules" command.
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*/
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#if defined(TRANSMIT)
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#if defined(RECEIVE)
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#define modulesSupported "base transmit receive"
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#else // ! RECEIVE
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#define modulesSupported "base transmit"
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#endif
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#else // !TRANSMIT
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#if defined(RECEIVE)
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#define modulesSupported "base receive"
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#else // ! RECETVE
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#error At lease one of TRANSMIT and RECEIVE must be defined
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#endif
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#endif
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/**
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* Name of program, as reported by the "version" command.
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*/
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#define PROGNAME "MicroGirs"
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/**
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* Version of program, as reported by the "version" command.
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*/
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#define VERSION "2020-07-05"
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#define okString "OK"
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#define errorString "ERROR"
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#define timeoutString "."
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// For compatibility with IRremote, we deliberately use
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// the platform dependent types.
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// (Although it is a questionable idea ;-) )
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/**
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* Type used for modulation frequency in Hz (\e not kHz).
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*/
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typedef unsigned frequency_t; // max 65535, unless 32-bit
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/**
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* Type used for durations in micro seconds.
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*/
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typedef uint16_t microseconds_t; // max 65535
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static const microseconds_t DUMMYENDING = 40000U;
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static const frequency_t FREQUENCY_T_MAX = UINT16_MAX;
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static const frequency_t MICROSECONDS_T_MAX = UINT16_MAX;
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/**
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* Our own tokenizer class. Breaks the command line into tokens.
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* Usage outside of this package is discouraged.
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*/
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class Tokenizer {
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private:
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static const int invalidIndex = -1;
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int index; // signed since invalidIndex is possible
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const String &payload;
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void trim();
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public:
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Tokenizer(const String &str);
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String getToken();
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String getRest();
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String getLine();
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long getInt();
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microseconds_t getMicroseconds();
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frequency_t getFrequency();
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static const int invalid = INT_MAX;
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};
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Tokenizer::Tokenizer(const String &str) :
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index(0), payload(str) {
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}
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String Tokenizer::getRest() {
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String result = index == invalidIndex ? String("") : payload.substring(index);
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index = invalidIndex;
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return result;
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}
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String Tokenizer::getLine() {
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if (index == invalidIndex)
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return String("");
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int i = payload.indexOf('\n', index);
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String s = (i > 0) ? payload.substring(index, i) : payload.substring(index);
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index = (i > 0) ? i + 1 : invalidIndex;
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return s;
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}
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String Tokenizer::getToken() {
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if (index < 0)
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return String("");
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int i = payload.indexOf(' ', index);
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String s = (i > 0) ? payload.substring(index, i) : payload.substring(index);
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index = (i > 0) ? i : invalidIndex;
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if (index != invalidIndex)
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if (index != invalidIndex)
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while (payload.charAt(index) == ' ')
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index++;
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return s;
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}
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long Tokenizer::getInt() {
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String token = getToken();
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return token == "" ? (long) invalid : token.toInt();
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}
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microseconds_t Tokenizer::getMicroseconds() {
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long t = getToken().toInt();
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return (microseconds_t) ((t < MICROSECONDS_T_MAX) ? t : MICROSECONDS_T_MAX);
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}
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frequency_t Tokenizer::getFrequency() {
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long t = getToken().toInt();
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return (frequency_t) ((t < FREQUENCY_T_MAX) ? t : FREQUENCY_T_MAX);
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}
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///////////////// end Tokenizer /////////////////////////////////
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#if defined(TRANSMIT)
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static inline unsigned hz2khz(frequency_t hz) {
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return (hz + 500) / 1000;
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}
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/**
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* Transmits the IR signal given as argument.
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*
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* The intro sequence (possibly empty) is first sent. Then the repeat signal
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* (also possibly empty) is sent, "times" times, except for the case of
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* the intro signal being empty, in which case it is sent "times" times.
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* Finally the ending sequence (possibly empty) is sent.
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*
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* @param intro Sequence to be sent exactly once at the start.
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* @param lengthIntro Number of durations in intro sequence, must be even.
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* @param repeat Sequence top possibly be sent multiple times
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* @param lengthRepeat Number of durations in repeat sequence.
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* @param ending Sequence to be sent at the end, possibly empty
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* @param lengthEnding Number of durations in ending sequence
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* @param frequency Modulation frequency, in Hz (not kHz as normally in IRremote)
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* @param times Number of times to send the signal, in the sense above.
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*/
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static void sendRaw(const microseconds_t intro[], unsigned lengthIntro, const microseconds_t repeat[], unsigned lengthRepeat,
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const microseconds_t ending[], unsigned lengthEnding, frequency_t frequency, unsigned times) {
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if (lengthIntro > 0U)
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IrSender.sendRaw(intro, lengthIntro, hz2khz(frequency));
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if (lengthRepeat > 0U)
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for (unsigned i = 0U; i < times - (lengthIntro > 0U); i++)
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IrSender.sendRaw(repeat, lengthRepeat, hz2khz(frequency));
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if (lengthEnding > 0U)
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IrSender.sendRaw(ending, lengthEnding, hz2khz(frequency));
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}
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#endif // TRANSMIT
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#if defined(RECEIVE)
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static void dump(Stream &stream) {
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unsigned int count = IrReceiver.decodedIRData.rawDataPtr->rawlen;
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// If buffer gets full, count = RAW_BUFFER_LENGTH, which is odd,
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// and IrScrutinizer does not like that.
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count &= ~1;
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for (unsigned int i = 1; i < count; i++) {
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stream.write(i & 1 ? '+' : '-');
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stream.print(IrReceiver.decodedIRData.rawDataPtr->rawbuf[i] * MICROS_PER_TICK, DEC);
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stream.print(" ");
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}
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stream.print('-');
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stream.println(DUMMYENDING);
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}
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/**
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* Reads a command from the stream given as argument.
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* @param stream Stream to read from, typically Serial.
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*/
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static void receive(Stream &stream) {
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IrReceiver.start();
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while (!IrReceiver.decode()) {
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}
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IrReceiver.stop();
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dump(stream);
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}
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#endif // RECEIVE
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/**
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* Initialization.
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*/
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void setup() {
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Serial.begin(BAUDRATE);
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while (!Serial)
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; // wait for serial port to connect.
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Serial.println(F(PROGNAME " " VERSION));
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// Just to know which program is running on my Arduino
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Serial.println(F("START " __FILE__ " from " __DATE__ "\r\nUsing library version " VERSION_IRREMOTE));
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#if defined(RECEIVE)
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// Start the receiver and if not 3. parameter specified, take LED_BUILTIN pin from the internal boards definition as default feedback LED
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IrReceiver.begin(IR_RECEIVE_PIN, ENABLE_LED_FEEDBACK);
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Serial.print(F("Ready to receive IR signals of protocols: "));
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printActiveIRProtocols(&Serial);
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Serial.print(F("at pin "));
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#endif
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IrSender.begin(); // Start with IR_SEND_PIN as send pin and enable feedback LED at default feedback LED pin
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}
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static String readCommand(Stream &stream) {
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while (stream.available() == 0) {
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}
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String line = stream.readStringUntil(EOLCHAR);
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line.trim();
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return line;
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}
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static void processCommand(const String &line, Stream &stream) {
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Tokenizer tokenizer(line);
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String cmd = tokenizer.getToken();
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// Decode the command in cmd
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if (cmd.length() == 0) {
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// empty command, do nothing
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stream.println(F(okString));
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return;
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}
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switch (cmd[0]) {
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case 'm':
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stream.println(F(modulesSupported));
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break;
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#if defined(RECEIVE)
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case 'r': // receive
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//case 'a':
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//case 'c':
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receive(stream);
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break;
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#endif // RECEIVE
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#if defined(TRANSMIT)
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case 's': // send
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{
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// TODO: handle unparsable data gracefully
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unsigned noSends = (unsigned) tokenizer.getInt();
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frequency_t frequency = tokenizer.getFrequency();
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unsigned introLength = (unsigned) tokenizer.getInt();
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unsigned repeatLength = (unsigned) tokenizer.getInt();
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unsigned endingLength = (unsigned) tokenizer.getInt();
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microseconds_t intro[introLength];
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microseconds_t repeat[repeatLength];
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microseconds_t ending[endingLength];
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for (unsigned i = 0; i < introLength; i++)
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intro[i] = tokenizer.getMicroseconds();
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for (unsigned i = 0; i < repeatLength; i++)
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repeat[i] = tokenizer.getMicroseconds();
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for (unsigned i = 0; i < endingLength; i++)
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ending[i] = tokenizer.getMicroseconds();
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sendRaw(intro, introLength, repeat, repeatLength, ending, endingLength, frequency, noSends);
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stream.println(F(okString));
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}
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break;
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#endif // TRANSMIT
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case 'v': // version
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stream.println(F(PROGNAME " " VERSION));
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break;
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default:
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stream.println(F(errorString));
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}
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}
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/**
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* Reads a command from the serial line and executes it-
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*/
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void loop() {
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String line = readCommand(Serial);
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processCommand(line, Serial);
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}
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