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1 Commits
v3 ... sanyo-sony

Author SHA1 Message Date
Rafi Khan
7befbbcd34 Started working on #36. Renamed SANYO to SONY decoder for sonyDecode() 
but still need to take a look at SONY_DOUBLE_SPACE_USECS which seems
somewhat odd
 2017-01-20 23:45:40 -06:00
92 changed files with 1474 additions and 19120 deletions
Expand all files Collapse all files

25
.github/ISSUE_TEMPLATE.md vendored
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**Board:** ARDUINO UNO
**Library Version:** 2.1.0
**Protocol:** Sony (if any)
**Code Block:**
```c
#include <IRremote.h>
.....
```
Use [a gist](gist.github.com) if the code exceeds 30 lines
**checklist:**
- [] I have **read** the README.md file thoroughly
- [] I have searched existing issues to see if there is anything I have missed.
- [] The latest [release](https://github.com/z3t0/Arduino-IRremote/releases/latest) is used
- [] Any code referenced is provided and if over 30 lines a gist is linked INSTEAD of it being pasted in here
- [] The title of the issue is helpful and relevant
** We will start to close issues that do not follow these guidelines as it doesn't help the contributors who spend time trying to solve issues if the community ignores guidelines!**
The above is a short template allowing you to make detailed issues!

3
.gitignore vendored
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*.un~
*.sublime-project
*.sublime-workspace

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.travis.yml
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language: python
python:
- "2.7"
# Cache PlatformIO packages using Travis CI container-based infrastructure
sudo: false
cache:
directories:
- "~/.platformio"
env:
- PLATFORMIO_CI_SRC=examples/AiwaRCT501SendDemo PLATFORMIO_BUILD_FLAGS="-DSEND_AIWA_RC_T501"
- PLATFORMIO_CI_SRC=examples/IRrecord PLATFORMIO_BUILD_FLAGS="-DSEND_NEC -DSEND_SONY -DSEND_RC5 -DSEND_RC6"
- PLATFORMIO_CI_SRC=examples/IRrecvDemo
- PLATFORMIO_CI_SRC=examples/IRrecvDump
- PLATFORMIO_CI_SRC=examples/IRrecvDumpV2
- PLATFORMIO_CI_SRC=examples/IRrelay
- PLATFORMIO_CI_SRC=examples/IRsendDemo PLATFORMIO_BUILD_FLAGS="-DSEND_SONY"
- PLATFORMIO_CI_SRC=examples/IRtest PLATFORMIO_BUILD_FLAGS="-DSEND_NEC -DSEND_SONY -DSEND_RC5 -DSEND_RC6"
- PLATFORMIO_CI_SRC=examples/IRtest2 PLATFORMIO_BUILD_FLAGS="-DSEND_NEC -DSEND_SONY -DSEND_RC5 -DSEND_RC6"
- PLATFORMIO_CI_SRC=examples/JVCPanasonicSendDemo PLATFORMIO_BUILD_FLAGS="-DSEND_JVC -DSEND_PANASONIC"
- PLATFORMIO_CI_SRC=examples/LegoPowerFunctionsSendDemo PLATFORMIO_BUILD_FLAGS="-DSEND_LEGO_PF"
- PLATFORMIO_CI_SRC=examples/LegoPowerFunctionsTests PLATFORMIO_BUILD_FLAGS="-DSEND_LEGO_PF"
- PLATFORMIO_CI_SRC=examples/IRremoteInfo
install:
- pip install -U platformio
script:
- platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328

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Contributing/Contributing.md
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# Contribution Guidlines
This library is the culmination of the expertise of many members of the open source community who have dedicated their time and hard work. The best way to ask for help or propose a new idea is to [create a new issue](https://github.com/z3t0/Arduino-IRremote/issues/new) while creating a Pull Request with your code changes allows you to share your own innovations with the rest of the community.
The following are some guidelines to observe when creating issues or PRs:
- Be friendly; it is important that we can all enjoy a safe space as we are all working on the same project and it is okay for people to have different ideas
- [Use code blocks](https://github.com/adam-p/markdown-here/wiki/Markdown-Cheatsheet#code); it helps us help you when we can read your code! On that note also refrain from pasting more than 30 lines of code in a post, instead [create a gist](https://gist.github.com/) if you need to share large snippets
- Use reasonable titles; refrain from using overly long or capitalized titles as they are usually annoying and do little to encourage others to help :smile:
- Be detailed; refrain from mentioning code problems without sharing your source code and always give information regarding your board and version of the library
If there is any need to contact me then you can find my email on the README, I do not mind responding to emails but it would be in your own interests to create issues if you need help with the library as responses would be from a larger community with greater knowledge!

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Contributing/Contributors.md → Contributors.md
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## Contributors
These are the active contributors of this project that you may contact if there is anything you need help with or if you have suggestions.
These are the active contributors of this project that you may contact if there is anything you need help with or if you have suggestions.
- [z3t0](https://github.com/z3t0) : Active Contributor and currently also the main contributor.
* Email: zetoslab@gmail.com
* Skype: polarised16
- [shirriff](https://github.com/shirriff) : An amazing person who worked to create this awesome library and provide unending support
- [AnalysIR](https:/github.com/AnalysIR): Active contributor and is amazing with providing support!
- [shirriff](https://github.com/shirriff) : Owner of repository and creator of library.
- [Informatic](https://github.com/Informatic) : Active contributor
- [fmeschia](https://github.com/fmeschia) : Active contributor
- [PaulStoffregen](https://github.com/paulstroffregen) : Active contributor
- [crash7](https://github.com/crash7) : Active contributor
- [Neco777](https://github.com/neco777) : Active contributor
- [Lauszus](https://github.com/lauszus) : Active contributor
- [csBlueChip](https://github.com/csbluechip) : Active contributor, who contributed major and vital changes to the code base.
- [Sebazzz](https://github.com/sebazz): Contributor
- [lumbric](https://github.com/lumbric): Contributor
- [ElectricRCAircraftGuy](https://github.com/electricrcaircraftguy): Active Contributor
- [philipphenkel](https://github.com/philipphenkel): Active Contributor
- [MCUdude](https://github.com/MCUdude): Contributor
- [marcmerlin](https://github.com/marcmerlin): Contributor (ESP32 port)
Note: This list is being updated constantly so please let [z3t0](https://github.com/z3t0) know if you have been missed.

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IRremote.cpp Normal file
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//******************************************************************************
// IRremote
// Version 0.11 August, 2009
// 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
//------------------------------------------------------------------------------
// These versions of MATCH, MATCH_MARK, and MATCH_SPACE are only for debugging.
// To use them, set DEBUG to 1 in IRremoteInt.h
// (Normally macros are used for efficiency)
// ...but every time i reduce these functions down to macros, the decoders stop working!!??
//+=============================================================================
int MATCH (int measured, int desired)
{
DBG_PRINT("Testing: ");
DBG_PRINT(TICKS_LOW(desired), DEC);
DBG_PRINT(" <= ");
DBG_PRINT(measured, DEC);
DBG_PRINT(" <= ");
DBG_PRINTLN(TICKS_HIGH(desired), DEC);
return ((measured >= TICKS_LOW(desired)) && (measured <= TICKS_HIGH(desired)));
}
//+=============================================================================
int MATCH_MARK (int measured_ticks, int desired_us)
{
DBG_PRINT("Testing mark ");
DBG_PRINT(measured_ticks * USECPERTICK, DEC);
DBG_PRINT(" vs ");
DBG_PRINT(desired_us, DEC);
DBG_PRINT(": ");
DBG_PRINT(TICKS_LOW(desired_us + MARK_EXCESS), DEC);
DBG_PRINT(" <= ");
DBG_PRINT(measured_ticks, DEC);
DBG_PRINT(" <= ");
DBG_PRINTLN(TICKS_HIGH(desired_us + MARK_EXCESS), DEC);
return ((measured_ticks >= TICKS_LOW (desired_us + MARK_EXCESS))
&& (measured_ticks <= TICKS_HIGH(desired_us + MARK_EXCESS)));
}
//+=============================================================================
int MATCH_SPACE (int measured_ticks, int desired_us)
{
DBG_PRINT("Testing space ");
DBG_PRINT(measured_ticks * USECPERTICK, DEC);
DBG_PRINT(" vs ");
DBG_PRINT(desired_us, DEC);
DBG_PRINT(": ");
DBG_PRINT(TICKS_LOW(desired_us - MARK_EXCESS), DEC);
DBG_PRINT(" <= ");
DBG_PRINT(measured_ticks, DEC);
DBG_PRINT(" <= ");
DBG_PRINTLN(TICKS_HIGH(desired_us - MARK_EXCESS), DEC);
return ((measured_ticks >= TICKS_LOW (desired_us - MARK_EXCESS))
&& (measured_ticks <= TICKS_HIGH(desired_us - MARK_EXCESS)));
}

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IRremote.h Normal file
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#define DEBUG
#undef DEBUG
//------------------------------------------------------------------------------
int MATCH_SPACE (int measured_ticks, int desired_us) ;
int MATCH_MARK (int measured_ticks, int desired_us) ;
int MATCH (int measured, int desired) ;
//------------------------------------------------------------------------------
// Debug directives
#ifdef DEBUG
# define DBG_PRINT(...) Serial.print(__VA_ARGS__)
# define DBG_PRINTLN(...) Serial.println(__VA_ARGS__)
#else
# define DBG_PRINT(...)
# define DBG_PRINTLN(...)
#endif
///int MATCH (int measured, int desired);
///int MATCH_MARK (int measured_ticks, int desired_us);
///int MATCH_SPACE (int measured_ticks, int desired_us);
#define SEND_NEC
#define DECODE_NEC
#define SEND_WHYNTER
#define DECODE_WHYNTER
#define SEND_SONY
#define DECODE_SONY
#define DECODE_SANYO
#define SEND_RC5
#define DECODE_RC5
#define SEND_RC6
#define DECODE_RC6
#define SEND_PANASONIC
#define DECODE_PANASONIC
#define SEND_JVC
#define DECODE_JVC
#define SEND_SAMSUNG
#define DECODE_SAMSUNG
#define DECODE_LG
#define DECODE_MITSUBISHI
#define SEND_AIWA_RC_T501
#define DECODE_AIWA_RC_T501
#define SEND_SHARP
#define SEND_DISH
/*
* IRremote
* Version 0.1 July, 2009
* Copyright 2009 Ken Shirriff
* For details, see http://arcfn.com/2009/08/multi-protocol-infrared-remote-library.htm http://arcfn.com
* Edited by Mitra to add new controller SANYO
*
* 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
*/
#ifndef IRremote_h
#define IRremote_h
// The following are compile-time library options.
// If you change them, recompile the library.
// If DEBUG is defined, a lot of debugging output will be printed during decoding.
// TEST must be defined for the IRtest unittests to work. It will make some
// methods virtual, which will be slightly slower, which is why it is optional.
//#define DEBUG
// #define TEST
enum decode_type_t {
UNKNOWN = -1,
UNUSED = 0,
NEC = 1,
SONY = 2,
RC5 = 3,
RC6 = 4,
DISH = 5,
SHARP = 6,
PANASONIC = 7,
JVC = 8,
SANYO = 9,
MITSUBISHI = 10,
SAMSUNG = 11,
LG = 12,
WHYNTER = 13,
AIWA_RC_T501 = 14,
};
// Results returned from the decoder
class decode_results {
public:
decode_type_t decode_type; // NEC, SONY, RC5, UNKNOWN
union { // This is used for decoding Panasonic and Sharp data
unsigned int panasonicAddress;
unsigned int sharpAddress;
};
unsigned long value; // Decoded value
int bits; // Number of bits in decoded value
volatile unsigned int *rawbuf; // Raw intervals in .5 us ticks
int rawlen; // Number of records in rawbuf.
};
// Decoded value for NEC when a repeat code is received
#define REPEAT 0xffffffff
// main class for receiving IR
class IRrecv
{
public:
IRrecv(int recvpin);
void blink13(int blinkflag);
int decode(decode_results *results);
void enableIRIn();
void resume();
private:
// These are called by decode
int getRClevel(decode_results *results, int *offset, int *used, int t1);
#ifdef DECODE_NEC
long decodeNEC(decode_results *results);
#endif
#ifdef DECODE_SONY
long decodeSony(decode_results *results);
#endif
#ifdef DECODE_SANYO
long decodeSanyo(decode_results *results);
#endif
#ifdef DECODE_MITSUBISHI
long decodeMitsubishi(decode_results *results);
#endif
#ifdef DECODE_RC5
long decodeRC5(decode_results *results);
#endif
#ifdef DECODE_RC6
long decodeRC6(decode_results *results);
#endif
#ifdef DECODE_PANASONIC
long decodePanasonic(decode_results *results);
#endif
#ifdef DECODE_LG
long decodeLG(decode_results *results);
#endif
#ifdef DECODE_JVC
long decodeJVC(decode_results *results);
#endif
#ifdef DECODE_SAMSUNG
long decodeSAMSUNG(decode_results *results);
#endif
#ifdef DECODE_WHYNTER
long decodeWhynter(decode_results *results);
#endif
#ifdef DECODE_AIWA_RC_T501
long decodeAiwaRCT501(decode_results *results);
#endif
long decodeHash(decode_results *results);
int compare(unsigned int oldval, unsigned int newval);
} ;
// Only used for testing; can remove virtual for shorter code
#ifdef TEST
#define VIRTUAL virtual
#else
#define VIRTUAL
#endif
class IRsend
{
public:
IRsend() {}
void sendRaw(unsigned int buf[], int len, int hz);
#ifdef SEND_RC5
void sendRC5(unsigned long data, int nbits);
#endif
#ifdef SEND_RC6
void sendRC6(unsigned long data, int nbits);
#endif
#ifdef SEND_WHYNTER
void sendWhynter(unsigned long data, int nbits);
#endif
#ifdef SEND_NEC
void sendNEC(unsigned long data, int nbits);
#endif
#ifdef SEND_SONY
void sendSony(unsigned long data, int nbits);
// Neither Sanyo nor Mitsubishi send is implemented yet
// void sendSanyo(unsigned long data, int nbits);
// void sendMitsubishi(unsigned long data, int nbits);
#endif
#ifdef SEND_DISH
void sendDISH(unsigned long data, int nbits);
#endif
#ifdef SEND_SHARP
void sendSharpRaw(unsigned long data, int nbits);
void sendSharp(unsigned int address, unsigned int command);
#endif
#ifdef SEND_PANASONIC
void sendPanasonic(unsigned int address, unsigned long data);
#endif
#ifdef SEND_JVC
void sendJVC(unsigned long data, int nbits, int repeat); // *Note instead of sending the REPEAT constant if you want the JVC repeat signal sent, send the original code value and change the repeat argument from 0 to 1. JVC protocol repeats by skipping the header NOT by sending a separate code value like NEC does.
#endif
#ifdef SEND_AIWA_RC_T501
void sendAiwaRCT501(int code);
#endif
#ifdef SEND_SAMSUNG
void sendSAMSUNG(unsigned long data, int nbits);
#endif
void enableIROut(int khz);
VIRTUAL void mark(int usec);
VIRTUAL void space(int usec);
} ;
// Some useful constants
#define USECPERTICK 50 // microseconds per clock interrupt tick
#define RAWBUF 100 // Length of raw duration buffer
// Marks tend to be 100us too long, and spaces 100us too short
// when received due to sensor lag.
#define MARK_EXCESS 100
#endif

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/*
* IRremote
* Version 0.1 July, 2009
* 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
*
* 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)
* Whynter A/C ARC-110WD added by Francesco Meschia
*/
#ifndef IRremoteint_h
#define IRremoteint_h
#ifdef IR_GLOBAL
# define EXTERN
#else
# define EXTERN extern
#endif
#if defined(ARDUINO) && ARDUINO >= 100
#include <Arduino.h>
#else
#include <WProgram.h>
#endif
// define which timer to use
//
// Uncomment the timer you wish to use on your board. If you
// are using another library which uses timer2, you have options
// to switch IRremote to use a different timer.
// Arduino Mega
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
//#define IR_USE_TIMER1 // tx = pin 11
#define IR_USE_TIMER2 // tx = pin 9
//#define IR_USE_TIMER3 // tx = pin 5
//#define IR_USE_TIMER4 // tx = pin 6
//#define IR_USE_TIMER5 // tx = pin 46
// Teensy 1.0
#elif defined(__AVR_AT90USB162__)
#define IR_USE_TIMER1 // tx = pin 17
// Teensy 2.0
#elif defined(__AVR_ATmega32U4__)
//#define IR_USE_TIMER1 // tx = pin 14
//#define IR_USE_TIMER3 // tx = pin 9
#define IR_USE_TIMER4_HS // tx = pin 10
// Teensy 3.0
#elif defined(__MK20DX128__)
#define IR_USE_TIMER_CMT // tx = pin 5
// Teensy++ 1.0 & 2.0
#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
//#define IR_USE_TIMER1 // tx = pin 25
#define IR_USE_TIMER2 // tx = pin 1
//#define IR_USE_TIMER3 // tx = pin 16
// Sanguino
#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
//#define IR_USE_TIMER1 // tx = pin 13
#define IR_USE_TIMER2 // tx = pin 14
// Atmega8
#elif defined(__AVR_ATmega8P__) || defined(__AVR_ATmega8__)
#define IR_USE_TIMER1 // tx = pin 9
// Arduino Duemilanove, Diecimila, LilyPad, Mini, Fio, etc
#else
//#define IR_USE_TIMER1 // tx = pin 9
#define IR_USE_TIMER2 // tx = pin 3
#endif
#ifdef F_CPU
#define SYSCLOCK F_CPU // main Arduino clock
#else
#define SYSCLOCK 16000000 // main Arduino clock
#endif
#define ERR 0
#define DECODED 1
// defines for setting and clearing register bits
#ifndef cbi
#define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit))
#endif
#ifndef sbi
#define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
#endif
// Pulse parms are *50-100 for the Mark and *50+100 for the space
// First MARK is the one after the long gap
// pulse parameters in usec
#define TOLERANCE 25 // percent tolerance in measurements
#define LTOL (1.0 - TOLERANCE/100.)
#define UTOL (1.0 + TOLERANCE/100.)
#define _GAP 5000 // Minimum map between transmissions
#define GAP_TICKS (_GAP/USECPERTICK)
#define TICKS_LOW(us) (int) (((us)*LTOL/USECPERTICK))
#define TICKS_HIGH(us) (int) (((us)*UTOL/USECPERTICK + 1))
// receiver states
#define STATE_IDLE 2
#define STATE_MARK 3
#define STATE_SPACE 4
#define STATE_STOP 5
// information for the interrupt handler
typedef struct {
uint8_t recvpin; // pin for IR data from detector
uint8_t rcvstate; // state machine
uint8_t blinkflag; // TRUE to enable blinking of pin 13 on IR processing
unsigned int timer; // state timer, counts 50uS ticks.
unsigned int rawbuf[RAWBUF]; // raw data
uint8_t rawlen; // counter of entries in rawbuf
}
irparams_t;
// Defined in IRremote.cpp
EXTERN volatile irparams_t irparams;
// IR detector output is active low
#define MARK 0
#define SPACE 1
#define TOPBIT 0x80000000
// defines for timer2 (8 bits)
#if defined(IR_USE_TIMER2)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR2A |= _BV(COM2B1))
#define TIMER_DISABLE_PWM (TCCR2A &= ~(_BV(COM2B1)))
#define TIMER_ENABLE_INTR (TIMSK2 = _BV(OCIE2A))
#define TIMER_DISABLE_INTR (TIMSK2 = 0)
#define TIMER_INTR_NAME TIMER2_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint8_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR2A = _BV(WGM20); \
TCCR2B = _BV(WGM22) | _BV(CS20); \
OCR2A = pwmval; \
OCR2B = pwmval / 3; \
})
#define TIMER_COUNT_TOP (SYSCLOCK * USECPERTICK / 1000000)
#if (TIMER_COUNT_TOP < 256)
#define TIMER_CONFIG_NORMAL() ({ \
TCCR2A = _BV(WGM21); \
TCCR2B = _BV(CS20); \
OCR2A = TIMER_COUNT_TOP; \
TCNT2 = 0; \
})
#else
#define TIMER_CONFIG_NORMAL() ({ \
TCCR2A = _BV(WGM21); \
TCCR2B = _BV(CS21); \
OCR2A = TIMER_COUNT_TOP / 8; \
TCNT2 = 0; \
})
#endif
#if defined(CORE_OC2B_PIN)
#define TIMER_PWM_PIN CORE_OC2B_PIN /* Teensy */
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#define TIMER_PWM_PIN 9 /* Arduino Mega */
#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
#define TIMER_PWM_PIN 14 /* Sanguino */
#else
#define TIMER_PWM_PIN 3 /* Arduino Duemilanove, Diecimila, LilyPad, etc */
#endif
// defines for timer1 (16 bits)
#elif defined(IR_USE_TIMER1)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR1A |= _BV(COM1A1))
#define TIMER_DISABLE_PWM (TCCR1A &= ~(_BV(COM1A1)))
#if defined(__AVR_ATmega8P__) || defined(__AVR_ATmega8__)
#define TIMER_ENABLE_INTR (TIMSK |= _BV(OCIE1A))
#define TIMER_DISABLE_INTR (TIMSK &= ~_BV(OCIE1A))
#else
#define TIMER_ENABLE_INTR (TIMSK1 = _BV(OCIE1A))
#define TIMER_DISABLE_INTR (TIMSK1 = 0)
#endif
#define TIMER_INTR_NAME TIMER1_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR1A = _BV(WGM11); \
TCCR1B = _BV(WGM13) | _BV(CS10); \
ICR1 = pwmval; \
OCR1A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR1A = 0; \
TCCR1B = _BV(WGM12) | _BV(CS10); \
OCR1A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT1 = 0; \
})
#if defined(CORE_OC1A_PIN)
#define TIMER_PWM_PIN CORE_OC1A_PIN /* Teensy */
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#define TIMER_PWM_PIN 11 /* Arduino Mega */
#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
#define TIMER_PWM_PIN 13 /* Sanguino */
#else
#define TIMER_PWM_PIN 9 /* Arduino Duemilanove, Diecimila, LilyPad, etc */
#endif
// defines for timer3 (16 bits)
#elif defined(IR_USE_TIMER3)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR3A |= _BV(COM3A1))
#define TIMER_DISABLE_PWM (TCCR3A &= ~(_BV(COM3A1)))
#define TIMER_ENABLE_INTR (TIMSK3 = _BV(OCIE3A))
#define TIMER_DISABLE_INTR (TIMSK3 = 0)
#define TIMER_INTR_NAME TIMER3_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR3A = _BV(WGM31); \
TCCR3B = _BV(WGM33) | _BV(CS30); \
ICR3 = pwmval; \
OCR3A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR3A = 0; \
TCCR3B = _BV(WGM32) | _BV(CS30); \
OCR3A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT3 = 0; \
})
#if defined(CORE_OC3A_PIN)
#define TIMER_PWM_PIN CORE_OC3A_PIN /* Teensy */
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#define TIMER_PWM_PIN 5 /* Arduino Mega */
#else
#error "Please add OC3A pin number here\n"
#endif
// defines for timer4 (10 bits, high speed option)
#elif defined(IR_USE_TIMER4_HS)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR4A |= _BV(COM4A1))
#define TIMER_DISABLE_PWM (TCCR4A &= ~(_BV(COM4A1)))
#define TIMER_ENABLE_INTR (TIMSK4 = _BV(TOIE4))
#define TIMER_DISABLE_INTR (TIMSK4 = 0)
#define TIMER_INTR_NAME TIMER4_OVF_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR4A = (1<<PWM4A); \
TCCR4B = _BV(CS40); \
TCCR4C = 0; \
TCCR4D = (1<<WGM40); \
TCCR4E = 0; \
TC4H = pwmval >> 8; \
OCR4C = pwmval; \
TC4H = (pwmval / 3) >> 8; \
OCR4A = (pwmval / 3) & 255; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR4A = 0; \
TCCR4B = _BV(CS40); \
TCCR4C = 0; \
TCCR4D = 0; \
TCCR4E = 0; \
TC4H = (SYSCLOCK * USECPERTICK / 1000000) >> 8; \
OCR4C = (SYSCLOCK * USECPERTICK / 1000000) & 255; \
TC4H = 0; \
TCNT4 = 0; \
})
#if defined(CORE_OC4A_PIN)
#define TIMER_PWM_PIN CORE_OC4A_PIN /* Teensy */
#elif defined(__AVR_ATmega32U4__)
#define TIMER_PWM_PIN 13 /* Leonardo */
#else
#error "Please add OC4A pin number here\n"
#endif
// defines for timer4 (16 bits)
#elif defined(IR_USE_TIMER4)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR4A |= _BV(COM4A1))
#define TIMER_DISABLE_PWM (TCCR4A &= ~(_BV(COM4A1)))
#define TIMER_ENABLE_INTR (TIMSK4 = _BV(OCIE4A))
#define TIMER_DISABLE_INTR (TIMSK4 = 0)
#define TIMER_INTR_NAME TIMER4_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR4A = _BV(WGM41); \
TCCR4B = _BV(WGM43) | _BV(CS40); \
ICR4 = pwmval; \
OCR4A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR4A = 0; \
TCCR4B = _BV(WGM42) | _BV(CS40); \
OCR4A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT4 = 0; \
})
#if defined(CORE_OC4A_PIN)
#define TIMER_PWM_PIN CORE_OC4A_PIN
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#define TIMER_PWM_PIN 6 /* Arduino Mega */
#else
#error "Please add OC4A pin number here\n"
#endif
// defines for timer5 (16 bits)
#elif defined(IR_USE_TIMER5)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR5A |= _BV(COM5A1))
#define TIMER_DISABLE_PWM (TCCR5A &= ~(_BV(COM5A1)))
#define TIMER_ENABLE_INTR (TIMSK5 = _BV(OCIE5A))
#define TIMER_DISABLE_INTR (TIMSK5 = 0)
#define TIMER_INTR_NAME TIMER5_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR5A = _BV(WGM51); \
TCCR5B = _BV(WGM53) | _BV(CS50); \
ICR5 = pwmval; \
OCR5A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR5A = 0; \
TCCR5B = _BV(WGM52) | _BV(CS50); \
OCR5A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT5 = 0; \
})
#if defined(CORE_OC5A_PIN)
#define TIMER_PWM_PIN CORE_OC5A_PIN
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#define TIMER_PWM_PIN 46 /* Arduino Mega */
#else
#error "Please add OC5A pin number here\n"
#endif
// defines for special carrier modulator timer
#elif defined(IR_USE_TIMER_CMT)
#define TIMER_RESET ({ \
uint8_t tmp = CMT_MSC; \
CMT_CMD2 = 30; \
})
#define TIMER_ENABLE_PWM CORE_PIN5_CONFIG = PORT_PCR_MUX(2)|PORT_PCR_DSE|PORT_PCR_SRE
#define TIMER_DISABLE_PWM CORE_PIN5_CONFIG = PORT_PCR_MUX(1)|PORT_PCR_DSE|PORT_PCR_SRE
#define TIMER_ENABLE_INTR NVIC_ENABLE_IRQ(IRQ_CMT)
#define TIMER_DISABLE_INTR NVIC_DISABLE_IRQ(IRQ_CMT)
#define TIMER_INTR_NAME cmt_isr
#ifdef ISR
#undef ISR
#endif
#define ISR(f) void f(void)
#if F_BUS == 48000000
#define CMT_PPS_VAL 5
#else
#define CMT_PPS_VAL 2
#endif
#define TIMER_CONFIG_KHZ(val) ({ \
SIM_SCGC4 |= SIM_SCGC4_CMT; \
SIM_SOPT2 |= SIM_SOPT2_PTD7PAD; \
CMT_PPS = CMT_PPS_VAL; \
CMT_CGH1 = 2667 / val; \
CMT_CGL1 = 5333 / val; \
CMT_CMD1 = 0; \
CMT_CMD2 = 30; \
CMT_CMD3 = 0; \
CMT_CMD4 = 0; \
CMT_OC = 0x60; \
CMT_MSC = 0x01; \
})
#define TIMER_CONFIG_NORMAL() ({ \
SIM_SCGC4 |= SIM_SCGC4_CMT; \
CMT_PPS = CMT_PPS_VAL; \
CMT_CGH1 = 1; \
CMT_CGL1 = 1; \
CMT_CMD1 = 0; \
CMT_CMD2 = 30; \
CMT_CMD3 = 0; \
CMT_CMD4 = 19; \
CMT_OC = 0; \
CMT_MSC = 0x03; \
})
#define TIMER_PWM_PIN 5
#else // unknown timer
#error "Internal code configuration error, no known IR_USE_TIMER# defined\n"
#endif
// defines for blinking the LED
#if defined(CORE_LED0_PIN)
#define BLINKLED CORE_LED0_PIN
#define BLINKLED_ON() (digitalWrite(CORE_LED0_PIN, HIGH))
#define BLINKLED_OFF() (digitalWrite(CORE_LED0_PIN, LOW))
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
#define BLINKLED 13
#define BLINKLED_ON() (PORTB |= B10000000)
#define BLINKLED_OFF() (PORTB &= B01111111)
#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
#define BLINKLED 0
#define BLINKLED_ON() (PORTD |= B00000001)
#define BLINKLED_OFF() (PORTD &= B11111110)
#else
#define BLINKLED 13
#define BLINKLED_ON() (PORTB |= B00100000)
#define BLINKLED_OFF() (PORTB &= B11011111)
#endif
#endif

72
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NOTE: THIS NEEDS TO BE FIXED.... PLEASE JUST USE THE LATEST RELEASE AND NOT THE MASTER BRANCH!!!!
# IRremote Arduino Library
This library enables you to send and receive using infra-red signals on an arduino.
[![Build Status](https://travis-ci.org/z3t0/Arduino-IRremote.svg?branch=master)](https://travis-ci.org/z3t0/Arduino-IRremote)
Check [here](http://shirriff.github.io/Arduino-IRremote/) for tutorials and more information.
[![Join the chat at https://gitter.im/z3t0/Arduino-IRremote](https://badges.gitter.im/Join%20Chat.svg)](https://gitter.im/z3t0/Arduino-IRremote?utm_source=badge&utm_medium=badge&utm_campaign=pr-badge&utm_content=badge)
This library enables you to send and receive using infra-red signals on an Arduino.
Tutorials and more information will be made available on [the official homepage](http://z3t0.github.io/Arduino-IRremote/).
## Version - 3.0.0
## Version - 1.00
## Installation
1. Navigate to the [Releases](https://github.com/z3t0/Arduino-IRremote/releases) page.
1. Navigate to the [Releases](https://github.com/shirriff/Arduino-IRremote/releases) page.
2. Download the latest release.
3. Extract the zip file
4. Move the "IRremote" folder that has been extracted to your libraries directory.
5. Make sure to delete `Arduino_Root/libraries/RobotIRremote` Where Arduino_Root refers to the install directory of Arduino. The library RobotIRremote has similar definitions to IRremote and causes errors.
## FAQ
- IR does not work right when I use Neopixels (aka WS2811/WS2812/WS2812B)
Whether you use the Adafruit Neopixel lib, or FastLED, interrupts get disabled on many lower end CPUs like the basic arduinos. In turn, this stops the IR interrupt handler from running when it needs to. There are some solutions to this on some processors, [see this page from Marc MERLIN](http://marc.merlins.org/perso/arduino/post_2017-04-03_Arduino-328P-Uno-Teensy3_1-ESP8266-ESP32-IR-and-Neopixels.html)
## Supported Boards
- Arduino Uno / Mega / Leonardo / Duemilanove / Diecimila / LilyPad / Mini / Fio / Nano etc.
- Teensy 1.0 / 1.0++ / 2.0 / 2++ / 3.0 / 3.1 / Teensy-LC; Credits: @PaulStoffregen (Teensy Team)
- Sanguino
- ATmega8, 48, 88, 168, 328
- ATmega8535, 16, 32, 164, 324, 644, 1284,
- ATmega64, 128
- ATtiny 84 / 85
- ESP32 (receive only)
- ESP8266 is supported in a fork based on an old codebase that isn't as recent, but it works reasonably well given that perfectly timed sub millisecond interrupts are different on that chip. See https://github.com/markszabo/IRremoteESP8266
We are open to suggestions for adding support to new boards, however we highly recommend you contact your supplier first and ask them to provide support from their side.
### Hardware specifications
| Board/CPU | Send Pin | Timers |
|--------------------------------------------------------------------------|---------------------|-------------------|
| [ATtiny84](https://github.com/SpenceKonde/ATTinyCore) | **6** | **1** |
| [ATtiny85](https://github.com/SpenceKonde/ATTinyCore) | **1** | **TINY0** |
| [ATmega8](https://github.com/MCUdude/MiniCore) | **9** | **1** |
| Atmega32u4 | 5, 9, **13** | 1, 3, **4** |
| [ATmega48, ATmega88, ATmega168, ATmega328](https://github.com/MCUdude/MiniCore) | **3**, 9 | 1, **2** |
| [ATmega1284](https://github.com/MCUdude/MightyCore) | 13, 14, 6 | 1, **2**, 3 |
| [ATmega164, ATmega324, ATmega644](https://github.com/MCUdude/MightyCore) | 13, **14** | 1, **2** |
| [ATmega8535 ATmega16, ATmega32](https://github.com/MCUdude/MightyCore) | **13** | **1** |
| [ATmega64, ATmega128](https://github.com/MCUdude/MegaCore) | **13** | **1** |
| ATmega1280, ATmega2560 | 5, 6, **9**, 11, 46 | 1, **2**, 3, 4, 5 |
| [ESP32](http://esp32.net/) | N/A (not supported) | **1** |
| [Teensy 1.0](https://www.pjrc.com/teensy/) | **17** | **1** |
| [Teensy 2.0](https://www.pjrc.com/teensy/) | 9, **10**, 14 | 1, 3, **4_HS** |
| [Teensy++ 1.0 / 2.0](https://www.pjrc.com/teensy/) | **1**, 16, 25 | 1, **2**, 3 |
| [Teensy 3.0 / 3.1](https://www.pjrc.com/teensy/) | **5** | **CMT** |
| [Teensy-LC](https://www.pjrc.com/teensy/) | **16** | **TPM1** |
The table above lists the currently supported timers and corresponding send pins, many of these can have additional pins opened up and we are open to requests if a need arises for other pins.
## Usage
- TODO (Check examples for now)
We get a lot of support for different device types. To keep the size of the library manageable we're moving to a model where different device types use a #define statement, for instance:
```#define SHARP```
You'd put this at the top of your sketch to include the sendSharp() and decodeSharp() methods in your code. This way your sketch only uses the Sharp functions but not the LG, JVC, Sony, etc functions, thus saving you program space that you might want to use for other things. This allows us to support lots of devices without making the library too big.
## Contributing
If you want to contribute to this project:
@@ -68,16 +25,9 @@ If you want to contribute to this project:
- Ask for enhancements
- Create issues and pull requests
- Tell other people about this library
- Contribute new protocols
Check [here](Contributing.md) for some guidelines.
## Contact
If you are having issues with the library feel free to [create an issue](https://github.com/z3t0/Arduino-IRremote/issues/new), please follow the autogenerated template
## Contributors
Check [here](Contributors.md)
## Copyright
Copyright 2009-2012 Ken Shirrif
Copyright 2017 Rafi Khan
Copyright 2009-2012 Ken Shirriff

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# Minimal makefile for Sphinx documentation
#
# You can set these variables from the command line.
SPHINXOPTS =
SPHINXBUILD = sphinx-build
SPHINXPROJ = InfraredRemote
SOURCEDIR = .
BUILDDIR = _build
# Put it first so that "make" without argument is like "make help".
help:
@$(SPHINXBUILD) -M help "$(SOURCEDIR)" "$(BUILDDIR)" $(SPHINXOPTS) $(O)
.PHONY: help Makefile
# Catch-all target: route all unknown targets to Sphinx using the new
# "make mode" option. $(O) is meant as a shortcut for $(SPHINXOPTS).
%: Makefile
@$(SPHINXBUILD) -M $@ "$(SOURCEDIR)" "$(BUILDDIR)" $(SPHINXOPTS) $(O)

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# Sphinx build info version 1
# This file hashes the configuration used when building these files. When it is not found, a full rebuild will be done.
config: f25e3fab3e73505e62246f22f9e59c8c
tags: 645f666f9bcd5a90fca523b33c5a78b7

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.. InfraredRemote documentation master file, created by
sphinx-quickstart on Sun Apr 23 00:46:32 2017.
You can adapt this file completely to your liking, but it should at least
contain the root `toctree` directive.
Welcome to InfraredRemote's documentation!
==========================================
.. toctree::
:maxdepth: 2
:caption: Contents:
Indices and tables
==================
* :ref:`genindex`
* :ref:`modindex`
* :ref:`search`

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padding: 0.25em 0.7em;
}
table.field-list, table.footnote {
border: none;
-moz-box-shadow: none;
-webkit-box-shadow: none;
box-shadow: none;
}
table.footnote {
margin: 15px 0;
width: 100%;
border: 1px solid #EEE;
background: #FDFDFD;
font-size: 0.9em;
}
table.footnote + table.footnote {
margin-top: -15px;
border-top: none;
}
table.field-list th {
padding: 0 0.8em 0 0;
}
table.field-list td {
padding: 0;
}
table.field-list p {
margin-bottom: 0.8em;
}
/* Cloned from
* https://github.com/sphinx-doc/sphinx/commit/ef60dbfce09286b20b7385333d63a60321784e68
*/
.field-name {
-moz-hyphens: manual;
-ms-hyphens: manual;
-webkit-hyphens: manual;
hyphens: manual;
}
table.footnote td.label {
width: .1px;
padding: 0.3em 0 0.3em 0.5em;
}
table.footnote td {
padding: 0.3em 0.5em;
}
dl {
margin: 0;
padding: 0;
}
dl dd {
margin-left: 30px;
}
blockquote {
margin: 0 0 0 30px;
padding: 0;
}
ul, ol {
/* Matches the 30px from the narrow-screen "li > ul" selector below */
margin: 10px 0 10px 30px;
padding: 0;
}
pre {
background: #EEE;
padding: 7px 30px;
margin: 15px 0px;
line-height: 1.3em;
}
div.viewcode-block:target {
background: #ffd;
}
dl pre, blockquote pre, li pre {
margin-left: 0;
padding-left: 30px;
}
tt, code {
background-color: #ecf0f3;
color: #222;
/* padding: 1px 2px; */
}
tt.xref, code.xref, a tt {
background-color: #FBFBFB;
border-bottom: 1px solid #fff;
}
a.reference {
text-decoration: none;
border-bottom: 1px dotted #004B6B;
}
/* Don't put an underline on images */
a.image-reference, a.image-reference:hover {
border-bottom: none;
}
a.reference:hover {
border-bottom: 1px solid #6D4100;
}
a.footnote-reference {
text-decoration: none;
font-size: 0.7em;
vertical-align: top;
border-bottom: 1px dotted #004B6B;
}
a.footnote-reference:hover {
border-bottom: 1px solid #6D4100;
}
a:hover tt, a:hover code {
background: #EEE;
}
@media screen and (max-width: 870px) {
div.sphinxsidebar {
display: none;
}
div.document {
width: 100%;
}
div.documentwrapper {
margin-left: 0;
margin-top: 0;
margin-right: 0;
margin-bottom: 0;
}
div.bodywrapper {
margin-top: 0;
margin-right: 0;
margin-bottom: 0;
margin-left: 0;
}
ul {
margin-left: 0;
}
li > ul {
/* Matches the 30px from the "ul, ol" selector above */
margin-left: 30px;
}
.document {
width: auto;
}
.footer {
width: auto;
}
.bodywrapper {
margin: 0;
}
.footer {
width: auto;
}
.github {
display: none;
}
}
@media screen and (max-width: 875px) {
body {
margin: 0;
padding: 20px 30px;
}
div.documentwrapper {
float: none;
background: #fff;
}
div.sphinxsidebar {
display: block;
float: none;
width: 102.5%;
margin: 50px -30px -20px -30px;
padding: 10px 20px;
background: #333;
color: #FFF;
}
div.sphinxsidebar h3, div.sphinxsidebar h4, div.sphinxsidebar p,
div.sphinxsidebar h3 a {
color: #fff;
}
div.sphinxsidebar a {
color: #AAA;
}
div.sphinxsidebar p.logo {
display: none;
}
div.document {
width: 100%;
margin: 0;
}
div.footer {
display: none;
}
div.bodywrapper {
margin: 0;
}
div.body {
min-height: 0;
padding: 0;
}
.rtd_doc_footer {
display: none;
}
.document {
width: auto;
}
.footer {
width: auto;
}
.footer {
width: auto;
}
.github {
display: none;
}
}
/* misc. */
.revsys-inline {
display: none!important;
}
/* Make nested-list/multi-paragraph items look better in Releases changelog
* pages. Without this, docutils' magical list fuckery causes inconsistent
* formatting between different release sub-lists.
*/
div#changelog > div.section > ul > li > p:only-child {
margin-bottom: 0;
}
/* Hide fugly table cell borders in ..bibliography:: directive output */
table.docutils.citation, table.docutils.citation td, table.docutils.citation th {
border: none;
/* Below needed in some edge cases; if not applied, bottom shadows appear */
-moz-box-shadow: none;
-webkit-box-shadow: none;
box-shadow: none;
}

632
docs/_build/html/_static/basic.css vendored
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@@ -1,632 +0,0 @@
/*
* basic.css
* ~~~~~~~~~
*
* Sphinx stylesheet -- basic theme.
*
* :copyright: Copyright 2007-2017 by the Sphinx team, see AUTHORS.
* :license: BSD, see LICENSE for details.
*
*/
/* -- main layout ----------------------------------------------------------- */
div.clearer {
clear: both;
}
/* -- relbar ---------------------------------------------------------------- */
div.related {
width: 100%;
font-size: 90%;
}
div.related h3 {
display: none;
}
div.related ul {
margin: 0;
padding: 0 0 0 10px;
list-style: none;
}
div.related li {
display: inline;
}
div.related li.right {
float: right;
margin-right: 5px;
}
/* -- sidebar --------------------------------------------------------------- */
div.sphinxsidebarwrapper {
padding: 10px 5px 0 10px;
}
div.sphinxsidebar {
float: left;
width: 230px;
margin-left: -100%;
font-size: 90%;
word-wrap: break-word;
overflow-wrap : break-word;
}
div.sphinxsidebar ul {
list-style: none;
}
div.sphinxsidebar ul ul,
div.sphinxsidebar ul.want-points {
margin-left: 20px;
list-style: square;
}
div.sphinxsidebar ul ul {
margin-top: 0;
margin-bottom: 0;
}
div.sphinxsidebar form {
margin-top: 10px;
}
div.sphinxsidebar input {
border: 1px solid #98dbcc;
font-family: sans-serif;
font-size: 1em;
}
div.sphinxsidebar #searchbox input[type="text"] {
width: 170px;
}
img {
border: 0;
max-width: 100%;
}
/* -- search page ----------------------------------------------------------- */
ul.search {
margin: 10px 0 0 20px;
padding: 0;
}
ul.search li {
padding: 5px 0 5px 20px;
background-image: url(file.png);
background-repeat: no-repeat;
background-position: 0 7px;
}
ul.search li a {
font-weight: bold;
}
ul.search li div.context {
color: #888;
margin: 2px 0 0 30px;
text-align: left;
}
ul.keywordmatches li.goodmatch a {
font-weight: bold;
}
/* -- index page ------------------------------------------------------------ */
table.contentstable {
width: 90%;
margin-left: auto;
margin-right: auto;
}
table.contentstable p.biglink {
line-height: 150%;
}
a.biglink {
font-size: 1.3em;
}
span.linkdescr {
font-style: italic;
padding-top: 5px;
font-size: 90%;
}
/* -- general index --------------------------------------------------------- */
table.indextable {
width: 100%;
}
table.indextable td {
text-align: left;
vertical-align: top;
}
table.indextable ul {
margin-top: 0;
margin-bottom: 0;
list-style-type: none;
}
table.indextable > tbody > tr > td > ul {
padding-left: 0em;
}
table.indextable tr.pcap {
height: 10px;
}
table.indextable tr.cap {
margin-top: 10px;
background-color: #f2f2f2;
}
img.toggler {
margin-right: 3px;
margin-top: 3px;
cursor: pointer;
}
div.modindex-jumpbox {
border-top: 1px solid #ddd;
border-bottom: 1px solid #ddd;
margin: 1em 0 1em 0;
padding: 0.4em;
}
div.genindex-jumpbox {
border-top: 1px solid #ddd;
border-bottom: 1px solid #ddd;
margin: 1em 0 1em 0;
padding: 0.4em;
}
/* -- domain module index --------------------------------------------------- */
table.modindextable td {
padding: 2px;
border-collapse: collapse;
}
/* -- general body styles --------------------------------------------------- */
div.body p, div.body dd, div.body li, div.body blockquote {
-moz-hyphens: auto;
-ms-hyphens: auto;
-webkit-hyphens: auto;
hyphens: auto;
}
a.headerlink {
visibility: hidden;
}
h1:hover > a.headerlink,
h2:hover > a.headerlink,
h3:hover > a.headerlink,
h4:hover > a.headerlink,
h5:hover > a.headerlink,
h6:hover > a.headerlink,
dt:hover > a.headerlink,
caption:hover > a.headerlink,
p.caption:hover > a.headerlink,
div.code-block-caption:hover > a.headerlink {
visibility: visible;
}
div.body p.caption {
text-align: inherit;
}
div.body td {
text-align: left;
}
.first {
margin-top: 0 !important;
}
p.rubric {
margin-top: 30px;
font-weight: bold;
}
img.align-left, .figure.align-left, object.align-left {
clear: left;
float: left;
margin-right: 1em;
}
img.align-right, .figure.align-right, object.align-right {
clear: right;
float: right;
margin-left: 1em;
}
img.align-center, .figure.align-center, object.align-center {
display: block;
margin-left: auto;
margin-right: auto;
}
.align-left {
text-align: left;
}
.align-center {
text-align: center;
}
.align-right {
text-align: right;
}
/* -- sidebars -------------------------------------------------------------- */
div.sidebar {
margin: 0 0 0.5em 1em;
border: 1px solid #ddb;
padding: 7px 7px 0 7px;
background-color: #ffe;
width: 40%;
float: right;
}
p.sidebar-title {
font-weight: bold;
}
/* -- topics ---------------------------------------------------------------- */
div.topic {
border: 1px solid #ccc;
padding: 7px 7px 0 7px;
margin: 10px 0 10px 0;
}
p.topic-title {
font-size: 1.1em;
font-weight: bold;
margin-top: 10px;
}
/* -- admonitions ----------------------------------------------------------- */
div.admonition {
margin-top: 10px;
margin-bottom: 10px;
padding: 7px;
}
div.admonition dt {
font-weight: bold;
}
div.admonition dl {
margin-bottom: 0;
}
p.admonition-title {
margin: 0px 10px 5px 0px;
font-weight: bold;
}
div.body p.centered {
text-align: center;
margin-top: 25px;
}
/* -- tables ---------------------------------------------------------------- */
table.docutils {
border: 0;
border-collapse: collapse;
}
table caption span.caption-number {
font-style: italic;
}
table caption span.caption-text {
}
table.docutils td, table.docutils th {
padding: 1px 8px 1px 5px;
border-top: 0;
border-left: 0;
border-right: 0;
border-bottom: 1px solid #aaa;
}
table.footnote td, table.footnote th {
border: 0 !important;
}
th {
text-align: left;
padding-right: 5px;
}
table.citation {
border-left: solid 1px gray;
margin-left: 1px;
}
table.citation td {
border-bottom: none;
}
/* -- figures --------------------------------------------------------------- */
div.figure {
margin: 0.5em;
padding: 0.5em;
}
div.figure p.caption {
padding: 0.3em;
}
div.figure p.caption span.caption-number {
font-style: italic;
}
div.figure p.caption span.caption-text {
}
/* -- field list styles ----------------------------------------------------- */
table.field-list td, table.field-list th {
border: 0 !important;
}
.field-list ul {
margin: 0;
padding-left: 1em;
}
.field-list p {
margin: 0;
}
/* -- other body styles ----------------------------------------------------- */
ol.arabic {
list-style: decimal;
}
ol.loweralpha {
list-style: lower-alpha;
}
ol.upperalpha {
list-style: upper-alpha;
}
ol.lowerroman {
list-style: lower-roman;
}
ol.upperroman {
list-style: upper-roman;
}
dl {
margin-bottom: 15px;
}
dd p {
margin-top: 0px;
}
dd ul, dd table {
margin-bottom: 10px;
}
dd {
margin-top: 3px;
margin-bottom: 10px;
margin-left: 30px;
}
dt:target, .highlighted {
background-color: #fbe54e;
}
dl.glossary dt {
font-weight: bold;
font-size: 1.1em;
}
.optional {
font-size: 1.3em;
}
.sig-paren {
font-size: larger;
}
.versionmodified {
font-style: italic;
}
.system-message {
background-color: #fda;
padding: 5px;
border: 3px solid red;
}
.footnote:target {
background-color: #ffa;
}
.line-block {
display: block;
margin-top: 1em;
margin-bottom: 1em;
}
.line-block .line-block {
margin-top: 0;
margin-bottom: 0;
margin-left: 1.5em;
}
.guilabel, .menuselection {
font-family: sans-serif;
}
.accelerator {
text-decoration: underline;
}
.classifier {
font-style: oblique;
}
abbr, acronym {
border-bottom: dotted 1px;
cursor: help;
}
/* -- code displays --------------------------------------------------------- */
pre {
overflow: auto;
overflow-y: hidden; /* fixes display issues on Chrome browsers */
}
span.pre {
-moz-hyphens: none;
-ms-hyphens: none;
-webkit-hyphens: none;
hyphens: none;
}
td.linenos pre {
padding: 5px 0px;
border: 0;
background-color: transparent;
color: #aaa;
}
table.highlighttable {
margin-left: 0.5em;
}
table.highlighttable td {
padding: 0 0.5em 0 0.5em;
}
div.code-block-caption {
padding: 2px 5px;
font-size: small;
}
div.code-block-caption code {
background-color: transparent;
}
div.code-block-caption + div > div.highlight > pre {
margin-top: 0;
}
div.code-block-caption span.caption-number {
padding: 0.1em 0.3em;
font-style: italic;
}
div.code-block-caption span.caption-text {
}
div.literal-block-wrapper {
padding: 1em 1em 0;
}
div.literal-block-wrapper div.highlight {
margin: 0;
}
code.descname {
background-color: transparent;
font-weight: bold;
font-size: 1.2em;
}
code.descclassname {
background-color: transparent;
}
code.xref, a code {
background-color: transparent;
font-weight: bold;
}
h1 code, h2 code, h3 code, h4 code, h5 code, h6 code {
background-color: transparent;
}
.viewcode-link {
float: right;
}
.viewcode-back {
float: right;
font-family: sans-serif;
}
div.viewcode-block:target {
margin: -1px -10px;
padding: 0 10px;
}
/* -- math display ---------------------------------------------------------- */
img.math {
vertical-align: middle;
}
div.body div.math p {
text-align: center;
}
span.eqno {
float: right;
}
span.eqno a.headerlink {
position: relative;
left: 0px;
z-index: 1;
}
div.math:hover a.headerlink {
visibility: visible;
}
/* -- printout stylesheet --------------------------------------------------- */
@media print {
div.document,
div.documentwrapper,
div.bodywrapper {
margin: 0 !important;
width: 100%;
}
div.sphinxsidebar,
div.related,
div.footer,
#top-link {
display: none;
}
}

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/* This file intentionally left blank. */

287
docs/_build/html/_static/doctools.js vendored
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/*
* doctools.js
* ~~~~~~~~~~~
*
* Sphinx JavaScript utilities for all documentation.
*
* :copyright: Copyright 2007-2017 by the Sphinx team, see AUTHORS.
* :license: BSD, see LICENSE for details.
*
*/
/**
* select a different prefix for underscore
*/
$u = _.noConflict();
/**
* make the code below compatible with browsers without
* an installed firebug like debugger
if (!window.console || !console.firebug) {
var names = ["log", "debug", "info", "warn", "error", "assert", "dir",
"dirxml", "group", "groupEnd", "time", "timeEnd", "count", "trace",
"profile", "profileEnd"];
window.console = {};
for (var i = 0; i < names.length; ++i)
window.console[names[i]] = function() {};
}
*/
/**
* small helper function to urldecode strings
*/
jQuery.urldecode = function(x) {
return decodeURIComponent(x).replace(/\+/g, ' ');
};
/**
* small helper function to urlencode strings
*/
jQuery.urlencode = encodeURIComponent;
/**
* This function returns the parsed url parameters of the
* current request. Multiple values per key are supported,
* it will always return arrays of strings for the value parts.
*/
jQuery.getQueryParameters = function(s) {
if (typeof s == 'undefined')
s = document.location.search;
var parts = s.substr(s.indexOf('?') + 1).split('&');
var result = {};
for (var i = 0; i < parts.length; i++) {
var tmp = parts[i].split('=', 2);
var key = jQuery.urldecode(tmp[0]);
var value = jQuery.urldecode(tmp[1]);
if (key in result)
result[key].push(value);
else
result[key] = [value];
}
return result;
};
/**
* highlight a given string on a jquery object by wrapping it in
* span elements with the given class name.
*/
jQuery.fn.highlightText = function(text, className) {
function highlight(node) {
if (node.nodeType == 3) {
var val = node.nodeValue;
var pos = val.toLowerCase().indexOf(text);
if (pos >= 0 && !jQuery(node.parentNode).hasClass(className)) {
var span = document.createElement("span");
span.className = className;
span.appendChild(document.createTextNode(val.substr(pos, text.length)));
node.parentNode.insertBefore(span, node.parentNode.insertBefore(
document.createTextNode(val.substr(pos + text.length)),
node.nextSibling));
node.nodeValue = val.substr(0, pos);
}
}
else if (!jQuery(node).is("button, select, textarea")) {
jQuery.each(node.childNodes, function() {
highlight(this);
});
}
}
return this.each(function() {
highlight(this);
});
};
/*
* backward compatibility for jQuery.browser
* This will be supported until firefox bug is fixed.
*/
if (!jQuery.browser) {
jQuery.uaMatch = function(ua) {
ua = ua.toLowerCase();
var match = /(chrome)[ \/]([\w.]+)/.exec(ua) ||
/(webkit)[ \/]([\w.]+)/.exec(ua) ||
/(opera)(?:.*version|)[ \/]([\w.]+)/.exec(ua) ||
/(msie) ([\w.]+)/.exec(ua) ||
ua.indexOf("compatible") < 0 && /(mozilla)(?:.*? rv:([\w.]+)|)/.exec(ua) ||
[];
return {
browser: match[ 1 ] || "",
version: match[ 2 ] || "0"
};
};
jQuery.browser = {};
jQuery.browser[jQuery.uaMatch(navigator.userAgent).browser] = true;
}
/**
* Small JavaScript module for the documentation.
*/
var Documentation = {
init : function() {
this.fixFirefoxAnchorBug();
this.highlightSearchWords();
this.initIndexTable();
},
/**
* i18n support
*/
TRANSLATIONS : {},
PLURAL_EXPR : function(n) { return n == 1 ? 0 : 1; },
LOCALE : 'unknown',
// gettext and ngettext don't access this so that the functions
// can safely bound to a different name (_ = Documentation.gettext)
gettext : function(string) {
var translated = Documentation.TRANSLATIONS[string];
if (typeof translated == 'undefined')
return string;
return (typeof translated == 'string') ? translated : translated[0];
},
ngettext : function(singular, plural, n) {
var translated = Documentation.TRANSLATIONS[singular];
if (typeof translated == 'undefined')
return (n == 1) ? singular : plural;
return translated[Documentation.PLURALEXPR(n)];
},
addTranslations : function(catalog) {
for (var key in catalog.messages)
this.TRANSLATIONS[key] = catalog.messages[key];
this.PLURAL_EXPR = new Function('n', 'return +(' + catalog.plural_expr + ')');
this.LOCALE = catalog.locale;
},
/**
* add context elements like header anchor links
*/
addContextElements : function() {
$('div[id] > :header:first').each(function() {
$('<a class="headerlink">\u00B6</a>').
attr('href', '#' + this.id).
attr('title', _('Permalink to this headline')).
appendTo(this);
});
$('dt[id]').each(function() {
$('<a class="headerlink">\u00B6</a>').
attr('href', '#' + this.id).
attr('title', _('Permalink to this definition')).
appendTo(this);
});
},
/**
* workaround a firefox stupidity
* see: https://bugzilla.mozilla.org/show_bug.cgi?id=645075
*/
fixFirefoxAnchorBug : function() {
if (document.location.hash)
window.setTimeout(function() {
document.location.href += '';
}, 10);
},
/**
* highlight the search words provided in the url in the text
*/
highlightSearchWords : function() {
var params = $.getQueryParameters();
var terms = (params.highlight) ? params.highlight[0].split(/\s+/) : [];
if (terms.length) {
var body = $('div.body');
if (!body.length) {
body = $('body');
}
window.setTimeout(function() {
$.each(terms, function() {
body.highlightText(this.toLowerCase(), 'highlighted');
});
}, 10);
$('<p class="highlight-link"><a href="javascript:Documentation.' +
'hideSearchWords()">' + _('Hide Search Matches') + '</a></p>')
.appendTo($('#searchbox'));
}
},
/**
* init the domain index toggle buttons
*/
initIndexTable : function() {
var togglers = $('img.toggler').click(function() {
var src = $(this).attr('src');
var idnum = $(this).attr('id').substr(7);
$('tr.cg-' + idnum).toggle();
if (src.substr(-9) == 'minus.png')
$(this).attr('src', src.substr(0, src.length-9) + 'plus.png');
else
$(this).attr('src', src.substr(0, src.length-8) + 'minus.png');
}).css('display', '');
if (DOCUMENTATION_OPTIONS.COLLAPSE_INDEX) {
togglers.click();
}
},
/**
* helper function to hide the search marks again
*/
hideSearchWords : function() {
$('#searchbox .highlight-link').fadeOut(300);
$('span.highlighted').removeClass('highlighted');
},
/**
* make the url absolute
*/
makeURL : function(relativeURL) {
return DOCUMENTATION_OPTIONS.URL_ROOT + '/' + relativeURL;
},
/**
* get the current relative url
*/
getCurrentURL : function() {
var path = document.location.pathname;
var parts = path.split(/\//);
$.each(DOCUMENTATION_OPTIONS.URL_ROOT.split(/\//), function() {
if (this == '..')
parts.pop();
});
var url = parts.join('/');
return path.substring(url.lastIndexOf('/') + 1, path.length - 1);
},
initOnKeyListeners: function() {
$(document).keyup(function(event) {
var activeElementType = document.activeElement.tagName;
// don't navigate when in search box or textarea
if (activeElementType !== 'TEXTAREA' && activeElementType !== 'INPUT' && activeElementType !== 'SELECT') {
switch (event.keyCode) {
case 37: // left
var prevHref = $('link[rel="prev"]').prop('href');
if (prevHref) {
window.location.href = prevHref;
return false;
}
case 39: // right
var nextHref = $('link[rel="next"]').prop('href');
if (nextHref) {
window.location.href = nextHref;
return false;
}
}
}
});
}
};
// quick alias for translations
_ = Documentation.gettext;
$(document).ready(function() {
Documentation.init();
});

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.highlight .hll { background-color: #ffffcc }
.highlight { background: #eeffcc; }
.highlight .c { color: #408090; font-style: italic } /* Comment */
.highlight .err { border: 1px solid #FF0000 } /* Error */
.highlight .k { color: #007020; font-weight: bold } /* Keyword */
.highlight .o { color: #666666 } /* Operator */
.highlight .ch { color: #408090; font-style: italic } /* Comment.Hashbang */
.highlight .cm { color: #408090; font-style: italic } /* Comment.Multiline */
.highlight .cp { color: #007020 } /* Comment.Preproc */
.highlight .cpf { color: #408090; font-style: italic } /* Comment.PreprocFile */
.highlight .c1 { color: #408090; font-style: italic } /* Comment.Single */
.highlight .cs { color: #408090; background-color: #fff0f0 } /* Comment.Special */
.highlight .gd { color: #A00000 } /* Generic.Deleted */
.highlight .ge { font-style: italic } /* Generic.Emph */
.highlight .gr { color: #FF0000 } /* Generic.Error */
.highlight .gh { color: #000080; font-weight: bold } /* Generic.Heading */
.highlight .gi { color: #00A000 } /* Generic.Inserted */
.highlight .go { color: #333333 } /* Generic.Output */
.highlight .gp { color: #c65d09; font-weight: bold } /* Generic.Prompt */
.highlight .gs { font-weight: bold } /* Generic.Strong */
.highlight .gu { color: #800080; font-weight: bold } /* Generic.Subheading */
.highlight .gt { color: #0044DD } /* Generic.Traceback */
.highlight .kc { color: #007020; font-weight: bold } /* Keyword.Constant */
.highlight .kd { color: #007020; font-weight: bold } /* Keyword.Declaration */
.highlight .kn { color: #007020; font-weight: bold } /* Keyword.Namespace */
.highlight .kp { color: #007020 } /* Keyword.Pseudo */
.highlight .kr { color: #007020; font-weight: bold } /* Keyword.Reserved */
.highlight .kt { color: #902000 } /* Keyword.Type */
.highlight .m { color: #208050 } /* Literal.Number */
.highlight .s { color: #4070a0 } /* Literal.String */
.highlight .na { color: #4070a0 } /* Name.Attribute */
.highlight .nb { color: #007020 } /* Name.Builtin */
.highlight .nc { color: #0e84b5; font-weight: bold } /* Name.Class */
.highlight .no { color: #60add5 } /* Name.Constant */
.highlight .nd { color: #555555; font-weight: bold } /* Name.Decorator */
.highlight .ni { color: #d55537; font-weight: bold } /* Name.Entity */
.highlight .ne { color: #007020 } /* Name.Exception */
.highlight .nf { color: #06287e } /* Name.Function */
.highlight .nl { color: #002070; font-weight: bold } /* Name.Label */
.highlight .nn { color: #0e84b5; font-weight: bold } /* Name.Namespace */
.highlight .nt { color: #062873; font-weight: bold } /* Name.Tag */
.highlight .nv { color: #bb60d5 } /* Name.Variable */
.highlight .ow { color: #007020; font-weight: bold } /* Operator.Word */
.highlight .w { color: #bbbbbb } /* Text.Whitespace */
.highlight .mb { color: #208050 } /* Literal.Number.Bin */
.highlight .mf { color: #208050 } /* Literal.Number.Float */
.highlight .mh { color: #208050 } /* Literal.Number.Hex */
.highlight .mi { color: #208050 } /* Literal.Number.Integer */
.highlight .mo { color: #208050 } /* Literal.Number.Oct */
.highlight .sa { color: #4070a0 } /* Literal.String.Affix */
.highlight .sb { color: #4070a0 } /* Literal.String.Backtick */
.highlight .sc { color: #4070a0 } /* Literal.String.Char */
.highlight .dl { color: #4070a0 } /* Literal.String.Delimiter */
.highlight .sd { color: #4070a0; font-style: italic } /* Literal.String.Doc */
.highlight .s2 { color: #4070a0 } /* Literal.String.Double */
.highlight .se { color: #4070a0; font-weight: bold } /* Literal.String.Escape */
.highlight .sh { color: #4070a0 } /* Literal.String.Heredoc */
.highlight .si { color: #70a0d0; font-style: italic } /* Literal.String.Interpol */
.highlight .sx { color: #c65d09 } /* Literal.String.Other */
.highlight .sr { color: #235388 } /* Literal.String.Regex */
.highlight .s1 { color: #4070a0 } /* Literal.String.Single */
.highlight .ss { color: #517918 } /* Literal.String.Symbol */
.highlight .bp { color: #007020 } /* Name.Builtin.Pseudo */
.highlight .fm { color: #06287e } /* Name.Function.Magic */
.highlight .vc { color: #bb60d5 } /* Name.Variable.Class */
.highlight .vg { color: #bb60d5 } /* Name.Variable.Global */
.highlight .vi { color: #bb60d5 } /* Name.Variable.Instance */
.highlight .vm { color: #bb60d5 } /* Name.Variable.Magic */
.highlight .il { color: #208050 } /* Literal.Number.Integer.Long */

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docs/_build/html/_static/searchtools.js vendored
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/*
* searchtools.js_t
* ~~~~~~~~~~~~~~~~
*
* Sphinx JavaScript utilities for the full-text search.
*
* :copyright: Copyright 2007-2017 by the Sphinx team, see AUTHORS.
* :license: BSD, see LICENSE for details.
*
*/
/* Non-minified version JS is _stemmer.js if file is provided */
/**
* Porter Stemmer
*/
var Stemmer = function() {
var step2list = {
ational: 'ate',
tional: 'tion',
enci: 'ence',
anci: 'ance',
izer: 'ize',
bli: 'ble',
alli: 'al',
entli: 'ent',
eli: 'e',
ousli: 'ous',
ization: 'ize',
ation: 'ate',
ator: 'ate',
alism: 'al',
iveness: 'ive',
fulness: 'ful',
ousness: 'ous',
aliti: 'al',
iviti: 'ive',
biliti: 'ble',
logi: 'log'
};
var step3list = {
icate: 'ic',
ative: '',
alize: 'al',
iciti: 'ic',
ical: 'ic',
ful: '',
ness: ''
};
var c = "[^aeiou]"; // consonant
var v = "[aeiouy]"; // vowel
var C = c + "[^aeiouy]*"; // consonant sequence
var V = v + "[aeiou]*"; // vowel sequence
var mgr0 = "^(" + C + ")?" + V + C; // [C]VC... is m>0
var meq1 = "^(" + C + ")?" + V + C + "(" + V + ")?$"; // [C]VC[V] is m=1
var mgr1 = "^(" + C + ")?" + V + C + V + C; // [C]VCVC... is m>1
var s_v = "^(" + C + ")?" + v; // vowel in stem
this.stemWord = function (w) {
var stem;
var suffix;
var firstch;
var origword = w;
if (w.length < 3)
return w;
var re;
var re2;
var re3;
var re4;
firstch = w.substr(0,1);
if (firstch == "y")
w = firstch.toUpperCase() + w.substr(1);
// Step 1a
re = /^(.+?)(ss|i)es$/;
re2 = /^(.+?)([^s])s$/;
if (re.test(w))
w = w.replace(re,"$1$2");
else if (re2.test(w))
w = w.replace(re2,"$1$2");
// Step 1b
re = /^(.+?)eed$/;
re2 = /^(.+?)(ed|ing)$/;
if (re.test(w)) {
var fp = re.exec(w);
re = new RegExp(mgr0);
if (re.test(fp[1])) {
re = /.$/;
w = w.replace(re,"");
}
}
else if (re2.test(w)) {
var fp = re2.exec(w);
stem = fp[1];
re2 = new RegExp(s_v);
if (re2.test(stem)) {
w = stem;
re2 = /(at|bl|iz)$/;
re3 = new RegExp("([^aeiouylsz])\\1$");
re4 = new RegExp("^" + C + v + "[^aeiouwxy]$");
if (re2.test(w))
w = w + "e";
else if (re3.test(w)) {
re = /.$/;
w = w.replace(re,"");
}
else if (re4.test(w))
w = w + "e";
}
}
// Step 1c
re = /^(.+?)y$/;
if (re.test(w)) {
var fp = re.exec(w);
stem = fp[1];
re = new RegExp(s_v);
if (re.test(stem))
w = stem + "i";
}
// Step 2
re = /^(.+?)(ational|tional|enci|anci|izer|bli|alli|entli|eli|ousli|ization|ation|ator|alism|iveness|fulness|ousness|aliti|iviti|biliti|logi)$/;
if (re.test(w)) {
var fp = re.exec(w);
stem = fp[1];
suffix = fp[2];
re = new RegExp(mgr0);
if (re.test(stem))
w = stem + step2list[suffix];
}
// Step 3
re = /^(.+?)(icate|ative|alize|iciti|ical|ful|ness)$/;
if (re.test(w)) {
var fp = re.exec(w);
stem = fp[1];
suffix = fp[2];
re = new RegExp(mgr0);
if (re.test(stem))
w = stem + step3list[suffix];
}
// Step 4
re = /^(.+?)(al|ance|ence|er|ic|able|ible|ant|ement|ment|ent|ou|ism|ate|iti|ous|ive|ize)$/;
re2 = /^(.+?)(s|t)(ion)$/;
if (re.test(w)) {
var fp = re.exec(w);
stem = fp[1];
re = new RegExp(mgr1);
if (re.test(stem))
w = stem;
}
else if (re2.test(w)) {
var fp = re2.exec(w);
stem = fp[1] + fp[2];
re2 = new RegExp(mgr1);
if (re2.test(stem))
w = stem;
}
// Step 5
re = /^(.+?)e$/;
if (re.test(w)) {
var fp = re.exec(w);
stem = fp[1];
re = new RegExp(mgr1);
re2 = new RegExp(meq1);
re3 = new RegExp("^" + C + v + "[^aeiouwxy]$");
if (re.test(stem) || (re2.test(stem) && !(re3.test(stem))))
w = stem;
}
re = /ll$/;
re2 = new RegExp(mgr1);
if (re.test(w) && re2.test(w)) {
re = /.$/;
w = w.replace(re,"");
}
// and turn initial Y back to y
if (firstch == "y")
w = firstch.toLowerCase() + w.substr(1);
return w;
}
}
/**
* Simple result scoring code.
*/
var Scorer = {
// Implement the following function to further tweak the score for each result
// The function takes a result array [filename, title, anchor, descr, score]
// and returns the new score.
/*
score: function(result) {
return result[4];
},
*/
// query matches the full name of an object
objNameMatch: 11,
// or matches in the last dotted part of the object name
objPartialMatch: 6,
// Additive scores depending on the priority of the object
objPrio: {0: 15, // used to be importantResults
1: 5, // used to be objectResults
2: -5}, // used to be unimportantResults
// Used when the priority is not in the mapping.
objPrioDefault: 0,
// query found in title
title: 15,
// query found in terms
term: 5
};
var splitChars = (function() {
var result = {};
var singles = [96, 180, 187, 191, 215, 247, 749, 885, 903, 907, 909, 930, 1014, 1648,
1748, 1809, 2416, 2473, 2481, 2526, 2601, 2609, 2612, 2615, 2653, 2702,
2706, 2729, 2737, 2740, 2857, 2865, 2868, 2910, 2928, 2948, 2961, 2971,
2973, 3085, 3089, 3113, 3124, 3213, 3217, 3241, 3252, 3295, 3341, 3345,
3369, 3506, 3516, 3633, 3715, 3721, 3736, 3744, 3748, 3750, 3756, 3761,
3781, 3912, 4239, 4347, 4681, 4695, 4697, 4745, 4785, 4799, 4801, 4823,
4881, 5760, 5901, 5997, 6313, 7405, 8024, 8026, 8028, 8030, 8117, 8125,
8133, 8181, 8468, 8485, 8487, 8489, 8494, 8527, 11311, 11359, 11687, 11695,
11703, 11711, 11719, 11727, 11735, 12448, 12539, 43010, 43014, 43019, 43587,
43696, 43713, 64286, 64297, 64311, 64317, 64319, 64322, 64325, 65141];
var i, j, start, end;
for (i = 0; i < singles.length; i++) {
result[singles[i]] = true;
}
var ranges = [[0, 47], [58, 64], [91, 94], [123, 169], [171, 177], [182, 184], [706, 709],
[722, 735], [741, 747], [751, 879], [888, 889], [894, 901], [1154, 1161],
[1318, 1328], [1367, 1368], [1370, 1376], [1416, 1487], [1515, 1519], [1523, 1568],
[1611, 1631], [1642, 1645], [1750, 1764], [1767, 1773], [1789, 1790], [1792, 1807],
[1840, 1868], [1958, 1968], [1970, 1983], [2027, 2035], [2038, 2041], [2043, 2047],
[2070, 2073], [2075, 2083], [2085, 2087], [2089, 2307], [2362, 2364], [2366, 2383],
[2385, 2391], [2402, 2405], [2419, 2424], [2432, 2436], [2445, 2446], [2449, 2450],
[2483, 2485], [2490, 2492], [2494, 2509], [2511, 2523], [2530, 2533], [2546, 2547],
[2554, 2564], [2571, 2574], [2577, 2578], [2618, 2648], [2655, 2661], [2672, 2673],
[2677, 2692], [2746, 2748], [2750, 2767], [2769, 2783], [2786, 2789], [2800, 2820],
[2829, 2830], [2833, 2834], [2874, 2876], [2878, 2907], [2914, 2917], [2930, 2946],
[2955, 2957], [2966, 2968], [2976, 2978], [2981, 2983], [2987, 2989], [3002, 3023],
[3025, 3045], [3059, 3076], [3130, 3132], [3134, 3159], [3162, 3167], [3170, 3173],
[3184, 3191], [3199, 3204], [3258, 3260], [3262, 3293], [3298, 3301], [3312, 3332],
[3386, 3388], [3390, 3423], [3426, 3429], [3446, 3449], [3456, 3460], [3479, 3481],
[3518, 3519], [3527, 3584], [3636, 3647], [3655, 3663], [3674, 3712], [3717, 3718],
[3723, 3724], [3726, 3731], [3752, 3753], [3764, 3772], [3774, 3775], [3783, 3791],
[3802, 3803], [3806, 3839], [3841, 3871], [3892, 3903], [3949, 3975], [3980, 4095],
[4139, 4158], [4170, 4175], [4182, 4185], [4190, 4192], [4194, 4196], [4199, 4205],
[4209, 4212], [4226, 4237], [4250, 4255], [4294, 4303], [4349, 4351], [4686, 4687],
[4702, 4703], [4750, 4751], [4790, 4791], [4806, 4807], [4886, 4887], [4955, 4968],
[4989, 4991], [5008, 5023], [5109, 5120], [5741, 5742], [5787, 5791], [5867, 5869],
[5873, 5887], [5906, 5919], [5938, 5951], [5970, 5983], [6001, 6015], [6068, 6102],
[6104, 6107], [6109, 6111], [6122, 6127], [6138, 6159], [6170, 6175], [6264, 6271],
[6315, 6319], [6390, 6399], [6429, 6469], [6510, 6511], [6517, 6527], [6572, 6592],
[6600, 6607], [6619, 6655], [6679, 6687], [6741, 6783], [6794, 6799], [6810, 6822],
[6824, 6916], [6964, 6980], [6988, 6991], [7002, 7042], [7073, 7085], [7098, 7167],
[7204, 7231], [7242, 7244], [7294, 7400], [7410, 7423], [7616, 7679], [7958, 7959],
[7966, 7967], [8006, 8007], [8014, 8015], [8062, 8063], [8127, 8129], [8141, 8143],
[8148, 8149], [8156, 8159], [8173, 8177], [8189, 8303], [8306, 8307], [8314, 8318],
[8330, 8335], [8341, 8449], [8451, 8454], [8456, 8457], [8470, 8472], [8478, 8483],
[8506, 8507], [8512, 8516], [8522, 8525], [8586, 9311], [9372, 9449], [9472, 10101],
[10132, 11263], [11493, 11498], [11503, 11516], [11518, 11519], [11558, 11567],
[11622, 11630], [11632, 11647], [11671, 11679], [11743, 11822], [11824, 12292],
[12296, 12320], [12330, 12336], [12342, 12343], [12349, 12352], [12439, 12444],
[12544, 12548], [12590, 12592], [12687, 12689], [12694, 12703], [12728, 12783],
[12800, 12831], [12842, 12880], [12896, 12927], [12938, 12976], [12992, 13311],
[19894, 19967], [40908, 40959], [42125, 42191], [42238, 42239], [42509, 42511],
[42540, 42559], [42592, 42593], [42607, 42622], [42648, 42655], [42736, 42774],
[42784, 42785], [42889, 42890], [42893, 43002], [43043, 43055], [43062, 43071],
[43124, 43137], [43188, 43215], [43226, 43249], [43256, 43258], [43260, 43263],
[43302, 43311], [43335, 43359], [43389, 43395], [43443, 43470], [43482, 43519],
[43561, 43583], [43596, 43599], [43610, 43615], [43639, 43641], [43643, 43647],
[43698, 43700], [43703, 43704], [43710, 43711], [43715, 43738], [43742, 43967],
[44003, 44015], [44026, 44031], [55204, 55215], [55239, 55242], [55292, 55295],
[57344, 63743], [64046, 64047], [64110, 64111], [64218, 64255], [64263, 64274],
[64280, 64284], [64434, 64466], [64830, 64847], [64912, 64913], [64968, 65007],
[65020, 65135], [65277, 65295], [65306, 65312], [65339, 65344], [65371, 65381],
[65471, 65473], [65480, 65481], [65488, 65489], [65496, 65497]];
for (i = 0; i < ranges.length; i++) {
start = ranges[i][0];
end = ranges[i][1];
for (j = start; j <= end; j++) {
result[j] = true;
}
}
return result;
})();
function splitQuery(query) {
var result = [];
var start = -1;
for (var i = 0; i < query.length; i++) {
if (splitChars[query.charCodeAt(i)]) {
if (start !== -1) {
result.push(query.slice(start, i));
start = -1;
}
} else if (start === -1) {
start = i;
}
}
if (start !== -1) {
result.push(query.slice(start));
}
return result;
}
/**
* Search Module
*/
var Search = {
_index : null,
_queued_query : null,
_pulse_status : -1,
init : function() {
var params = $.getQueryParameters();
if (params.q) {
var query = params.q[0];
$('input[name="q"]')[0].value = query;
this.performSearch(query);
}
},
loadIndex : function(url) {
$.ajax({type: "GET", url: url, data: null,
dataType: "script", cache: true,
complete: function(jqxhr, textstatus) {
if (textstatus != "success") {
document.getElementById("searchindexloader").src = url;
}
}});
},
setIndex : function(index) {
var q;
this._index = index;
if ((q = this._queued_query) !== null) {
this._queued_query = null;
Search.query(q);
}
},
hasIndex : function() {
return this._index !== null;
},
deferQuery : function(query) {
this._queued_query = query;
},
stopPulse : function() {
this._pulse_status = 0;
},
startPulse : function() {
if (this._pulse_status >= 0)
return;
function pulse() {
var i;
Search._pulse_status = (Search._pulse_status + 1) % 4;
var dotString = '';
for (i = 0; i < Search._pulse_status; i++)
dotString += '.';
Search.dots.text(dotString);
if (Search._pulse_status > -1)
window.setTimeout(pulse, 500);
}
pulse();
},
/**
* perform a search for something (or wait until index is loaded)
*/
performSearch : function(query) {
// create the required interface elements
this.out = $('#search-results');
this.title = $('<h2>' + _('Searching') + '</h2>').appendTo(this.out);
this.dots = $('<span></span>').appendTo(this.title);
this.status = $('<p style="display: none"></p>').appendTo(this.out);
this.output = $('<ul class="search"/>').appendTo(this.out);
$('#search-progress').text(_('Preparing search...'));
this.startPulse();
// index already loaded, the browser was quick!
if (this.hasIndex())
this.query(query);
else
this.deferQuery(query);
},
/**
* execute search (requires search index to be loaded)
*/
query : function(query) {
var i;
var stopwords = ["a","and","are","as","at","be","but","by","for","if","in","into","is","it","near","no","not","of","on","or","such","that","the","their","then","there","these","they","this","to","was","will","with"];
// stem the searchterms and add them to the correct list
var stemmer = new Stemmer();
var searchterms = [];
var excluded = [];
var hlterms = [];
var tmp = splitQuery(query);
var objectterms = [];
for (i = 0; i < tmp.length; i++) {
if (tmp[i] !== "") {
objectterms.push(tmp[i].toLowerCase());
}
if ($u.indexOf(stopwords, tmp[i].toLowerCase()) != -1 || tmp[i].match(/^\d+$/) ||
tmp[i] === "") {
// skip this "word"
continue;
}
// stem the word
var word = stemmer.stemWord(tmp[i].toLowerCase());
// prevent stemmer from cutting word smaller than two chars
if(word.length < 3 && tmp[i].length >= 3) {
word = tmp[i];
}
var toAppend;
// select the correct list
if (word[0] == '-') {
toAppend = excluded;
word = word.substr(1);
}
else {
toAppend = searchterms;
hlterms.push(tmp[i].toLowerCase());
}
// only add if not already in the list
if (!$u.contains(toAppend, word))
toAppend.push(word);
}
var highlightstring = '?highlight=' + $.urlencode(hlterms.join(" "));
// console.debug('SEARCH: searching for:');
// console.info('required: ', searchterms);
// console.info('excluded: ', excluded);
// prepare search
var terms = this._index.terms;
var titleterms = this._index.titleterms;
// array of [filename, title, anchor, descr, score]
var results = [];
$('#search-progress').empty();
// lookup as object
for (i = 0; i < objectterms.length; i++) {
var others = [].concat(objectterms.slice(0, i),
objectterms.slice(i+1, objectterms.length));
results = results.concat(this.performObjectSearch(objectterms[i], others));
}
// lookup as search terms in fulltext
results = results.concat(this.performTermsSearch(searchterms, excluded, terms, titleterms));
// let the scorer override scores with a custom scoring function
if (Scorer.score) {
for (i = 0; i < results.length; i++)
results[i][4] = Scorer.score(results[i]);
}
// now sort the results by score (in opposite order of appearance, since the
// display function below uses pop() to retrieve items) and then
// alphabetically
results.sort(function(a, b) {
var left = a[4];
var right = b[4];
if (left > right) {
return 1;
} else if (left < right) {
return -1;
} else {
// same score: sort alphabetically
left = a[1].toLowerCase();
right = b[1].toLowerCase();
return (left > right) ? -1 : ((left < right) ? 1 : 0);
}
});
// for debugging
//Search.lastresults = results.slice(); // a copy
//console.info('search results:', Search.lastresults);
// print the results
var resultCount = results.length;
function displayNextItem() {
// results left, load the summary and display it
if (results.length) {
var item = results.pop();
var listItem = $('<li style="display:none"></li>');
if (DOCUMENTATION_OPTIONS.FILE_SUFFIX === '') {
// dirhtml builder
var dirname = item[0] + '/';
if (dirname.match(/\/index\/$/)) {
dirname = dirname.substring(0, dirname.length-6);
} else if (dirname == 'index/') {
dirname = '';
}
listItem.append($('<a/>').attr('href',
DOCUMENTATION_OPTIONS.URL_ROOT + dirname +
highlightstring + item[2]).html(item[1]));
} else {
// normal html builders
listItem.append($('<a/>').attr('href',
item[0] + DOCUMENTATION_OPTIONS.FILE_SUFFIX +
highlightstring + item[2]).html(item[1]));
}
if (item[3]) {
listItem.append($('<span> (' + item[3] + ')</span>'));
Search.output.append(listItem);
listItem.slideDown(5, function() {
displayNextItem();
});
} else if (DOCUMENTATION_OPTIONS.HAS_SOURCE) {
var suffix = DOCUMENTATION_OPTIONS.SOURCELINK_SUFFIX;
$.ajax({url: DOCUMENTATION_OPTIONS.URL_ROOT + '_sources/' + item[5] + (item[5].slice(-suffix.length) === suffix ? '' : suffix),
dataType: "text",
complete: function(jqxhr, textstatus) {
var data = jqxhr.responseText;
if (data !== '' && data !== undefined) {
listItem.append(Search.makeSearchSummary(data, searchterms, hlterms));
}
Search.output.append(listItem);
listItem.slideDown(5, function() {
displayNextItem();
});
}});
} else {
// no source available, just display title
Search.output.append(listItem);
listItem.slideDown(5, function() {
displayNextItem();
});
}
}
// search finished, update title and status message
else {
Search.stopPulse();
Search.title.text(_('Search Results'));
if (!resultCount)
Search.status.text(_('Your search did not match any documents. Please make sure that all words are spelled correctly and that you\'ve selected enough categories.'));
else
Search.status.text(_('Search finished, found %s page(s) matching the search query.').replace('%s', resultCount));
Search.status.fadeIn(500);
}
}
displayNextItem();
},
/**
* search for object names
*/
performObjectSearch : function(object, otherterms) {
var filenames = this._index.filenames;
var docnames = this._index.docnames;
var objects = this._index.objects;
var objnames = this._index.objnames;
var titles = this._index.titles;
var i;
var results = [];
for (var prefix in objects) {
for (var name in objects[prefix]) {
var fullname = (prefix ? prefix + '.' : '') + name;
if (fullname.toLowerCase().indexOf(object) > -1) {
var score = 0;
var parts = fullname.split('.');
// check for different match types: exact matches of full name or
// "last name" (i.e. last dotted part)
if (fullname == object || parts[parts.length - 1] == object) {
score += Scorer.objNameMatch;
// matches in last name
} else if (parts[parts.length - 1].indexOf(object) > -1) {
score += Scorer.objPartialMatch;
}
var match = objects[prefix][name];
var objname = objnames[match[1]][2];
var title = titles[match[0]];
// If more than one term searched for, we require other words to be
// found in the name/title/description
if (otherterms.length > 0) {
var haystack = (prefix + ' ' + name + ' ' +
objname + ' ' + title).toLowerCase();
var allfound = true;
for (i = 0; i < otherterms.length; i++) {
if (haystack.indexOf(otherterms[i]) == -1) {
allfound = false;
break;
}
}
if (!allfound) {
continue;
}
}
var descr = objname + _(', in ') + title;
var anchor = match[3];
if (anchor === '')
anchor = fullname;
else if (anchor == '-')
anchor = objnames[match[1]][1] + '-' + fullname;
// add custom score for some objects according to scorer
if (Scorer.objPrio.hasOwnProperty(match[2])) {
score += Scorer.objPrio[match[2]];
} else {
score += Scorer.objPrioDefault;
}
results.push([docnames[match[0]], fullname, '#'+anchor, descr, score, filenames[match[0]]]);
}
}
}
return results;
},
/**
* search for full-text terms in the index
*/
performTermsSearch : function(searchterms, excluded, terms, titleterms) {
var docnames = this._index.docnames;
var filenames = this._index.filenames;
var titles = this._index.titles;
var i, j, file;
var fileMap = {};
var scoreMap = {};
var results = [];
// perform the search on the required terms
for (i = 0; i < searchterms.length; i++) {
var word = searchterms[i];
var files = [];
var _o = [
{files: terms[word], score: Scorer.term},
{files: titleterms[word], score: Scorer.title}
];
// no match but word was a required one
if ($u.every(_o, function(o){return o.files === undefined;})) {
break;
}
// found search word in contents
$u.each(_o, function(o) {
var _files = o.files;
if (_files === undefined)
return
if (_files.length === undefined)
_files = [_files];
files = files.concat(_files);
// set score for the word in each file to Scorer.term
for (j = 0; j < _files.length; j++) {
file = _files[j];
if (!(file in scoreMap))
scoreMap[file] = {}
scoreMap[file][word] = o.score;
}
});
// create the mapping
for (j = 0; j < files.length; j++) {
file = files[j];
if (file in fileMap)
fileMap[file].push(word);
else
fileMap[file] = [word];
}
}
// now check if the files don't contain excluded terms
for (file in fileMap) {
var valid = true;
// check if all requirements are matched
if (fileMap[file].length != searchterms.length)
continue;
// ensure that none of the excluded terms is in the search result
for (i = 0; i < excluded.length; i++) {
if (terms[excluded[i]] == file ||
titleterms[excluded[i]] == file ||
$u.contains(terms[excluded[i]] || [], file) ||
$u.contains(titleterms[excluded[i]] || [], file)) {
valid = false;
break;
}
}
// if we have still a valid result we can add it to the result list
if (valid) {
// select one (max) score for the file.
// for better ranking, we should calculate ranking by using words statistics like basic tf-idf...
var score = $u.max($u.map(fileMap[file], function(w){return scoreMap[file][w]}));
results.push([docnames[file], titles[file], '', null, score, filenames[file]]);
}
}
return results;
},
/**
* helper function to return a node containing the
* search summary for a given text. keywords is a list
* of stemmed words, hlwords is the list of normal, unstemmed
* words. the first one is used to find the occurrence, the
* latter for highlighting it.
*/
makeSearchSummary : function(text, keywords, hlwords) {
var textLower = text.toLowerCase();
var start = 0;
$.each(keywords, function() {
var i = textLower.indexOf(this.toLowerCase());
if (i > -1)
start = i;
});
start = Math.max(start - 120, 0);
var excerpt = ((start > 0) ? '...' : '') +
$.trim(text.substr(start, 240)) +
((start + 240 - text.length) ? '...' : '');
var rv = $('<div class="context"></div>').text(excerpt);
$.each(hlwords, function() {
rv = rv.highlightText(this, 'highlighted');
});
return rv;
}
};
$(document).ready(function() {
Search.init();
});

999
docs/_build/html/_static/underscore-1.3.1.js vendored
View File

@@ -1,999 +0,0 @@
// Underscore.js 1.3.1
// (c) 2009-2012 Jeremy Ashkenas, DocumentCloud Inc.
// Underscore is freely distributable under the MIT license.
// Portions of Underscore are inspired or borrowed from Prototype,
// Oliver Steele's Functional, and John Resig's Micro-Templating.
// For all details and documentation:
// http://documentcloud.github.com/underscore
(function() {
// Baseline setup
// --------------
// Establish the root object, `window` in the browser, or `global` on the server.
var root = this;
// Save the previous value of the `_` variable.
var previousUnderscore = root._;
// Establish the object that gets returned to break out of a loop iteration.
var breaker = {};
// Save bytes in the minified (but not gzipped) version:
var ArrayProto = Array.prototype, ObjProto = Object.prototype, FuncProto = Function.prototype;
// Create quick reference variables for speed access to core prototypes.
var slice = ArrayProto.slice,
unshift = ArrayProto.unshift,
toString = ObjProto.toString,
hasOwnProperty = ObjProto.hasOwnProperty;
// All **ECMAScript 5** native function implementations that we hope to use
// are declared here.
var
nativeForEach = ArrayProto.forEach,
nativeMap = ArrayProto.map,
nativeReduce = ArrayProto.reduce,
nativeReduceRight = ArrayProto.reduceRight,
nativeFilter = ArrayProto.filter,
nativeEvery = ArrayProto.every,
nativeSome = ArrayProto.some,
nativeIndexOf = ArrayProto.indexOf,
nativeLastIndexOf = ArrayProto.lastIndexOf,
nativeIsArray = Array.isArray,
nativeKeys = Object.keys,
nativeBind = FuncProto.bind;
// Create a safe reference to the Underscore object for use below.
var _ = function(obj) { return new wrapper(obj); };
// Export the Underscore object for **Node.js**, with
// backwards-compatibility for the old `require()` API. If we're in
// the browser, add `_` as a global object via a string identifier,
// for Closure Compiler "advanced" mode.
if (typeof exports !== 'undefined') {
if (typeof module !== 'undefined' && module.exports) {
exports = module.exports = _;
}
exports._ = _;
} else {
root['_'] = _;
}
// Current version.
_.VERSION = '1.3.1';
// Collection Functions
// --------------------
// The cornerstone, an `each` implementation, aka `forEach`.
// Handles objects with the built-in `forEach`, arrays, and raw objects.
// Delegates to **ECMAScript 5**'s native `forEach` if available.
var each = _.each = _.forEach = function(obj, iterator, context) {
if (obj == null) return;
if (nativeForEach && obj.forEach === nativeForEach) {
obj.forEach(iterator, context);
} else if (obj.length === +obj.length) {
for (var i = 0, l = obj.length; i < l; i++) {
if (i in obj && iterator.call(context, obj[i], i, obj) === breaker) return;
}
} else {
for (var key in obj) {
if (_.has(obj, key)) {
if (iterator.call(context, obj[key], key, obj) === breaker) return;
}
}
}
};
// Return the results of applying the iterator to each element.
// Delegates to **ECMAScript 5**'s native `map` if available.
_.map = _.collect = function(obj, iterator, context) {
var results = [];
if (obj == null) return results;
if (nativeMap && obj.map === nativeMap) return obj.map(iterator, context);
each(obj, function(value, index, list) {
results[results.length] = iterator.call(context, value, index, list);
});
if (obj.length === +obj.length) results.length = obj.length;
return results;
};
// **Reduce** builds up a single result from a list of values, aka `inject`,
// or `foldl`. Delegates to **ECMAScript 5**'s native `reduce` if available.
_.reduce = _.foldl = _.inject = function(obj, iterator, memo, context) {
var initial = arguments.length > 2;
if (obj == null) obj = [];
if (nativeReduce && obj.reduce === nativeReduce) {
if (context) iterator = _.bind(iterator, context);
return initial ? obj.reduce(iterator, memo) : obj.reduce(iterator);
}
each(obj, function(value, index, list) {
if (!initial) {
memo = value;
initial = true;
} else {
memo = iterator.call(context, memo, value, index, list);
}
});
if (!initial) throw new TypeError('Reduce of empty array with no initial value');
return memo;
};
// The right-associative version of reduce, also known as `foldr`.
// Delegates to **ECMAScript 5**'s native `reduceRight` if available.
_.reduceRight = _.foldr = function(obj, iterator, memo, context) {
var initial = arguments.length > 2;
if (obj == null) obj = [];
if (nativeReduceRight && obj.reduceRight === nativeReduceRight) {
if (context) iterator = _.bind(iterator, context);
return initial ? obj.reduceRight(iterator, memo) : obj.reduceRight(iterator);
}
var reversed = _.toArray(obj).reverse();
if (context && !initial) iterator = _.bind(iterator, context);
return initial ? _.reduce(reversed, iterator, memo, context) : _.reduce(reversed, iterator);
};
// Return the first value which passes a truth test. Aliased as `detect`.
_.find = _.detect = function(obj, iterator, context) {
var result;
any(obj, function(value, index, list) {
if (iterator.call(context, value, index, list)) {
result = value;
return true;
}
});
return result;
};
// Return all the elements that pass a truth test.
// Delegates to **ECMAScript 5**'s native `filter` if available.
// Aliased as `select`.
_.filter = _.select = function(obj, iterator, context) {
var results = [];
if (obj == null) return results;
if (nativeFilter && obj.filter === nativeFilter) return obj.filter(iterator, context);
each(obj, function(value, index, list) {
if (iterator.call(context, value, index, list)) results[results.length] = value;
});
return results;
};
// Return all the elements for which a truth test fails.
_.reject = function(obj, iterator, context) {
var results = [];
if (obj == null) return results;
each(obj, function(value, index, list) {
if (!iterator.call(context, value, index, list)) results[results.length] = value;
});
return results;
};
// Determine whether all of the elements match a truth test.
// Delegates to **ECMAScript 5**'s native `every` if available.
// Aliased as `all`.
_.every = _.all = function(obj, iterator, context) {
var result = true;
if (obj == null) return result;
if (nativeEvery && obj.every === nativeEvery) return obj.every(iterator, context);
each(obj, function(value, index, list) {
if (!(result = result && iterator.call(context, value, index, list))) return breaker;
});
return result;
};
// Determine if at least one element in the object matches a truth test.
// Delegates to **ECMAScript 5**'s native `some` if available.
// Aliased as `any`.
var any = _.some = _.any = function(obj, iterator, context) {
iterator || (iterator = _.identity);
var result = false;
if (obj == null) return result;
if (nativeSome && obj.some === nativeSome) return obj.some(iterator, context);
each(obj, function(value, index, list) {
if (result || (result = iterator.call(context, value, index, list))) return breaker;
});
return !!result;
};
// Determine if a given value is included in the array or object using `===`.
// Aliased as `contains`.
_.include = _.contains = function(obj, target) {
var found = false;
if (obj == null) return found;
if (nativeIndexOf && obj.indexOf === nativeIndexOf) return obj.indexOf(target) != -1;
found = any(obj, function(value) {
return value === target;
});
return found;
};
// Invoke a method (with arguments) on every item in a collection.
_.invoke = function(obj, method) {
var args = slice.call(arguments, 2);
return _.map(obj, function(value) {
return (_.isFunction(method) ? method || value : value[method]).apply(value, args);
});
};
// Convenience version of a common use case of `map`: fetching a property.
_.pluck = function(obj, key) {
return _.map(obj, function(value){ return value[key]; });
};
// Return the maximum element or (element-based computation).
_.max = function(obj, iterator, context) {
if (!iterator && _.isArray(obj)) return Math.max.apply(Math, obj);
if (!iterator && _.isEmpty(obj)) return -Infinity;
var result = {computed : -Infinity};
each(obj, function(value, index, list) {
var computed = iterator ? iterator.call(context, value, index, list) : value;
computed >= result.computed && (result = {value : value, computed : computed});
});
return result.value;
};
// Return the minimum element (or element-based computation).
_.min = function(obj, iterator, context) {
if (!iterator && _.isArray(obj)) return Math.min.apply(Math, obj);
if (!iterator && _.isEmpty(obj)) return Infinity;
var result = {computed : Infinity};
each(obj, function(value, index, list) {
var computed = iterator ? iterator.call(context, value, index, list) : value;
computed < result.computed && (result = {value : value, computed : computed});
});
return result.value;
};
// Shuffle an array.
_.shuffle = function(obj) {
var shuffled = [], rand;
each(obj, function(value, index, list) {
if (index == 0) {
shuffled[0] = value;
} else {
rand = Math.floor(Math.random() * (index + 1));
shuffled[index] = shuffled[rand];
shuffled[rand] = value;
}
});
return shuffled;
};
// Sort the object's values by a criterion produced by an iterator.
_.sortBy = function(obj, iterator, context) {
return _.pluck(_.map(obj, function(value, index, list) {
return {
value : value,
criteria : iterator.call(context, value, index, list)
};
}).sort(function(left, right) {
var a = left.criteria, b = right.criteria;
return a < b ? -1 : a > b ? 1 : 0;
}), 'value');
};
// Groups the object's values by a criterion. Pass either a string attribute
// to group by, or a function that returns the criterion.
_.groupBy = function(obj, val) {
var result = {};
var iterator = _.isFunction(val) ? val : function(obj) { return obj[val]; };
each(obj, function(value, index) {
var key = iterator(value, index);
(result[key] || (result[key] = [])).push(value);
});
return result;
};
// Use a comparator function to figure out at what index an object should
// be inserted so as to maintain order. Uses binary search.
_.sortedIndex = function(array, obj, iterator) {
iterator || (iterator = _.identity);
var low = 0, high = array.length;
while (low < high) {
var mid = (low + high) >> 1;
iterator(array[mid]) < iterator(obj) ? low = mid + 1 : high = mid;
}
return low;
};
// Safely convert anything iterable into a real, live array.
_.toArray = function(iterable) {
if (!iterable) return [];
if (iterable.toArray) return iterable.toArray();
if (_.isArray(iterable)) return slice.call(iterable);
if (_.isArguments(iterable)) return slice.call(iterable);
return _.values(iterable);
};
// Return the number of elements in an object.
_.size = function(obj) {
return _.toArray(obj).length;
};
// Array Functions
// ---------------
// Get the first element of an array. Passing **n** will return the first N
// values in the array. Aliased as `head`. The **guard** check allows it to work
// with `_.map`.
_.first = _.head = function(array, n, guard) {
return (n != null) && !guard ? slice.call(array, 0, n) : array[0];
};
// Returns everything but the last entry of the array. Especcialy useful on
// the arguments object. Passing **n** will return all the values in
// the array, excluding the last N. The **guard** check allows it to work with
// `_.map`.
_.initial = function(array, n, guard) {
return slice.call(array, 0, array.length - ((n == null) || guard ? 1 : n));
};
// Get the last element of an array. Passing **n** will return the last N
// values in the array. The **guard** check allows it to work with `_.map`.
_.last = function(array, n, guard) {
if ((n != null) && !guard) {
return slice.call(array, Math.max(array.length - n, 0));
} else {
return array[array.length - 1];
}
};
// Returns everything but the first entry of the array. Aliased as `tail`.
// Especially useful on the arguments object. Passing an **index** will return
// the rest of the values in the array from that index onward. The **guard**
// check allows it to work with `_.map`.
_.rest = _.tail = function(array, index, guard) {
return slice.call(array, (index == null) || guard ? 1 : index);
};
// Trim out all falsy values from an array.
_.compact = function(array) {
return _.filter(array, function(value){ return !!value; });
};
// Return a completely flattened version of an array.
_.flatten = function(array, shallow) {
return _.reduce(array, function(memo, value) {
if (_.isArray(value)) return memo.concat(shallow ? value : _.flatten(value));
memo[memo.length] = value;
return memo;
}, []);
};
// Return a version of the array that does not contain the specified value(s).
_.without = function(array) {
return _.difference(array, slice.call(arguments, 1));
};
// Produce a duplicate-free version of the array. If the array has already
// been sorted, you have the option of using a faster algorithm.
// Aliased as `unique`.
_.uniq = _.unique = function(array, isSorted, iterator) {
var initial = iterator ? _.map(array, iterator) : array;
var result = [];
_.reduce(initial, function(memo, el, i) {
if (0 == i || (isSorted === true ? _.last(memo) != el : !_.include(memo, el))) {
memo[memo.length] = el;
result[result.length] = array[i];
}
return memo;
}, []);
return result;
};
// Produce an array that contains the union: each distinct element from all of
// the passed-in arrays.
_.union = function() {
return _.uniq(_.flatten(arguments, true));
};
// Produce an array that contains every item shared between all the
// passed-in arrays. (Aliased as "intersect" for back-compat.)
_.intersection = _.intersect = function(array) {
var rest = slice.call(arguments, 1);
return _.filter(_.uniq(array), function(item) {
return _.every(rest, function(other) {
return _.indexOf(other, item) >= 0;
});
});
};
// Take the difference between one array and a number of other arrays.
// Only the elements present in just the first array will remain.
_.difference = function(array) {
var rest = _.flatten(slice.call(arguments, 1));
return _.filter(array, function(value){ return !_.include(rest, value); });
};
// Zip together multiple lists into a single array -- elements that share
// an index go together.
_.zip = function() {
var args = slice.call(arguments);
var length = _.max(_.pluck(args, 'length'));
var results = new Array(length);
for (var i = 0; i < length; i++) results[i] = _.pluck(args, "" + i);
return results;
};
// If the browser doesn't supply us with indexOf (I'm looking at you, **MSIE**),
// we need this function. Return the position of the first occurrence of an
// item in an array, or -1 if the item is not included in the array.
// Delegates to **ECMAScript 5**'s native `indexOf` if available.
// If the array is large and already in sort order, pass `true`
// for **isSorted** to use binary search.
_.indexOf = function(array, item, isSorted) {
if (array == null) return -1;
var i, l;
if (isSorted) {
i = _.sortedIndex(array, item);
return array[i] === item ? i : -1;
}
if (nativeIndexOf && array.indexOf === nativeIndexOf) return array.indexOf(item);
for (i = 0, l = array.length; i < l; i++) if (i in array && array[i] === item) return i;
return -1;
};
// Delegates to **ECMAScript 5**'s native `lastIndexOf` if available.
_.lastIndexOf = function(array, item) {
if (array == null) return -1;
if (nativeLastIndexOf && array.lastIndexOf === nativeLastIndexOf) return array.lastIndexOf(item);
var i = array.length;
while (i--) if (i in array && array[i] === item) return i;
return -1;
};
// Generate an integer Array containing an arithmetic progression. A port of
// the native Python `range()` function. See
// [the Python documentation](http://docs.python.org/library/functions.html#range).
_.range = function(start, stop, step) {
if (arguments.length <= 1) {
stop = start || 0;
start = 0;
}
step = arguments[2] || 1;
var len = Math.max(Math.ceil((stop - start) / step), 0);
var idx = 0;
var range = new Array(len);
while(idx < len) {
range[idx++] = start;
start += step;
}
return range;
};
// Function (ahem) Functions
// ------------------
// Reusable constructor function for prototype setting.
var ctor = function(){};
// Create a function bound to a given object (assigning `this`, and arguments,
// optionally). Binding with arguments is also known as `curry`.
// Delegates to **ECMAScript 5**'s native `Function.bind` if available.
// We check for `func.bind` first, to fail fast when `func` is undefined.
_.bind = function bind(func, context) {
var bound, args;
if (func.bind === nativeBind && nativeBind) return nativeBind.apply(func, slice.call(arguments, 1));
if (!_.isFunction(func)) throw new TypeError;
args = slice.call(arguments, 2);
return bound = function() {
if (!(this instanceof bound)) return func.apply(context, args.concat(slice.call(arguments)));
ctor.prototype = func.prototype;
var self = new ctor;
var result = func.apply(self, args.concat(slice.call(arguments)));
if (Object(result) === result) return result;
return self;
};
};
// Bind all of an object's methods to that object. Useful for ensuring that
// all callbacks defined on an object belong to it.
_.bindAll = function(obj) {
var funcs = slice.call(arguments, 1);
if (funcs.length == 0) funcs = _.functions(obj);
each(funcs, function(f) { obj[f] = _.bind(obj[f], obj); });
return obj;
};
// Memoize an expensive function by storing its results.
_.memoize = function(func, hasher) {
var memo = {};
hasher || (hasher = _.identity);
return function() {
var key = hasher.apply(this, arguments);
return _.has(memo, key) ? memo[key] : (memo[key] = func.apply(this, arguments));
};
};
// Delays a function for the given number of milliseconds, and then calls
// it with the arguments supplied.
_.delay = function(func, wait) {
var args = slice.call(arguments, 2);
return setTimeout(function(){ return func.apply(func, args); }, wait);
};
// Defers a function, scheduling it to run after the current call stack has
// cleared.
_.defer = function(func) {
return _.delay.apply(_, [func, 1].concat(slice.call(arguments, 1)));
};
// Returns a function, that, when invoked, will only be triggered at most once
// during a given window of time.
_.throttle = function(func, wait) {
var context, args, timeout, throttling, more;
var whenDone = _.debounce(function(){ more = throttling = false; }, wait);
return function() {
context = this; args = arguments;
var later = function() {
timeout = null;
if (more) func.apply(context, args);
whenDone();
};
if (!timeout) timeout = setTimeout(later, wait);
if (throttling) {
more = true;
} else {
func.apply(context, args);
}
whenDone();
throttling = true;
};
};
// Returns a function, that, as long as it continues to be invoked, will not
// be triggered. The function will be called after it stops being called for
// N milliseconds.
_.debounce = function(func, wait) {
var timeout;
return function() {
var context = this, args = arguments;
var later = function() {
timeout = null;
func.apply(context, args);
};
clearTimeout(timeout);
timeout = setTimeout(later, wait);
};
};
// Returns a function that will be executed at most one time, no matter how
// often you call it. Useful for lazy initialization.
_.once = function(func) {
var ran = false, memo;
return function() {
if (ran) return memo;
ran = true;
return memo = func.apply(this, arguments);
};
};
// Returns the first function passed as an argument to the second,
// allowing you to adjust arguments, run code before and after, and
// conditionally execute the original function.
_.wrap = function(func, wrapper) {
return function() {
var args = [func].concat(slice.call(arguments, 0));
return wrapper.apply(this, args);
};
};
// Returns a function that is the composition of a list of functions, each
// consuming the return value of the function that follows.
_.compose = function() {
var funcs = arguments;
return function() {
var args = arguments;
for (var i = funcs.length - 1; i >= 0; i--) {
args = [funcs[i].apply(this, args)];
}
return args[0];
};
};
// Returns a function that will only be executed after being called N times.
_.after = function(times, func) {
if (times <= 0) return func();
return function() {
if (--times < 1) { return func.apply(this, arguments); }
};
};
// Object Functions
// ----------------
// Retrieve the names of an object's properties.
// Delegates to **ECMAScript 5**'s native `Object.keys`
_.keys = nativeKeys || function(obj) {
if (obj !== Object(obj)) throw new TypeError('Invalid object');
var keys = [];
for (var key in obj) if (_.has(obj, key)) keys[keys.length] = key;
return keys;
};
// Retrieve the values of an object's properties.
_.values = function(obj) {
return _.map(obj, _.identity);
};
// Return a sorted list of the function names available on the object.
// Aliased as `methods`
_.functions = _.methods = function(obj) {
var names = [];
for (var key in obj) {
if (_.isFunction(obj[key])) names.push(key);
}
return names.sort();
};
// Extend a given object with all the properties in passed-in object(s).
_.extend = function(obj) {
each(slice.call(arguments, 1), function(source) {
for (var prop in source) {
obj[prop] = source[prop];
}
});
return obj;
};
// Fill in a given object with default properties.
_.defaults = function(obj) {
each(slice.call(arguments, 1), function(source) {
for (var prop in source) {
if (obj[prop] == null) obj[prop] = source[prop];
}
});
return obj;
};
// Create a (shallow-cloned) duplicate of an object.
_.clone = function(obj) {
if (!_.isObject(obj)) return obj;
return _.isArray(obj) ? obj.slice() : _.extend({}, obj);
};
// Invokes interceptor with the obj, and then returns obj.
// The primary purpose of this method is to "tap into" a method chain, in
// order to perform operations on intermediate results within the chain.
_.tap = function(obj, interceptor) {
interceptor(obj);
return obj;
};
// Internal recursive comparison function.
function eq(a, b, stack) {
// Identical objects are equal. `0 === -0`, but they aren't identical.
// See the Harmony `egal` proposal: http://wiki.ecmascript.org/doku.php?id=harmony:egal.
if (a === b) return a !== 0 || 1 / a == 1 / b;
// A strict comparison is necessary because `null == undefined`.
if (a == null || b == null) return a === b;
// Unwrap any wrapped objects.
if (a._chain) a = a._wrapped;
if (b._chain) b = b._wrapped;
// Invoke a custom `isEqual` method if one is provided.
if (a.isEqual && _.isFunction(a.isEqual)) return a.isEqual(b);
if (b.isEqual && _.isFunction(b.isEqual)) return b.isEqual(a);
// Compare `[[Class]]` names.
var className = toString.call(a);
if (className != toString.call(b)) return false;
switch (className) {
// Strings, numbers, dates, and booleans are compared by value.
case '[object String]':
// Primitives and their corresponding object wrappers are equivalent; thus, `"5"` is
// equivalent to `new String("5")`.
return a == String(b);
case '[object Number]':
// `NaN`s are equivalent, but non-reflexive. An `egal` comparison is performed for
// other numeric values.
return a != +a ? b != +b : (a == 0 ? 1 / a == 1 / b : a == +b);
case '[object Date]':
case '[object Boolean]':
// Coerce dates and booleans to numeric primitive values. Dates are compared by their
// millisecond representations. Note that invalid dates with millisecond representations
// of `NaN` are not equivalent.
return +a == +b;
// RegExps are compared by their source patterns and flags.
case '[object RegExp]':
return a.source == b.source &&
a.global == b.global &&
a.multiline == b.multiline &&
a.ignoreCase == b.ignoreCase;
}
if (typeof a != 'object' || typeof b != 'object') return false;
// Assume equality for cyclic structures. The algorithm for detecting cyclic
// structures is adapted from ES 5.1 section 15.12.3, abstract operation `JO`.
var length = stack.length;
while (length--) {
// Linear search. Performance is inversely proportional to the number of
// unique nested structures.
if (stack[length] == a) return true;
}
// Add the first object to the stack of traversed objects.
stack.push(a);
var size = 0, result = true;
// Recursively compare objects and arrays.
if (className == '[object Array]') {
// Compare array lengths to determine if a deep comparison is necessary.
size = a.length;
result = size == b.length;
if (result) {
// Deep compare the contents, ignoring non-numeric properties.
while (size--) {
// Ensure commutative equality for sparse arrays.
if (!(result = size in a == size in b && eq(a[size], b[size], stack))) break;
}
}
} else {
// Objects with different constructors are not equivalent.
if ('constructor' in a != 'constructor' in b || a.constructor != b.constructor) return false;
// Deep compare objects.
for (var key in a) {
if (_.has(a, key)) {
// Count the expected number of properties.
size++;
// Deep compare each member.
if (!(result = _.has(b, key) && eq(a[key], b[key], stack))) break;
}
}
// Ensure that both objects contain the same number of properties.
if (result) {
for (key in b) {
if (_.has(b, key) && !(size--)) break;
}
result = !size;
}
}
// Remove the first object from the stack of traversed objects.
stack.pop();
return result;
}
// Perform a deep comparison to check if two objects are equal.
_.isEqual = function(a, b) {
return eq(a, b, []);
};
// Is a given array, string, or object empty?
// An "empty" object has no enumerable own-properties.
_.isEmpty = function(obj) {
if (_.isArray(obj) || _.isString(obj)) return obj.length === 0;
for (var key in obj) if (_.has(obj, key)) return false;
return true;
};
// Is a given value a DOM element?
_.isElement = function(obj) {
return !!(obj && obj.nodeType == 1);
};
// Is a given value an array?
// Delegates to ECMA5's native Array.isArray
_.isArray = nativeIsArray || function(obj) {
return toString.call(obj) == '[object Array]';
};
// Is a given variable an object?
_.isObject = function(obj) {
return obj === Object(obj);
};
// Is a given variable an arguments object?
_.isArguments = function(obj) {
return toString.call(obj) == '[object Arguments]';
};
if (!_.isArguments(arguments)) {
_.isArguments = function(obj) {
return !!(obj && _.has(obj, 'callee'));
};
}
// Is a given value a function?
_.isFunction = function(obj) {
return toString.call(obj) == '[object Function]';
};
// Is a given value a string?
_.isString = function(obj) {
return toString.call(obj) == '[object String]';
};
// Is a given value a number?
_.isNumber = function(obj) {
return toString.call(obj) == '[object Number]';
};
// Is the given value `NaN`?
_.isNaN = function(obj) {
// `NaN` is the only value for which `===` is not reflexive.
return obj !== obj;
};
// Is a given value a boolean?
_.isBoolean = function(obj) {
return obj === true || obj === false || toString.call(obj) == '[object Boolean]';
};
// Is a given value a date?
_.isDate = function(obj) {
return toString.call(obj) == '[object Date]';
};
// Is the given value a regular expression?
_.isRegExp = function(obj) {
return toString.call(obj) == '[object RegExp]';
};
// Is a given value equal to null?
_.isNull = function(obj) {
return obj === null;
};
// Is a given variable undefined?
_.isUndefined = function(obj) {
return obj === void 0;
};
// Has own property?
_.has = function(obj, key) {
return hasOwnProperty.call(obj, key);
};
// Utility Functions
// -----------------
// Run Underscore.js in *noConflict* mode, returning the `_` variable to its
// previous owner. Returns a reference to the Underscore object.
_.noConflict = function() {
root._ = previousUnderscore;
return this;
};
// Keep the identity function around for default iterators.
_.identity = function(value) {
return value;
};
// Run a function **n** times.
_.times = function (n, iterator, context) {
for (var i = 0; i < n; i++) iterator.call(context, i);
};
// Escape a string for HTML interpolation.
_.escape = function(string) {
return (''+string).replace(/&/g, '&amp;').replace(/</g, '&lt;').replace(/>/g, '&gt;').replace(/"/g, '&quot;').replace(/'/g, '&#x27;').replace(/\//g,'&#x2F;');
};
// Add your own custom functions to the Underscore object, ensuring that
// they're correctly added to the OOP wrapper as well.
_.mixin = function(obj) {
each(_.functions(obj), function(name){
addToWrapper(name, _[name] = obj[name]);
});
};
// Generate a unique integer id (unique within the entire client session).
// Useful for temporary DOM ids.
var idCounter = 0;
_.uniqueId = function(prefix) {
var id = idCounter++;
return prefix ? prefix + id : id;
};
// By default, Underscore uses ERB-style template delimiters, change the
// following template settings to use alternative delimiters.
_.templateSettings = {
evaluate : /<%([\s\S]+?)%>/g,
interpolate : /<%=([\s\S]+?)%>/g,
escape : /<%-([\s\S]+?)%>/g
};
// When customizing `templateSettings`, if you don't want to define an
// interpolation, evaluation or escaping regex, we need one that is
// guaranteed not to match.
var noMatch = /.^/;
// Within an interpolation, evaluation, or escaping, remove HTML escaping
// that had been previously added.
var unescape = function(code) {
return code.replace(/\\\\/g, '\\').replace(/\\'/g, "'");
};
// JavaScript micro-templating, similar to John Resig's implementation.
// Underscore templating handles arbitrary delimiters, preserves whitespace,
// and correctly escapes quotes within interpolated code.
_.template = function(str, data) {
var c = _.templateSettings;
var tmpl = 'var __p=[],print=function(){__p.push.apply(__p,arguments);};' +
'with(obj||{}){__p.push(\'' +
str.replace(/\\/g, '\\\\')
.replace(/'/g, "\\'")
.replace(c.escape || noMatch, function(match, code) {
return "',_.escape(" + unescape(code) + "),'";
})
.replace(c.interpolate || noMatch, function(match, code) {
return "'," + unescape(code) + ",'";
})
.replace(c.evaluate || noMatch, function(match, code) {
return "');" + unescape(code).replace(/[\r\n\t]/g, ' ') + ";__p.push('";
})
.replace(/\r/g, '\\r')
.replace(/\n/g, '\\n')
.replace(/\t/g, '\\t')
+ "');}return __p.join('');";
var func = new Function('obj', '_', tmpl);
if (data) return func(data, _);
return function(data) {
return func.call(this, data, _);
};
};
// Add a "chain" function, which will delegate to the wrapper.
_.chain = function(obj) {
return _(obj).chain();
};
// The OOP Wrapper
// ---------------
// If Underscore is called as a function, it returns a wrapped object that
// can be used OO-style. This wrapper holds altered versions of all the
// underscore functions. Wrapped objects may be chained.
var wrapper = function(obj) { this._wrapped = obj; };
// Expose `wrapper.prototype` as `_.prototype`
_.prototype = wrapper.prototype;
// Helper function to continue chaining intermediate results.
var result = function(obj, chain) {
return chain ? _(obj).chain() : obj;
};
// A method to easily add functions to the OOP wrapper.
var addToWrapper = function(name, func) {
wrapper.prototype[name] = function() {
var args = slice.call(arguments);
unshift.call(args, this._wrapped);
return result(func.apply(_, args), this._chain);
};
};
// Add all of the Underscore functions to the wrapper object.
_.mixin(_);
// Add all mutator Array functions to the wrapper.
each(['pop', 'push', 'reverse', 'shift', 'sort', 'splice', 'unshift'], function(name) {
var method = ArrayProto[name];
wrapper.prototype[name] = function() {
var wrapped = this._wrapped;
method.apply(wrapped, arguments);
var length = wrapped.length;
if ((name == 'shift' || name == 'splice') && length === 0) delete wrapped[0];
return result(wrapped, this._chain);
};
});
// Add all accessor Array functions to the wrapper.
each(['concat', 'join', 'slice'], function(name) {
var method = ArrayProto[name];
wrapper.prototype[name] = function() {
return result(method.apply(this._wrapped, arguments), this._chain);
};
});
// Start chaining a wrapped Underscore object.
wrapper.prototype.chain = function() {
this._chain = true;
return this;
};
// Extracts the result from a wrapped and chained object.
wrapper.prototype.value = function() {
return this._wrapped;
};
}).call(this);

31
docs/_build/html/_static/underscore.js vendored
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@@ -1,31 +0,0 @@
// Underscore.js 1.3.1
// (c) 2009-2012 Jeremy Ashkenas, DocumentCloud Inc.
// Underscore is freely distributable under the MIT license.
// Portions of Underscore are inspired or borrowed from Prototype,
// Oliver Steele's Functional, and John Resig's Micro-Templating.
// For all details and documentation:
// http://documentcloud.github.com/underscore
(function(){function q(a,c,d){if(a===c)return a!==0||1/a==1/c;if(a==null||c==null)return a===c;if(a._chain)a=a._wrapped;if(c._chain)c=c._wrapped;if(a.isEqual&&b.isFunction(a.isEqual))return a.isEqual(c);if(c.isEqual&&b.isFunction(c.isEqual))return c.isEqual(a);var e=l.call(a);if(e!=l.call(c))return false;switch(e){case "[object String]":return a==String(c);case "[object Number]":return a!=+a?c!=+c:a==0?1/a==1/c:a==+c;case "[object Date]":case "[object Boolean]":return+a==+c;case "[object RegExp]":return a.source==
c.source&&a.global==c.global&&a.multiline==c.multiline&&a.ignoreCase==c.ignoreCase}if(typeof a!="object"||typeof c!="object")return false;for(var f=d.length;f--;)if(d[f]==a)return true;d.push(a);var f=0,g=true;if(e=="[object Array]"){if(f=a.length,g=f==c.length)for(;f--;)if(!(g=f in a==f in c&&q(a[f],c[f],d)))break}else{if("constructor"in a!="constructor"in c||a.constructor!=c.constructor)return false;for(var h in a)if(b.has(a,h)&&(f++,!(g=b.has(c,h)&&q(a[h],c[h],d))))break;if(g){for(h in c)if(b.has(c,
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/*
* websupport.js
* ~~~~~~~~~~~~~
*
* sphinx.websupport utilities for all documentation.
*
* :copyright: Copyright 2007-2017 by the Sphinx team, see AUTHORS.
* :license: BSD, see LICENSE for details.
*
*/
(function($) {
$.fn.autogrow = function() {
return this.each(function() {
var textarea = this;
$.fn.autogrow.resize(textarea);
$(textarea)
.focus(function() {
textarea.interval = setInterval(function() {
$.fn.autogrow.resize(textarea);
}, 500);
})
.blur(function() {
clearInterval(textarea.interval);
});
});
};
$.fn.autogrow.resize = function(textarea) {
var lineHeight = parseInt($(textarea).css('line-height'), 10);
var lines = textarea.value.split('\n');
var columns = textarea.cols;
var lineCount = 0;
$.each(lines, function() {
lineCount += Math.ceil(this.length / columns) || 1;
});
var height = lineHeight * (lineCount + 1);
$(textarea).css('height', height);
};
})(jQuery);
(function($) {
var comp, by;
function init() {
initEvents();
initComparator();
}
function initEvents() {
$(document).on("click", 'a.comment-close', function(event) {
event.preventDefault();
hide($(this).attr('id').substring(2));
});
$(document).on("click", 'a.vote', function(event) {
event.preventDefault();
handleVote($(this));
});
$(document).on("click", 'a.reply', function(event) {
event.preventDefault();
openReply($(this).attr('id').substring(2));
});
$(document).on("click", 'a.close-reply', function(event) {
event.preventDefault();
closeReply($(this).attr('id').substring(2));
});
$(document).on("click", 'a.sort-option', function(event) {
event.preventDefault();
handleReSort($(this));
});
$(document).on("click", 'a.show-proposal', function(event) {
event.preventDefault();
showProposal($(this).attr('id').substring(2));
});
$(document).on("click", 'a.hide-proposal', function(event) {
event.preventDefault();
hideProposal($(this).attr('id').substring(2));
});
$(document).on("click", 'a.show-propose-change', function(event) {
event.preventDefault();
showProposeChange($(this).attr('id').substring(2));
});
$(document).on("click", 'a.hide-propose-change', function(event) {
event.preventDefault();
hideProposeChange($(this).attr('id').substring(2));
});
$(document).on("click", 'a.accept-comment', function(event) {
event.preventDefault();
acceptComment($(this).attr('id').substring(2));
});
$(document).on("click", 'a.delete-comment', function(event) {
event.preventDefault();
deleteComment($(this).attr('id').substring(2));
});
$(document).on("click", 'a.comment-markup', function(event) {
event.preventDefault();
toggleCommentMarkupBox($(this).attr('id').substring(2));
});
}
/**
* Set comp, which is a comparator function used for sorting and
* inserting comments into the list.
*/
function setComparator() {
// If the first three letters are "asc", sort in ascending order
// and remove the prefix.
if (by.substring(0,3) == 'asc') {
var i = by.substring(3);
comp = function(a, b) { return a[i] - b[i]; };
} else {
// Otherwise sort in descending order.
comp = function(a, b) { return b[by] - a[by]; };
}
// Reset link styles and format the selected sort option.
$('a.sel').attr('href', '#').removeClass('sel');
$('a.by' + by).removeAttr('href').addClass('sel');
}
/**
* Create a comp function. If the user has preferences stored in
* the sortBy cookie, use those, otherwise use the default.
*/
function initComparator() {
by = 'rating'; // Default to sort by rating.
// If the sortBy cookie is set, use that instead.
if (document.cookie.length > 0) {
var start = document.cookie.indexOf('sortBy=');
if (start != -1) {
start = start + 7;
var end = document.cookie.indexOf(";", start);
if (end == -1) {
end = document.cookie.length;
by = unescape(document.cookie.substring(start, end));
}
}
}
setComparator();
}
/**
* Show a comment div.
*/
function show(id) {
$('#ao' + id).hide();
$('#ah' + id).show();
var context = $.extend({id: id}, opts);
var popup = $(renderTemplate(popupTemplate, context)).hide();
popup.find('textarea[name="proposal"]').hide();
popup.find('a.by' + by).addClass('sel');
var form = popup.find('#cf' + id);
form.submit(function(event) {
event.preventDefault();
addComment(form);
});
$('#s' + id).after(popup);
popup.slideDown('fast', function() {
getComments(id);
});
}
/**
* Hide a comment div.
*/
function hide(id) {
$('#ah' + id).hide();
$('#ao' + id).show();
var div = $('#sc' + id);
div.slideUp('fast', function() {
div.remove();
});
}
/**
* Perform an ajax request to get comments for a node
* and insert the comments into the comments tree.
*/
function getComments(id) {
$.ajax({
type: 'GET',
url: opts.getCommentsURL,
data: {node: id},
success: function(data, textStatus, request) {
var ul = $('#cl' + id);
var speed = 100;
$('#cf' + id)
.find('textarea[name="proposal"]')
.data('source', data.source);
if (data.comments.length === 0) {
ul.html('<li>No comments yet.</li>');
ul.data('empty', true);
} else {
// If there are comments, sort them and put them in the list.
var comments = sortComments(data.comments);
speed = data.comments.length * 100;
appendComments(comments, ul);
ul.data('empty', false);
}
$('#cn' + id).slideUp(speed + 200);
ul.slideDown(speed);
},
error: function(request, textStatus, error) {
showError('Oops, there was a problem retrieving the comments.');
},
dataType: 'json'
});
}
/**
* Add a comment via ajax and insert the comment into the comment tree.
*/
function addComment(form) {
var node_id = form.find('input[name="node"]').val();
var parent_id = form.find('input[name="parent"]').val();
var text = form.find('textarea[name="comment"]').val();
var proposal = form.find('textarea[name="proposal"]').val();
if (text == '') {
showError('Please enter a comment.');
return;
}
// Disable the form that is being submitted.
form.find('textarea,input').attr('disabled', 'disabled');
// Send the comment to the server.
$.ajax({
type: "POST",
url: opts.addCommentURL,
dataType: 'json',
data: {
node: node_id,
parent: parent_id,
text: text,
proposal: proposal
},
success: function(data, textStatus, error) {
// Reset the form.
if (node_id) {
hideProposeChange(node_id);
}
form.find('textarea')
.val('')
.add(form.find('input'))
.removeAttr('disabled');
var ul = $('#cl' + (node_id || parent_id));
if (ul.data('empty')) {
$(ul).empty();
ul.data('empty', false);
}
insertComment(data.comment);
var ao = $('#ao' + node_id);
ao.find('img').attr({'src': opts.commentBrightImage});
if (node_id) {
// if this was a "root" comment, remove the commenting box
// (the user can get it back by reopening the comment popup)
$('#ca' + node_id).slideUp();
}
},
error: function(request, textStatus, error) {
form.find('textarea,input').removeAttr('disabled');
showError('Oops, there was a problem adding the comment.');
}
});
}
/**
* Recursively append comments to the main comment list and children
* lists, creating the comment tree.
*/
function appendComments(comments, ul) {
$.each(comments, function() {
var div = createCommentDiv(this);
ul.append($(document.createElement('li')).html(div));
appendComments(this.children, div.find('ul.comment-children'));
// To avoid stagnating data, don't store the comments children in data.
this.children = null;
div.data('comment', this);
});
}
/**
* After adding a new comment, it must be inserted in the correct
* location in the comment tree.
*/
function insertComment(comment) {
var div = createCommentDiv(comment);
// To avoid stagnating data, don't store the comments children in data.
comment.children = null;
div.data('comment', comment);
var ul = $('#cl' + (comment.node || comment.parent));
var siblings = getChildren(ul);
var li = $(document.createElement('li'));
li.hide();
// Determine where in the parents children list to insert this comment.
for(i=0; i < siblings.length; i++) {
if (comp(comment, siblings[i]) <= 0) {
$('#cd' + siblings[i].id)
.parent()
.before(li.html(div));
li.slideDown('fast');
return;
}
}
// If we get here, this comment rates lower than all the others,
// or it is the only comment in the list.
ul.append(li.html(div));
li.slideDown('fast');
}
function acceptComment(id) {
$.ajax({
type: 'POST',
url: opts.acceptCommentURL,
data: {id: id},
success: function(data, textStatus, request) {
$('#cm' + id).fadeOut('fast');
$('#cd' + id).removeClass('moderate');
},
error: function(request, textStatus, error) {
showError('Oops, there was a problem accepting the comment.');
}
});
}
function deleteComment(id) {
$.ajax({
type: 'POST',
url: opts.deleteCommentURL,
data: {id: id},
success: function(data, textStatus, request) {
var div = $('#cd' + id);
if (data == 'delete') {
// Moderator mode: remove the comment and all children immediately
div.slideUp('fast', function() {
div.remove();
});
return;
}
// User mode: only mark the comment as deleted
div
.find('span.user-id:first')
.text('[deleted]').end()
.find('div.comment-text:first')
.text('[deleted]').end()
.find('#cm' + id + ', #dc' + id + ', #ac' + id + ', #rc' + id +
', #sp' + id + ', #hp' + id + ', #cr' + id + ', #rl' + id)
.remove();
var comment = div.data('comment');
comment.username = '[deleted]';
comment.text = '[deleted]';
div.data('comment', comment);
},
error: function(request, textStatus, error) {
showError('Oops, there was a problem deleting the comment.');
}
});
}
function showProposal(id) {
$('#sp' + id).hide();
$('#hp' + id).show();
$('#pr' + id).slideDown('fast');
}
function hideProposal(id) {
$('#hp' + id).hide();
$('#sp' + id).show();
$('#pr' + id).slideUp('fast');
}
function showProposeChange(id) {
$('#pc' + id).hide();
$('#hc' + id).show();
var textarea = $('#pt' + id);
textarea.val(textarea.data('source'));
$.fn.autogrow.resize(textarea[0]);
textarea.slideDown('fast');
}
function hideProposeChange(id) {
$('#hc' + id).hide();
$('#pc' + id).show();
var textarea = $('#pt' + id);
textarea.val('').removeAttr('disabled');
textarea.slideUp('fast');
}
function toggleCommentMarkupBox(id) {
$('#mb' + id).toggle();
}
/** Handle when the user clicks on a sort by link. */
function handleReSort(link) {
var classes = link.attr('class').split(/\s+/);
for (var i=0; i<classes.length; i++) {
if (classes[i] != 'sort-option') {
by = classes[i].substring(2);
}
}
setComparator();
// Save/update the sortBy cookie.
var expiration = new Date();
expiration.setDate(expiration.getDate() + 365);
document.cookie= 'sortBy=' + escape(by) +
';expires=' + expiration.toUTCString();
$('ul.comment-ul').each(function(index, ul) {
var comments = getChildren($(ul), true);
comments = sortComments(comments);
appendComments(comments, $(ul).empty());
});
}
/**
* Function to process a vote when a user clicks an arrow.
*/
function handleVote(link) {
if (!opts.voting) {
showError("You'll need to login to vote.");
return;
}
var id = link.attr('id');
if (!id) {
// Didn't click on one of the voting arrows.
return;
}
// If it is an unvote, the new vote value is 0,
// Otherwise it's 1 for an upvote, or -1 for a downvote.
var value = 0;
if (id.charAt(1) != 'u') {
value = id.charAt(0) == 'u' ? 1 : -1;
}
// The data to be sent to the server.
var d = {
comment_id: id.substring(2),
value: value
};
// Swap the vote and unvote links.
link.hide();
$('#' + id.charAt(0) + (id.charAt(1) == 'u' ? 'v' : 'u') + d.comment_id)
.show();
// The div the comment is displayed in.
var div = $('div#cd' + d.comment_id);
var data = div.data('comment');
// If this is not an unvote, and the other vote arrow has
// already been pressed, unpress it.
if ((d.value !== 0) && (data.vote === d.value * -1)) {
$('#' + (d.value == 1 ? 'd' : 'u') + 'u' + d.comment_id).hide();
$('#' + (d.value == 1 ? 'd' : 'u') + 'v' + d.comment_id).show();
}
// Update the comments rating in the local data.
data.rating += (data.vote === 0) ? d.value : (d.value - data.vote);
data.vote = d.value;
div.data('comment', data);
// Change the rating text.
div.find('.rating:first')
.text(data.rating + ' point' + (data.rating == 1 ? '' : 's'));
// Send the vote information to the server.
$.ajax({
type: "POST",
url: opts.processVoteURL,
data: d,
error: function(request, textStatus, error) {
showError('Oops, there was a problem casting that vote.');
}
});
}
/**
* Open a reply form used to reply to an existing comment.
*/
function openReply(id) {
// Swap out the reply link for the hide link
$('#rl' + id).hide();
$('#cr' + id).show();
// Add the reply li to the children ul.
var div = $(renderTemplate(replyTemplate, {id: id})).hide();
$('#cl' + id)
.prepend(div)
// Setup the submit handler for the reply form.
.find('#rf' + id)
.submit(function(event) {
event.preventDefault();
addComment($('#rf' + id));
closeReply(id);
})
.find('input[type=button]')
.click(function() {
closeReply(id);
});
div.slideDown('fast', function() {
$('#rf' + id).find('textarea').focus();
});
}
/**
* Close the reply form opened with openReply.
*/
function closeReply(id) {
// Remove the reply div from the DOM.
$('#rd' + id).slideUp('fast', function() {
$(this).remove();
});
// Swap out the hide link for the reply link
$('#cr' + id).hide();
$('#rl' + id).show();
}
/**
* Recursively sort a tree of comments using the comp comparator.
*/
function sortComments(comments) {
comments.sort(comp);
$.each(comments, function() {
this.children = sortComments(this.children);
});
return comments;
}
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*/
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var children = [];
ul.children().children("[id^='cd']")
.each(function() {
var comment = $(this).data('comment');
if (recursive)
comment.children = getChildren($(this).find('#cl' + comment.id), true);
children.push(comment);
});
return children;
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function createCommentDiv(comment) {
if (!comment.displayed && !opts.moderator) {
return $('<div class="moderate">Thank you! Your comment will show up '
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// Make a class (for displaying not yet moderated comments differently)
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var context = $.extend({}, opts, comment);
var div = $(renderTemplate(commentTemplate, context));
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if (comment.vote) {
var direction = (comment.vote == 1) ? 'u' : 'd';
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div.find('#' + direction + 'u' + comment.id).show();
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if (opts.moderator && !comment.displayed)
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function handle(ph, escape) {
var cur = context;
$.each(ph.split('.'), function() {
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return escape ? esc.text(cur || "").html() : cur;
}
return template.replace(/<([%#])([\w\.]*)\1>/g, function() {
return handle(arguments[2], arguments[1] == '%' ? true : false);
});
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/** Flash an error message briefly. */
function showError(message) {
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$.fn.comment = function() {
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$(this)
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$(document.createElement('a')).attr({
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src: image,
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title: title
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)
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$(document.createElement('a')).attr({
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var opts = {
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upArrowPressed: '/static/_static/up-pressed.png',
downArrowPressed: '/static/_static/down-pressed.png',
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moderator: false
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<div class="comment-header">Comments</div>\
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<ul id="cl<%id%>" class="comment-ul"></ul>\
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<div class="comment-markup-box" id="mb<%id%>">\
reStructured text markup: <i>*emph*</i>, <b>**strong**</b>, \
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<div class="vote">\
<div class="arrow">\
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<img src="<%upArrow%>" />\
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<a href="#" id="uu<%id%>" class="un vote" title="vote up">\
<img src="<%upArrowPressed%>" />\
</a>\
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<div class="arrow">\
<a href="#" id="dv<%id%>" class="vote" title="vote down">\
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<a href="#" id="du<%id%>" class="un vote" title="vote down">\
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<div class="comment-content">\
<p class="tagline comment">\
<span class="user-id"><%username%></span>\
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<span class="delta"><%time.delta%></span>\
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<a href="#" id="hp<%id%>" class="hide-proposal">proposal &#9663;</a>\
<a href="#" id="dc<%id%>" class="delete-comment hidden">delete</a>\
<span id="cm<%id%>" class="moderation hidden">\
<a href="#" id="ac<%id%>" class="accept-comment">accept</a>\
</span>\
</p>\
<pre class="proposal" id="pr<%id%>">\
<#proposal_diff#>\
</pre>\
<ul class="comment-children" id="cl<%id%>"></ul>\
</div>\
<div class="clearleft"></div>\
</div>\
</div>';
var replyTemplate = '\
<li>\
<div class="reply-div" id="rd<%id%>">\
<form id="rf<%id%>">\
<textarea name="comment" cols="80"></textarea>\
<input type="submit" value="Add reply" />\
<input type="button" value="Cancel" />\
<input type="hidden" name="parent" value="<%id%>" />\
<input type="hidden" name="node" value="" />\
</form>\
</div>\
</li>';
$(document).ready(function() {
init();
});
})(jQuery);
$(document).ready(function() {
// add comment anchors for all paragraphs that are commentable
$('.sphinx-has-comment').comment();
// highlight search words in search results
$("div.context").each(function() {
var params = $.getQueryParameters();
var terms = (params.q) ? params.q[0].split(/\s+/) : [];
var result = $(this);
$.each(terms, function() {
result.highlightText(this.toLowerCase(), 'highlighted');
});
});
// directly open comment window if requested
var anchor = document.location.hash;
if (anchor.substring(0, 9) == '#comment-') {
$('#ao' + anchor.substring(9)).click();
document.location.hash = '#s' + anchor.substring(9);
}
});

94
docs/_build/html/genindex.html vendored
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@@ -1,94 +0,0 @@
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<title>Index &#8212; InfraredRemote 3.0.0 documentation</title>
<link rel="stylesheet" href="_static/alabaster.css" type="text/css" />
<link rel="stylesheet" href="_static/pygments.css" type="text/css" />
<script type="text/javascript">
var DOCUMENTATION_OPTIONS = {
URL_ROOT: './',
VERSION: '3.0.0',
COLLAPSE_INDEX: false,
FILE_SUFFIX: '.html',
HAS_SOURCE: true,
SOURCELINK_SUFFIX: '.txt'
};
</script>
<script type="text/javascript" src="_static/jquery.js"></script>
<script type="text/javascript" src="_static/underscore.js"></script>
<script type="text/javascript" src="_static/doctools.js"></script>
<link rel="index" title="Index" href="#" />
<link rel="search" title="Search" href="search.html" />
<link rel="stylesheet" href="_static/custom.css" type="text/css" />
<meta name="viewport" content="width=device-width, initial-scale=0.9, maximum-scale=0.9" />
</head>
<body role="document">
<div class="document">
<div class="documentwrapper">
<div class="bodywrapper">
<div class="body" role="main">
<h1 id="index">Index</h1>
<div class="genindex-jumpbox">
</div>
</div>
</div>
</div>
<div class="sphinxsidebar" role="navigation" aria-label="main navigation">
<div class="sphinxsidebarwrapper">
<div class="relations">
<h3>Related Topics</h3>
<ul>
<li><a href="index.html">Documentation overview</a><ul>
</ul></li>
</ul>
</div>
<div id="searchbox" style="display: none" role="search">
<h3>Quick search</h3>
<form class="search" action="search.html" method="get">
<div><input type="text" name="q" /></div>
<div><input type="submit" value="Go" /></div>
<input type="hidden" name="check_keywords" value="yes" />
<input type="hidden" name="area" value="default" />
</form>
</div>
<script type="text/javascript">$('#searchbox').show(0);</script>
</div>
</div>
<div class="clearer"></div>
</div>
<div class="footer">
&copy;2017, Rafi Khan, Ken Shirriff.
|
Powered by <a href="http://sphinx-doc.org/">Sphinx 1.5.5</a>
&amp; <a href="https://github.com/bitprophet/alabaster">Alabaster 0.7.10</a>
</div>
</body>
</html>

113
docs/_build/html/index.html vendored
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@@ -1,113 +0,0 @@
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<title>Welcome to InfraredRemotes documentation! &#8212; InfraredRemote 3.0.0 documentation</title>
<link rel="stylesheet" href="_static/alabaster.css" type="text/css" />
<link rel="stylesheet" href="_static/pygments.css" type="text/css" />
<script type="text/javascript">
var DOCUMENTATION_OPTIONS = {
URL_ROOT: './',
VERSION: '3.0.0',
COLLAPSE_INDEX: false,
FILE_SUFFIX: '.html',
HAS_SOURCE: true,
SOURCELINK_SUFFIX: '.txt'
};
</script>
<script type="text/javascript" src="_static/jquery.js"></script>
<script type="text/javascript" src="_static/underscore.js"></script>
<script type="text/javascript" src="_static/doctools.js"></script>
<link rel="index" title="Index" href="genindex.html" />
<link rel="search" title="Search" href="search.html" />
<link rel="stylesheet" href="_static/custom.css" type="text/css" />
<meta name="viewport" content="width=device-width, initial-scale=0.9, maximum-scale=0.9" />
</head>
<body role="document">
<div class="document">
<div class="documentwrapper">
<div class="bodywrapper">
<div class="body" role="main">
<div class="section" id="welcome-to-infraredremote-s-documentation">
<h1>Welcome to InfraredRemote&#8217;s documentation!<a class="headerlink" href="#welcome-to-infraredremote-s-documentation" title="Permalink to this headline"></a></h1>
<div class="toctree-wrapper compound">
</div>
</div>
<div class="section" id="indices-and-tables">
<h1>Indices and tables<a class="headerlink" href="#indices-and-tables" title="Permalink to this headline"></a></h1>
<ul class="simple">
<li><a class="reference internal" href="genindex.html"><span class="std std-ref">Index</span></a></li>
<li><a class="reference internal" href="py-modindex.html"><span class="std std-ref">Module Index</span></a></li>
<li><a class="reference internal" href="search.html"><span class="std std-ref">Search Page</span></a></li>
</ul>
</div>
</div>
</div>
</div>
<div class="sphinxsidebar" role="navigation" aria-label="main navigation">
<div class="sphinxsidebarwrapper">
<h3><a href="#">Table Of Contents</a></h3>
<ul>
<li><a class="reference internal" href="#">Welcome to InfraredRemote&#8217;s documentation!</a></li>
<li><a class="reference internal" href="#indices-and-tables">Indices and tables</a></li>
</ul>
<div class="relations">
<h3>Related Topics</h3>
<ul>
<li><a href="#">Documentation overview</a><ul>
</ul></li>
</ul>
</div>
<div role="note" aria-label="source link">
<h3>This Page</h3>
<ul class="this-page-menu">
<li><a href="_sources/index.rst.txt"
rel="nofollow">Show Source</a></li>
</ul>
</div>
<div id="searchbox" style="display: none" role="search">
<h3>Quick search</h3>
<form class="search" action="search.html" method="get">
<div><input type="text" name="q" /></div>
<div><input type="submit" value="Go" /></div>
<input type="hidden" name="check_keywords" value="yes" />
<input type="hidden" name="area" value="default" />
</form>
</div>
<script type="text/javascript">$('#searchbox').show(0);</script>
</div>
</div>
<div class="clearer"></div>
</div>
<div class="footer">
&copy;2017, Rafi Khan, Ken Shirriff.
|
Powered by <a href="http://sphinx-doc.org/">Sphinx 1.5.5</a>
&amp; <a href="https://github.com/bitprophet/alabaster">Alabaster 0.7.10</a>
|
<a href="_sources/index.rst.txt"
rel="nofollow">Page source</a>
</div>
</body>
</html>

BIN
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docs/_build/html/search.html vendored
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@@ -1,104 +0,0 @@
<!DOCTYPE html PUBLIC "-//W3C//DTD XHTML 1.0 Transitional//EN"
"http://www.w3.org/TR/xhtml1/DTD/xhtml1-transitional.dtd">
<html xmlns="http://www.w3.org/1999/xhtml">
<head>
<meta http-equiv="Content-Type" content="text/html; charset=utf-8" />
<title>Search &#8212; InfraredRemote 3.0.0 documentation</title>
<link rel="stylesheet" href="_static/alabaster.css" type="text/css" />
<link rel="stylesheet" href="_static/pygments.css" type="text/css" />
<script type="text/javascript">
var DOCUMENTATION_OPTIONS = {
URL_ROOT: './',
VERSION: '3.0.0',
COLLAPSE_INDEX: false,
FILE_SUFFIX: '.html',
HAS_SOURCE: true,
SOURCELINK_SUFFIX: '.txt'
};
</script>
<script type="text/javascript" src="_static/jquery.js"></script>
<script type="text/javascript" src="_static/underscore.js"></script>
<script type="text/javascript" src="_static/doctools.js"></script>
<script type="text/javascript" src="_static/searchtools.js"></script>
<link rel="index" title="Index" href="genindex.html" />
<link rel="search" title="Search" href="#" />
<script type="text/javascript">
jQuery(function() { Search.loadIndex("searchindex.js"); });
</script>
<script type="text/javascript" id="searchindexloader"></script>
<link rel="stylesheet" href="_static/custom.css" type="text/css" />
<meta name="viewport" content="width=device-width, initial-scale=0.9, maximum-scale=0.9" />
</head>
<body role="document">
<div class="document">
<div class="documentwrapper">
<div class="bodywrapper">
<div class="body" role="main">
<h1 id="search-documentation">Search</h1>
<div id="fallback" class="admonition warning">
<script type="text/javascript">$('#fallback').hide();</script>
<p>
Please activate JavaScript to enable the search
functionality.
</p>
</div>
<p>
From here you can search these documents. Enter your search
words into the box below and click "search". Note that the search
function will automatically search for all of the words. Pages
containing fewer words won't appear in the result list.
</p>
<form action="" method="get">
<input type="text" name="q" value="" />
<input type="submit" value="search" />
<span id="search-progress" style="padding-left: 10px"></span>
</form>
<div id="search-results">
</div>
</div>
</div>
</div>
<div class="sphinxsidebar" role="navigation" aria-label="main navigation">
<div class="sphinxsidebarwrapper"><div class="relations">
<h3>Related Topics</h3>
<ul>
<li><a href="index.html">Documentation overview</a><ul>
</ul></li>
</ul>
</div>
</div>
</div>
<div class="clearer"></div>
</div>
<div class="footer">
&copy;2017, Rafi Khan, Ken Shirriff.
|
Powered by <a href="http://sphinx-doc.org/">Sphinx 1.5.5</a>
&amp; <a href="https://github.com/bitprophet/alabaster">Alabaster 0.7.10</a>
</div>
</body>
</html>

1
docs/_build/html/searchindex.js vendored
View File

@@ -1 +0,0 @@
Search.setIndex({docnames:["index"],envversion:50,filenames:["index.rst"],objects:{},objnames:{},objtypes:{},terms:{index:0,modul:0,page:0,search:0},titles:["Welcome to InfraredRemote&#8217;s documentation!"],titleterms:{document:0,indic:0,infraredremot:0,tabl:0,welcom:0}})

78
docs/changelog.md
View File

@@ -1,78 +0,0 @@
## 2.3.3 - 2017/03/31
- Added ESP32 IR receive support [PR #427](https://github.com/z3t0/Arduino-IRremote/pull/425)
## 2.2.3 - 2017/03/27
- Fix calculation of pause length in LEGO PF protocol [PR #427](https://github.com/z3t0/Arduino-IRremote/pull/427)
## 2.2.2 - 2017/01/20
- Fixed naming bug [PR #398](https://github.com/z3t0/Arduino-IRremote/pull/398)
## 2.2.1 - 2016/07/27
- Added tests for Lego Power Functions Protocol [PR #336](https://github.com/z3t0/Arduino-IRremote/pull/336)
## 2.2.0 - 2016/06/28
- Added support for ATmega8535
- Added support for ATmega16
- Added support for ATmega32
- Added support for ATmega164
- Added support for ATmega324
- Added support for ATmega644
- Added support for ATmega1284
- Added support for ATmega64
- Added support for ATmega128
[PR](https://github.com/z3t0/Arduino-IRremote/pull/324)
## 2.1.1 - 2016/05/04
- Added Lego Power Functions Protocol [PR #309](https://github.com/z3t0/Arduino-IRremote/pull/309)
## 2.1.0 - 2016/02/20
- Improved Debugging [PR #258](https://github.com/z3t0/Arduino-IRremote/pull/258)
- Display TIME instead of TICKS [PR #258](https://github.com/z3t0/Arduino-IRremote/pull/258)
## 2.0.4 - 2016/02/20
- Add Panasonic and JVC to IRrecord example [PR](https://github.com/z3t0/Arduino-IRremote/pull/54)
## 2.0.3 - 2016/02/20
- Change IRSend Raw parameter to const [PR](https://github.com/z3t0/Arduino-IRremote/pull/227)
## 2.0.2 - 2015/12/02
- Added IRremoteInfo Sketch - [PR](https://github.com/z3t0/Arduino-IRremote/pull/241)
- Enforcing changelog.md
## 2.0.1 - 2015/07/26 - [Release](https://github.com/shirriff/Arduino-IRremote/releases/tag/BETA)
### Changes
- Updated README
- Updated Contributors
- Fixed #110 Mess
- Created Gitter Room
- Added Gitter Badge
- Standardised Code Base
- Clean Debug Output
- Optimized Send Loops
- Modularized Design
- Optimized and Updated Examples
- Improved Documentation
- Fixed and Improved many coding errors
- Fixed Aiwa RC-T501 Decoding
- Fixed Interrupt on ATmega8
- Switched to Stable Release of @PlatformIO
### Additions
- Added Aiwa RC-T501 Protocol
- Added Denon Protocol
- Added Pronto Support
- Added Library Properties
- Added Template For New Protocols
- Added this changelog
- Added Teensy LC Support
- Added ATtiny84 Support
- Added ATtiny85 Support
- Added isIdle method
### Deletions
- Removed (Fixed) #110
- Broke Teensy 3 / 3.1 Support
### Not Working
- Teensy 3 / 3.1 Support is in Development

156
docs/conf.py
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@@ -1,156 +0,0 @@
# -*- coding: utf-8 -*-
#
# InfraredRemote documentation build configuration file, created by
# sphinx-quickstart on Sun Apr 23 00:46:32 2017.
#
# This file is execfile()d with the current directory set to its
# containing dir.
#
# Note that not all possible configuration values are present in this
# autogenerated file.
#
# All configuration values have a default; values that are commented out
# serve to show the default.
# If extensions (or modules to document with autodoc) are in another directory,
# add these directories to sys.path here. If the directory is relative to the
# documentation root, use os.path.abspath to make it absolute, like shown here.
#
# import os
# import sys
# sys.path.insert(0, os.path.abspath('.'))
# -- General configuration ------------------------------------------------
# If your documentation needs a minimal Sphinx version, state it here.
#
# needs_sphinx = '1.0'
# Add any Sphinx extension module names here, as strings. They can be
# extensions coming with Sphinx (named 'sphinx.ext.*') or your custom
# ones.
extensions = []
# Add any paths that contain templates here, relative to this directory.
templates_path = ['_templates']
# The suffix(es) of source filenames.
# You can specify multiple suffix as a list of string:
#
# source_suffix = ['.rst', '.md']
source_suffix = '.rst'
# The master toctree document.
master_doc = 'index'
# General information about the project.
project = u'InfraredRemote'
copyright = u'2017, Rafi Khan, Ken Shirriff'
author = u'Rafi Khan, Ken Shirriff'
# The version info for the project you're documenting, acts as replacement for
# |version| and |release|, also used in various other places throughout the
# built documents.
#
# The short X.Y version.
version = u'3.0.0'
# The full version, including alpha/beta/rc tags.
release = u'3.0.0'
# The language for content autogenerated by Sphinx. Refer to documentation
# for a list of supported languages.
#
# This is also used if you do content translation via gettext catalogs.
# Usually you set "language" from the command line for these cases.
language = None
# List of patterns, relative to source directory, that match files and
# directories to ignore when looking for source files.
# This patterns also effect to html_static_path and html_extra_path
exclude_patterns = ['_build', 'Thumbs.db', '.DS_Store']
# The name of the Pygments (syntax highlighting) style to use.
pygments_style = 'sphinx'
# If true, `todo` and `todoList` produce output, else they produce nothing.
todo_include_todos = False
# -- Options for HTML output ----------------------------------------------
# The theme to use for HTML and HTML Help pages. See the documentation for
# a list of builtin themes.
#
html_theme = 'alabaster'
# Theme options are theme-specific and customize the look and feel of a theme
# further. For a list of options available for each theme, see the
# documentation.
#
# html_theme_options = {}
# Add any paths that contain custom static files (such as style sheets) here,
# relative to this directory. They are copied after the builtin static files,
# so a file named "default.css" will overwrite the builtin "default.css".
html_static_path = ['_static']
# -- Options for HTMLHelp output ------------------------------------------
# Output file base name for HTML help builder.
htmlhelp_basename = 'InfraredRemotedoc'
# -- Options for LaTeX output ---------------------------------------------
latex_elements = {
# The paper size ('letterpaper' or 'a4paper').
#
# 'papersize': 'letterpaper',
# The font size ('10pt', '11pt' or '12pt').
#
# 'pointsize': '10pt',
# Additional stuff for the LaTeX preamble.
#
# 'preamble': '',
# Latex figure (float) alignment
#
# 'figure_align': 'htbp',
}
# Grouping the document tree into LaTeX files. List of tuples
# (source start file, target name, title,
# author, documentclass [howto, manual, or own class]).
latex_documents = [
(master_doc, 'InfraredRemote.tex', u'InfraredRemote Documentation',
u'Rafi Khan, Ken Shirriff', 'manual'),
]
# -- Options for manual page output ---------------------------------------
# One entry per manual page. List of tuples
# (source start file, name, description, authors, manual section).
man_pages = [
(master_doc, 'infraredremote', u'InfraredRemote Documentation',
[author], 1)
]
# -- Options for Texinfo output -------------------------------------------
# Grouping the document tree into Texinfo files. List of tuples
# (source start file, target name, title, author,
# dir menu entry, description, category)
texinfo_documents = [
(master_doc, 'InfraredRemote', u'InfraredRemote Documentation',
author, 'InfraredRemote', 'One line description of project.',
'Miscellaneous'),
]

20
docs/index.rst
View File

@@ -1,20 +0,0 @@
.. InfraredRemote documentation master file, created by
sphinx-quickstart on Sun Apr 23 00:46:32 2017.
You can adapt this file completely to your liking, but it should at least
contain the root `toctree` directive.
Welcome to InfraredRemote's documentation!
==========================================
.. toctree::
:maxdepth: 2
:caption: Contents:
Indices and tables
==================
* :ref:`genindex`
* :ref:`modindex`
* :ref:`search`

36
docs/make.bat
View File

@@ -1,36 +0,0 @@
@ECHO OFF
pushd %~dp0
REM Command file for Sphinx documentation
if "%SPHINXBUILD%" == "" (
set SPHINXBUILD=sphinx-build
)
set SOURCEDIR=.
set BUILDDIR=_build
set SPHINXPROJ=InfraredRemote
if "%1" == "" goto help
%SPHINXBUILD% >NUL 2>NUL
if errorlevel 9009 (
echo.
echo.The 'sphinx-build' command was not found. Make sure you have Sphinx
echo.installed, then set the SPHINXBUILD environment variable to point
echo.to the full path of the 'sphinx-build' executable. Alternatively you
echo.may add the Sphinx directory to PATH.
echo.
echo.If you don't have Sphinx installed, grab it from
echo.http://sphinx-doc.org/
exit /b 1
)
%SPHINXBUILD% -M %1 %SOURCEDIR% %BUILDDIR% %SPHINXOPTS%
goto end
:help
%SPHINXBUILD% -M help %SOURCEDIR% %BUILDDIR% %SPHINXOPTS%
:end
popd

3
examples/AiwaRCT501SendDemo/AiwaRCT501SendDemo.ino
View File

@@ -6,8 +6,7 @@
* http://arcfn.com
*/
#include <InfraredRemote.h>
#include "IRremote.h"
#define POWER 0x7F80
#define AIWA_RC_T501

18
examples/IRrecord/IRrecord.ino
View File

@@ -15,7 +15,7 @@
* http://arcfn.com
*/
#include <InfraredRemote.h>
#include <IRremote.h>
int RECV_PIN = 11;
int BUTTON_PIN = 12;
@@ -80,12 +80,6 @@ void storeCode(decode_results *results) {
else if (codeType == SONY) {
Serial.print("Received SONY: ");
}
else if (codeType == PANASONIC) {
Serial.print("Received PANASONIC: ");
}
else if (codeType == JVC) {
Serial.print("Received JVC: ");
}
else if (codeType == RC5) {
Serial.print("Received RC5: ");
}
@@ -120,16 +114,6 @@ void sendCode(int repeat) {
Serial.print("Sent Sony ");
Serial.println(codeValue, HEX);
}
else if (codeType == PANASONIC) {
irsend.sendPanasonic(codeValue, codeLen);
Serial.print("Sent Panasonic");
Serial.println(codeValue, HEX);
}
else if (codeType == JVC) {
irsend.sendJVC(codeValue, codeLen, false);
Serial.print("Sent JVC");
Serial.println(codeValue, HEX);
}
else if (codeType == RC5 || codeType == RC6) {
if (!repeat) {
// Flip the toggle bit for a new button press

6
examples/IRrecvDemo/IRrecvDemo.ino
View File

@@ -6,7 +6,7 @@
* http://arcfn.com
*/
#include <InfraredRemote.h>
#include <IRremote.h>
int RECV_PIN = 11;
@@ -17,11 +17,7 @@ decode_results results;
void setup()
{
Serial.begin(9600);
// In case the interrupt driver crashes on setup, give a clue
// to the user what's going on.
Serial.println("Enabling IRin");
irrecv.enableIRIn(); // Start the receiver
Serial.println("Enabled IRin");
}
void loop() {

47
examples/IRrecvDump/IRrecvDump.ino
View File

@@ -8,13 +8,8 @@
* LG added by Darryl Smith (based on the JVC protocol)
*/
#include <InfraredRemote.h>
#include <IRremote.h>
/*
* Default is Arduino pin D11.
* You can change this to another available Arduino Pin.
* Your IR receiver should be connected to the pin defined here
*/
int RECV_PIN = 11;
IRrecv irrecv(RECV_PIN);
@@ -27,43 +22,45 @@ void setup()
irrecv.enableIRIn(); // Start the receiver
}
// Dumps out the decode_results structure.
// Call this after IRrecv::decode()
// void * to work around compiler issue
//void dump(void *v) {
// decode_results *results = (decode_results *)v
void dump(decode_results *results) {
// Dumps out the decode_results structure.
// Call this after IRrecv::decode()
int count = results->rawlen;
if (results->decode_type == UNKNOWN) {
Serial.print("Unknown encoding: ");
}
}
else if (results->decode_type == NEC) {
Serial.print("Decoded NEC: ");
}
}
else if (results->decode_type == SONY) {
Serial.print("Decoded SONY: ");
}
}
else if (results->decode_type == RC5) {
Serial.print("Decoded RC5: ");
}
}
else if (results->decode_type == RC6) {
Serial.print("Decoded RC6: ");
}
else if (results->decode_type == PANASONIC) {
else if (results->decode_type == PANASONIC) {
Serial.print("Decoded PANASONIC - Address: ");
Serial.print(results->address, HEX);
Serial.print(results->panasonicAddress,HEX);
Serial.print(" Value: ");
}
else if (results->decode_type == LG) {
Serial.print("Decoded LG: ");
Serial.print("Decoded LG: ");
}
else if (results->decode_type == JVC) {
Serial.print("Decoded JVC: ");
Serial.print("Decoded JVC: ");
}
else if (results->decode_type == AIWA_RC_T501) {
Serial.print("Decoded AIWA RC T501: ");
}
else if (results->decode_type == WHYNTER) {
Serial.print("Decoded Whynter: ");
Serial.print("Decoded Whynter: ");
}
Serial.print(results->value, HEX);
Serial.print(" (");
@@ -73,19 +70,19 @@ void dump(decode_results *results) {
Serial.print(count, DEC);
Serial.print("): ");
for (int i = 1; i < count; i++) {
if (i & 1) {
for (int i = 0; i < count; i++) {
if ((i % 2) == 1) {
Serial.print(results->rawbuf[i]*USECPERTICK, DEC);
}
}
else {
Serial.write('-');
Serial.print((unsigned long) results->rawbuf[i]*USECPERTICK, DEC);
Serial.print(-(int)results->rawbuf[i]*USECPERTICK, DEC);
}
Serial.print(" ");
}
Serial.println();
Serial.println("");
}
void loop() {
if (irrecv.decode(&results)) {
Serial.println(results.value, HEX);

177
examples/IRrecvDumpV2/IRrecvDumpV2.ino
View File

@@ -1,177 +0,0 @@
//------------------------------------------------------------------------------
// Include the IRremote library header
//
#include <InfraredRemote.h>
//------------------------------------------------------------------------------
// Tell IRremote which Arduino pin is connected to the IR Receiver (TSOP4838)
//
int recvPin = 11;
IRrecv irrecv(recvPin);
//+=============================================================================
// Configure the Arduino
//
void setup ( )
{
Serial.begin(9600); // Status message will be sent to PC at 9600 baud
irrecv.enableIRIn(); // Start the receiver
}
//+=============================================================================
// Display IR code
//
void ircode (decode_results *results)
{
// Panasonic has an Address
if (results->decode_type == PANASONIC) {
Serial.print(results->address, HEX);
Serial.print(":");
}
// Print Code
Serial.print(results->value, HEX);
}
//+=============================================================================
// Display encoding type
//
void encoding (decode_results *results)
{
switch (results->decode_type) {
default:
case UNKNOWN: Serial.print("UNKNOWN"); break ;
case NEC: Serial.print("NEC"); break ;
case SONY: Serial.print("SONY"); break ;
case RC5: Serial.print("RC5"); break ;
case RC6: Serial.print("RC6"); break ;
case DISH: Serial.print("DISH"); break ;
case SHARP: Serial.print("SHARP"); break ;
case JVC: Serial.print("JVC"); break ;
case SANYO: Serial.print("SANYO"); break ;
case MITSUBISHI: Serial.print("MITSUBISHI"); break ;
case SAMSUNG: Serial.print("SAMSUNG"); break ;
case LG: Serial.print("LG"); break ;
case WHYNTER: Serial.print("WHYNTER"); break ;
case AIWA_RC_T501: Serial.print("AIWA_RC_T501"); break ;
case PANASONIC: Serial.print("PANASONIC"); break ;
case DENON: Serial.print("Denon"); break ;
}
}
//+=============================================================================
// Dump out the decode_results structure.
//
void dumpInfo (decode_results *results)
{
// Check if the buffer overflowed
if (results->overflow) {
Serial.println("IR code too long. Edit IRremoteInt.h and increase RAWBUF");
return;
}
// Show Encoding standard
Serial.print("Encoding : ");
encoding(results);
Serial.println("");
// Show Code & length
Serial.print("Code : ");
ircode(results);
Serial.print(" (");
Serial.print(results->bits, DEC);
Serial.println(" bits)");
}
//+=============================================================================
// Dump out the decode_results structure.
//
void dumpRaw (decode_results *results)
{
// Print Raw data
Serial.print("Timing[");
Serial.print(results->rawlen-1, DEC);
Serial.println("]: ");
for (int i = 1; i < results->rawlen; i++) {
unsigned long x = results->rawbuf[i] * USECPERTICK;
if (!(i & 1)) { // even
Serial.print("-");
if (x < 1000) Serial.print(" ") ;
if (x < 100) Serial.print(" ") ;
Serial.print(x, DEC);
} else { // odd
Serial.print(" ");
Serial.print("+");
if (x < 1000) Serial.print(" ") ;
if (x < 100) Serial.print(" ") ;
Serial.print(x, DEC);
if (i < results->rawlen-1) Serial.print(", "); //',' not needed for last one
}
if (!(i % 8)) Serial.println("");
}
Serial.println(""); // Newline
}
//+=============================================================================
// Dump out the decode_results structure.
//
void dumpCode (decode_results *results)
{
// Start declaration
Serial.print("unsigned int "); // variable type
Serial.print("rawData["); // array name
Serial.print(results->rawlen - 1, DEC); // array size
Serial.print("] = {"); // Start declaration
// Dump data
for (int i = 1; i < results->rawlen; i++) {
Serial.print(results->rawbuf[i] * USECPERTICK, DEC);
if ( i < results->rawlen-1 ) Serial.print(","); // ',' not needed on last one
if (!(i & 1)) Serial.print(" ");
}
// End declaration
Serial.print("};"); //
// Comment
Serial.print(" // ");
encoding(results);
Serial.print(" ");
ircode(results);
// Newline
Serial.println("");
// Now dump "known" codes
if (results->decode_type != UNKNOWN) {
// Some protocols have an address
if (results->decode_type == PANASONIC) {
Serial.print("unsigned int addr = 0x");
Serial.print(results->address, HEX);
Serial.println(";");
}
// All protocols have data
Serial.print("unsigned int data = 0x");
Serial.print(results->value, HEX);
Serial.println(";");
}
}
//+=============================================================================
// The repeating section of the code
//
void loop ( )
{
decode_results results; // Somewhere to store the results
if (irrecv.decode(&results)) { // Grab an IR code
dumpInfo(&results); // Output the results
dumpRaw(&results); // Output the results in RAW format
dumpCode(&results); // Output the results as source code
Serial.println(""); // Blank line between entries
irrecv.resume(); // Prepare for the next value
}
}

2
examples/IRrelay/IRrelay.ino
View File

@@ -6,7 +6,7 @@
* http://arcfn.com
*/
#include <InfraredRemote.h>
#include <IRremote.h>
int RECV_PIN = 11;
int RELAY_PIN = 4;

230
examples/IRremoteInfo/IRremoteInfo.ino
View File

@@ -1,230 +0,0 @@
/*
* IRremote: IRremoteInfo - prints relevant config info & settings for IRremote over serial
* Intended to help identify & troubleshoot the various settings of IRremote
* For example, sometimes users are unsure of which pin is used for Tx or the RAWBUF values
* This example can be used to assist the user directly or with support.
* Intended to help identify & troubleshoot the various settings of IRremote
* Hopefully this utility will be a useful tool for support & troubleshooting for IRremote
* Check out the blog post describing the sketch via http://www.analysir.com/blog/2015/11/28/helper-utility-for-troubleshooting-irremote/
* Version 1.0 November 2015
* Original Author: AnalysIR - IR software & modules for Makers & Pros, visit http://www.AnalysIR.com
*/
#include <InfraredRemote.h>
void setup()
{
Serial.begin(115200); //You may alter the BAUD rate here as needed
while (!Serial); //wait until Serial is established - required on some Platforms
//Runs only once per restart of the Arduino.
dumpHeader();
dumpRAWBUF();
dumpTIMER();
dumpTimerPin();
dumpClock();
dumpPlatform();
dumpPulseParams();
dumpSignalParams();
dumpArduinoIDE();
dumpDebugMode();
dumpProtocols();
dumpFooter();
}
void loop() {
//nothing to do!
}
void dumpRAWBUF() {
Serial.print(F("RAWBUF: "));
Serial.println(RAWBUF);
}
void dumpTIMER() {
boolean flag = false;
#ifdef IR_USE_TIMER1
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer1")); flag = true;
#endif
#ifdef IR_USE_TIMER2
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer2")); flag = true;
#endif
#ifdef IR_USE_TIMER3
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer3")); flag = true;
#endif
#ifdef IR_USE_TIMER4
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer4")); flag = true;
#endif
#ifdef IR_USE_TIMER5
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer5")); flag = true;
#endif
#ifdef IR_USE_TIMER4_HS
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer4_HS")); flag = true;
#endif
#ifdef IR_USE_TIMER_CMT
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer_CMT")); flag = true;
#endif
#ifdef IR_USE_TIMER_TPM1
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer_TPM1")); flag = true;
#endif
#ifdef IR_USE_TIMER_TINY0
Serial.print(F("Timer defined for use: ")); Serial.println(F("Timer_TINY0")); flag = true;
#endif
if (!flag) {
Serial.print(F("Timer Error: ")); Serial.println(F("not defined"));
}
}
void dumpTimerPin() {
Serial.print(F("IR Tx Pin: "));
Serial.println(TIMER_PWM_PIN);
}
void dumpClock() {
Serial.print(F("MCU Clock: "));
Serial.println(F_CPU);
}
void dumpPlatform() {
Serial.print(F("MCU Platform: "));
#if defined(__AVR_ATmega1280__)
Serial.println(F("Arduino Mega1280"));
#elif defined(__AVR_ATmega2560__)
Serial.println(F("Arduino Mega2560"));
#elif defined(__AVR_AT90USB162__)
Serial.println(F("Teensy 1.0 / AT90USB162"));
// Teensy 2.0
#elif defined(__AVR_ATmega32U4__)
Serial.println(F("Arduino Leonardo / Yun / Teensy 1.0 / ATmega32U4"));
#elif defined(__MK20DX128__) || defined(__MK20DX256__)
Serial.println(F("Teensy 3.0 / Teensy 3.1 / MK20DX128 / MK20DX256"));
#elif defined(__MKL26Z64__)
Serial.println(F("Teensy-LC / MKL26Z64"));
#elif defined(__AVR_AT90USB646__)
Serial.println(F("Teensy++ 1.0 / AT90USB646"));
#elif defined(__AVR_AT90USB1286__)
Serial.println(F("Teensy++ 2.0 / AT90USB1286"));
#elif defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__)
Serial.println(F("ATmega1284"));
#elif defined(__AVR_ATmega644__) || defined(__AVR_ATmega644P__)
Serial.println(F("ATmega644"));
#elif defined(__AVR_ATmega324P__) || defined(__AVR_ATmega324A__) || defined(__AVR_ATmega324PA__)
Serial.println(F("ATmega324"));
#elif defined(__AVR_ATmega164A__) || defined(__AVR_ATmega164P__)
Serial.println(F("ATmega164"));
#elif defined(__AVR_ATmega128__)
Serial.println(F("ATmega128"));
#elif defined(__AVR_ATmega88__) || defined(__AVR_ATmega88P__)
Serial.println(F("ATmega88"));
#elif defined(__AVR_ATmega64__)
Serial.println(F("ATmega64"));
#elif defined(__AVR_ATmega48__) || defined(__AVR_ATmega48P__)
Serial.println(F("ATmega48"));
#elif defined(__AVR_ATmega32__)
Serial.println(F("ATmega32"));
#elif defined(__AVR_ATmega16__)
Serial.println(F("ATmega16"));
#elif defined(__AVR_ATmega8535__)
Serial.println(F("ATmega8535"));
#elif defined(__AVR_ATmega8__)
Serial.println(F("Atmega8"));
#elif defined(__AVR_ATtiny84__)
Serial.println(F("ATtiny84"));
#elif defined(__AVR_ATtiny85__)
Serial.println(F("ATtiny85"));
#else
Serial.println(F("ATmega328(P) / (Duemilanove, Diecimila, LilyPad, Mini, Micro, Fio, Nano, etc)"));
#endif
}
void dumpPulseParams() {
Serial.print(F("Mark Excess: ")); Serial.print(MARK_EXCESS);; Serial.println(F(" uSecs"));
Serial.print(F("Microseconds per tick: ")); Serial.print(USECPERTICK);; Serial.println(F(" uSecs"));
Serial.print(F("Measurement tolerance: ")); Serial.print(TOLERANCE); Serial.println(F("%"));
}
void dumpSignalParams() {
Serial.print(F("Minimum Gap between IR Signals: ")); Serial.print(_GAP); Serial.println(F(" uSecs"));
}
void dumpDebugMode() {
Serial.print(F("Debug Mode: "));
#if DEBUG
Serial.println(F("ON"));
#else
Serial.println(F("OFF (Normal)"));
#endif
}
void dumpArduinoIDE() {
Serial.print(F("Arduino IDE version: "));
Serial.print(ARDUINO / 10000);
Serial.write('.');
Serial.print((ARDUINO % 10000) / 100);
Serial.write('.');
Serial.println(ARDUINO % 100);
}
void dumpProtocols() {
Serial.println(); Serial.print(F("IR PROTOCOLS ")); Serial.print(F("SEND ")); Serial.println(F("DECODE"));
Serial.print(F("============= ")); Serial.print(F("======== ")); Serial.println(F("========"));
Serial.print(F("RC5: ")); printSendEnabled(SEND_RC5); printDecodeEnabled(DECODE_RC6);
Serial.print(F("RC6: ")); printSendEnabled(SEND_RC6); printDecodeEnabled(DECODE_RC5);
Serial.print(F("NEC: ")); printSendEnabled(SEND_NEC); printDecodeEnabled(DECODE_NEC);
Serial.print(F("SONY: ")); printSendEnabled(SEND_SONY); printDecodeEnabled(DECODE_SONY);
Serial.print(F("PANASONIC: ")); printSendEnabled(SEND_PANASONIC); printDecodeEnabled(DECODE_PANASONIC);
Serial.print(F("JVC: ")); printSendEnabled(SEND_JVC); printDecodeEnabled(DECODE_JVC);
Serial.print(F("SAMSUNG: ")); printSendEnabled(SEND_SAMSUNG); printDecodeEnabled(DECODE_SAMSUNG);
Serial.print(F("WHYNTER: ")); printSendEnabled(SEND_WHYNTER); printDecodeEnabled(DECODE_WHYNTER);
Serial.print(F("AIWA_RC_T501: ")); printSendEnabled(SEND_AIWA_RC_T501); printDecodeEnabled(DECODE_AIWA_RC_T501);
Serial.print(F("LG: ")); printSendEnabled(SEND_LG); printDecodeEnabled(DECODE_LG);
Serial.print(F("SANYO: ")); printSendEnabled(SEND_SANYO); printDecodeEnabled(DECODE_SANYO);
Serial.print(F("MITSUBISHI: ")); printSendEnabled(SEND_MITSUBISHI); printDecodeEnabled(DECODE_MITSUBISHI);
Serial.print(F("DISH: ")); printSendEnabled(SEND_DISH); printDecodeEnabled(DECODE_DISH);
Serial.print(F("SHARP: ")); printSendEnabled(SEND_SHARP); printDecodeEnabled(DECODE_SHARP);
Serial.print(F("DENON: ")); printSendEnabled(SEND_DENON); printDecodeEnabled(DECODE_DENON);
Serial.print(F("PRONTO: ")); printSendEnabled(SEND_PRONTO); Serial.println(F("(Not Applicable)"));
}
void printSendEnabled(int flag) {
if (flag) {
Serial.print(F("Enabled "));
}
else {
Serial.print(F("Disabled "));
}
}
void printDecodeEnabled(int flag) {
if (flag) {
Serial.println(F("Enabled"));
}
else {
Serial.println(F("Disabled"));
}
}
void dumpHeader() {
Serial.println(F("IRremoteInfo - by AnalysIR (http://www.AnalysIR.com/)"));
Serial.println(F(" - A helper sketch to assist in troubleshooting issues with the library by reviewing the settings within the IRremote library"));
Serial.println(F(" - Prints out the important settings within the library, which can be configured to suit the many supported platforms"));
Serial.println(F(" - When seeking on-line support, please post or upload the output of this sketch, where appropriate"));
Serial.println();
Serial.println(F("IRremote Library Settings"));
Serial.println(F("========================="));
}
void dumpFooter() {
Serial.println();
Serial.println(F("Notes: "));
Serial.println(F(" - Most of the seetings above can be configured in the following files included as part of the library"));
Serial.println(F(" - IRremteInt.h"));
Serial.println(F(" - IRremote.h"));
Serial.println(F(" - You can save SRAM by disabling the Decode or Send features for any protocol (Near the top of IRremoteInt.h)"));
Serial.println(F(" - Some Timer conflicts, with other libraries, can be easily resolved by configuring a differnt Timer for your platform"));
}

15
examples/IRsendDemo/IRsendDemo.ino
View File

@@ -6,19 +6,20 @@
* http://arcfn.com
*/
#include <InfraredRemote.h>
#include <IRremote.h>
IRsend irsend;
void setup()
{
Serial.begin(9600);
}
void loop() {
for (int i = 0; i < 3; i++) {
irsend.sendSony(0xa90, 12);
delay(40);
}
delay(5000); //5 second delay between each signal burst
if (Serial.read() != -1) {
for (int i = 0; i < 3; i++) {
irsend.sendSony(0xa90, 12); // Sony TV power code
delay(40);
}
}
}

37
examples/IRsendRawDemo/IRsendRawDemo.ino
View File

@@ -1,37 +0,0 @@
/*
* IRremote: IRsendRawDemo - demonstrates sending IR codes with sendRaw
* An IR LED must be connected to Arduino PWM pin 3.
* Version 0.1 July, 2009
* Copyright 2009 Ken Shirriff
* http://arcfn.com
*
* IRsendRawDemo - added by AnalysIR (via www.AnalysIR.com), 24 August 2015
*
* This example shows how to send a RAW signal using the IRremote library.
* The example signal is actually a 32 bit NEC signal.
* Remote Control button: LGTV Power On/Off.
* Hex Value: 0x20DF10EF, 32 bits
*
* It is more efficient to use the sendNEC function to send NEC signals.
* Use of sendRaw here, serves only as an example of using the function.
*
*/
#include <InfraredRemote.h>
IRsend irsend;
void setup()
{
}
void loop() {
int khz = 38; // 38kHz carrier frequency for the NEC protocol
unsigned int irSignal[] = {9000, 4500, 560, 560, 560, 560, 560, 1690, 560, 560, 560, 560, 560, 560, 560, 560, 560, 560, 560, 1690, 560, 1690, 560, 560, 560, 1690, 560, 1690, 560, 1690, 560, 1690, 560, 1690, 560, 560, 560, 560, 560, 560, 560, 1690, 560, 560, 560, 560, 560, 560, 560, 560, 560, 1690, 560, 1690, 560, 1690, 560, 560, 560, 1690, 560, 1690, 560, 1690, 560, 1690, 560, 39416, 9000, 2210, 560}; //AnalysIR Batch Export (IRremote) - RAW
irsend.sendRaw(irSignal, sizeof(irSignal) / sizeof(irSignal[0]), khz); //Note the approach used to automatically calculate the size of the array.
delay(5000); //In this example, the signal will be repeated every 5 seconds, approximately.
}

2
examples/IRtest/IRtest.ino
View File

@@ -9,7 +9,7 @@
* the arduino IDE.
*/
#include <InfraredRemote.h>
#include <IRremote.h>
#include <IRremoteInt.h>
// Dumps out the decode_results structure.

2
examples/IRtest2/IRtest2.ino
View File

@@ -25,7 +25,7 @@
* http://arcfn.com
*/
#include <InfraredRemote.h>
#include <IRremote.h>
int RECV_PIN = 11;
int LED_PIN = 3;

2
examples/JVCPanasonicSendDemo/JVCPanasonicSendDemo.ino
View File

@@ -6,7 +6,7 @@
* http://arcfn.com
* JVC and Panasonic protocol added by Kristian Lauszus (Thanks to zenwheel and other people at the original blog post)
*/
#include <InfraredRemote.h>
#include <IRremote.h>
#define PanasonicAddress 0x4004 // Panasonic address (Pre data)
#define PanasonicPower 0x100BCBD // Panasonic Power button

263
examples/LGACSendDemo/LGACSendDemo.ino
View File

@@ -1,263 +0,0 @@
#include <InfraredRemote.h>
#include <Wire.h>
IRsend irsend;
// not used
int RECV_PIN = 11;
IRrecv irrecv (RECV_PIN);
const int AC_TYPE = 0;
// 0 : TOWER
// 1 : WALL
//
int AC_HEAT = 0;
// 0 : cooling
// 1 : heating
int AC_POWER_ON = 0;
// 0 : off
// 1 : on
int AC_AIR_ACLEAN = 0;
// 0 : off
// 1 : on --> power on
int AC_TEMPERATURE = 27;
// temperature : 18 ~ 30
int AC_FLOW = 1;
// 0 : low
// 1 : mid
// 2 : high
// if AC_TYPE =1, 3 : change
//
const int AC_FLOW_TOWER[3] = {0, 4, 6};
const int AC_FLOW_WALL[4] = {0, 2, 4, 5};
unsigned long AC_CODE_TO_SEND;
int r = LOW;
int o_r = LOW;
byte a, b;
void ac_send_code(unsigned long code)
{
Serial.print("code to send : ");
Serial.print(code, BIN);
Serial.print(" : ");
Serial.println(code, HEX);
irsend.sendLG(code, 28);
}
void ac_activate(int temperature, int air_flow)
{
int AC_MSBITS1 = 8;
int AC_MSBITS2 = 8;
int AC_MSBITS3 = 0;
int AC_MSBITS4 ;
if ( AC_HEAT == 1 ) {
// heating
AC_MSBITS4 = 4;
} else {
// cooling
AC_MSBITS4 = 0;
}
int AC_MSBITS5 = temperature - 15;
int AC_MSBITS6 ;
if ( AC_TYPE == 0) {
AC_MSBITS6 = AC_FLOW_TOWER[air_flow];
} else {
AC_MSBITS6 = AC_FLOW_WALL[air_flow];
}
int AC_MSBITS7 = (AC_MSBITS3 + AC_MSBITS4 + AC_MSBITS5 + AC_MSBITS6) & B00001111;
AC_CODE_TO_SEND = AC_MSBITS1 << 4 ;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS2) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS3) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS4) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS5) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS6) << 4;
AC_CODE_TO_SEND = (AC_CODE_TO_SEND + AC_MSBITS7);
ac_send_code(AC_CODE_TO_SEND);
AC_POWER_ON = 1;
AC_TEMPERATURE = temperature;
AC_FLOW = air_flow;
}
void ac_change_air_swing(int air_swing)
{
if ( AC_TYPE == 0) {
if ( air_swing == 1) {
AC_CODE_TO_SEND = 0x881316B;
} else {
AC_CODE_TO_SEND = 0x881317C;
}
} else {
if ( air_swing == 1) {
AC_CODE_TO_SEND = 0x8813149;
} else {
AC_CODE_TO_SEND = 0x881315A;
}
}
ac_send_code(AC_CODE_TO_SEND);
}
void ac_power_down()
{
AC_CODE_TO_SEND = 0x88C0051;
ac_send_code(AC_CODE_TO_SEND);
AC_POWER_ON = 0;
}
void ac_air_clean(int air_clean)
{
if ( air_clean == 1) {
AC_CODE_TO_SEND = 0x88C000C;
} else {
AC_CODE_TO_SEND = 0x88C0084;
}
ac_send_code(AC_CODE_TO_SEND);
AC_AIR_ACLEAN = air_clean;
}
void setup()
{
Serial.begin(38400);
delay(1000);
Wire.begin(7);
Wire.onReceive(receiveEvent);
Serial.println(" - - - T E S T - - - ");
/* test
ac_activate(25, 1);
delay(5000);
ac_activate(27, 2);
delay(5000);
*/
}
void loop()
{
ac_activate(25, 1);
delay(5000);
ac_activate(27, 0);
delay(5000);
if ( r != o_r) {
/*
# a : mode or temp b : air_flow, temp, swing, clean, cooling/heating
# 18 ~ 30 : temp 0 ~ 2 : flow // on
# 0 : off 0
# 1 : on 0
# 2 : air_swing 0 or 1
# 3 : air_clean 0 or 1
# 4 : air_flow 0 ~ 2 : flow
# 5 : temp 18 ~ 30
# + : temp + 1
# - : temp - 1
# m : change cooling to air clean, air clean to cooling
*/
Serial.print("a : ");
Serial.print(a);
Serial.print(" b : ");
Serial.println(b);
switch (a) {
case 0: // off
ac_power_down();
break;
case 1: // on
ac_activate(AC_TEMPERATURE, AC_FLOW);
break;
case 2:
if ( b == 0 | b == 1 ) {
ac_change_air_swing(b);
}
break;
case 3: // 1 : clean on, power on
if ( b == 0 | b == 1 ) {
ac_air_clean(b);
}
break;
case 4:
if ( 0 <= b && b <= 2 ) {
ac_activate(AC_TEMPERATURE, b);
}
break;
case 5:
if (18 <= b && b <= 30 ) {
ac_activate(b, AC_FLOW);
}
break;
case '+':
if ( 18 <= AC_TEMPERATURE && AC_TEMPERATURE <= 29 ) {
ac_activate((AC_TEMPERATURE + 1), AC_FLOW);
}
break;
case '-':
if ( 19 <= AC_TEMPERATURE && AC_TEMPERATURE <= 30 ) {
ac_activate((AC_TEMPERATURE - 1), AC_FLOW);
}
break;
case 'm':
/*
if ac is on, 1) turn off, 2) turn on ac_air_clean(1)
if ac is off, 1) turn on, 2) turn off ac_air_clean(0)
*/
if ( AC_POWER_ON == 1 ) {
ac_power_down();
delay(100);
ac_air_clean(1);
} else {
if ( AC_AIR_ACLEAN == 1) {
ac_air_clean(0);
delay(100);
}
ac_activate(AC_TEMPERATURE, AC_FLOW);
}
break;
default:
if ( 18 <= a && a <= 30 ) {
if ( 0 <= b && b <= 2 ) {
ac_activate(a, b);
}
}
}
o_r = r ;
}
delay(100);
}
void receiveEvent(int howMany)
{
a = Wire.read();
b = Wire.read();
r = !r ;
}

93
examples/LGACSendDemo/LGACSendDemo.md
View File

@@ -1,93 +0,0 @@
=== decoding for LG A/C ====
- 1) remote of LG AC has two type of HDR mark/space, 8000/4000 and 3100/10000
- 2) HDR 8000/4000 is decoded using decodeLG(IRrecvDumpV2) without problem
- 3) for HDR 3100/10000, use AnalysIR's code : http://www.analysir.com/blog/2014/03/19/air-conditioners-problems-recording-long-infrared-remote-control-signals-arduino/
- 4) for bin output based on AnalysIR's code : https://gist.github.com/chaeplin/a3a4b4b6b887c663bfe8
- 5) remove first two byte(11)
- 6) sample rawcode with bin output : https://gist.github.com/chaeplin/134d232e0b8cfb898860
=== *** ===
- 1) Sample raw code : https://gist.github.com/chaeplin/ab2a7ad1533c41260f0d
- 2) send raw code : https://gist.github.com/chaeplin/7c800d3166463bb51be4
=== *** ===
- (0) : Cooling or Heating
- (1) : fixed
- (2) : fixed
- (3) : special(power, swing, air clean)
- (4) : change air flow, temperature, cooling(0)/heating(4)
- (5) : temperature ( 15 + (5) = )
- (6) : air flow
- (7) : crc ( 3 + 4 + 5 + 6 ) & B00001111
°F = °C × 1.8 + 32
°C = (°F 32) / 1.8
=== *** ===
* remote / Korea / without heating
| status |(0)| (1)| (2)| (3)| (4)| (5)| (6)| (7)
|----------------|---|----|----|----|----|----|----|----
| on / 25 / mid | C |1000|1000|0000|0000|1010|0010|1100
| on / 26 / mid | C |1000|1000|0000|0000|1011|0010|1101
| on / 27 / mid | C |1000|1000|0000|0000|1100|0010|1110
| on / 28 / mid | C |1000|1000|0000|0000|1101|0010|1111
| on / 25 / high | C |1000|1000|0000|0000|1010|0100|1110
| on / 26 / high | C |1000|1000|0000|0000|1011|0100|1111
| on / 27 / high | C |1000|1000|0000|0000|1100|0100|0000
| on / 28 / high | C |1000|1000|0000|0000|1101|0100|0001
|----------------|---|----|----|----|----|----|----|----
| 1 up | C |1000|1000|0000|1000|1101|0100|1001
|----------------|---|----|----|----|----|----|----|----
| Cool power | C |1000|1000|0001|0000|0000|1100|1101
| energy saving | C |1000|1000|0001|0000|0000|0100|0101
| power | C |1000|1000|0001|0000|0000|1000|1001
| flow/up/down | C |1000|1000|0001|0011|0001|0100|1001
| up/down off | C |1000|1000|0001|0011|0001|0101|1010
| flow/left/right| C |1000|1000|0001|0011|0001|0110|1011
| left/right off | C |1000|1000|0001|0011|0001|0111|1100
|----------------|---|----|----|----|----|----|----|----
| Air clean | C |1000|1000|1100|0000|0000|0000|1100
|----------------|---|----|----|----|----|----|----|----
| off | C |1000|1000|1100|0000|0000|0101|0001
* remote / with heating
* converted using raw code at https://github.com/chaeplin/RaspAC/blob/master/lircd.conf
| status |(0)| (1)| (2)| (3)| (4)| (5)| (6)| (7)
|----------------|---|----|----|----|----|----|----|----
| on | C |1000|1000|0000|0000|1011|0010|1101
|----------------|---|----|----|----|----|----|----|----
| off | C |1000|1000|1100|0000|0000|0101|0001
|----------------|---|----|----|----|----|----|----|----
| 64 / 18 | C |1000|1000|0000|0000|0011|0100|0111
| 66 / 19 | C |1000|1000|0000|0000|0100|0100|1000
| 68 / 20 | C |1000|1000|0000|0000|0101|0100|1001
| 70 / 21 | C |1000|1000|0000|0000|0110|0100|1010
| 72 / 22 | C |1000|1000|0000|0000|0111|0100|1011
| 74 / 23 | C |1000|1000|0000|0000|1000|0100|1100
| 76 / 25 | C |1000|1000|0000|0000|1010|0100|1110
| 78 / 26 | C |1000|1000|0000|0000|1011|0100|1111
| 80 / 27 | C |1000|1000|0000|0000|1100|0100|0000
| 82 / 28 | C |1000|1000|0000|0000|1101|0100|0001
| 84 / 29 | C |1000|1000|0000|0000|1110|0100|0010
| 86 / 30 | C |1000|1000|0000|0000|1111|0100|0011
|----------------|---|----|----|----|----|----|----|----
| heat64 | H |1000|1000|0000|0100|0011|0100|1011
| heat66 | H |1000|1000|0000|0100|0100|0100|1100
| heat68 | H |1000|1000|0000|0100|0101|0100|1101
| heat70 | H |1000|1000|0000|0100|0110|0100|1110
| heat72 | H |1000|1000|0000|0100|0111|0100|1111
| heat74 | H |1000|1000|0000|0100|1000|0100|0000
| heat76 | H |1000|1000|0000|0100|1001|0100|0001
| heat78 | H |1000|1000|0000|0100|1011|0100|0011
| heat80 | H |1000|1000|0000|0100|1100|0100|0100
| heat82 | H |1000|1000|0000|0100|1101|0100|0101
| heat84 | H |1000|1000|0000|0100|1110|0100|0110
| heat86 | H |1000|1000|0000|0100|1111|0100|0111

22
examples/LegoPowerFunctionsSendDemo/LegoPowerFunctionsSendDemo.ino
View File

@@ -1,22 +0,0 @@
/*
* LegoPowerFunctionsSendDemo: LEGO Power Functions
* Copyright (c) 2016 Philipp Henkel
*/
#include <InfraredRemote.h>
#include <IRremoteInt.h>
IRsend irsend;
void setup() {
}
void loop() {
// Send repeated command "channel 1, blue forward, red backward"
irsend.sendLegoPowerFunctions(0x197);
delay(2000);
// Send single command "channel 1, blue forward, red backward"
irsend.sendLegoPowerFunctions(0x197, false);
delay(2000);
}

193
examples/LegoPowerFunctionsTests/LegoPowerFunctionsTests.ino
View File

@@ -1,193 +0,0 @@
/*
* LegoPowerFunctionsTest: LEGO Power Functions Tests
* Copyright (c) 2016, 2017 Philipp Henkel
*/
#include <ir_Lego_PF_BitStreamEncoder.h>
void setup() {
Serial.begin(9600);
delay(1000); // wait for reset triggered by serial connection
runBitStreamEncoderTests();
}
void loop() {
}
void runBitStreamEncoderTests() {
Serial.println();
Serial.println("BitStreamEncoder Tests");
static LegoPfBitStreamEncoder bitStreamEncoder;
testStartBit(bitStreamEncoder);
testLowBit(bitStreamEncoder);
testHighBit(bitStreamEncoder);
testMessageBitCount(bitStreamEncoder);
testMessageBitCountRepeat(bitStreamEncoder);
testMessage407(bitStreamEncoder);
testMessage407Repeated(bitStreamEncoder);
testGetChannelId1(bitStreamEncoder);
testGetChannelId2(bitStreamEncoder);
testGetChannelId3(bitStreamEncoder);
testGetChannelId4(bitStreamEncoder);
testGetMessageLengthAllHigh(bitStreamEncoder);
testGetMessageLengthAllLow(bitStreamEncoder);
}
void logTestResult(bool testPassed) {
if (testPassed) {
Serial.println("OK");
}
else {
Serial.println("FAIL ############");
}
}
void testStartBit(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testStartBit ");
bitStreamEncoder.reset(0, false);
int startMark = bitStreamEncoder.getMarkDuration();
int startPause = bitStreamEncoder.getPauseDuration();
logTestResult(startMark == 158 && startPause == 1184-158);
}
void testLowBit(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testLowBit ");
bitStreamEncoder.reset(0, false);
bitStreamEncoder.next();
int lowMark = bitStreamEncoder.getMarkDuration();
int lowPause = bitStreamEncoder.getPauseDuration();
logTestResult(lowMark == 158 && lowPause == 421-158);
}
void testHighBit(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testHighBit ");
bitStreamEncoder.reset(0xFFFF, false);
bitStreamEncoder.next();
int highMark = bitStreamEncoder.getMarkDuration();
int highPause = bitStreamEncoder.getPauseDuration();
logTestResult(highMark == 158 && highPause == 711-158);
}
void testMessageBitCount(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testMessageBitCount ");
bitStreamEncoder.reset(0xFFFF, false);
int bitCount = 1;
while (bitStreamEncoder.next()) {
bitCount++;
}
logTestResult(bitCount == 18);
}
boolean check(LegoPfBitStreamEncoder& bitStreamEncoder, unsigned long markDuration, unsigned long pauseDuration) {
bool result = true;
result = result && bitStreamEncoder.getMarkDuration() == markDuration;
result = result && bitStreamEncoder.getPauseDuration() == pauseDuration;
return result;
}
boolean checkNext(LegoPfBitStreamEncoder& bitStreamEncoder, unsigned long markDuration, unsigned long pauseDuration) {
bool result = bitStreamEncoder.next();
result = result && check(bitStreamEncoder, markDuration, pauseDuration);
return result;
}
boolean checkDataBitsOfMessage407(LegoPfBitStreamEncoder& bitStreamEncoder) {
bool result = true;
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 553);
result = result && checkNext(bitStreamEncoder, 158, 553);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 553);
result = result && checkNext(bitStreamEncoder, 158, 263);
result = result && checkNext(bitStreamEncoder, 158, 553);
result = result && checkNext(bitStreamEncoder, 158, 553);
result = result && checkNext(bitStreamEncoder, 158, 553);
return result;
}
void testMessage407(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testMessage407 ");
bitStreamEncoder.reset(407, false);
bool result = true;
result = result && check(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && !bitStreamEncoder.next();
logTestResult(result);
}
void testMessage407Repeated(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testMessage407Repeated ");
bitStreamEncoder.reset(407, true);
bool result = true;
result = result && check(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026L + 5L * 16000L - 10844L);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026L + 5L * 16000L - 10844L);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026L + 8L * 16000L - 10844L);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026L + 8L * 16000L - 10844L);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && !bitStreamEncoder.next();
logTestResult(result);
}
void testMessageBitCountRepeat(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testMessageBitCountRepeat ");
bitStreamEncoder.reset(0xFFFF, true);
int bitCount = 1;
while (bitStreamEncoder.next()) {
bitCount++;
}
logTestResult(bitCount == 5*18);
}
void testGetChannelId1(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testGetChannelId1 ");
bitStreamEncoder.reset(407, false);
logTestResult(bitStreamEncoder.getChannelId() == 1);
}
void testGetChannelId2(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testGetChannelId2 ");
bitStreamEncoder.reset(4502, false);
logTestResult(bitStreamEncoder.getChannelId() == 2);
}
void testGetChannelId3(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testGetChannelId3 ");
bitStreamEncoder.reset(8597, false);
logTestResult(bitStreamEncoder.getChannelId() == 3);
}
void testGetChannelId4(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testGetChannelId4 ");
bitStreamEncoder.reset(12692, false);
logTestResult(bitStreamEncoder.getChannelId() == 4);
}
void testGetMessageLengthAllHigh(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testGetMessageLengthAllHigh ");
bitStreamEncoder.reset(0xFFFF, false);
logTestResult(bitStreamEncoder.getMessageLength() == 13744);
}
void testGetMessageLengthAllLow(LegoPfBitStreamEncoder& bitStreamEncoder) {
Serial.print(" testGetMessageLengthAllLow ");
bitStreamEncoder.reset(0x0, false);
logTestResult(bitStreamEncoder.getMessageLength() == 9104);
}

76
irISR.cpp Normal file
View File

@@ -0,0 +1,76 @@
#include <avr/interrupt.h>
#include "IRremote.h"
#include "IRremoteInt.h"
//+=============================================================================
// TIMER2 interrupt code to collect raw data.
// Widths of alternating SPACE, MARK are recorded in rawbuf.
// Recorded in ticks of 50 microseconds.
// rawlen counts the number of entries recorded so far.
// First entry is the SPACE between transmissions.
// As soon as a SPACE 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, and new logging starts
//
ISR (TIMER_INTR_NAME)
{
TIMER_RESET;
uint8_t irdata = (uint8_t)digitalRead(irparams.recvpin);
irparams.timer++; // One more 50us tick
if (irparams.rawlen >= RAWBUF) irparams.rcvstate = STATE_STOP ; // 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 and start recording transmission
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 it
irparams.rawbuf[irparams.rawlen++] = irparams.timer;
irparams.timer = 0;
irparams.rcvstate = STATE_MARK;
}
else { // SPACE
if (irparams.timer > GAP_TICKS) {
// big SPACE, indicates gap between codes
// Mark 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;
}
if (irparams.blinkflag) {
if (irdata == MARK) BLINKLED_ON() ; // turn pin 13 LED on
else BLINKLED_OFF() ; // turn pin 13 LED off
}
}

274
src/irRecv.cpp → irRecv.cpp
View File

@@ -1,104 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#ifdef IR_TIMER_USE_ESP32
hw_timer_t *timer;
void IRTimer(); // defined in IRremote.cpp
#endif
//+=============================================================================
// Decodes the received IR message
// Returns 0 if no data ready, 1 if data ready.
// Results of decoding are stored in results
//
int IRrecv::decode (decode_results *results)
{
results->rawbuf = irparams.rawbuf;
results->rawlen = irparams.rawlen;
results->overflow = irparams.overflow;
if (irparams.rcvstate != STATE_STOP) return false ;
#if DECODE_NEC
DBG_PRINTLN("Attempting NEC decode");
if (decodeNEC(results)) return true ;
#endif
#if DECODE_SONY
DBG_PRINTLN("Attempting Sony decode");
if (decodeSony(results)) return true ;
#endif
#if DECODE_SANYO
DBG_PRINTLN("Attempting Sanyo decode");
if (decodeSanyo(results)) return true ;
#endif
#if DECODE_MITSUBISHI
DBG_PRINTLN("Attempting Mitsubishi decode");
if (decodeMitsubishi(results)) return true ;
#endif
#if DECODE_RC5
DBG_PRINTLN("Attempting RC5 decode");
if (decodeRC5(results)) return true ;
#endif
#if DECODE_RC6
DBG_PRINTLN("Attempting RC6 decode");
if (decodeRC6(results)) return true ;
#endif
#if DECODE_PANASONIC
DBG_PRINTLN("Attempting Panasonic decode");
if (decodePanasonic(results)) return true ;
#endif
#if DECODE_LG
DBG_PRINTLN("Attempting LG decode");
if (decodeLG(results)) return true ;
#endif
#if DECODE_JVC
DBG_PRINTLN("Attempting JVC decode");
if (decodeJVC(results)) return true ;
#endif
#if DECODE_SAMSUNG
DBG_PRINTLN("Attempting SAMSUNG decode");
if (decodeSAMSUNG(results)) return true ;
#endif
#if DECODE_WHYNTER
DBG_PRINTLN("Attempting Whynter decode");
if (decodeWhynter(results)) return true ;
#endif
#if DECODE_AIWA_RC_T501
DBG_PRINTLN("Attempting Aiwa RC-T501 decode");
if (decodeAiwaRCT501(results)) return true ;
#endif
#if DECODE_DENON
DBG_PRINTLN("Attempting Denon decode");
if (decodeDenon(results)) return true ;
#endif
#if DECODE_LEGO_PF
DBG_PRINTLN("Attempting Lego Power Functions");
if (decodeLegoPowerFunctions(results)) return true ;
#endif
// decodeHash returns a hash on any input.
// Thus, it needs to be last in the list.
// If you add any decodes, add them before this.
if (decodeHash(results)) return true ;
// Throw away and start over
resume();
return false;
}
#include "IRremote.h"
#include "IRremoteInt.h"
//+=============================================================================
IRrecv::IRrecv (int recvpin)
@@ -107,57 +8,35 @@ IRrecv::IRrecv (int recvpin)
irparams.blinkflag = 0;
}
IRrecv::IRrecv (int recvpin, int blinkpin)
{
irparams.recvpin = recvpin;
irparams.blinkpin = blinkpin;
pinMode(blinkpin, OUTPUT);
irparams.blinkflag = 0;
}
//+=============================================================================
// initialization
//
void IRrecv::enableIRIn ( )
{
// Interrupt Service Routine - Fires every 50uS
#ifdef ESP32
// ESP32 has a proper API to setup timers, no weird chip macros needed
// simply call the readable API versions :)
// 3 timers, choose #1, 80 divider nanosecond precision, 1 to count up
timer = timerBegin(1, 80, 1);
timerAttachInterrupt(timer, &IRTimer, 1);
// every 50ns, autoreload = true
timerAlarmWrite(timer, 50, true);
timerAlarmEnable(timer);
#else
cli();
// Setup pulse clock timer interrupt
// Prescale /8 (16M/8 = 0.5 microseconds per tick)
// setup pulse clock timer interrupt
//Prescale /8 (16M/8 = 0.5 microseconds per tick)
// Therefore, the timer interval can range from 0.5 to 128 microseconds
// Depending on the reset value (255 to 0)
// depending on the reset value (255 to 0)
TIMER_CONFIG_NORMAL();
// Timer2 Overflow Interrupt Enable
//Timer2 Overflow Interrupt Enable
TIMER_ENABLE_INTR;
TIMER_RESET;
sei(); // enable interrupts
#endif
// Initialize state machine variables
// initialize state machine variables
irparams.rcvstate = STATE_IDLE;
irparams.rawlen = 0;
// Set pin modes
// set pin modes
pinMode(irparams.recvpin, INPUT);
}
//+=============================================================================
// Enable/disable blinking of pin 13 on IR processing
// enable/disable blinking of pin 13 on IR processing
//
void IRrecv::blink13 (int blinkflag)
{
@@ -166,21 +45,104 @@ void IRrecv::blink13 (int blinkflag)
}
//+=============================================================================
// Return if receiving new IR signals
//
bool IRrecv::isIdle ( )
{
return (irparams.rcvstate == STATE_IDLE || irparams.rcvstate == STATE_STOP) ? true : false;
}
//+=============================================================================
// Restart the ISR state machine
//
void IRrecv::resume ( )
{
irparams.rcvstate = STATE_IDLE;
irparams.rawlen = 0;
}
//+=============================================================================
// Decodes the received IR message
// Returns 0 if no data ready, 1 if data ready.
// Results of decoding are stored in results
int IRrecv::decode (decode_results *results)
{
results->rawbuf = irparams.rawbuf;
results->rawlen = irparams.rawlen;
if (irparams.rcvstate != STATE_STOP) return false ;
#ifdef DECODE_NEC
DBG_PRINTLN("Attempting NEC decode");
if (decodeNEC(results)) return true ;
#endif
#ifdef DECODE_SONY
DBG_PRINTLN("Attempting Sony decode");
if (decodeSony(results)) return true ;
#endif
#ifdef DECODE_SANYO
DBG_PRINTLN("Attempting Sanyo decode");
if (decodeSanyo(results)) return true ;
#endif
#ifdef DECODE_MITSUBISHI
DBG_PRINTLN("Attempting Mitsubishi decode");
if (decodeMitsubishi(results)) return true ;
#endif
#ifdef DECODE_RC5
DBG_PRINTLN("Attempting RC5 decode");
if (decodeRC5(results)) return true ;
#endif
#ifdef DECODE_RC6
DBG_PRINTLN("Attempting RC6 decode");
if (decodeRC6(results)) return true ;
#endif
#ifdef DECODE_PANASONIC
DBG_PRINTLN("Attempting Panasonic decode");
if (decodePanasonic(results)) return true ;
#endif
#ifdef DECODE_LG
DBG_PRINTLN("Attempting LG decode");
if (decodeLG(results)) return true ;
#endif
#ifdef DECODE_JVC
DBG_PRINTLN("Attempting JVC decode");
if (decodeJVC(results)) return true ;
#endif
#ifdef DECODE_SAMSUNG
DBG_PRINTLN("Attempting SAMSUNG decode");
if (decodeSAMSUNG(results)) return true ;
#endif
#ifdef DECODE_WHYNTER
DBG_PRINTLN("Attempting Whynter decode");
if (decodeWhynter(results)) return true ;
#endif
#ifdef AIWA_RC_T501
DBG_PRINTLN("Attempting Aiwa RC-T501 decode");
if (decodeAiwaRCT501(results)) return true ;
#endif
// decodeHash returns a hash on any input.
// Thus, it needs to be last in the list.
// If you add any decodes, add them before this.
if (decodeHash(results)) return true ;
// Throw away and start over
resume();
return false;
}
//+=============================================================================
// hashdecode - decode an arbitrary IR code.
// Instead of decoding using a standard encoding scheme
@@ -188,7 +150,7 @@ void IRrecv::resume ( )
//
// The algorithm: look at the sequence of MARK signals, and see if each one
// is shorter (0), the same length (1), or longer (2) than the previous.
// Do the same with the SPACE signals. Hash the resulting sequence of 0's,
// Do the same with the SPACE signals. Hszh the resulting sequence of 0's,
// 1's, and 2's to a 32-bit value. This will give a unique value for each
// different code (probably), for most code systems.
//
@@ -200,9 +162,9 @@ void IRrecv::resume ( )
//
int IRrecv::compare (unsigned int oldval, unsigned int newval)
{
if (newval < oldval * .8) return 0 ;
else if (oldval < newval * .8) return 2 ;
else return 1 ;
if (newval < oldval * .8) return 0 ;
else if (oldval < newval * .8) return 2 ;
else return 1 ;
}
//+=============================================================================
@@ -216,20 +178,18 @@ int IRrecv::compare (unsigned int oldval, unsigned int newval)
long IRrecv::decodeHash (decode_results *results)
{
long hash = FNV_BASIS_32;
// Require at least 6 samples to prevent triggering on noise
if (results->rawlen < 6) return false ;
long hash = FNV_BASIS_32;
for (int i = 1; (i + 2) < results->rawlen; i++) {
int value = compare(results->rawbuf[i], results->rawbuf[i+2]);
// Add value into the hash
hash = (hash * FNV_PRIME_32) ^ value;
}
// Require at least 6 samples to prevent triggering on noise
if (results->rawlen < 6) return false ;
results->value = hash;
results->bits = 32;
results->decode_type = UNKNOWN;
for (int i = 1; (i + 2) < results->rawlen; i++) {
int value = compare(results->rawbuf[i], results->rawbuf[i+2]);
// Add value into the hash
hash = (hash * FNV_PRIME_32) ^ value;
}
results->value = hash;
results->bits = 32;
results->decode_type = UNKNOWN;
return true;
return true;
}

156
src/irSend.cpp → irSend.cpp
View File

@@ -1,90 +1,66 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
//+=============================================================================
void IRsend::sendRaw (const unsigned int buf[], unsigned int len, unsigned int hz)
{
// Set IR carrier frequency
enableIROut(hz);
for (unsigned int i = 0; i < len; i++) {
if (i & 1) space(buf[i]) ;
else mark (buf[i]) ;
}
space(0); // Always end with the LED off
}
//+=============================================================================
// Sends an IR mark for the specified number of microseconds.
// The mark output is modulated at the PWM frequency.
//
void IRsend::mark (unsigned int time)
{
TIMER_ENABLE_PWM; // Enable pin 3 PWM output
if (time > 0) custom_delay_usec(time);
}
//+=============================================================================
// Leave pin off for time (given in microseconds)
// Sends an IR space for the specified number of microseconds.
// A space is no output, so the PWM output is disabled.
//
void IRsend::space (unsigned int time)
{
TIMER_DISABLE_PWM; // Disable pin 3 PWM output
if (time > 0) IRsend::custom_delay_usec(time);
}
//+=============================================================================
// Enables IR output. The khz value controls the modulation frequency in kilohertz.
// The IR output will be on pin 3 (OC2B).
// This routine is designed for 36-40KHz; if you use it for other values, it's up to you
// to make sure it gives reasonable results. (Watch out for overflow / underflow / rounding.)
// TIMER2 is used in phase-correct PWM mode, with OCR2A controlling the frequency and OCR2B
// controlling the duty cycle.
// There is no prescaling, so the output frequency is 16MHz / (2 * OCR2A)
// To turn the output on and off, we leave the PWM running, but connect and disconnect the output pin.
// A few hours staring at the ATmega documentation and this will all make sense.
// See my Secrets of Arduino PWM at http://arcfn.com/2009/07/secrets-of-arduino-pwm.html for details.
//
void IRsend::enableIROut (int khz)
{
// FIXME: implement ESP32 support, see IR_TIMER_USE_ESP32 in boarddefs.h
#ifndef ESP32
// Disable the Timer2 Interrupt (which is used for receiving IR)
TIMER_DISABLE_INTR; //Timer2 Overflow Interrupt
pinMode(TIMER_PWM_PIN, OUTPUT);
digitalWrite(TIMER_PWM_PIN, LOW); // When not sending PWM, we want it low
// COM2A = 00: disconnect OC2A
// COM2B = 00: disconnect OC2B; to send signal set to 10: OC2B non-inverted
// WGM2 = 101: phase-correct PWM with OCRA as top
// CS2 = 000: no prescaling
// The top value for the timer. The modulation frequency will be SYSCLOCK / 2 / OCR2A.
TIMER_CONFIG_KHZ(khz);
#endif
}
//+=============================================================================
// Custom delay function that circumvents Arduino's delayMicroseconds limit
void IRsend::custom_delay_usec(unsigned long uSecs) {
if (uSecs > 4) {
unsigned long start = micros();
unsigned long endMicros = start + uSecs - 4;
if (endMicros < start) { // Check if overflow
while ( micros() > start ) {} // wait until overflow
}
while ( micros() < endMicros ) {} // normal wait
}
//else {
// __asm__("nop\n\t"); // must have or compiler optimizes out
//}
}
#include "IRremote.h"
#include "IRremoteInt.h"
//+=============================================================================
void IRsend::sendRaw (unsigned int buf[], int len, int hz)
{
// Set IR carrier frequency
enableIROut(hz);
for (int i = 0; i < len; i++) {
if (i & 1) space(buf[i]) ;
else mark (buf[i]) ;
}
space(0); // Always end with the LED off
}
//+=============================================================================
// Sends an IR mark for the specified number of microseconds.
// The mark output is modulated at the PWM frequency.
//
void IRsend::mark (int time)
{
TIMER_ENABLE_PWM; // Enable pin 3 PWM output
if (time > 0) delayMicroseconds(time);
}
//+=============================================================================
// Leave pin off for time (given in microseconds)
// Sends an IR space for the specified number of microseconds.
// A space is no output, so the PWM output is disabled.
//
void IRsend::space (int time)
{
TIMER_DISABLE_PWM; // Disable pin 3 PWM output
if (time > 0) delayMicroseconds(time);
}
//+=============================================================================
// Enables IR output. The khz value controls the modulation frequency in kilohertz.
// The IR output will be on pin 3 (OC2B).
// This routine is designed for 36-40KHz; if you use it for other values, it's up to you
// to make sure it gives reasonable results. (Watch out for overflow / underflow / rounding.)
// TIMER2 is used in phase-correct PWM mode, with OCR2A controlling the frequency and OCR2B
// controlling the duty cycle.
// There is no prescaling, so the output frequency is 16MHz / (2 * OCR2A)
// To turn the output on and off, we leave the PWM running, but connect and disconnect the output pin.
// A few hours staring at the ATmega documentation and this will all make sense.
// See my Secrets of Arduino PWM at http://arcfn.com/2009/07/secrets-of-arduino-pwm.html for details.
//
void IRsend::enableIROut (int khz)
{
// Disable the Timer2 Interrupt (which is used for receiving IR)
TIMER_DISABLE_INTR; //Timer2 Overflow Interrupt
pinMode(TIMER_PWM_PIN, OUTPUT);
digitalWrite(TIMER_PWM_PIN, LOW); // When not sending PWM, we want it low
// COM2A = 00: disconnect OC2A
// COM2B = 00: disconnect OC2B; to send signal set to 10: OC2B non-inverted
// WGM2 = 101: phase-correct PWM with OCRA as top
// CS2 = 000: no prescaling
// The top value for the timer. The modulation frequency will be SYSCLOCK / 2 / OCR2A.
TIMER_CONFIG_KHZ(khz);
}

73
src/ir_Aiwa.cpp → ir_Aiwa.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// AAA IIIII W W AAA
@@ -9,7 +9,7 @@
// A A IIIII WWW A A
//==============================================================================
// Based off the RC-T501 RCU
// Baszed off the RC-T501 RCU
// Lirc file http://lirc.sourceforge.net/remotes/aiwa/RC-T501
#define AIWA_RC_T501_HZ 38
@@ -24,10 +24,11 @@
#define AIWA_RC_T501_ZERO_SPACE 1700
//+=============================================================================
#if SEND_AIWA_RC_T501
#ifdef SEND_AIWA_RC_T501
void IRsend::sendAiwaRCT501 (int code)
{
unsigned long pre = 0x0227EEC0; // 26-bits
int mask;
// Set IR carrier frequency
enableIROut(AIWA_RC_T501_HZ);
@@ -37,7 +38,7 @@ void IRsend::sendAiwaRCT501 (int code)
space(AIWA_RC_T501_HDR_SPACE);
// Send "pre" data
for (unsigned long mask = 1UL << (26 - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (26 - 1); mask; mask >>= 1) {
mark(AIWA_RC_T501_BIT_MARK);
if (pre & mask) space(AIWA_RC_T501_ONE_SPACE) ;
else space(AIWA_RC_T501_ZERO_SPACE) ;
@@ -45,19 +46,17 @@ void IRsend::sendAiwaRCT501 (int code)
//-v- THIS CODE LOOKS LIKE IT MIGHT BE WRONG - CHECK!
// it only send 15bits and ignores the top bit
// then uses TOPBIT which is 0x80000000 to check the bit code
// then uses TOPBIT which is bit-31 to check the bit code
// I suspect TOPBIT should be changed to 0x00008000
// Skip first code bit
// Skip firts code bit
code <<= 1;
// Send code
for (int i = 0; i < 15; i++) {
mark(AIWA_RC_T501_BIT_MARK);
if (code & 0x80000000) space(AIWA_RC_T501_ONE_SPACE) ;
else space(AIWA_RC_T501_ZERO_SPACE) ;
if (code & TOPBIT) space(AIWA_RC_T501_ONE_SPACE) ;
else space(AIWA_RC_T501_ZERO_SPACE) ;
code <<= 1;
}
//-^- THIS CODE LOOKS LIKE IT MIGHT BE WRONG - CHECK!
// POST-DATA, 1 bit, 0x0
@@ -70,36 +69,40 @@ void IRsend::sendAiwaRCT501 (int code)
#endif
//+=============================================================================
#if DECODE_AIWA_RC_T501
bool IRrecv::decodeAiwaRCT501 (decode_results *results)
#ifdef DECODE_AIWA_RC_T501
long IRrecv::decodeAiwaRCT501 (decode_results *results)
{
int data = 0;
int offset = 1;
int data = 0;
int offset = 1; // skip first garbage read
// Check SIZE
if (irparams.rawlen < 2 * (AIWA_RC_T501_SUM_BITS) + 4) return false ;
// Check SIZE
if (irparams.rawlen < 2 * (AIWA_RC_T501_SUM_BITS) + 4) return false ;
// Check HDR Mark/Space
if (!MATCH_MARK (results->rawbuf[offset++], AIWA_RC_T501_HDR_MARK )) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], AIWA_RC_T501_HDR_SPACE)) return false ;
// Check HDR
if (!MATCH_MARK(results->rawbuf[offset], AIWA_RC_T501_HDR_MARK)) return false ;
offset++;
offset += 26; // skip pre-data - optional
while(offset < irparams.rawlen - 4) {
if (MATCH_MARK(results->rawbuf[offset], AIWA_RC_T501_BIT_MARK)) offset++ ;
else return false ;
// Check HDR space
if (!MATCH_SPACE(results->rawbuf[offset], AIWA_RC_T501_HDR_SPACE)) return false ;
offset++;
// ONE & ZERO
if (MATCH_SPACE(results->rawbuf[offset], AIWA_RC_T501_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], AIWA_RC_T501_ZERO_SPACE)) data = (data << 1) | 0 ;
else break ; // End of one & zero detected
offset++;
}
offset += 26; // skip pre-data - optional
while(offset < irparams.rawlen - 4) {
if (MATCH_MARK(results->rawbuf[offset], AIWA_RC_T501_BIT_MARK)) offset++ ;
else return false ;
results->bits = (offset - 1) / 2;
if (results->bits < 42) return false ;
// ONE & ZERO
if (MATCH_SPACE(results->rawbuf[offset], AIWA_RC_T501_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], AIWA_RC_T501_ZERO_SPACE)) data <<= 1 ;
else break ; // End of one & zero detected
offset++;
}
results->value = data;
results->decode_type = AIWA_RC_T501;
return true;
results->bits = (offset - 1) / 2;
if (results->bits < 42) return false ;
results->value = data;
results->decode_type = AIWA_RC_T501;
return true;
}
#endif

49
src/ir_Dish.cpp → ir_Dish.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// DDDD IIIII SSSS H H
@@ -21,34 +21,35 @@
// DISH NETWORK (echostar 301):
// http://lirc.sourceforge.net/remotes/echostar/301_501_3100_5100_58xx_59xx
#define DISH_BITS 16
#define DISH_HDR_MARK 400
#define DISH_HDR_SPACE 6100
#define DISH_BIT_MARK 400
#define DISH_ONE_SPACE 1700
#define DISH_ZERO_SPACE 2800
#define DISH_RPT_SPACE 6200
#define DISH_BITS 16
#define DISH_HDR_MARK 400
#define DISH_HDR_SPACE 6100
#define DISH_BIT_MARK 400
#define DISH_ONE_SPACE 1700
#define DISH_ZERO_SPACE 2800
#define DISH_RPT_SPACE 6200
#define DISH_TOP_BIT 0x8000
//+=============================================================================
#if SEND_DISH
#ifdef SEND_DISH
void IRsend::sendDISH (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(56);
// Set IR carrier frequency
enableIROut(56);
mark(DISH_HDR_MARK);
space(DISH_HDR_SPACE);
mark(DISH_HDR_MARK);
space(DISH_HDR_SPACE);
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(DISH_BIT_MARK);
space(DISH_ONE_SPACE);
} else {
mark(DISH_BIT_MARK);
space(DISH_ZERO_SPACE);
}
}
mark(DISH_HDR_MARK); //added 26th March 2016, by AnalysIR ( https://www.AnalysIR.com )
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(DISH_BIT_MARK);
space(DISH_ONE_SPACE);
} else {
mark(DISH_BIT_MARK);
space(DISH_ZERO_SPACE);
}
}
}
#endif

44
src/ir_JVC.cpp → ir_JVC.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// JJJJJ V V CCCC
@@ -18,13 +18,8 @@
#define JVC_RPT_LENGTH 60000
//+=============================================================================
// JVC does NOT repeat by sending a separate code (like NEC does).
// The JVC protocol repeats by skipping the header.
// To send a JVC repeat signal, send the original code value
// and set 'repeat' to true
//
#if SEND_JVC
void IRsend::sendJVC (unsigned long data, int nbits, bool repeat)
#ifdef SEND_JVC
void IRsend::sendJVC (unsigned long data, int nbits, int repeat)
{
// Set IR carrier frequency
enableIROut(38);
@@ -36,7 +31,7 @@ void IRsend::sendJVC (unsigned long data, int nbits, bool repeat)
}
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(JVC_BIT_MARK);
space(JVC_ONE_SPACE);
@@ -53,36 +48,37 @@ void IRsend::sendJVC (unsigned long data, int nbits, bool repeat)
#endif
//+=============================================================================
#if DECODE_JVC
bool IRrecv::decodeJVC (decode_results *results)
#ifdef DECODE_JVC
long IRrecv::decodeJVC (decode_results *results)
{
long data = 0;
int offset = 1; // Skip first space
// Check for repeat
if ( (irparams.rawlen - 1 == 33)
&& MATCH_MARK(results->rawbuf[offset], JVC_BIT_MARK)
&& MATCH_MARK(results->rawbuf[irparams.rawlen-1], JVC_BIT_MARK)
) {
results->bits = 0;
results->value = REPEAT;
if (irparams.rawlen - 1 == 33 &&
MATCH_MARK(results->rawbuf[offset], JVC_BIT_MARK) &&
MATCH_MARK(results->rawbuf[irparams.rawlen-1], JVC_BIT_MARK)) {
results->bits = 0;
results->value = REPEAT;
results->decode_type = JVC;
return true;
}
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], JVC_HDR_MARK)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], JVC_HDR_MARK)) return false ;
offset++;
if (irparams.rawlen < (2 * JVC_BITS) + 1 ) return false ;
if (irparams.rawlen < 2 * JVC_BITS + 1 ) return false ;
// Initial space
if (!MATCH_SPACE(results->rawbuf[offset++], JVC_HDR_SPACE)) return false ;
if (!MATCH_SPACE(results->rawbuf[offset], JVC_HDR_SPACE)) return false ;
offset++;
for (int i = 0; i < JVC_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], JVC_BIT_MARK)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], JVC_BIT_MARK)) return false ;
offset++;
if (MATCH_SPACE(results->rawbuf[offset], JVC_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], JVC_ZERO_SPACE)) data = (data << 1) | 0 ;
else if (MATCH_SPACE(results->rawbuf[offset], JVC_ZERO_SPACE)) data <<= 1 ;
else return false ;
offset++;
}

54
ir_LG.cpp Normal file
View File

@@ -0,0 +1,54 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// L GGGG
// L G
// L G GG
// L G G
// LLLLL GGG
//==============================================================================
#define LG_BITS 28
#define LG_HDR_MARK 8000
#define LG_HDR_SPACE 4000
#define LG_BIT_MARK 600
#define LG_ONE_SPACE 1600
#define LG_ZERO_SPACE 550
#define LG_RPT_LENGTH 60000
//+=============================================================================
#ifdef DECODE_LG
long IRrecv::decodeLG (decode_results *results)
{
long data = 0;
int offset = 1; // Skip first space
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset], LG_HDR_MARK)) return false ;
offset++;
if (irparams.rawlen < 2 * LG_BITS + 1 ) return false ;
// Initial space
if (!MATCH_SPACE(results->rawbuf[offset], LG_HDR_SPACE)) return false ;
offset++;
for (int i = 0; i < LG_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset], LG_BIT_MARK)) return false ;
offset++;
if (MATCH_SPACE(results->rawbuf[offset], LG_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], LG_ZERO_SPACE)) data <<= 1 ;
else return false ;
offset++;
}
// Stop bit
if (!MATCH_MARK(results->rawbuf[offset], LG_BIT_MARK)) return false ;
// Success
results->bits = LG_BITS;
results->value = data;
results->decode_type = LG;
return true;
}
#endif

8
src/ir_Mitsubishi.cpp → ir_Mitsubishi.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// MMMMM IIIII TTTTT SSSS U U BBBB IIIII SSSS H H IIIII
@@ -23,8 +23,8 @@
// #define MITSUBISHI_RPT_LENGTH 45000
//+=============================================================================
#if DECODE_MITSUBISHI
bool IRrecv::decodeMitsubishi (decode_results *results)
#ifdef DECODE_MITSUBISHI
long IRrecv::decodeMitsubishi (decode_results *results)
{
// Serial.print("?!? decoding Mitsubishi:");Serial.print(irparams.rawlen); Serial.print(" want "); Serial.println( 2 * MITSUBISHI_BITS + 2);
long data = 0;

12
src/ir_NEC.cpp → ir_NEC.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// N N EEEEE CCCC
@@ -18,7 +18,7 @@
#define NEC_RPT_SPACE 2250
//+=============================================================================
#if SEND_NEC
#ifdef SEND_NEC
void IRsend::sendNEC (unsigned long data, int nbits)
{
// Set IR carrier frequency
@@ -29,7 +29,7 @@ void IRsend::sendNEC (unsigned long data, int nbits)
space(NEC_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(NEC_BIT_MARK);
space(NEC_ONE_SPACE);
@@ -48,8 +48,8 @@ void IRsend::sendNEC (unsigned long data, int nbits)
//+=============================================================================
// NECs have a repeat only 4 items long
//
#if DECODE_NEC
bool IRrecv::decodeNEC (decode_results *results)
#ifdef DECODE_NEC
long IRrecv::decodeNEC (decode_results *results)
{
long data = 0; // We decode in to here; Start with nothing
int offset = 1; // Index in to results; Skip first entry!?

44
src/ir_Panasonic.cpp → ir_Panasonic.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// PPPP AAA N N AAA SSSS OOO N N IIIII CCCC
@@ -9,15 +9,15 @@
// P A A N N A A SSSS OOO N N IIIII CCCC
//==============================================================================
#define PANASONIC_BITS 48
#define PANASONIC_HDR_MARK 3502
#define PANASONIC_HDR_SPACE 1750
#define PANASONIC_BIT_MARK 502
#define PANASONIC_ONE_SPACE 1244
#define PANASONIC_ZERO_SPACE 400
#define PANASONIC_BITS 48
#define PANASONIC_HDR_MARK 3502
#define PANASONIC_HDR_SPACE 1750
#define PANASONIC_BIT_MARK 502
#define PANASONIC_ONE_SPACE 1244
#define PANASONIC_ZERO_SPACE 400
//+=============================================================================
#if SEND_PANASONIC
#ifdef SEND_PANASONIC
void IRsend::sendPanasonic (unsigned int address, unsigned long data)
{
// Set IR carrier frequency
@@ -28,14 +28,14 @@ void IRsend::sendPanasonic (unsigned int address, unsigned long data)
space(PANASONIC_HDR_SPACE);
// Address
for (unsigned long mask = 1UL << (16 - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (16 - 1); mask; mask >>= 1) {
mark(PANASONIC_BIT_MARK);
if (address & mask) space(PANASONIC_ONE_SPACE) ;
else space(PANASONIC_ZERO_SPACE) ;
}
// Data
for (unsigned long mask = 1UL << (32 - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (32 - 1); mask; mask >>= 1) {
mark(PANASONIC_BIT_MARK);
if (data & mask) space(PANASONIC_ONE_SPACE) ;
else space(PANASONIC_ZERO_SPACE) ;
@@ -48,14 +48,16 @@ void IRsend::sendPanasonic (unsigned int address, unsigned long data)
#endif
//+=============================================================================
#if DECODE_PANASONIC
bool IRrecv::decodePanasonic (decode_results *results)
#ifdef DECODE_PANASONIC
long IRrecv::decodePanasonic (decode_results *results)
{
unsigned long long data = 0;
int offset = 1;
unsigned long long data = 0;
int offset = 1;
if (!MATCH_MARK(results->rawbuf[offset++], PANASONIC_HDR_MARK )) return false ;
if (!MATCH_MARK(results->rawbuf[offset++], PANASONIC_HDR_SPACE)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], PANASONIC_HDR_MARK)) return false ;
offset++;
if (!MATCH_MARK(results->rawbuf[offset], PANASONIC_HDR_SPACE)) return false ;
offset++;
// decode address
for (int i = 0; i < PANASONIC_BITS; i++) {
@@ -67,10 +69,10 @@ bool IRrecv::decodePanasonic (decode_results *results)
offset++;
}
results->value = (unsigned long)data;
results->address = (unsigned int)(data >> 32);
results->decode_type = PANASONIC;
results->bits = PANASONIC_BITS;
results->value = (unsigned long)data;
results->panasonicAddress = (unsigned int)(data >> 32);
results->decode_type = PANASONIC;
results->bits = PANASONIC_BITS;
return true;
}

129
src/ir_RC5_RC6.cpp → ir_RC5_RC6.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//+=============================================================================
// Gets one undecoded level at a time from the raw buffer.
@@ -10,35 +10,28 @@
// t1 is the time interval for a single bit in microseconds.
// Returns -1 for error (measured time interval is not a multiple of t1).
//
#if (DECODE_RC5 || DECODE_RC6)
int IRrecv::getRClevel (decode_results *results, int *offset, int *used, int t1)
{
int width;
int val;
int correction;
int avail;
if (*offset >= results->rawlen) return SPACE ; // After end of recorded buffer, assume SPACE.
int width = results->rawbuf[*offset];
int val = ((*offset) % 2) ? MARK : SPACE;
int correction = (val == MARK) ? MARK_EXCESS : - MARK_EXCESS;
if (*offset >= results->rawlen) return SPACE ; // After end of recorded buffer, assume SPACE.
width = results->rawbuf[*offset];
val = ((*offset) % 2) ? MARK : SPACE;
correction = (val == MARK) ? MARK_EXCESS : - MARK_EXCESS;
int avail;
if (MATCH(width, t1 + correction)) avail = 1 ;
else if (MATCH(width, 2*t1 + correction)) avail = 2 ;
else if (MATCH(width, 3*t1 + correction)) avail = 3 ;
else return -1 ;
if (MATCH(width, ( t1) + correction)) avail = 1 ;
else if (MATCH(width, (2*t1) + correction)) avail = 2 ;
else if (MATCH(width, (3*t1) + correction)) avail = 3 ;
else return -1 ;
(*used)++;
if (*used >= avail) {
*used = 0;
(*offset)++;
}
(*used)++;
if (*used >= avail) {
*used = 0;
(*offset)++;
}
DBG_PRINTLN( (val == MARK) ? "MARK" : "SPACE" );
return val;
DBG_PRINTLN( (val == MARK) ? "MARK" : "SPACE" );
return val;
}
#endif
//==============================================================================
// RRRR CCCC 55555
@@ -49,12 +42,12 @@ int IRrecv::getRClevel (decode_results *results, int *offset, int *used, int
//
// NB: First bit must be a one (start bit)
//
#define MIN_RC5_SAMPLES 11
#define RC5_T1 889
#define RC5_RPT_LENGTH 46000
#define MIN_RC5_SAMPLES 11
#define RC5_T1 889
#define RC5_RPT_LENGTH 46000
//+=============================================================================
#if SEND_RC5
#ifdef SEND_RC5
void IRsend::sendRC5 (unsigned long data, int nbits)
{
// Set IR carrier frequency
@@ -66,7 +59,7 @@ void IRsend::sendRC5 (unsigned long data, int nbits)
mark(RC5_T1);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
space(RC5_T1); // 1 is space, then mark
mark(RC5_T1);
@@ -81,28 +74,25 @@ void IRsend::sendRC5 (unsigned long data, int nbits)
#endif
//+=============================================================================
#if DECODE_RC5
bool IRrecv::decodeRC5 (decode_results *results)
#ifdef DECODE_RC5
long IRrecv::decodeRC5 (decode_results *results)
{
int nbits;
long data = 0;
int used = 0;
int offset = 1; // Skip gap space
if (irparams.rawlen < MIN_RC5_SAMPLES + 2) return false ;
int offset = 1; // Skip gap space
long data = 0;
int used = 0;
// Get start bits
if (getRClevel(results, &offset, &used, RC5_T1) != MARK) return false ;
if (getRClevel(results, &offset, &used, RC5_T1) != SPACE) return false ;
if (getRClevel(results, &offset, &used, RC5_T1) != MARK) return false ;
int nbits;
for (nbits = 0; offset < irparams.rawlen; nbits++) {
int levelA = getRClevel(results, &offset, &used, RC5_T1);
int levelB = getRClevel(results, &offset, &used, RC5_T1);
int levelA = getRClevel(results, &offset, &used, RC5_T1);
int levelB = getRClevel(results, &offset, &used, RC5_T1);
if ((levelA == SPACE) && (levelB == MARK )) data = (data << 1) | 1 ;
else if ((levelA == MARK ) && (levelB == SPACE)) data = (data << 1) | 0 ;
else return false ;
if (levelA == SPACE && levelB == MARK) data = (data << 1) | 1 ; // 1 bit
else if (levelA == MARK && levelB == SPACE) data <<= 1 ; // zero bit
else return false ;
}
// Success
@@ -122,13 +112,13 @@ bool IRrecv::decodeRC5 (decode_results *results)
//
// NB : Caller needs to take care of flipping the toggle bit
//
#define MIN_RC6_SAMPLES 1
#define RC6_HDR_MARK 2666
#define RC6_HDR_SPACE 889
#define RC6_T1 444
#define RC6_RPT_LENGTH 46000
#define MIN_RC6_SAMPLES 1
#define RC6_HDR_MARK 2666
#define RC6_HDR_SPACE 889
#define RC6_T1 444
#define RC6_RPT_LENGTH 46000
#if SEND_RC6
#ifdef SEND_RC6
void IRsend::sendRC6 (unsigned long data, int nbits)
{
// Set IR carrier frequency
@@ -143,7 +133,7 @@ void IRsend::sendRC6 (unsigned long data, int nbits)
space(RC6_T1);
// Data
for (unsigned long i = 1, mask = 1UL << (nbits - 1); mask; i++, mask >>= 1) {
for (unsigned long i = 1, mask = 1 << (nbits - 1); mask; i++, mask >>= 1) {
// The fourth bit we send is a "double width trailer bit"
int t = (i == 4) ? (RC6_T1 * 2) : (RC6_T1) ;
if (data & mask) {
@@ -160,47 +150,46 @@ void IRsend::sendRC6 (unsigned long data, int nbits)
#endif
//+=============================================================================
#if DECODE_RC6
bool IRrecv::decodeRC6 (decode_results *results)
#ifdef DECODE_RC6
long IRrecv::decodeRC6 (decode_results *results)
{
int nbits;
long data = 0;
int used = 0;
int offset = 1; // Skip first space
if (results->rawlen < MIN_RC6_SAMPLES) return false ;
int offset = 1; // Skip first space
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], RC6_HDR_MARK)) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], RC6_HDR_SPACE)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], RC6_HDR_MARK)) return false ;
offset++;
if (!MATCH_SPACE(results->rawbuf[offset], RC6_HDR_SPACE)) return false ;
offset++;
long data = 0;
int used = 0;
// Get start bit (1)
if (getRClevel(results, &offset, &used, RC6_T1) != MARK) return false ;
if (getRClevel(results, &offset, &used, RC6_T1) != SPACE) return false ;
int nbits;
for (nbits = 0; offset < results->rawlen; nbits++) {
int levelA, levelB; // Next two levels
int levelA, levelB; // Next two levels
levelA = getRClevel(results, &offset, &used, RC6_T1);
if (nbits == 3) {
// T bit is double wide; make sure second half matches
if (levelA != getRClevel(results, &offset, &used, RC6_T1)) return false;
}
levelB = getRClevel(results, &offset, &used, RC6_T1);
if (nbits == 3) {
// T bit is double wide; make sure second half matches
if (levelB != getRClevel(results, &offset, &used, RC6_T1)) return false;
}
if ((levelA == MARK ) && (levelB == SPACE)) data = (data << 1) | 1 ; // inverted compared to RC5
else if ((levelA == SPACE) && (levelB == MARK )) data = (data << 1) | 0 ; // ...
else return false ; // Error
if (levelA == MARK && levelB == SPACE) data = (data << 1) | 1 ; // 1-bit (reversed compared to RC5)
else if (levelA == SPACE && levelB == MARK) data <<= 1 ; // zero bit
else return false ; // Error
}
// Success
results->bits = nbits;
results->value = data;
results->bits = nbits;
results->value = data;
results->decode_type = RC6;
return true;
}

36
src/ir_Samsung.cpp → ir_Samsung.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS AAA MMM SSSS U U N N GGGG
@@ -18,7 +18,7 @@
#define SAMSUNG_RPT_SPACE 2250
//+=============================================================================
#if SEND_SAMSUNG
#ifdef SEND_SAMSUNG
void IRsend::sendSAMSUNG (unsigned long data, int nbits)
{
// Set IR carrier frequency
@@ -29,7 +29,7 @@ void IRsend::sendSAMSUNG (unsigned long data, int nbits)
space(SAMSUNG_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(SAMSUNG_BIT_MARK);
space(SAMSUNG_ONE_SPACE);
@@ -48,36 +48,38 @@ void IRsend::sendSAMSUNG (unsigned long data, int nbits)
//+=============================================================================
// SAMSUNGs have a repeat only 4 items long
//
#if DECODE_SAMSUNG
bool IRrecv::decodeSAMSUNG (decode_results *results)
#ifdef DECODE_SAMSUNG
long IRrecv::decodeSAMSUNG (decode_results *results)
{
long data = 0;
int offset = 1; // Skip first space
int offset = 1; // Skip first space
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset], SAMSUNG_HDR_MARK)) return false ;
offset++;
// Check for repeat
if ( (irparams.rawlen == 4)
&& MATCH_SPACE(results->rawbuf[offset], SAMSUNG_RPT_SPACE)
&& MATCH_MARK(results->rawbuf[offset+1], SAMSUNG_BIT_MARK)
) {
results->bits = 0;
results->value = REPEAT;
if (irparams.rawlen == 4 &&
MATCH_SPACE(results->rawbuf[offset], SAMSUNG_RPT_SPACE) &&
MATCH_MARK(results->rawbuf[offset+1], SAMSUNG_BIT_MARK)) {
results->bits = 0;
results->value = REPEAT;
results->decode_type = SAMSUNG;
return true;
}
if (irparams.rawlen < (2 * SAMSUNG_BITS) + 4) return false ;
if (irparams.rawlen < 2 * SAMSUNG_BITS + 4) return false ;
// Initial space
if (!MATCH_SPACE(results->rawbuf[offset++], SAMSUNG_HDR_SPACE)) return false ;
if (!MATCH_SPACE(results->rawbuf[offset], SAMSUNG_HDR_SPACE)) return false ;
offset++;
for (int i = 0; i < SAMSUNG_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], SAMSUNG_BIT_MARK)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], SAMSUNG_BIT_MARK)) return false ;
offset++;
if (MATCH_SPACE(results->rawbuf[offset], SAMSUNG_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], SAMSUNG_ZERO_SPACE)) data = (data << 1) | 0 ;
else if (MATCH_SPACE(results->rawbuf[offset], SAMSUNG_ZERO_SPACE)) data <<= 1 ;
else return false ;
offset++;
}

79
ir_Sanyo.cpp Normal file
View File

@@ -0,0 +1,79 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS AAA N N Y Y OOO
// S A A NN N Y Y O O
// SSS AAAAA N N N Y O O
// S A A N NN Y O O
// SSSS A A N N Y OOO
//==============================================================================
// I think this is a Sanyo decoder: Serial = SA 8650B
// Looks like Sony except for timings, 48 chars of data and time/space different
#define SANYO_BITS 12
#define SANYO_HDR_MARK 3500 // seen range 3500
#define SANYO_HDR_SPACE 950 // seen 950
#define SANYO_ONE_MARK 2400 // seen 2400
#define SANYO_ZERO_MARK 700 // seen 700
#define SANYO_DOUBLE_SPACE_USECS 800 // usually ssee 713 - not using ticks as get number wrapround
#define SANYO_RPT_LENGTH 45000
//+=============================================================================
#ifdef DECODE_SANYO
long IRrecv::decodeSanyo (decode_results *results)
{
long data = 0;
if (irparams.rawlen < 2 * SANYO_BITS + 2) return false ;
int offset = 0; // Skip first space
// Initial space
#if 0
// Put this back in for debugging - note can't use #DEBUG as if Debug on we don't see the repeat cos of the delay
Serial.print("IR Gap: ");
Serial.println( results->rawbuf[offset]);
Serial.println( "test against:");
Serial.println(results->rawbuf[offset]);
#endif
if (results->rawbuf[offset] < SANYO_DOUBLE_SPACE_USECS) {
// Serial.print("IR Gap found: ");
results->bits = 0;
results->value = REPEAT;
results->decode_type = SANYO;
return true;
}
offset++;
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset], SANYO_HDR_MARK)) return false ;
offset++;
// Skip Second Mark
if (!MATCH_MARK(results->rawbuf[offset], SANYO_HDR_MARK)) return false ;
offset++;
while (offset + 1 < irparams.rawlen) {
if (!MATCH_SPACE(results->rawbuf[offset], SANYO_HDR_SPACE)) break ;
offset++;
if (MATCH_MARK(results->rawbuf[offset], SANYO_ONE_MARK)) data = (data << 1) | 1 ;
else if (MATCH_MARK(results->rawbuf[offset], SANYO_ZERO_MARK)) data <<= 1 ;
else return false ;
offset++;
}
// Success
results->bits = (offset - 1) / 2;
if (results->bits < 12) {
results->bits = 0;
return false;
}
results->value = data;
results->decode_type = SANYO;
return true;
}
#endif

66
src/ir_Sharp.cpp → ir_Sharp.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS H H AAA RRRR PPPP
@@ -9,63 +9,63 @@
// SSSS H H A A R R P
//==============================================================================
// Sharp and DISH support by Todd Treece: http://unionbridge.org/design/ircommand
// Sharp and DISH support by Todd Treece ( http://unionbridge.org/design/ircommand )
//
// The send function has the necessary repeat built in because of the need to
// invert the signal.
//
// Sharp protocol documentation:
// http://www.sbprojects.com/knowledge/ir/sharp.htm
// http://www.sbprojects.com/knowledge/ir/sharp.htm
//
// Here is the LIRC file I found that seems to match the remote codes from the
// oscilloscope:
// Sharp LCD TV:
// http://lirc.sourceforge.net/remotes/sharp/GA538WJSA
#define SHARP_BITS 15
#define SHARP_BIT_MARK 245
#define SHARP_ONE_SPACE 1805
#define SHARP_ZERO_SPACE 795
#define SHARP_GAP 600000
#define SHARP_RPT_SPACE 3000
#define SHARP_BITS 15
#define SHARP_TOGGLE_MASK 0x3FF
#define SHARP_BIT_MARK 245
#define SHARP_ONE_SPACE 1805
#define SHARP_ZERO_SPACE 795
#define SHARP_GAP 600000
#define SHARP_TOGGLE_MASK 0x3FF
#define SHARP_RPT_SPACE 3000
//+=============================================================================
#if SEND_SHARP
#ifdef SEND_SHARP
void IRsend::sendSharpRaw (unsigned long data, int nbits)
{
enableIROut(38);
unsigned long invertdata = data ^ SHARP_TOGGLE_MASK;
enableIROut(38);
// Sending codes in bursts of 3 (normal, inverted, normal) makes transmission
// much more reliable. That's the exact behaviour of CD-S6470 remote control.
for (int n = 0; n < 3; n++) {
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(SHARP_BIT_MARK);
space(SHARP_ONE_SPACE);
} else {
mark(SHARP_BIT_MARK);
space(SHARP_ZERO_SPACE);
}
}
// Sending codes in bursts of 3 (normal, inverted, normal) makes transmission
// much more reliable. That's the exact behaviour of CD-S6470 remote control.
for (int n = 0; n < 3; n++) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(SHARP_BIT_MARK);
space(SHARP_ONE_SPACE);
} else {
mark(SHARP_BIT_MARK);
space(SHARP_ZERO_SPACE);
}
}
mark(SHARP_BIT_MARK);
space(SHARP_ZERO_SPACE);
delay(40);
mark(SHARP_BIT_MARK);
space(SHARP_ZERO_SPACE);
delay(40);
data = data ^ SHARP_TOGGLE_MASK;
}
data = data ^ SHARP_TOGGLE_MASK;
}
}
#endif
//+=============================================================================
// Sharp send compatible with data obtained through decodeSharp()
// ^^^^^^^^^^^^^ FUNCTION MISSING!
//
#if SEND_SHARP
void IRsend::sendSharp (unsigned int address, unsigned int command)
{
sendSharpRaw((address << 10) | (command << 2) | 2, SHARP_BITS);
sendSharpRaw((address << 10) | (command << 2) | 2, 15);
}
#endif

35
src/ir_Sony.cpp → ir_Sony.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS OOO N N Y Y
@@ -18,7 +18,7 @@
#define SONY_DOUBLE_SPACE_USECS 500 // usually ssee 713 - not using ticks as get number wrapround
//+=============================================================================
#if SEND_SONY
#ifdef SEND_SONY
void IRsend::sendSony (unsigned long data, int nbits)
{
// Set IR carrier frequency
@@ -29,7 +29,7 @@ void IRsend::sendSony (unsigned long data, int nbits)
space(SONY_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(SONY_ONE_MARK);
space(SONY_HDR_SPACE);
@@ -44,13 +44,12 @@ void IRsend::sendSony (unsigned long data, int nbits)
#endif
//+=============================================================================
#if DECODE_SONY
bool IRrecv::decodeSony (decode_results *results)
#ifdef DECODE_SONY
long IRrecv::decodeSony (decode_results *results)
{
long data = 0;
int offset = 0; // Dont skip first space, check its size
if (irparams.rawlen < (2 * SONY_BITS) + 2) return false ;
long data = 0;
if (irparams.rawlen < 2 * SONY_BITS + 2) return false ;
int offset = 0; // Dont skip first space, check its size
// Some Sony's deliver repeats fast after first
// unfortunately can't spot difference from of repeat from two fast clicks
@@ -58,25 +57,21 @@ bool IRrecv::decodeSony (decode_results *results)
// Serial.print("IR Gap found: ");
results->bits = 0;
results->value = REPEAT;
# ifdef DECODE_SANYO
results->decode_type = SANYO;
# else
results->decode_type = UNKNOWN;
# endif
results->decode_type = SONY;
return true;
}
offset++;
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], SONY_HDR_MARK)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], SONY_HDR_MARK)) return false ;
offset++;
while (offset + 1 < irparams.rawlen) {
if (!MATCH_SPACE(results->rawbuf[offset++], SONY_HDR_SPACE)) break ;
if (!MATCH_SPACE(results->rawbuf[offset], SONY_HDR_SPACE)) break ;
offset++;
if (MATCH_MARK(results->rawbuf[offset], SONY_ONE_MARK)) data = (data << 1) | 1 ;
else if (MATCH_MARK(results->rawbuf[offset], SONY_ZERO_MARK)) data = (data << 1) | 0 ;
else if (MATCH_MARK(results->rawbuf[offset], SONY_ZERO_MARK)) data <<= 1 ;
else return false ;
offset++;
}

43
src/ir_Whynter.cpp → ir_Whynter.cpp
View File

@@ -1,5 +1,5 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// W W H H Y Y N N TTTTT EEEEE RRRRR
@@ -19,7 +19,7 @@
#define WHYNTER_ZERO_SPACE 750
//+=============================================================================
#if SEND_WHYNTER
#ifdef SEND_WHYNTER
void IRsend::sendWhynter (unsigned long data, int nbits)
{
// Set IR carrier frequency
@@ -34,7 +34,7 @@ void IRsend::sendWhynter (unsigned long data, int nbits)
space(WHYNTER_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
for (unsigned long mask = 1 << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(WHYNTER_ONE_MARK);
space(WHYNTER_ONE_SPACE);
@@ -51,30 +51,35 @@ void IRsend::sendWhynter (unsigned long data, int nbits)
#endif
//+=============================================================================
#if DECODE_WHYNTER
bool IRrecv::decodeWhynter (decode_results *results)
#ifdef DECODE_WHYNTER
long IRrecv::decodeWhynter (decode_results *results)
{
long data = 0;
int offset = 1; // skip initial space
long data = 0;
// Check we have the right amount of data
if (irparams.rawlen < (2 * WHYNTER_BITS) + 6) return false ;
if (irparams.rawlen < 2 * WHYNTER_BITS + 6) return false ;
// Sequence begins with a bit mark and a zero space
if (!MATCH_MARK (results->rawbuf[offset++], WHYNTER_BIT_MARK )) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], WHYNTER_ZERO_SPACE)) return false ;
int offset = 1; // skip initial space
// sequence begins with a bit mark and a zero space
if (!MATCH_MARK(results->rawbuf[offset], WHYNTER_BIT_MARK)) return false ;
offset++;
if (!MATCH_SPACE(results->rawbuf[offset], WHYNTER_ZERO_SPACE)) return false ;
offset++;
// header mark and space
if (!MATCH_MARK (results->rawbuf[offset++], WHYNTER_HDR_MARK )) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], WHYNTER_HDR_SPACE)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], WHYNTER_HDR_MARK)) return false ;
offset++;
if (!MATCH_SPACE(results->rawbuf[offset], WHYNTER_HDR_SPACE)) return false ;
offset++;
// data bits
for (int i = 0; i < WHYNTER_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], WHYNTER_BIT_MARK)) return false ;
if (!MATCH_MARK(results->rawbuf[offset], WHYNTER_BIT_MARK)) return false ;
offset++;
if (MATCH_SPACE(results->rawbuf[offset], WHYNTER_ONE_SPACE )) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], WHYNTER_ZERO_SPACE)) data = (data << 1) | 0 ;
else return false ;
if (MATCH_SPACE(results->rawbuf[offset], WHYNTER_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset],WHYNTER_ZERO_SPACE)) data <<= 1 ;
else return false ;
offset++;
}

2
keywords.txt
View File

@@ -31,8 +31,8 @@ sendSharp KEYWORD2
sendSharpRaw KEYWORD2
sendPanasonic KEYWORD2
sendJVC KEYWORD2
sendLG KEYWORD2
#
#######################################
# Constants (LITERAL1)
#######################################

35
library.json
View File

@@ -1,27 +1,12 @@
{
"name": "IRremote",
"keywords": "infrared, ir, remote",
"description": "Send and receive infrared signals with multiple protocols",
"repository":
{
"type": "git",
"url": "https://github.com/z3t0/Arduino-IRremote.git"
},
"license": "LGPL-2.1",
"version": "3.0.0",
"frameworks": "arduino",
"platforms": "atmelavr",
"authors" :
[
{
"name":"Rafi Khan",
"email":"zetoslab@gmail.com",
"url":"https://z3t0.github.io",
"maintainer": true
},
{
"name":"Ken Shirriff",
"email":"ken.shirriff@gmail.com"
}
]
"name": "IRremote",
"keywords": "infrared, ir, remote",
"description": "Send and receive infrared signals with multiple protocols",
"repository":
{
"type": "git",
"url": "https://github.com/shirriff/Arduino-IRremote.git"
},
"frameworks": "arduino",
"platforms": "atmelavr"
}

10
library.properties
View File

@@ -1,9 +1,9 @@
name=IRremote
version=2.2.3
author= Rafi Khan, Shirriff
maintainer=Rafi Khan
version=1.0
author=shirriff
maintainer=shirriff
sentence=Send and receive infrared signals with multiple protocols
paragraph=has extensive support for many different platforms
paragraph=Send and receive infrared signals with multiple protocols
category=Signal Input/Output
url=http://z3t0.github.io/Arduino-IRremote/
url=https://github.com/shirriff/Arduino-IRremote.git
architectures=*

200
src/IRremote.cpp
View File

@@ -1,200 +0,0 @@
//******************************************************************************
// 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 "InfraredRemote.h"
# include "lib/InfraredRemoteInt.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
}
}

344
src/InfraredRemote.h
View File

@@ -1,344 +0,0 @@
//******************************************************************************
// 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
// Edited by Mitra to add new controller SANYO
//
// 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
//******************************************************************************
#ifndef IRremote_h
#define IRremote_h
//------------------------------------------------------------------------------
// The ISR header contains several useful macros the user may wish to use
//
#include "lib/InfraredRemoteInt.h"
//------------------------------------------------------------------------------
// Supported IR protocols
// Each protocol you include costs memory and, during decode, costs time
// Disable (set to 0) all the protocols you do not need/want!
//
#define DECODE_RC5 1
#define SEND_RC5 1
#define DECODE_RC6 1
#define SEND_RC6 1
#define DECODE_NEC 1
#define SEND_NEC 1
#define DECODE_SONY 1
#define SEND_SONY 1
#define DECODE_PANASONIC 1
#define SEND_PANASONIC 1
#define DECODE_JVC 1
#define SEND_JVC 1
#define DECODE_SAMSUNG 1
#define SEND_SAMSUNG 1
#define DECODE_WHYNTER 1
#define SEND_WHYNTER 1
#define DECODE_AIWA_RC_T501 1
#define SEND_AIWA_RC_T501 1
#define DECODE_LG 1
#define SEND_LG 1
#define DECODE_SANYO 1
#define SEND_SANYO 0 // NOT WRITTEN
#define DECODE_MITSUBISHI 1
#define SEND_MITSUBISHI 0 // NOT WRITTEN
#define DECODE_DISH 0 // NOT WRITTEN
#define SEND_DISH 1
#define DECODE_SHARP 0 // NOT WRITTEN
#define SEND_SHARP 1
#define DECODE_DENON 1
#define SEND_DENON 1
#define DECODE_PRONTO 0 // This function doe not logically make sense
#define SEND_PRONTO 1
#define DECODE_LEGO_PF 0 // NOT WRITTEN
#define SEND_LEGO_PF 1
//------------------------------------------------------------------------------
// When sending a Pronto code we request to send either the "once" code
// or the "repeat" code
// If the code requested does not exist we can request to fallback on the
// other code (the one we did not explicitly request)
//
// I would suggest that "fallback" will be the standard calling method
// The last paragraph on this page discusses the rationale of this idea:
// http://www.remotecentral.com/features/irdisp2.htm
//
#define PRONTO_ONCE false
#define PRONTO_REPEAT true
#define PRONTO_FALLBACK true
#define PRONTO_NOFALLBACK false
//------------------------------------------------------------------------------
// An enumerated list of all supported formats
// You do NOT need to remove entries from this list when disabling protocols!
//
typedef
enum {
UNKNOWN = -1,
UNUSED = 0,
RC5,
RC6,
NEC,
SONY,
PANASONIC,
JVC,
SAMSUNG,
WHYNTER,
AIWA_RC_T501,
LG,
SANYO,
MITSUBISHI,
DISH,
SHARP,
DENON,
PRONTO,
LEGO_PF,
}
decode_type_t;
//------------------------------------------------------------------------------
// Set DEBUG to 1 for lots of lovely debug output
//
#define DEBUG 0
//------------------------------------------------------------------------------
// Debug directives
//
#if DEBUG
# define DBG_PRINT(...) Serial.print(__VA_ARGS__)
# define DBG_PRINTLN(...) Serial.println(__VA_ARGS__)
#else
# define DBG_PRINT(...)
# define DBG_PRINTLN(...)
#endif
//------------------------------------------------------------------------------
// Mark & Space matching functions
//
int MATCH (int measured, int desired) ;
int MATCH_MARK (int measured_ticks, int desired_us) ;
int MATCH_SPACE (int measured_ticks, int desired_us) ;
//------------------------------------------------------------------------------
// Results returned from the decoder
//
class decode_results
{
public:
decode_type_t decode_type; // UNKNOWN, NEC, SONY, RC5, ...
unsigned int address; // Used by Panasonic & Sharp [16-bits]
unsigned long value; // Decoded value [max 32-bits]
int bits; // Number of bits in decoded value
volatile unsigned int *rawbuf; // Raw intervals in 50uS ticks
int rawlen; // Number of records in rawbuf
int overflow; // true iff IR raw code too long
};
//------------------------------------------------------------------------------
// Decoded value for NEC when a repeat code is received
//
#define REPEAT 0xFFFFFFFF
//------------------------------------------------------------------------------
// Main class for receiving IR
//
class IRrecv
{
public:
IRrecv (int recvpin) ;
IRrecv (int recvpin, int blinkpin);
void blink13 (int blinkflag) ;
int decode (decode_results *results) ;
void enableIRIn ( ) ;
bool isIdle ( ) ;
void resume ( ) ;
private:
long decodeHash (decode_results *results) ;
int compare (unsigned int oldval, unsigned int newval) ;
//......................................................................
# if (DECODE_RC5 || DECODE_RC6)
// This helper function is shared by RC5 and RC6
int getRClevel (decode_results *results, int *offset, int *used, int t1) ;
# endif
# if DECODE_RC5
bool decodeRC5 (decode_results *results) ;
# endif
# if DECODE_RC6
bool decodeRC6 (decode_results *results) ;
# endif
//......................................................................
# if DECODE_NEC
bool decodeNEC (decode_results *results) ;
# endif
//......................................................................
# if DECODE_SONY
bool decodeSony (decode_results *results) ;
# endif
//......................................................................
# if DECODE_PANASONIC
bool decodePanasonic (decode_results *results) ;
# endif
//......................................................................
# if DECODE_JVC
bool decodeJVC (decode_results *results) ;
# endif
//......................................................................
# if DECODE_SAMSUNG
bool decodeSAMSUNG (decode_results *results) ;
# endif
//......................................................................
# if DECODE_WHYNTER
bool decodeWhynter (decode_results *results) ;
# endif
//......................................................................
# if DECODE_AIWA_RC_T501
bool decodeAiwaRCT501 (decode_results *results) ;
# endif
//......................................................................
# if DECODE_LG
bool decodeLG (decode_results *results) ;
# endif
//......................................................................
# if DECODE_SANYO
bool decodeSanyo (decode_results *results) ;
# endif
//......................................................................
# if DECODE_MITSUBISHI
bool decodeMitsubishi (decode_results *results) ;
# endif
//......................................................................
# if DECODE_DISH
bool decodeDish (decode_results *results) ; // NOT WRITTEN
# endif
//......................................................................
# if DECODE_SHARP
bool decodeSharp (decode_results *results) ; // NOT WRITTEN
# endif
//......................................................................
# if DECODE_DENON
bool decodeDenon (decode_results *results) ;
# endif
//......................................................................
# if DECODE_LEGO_PF
bool decodeLegoPowerFunctions (decode_results *results) ;
# endif
} ;
//------------------------------------------------------------------------------
// Main class for sending IR
//
class IRsend
{
public:
IRsend () { }
void custom_delay_usec (unsigned long uSecs);
void enableIROut (int khz) ;
void mark (unsigned int usec) ;
void space (unsigned int usec) ;
void sendRaw (const unsigned int buf[], unsigned int len, unsigned int hz) ;
//......................................................................
# if SEND_RC5
void sendRC5 (unsigned long data, int nbits) ;
# endif
# if SEND_RC6
void sendRC6 (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_NEC
void sendNEC (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_SONY
void sendSony (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_PANASONIC
void sendPanasonic (unsigned int address, unsigned long data) ;
# endif
//......................................................................
# if SEND_JVC
// JVC does NOT repeat by sending a separate code (like NEC does).
// The JVC protocol repeats by skipping the header.
// To send a JVC repeat signal, send the original code value
// and set 'repeat' to true
void sendJVC (unsigned long data, int nbits, bool repeat) ;
# endif
//......................................................................
# if SEND_SAMSUNG
void sendSAMSUNG (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_WHYNTER
void sendWhynter (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_AIWA_RC_T501
void sendAiwaRCT501 (int code) ;
# endif
//......................................................................
# if SEND_LG
void sendLG (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_SANYO
void sendSanyo ( ) ; // NOT WRITTEN
# endif
//......................................................................
# if SEND_MISUBISHI
void sendMitsubishi ( ) ; // NOT WRITTEN
# endif
//......................................................................
# if SEND_DISH
void sendDISH (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_SHARP
void sendSharpRaw (unsigned long data, int nbits) ;
void sendSharp (unsigned int address, unsigned int command) ;
# endif
//......................................................................
# if SEND_DENON
void sendDenon (unsigned long data, int nbits) ;
# endif
//......................................................................
# if SEND_PRONTO
void sendPronto (char* code, bool repeat, bool fallback) ;
# endif
//......................................................................
# if SEND_LEGO_PF
void sendLegoPowerFunctions (uint16_t data, bool repeat = true) ;
# endif
} ;
#endif

513
src/irPronto.cpp
View File

@@ -1,513 +0,0 @@
#define TEST 0
#if TEST
# define SEND_PRONTO 1
# define PRONTO_ONCE false
# define PRONTO_REPEAT true
# define PRONTO_FALLBACK true
# define PRONTO_NOFALLBACK false
#endif
#if SEND_PRONTO
//******************************************************************************
#if TEST
# include <stdio.h>
void enableIROut (int freq) { printf("\nFreq = %d KHz\n", freq); }
void mark (int t) { printf("+%d," , t); }
void space (int t) { printf("-%d, ", t); }
#else
# include "InfraredRemote.h"
#endif // TEST
//+=============================================================================
// Check for a valid hex digit
//
bool ishex (char ch)
{
return ( ((ch >= '0') && (ch <= '9')) ||
((ch >= 'A') && (ch <= 'F')) ||
((ch >= 'a') && (ch <= 'f')) ) ? true : false ;
}
//+=============================================================================
// Check for a valid "blank" ... '\0' is a valid "blank"
//
bool isblank (char ch)
{
return ((ch == ' ') || (ch == '\t') || (ch == '\0')) ? true : false ;
}
//+=============================================================================
// Bypass spaces
//
bool byp (char** pcp)
{
while (isblank(**pcp)) (*pcp)++ ;
}
//+=============================================================================
// Hex-to-Byte : Decode a hex digit
// We assume the character has already been validated
//
uint8_t htob (char ch)
{
if ((ch >= '0') && (ch <= '9')) return ch - '0' ;
if ((ch >= 'A') && (ch <= 'F')) return ch - 'A' + 10 ;
if ((ch >= 'a') && (ch <= 'f')) return ch - 'a' + 10 ;
}
//+=============================================================================
// Hex-to-Word : Decode a block of 4 hex digits
// We assume the string has already been validated
// and the pointer being passed points at the start of a block of 4 hex digits
//
uint16_t htow (char* cp)
{
return ( (htob(cp[0]) << 12) | (htob(cp[1]) << 8) |
(htob(cp[2]) << 4) | (htob(cp[3]) ) ) ;
}
//+=============================================================================
//
bool sendPronto (char* s, bool repeat, bool fallback)
{
int i;
int len;
int skip;
char* cp;
uint16_t freq; // Frequency in KHz
uint8_t usec; // pronto uSec/tick
uint8_t once;
uint8_t rpt;
// Validate the string
for (cp = s; *cp; cp += 4) {
byp(&cp);
if ( !ishex(cp[0]) || !ishex(cp[1]) ||
!ishex(cp[2]) || !ishex(cp[3]) || !isblank(cp[4]) ) return false ;
}
// We will use cp to traverse the string
cp = s;
// Check mode = Oscillated/Learned
byp(&cp);
if (htow(cp) != 0000) return false;
cp += 4;
// Extract & set frequency
byp(&cp);
freq = (int)(1000000 / (htow(cp) * 0.241246)); // Rounding errors will occur, tolerance is +/- 10%
usec = (int)(((1.0 / freq) * 1000000) + 0.5); // Another rounding error, thank Cod for analogue electronics
freq /= 1000; // This will introduce a(nother) rounding error which we do not want in the usec calcualtion
cp += 4;
// Get length of "once" code
byp(&cp);
once = htow(cp);
cp += 4;
// Get length of "repeat" code
byp(&cp);
rpt = htow(cp);
cp += 4;
// Which code are we sending?
if (fallback) { // fallback on the "other" code if "this" code is not present
if (!repeat) { // requested 'once'
if (once) len = once * 2, skip = 0 ; // if once exists send it
else len = rpt * 2, skip = 0 ; // else send repeat code
} else { // requested 'repeat'
if (rpt) len = rpt * 2, skip = 0 ; // if rpt exists send it
else len = once * 2, skip = 0 ; // else send once code
}
} else { // Send what we asked for, do not fallback if the code is empty!
if (!repeat) len = once * 2, skip = 0 ; // 'once' starts at 0
else len = rpt * 2, skip = once ; // 'repeat' starts where 'once' ends
}
// Skip to start of code
for (i = 0; i < skip; i++, cp += 4) byp(&cp) ;
// Send code
enableIROut(freq);
for (i = 0; i < len; i++) {
byp(&cp);
if (i & 1) space(htow(cp) * usec);
else mark (htow(cp) * usec);
cp += 4;
}
}
//+=============================================================================
#if TEST
int main ( )
{
char prontoTest[] =
"0000 0070 0000 0032 0080 0040 0010 0010 0010 0030 " // 10
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 20
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 30
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0010 " // 40
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 50
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0010 " // 60
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 70
"0010 0010 0010 0030 0010 0010 0010 0030 0010 0010 " // 80
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0030 " // 90
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0030 " // 100
"0010 0030 0010 0aa6"; // 104
sendPronto(prontoTest, PRONTO_ONCE, PRONTO_FALLBACK); // once code
sendPronto(prontoTest, PRONTO_REPEAT, PRONTO_FALLBACK); // repeat code
sendPronto(prontoTest, PRONTO_ONCE, PRONTO_NOFALLBACK); // once code
sendPronto(prontoTest, PRONTO_REPEAT, PRONTO_NOFALLBACK); // repeat code
return 0;
}
#endif // TEST
#endif // SEND_PRONTO
#if 0
//******************************************************************************
// Sources:
// http://www.remotecentral.com/features/irdisp2.htm
// http://www.hifi-remote.com/wiki/index.php?title=Working_With_Pronto_Hex
//******************************************************************************
#include <stdint.h>
#include <stdio.h>
#define IRPRONTO
#include "lib/InfraredRemoteInt.h" // The Arduino IRremote library defines USECPERTICK
//------------------------------------------------------------------------------
// Source: https://www.google.co.uk/search?q=DENON+MASTER+IR+Hex+Command+Sheet
// -> http://assets.denon.com/documentmaster/us/denon%20master%20ir%20hex.xls
//
char prontoTest[] =
"0000 0070 0000 0032 0080 0040 0010 0010 0010 0030 " // 10
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 20
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 30
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0010 " // 40
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 50
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0010 " // 60
"0010 0010 0010 0010 0010 0010 0010 0010 0010 0010 " // 70
"0010 0010 0010 0030 0010 0010 0010 0030 0010 0010 " // 80
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0030 " // 90
"0010 0010 0010 0030 0010 0010 0010 0010 0010 0030 " // 100
"0010 0030 0010 0aa6"; // 104
//------------------------------------------------------------------------------
// This is the longest code we can support
#define CODEMAX 200
//------------------------------------------------------------------------------
// This is the data we pull out of the pronto code
typedef
struct {
int freq; // Carrier frequency (in Hz)
int usec; // uSec per tick (based on freq)
int codeLen; // Length of code
uint16_t code[CODEMAX]; // Code in hex
int onceLen; // Length of "once" transmit
uint16_t* once; // Pointer to start within 'code'
int rptLen; // Length of "repeat" transmit
uint16_t* rpt; // Pointer to start within 'code'
}
pronto_t;
//------------------------------------------------------------------------------
// From what I have seen, the only time we go over 8-bits is the 'space'
// on the end which creates the lead-out/inter-code gap. Assuming I'm right,
// we can code this up as a special case and otherwise halve the size of our
// data!
// Ignoring the first four values (the config data) and the last value
// (the lead-out), if you find a protocol that uses values greater than 00fe
// we are going to have to revisit this code!
//
//
// So, the 0th byte will be the carrier frequency in Khz (NOT Hz)
// " 1st " " " " length of the "once" code
// " 2nd " " " " length of the "repeat" code
//
// Thereafter, odd bytes will be Mark lengths as a multiple of USECPERTICK uS
// even " " " Space " " " " " " "
//
// Any occurence of "FF" in either a Mark or a Space will indicate
// "Use the 16-bit FF value" which will also be a multiple of USECPERTICK uS
//
//
// As a point of comparison, the test code (prontoTest[]) is 520 bytes
// (yes, more than 0.5KB of our Arduino's precious 32KB) ... after conversion
// to pronto hex that goes down to ((520/5)*2) = 208 bytes ... once converted to
// our format we are down to ((208/2) -1 -1 +2) = 104 bytes
//
// In fariness this is still very memory-hungry
// ...As a rough guide:
// 10 codes cost 1K of memory (this will vary depending on the protocol).
//
// So if you're building a complex remote control, you will probably need to
// keep the codes on an external memory device (not in the Arduino sketch) and
// load them as you need them. Hmmm.
//
// This dictates that "Oscillated Pronto Codes" are probably NOT the way forward
//
// For example, prontoTest[] happens to be: A 48-bit IR code in Denon format
// So we know it starts with 80/40 (Denon header)
// and ends with 10/aa6 (Denon leadout)
// and all (48) bits in between are either 10/10 (Denon 0)
// or 10/30 (Denon 1)
// So we could easily store this data in 1-byte ("Denon")
// + 1-byte (Length=48)
// + 6-bytes (IR code)
// At 8-bytes per code, we can store 128 codes in 1KB or memory - that's a lot
// better than the 2 (two) we started off with!
//
// And serendipitously, by reducing the amount of data, our program will run
// a LOT faster!
//
// Again, I repeat, even after you have spent time converting the "Oscillated
// Pronto Codes" in to IRremote format, it will be a LOT more memory-hungry
// than using sendDenon() (or whichever) ...BUT these codes are easily
// available on the internet, so we'll support them!
//
typedef
struct {
uint16_t FF;
uint8_t code[CODEMAX];
}
irCode_t;
//------------------------------------------------------------------------------
#define DEBUGF(...) printf(__VA_ARGS__)
//+=============================================================================
// String must be block of 4 hex digits separated with blanks
//
bool validate (char* cp, int* len)
{
for (*len = 0; *cp; (*len)++, cp += 4) {
byp(&cp);
if ( !ishex(cp[0]) || !ishex(cp[1]) ||
!ishex(cp[2]) || !ishex(cp[3]) || !isblank(cp[4]) ) return false ;
}
return true;
}
//+=============================================================================
// Hex-to-Byte : Decode a hex digit
// We assume the character has already been validated
//
uint8_t htob (char ch)
{
if ((ch >= '0') && (ch <= '9')) return ch - '0' ;
if ((ch >= 'A') && (ch <= 'F')) return ch - 'A' + 10 ;
if ((ch >= 'a') && (ch <= 'f')) return ch - 'a' + 10 ;
}
//+=============================================================================
// Hex-to-Word : Decode a block of 4 hex digits
// We assume the string has already been validated
// and the pointer being passed points at the start of a block of 4 hex digits
//
uint16_t htow (char* cp)
{
return ( (htob(cp[0]) << 12) | (htob(cp[1]) << 8) |
(htob(cp[2]) << 4) | (htob(cp[3]) ) ) ;
}
//+=============================================================================
// Convert the pronto string in to data
//
bool decode (char* s, pronto_t* p, irCode_t* ir)
{
int i, len;
char* cp;
// Validate the Pronto string
if (!validate(s, &p->codeLen)) {
DEBUGF("Invalid pronto string\n");
return false ;
}
DEBUGF("Found %d hex codes\n", p->codeLen);
// Allocate memory to store the decoded string
//if (!(p->code = malloc(p->len))) {
// DEBUGF("Memory allocation failed\n");
// return false ;
//}
// Check in case our code is too long
if (p->codeLen > CODEMAX) {
DEBUGF("Code too long, edit CODEMAX and recompile\n");
return false ;
}
// Decode the string
cp = s;
for (i = 0; i < p->codeLen; i++, cp += 4) {
byp(&cp);
p->code[i] = htow(cp);
}
// Announce our findings
DEBUGF("Input: |%s|\n", s);
DEBUGF("Found: |");
for (i = 0; i < p->codeLen; i++) DEBUGF("%04x ", p->code[i]) ;
DEBUGF("|\n");
DEBUGF("Form [%04X] : ", p->code[0]);
if (p->code[0] == 0x0000) DEBUGF("Oscillated (Learned)\n");
else if (p->code[0] == 0x0100) DEBUGF("Unmodulated\n");
else DEBUGF("Unknown\n");
if (p->code[0] != 0x0000) return false ; // Can only handle Oscillated
// Calculate the carrier frequency (+/- 10%) & uSecs per pulse
// Pronto uses a crystal which generates a timeabse of 0.241246
p->freq = (int)(1000000 / (p->code[1] * 0.241246));
p->usec = (int)(((1.0 / p->freq) * 1000000) + 0.5);
ir->code[0] = p->freq / 1000;
DEBUGF("Freq [%04X] : %d Hz (%d uS/pluse) -> %d KHz\n",
p->code[1], p->freq, p->usec, ir->code[0]);
// Set the length & start pointer for the "once" code
p->onceLen = p->code[2];
p->once = &p->code[4];
ir->code[1] = p->onceLen;
DEBUGF("Once [%04X] : %d\n", p->code[2], p->onceLen);
// Set the length & start pointer for the "repeat" code
p->rptLen = p->code[3];
p->rpt = &p->code[4 + p->onceLen];
ir->code[2] = p->rptLen;
DEBUGF("Rpt [%04X] : %d\n", p->code[3], p->rptLen);
// Check everything tallies
if (1 + 1 + 1 + 1 + (p->onceLen * 2) + (p->rptLen * 2) != p->codeLen) {
DEBUGF("Bad code length\n");
return false;
}
// Convert the IR data to our new format
ir->FF = p->code[p->codeLen - 1];
len = (p->onceLen * 2) + (p->rptLen * 2);
DEBUGF("Encoded: |");
for (i = 0; i < len; i++) {
if (p->code[i+4] == ir->FF) {
ir->code[i+3] = 0xFF;
} else if (p->code[i+4] > 0xFE) {
DEBUGF("\n%04X : Mark/Space overflow\n", p->code[i+4]);
return false;
} else {
ir->code[i+3] = (p->code[i+4] * p->usec) / USECPERTICK;
}
DEBUGF("%s%d", !i ? "" : (i&1 ? "," : ", "), ir->code[i+3]);
}
DEBUGF("|\n");
ir->FF = (ir->FF * p->usec) / USECPERTICK;
DEBUGF("FF -> %d\n", ir->FF);
return true;
}
//+=============================================================================
//
void irDump (irCode_t* ir)
{
int i, len;
printf("uint8_t buttonName[%d] = {", len);
printf("%d,%d, ", (ir->FF >> 8), ir->FF & 0xFF);
printf("%d,%d,%d, ", ir->code[0], ir->code[1], ir->code[2]);
len = (ir->code[1] * 2) + (ir->code[2] * 2);
for (i = 0; i < len; i++) {
printf("%s%d", !i ? "" : (i&1 ? "," : ", "), ir->code[i+3]);
}
printf("};\n");
}
//+=============================================================================
//
int main ( )
{
pronto_t pCode;
irCode_t irCode;
decode(prontoTest, &pCode, &irCode);
irDump(&irCode);
return 0;
}
#endif //0

94
src/ir_Denon.cpp
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@@ -1,94 +0,0 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
// Reverse Engineered by looking at RAW dumps generated by IRremote
// I have since discovered that Denon publish all their IR codes:
// https://www.google.co.uk/search?q=DENON+MASTER+IR+Hex+Command+Sheet
// -> http://assets.denon.com/documentmaster/us/denon%20master%20ir%20hex.xls
// Having looked at the official Denon Pronto sheet and reverse engineered
// the timing values from it, it is obvious that Denon have a range of
// different timings and protocols ...the values here work for my AVR-3801 Amp!
//==============================================================================
// DDDD EEEEE N N OOO N N
// D D E NN N O O NN N
// D D EEE N N N O O N N N
// D D E N NN O O N NN
// DDDD EEEEE N N OOO N N
//==============================================================================
#define BITS 14 // The number of bits in the command
#define HDR_MARK 300 // The length of the Header:Mark
#define HDR_SPACE 750 // The lenght of the Header:Space
#define BIT_MARK 300 // The length of a Bit:Mark
#define ONE_SPACE 1800 // The length of a Bit:Space for 1's
#define ZERO_SPACE 750 // The length of a Bit:Space for 0's
//+=============================================================================
//
#if SEND_DENON
void IRsend::sendDenon (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(38);
// Header
mark (HDR_MARK);
space(HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark (BIT_MARK);
space(ONE_SPACE);
} else {
mark (BIT_MARK);
space(ZERO_SPACE);
}
}
// Footer
mark(BIT_MARK);
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
//
#if DECODE_DENON
bool IRrecv::decodeDenon (decode_results *results)
{
unsigned long data = 0; // Somewhere to build our code
int offset = 1; // Skip the Gap reading
// Check we have the right amount of data
if (irparams.rawlen != 1 + 2 + (2 * BITS) + 1) return false ;
// Check initial Mark+Space match
if (!MATCH_MARK (results->rawbuf[offset++], HDR_MARK )) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], HDR_SPACE)) return false ;
// Read the bits in
for (int i = 0; i < BITS; i++) {
// Each bit looks like: MARK + SPACE_1 -> 1
// or : MARK + SPACE_0 -> 0
if (!MATCH_MARK(results->rawbuf[offset++], BIT_MARK)) return false ;
// IR data is big-endian, so we shuffle it in from the right:
if (MATCH_SPACE(results->rawbuf[offset], ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], ZERO_SPACE)) data = (data << 1) | 0 ;
else return false ;
offset++;
}
// Success
results->bits = BITS;
results->value = data;
results->decode_type = DENON;
return true;
}
#endif

80
src/ir_LG.cpp
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@@ -1,80 +0,0 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
//==============================================================================
// L GGGG
// L G
// L G GG
// L G G
// LLLLL GGG
//==============================================================================
#define LG_BITS 28
#define LG_HDR_MARK 8000
#define LG_HDR_SPACE 4000
#define LG_BIT_MARK 600
#define LG_ONE_SPACE 1600
#define LG_ZERO_SPACE 550
#define LG_RPT_LENGTH 60000
//+=============================================================================
#if DECODE_LG
bool IRrecv::decodeLG (decode_results *results)
{
long data = 0;
int offset = 1; // Skip first space
// Check we have the right amount of data
if (irparams.rawlen < (2 * LG_BITS) + 1 ) return false ;
// Initial mark/space
if (!MATCH_MARK(results->rawbuf[offset++], LG_HDR_MARK)) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], LG_HDR_SPACE)) return false ;
for (int i = 0; i < LG_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], LG_BIT_MARK)) return false ;
if (MATCH_SPACE(results->rawbuf[offset], LG_ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], LG_ZERO_SPACE)) data = (data << 1) | 0 ;
else return false ;
offset++;
}
// Stop bit
if (!MATCH_MARK(results->rawbuf[offset], LG_BIT_MARK)) return false ;
// Success
results->bits = LG_BITS;
results->value = data;
results->decode_type = LG;
return true;
}
#endif
//+=============================================================================
#if SEND_LG
void IRsend::sendLG (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(38);
// Header
mark(LG_HDR_MARK);
space(LG_HDR_SPACE);
mark(LG_BIT_MARK);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
space(LG_ONE_SPACE);
mark(LG_BIT_MARK);
} else {
space(LG_ZERO_SPACE);
mark(LG_BIT_MARK);
}
}
space(0); // Always end with the LED off
}
#endif

46
src/ir_Lego_PF.cpp
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@@ -1,46 +0,0 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
#include "ir_Lego_PF_BitStreamEncoder.h"
//==============================================================================
// L EEEEEE EEEE OOOO
// L E E O O
// L EEEE E EEE O O
// L E E E O O LEGO Power Functions
// LLLLLL EEEEEE EEEE OOOO Copyright (c) 2016 Philipp Henkel
//==============================================================================
// Supported Devices
// LEGO® Power Functions IR Receiver 8884
//+=============================================================================
//
#if SEND_LEGO_PF
#if DEBUG
namespace {
void logFunctionParameters(uint16_t data, bool repeat) {
DBG_PRINT("sendLegoPowerFunctions(data=");
DBG_PRINT(data);
DBG_PRINT(", repeat=");
DBG_PRINTLN(repeat?"true)" : "false)");
}
} // anonymous namespace
#endif // DEBUG
void IRsend::sendLegoPowerFunctions(uint16_t data, bool repeat)
{
#if DEBUG
::logFunctionParameters(data, repeat);
#endif // DEBUG
enableIROut(38);
static LegoPfBitStreamEncoder bitStreamEncoder;
bitStreamEncoder.reset(data, repeat);
do {
mark(bitStreamEncoder.getMarkDuration());
space(bitStreamEncoder.getPauseDuration());
} while (bitStreamEncoder.next());
}
#endif // SEND_LEGO_PF

115
src/ir_Lego_PF_BitStreamEncoder.h
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@@ -1,115 +0,0 @@
//==============================================================================
// L EEEEEE EEEE OOOO
// L E E O O
// L EEEE E EEE O O
// L E E E O O LEGO Power Functions
// LLLLLL EEEEEE EEEE OOOO Copyright (c) 2016, 2017 Philipp Henkel
//==============================================================================
//+=============================================================================
//
class LegoPfBitStreamEncoder {
private:
uint16_t data;
bool repeatMessage;
uint8_t messageBitIdx;
uint8_t repeatCount;
uint16_t messageLength;
public:
// HIGH data bit = IR mark + high pause
// LOW data bit = IR mark + low pause
static const uint16_t LOW_BIT_DURATION = 421;
static const uint16_t HIGH_BIT_DURATION = 711;
static const uint16_t START_BIT_DURATION = 1184;
static const uint16_t STOP_BIT_DURATION = 1184;
static const uint8_t IR_MARK_DURATION = 158;
static const uint16_t HIGH_PAUSE_DURATION = HIGH_BIT_DURATION - IR_MARK_DURATION;
static const uint16_t LOW_PAUSE_DURATION = LOW_BIT_DURATION - IR_MARK_DURATION;
static const uint16_t START_PAUSE_DURATION = START_BIT_DURATION - IR_MARK_DURATION;
static const uint16_t STOP_PAUSE_DURATION = STOP_BIT_DURATION - IR_MARK_DURATION;
static const uint8_t MESSAGE_BITS = 18;
static const uint16_t MAX_MESSAGE_LENGTH = 16000;
void reset(uint16_t data, bool repeatMessage) {
this->data = data;
this->repeatMessage = repeatMessage;
messageBitIdx = 0;
repeatCount = 0;
messageLength = getMessageLength();
}
int getChannelId() const { return 1 + ((data >> 12) & 0x3); }
uint16_t getMessageLength() const {
// Sum up all marks
uint16_t length = MESSAGE_BITS * IR_MARK_DURATION;
// Sum up all pauses
length += START_PAUSE_DURATION;
for (unsigned long mask = 1UL << 15; mask; mask >>= 1) {
if (data & mask) {
length += HIGH_PAUSE_DURATION;
} else {
length += LOW_PAUSE_DURATION;
}
}
length += STOP_PAUSE_DURATION;
return length;
}
boolean next() {
messageBitIdx++;
if (messageBitIdx >= MESSAGE_BITS) {
repeatCount++;
messageBitIdx = 0;
}
if (repeatCount >= 1 && !repeatMessage) {
return false;
} else if (repeatCount >= 5) {
return false;
} else {
return true;
}
}
uint8_t getMarkDuration() const { return IR_MARK_DURATION; }
uint32_t getPauseDuration() const {
if (messageBitIdx == 0)
return START_PAUSE_DURATION;
else if (messageBitIdx < MESSAGE_BITS - 1) {
return getDataBitPause();
} else {
return getStopPause();
}
}
private:
uint16_t getDataBitPause() const {
const int pos = MESSAGE_BITS - 2 - messageBitIdx;
const bool isHigh = data & (1 << pos);
return isHigh ? HIGH_PAUSE_DURATION : LOW_PAUSE_DURATION;
}
uint32_t getStopPause() const {
if (repeatMessage) {
return getRepeatStopPause();
} else {
return STOP_PAUSE_DURATION;
}
}
uint32_t getRepeatStopPause() const {
if (repeatCount == 0 || repeatCount == 1) {
return STOP_PAUSE_DURATION + (uint32_t)5 * MAX_MESSAGE_LENGTH - messageLength;
} else if (repeatCount == 2 || repeatCount == 3) {
return STOP_PAUSE_DURATION
+ (uint32_t)(6 + 2 * getChannelId()) * MAX_MESSAGE_LENGTH - messageLength;
} else {
return STOP_PAUSE_DURATION;
}
}
};

76
src/ir_Sanyo.cpp
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@@ -1,76 +0,0 @@
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
//==============================================================================
// SSSS AAA N N Y Y OOO
// S A A NN N Y Y O O
// SSS AAAAA N N N Y O O
// S A A N NN Y O O
// SSSS A A N N Y OOO
//==============================================================================
// I think this is a Sanyo decoder: Serial = SA 8650B
// Looks like Sony except for timings, 48 chars of data and time/space different
#define SANYO_BITS 12
#define SANYO_HDR_MARK 3500 // seen range 3500
#define SANYO_HDR_SPACE 950 // seen 950
#define SANYO_ONE_MARK 2400 // seen 2400
#define SANYO_ZERO_MARK 700 // seen 700
#define SANYO_DOUBLE_SPACE_USECS 800 // usually ssee 713 - not using ticks as get number wrapround
#define SANYO_RPT_LENGTH 45000
//+=============================================================================
#if DECODE_SANYO
bool IRrecv::decodeSanyo (decode_results *results)
{
long data = 0;
int offset = 0; // Skip first space <-- CHECK THIS!
if (irparams.rawlen < (2 * SANYO_BITS) + 2) return false ;
#if 0
// Put this back in for debugging - note can't use #DEBUG as if Debug on we don't see the repeat cos of the delay
Serial.print("IR Gap: ");
Serial.println( results->rawbuf[offset]);
Serial.println( "test against:");
Serial.println(results->rawbuf[offset]);
#endif
// Initial space
if (results->rawbuf[offset] < SANYO_DOUBLE_SPACE_USECS) {
//Serial.print("IR Gap found: ");
results->bits = 0;
results->value = REPEAT;
results->decode_type = SANYO;
return true;
}
offset++;
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], SANYO_HDR_MARK)) return false ;
// Skip Second Mark
if (!MATCH_MARK(results->rawbuf[offset++], SANYO_HDR_MARK)) return false ;
while (offset + 1 < irparams.rawlen) {
if (!MATCH_SPACE(results->rawbuf[offset++], SANYO_HDR_SPACE)) break ;
if (MATCH_MARK(results->rawbuf[offset], SANYO_ONE_MARK)) data = (data << 1) | 1 ;
else if (MATCH_MARK(results->rawbuf[offset], SANYO_ZERO_MARK)) data = (data << 1) | 0 ;
else return false ;
offset++;
}
// Success
results->bits = (offset - 1) / 2;
if (results->bits < 12) {
results->bits = 0;
return false;
}
results->value = data;
results->decode_type = SANYO;
return true;
}
#endif

179
src/ir_Template.cpp
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/*
Assuming the protocol we are adding is for the (imaginary) manufacturer: Shuzu
Our fantasy protocol is a standard protocol, so we can use this standard
template without too much work. Some protocols are quite unique and will require
considerably more work in this file! It is way beyond the scope of this text to
explain how to reverse engineer "unusual" IR protocols. But, unless you own an
oscilloscope, the starting point is probably to use the rawDump.ino sketch and
try to spot the pattern!
Before you start, make sure the IR library is working OK:
# Open up the Arduino IDE
# Load up the rawDump.ino example sketch
# Run it
Now we can start to add our new protocol...
1. Copy this file to : ir_Shuzu.cpp
2. Replace all occurrences of "Shuzu" with the name of your protocol.
3. Tweak the #defines to suit your protocol.
4. If you're lucky, tweaking the #defines will make the default send() function
work.
5. Again, if you're lucky, tweaking the #defines will have made the default
decode() function work.
You have written the code to support your new protocol!
Now you must do a few things to add it to the IRremote system:
1. Open IRremote.h and make the following changes:
REMEMEBER to change occurences of "SHUZU" with the name of your protocol
A. At the top, in the section "Supported Protocols", add:
#define DECODE_SHUZU 1
#define SEND_SHUZU 1
B. In the section "enumerated list of all supported formats", add:
SHUZU,
to the end of the list (notice there is a comma after the protocol name)
C. Further down in "Main class for receiving IR", add:
//......................................................................
#if DECODE_SHUZU
bool decodeShuzu (decode_results *results) ;
#endif
D. Further down in "Main class for sending IR", add:
//......................................................................
#if SEND_SHUZU
void sendShuzu (unsigned long data, int nbits) ;
#endif
E. Save your changes and close the file
2. Now open irRecv.cpp and make the following change:
A. In the function IRrecv::decode(), add:
#ifdef DECODE_NEC
DBG_PRINTLN("Attempting Shuzu decode");
if (decodeShuzu(results)) return true ;
#endif
B. Save your changes and close the file
You will probably want to add your new protocol to the example sketch
3. Open MyDocuments\Arduino\libraries\IRremote\examples\IRrecvDumpV2.ino
A. In the encoding() function, add:
case SHUZU: Serial.print("SHUZU"); break ;
Now open the Arduino IDE, load up the rawDump.ino sketch, and run it.
Hopefully it will compile and upload.
If it doesn't, you've done something wrong. Check your work.
If you can't get it to work - seek help from somewhere.
If you get this far, I will assume you have successfully added your new protocol
There is one last thing to do.
1. Delete this giant instructional comment.
2. Send a copy of your work to us so we can include it in the library and
others may benefit from your hard work and maybe even write a song about how
great you are for helping them! :)
Regards,
BlueChip
*/
#include "InfraredRemote.h"
#include "lib/InfraredRemoteInt.h"
//==============================================================================
//
//
// S H U Z U
//
//
//==============================================================================
#define BITS 32 // The number of bits in the command
#define HDR_MARK 1000 // The length of the Header:Mark
#define HDR_SPACE 2000 // The lenght of the Header:Space
#define BIT_MARK 3000 // The length of a Bit:Mark
#define ONE_SPACE 4000 // The length of a Bit:Space for 1's
#define ZERO_SPACE 5000 // The length of a Bit:Space for 0's
#define OTHER 1234 // Other things you may need to define
//+=============================================================================
//
#if SEND_SHUZU
void IRsend::sendShuzu (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(38);
// Header
mark (HDR_MARK);
space(HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark (BIT_MARK);
space(ONE_SPACE);
} else {
mark (BIT_MARK);
space(ZERO_SPACE);
}
}
// Footer
mark(BIT_MARK);
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
//
#if DECODE_SHUZU
bool IRrecv::decodeShuzu (decode_results *results)
{
unsigned long data = 0; // Somewhere to build our code
int offset = 1; // Skip the Gap reading
// Check we have the right amount of data
if (irparams.rawlen != 1 + 2 + (2 * BITS) + 1) return false ;
// Check initial Mark+Space match
if (!MATCH_MARK (results->rawbuf[offset++], HDR_MARK )) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], HDR_SPACE)) return false ;
// Read the bits in
for (int i = 0; i < SHUZU_BITS; i++) {
// Each bit looks like: MARK + SPACE_1 -> 1
// or : MARK + SPACE_0 -> 0
if (!MATCH_MARK(results->rawbuf[offset++], BIT_MARK)) return false ;
// IR data is big-endian, so we shuffle it in from the right:
if (MATCH_SPACE(results->rawbuf[offset], ONE_SPACE)) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], ZERO_SPACE)) data = (data << 1) | 0 ;
else return false ;
offset++;
}
// Success
results->bits = BITS;
results->value = data;
results->decode_type = SHUZU;
return true;
}
#endif

113
src/lib/InfraredRemoteInt.h
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@@ -1,113 +0,0 @@
//******************************************************************************
// 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
//
// 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)
// Whynter A/C ARC-110WD added by Francesco Meschia
//******************************************************************************
#ifndef IRremoteint_h
#define IRremoteint_h
//------------------------------------------------------------------------------
// Include the right Arduino header
//
#if defined(ARDUINO) && (ARDUINO >= 100)
# include <Arduino.h>
#else
# if !defined(IRPRONTO)
# include <WProgram.h>
# endif
#endif
//------------------------------------------------------------------------------
// This handles definition and access to global variables
//
#ifdef IR_GLOBAL
# define EXTERN
#else
# define EXTERN extern
#endif
//------------------------------------------------------------------------------
// Information for the Interrupt Service Routine
//
#define RAWBUF 101 // Maximum length of raw duration buffer
typedef
struct {
// The fields are ordered to reduce memory over caused by struct-padding
uint8_t rcvstate; // State Machine state
uint8_t recvpin; // Pin connected to IR data from detector
uint8_t blinkpin;
uint8_t blinkflag; // true -> enable blinking of pin on IR processing
uint8_t rawlen; // counter of entries in rawbuf
unsigned int timer; // State timer, counts 50uS ticks.
unsigned int rawbuf[RAWBUF]; // raw data
uint8_t overflow; // Raw buffer overflow occurred
}
irparams_t;
// ISR State-Machine : Receiver States
#define STATE_IDLE 2
#define STATE_MARK 3
#define STATE_SPACE 4
#define STATE_STOP 5
#define STATE_OVERFLOW 6
// Allow all parts of the code access to the ISR data
// NB. The data can be changed by the ISR at any time, even mid-function
// Therefore we declare it as "volatile" to stop the compiler/CPU caching it
EXTERN volatile irparams_t irparams;
//------------------------------------------------------------------------------
// Defines for setting and clearing register bits
//
#ifndef cbi
# define cbi(sfr, bit) (_SFR_BYTE(sfr) &= ~_BV(bit))
#endif
#ifndef sbi
# define sbi(sfr, bit) (_SFR_BYTE(sfr) |= _BV(bit))
#endif
//------------------------------------------------------------------------------
// Pulse parms are ((X*50)-100) for the Mark and ((X*50)+100) for the Space.
// First MARK is the one after the long gap
// Pulse parameters in uSec
//
// Due to sensor lag, when received, Marks tend to be 100us too long and
// Spaces tend to be 100us too short
#define MARK_EXCESS 100
// Upper and Lower percentage tolerances in measurements
#define TOLERANCE 25
#define LTOL (1.0 - (TOLERANCE/100.))
#define UTOL (1.0 + (TOLERANCE/100.))
// Minimum gap between IR transmissions
#define _GAP 5000
#define GAP_TICKS (_GAP/USECPERTICK)
#define TICKS_LOW(us) ((int)(((us)*LTOL/USECPERTICK)))
#define TICKS_HIGH(us) ((int)(((us)*UTOL/USECPERTICK + 1)))
//------------------------------------------------------------------------------
// IR detector output is active low
//
#define MARK 0
#define SPACE 1
// All board specific stuff has been moved to its own file, included here.
#include "boarddefs.h"
#endif

577
src/lib/boarddefs.h
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@@ -1,577 +0,0 @@
//******************************************************************************
// 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
// This file contains all board specific information. It was previously contained within
// IRremoteInt.h
// Modified by Paul Stoffregen <paul@pjrc.com> to support other boards and timers
//
// 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)
// Whynter A/C ARC-110WD added by Francesco Meschia
//******************************************************************************
#ifndef boarddefs_h
#define boarddefs_h
//------------------------------------------------------------------------------
// Defines for blinking the LED
//
#if defined(CORE_LED0_PIN)
# define BLINKLED CORE_LED0_PIN
# define BLINKLED_ON() (digitalWrite(CORE_LED0_PIN, HIGH))
# define BLINKLED_OFF() (digitalWrite(CORE_LED0_PIN, LOW))
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
# define BLINKLED 13
# define BLINKLED_ON() (PORTB |= B10000000)
# define BLINKLED_OFF() (PORTB &= B01111111)
#elif defined(__AVR_ATmega644P__) || defined(__AVR_ATmega644__)
# define BLINKLED 0
# define BLINKLED_ON() (PORTD |= B00000001)
# define BLINKLED_OFF() (PORTD &= B11111110)
// No system LED on ESP32, disable blinking
#elif defined(ESP32)
# define BLINKLED 255
# define BLINKLED_ON() 1
# define BLINKLED_OFF() 1
#else
# define BLINKLED 13
# define BLINKLED_ON() (PORTB |= B00100000)
# define BLINKLED_OFF() (PORTB &= B11011111)
#endif
//------------------------------------------------------------------------------
// CPU Frequency
//
#ifdef F_CPU
# define SYSCLOCK F_CPU // main Arduino clock
#else
# define SYSCLOCK 16000000 // main Arduino clock
#endif
// microseconds per clock interrupt tick
#define USECPERTICK 50
//------------------------------------------------------------------------------
// Define which timer to use
//
// Uncomment the timer you wish to use on your board.
// If you are using another library which uses timer2, you have options to
// switch IRremote to use a different timer.
//
// Arduino Mega
#if defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
//#define IR_USE_TIMER1 // tx = pin 11
#define IR_USE_TIMER2 // tx = pin 9
//#define IR_USE_TIMER3 // tx = pin 5
//#define IR_USE_TIMER4 // tx = pin 6
//#define IR_USE_TIMER5 // tx = pin 46
// Teensy 1.0
#elif defined(__AVR_AT90USB162__)
#define IR_USE_TIMER1 // tx = pin 17
// Teensy 2.0
#elif defined(__AVR_ATmega32U4__)
//#define IR_USE_TIMER1 // tx = pin 14
//#define IR_USE_TIMER3 // tx = pin 9
#define IR_USE_TIMER4_HS // tx = pin 10
// Teensy 3.0 / Teensy 3.1
#elif defined(__MK20DX128__) || defined(__MK20DX256__) || defined(__MK64FX512__) || defined(__MK66FX1M0__)
#define IR_USE_TIMER_CMT // tx = pin 5
// Teensy-LC
#elif defined(__MKL26Z64__)
#define IR_USE_TIMER_TPM1 // tx = pin 16
// Teensy++ 1.0 & 2.0
#elif defined(__AVR_AT90USB646__) || defined(__AVR_AT90USB1286__)
//#define IR_USE_TIMER1 // tx = pin 25
#define IR_USE_TIMER2 // tx = pin 1
//#define IR_USE_TIMER3 // tx = pin 16
// MightyCore - ATmega1284
#elif defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__)
//#define IR_USE_TIMER1 // tx = pin 13
#define IR_USE_TIMER2 // tx = pin 14
//#define IR_USE_TIMER3 // tx = pin 6
// MightyCore - ATmega164, ATmega324, ATmega644
#elif defined(__AVR_ATmega644__) || defined(__AVR_ATmega644P__) \
|| defined(__AVR_ATmega324P__) || defined(__AVR_ATmega324A__) \
|| defined(__AVR_ATmega324PA__) || defined(__AVR_ATmega164A__) \
|| defined(__AVR_ATmega164P__)
//#define IR_USE_TIMER1 // tx = pin 13
#define IR_USE_TIMER2 // tx = pin 14
//MegaCore - ATmega64, ATmega128
#elif defined(__AVR_ATmega64__) || defined(__AVR_ATmega128__)
#define IR_USE_TIMER1 // tx = pin 13
// MightyCore - ATmega8535, ATmega16, ATmega32
#elif defined(__AVR_ATmega8535__) || defined(__AVR_ATmega16__) || defined(__AVR_ATmega32__)
#define IR_USE_TIMER1 // tx = pin 13
// Atmega8
#elif defined(__AVR_ATmega8__)
#define IR_USE_TIMER1 // tx = pin 9
// ATtiny84
#elif defined(__AVR_ATtiny84__)
#define IR_USE_TIMER1 // tx = pin 6
//ATtiny85
#elif defined(__AVR_ATtiny85__)
#define IR_USE_TIMER_TINY0 // tx = pin 1
#elif defined(ESP32)
#define IR_TIMER_USE_ESP32
#else
// Arduino Duemilanove, Diecimila, LilyPad, Mini, Fio, Nano, etc
// ATmega48, ATmega88, ATmega168, ATmega328
//#define IR_USE_TIMER1 // tx = pin 9
#define IR_USE_TIMER2 // tx = pin 3
#endif
//------------------------------------------------------------------------------
// Defines for Timer
//---------------------------------------------------------
// Timer2 (8 bits)
//
#if defined(IR_USE_TIMER2)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR2A |= _BV(COM2B1))
#define TIMER_DISABLE_PWM (TCCR2A &= ~(_BV(COM2B1)))
#define TIMER_ENABLE_INTR (TIMSK2 = _BV(OCIE2A))
#define TIMER_DISABLE_INTR (TIMSK2 = 0)
#define TIMER_INTR_NAME TIMER2_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint8_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR2A = _BV(WGM20); \
TCCR2B = _BV(WGM22) | _BV(CS20); \
OCR2A = pwmval; \
OCR2B = pwmval / 3; \
})
#define TIMER_COUNT_TOP (SYSCLOCK * USECPERTICK / 1000000)
//-----------------
#if (TIMER_COUNT_TOP < 256)
# define TIMER_CONFIG_NORMAL() ({ \
TCCR2A = _BV(WGM21); \
TCCR2B = _BV(CS20); \
OCR2A = TIMER_COUNT_TOP; \
TCNT2 = 0; \
})
#else
# define TIMER_CONFIG_NORMAL() ({ \
TCCR2A = _BV(WGM21); \
TCCR2B = _BV(CS21); \
OCR2A = TIMER_COUNT_TOP / 8; \
TCNT2 = 0; \
})
#endif
//-----------------
#if defined(CORE_OC2B_PIN)
# define TIMER_PWM_PIN CORE_OC2B_PIN // Teensy
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
# define TIMER_PWM_PIN 9 // Arduino Mega
#elif defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__) \
|| defined(__AVR_ATmega644__) || defined(__AVR_ATmega644P__) \
|| defined(__AVR_ATmega324P__) || defined(__AVR_ATmega324A__) \
|| defined(__AVR_ATmega324PA__) || defined(__AVR_ATmega164A__) \
|| defined(__AVR_ATmega164P__)
# define TIMER_PWM_PIN 14 // MightyCore
#else
# define TIMER_PWM_PIN 3 // Arduino Duemilanove, Diecimila, LilyPad, etc
#endif // ATmega48, ATmega88, ATmega168, ATmega328
//---------------------------------------------------------
// Timer1 (16 bits)
//
#elif defined(IR_USE_TIMER1)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR1A |= _BV(COM1A1))
#define TIMER_DISABLE_PWM (TCCR1A &= ~(_BV(COM1A1)))
//-----------------
#if defined(__AVR_ATmega8__) || defined(__AVR_ATmega8535__) \
|| defined(__AVR_ATmega16__) || defined(__AVR_ATmega32__) \
|| defined(__AVR_ATmega64__) || defined(__AVR_ATmega128__)
# define TIMER_ENABLE_INTR (TIMSK |= _BV(OCIE1A))
# define TIMER_DISABLE_INTR (TIMSK &= ~_BV(OCIE1A))
#else
# define TIMER_ENABLE_INTR (TIMSK1 = _BV(OCIE1A))
# define TIMER_DISABLE_INTR (TIMSK1 = 0)
#endif
//-----------------
#define TIMER_INTR_NAME TIMER1_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR1A = _BV(WGM11); \
TCCR1B = _BV(WGM13) | _BV(CS10); \
ICR1 = pwmval; \
OCR1A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR1A = 0; \
TCCR1B = _BV(WGM12) | _BV(CS10); \
OCR1A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT1 = 0; \
})
//-----------------
#if defined(CORE_OC1A_PIN)
# define TIMER_PWM_PIN CORE_OC1A_PIN // Teensy
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
# define TIMER_PWM_PIN 11 // Arduino Mega
#elif defined(__AVR_ATmega64__) || defined(__AVR_ATmega128__)
# define TIMER_PWM_PIN 13 // MegaCore
#elif defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__) \
|| defined(__AVR_ATmega644__) || defined(__AVR_ATmega644P__) \
|| defined(__AVR_ATmega324P__) || defined(__AVR_ATmega324A__) \
|| defined(__AVR_ATmega324PA__) || defined(__AVR_ATmega164A__) \
|| defined(__AVR_ATmega164P__) || defined(__AVR_ATmega32__) \
|| defined(__AVR_ATmega16__) || defined(__AVR_ATmega8535__)
# define TIMER_PWM_PIN 13 // MightyCore
#elif defined(__AVR_ATtiny84__)
# define TIMER_PWM_PIN 6
#else
# define TIMER_PWM_PIN 9 // Arduino Duemilanove, Diecimila, LilyPad, etc
#endif // ATmega48, ATmega88, ATmega168, ATmega328
//---------------------------------------------------------
// Timer3 (16 bits)
//
#elif defined(IR_USE_TIMER3)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR3A |= _BV(COM3A1))
#define TIMER_DISABLE_PWM (TCCR3A &= ~(_BV(COM3A1)))
#define TIMER_ENABLE_INTR (TIMSK3 = _BV(OCIE3A))
#define TIMER_DISABLE_INTR (TIMSK3 = 0)
#define TIMER_INTR_NAME TIMER3_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR3A = _BV(WGM31); \
TCCR3B = _BV(WGM33) | _BV(CS30); \
ICR3 = pwmval; \
OCR3A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR3A = 0; \
TCCR3B = _BV(WGM32) | _BV(CS30); \
OCR3A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT3 = 0; \
})
//-----------------
#if defined(CORE_OC3A_PIN)
# define TIMER_PWM_PIN CORE_OC3A_PIN // Teensy
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
# define TIMER_PWM_PIN 5 // Arduino Mega
#elif defined(__AVR_ATmega1284__) || defined(__AVR_ATmega1284P__)
# define TIMER_PWM_PIN 6 // MightyCore
#else
# error "Please add OC3A pin number here\n"
#endif
//---------------------------------------------------------
// Timer4 (10 bits, high speed option)
//
#elif defined(IR_USE_TIMER4_HS)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR4A |= _BV(COM4A1))
#define TIMER_DISABLE_PWM (TCCR4A &= ~(_BV(COM4A1)))
#define TIMER_ENABLE_INTR (TIMSK4 = _BV(TOIE4))
#define TIMER_DISABLE_INTR (TIMSK4 = 0)
#define TIMER_INTR_NAME TIMER4_OVF_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR4A = (1<<PWM4A); \
TCCR4B = _BV(CS40); \
TCCR4C = 0; \
TCCR4D = (1<<WGM40); \
TCCR4E = 0; \
TC4H = pwmval >> 8; \
OCR4C = pwmval; \
TC4H = (pwmval / 3) >> 8; \
OCR4A = (pwmval / 3) & 255; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR4A = 0; \
TCCR4B = _BV(CS40); \
TCCR4C = 0; \
TCCR4D = 0; \
TCCR4E = 0; \
TC4H = (SYSCLOCK * USECPERTICK / 1000000) >> 8; \
OCR4C = (SYSCLOCK * USECPERTICK / 1000000) & 255; \
TC4H = 0; \
TCNT4 = 0; \
})
//-----------------
#if defined(CORE_OC4A_PIN)
# define TIMER_PWM_PIN CORE_OC4A_PIN // Teensy
#elif defined(__AVR_ATmega32U4__)
# define TIMER_PWM_PIN 13 // Leonardo
#else
# error "Please add OC4A pin number here\n"
#endif
//---------------------------------------------------------
// Timer4 (16 bits)
//
#elif defined(IR_USE_TIMER4)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR4A |= _BV(COM4A1))
#define TIMER_DISABLE_PWM (TCCR4A &= ~(_BV(COM4A1)))
#define TIMER_ENABLE_INTR (TIMSK4 = _BV(OCIE4A))
#define TIMER_DISABLE_INTR (TIMSK4 = 0)
#define TIMER_INTR_NAME TIMER4_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR4A = _BV(WGM41); \
TCCR4B = _BV(WGM43) | _BV(CS40); \
ICR4 = pwmval; \
OCR4A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR4A = 0; \
TCCR4B = _BV(WGM42) | _BV(CS40); \
OCR4A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT4 = 0; \
})
//-----------------
#if defined(CORE_OC4A_PIN)
# define TIMER_PWM_PIN CORE_OC4A_PIN
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
# define TIMER_PWM_PIN 6 // Arduino Mega
#else
# error "Please add OC4A pin number here\n"
#endif
//---------------------------------------------------------
// Timer5 (16 bits)
//
#elif defined(IR_USE_TIMER5)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR5A |= _BV(COM5A1))
#define TIMER_DISABLE_PWM (TCCR5A &= ~(_BV(COM5A1)))
#define TIMER_ENABLE_INTR (TIMSK5 = _BV(OCIE5A))
#define TIMER_DISABLE_INTR (TIMSK5 = 0)
#define TIMER_INTR_NAME TIMER5_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint16_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR5A = _BV(WGM51); \
TCCR5B = _BV(WGM53) | _BV(CS50); \
ICR5 = pwmval; \
OCR5A = pwmval / 3; \
})
#define TIMER_CONFIG_NORMAL() ({ \
TCCR5A = 0; \
TCCR5B = _BV(WGM52) | _BV(CS50); \
OCR5A = SYSCLOCK * USECPERTICK / 1000000; \
TCNT5 = 0; \
})
//-----------------
#if defined(CORE_OC5A_PIN)
# define TIMER_PWM_PIN CORE_OC5A_PIN
#elif defined(__AVR_ATmega1280__) || defined(__AVR_ATmega2560__)
# define TIMER_PWM_PIN 46 // Arduino Mega
#else
# error "Please add OC5A pin number here\n"
#endif
//---------------------------------------------------------
// Special carrier modulator timer
//
#elif defined(IR_USE_TIMER_CMT)
#define TIMER_RESET ({ \
uint8_t tmp __attribute__((unused)) = CMT_MSC; \
CMT_CMD2 = 30; \
})
#define TIMER_ENABLE_PWM do { \
CORE_PIN5_CONFIG = PORT_PCR_MUX(2) | PORT_PCR_DSE | PORT_PCR_SRE; \
} while(0)
#define TIMER_DISABLE_PWM do { \
CORE_PIN5_CONFIG = PORT_PCR_MUX(1) | PORT_PCR_DSE | PORT_PCR_SRE; \
} while(0)
#define TIMER_ENABLE_INTR NVIC_ENABLE_IRQ(IRQ_CMT)
#define TIMER_DISABLE_INTR NVIC_DISABLE_IRQ(IRQ_CMT)
#define TIMER_INTR_NAME cmt_isr
//-----------------
#ifdef ISR
# undef ISR
#endif
#define ISR(f) void f(void)
//-----------------
#define CMT_PPS_DIV ((F_BUS + 7999999) / 8000000)
#if F_BUS < 8000000
#error IRremote requires at least 8 MHz on Teensy 3.x
#endif
//-----------------
#define TIMER_CONFIG_KHZ(val) ({ \
SIM_SCGC4 |= SIM_SCGC4_CMT; \
SIM_SOPT2 |= SIM_SOPT2_PTD7PAD; \
CMT_PPS = CMT_PPS_DIV - 1; \
CMT_CGH1 = ((F_BUS / CMT_PPS_DIV / 3000) + ((val)/2)) / (val); \
CMT_CGL1 = ((F_BUS / CMT_PPS_DIV / 1500) + ((val)/2)) / (val); \
CMT_CMD1 = 0; \
CMT_CMD2 = 30; \
CMT_CMD3 = 0; \
CMT_CMD4 = 0; \
CMT_OC = 0x60; \
CMT_MSC = 0x01; \
})
#define TIMER_CONFIG_NORMAL() ({ \
SIM_SCGC4 |= SIM_SCGC4_CMT; \
CMT_PPS = CMT_PPS_DIV - 1; \
CMT_CGH1 = 1; \
CMT_CGL1 = 1; \
CMT_CMD1 = 0; \
CMT_CMD2 = 30; \
CMT_CMD3 = 0; \
CMT_CMD4 = (F_BUS / 160000 + CMT_PPS_DIV / 2) / CMT_PPS_DIV - 31; \
CMT_OC = 0; \
CMT_MSC = 0x03; \
})
#define TIMER_PWM_PIN 5
// defines for TPM1 timer on Teensy-LC
#elif defined(IR_USE_TIMER_TPM1)
#define TIMER_RESET FTM1_SC |= FTM_SC_TOF;
#define TIMER_ENABLE_PWM CORE_PIN16_CONFIG = PORT_PCR_MUX(3)|PORT_PCR_DSE|PORT_PCR_SRE
#define TIMER_DISABLE_PWM CORE_PIN16_CONFIG = PORT_PCR_MUX(1)|PORT_PCR_SRE
#define TIMER_ENABLE_INTR NVIC_ENABLE_IRQ(IRQ_FTM1)
#define TIMER_DISABLE_INTR NVIC_DISABLE_IRQ(IRQ_FTM1)
#define TIMER_INTR_NAME ftm1_isr
#ifdef ISR
#undef ISR
#endif
#define ISR(f) void f(void)
#define TIMER_CONFIG_KHZ(val) ({ \
SIM_SCGC6 |= SIM_SCGC6_TPM1; \
FTM1_SC = 0; \
FTM1_CNT = 0; \
FTM1_MOD = (F_PLL/2000) / val - 1; \
FTM1_C0V = (F_PLL/6000) / val - 1; \
FTM1_SC = FTM_SC_CLKS(1) | FTM_SC_PS(0); \
})
#define TIMER_CONFIG_NORMAL() ({ \
SIM_SCGC6 |= SIM_SCGC6_TPM1; \
FTM1_SC = 0; \
FTM1_CNT = 0; \
FTM1_MOD = (F_PLL/40000) - 1; \
FTM1_C0V = 0; \
FTM1_SC = FTM_SC_CLKS(1) | FTM_SC_PS(0) | FTM_SC_TOF | FTM_SC_TOIE; \
})
#define TIMER_PWM_PIN 16
// defines for timer_tiny0 (8 bits)
#elif defined(IR_USE_TIMER_TINY0)
#define TIMER_RESET
#define TIMER_ENABLE_PWM (TCCR0A |= _BV(COM0B1))
#define TIMER_DISABLE_PWM (TCCR0A &= ~(_BV(COM0B1)))
#define TIMER_ENABLE_INTR (TIMSK |= _BV(OCIE0A))
#define TIMER_DISABLE_INTR (TIMSK &= ~(_BV(OCIE0A)))
#define TIMER_INTR_NAME TIMER0_COMPA_vect
#define TIMER_CONFIG_KHZ(val) ({ \
const uint8_t pwmval = SYSCLOCK / 2000 / (val); \
TCCR0A = _BV(WGM00); \
TCCR0B = _BV(WGM02) | _BV(CS00); \
OCR0A = pwmval; \
OCR0B = pwmval / 3; \
})
#define TIMER_COUNT_TOP (SYSCLOCK * USECPERTICK / 1000000)
#if (TIMER_COUNT_TOP < 256)
#define TIMER_CONFIG_NORMAL() ({ \
TCCR0A = _BV(WGM01); \
TCCR0B = _BV(CS00); \
OCR0A = TIMER_COUNT_TOP; \
TCNT0 = 0; \
})
#else
#define TIMER_CONFIG_NORMAL() ({ \
TCCR0A = _BV(WGM01); \
TCCR0B = _BV(CS01); \
OCR0A = TIMER_COUNT_TOP / 8; \
TCNT0 = 0; \
})
#endif
#define TIMER_PWM_PIN 1 /* ATtiny85 */
//---------------------------------------------------------
// ESP32 (ESP8266 should likely be added here too)
//
// ESP32 has it own timer API and does not use these macros, but to avoid ifdef'ing
// them out in the common code, they are defined to no-op. This allows the code to compile
// (which it wouldn't otherwise) but irsend will not work until ESP32 specific code is written
// for that -- merlin
// As a warning, sending timing specific code from an ESP32 can be challenging if you need 100%
// reliability because the arduino code may be interrupted and cause your sent waveform to be the
// wrong length. This is specifically an issue for neopixels which require 800Khz resolution.
// IR may just work as is with the common code since it's lower frequency, but if not, the other
// way to do this on ESP32 is using the RMT built in driver like in this incomplete library below
// https://github.com/ExploreEmbedded/ESP32_RMT
#elif defined(IR_TIMER_USE_ESP32)
#define TIMER_RESET
#define TIMER_ENABLE_PWM
#define TIMER_DISABLE_PWM Serial.println("IRsend not implemented for ESP32 yet");
#define TIMER_ENABLE_INTR
#define TIMER_DISABLE_INTR
#define TIMER_INTR_NAME
//---------------------------------------------------------
// Unknown Timer
//
#else
# error "Internal code configuration error, no known IR_USE_TIMER# defined\n"
#endif
#endif // ! boarddefs_h

15
test.sh
View File

@@ -1,15 +0,0 @@
PLATFORMIO_CI_SRC=examples/AiwaRCT501SendDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRrecord python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRrecvDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRrecvDumpV2 python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRrelay python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRremoteInfo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRsendDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRsendRawDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRtest python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/IRtest2 python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/JVCPanasonicSendDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/LGACSendDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/LegoPowerFunctionsSendDemo python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328
PLATFORMIO_CI_SRC=examples/LegoPowerFunctionsTests python2 -m platformio ci --lib="." --board=uno --board=leonardo --board=pro16MHzatmega168 --board=btatmega328