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278 Commits
master ... dev

Author SHA1 Message Date
Rafi Khan
968adc2ec0 removed pronto support for the moment 2016-09-24 18:06:05 -06:00
Rafi Khan
f1b01f4318 modified library properties, need to add architectures #364 2016-09-24 17:41:30 -06:00
Rafi Khan
af837c6b21 added my own copyright as I plan on adding a lot of changes into the 
library
 2016-09-24 17:28:41 -06:00
Rafi Khan
a59d413e3d removed travis for the time being as we need to change how it works 2016-09-24 17:24:31 -06:00
Rafi Khan
387f92ba49 moved todo to readme to make it more visible 2016-09-24 17:21:09 -06:00
Rafi Khan
f3f49d3318 added DS_Store to gitignore 2016-09-24 17:18:27 -06:00
Rafi Khan
89fd7dae70 removed sublime project from git 2016-09-24 17:18:09 -06:00
Rafi Khan
ad7128544a removed protocol definitions from project 2016-09-24 17:13:09 -06:00
Rafi Khan
1f6e4d6a2e added todo file, will add more things to it as i go along 2016-09-24 17:12:42 -06:00
Rafi Khan
05cc3e683c Merge pull request #350 from safaorhan/master 
Update keywords.txt to add sendLG
 2016-08-19 23:31:39 -06:00
safaorhan
c0dda82685 Update keywords.txt 
Add sendLG as KEYWORD2
 2016-08-18 12:20:43 +03:00
Rafi Khan
0d398731b2 Merge pull request #343 from PaulStoffregen/master 
Minor fixes for Teensy 3.x
 2016-08-01 12:24:32 -06:00
PaulStoffregen
e72008adf6 Allow any clock >= 8 MHz on Teensy 3.x 2016-08-01 07:08:17 -07:00
PaulStoffregen
2d1b0f4737 Fix errors on Teensy 3.x 2016-08-01 06:55:56 -07:00
Rafi Khan
bb0323bd7c Merge pull request #336 from henkel/lego_pf_tests 
Add Lego Power Functions tests
 2016-07-26 23:31:43 -06:00
Philipp Henkel
b26b64f871 Update changelog and version info 2016-07-27 07:25:52 +02:00
Philipp Henkel
13df9e5632 Merge remote-tracking branch 'origin/lego_pf_tests' into lego_pf_tests 2016-07-26 22:28:06 +02:00
Philipp Henkel
a9385b92d8 Add Lego Power Functions tests 2016-07-26 22:27:33 +02:00
Rafi Khan
5bd251fa22 Merge pull request #340 from hmeine/master 
Misleading link to "tutorials and more information"
 2016-07-25 08:40:28 -06:00
Hans Meine
8a767328df rephrase sentence linking to (to-do) tutorials 2016-07-25 12:46:23 +02:00
Rafi Khan
1a05ac08a5 Merge pull request #337 from MCUdude/master 
Add ATmega48 and ATmega88 to the list (+ some other minor commits)
 2016-07-23 22:54:24 -06:00
Hans
b27398de74 Update README.md 2016-07-22 19:31:14 +02:00
Hans
76e23159f2 Added myself! 2016-07-15 22:30:02 +02:00
Hans
75960b95f6 Added ATmega48 and ATmega88 2016-07-15 22:27:57 +02:00
Hans
9bf00849b3 Added ATmega48 and ATmega88 2016-07-15 22:25:01 +02:00
Hans
ec5a82bd93 Added ATmega48 and ATmega88 2016-07-15 22:20:53 +02:00
Philipp Henkel
d28b6f985c Add Lego Power Functions tests 2016-07-12 23:14:47 +02:00
Rafi Khan
2343bee2fa Merge pull request #334 from z3t0/z3t0-patch-2 
Added Leonardo to hardware table #224 #281
 2016-07-10 22:50:29 -06:00
Rafi Khan
e5dc3e108e Added Leonardo to hardware table #224 #281 2016-07-10 23:42:23 -05:00
Rafi Khan
de3d723574 Merge pull request #325 from z3t0/dev 
Merging 2.2.0 into master
 2016-06-28 01:17:50 -06:00
Rafi Khan
978284d55f slightly modified travis - TODO support more boards 2016-06-28 01:10:24 -06:00
Rafi Khan
e6b839c34f 2.2.0 2016-06-28 00:59:31 -06:00
Rafi Khan
bb1470a029 added changelog 2016-06-28 00:59:20 -06:00
Hans
f9a41c99c8 There's no such thing as an ATmega8P 2016-06-26 12:04:52 +02:00
Hans
bc15ded405 Added more microcontrollers to the list 2016-06-26 12:02:25 +02:00
Hans
38c1e017a2 Added more microcontrollers 2016-06-26 11:43:22 +02:00
Hans
d5658f4488 Update IRremoteInt.h 2016-06-26 11:33:46 +02:00
Hans
e7e5465b74 Added support for more ATmegas! 
Support for ATmega8535, ATmega16, ATmega32, ATmega64, ATmega128, ATmega164, ATmega324, ATmega644 and ATmega1284
 2016-06-26 11:10:26 +02:00
Rafi Khan
44f801d55c Merge pull request #309 from henkel/lego_power_functions 
Add Lego Power Functions send protocol
 2016-05-20 19:58:58 -06:00
Philipp Henkel
92c7f00138 Update changelog and contributors 2016-05-04 22:08:52 +02:00
Philipp Henkel
d0f1d0d33d Add supported device LEGO® Power Functions IR Receiver 8884 2016-04-27 23:51:56 +02:00
Philipp Henkel
34e5cd87ca Add Lego Power Functions send protocol 2016-04-27 21:57:57 +02:00
Rafi Khan
d064c7dd5b Merge pull request #306 from ivankravets/patch-4 
Cache PlatformIO packages using Travis CI container-based infrastructure
 2016-03-28 11:56:12 -06:00
Ivan Kravets
33c2e36033 Merge branch 'master' into patch-4 2016-03-28 13:54:26 +03:00
Rafi Khan
b8ef1c3e92 Merge pull request #305 from ivankravets/patch-3 
Use tagged/versioned source code from repo
 2016-03-27 16:05:28 -06:00
Ivan Kravets
f04b014da5 Cache PlatformIO packages using Travis CI container-based infrastructure 2016-03-27 18:43:02 +03:00
Ivan Kravets
fa2f5f9352 Use tagged/versioned source code from repo 2016-03-27 18:40:13 +03:00
Rafi Khan
864ed3ad4d Merge pull request #303 from AnalysIR/master 
Fixed bug in ir_Dish.cpp for sending
 2016-03-26 22:59:22 -06:00
AnalysIR
fc96667673 Fixed bug in ir_Dish.cpp for sending 
One of our users of AnalysIR, reported issues with sending DIsh signals. After some investigation we realised that this file was neglecting to send the trailing mark after the bits. Fix is included in this update & has been tested on a live Dish device by our own user.

AnalysIR - 26th March 2016
----------------------------------------
https://www.AnalysIR.com/
 2016-03-26 14:22:06 +00:00
AnalysIR
7d30c2ff78 Merge pull request #3 from z3t0/master 
syncing with latest master
 2016-03-26 14:14:33 +00:00
Rafi Khan
ebbefa835f Merge pull request #301 from z3t0/z3t0-patch-1 
fix syntax
 2016-03-24 17:57:42 -06:00
Rafi Khan
fba0ee0ae5 fix syntax 2016-03-23 01:06:24 -06:00
Rafi Khan
0221081f25 Merge pull request #300 from z3t0/z3t0-patch-1 
added authors
 2016-03-22 23:16:07 -06:00
Rafi Khan
cf7b49389c added authors 
feel free to add your self
 2016-03-22 23:09:07 -06:00
Rafi Khan
3aebf42ca8 typo 2016-02-21 01:03:15 -06:00
Rafi Khan
0486c4f25a change travis link 2016-02-21 00:50:49 -06:00
Rafi Khan
25de5b79d6 Merge pull request #278 from z3t0/dev 
Merge dev into master
 2016-02-21 00:50:13 -06:00
Rafi Khan
17628525af added ISSUE_TEMPLATE 2016-02-21 00:48:41 -06:00
Rafi Khan
cb01593db0 Contributing.md 
added hardware specs table
 2016-02-21 00:41:34 -06:00
Rafi Khan
9e2c41230c added contribution guidelines 2016-02-21 00:13:00 -06:00
Rafi Khan
3bdc6a65a6 added support boards section in the readme 2016-02-21 00:03:44 -06:00
Rafi Khan
841e77a642 changed travis link for dev branch 2016-02-20 23:47:27 -06:00
Rafi Khan
bd1a2e05a0 @2.1.0 #258 (updated changelog) 2016-02-20 23:46:02 -06:00
Rafi Khan
3a906217d2 Merge branch 'ElectricRCAircraftGuy-patch-1' into dev 
merging #258
 2016-02-20 23:41:18 -06:00
Rafi Khan
9697752f4e Merge branch 'patch-1' of git://github.com/ElectricRCAircraftGuy/Arduino-IRremote into ElectricRCAircraftGuy-patch-1 
merging #258
 2016-02-20 23:40:50 -06:00
Rafi Khan
c471e2816d @2.0.4 #54 (added changelog info) 2016-02-20 23:37:11 -06:00
Rafi Khan
ec356c951b Merge branch 'lumbric-master' into dev 
merging #54
 2016-02-20 23:34:01 -06:00
Rafi Khan
1c3275f228 Merge branch 'master' of git://github.com/lumbric/Arduino-IRremote into lumbric-master 
working on merging #54
 2016-02-20 23:33:11 -06:00
Rafi Khan
376301228a changed irsendraw parameter to const, #227 2016-02-20 23:17:45 -06:00
Rafi Khan
96c40f63f0 added sublime workspace to gitignore 2016-02-20 23:17:07 -06:00
Rafi Khan
86e20db36c added sublime project file to gitignore 2016-02-20 23:02:55 -06:00
Gabriel Staples
e4933e809e Update IRremote.cpp 
very minor changes
 2016-01-23 21:12:34 -05:00
Gabriel Staples
92092df7a0 Update IRremote.cpp 
Further improved debug formatting, & added F macro to reduce RAM usage during prints.
 2016-01-23 21:06:41 -05:00
Gabriel Staples
ed1a2a2153 Update IRremote.cpp to improve debugging 
This is a small change, and definitely an improvement. I simply improved the debugging by stating whether a check passed or failed, for easier identification in debug mode.
 2016-01-23 20:18:25 -05:00
Rafi Khan
e3ec11d696 Merge PR #241 Merge branch 'AnalysIR-master' 2015-12-02 23:57:22 +00:00
Rafi Khan
8bde9ee628 merging #241 2015-12-02 23:57:00 +00:00
AnalysIR
711ebd7d92 Create IRremoteInfo.ino 
A helper tool to assist in supporting troubleshooting with IRremote.
Prints all of the current settings applied within the users IRremote set-up.
A description og the utility is available here: http://www.analysir.com/blog/2015/11/28/helper-utility-for-troubleshooting-irremote/
 2015-11-28 21:11:08 +00:00
AnalysIR
a9706375c0 Merge pull request #2 from z3t0/master 
Update from Original
 2015-11-28 14:01:01 +00:00
Rafi Khan
e1957629d3 Update ir_Aiwa.cpp 
fixed typo in line 12
 2015-11-10 15:02:32 -06:00
Rafi Khan
9293d2fcba Merge pull request #233 from ram-0000/patch-1 
Update ir_Aiwa.cpp
 2015-11-10 15:01:45 -06:00
ram-0000
c41f506cc1 Update ir_Aiwa.cpp 
Remove unused mask variable line 31
 2015-11-08 19:38:54 +01:00
Rafi Khan
3c4fc7bf37 Merge pull request #223 from PaoloP74/master 
Update version to 2.0.1
 2015-09-28 20:46:21 -06:00
Rafi Khan
26560e5755 Contact info @readme.md 2015-09-28 20:45:55 -06:00
Paolo Paolucci
d7a4c4e0c8 Update version to 2.0.1 2015-09-25 09:23:22 +02:00
Paolo Paolucci
9a57b2aead Errata corrige keyword file 2015-09-25 09:22:25 +02:00
Paolo P
c90d6788a1 Update version to 2.0.1 
Update to version 2.0.1
 2015-09-24 11:43:33 +02:00
Rafi Khan
2da6aeaf27 Merge pull request #215 from audetto/master 
Merge back irISR.cpp into irRemote.cpp to avoid a linker issue
 2015-09-10 15:52:44 -06:00
Rafi Khan
2fd83bbb00 Merge pull request #219 from bessl/master 
Changed library name "RobotIRremote"
 2015-09-09 09:00:35 -06:00
Bernhard Essl
702a064251 Merge pull request #1 from bessl/bessl-patch-1 
Changed library name "RobotIRremote"
 2015-09-09 10:49:16 +02:00
Bernhard Essl
f5071daac8 Changed library name "RobotIRremote" 2015-09-09 10:47:28 +02:00
Andrea Odetti
5b82539954 Merge back irISR.cpp into irRemote.cpp to avoid an issue due to the absence of exported symbols from irISR.cpp 
see

https://github.com/z3t0/Arduino-IRremote/issues/214
https://github.com/sudar/Arduino-Makefile/issues/376

In some circumstances the linker skips irISR.cpp

irRemote.cpp is always included (by the linker).

Andrea
 2015-09-02 20:19:03 +01:00
Rafi Khan
55f3e27866 Merge pull request #213 from AnalysIR/master 
Update IRrecvDumpV2.ino
 2015-08-28 16:43:43 -06:00
AnalysIR
f985c4b318 Update IRrecvDumpV2.ino 
- Cleaned up layout of output, removed trailing commas
- buffer sizes are now correct
- no need to add 0 for space at end, as sendRAW takes care of this
 2015-08-28 15:56:18 +01:00
Rafi Khan
cdd783ce7e Merge pull request #212 from chaeplin/master 
LG_AC : heating option
 2015-08-27 13:28:25 -06:00
chaeplin
a237a0e393 typo 86 / 30 2015-08-28 04:15:04 +09:00
chaeplin
27777e89b2 decoding for LG A/C 2015-08-28 04:02:47 +09:00
chaeplin
0ef30ed227 Fahrenheit 2015-08-28 03:36:26 +09:00
chaeplin
d87707d0ec add heating 2015-08-27 21:09:30 +09:00
chaeplin
d8bdbb1a44 typo 2015-08-27 21:04:34 +09:00
chaeplin
3fcb071d36 heating 2015-08-27 21:01:26 +09:00
chaeplin
b4c8e6b22c Revert "Revert "heating"" 
This reverts commit e6bcf89664.
 2015-08-27 20:58:38 +09:00
chaeplin
e6bcf89664 Revert "heating" 
This reverts commit df34396969.
 2015-08-27 20:58:00 +09:00
chaeplin
df34396969 heating 2015-08-27 20:55:40 +09:00
Rafi Khan
bce86bf8ed corrected a typo 2015-08-26 16:16:26 -06:00
Rafi Khan
0bf5993a5b Update README.md 2015-08-26 16:14:26 -06:00
Rafi Khan
77fd51e891 Merge pull request #203 from chaeplin/LG_AC 
adding SEND_LG
 2015-08-26 16:10:11 -06:00
Rafi Khan
22e64f144c Merge pull request #207 from AnalysIR/master 
Bug fixes as per Issue #167
 2015-08-26 16:09:32 -06:00
AnalysIR
61f00b8dc5 Update IRrecvDumpV2.ino 
Fixed presentation & 2 bugs.

Presentation: No longer display leading space in timings, as is confusing to users & essentially irrelevant.
Bug Fix 1: rawData was starting with a space & would not work with sendRaw
Bug Fix 2: chaned x from unsigned int to nsigend long to avoid potential overflow on integer multiplication.

very similar to recent changes to IRrecDump #167  #207
 2015-08-25 01:00:56 +01:00
AnalysIR
bd72084b7f Bug fixes as per Issue #167 
Have updated IRrecvDdump to fix bugs described in Issue: #167

In summary, removed bug where large space values were displayed incorrectly & confusing users. The output now always starts with a mark, instead of a space, which makes it easier to interpret and less confusing for users.

refer to #167 for more detials.

The update has been tested with several protocols (but not all) and verified as working.
 2015-08-25 00:34:54 +01:00
Rafi Khan
cd02daf27c Merge pull request #206 from AnalysIR/master 
Create IRsendRawDemo
 2015-08-24 15:06:30 -06:00
AnalysIR
339a7969c9 Delete IRsendRawDemo.ino 
moved to own folder to maintain consistency with other examples
 2015-08-24 21:26:08 +01:00
AnalysIR
0abc9f0908 Create IRsendRawDemo.ino 
New example should go into new fordel of same name...sorry
 2015-08-24 21:25:22 +01:00
AnalysIR
61d0263c5b Rename IRsendRawDemo to IRsendRawDemo.ino 
forgot to put .ino extension on file.

now corrected
 2015-08-24 21:21:46 +01:00
AnalysIR
e9d43f7751 Create IRsendRawDemo 
As sendRaw is a very popular methos of sending unknown or AC signals, I though it would be very useful to include and example of same with the library.

The code in this new example is tested and verified as working with the latest Master.
 2015-08-24 21:17:23 +01:00
Rafi Khan
79d951896d Merge pull request #205 from AnalysIR/master 
Update IRsendDemo.ino
 2015-08-24 13:55:45 -06:00
AnalysIR
d433744ec7 Update IRsendDemo.ino 
As written this example will cause issues with some IR receivers. On the face of it it sends teh sony signal burst 3 times with a 40ms gap. However, it really continues to send the sony signal forever with a 40ms gap.

There needs to be a reasonable gap between signals sent & I have added in a 5 sec gap as a reasonable figure.

Without a gap, many IR receivers will treat this signal as noise as it send continuous sony bursts with a 40 ms gap.
 2015-08-24 20:37:41 +01:00
chaeplin
ec371483ac adding SEND_LG 2015-08-22 19:06:22 +09:00
Rafi Khan
072ab7f048 Merge pull request #202 from AnalysIR/master 
change int to unsigned int in IRrecvDumpV2
 2015-08-20 10:19:26 -06:00
AnalysIR
f83fe2b70f Update IRrecvDumpV2.ino 
looks like this multiplier was omitted and needs to be include to make the output meaningful/useful???

Would also explain some weird output I have seen posted.
 2015-08-20 15:53:50 +01:00
AnalysIR
1fd88cd308 change int to unsigned int in IRrecvDumpV2 
some larger values could overflow to negative numbers, with unsigned int (vs int)
 2015-08-20 15:46:23 +01:00
Rafi Khan
028cc2e649 Merge pull request #201 from AnalysIR/master 
Updates to IRremote.h, irSend.cpp. by @AnalysIR
 2015-08-19 17:07:35 -06:00
AnalysIR
9b21a7fdbd Update parameters for mark,space and sendraw 
parameters changed from int to unsigned int to allow longer mark/space durations and signal length.
hz changed to allow for potential future use of 455kHz carrier frequency. (Ther may be existing modes to the library, using this frequency)
 2015-08-19 23:24:59 +01:00
AnalysIR
f1dc505249 Merge pull request #1 from AnalysIR/AnalysIR-IRremote-patch-1-1 
changes to  senRAW, mark,space,custom_delay_usec
 2015-08-19 23:19:14 +01:00
AnalysIR
1e72064557 changes to senRAW, mark,space,custom_delay_usec 
parameters changed from int to unsigned int to allow longer mark/space durations and signal length.hz changed to allow for potential future use of 455kHz carrier frequency. (Ther may be existing modes to the library, using this frequency)

removed "asm" workaround for compiler, because it was not need ed on my system.
Original autor should verify this again. It could be alternatice compiler optimization settings?
Alternatively, place the volatile keyword before the variables in the function to avoid the "optimization out"
 2015-08-19 23:17:03 +01:00
Rafi Khan
24d20e3231 Merge pull request #198 from pcoughlin/master 
update custom_delay function
 2015-08-15 14:04:34 -06:00
Paul Coughlin
7aee7fcf89 update custom_delay function 
Use micros() to delay based on "real-time" instead of approximation with
delay() or delayMicroseconds()

Changed name to _usec to correspond to MicroSeconds.
_ms is MilliSeconds.
 2015-08-14 20:22:34 -06:00
Rafi Khan
11cb3fe442 Fixed delay method by replacing delayMicroseconds call with a loop if 
it is too long.
 2015-08-13 16:54:59 -06:00
Rafi Khan
c058f3f336 solves #195 2015-08-12 14:16:51 -06:00
Rafi Khan
879b06b1c4 Removed a windows encoding line in irISR.cpp, #192 2015-08-11 00:17:55 -06:00
Rafi Khan
cd9fb53520 Fixed README links. 2015-08-10 14:41:13 -06:00
Rafi Khan
5c920bd31d wrapped getRCLevel function with #if DECODE_RC5/6 2015-08-10 14:33:35 -06:00
Rafi Khan
c9e8ab555e changed ifdef to if in IRRecv 2015-08-10 14:31:27 -06:00
Rafi Khan
a1a4538200 fixed previous commit 2015-08-10 14:12:03 -06:00
Rafi Khan
2efeef446e Working on sendRaw Bug 2015-08-10 13:53:56 -06:00
Rafi Khan
f1e1fd0a59 Merge pull request #183 from madmalkav/master 
Added suport for user defined IR reception feedback LED
 2015-08-09 21:31:08 -06:00
madmalkav
114fe2ccd6 Added suport for user defined IR reception feedback LED 2015-07-31 20:58:04 +02:00
Rafi Khan
295cdf2e15 Merge pull request #182 from ivankravets/patch-1 
Update Travis CI badge with @z3t0 account
 2015-07-30 11:44:29 -06:00
Rafi Khan
6a10861a44 Update IRsendDemo.ino 2015-07-30 11:43:59 -06:00
Ivan Kravets
b6c04cde1a Update Travis CI badge with @z3t0 account 2015-07-30 19:24:12 +03:00
Rafi Khan
197ff26f68 Update Contributors.md 2015-07-30 00:14:55 -06:00
Rafi Khan
e794c747db Travis CI workingvim README.md ! added the badge 2015-07-30 00:03:15 -06:00
Rafi Khan
86a1e93b23 dummy commit to test travis ci 2015-07-30 00:01:37 -06:00
Rafi Khan
9fe9551705 Removed Travis Badge, will add when Travis is working 2015-07-26 23:03:39 -06:00
Rafi Khan
b473429939 Merge pull request #107 from shirriff/experimental 
Merging 2.1 (#107 Experimental) to master where development will continue
 2015-07-26 22:41:31 -06:00
Rafi Khan
0c298aaf39 Updated changelog 2015-07-26 22:38:20 -06:00
Rafi Khan
29826d01f4 Added pin comment for ATtiny84 2015-07-26 22:37:56 -06:00
Rafi Khan
e23aa5eb32 Updating Changelog - test 1 2015-07-26 22:13:24 -06:00
Rafi Khan
3cc9956f97 #176 2015-07-24 16:36:09 -06:00
Rafi Khan
107b8c249c 1e519b1bf 2015-07-24 16:35:28 -06:00
Rafi Khan
1e519b1bf3 added isIdle Method for receiving, #48 2015-07-23 19:39:46 -06:00
Rafi Khan
dcd06fa0ef Add support for ATtiny85 2015-07-23 19:12:23 -06:00
Rafi Khan
ee1b44de3f Add support for ATtiny84 2015-07-23 19:04:22 -06:00
Rafi Khan
2280c963a7 testing travis 2015-07-16 19:47:11 -06:00
Rafi Khan
b79c04f11c Merge branch 'ivankravets-master' into experimental 
Conflicts:
	README.md
 2015-07-16 19:41:40 -06:00
Rafi Khan
df6f2003ef Merge branch 'master' of git://github.com/ivankravets/Arduino-IRremote into ivankravets-master 2015-07-16 18:59:10 -06:00
Rafi Khan
1e85b4a058 Experimental Release 2015-07-11 15:43:18 -06:00
Rafi Khan
555a600acc Added pin variable in IRrecvDumpV2 2015-07-11 15:22:18 -06:00
Rafi Khan
2e4538bac8 Added option for Teensy 3.1's processor. This is NOT a fix to #171 2015-07-11 00:35:30 -06:00
Rafi Khan
360ca6ffb9 Add Teensy LC Support, confirmed working @48Mhz with RecvDemo 2015-07-08 16:22:50 -06:00
Rafi Khan
503225635e Merge pull request #169 from csBlueChip/master 
Fix coding error in send loops (specify bit size of literal)
 2015-07-08 13:56:44 -06:00
Bluechip
ec5e1bd5f9 Fix coding error in send loops (specify bit size of literal) 2015-07-01 20:06:51 +01:00
Rafi Khan
0cacdf1ccb added changelog 2015-06-26 12:25:39 -06:00
Rafi Khan
23fa23ada2 Merge branch 'master' of https://github.com/csBlueChip/Arduino-IRremote into experimental 2015-06-26 11:41:58 -06:00
Rafi Khan
4429c773ce Merge pull request #160 from gitter-badger/gitter-badge 
Add a Gitter chat badge to README.md
 2015-06-26 11:35:59 -06:00
The Gitter Badger
5d5479adbd Added Gitter badge 2015-06-25 22:59:19 +00:00
Bluechip
4e5608f25f https://github.com/shirriff/Arduino-IRremote/issues/156 
Improve output for recvDumpV2
Added my name to the contributors list (not 'cos I really care for the credit <whatever> but so people know who to "blame" [non-pejorative])
Moved the decode() function to the top of the source as it is likely to be edited the most
 2015-06-22 21:23:53 +01:00
Bluechip
845e912e9f Fixup test harness & frequency calculator in Pronto code 2015-06-21 18:34:40 +01:00
Bluechip
2e163ae3f4 Additional comments in Denon code 2015-06-21 18:33:47 +01:00
Bluechip
3dec997391 Added sendPronto() 2015-06-21 18:13:21 +01:00
Bluechip
6a1222d180 Started work on supporting Pronto Codes 2015-06-21 03:11:24 +01:00
Bluechip
78e9b87a34 Add Denon support 
Improve comments
Fixup DECODE_AIWA_RC_T50
Simplify template
 2015-06-21 01:20:44 +01:00
Bluechip
593e0a3ee3 Improve documentation and fixup IRrecvDumpV2.ino 2015-06-20 22:08:13 +01:00
Bluechip
ae477413de Fixup old examples 
Add new example
 2015-06-20 22:03:00 +01:00
Bluechip
07df68af9d correct typo 2015-06-20 21:09:44 +01:00
Bluechip
05e688a961 Added a template for new protocols with full instructions in a big comment at the top 2015-06-20 21:08:21 +01:00
Bluechip
aa32e8f048 Removed explicit values in enumeration 2015-06-20 21:07:40 +01:00
Bluechip
eb0360e758 More cleanup and a few minor optimisations 2015-06-20 20:27:59 +01:00
Bluechip
66dee2fa16 ISR Commenting 2015-06-20 18:33:00 +01:00
Bluechip
5e7a1c1f12 Abbreviated (Panasonic) address handling 2015-06-20 18:27:10 +01:00
Bluechip
8afb3e73a6 Introduced overflow detection code to the ISR State Machine 2015-06-20 18:26:23 +01:00
Bluechip
dfd14d437c Increased RAWLEN to 101 to stop Panasonic codes overflowing 2015-06-20 18:24:50 +01:00
Bluechip
5d994880b9 Commenting formatting 
move ISR macros to ISR header
 2015-06-20 17:54:18 +01:00
Bluechip
7b8444a305 Remove use of macro TOPBIT 2015-06-20 17:51:40 +01:00
Bluechip
813a3038ab Commenting 2015-06-20 17:51:10 +01:00
Bluechip
a1cf782c44 Bit more code cleanup 2015-06-20 14:42:59 +01:00
Bluechip
88e243fe06 Broken the source in to manageable chunks - 2KLOC files are not fun to debug! 
Utterly failed to reduce the MARK_?? functions back down to MACROs - every time I try, the decoders start failing ...However, I have found a considerable number of bugs in the toolchain, so I'm starting to wonder if the fault is not mine.
 2015-06-20 04:29:28 +01:00
Bluechip
04e2cfbdad Compiling, all functionality enabled, tested with Panasonic 2015-06-20 01:20:25 +01:00
Bluechip
5f92834a12 Finish sendXXX() cleanup 
Move NEC decode to be with NEC send
 2015-06-19 00:12:29 +01:00
Bluechip
a338d5525a Bit more cleanup 
Guests have arrived - sanity checkin
 2015-06-18 19:52:22 +01:00
Bluechip
001ccf9425 Optimise send() loops 
Query accuracy of sendAiwaRCT501() [see inline comment]
 2015-06-18 19:24:21 +01:00
Bluechip
6af9a1b485 Whitespace cleanup on for() loops 2015-06-17 23:12:32 +01:00
Bluechip
7d926499b4 Cleaned up the DEBUG output 2015-06-17 23:04:47 +01:00
Bluechip
7f1387278f Reduce one-line-if's down to one line 2015-06-17 22:54:43 +01:00
Bluechip
c45b84f65c Standardise function headers for consistent coding style 2015-06-17 22:25:34 +01:00
Bluechip
64698fd24b Standardise commenting as C++ style throughout 2015-06-17 22:16:43 +01:00
Bluechip
942dcf4051 Clearly mark the start of every function to aid is source navigation & code maintainability 2015-06-17 21:59:04 +01:00
Ivan Kravets
66395a5daa Switch to stable release of @PlatformIO 2015-05-27 17:18:01 +03:00
Ivan Kravets
8e043b5bb4 Continuous Integration with @travis-ci + @PlatformIO 2015-05-23 19:35:45 +03:00
Rafi Khan
9170c0b4a1 Update README.md 2015-05-14 16:32:48 -06:00
Rafi Khan
f9faf98048 #133 2015-04-26 17:06:52 -06:00
Rafi Khan
5cf1e45002 Merge pull request #119 from jan-r/ATmega8-IRQ-fix 
Fixed problem with interrupt enable/disable on ATmega8
 2015-04-18 14:18:02 -06:00
joshua noble
0cb77d3c5b Merge pull request #124 from levsa/master 
Added different ifdefs for SEND and DECODE. Enum for decode_type. ifdef errors fixed.
 2015-04-10 10:49:40 -07:00
Levon Saldamli
d336bc541a Changed ifdefs for SEND and DECODE, created enum for decode_type_t. Corrected ifdef errors, issues #121, #122, #123). 2015-04-06 18:17:53 +02:00
Levon Saldamli
675f9fe042 Library properties for arduino 1.0.5 to recognize as library. 2015-04-06 17:16:27 +02:00
jan-r
4caca675ff Fixed problem with interrupt enable/disable on ATmega8 
Previously, when enabling or disabling interrupts on the ATmega8, the
whole TIMSK register was overwritten. This disables all other timer
interrupts (for Timer0 and Timer2). The fix takes care of that by
selectively enabling/disabling the required OCIE1A flag.
 2015-04-04 11:02:53 +02:00
Rafi Khan
96fa0f557a Quick fix for previous commit 2015-03-16 12:07:55 -06:00
Rafi Khan
04420c9f5c Add Aiwa protocol to keywords 2015-03-16 12:07:21 -06:00
joshua noble
66d82da532 Updating for device usage 2015-03-15 19:41:46 -07:00
Joshua Noble
117059a17f merging 110 2015-03-15 13:28:46 -07:00
Rafi Khan
ce1c79baa5 Merge pull request #61 from crash7/master 
Added Aiwa protocol (remote control RC-T501).
 2015-03-14 21:04:30 -06:00
sstefanov
549d92d2f5 Added possibility to exclude non-necessary libraries by comment lines in IRremote.h 2015-03-12 14:49:48 +02:00
Rafi Khan
c2bf981fe7 Update Contributors.md 2015-03-10 15:43:28 -06:00
Rafi Khan
2ad1487c8d Added Lauszus to contrib. 2015-03-10 15:43:13 -06:00
Rafi Khan
c1c6bd4199 Added reference to GitHub page 2015-03-09 18:54:25 -06:00
Rafi Khan
2768ddc676 Releases can be found on the releases page. 2015-03-09 13:01:25 -06:00
Rafi Khan
7b08532e47 Moved contributors to a different file 2015-03-08 19:42:47 -06:00
Rafi Khan
3b16c12b59 Added Neco777 to contributors 2015-03-08 19:40:16 -06:00
Rafi Khan
9c2064c5b4 add crash7 to contributors list 2015-03-08 17:38:20 -06:00
Rafi Khan
3256c847b2 remove index (for real) 2015-03-08 17:37:06 -06:00
Rafi Khan
2c6067eb30 Merge branch 'master' of https://github.com/shirriff/Arduino-IRremote 2015-03-08 17:35:45 -06:00
Rafi Khan
c35f7219dd removed index 2015-03-08 17:35:21 -06:00
Rafi Khan
18f5aa639b Added GitHub Page 2015-03-08 17:30:36 -06:00
Rafi Khan
a87d558b73 Merge pull request #90 from ivankravets/patch-1 
PlatformIO Library Manager manifest file
 2015-03-08 17:16:29 -06:00
Christian Musa
bed4cc5c97 Added Aiwa protocol (remote control RC-T501). 
Added Aiwa protocol (remote control RC-T501) based on lirc file.
Updated IRrecvDump example, added SendDemo example (AiwaRCT501SendDemo).
 2015-03-08 19:40:03 -03:00
Rafi Khan
c0446fd659 Fixed broken links 2015-03-08 16:07:40 -06:00
Rafi Khan
12f7ef1d28 Add contributors to readme 2015-03-08 16:03:41 -06:00
Rafi Khan
9235051c6a Readme is branch independent 2015-03-07 23:33:59 -06:00
Rafi Khan
4610e7eb0e NEC_ONE_SPACE should actually be 1690 2015-03-07 18:10:22 -06:00
Rafi Khan
13f207d863 Merge pull request #102 from cltnschlosser/patch-1 
Add LG keyword to keywords file from #102
Credits: @cltnschlosser
 2015-03-07 17:32:52 -06:00
Rafi Khan
7c67cc5c59 Merge pull request #105 from fmeschia/master 
Added Whynter A/C remote protocol from #105. 
Credits: @fmeschia
 2015-03-07 17:31:21 -06:00
Rafi Khan
4fed49fca6 Fixed typo 2015-03-07 17:24:50 -06:00
Rafi Khan
9d94115974 Revamped README 2015-03-07 17:22:29 -06:00
Rafi Khan
b3e3ced302 Fix #41 
Fixes #41 by implementing the solution by @canondale
 2015-03-07 16:53:43 -06:00
Francesco Meschia
0fce321c94 Added Whynter A/C remote protocol 
Tested with Whynter ARC-110WD
 2015-02-06 21:29:56 -08:00
Colton Schlosser
02f206e19c Add LG keyword 2015-01-10 14:17:43 -06:00
joshua noble
a881523044 Merge pull request #22 from PaulStoffregen/master 
Teensy 3.0 compatibility
 2014-11-16 07:20:33 -08:00
Ivan Kravets
a3cdf402d7 Avoid trademark issues with library name 
Added frameworks and platforms fields
 2014-10-20 11:41:09 +03:00
Ivan Kravets
e947f0924e PlatformIO-based manifest file 
Web: http://platformio.ikravets.com/#!/lib/show/Arduino-IRremote
Docs: http://docs.platformio.ikravets.com/en/latest/librarymanager/index.html
 2014-09-25 14:18:56 +03:00
joshua noble
f2dafe5030 Merge pull request #84 from Informatic/sendsharp 
sendSharp cleanup and API change
 2014-09-21 20:52:40 -07:00
Piotr Dobrowolski
b04b31232f Update keywords.txt 2014-09-17 23:21:54 +02:00
Piotr Dobrowolski
5719e7c00f sendSharp API change to make it compatible with decodeSharp 2014-09-17 22:34:41 +02:00
Piotr Dobrowolski
95f93e639e Cleanup sendSharp and fix reliability 2014-09-17 22:33:14 +02:00
joshua noble
24ba950f5c Merge pull request #73 from DaAwesomeP/master 
Add delay to IRrecvDemo Loop preventing duplicates
 2014-08-28 21:47:31 -07:00
P THE AWESOME
18591b037c Add delay to IRrecvDemo Loop preventing duplicates 
Prevents duplicates in serial when button was only pressed once.
 2014-08-04 16:19:07 -05:00
joshua noble
6c7e2e0f72 Merge pull request #69 from vk2tds/master 
LG A/C remote protocol decoding
 2014-07-10 09:30:01 -07:00
Darryl Smith
66c3b1f47c Updates for LG Air Conditioner Remote 2014-07-10 08:27:36 +10:00
vk2tds
0af9c5a9e9 Update IRremoteInt.h 2014-07-07 08:27:15 +10:00
joshua noble
3c89676bab Merge pull request #62 from sstefanov/master 
Added Samsung protocol
 2014-06-23 08:42:25 -07:00
joshua noble
fba55fb843 Merge pull request #31 from X-Y/master 
Multiple definition of "MATCH" error when running IRtest
 2014-06-08 11:18:32 -07:00
sstefanov
0de2d18bdb Added Samsung protocol 2014-05-23 12:20:39 +03:00
lumbric (antares)
1c57c6a9b0 adding Panasonic and JVC types for IRrecord 2014-02-20 21:35:50 +01:00
joshua noble
46b4e1084e Merge pull request #34 from joshuajnoble/master 
adding Attiny84 for Arduino Tiny
 2013-07-23 16:51:07 -07:00
Joshua Noble
e22a691164 updating timer interrupt name for Attiny84 2013-07-23 16:50:20 -07:00
Joshua Noble
a6bf23d71d adding Attiny84 2013-07-18 11:21:21 -07:00
Xun Yang
acc1b6b86e Fixed MATCH, MATCH_MARK, MATCH_SPACE when both IRremoteInt.h and IRremoteInt.h are included in sketch 2013-06-14 17:15:28 +02:00
PaulStoffregen
9ba6628f04 Add support for Teensy 3.0 2013-01-20 06:48:13 -08:00
Ken Shirriff
3f70ad2e4c Merge pull request #13 from TKJElectronics/master 
Added support for Arduino Leonardo
 2012-08-13 23:18:25 -07:00
Kristian Lauszus
107fa6cf4d Added support for Leonardo 2012-08-14 01:24:14 +02:00
Ken Shirriff
9dae9393f3 Update readme for 1.x 
Improve download and installation instructions. Remove obsolete 0018 version instructions.
 2012-08-08 09:05:39 -07:00
Ken Shirriff
e03a593847 mitra changes 
Conflicts:
	IRremote.cpp
	IRremote.h
	IRremoteInt.h
	keywords.txt
 2012-08-06 23:43:43 -07:00
Ken Shirriff
072b2c3db6 Merge branch 'master' of https://github.com/sEpt0r/Arduino-IRremote 
Conflicts:
	IRremoteInt.h
 2012-08-05 23:46:35 -07:00
Ken Shirriff
b25accfdd1 Merge pull request #11 from fpo/patch-1 
Timer2 disable interrupt
 2012-06-05 23:00:56 -07:00
Ken Shirriff
ade7cb6c29 Merge pull request #7 from TKJElectronics/master 
Added panasonic and JVC protocol and updated the library for Arduino IDE 1.0
 2012-06-05 23:00:07 -07:00
fpo
11a43ec5b6 i think that's the correct way. 2012-06-03 13:48:42 +03:00
Kristian Lauszus
937ce48832 Added support for ATmega2560 2012-03-21 21:31:41 +01:00
Kristian Lauszus
c48f817593 Set panasonic carrier frequency to 35 kHz 2012-03-20 22:21:16 +01:00
Vasiliy Marnopolskiy
a2af9e32a6 Support board with Atmega8 2012-02-14 00:56:34 +04:00
Kristian Lauszus
96eedde481 Added keywords 2012-02-08 18:15:48 +01:00
Kristian Lauszus
753e52efe7 Added panasonic and JVC protocol 
Most work already done by zenwheel, but the sendPanasonic command
didn't work. Sending and decoding is confirmed to work with using both
the JVC and Panasonic protocol.
The library has also been updated to work with Arduino IDE 1.0.
 2012-02-08 18:09:18 +01:00
Ken Shirriff
fb741e9893 Add wiki link 2011-05-05 22:28:58 -07:00
Ken
4131d5bbb6 Merge branch 'master' of https://github.com/toddtreece/Arduino-IRremote into toddtreece-master 2010-12-09 22:49:55 -08:00
Todd Treece
ccb4ac32c2 updated website info in documentation for sharp and dish support 2010-12-08 18:18:37 -05:00
Ken
2eb19be290 Support multiple devices and platforms. 
Patched in changes from Paul Stoffregen (http://www.pjrc.com/teensy/td_libs_IRremote.html)
 2010-11-17 19:19:25 -08:00
Ken
0fc224a81e Update readme. 2010-11-15 22:36:42 -08:00
Ken
114d8afe67 Add Test2. 
This tests functionality using a pair of Arduinos.
 2010-11-15 22:05:16 -08:00
Todd Treece
9bc832ec55 Updated Sharp protocol documentation 2010-09-20 15:35:29 -04:00
Ken Shirriff
31d80abc3f Fix CRLF issues. 
Many problems happen with git due to some machines liking CRLF at the
end of lines, and others linking CR.  To try to straighten this out,
I'm using Unix-style LF (\n) as the line endings.  To make sure your
repository remains consistent, try:

$ git config --global core.autocrlf input

For details, see:
http://help.github.com/dealing-with-lineendings/
 2010-05-15 15:21:48 -07:00
Ken Shirriff
da2a0d8f9d Add information on downloading from github. 2010-03-20 23:56:27 -07:00
42 changed files with 576 additions and 3345 deletions
Expand all files Collapse all files

3
.gitignore vendored
View File

@@ -1,3 +1,4 @@
*.un~
*.sublime-project
*.sublime-workspace
*.sublime-workspace
*.DS_Store

30
.travis.yml
View File

@@ -1,30 +0,0 @@
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

5
Contributors.md
View File

@@ -3,8 +3,8 @@ These are the active contributors of this project that you may contact if there
- [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!
- [Informatic](https://github.com/Informatic) : Active contributor
- [fmeschia](https://github.com/fmeschia) : Active contributor
- [PaulStoffregen](https://github.com/paulstroffregen) : Active contributor
@@ -15,8 +15,7 @@ These are the active contributors of this project that you may contact if there
- [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
- [henkel](https://github.com/henkel): 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.

11
IRremote.cpp
View File

@@ -18,17 +18,14 @@
// Whynter A/C ARC-110WD added by Francesco Meschia
//******************************************************************************
#include <avr/interrupt.h>
// Defining IR_GLOBAL here allows us to declare the instantiation of global variables
#define IR_GLOBAL
# include "IRremote.h"
# include "IRremoteInt.h"
#undef IR_GLOBAL
#ifndef IR_TIMER_USE_ESP32
#include <avr/interrupt.h>
#endif
//+=============================================================================
// The match functions were (apparently) originally MACROs to improve code speed
// (although this would have bloated the code) hence the names being CAPS
@@ -123,11 +120,7 @@ int MATCH_SPACE (int measured_ticks, int desired_us)
// 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;

12
IRremote.h
View File

@@ -79,9 +79,6 @@
#define DECODE_LEGO_PF 0 // NOT WRITTEN
#define SEND_LEGO_PF 1
#define DECODE_NERF_LOP 0 // NOT WRITTEN
#define SEND_NERF_LOP 1
//------------------------------------------------------------------------------
// When sending a Pronto code we request to send either the "once" code
// or the "repeat" code
@@ -122,7 +119,6 @@ typedef
DENON,
PRONTO,
LEGO_PF,
NERF_LOP,
}
decode_type_t;
@@ -255,10 +251,6 @@ class IRrecv
# if DECODE_LEGO_PF
bool decodeLegoPowerFunctions (decode_results *results) ;
# endif
//......................................................................
# if DECODE_NERF_LOP
bool decodeNerfLOP (decode_results *results) ;
# endif
} ;
//------------------------------------------------------------------------------
@@ -347,10 +339,6 @@ class IRsend
# if SEND_LEGO_PF
void sendLegoPowerFunctions (uint16_t data, bool repeat = true) ;
# endif
//......................................................................
# if SEND_NERF_LOP
void sendNerfLOP (uint16_t data, bool repeat = true) ;
# endif
} ;
#endif

525
IRremoteInt.h
View File

@@ -68,6 +68,40 @@ irparams_t;
// Therefore we declare it as "volatile" to stop the compiler/CPU caching it
EXTERN volatile irparams_t irparams;
//------------------------------------------------------------------------------
// 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
//------------------------------------------------------------------------------
// CPU Frequency
//
#ifdef F_CPU
# define SYSCLOCK F_CPU // main Arduino clock
#else
# define SYSCLOCK 16000000 // main Arduino clock
#endif
//------------------------------------------------------------------------------
// Defines for setting and clearing register bits
//
@@ -89,6 +123,9 @@ EXTERN volatile irparams_t irparams;
// Spaces tend to be 100us too short
#define MARK_EXCESS 100
// microseconds per clock interrupt tick
#define USECPERTICK 50
// Upper and Lower percentage tolerances in measurements
#define TOLERANCE 25
#define LTOL (1.0 - (TOLERANCE/100.))
@@ -107,7 +144,491 @@ EXTERN volatile irparams_t irparams;
#define MARK 0
#define SPACE 1
// All board specific stuff has been moved to its own file, included here.
#include "boarddefs.h"
//------------------------------------------------------------------------------
// 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
// Arduino Duemilanove, Diecimila, LilyPad, Mini, Fio, Nano, etc
// ATmega48, ATmega88, ATmega168, ATmega328
#else
//#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 */
//---------------------------------------------------------
// Unknown Timer
//
#else
# error "Internal code configuration error, no known IR_USE_TIMER# defined\n"
#endif
#endif

8
ISSUE_TEMPLATE.md
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@@ -14,12 +14,8 @@
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
- [] Any code referenced is provided
- [] 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!
The above is a short template allowing you to make detailed issues!

39
README.md
View File

@@ -1,5 +1,20 @@
# IRremote Arduino Library
# todo
- [ ] only keep base functions in the library
- [ ] move all protocols to examples as sketches
- [ ] notation for ir protocols
- [ ] update keywords.txt
- [ ] write some documentation on library development
- [ ] write documentation for library usage
- [ ] remove documentation from source code? cleaner code
- [ ] write tutorials
- [ ] update links (library.properties)
- [ ] update travis coverage
- [ ] create a rules list for issues and prs
- [ ] create guidlines for contributions, line-endings, indentations etc.
[![Build Status](https://travis-ci.org/z3t0/Arduino-IRremote.svg?branch=master)](https://travis-ci.org/z3t0/Arduino-IRremote)
[![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)
@@ -8,7 +23,7 @@ This library enables you to send and receive using infra-red signals on an Ardui
Tutorials and more information will be made available on [the official homepage](http://z3t0.github.io/Arduino-IRremote/).
## Version - 2.2.3
## Version - 3.0.0b
## Installation
1. Navigate to the [Releases](https://github.com/z3t0/Arduino-IRremote/releases) page.
@@ -17,12 +32,6 @@ Tutorials and more information will be made available on [the official homepage]
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)
@@ -31,9 +40,6 @@ Whether you use the Adafruit Neopixel lib, or FastLED, interrupts get disabled o
- 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
- Sparkfun Pro Micro
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.
@@ -51,20 +57,12 @@ We are open to suggestions for adding support to new boards, however we highly r
| [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** |
| [Sparkfun Pro Micro](https://www.sparkfun.com/products/12640) | 9, **5**, 5 | 1, **3**, 4_HS |
| [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** |
### Experimental patches
The following are strictly community supported patches that have yet to make it into mainstream. If you have issues feel free to ask here. If it works well then let us know!
[Arduino 101](https://github.com/z3t0/Arduino-IRremote/pull/481#issuecomment-311243146)
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
@@ -81,11 +79,12 @@ If you want to contribute to this project:
Check [here](Contributing.md) for some guidelines.
## Contact
Email: zetoslab@gmail.com
Please only email me if it is more appropriate than creating an Issue / PR. I **will** not respond to requests for adding support for particular boards, unless of course you are the creator of the board and would like to cooperate on the project. I will also **ignore** any emails asking me to tell you how to implement your ideas. However, if you have a private inquiry that you would only apply to you and you would prefer it to be via email, by all means.
The only way to contact me at the moment is by email: zetoslab@gmail.com
I am not currently monitoring any PRs or Issues due to other issues but will respond to all emails. If anyone wants contributor access, feel free to email me. Or if you find any Issues/PRs to be of importance that my attention is needed please email me.
## Contributors
Check [here](Contributors.md)
## Copyright
Copyright 2009-2012 Ken Shirriff
Copyright (c) 2016 Rafi Khan

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@@ -1,240 +0,0 @@
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595
boarddefs.h
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@@ -1,595 +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
// Sparkfun Pro Micro support by Alastair McCormack
//******************************************************************************
#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.
//
// Sparkfun Pro Micro
#if defined(ARDUINO_AVR_PROMICRO)
//#define IR_USE_TIMER1 // tx = pin 9
#define IR_USE_TIMER3 // tx = pin 5
//#define IR_USE_TIMER4_HS // tx = pin 5
// Arduino Mega
#elif 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_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__) \
|| defined(__AVR_ATmega64__) || defined(__AVR_ATmega128__)
# define TIMER_PWM_PIN 13 // MightyCore, MegaCore
#elif defined(__AVR_ATtiny84__)
# define TIMER_PWM_PIN 6
#else
# define TIMER_PWM_PIN 9 // Arduino Duemilanove, Diecimila, LilyPad, Sparkfun Pro Micro 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__) || defined(ARDUINO_AVR_PROMICRO)
# define TIMER_PWM_PIN 5 // Arduino Mega, Sparkfun Pro Micro
#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
#if defined(ARDUINO_AVR_PROMICRO) // Sparkfun Pro Micro
#define TIMER_ENABLE_PWM (TCCR4A |= _BV(COM4A0)) // Use complimentary O̅C̅4̅A̅ output on pin 5
#define TIMER_DISABLE_PWM (TCCR4A &= ~(_BV(COM4A0))) // (Pro Micro does not map PC7 (32/ICP3/CLK0/OC4A)
// of ATmega32U4 )
#else
#define TIMER_ENABLE_PWM (TCCR4A |= _BV(COM4A1))
#define TIMER_DISABLE_PWM (TCCR4A &= ~(_BV(COM4A1)))
#endif
#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(ARDUINO_AVR_PROMICRO)
# define TIMER_PWM_PIN 5 // Sparkfun Pro Micro
#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

9
changelog.md
View File

@@ -1,12 +1,3 @@
## 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)

4
examples/IRrecord/IRrecord.ino
View File

@@ -45,7 +45,7 @@ int toggle = 0; // The RC5/6 toggle state
// Most of this code is just logging
void storeCode(decode_results *results) {
codeType = results->decode_type;
//int count = results->rawlen;
int count = results->rawlen;
if (codeType == UNKNOWN) {
Serial.println("Received unknown code, saving as raw");
codeLen = results->rawlen - 1;
@@ -126,7 +126,7 @@ void sendCode(int repeat) {
Serial.println(codeValue, HEX);
}
else if (codeType == JVC) {
irsend.sendJVC(codeValue, codeLen, false);
irsend.sendPanasonic(codeValue, codeLen);
Serial.print("Sent JVC");
Serial.println(codeValue, HEX);
}

4
examples/IRrecvDemo/IRrecvDemo.ino
View File

@@ -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() {

2
examples/IRrecvDump/IRrecvDump.ino
View File

@@ -15,7 +15,7 @@
* You can change this to another available Arduino Pin.
* Your IR receiver should be connected to the pin defined here
*/
int RECV_PIN = 11;
int RECV_PIN = 11;
IRrecv irrecv(RECV_PIN);

2
examples/IRrecvDumpV2/IRrecvDumpV2.ino
View File

@@ -66,7 +66,7 @@ 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");
Serial.println("IR code too long. Edit IRremoteInt.h and increase RAWLEN");
return;
}

6
examples/IRtest2/IRtest2.ino
View File

@@ -61,7 +61,7 @@ void setup()
// Wait for the gap between tests, to synchronize with
// the sender.
// Specifically, wait for a signal followed by a gap of at last gap ms.
void waitForGap(unsigned long gap) {
void waitForGap(int gap) {
Serial.println("Waiting for gap");
while (1) {
while (digitalRead(RECV_PIN) == LOW) {
@@ -125,7 +125,7 @@ void dump(decode_results *results) {
// The motivation behind this method is that the sender and the receiver
// can do the same test calls, and the mode variable indicates whether
// to send or receive.
void test(const char *label, int type, unsigned long value, int bits) {
void test(char *label, int type, unsigned long value, int bits) {
if (mode == SENDER) {
Serial.println(label);
if (type == NEC) {
@@ -175,7 +175,7 @@ void test(const char *label, int type, unsigned long value, int bits) {
// Test raw send or receive. This is similar to the test method,
// except it send/receives raw data.
void testRaw(const char *label, unsigned int *rawbuf, int rawlen) {
void testRaw(char *label, unsigned int *rawbuf, int rawlen) {
if (mode == SENDER) {
Serial.println(label);
irsend.sendRaw(rawbuf, rawlen, 38 /* kHz */);

4
examples/LGACSendDemo/LGACSendDemo.ino
View File

@@ -192,12 +192,12 @@ void loop()
ac_activate(AC_TEMPERATURE, AC_FLOW);
break;
case 2:
if ( b == 0 || b == 1 ) {
if ( b == 0 | b == 1 ) {
ac_change_air_swing(b);
}
break;
case 3: // 1 : clean on, power on
if ( b == 0 || b == 1 ) {
if ( b == 0 | b == 1 ) {
ac_air_clean(b);
}
break;

18
examples/LegoPowerFunctionsTests/LegoPowerFunctionsTests.ino
View File

@@ -1,6 +1,6 @@
/*
* LegoPowerFunctionsTest: LEGO Power Functions Tests
* Copyright (c) 2016, 2017 Philipp Henkel
* Copyright (c) 2016 Philipp Henkel
*/
#include <ir_Lego_PF_BitStreamEncoder.h>
@@ -78,14 +78,14 @@ void testMessageBitCount(LegoPfBitStreamEncoder& bitStreamEncoder) {
logTestResult(bitCount == 18);
}
boolean check(LegoPfBitStreamEncoder& bitStreamEncoder, unsigned long markDuration, unsigned long pauseDuration) {
boolean check(LegoPfBitStreamEncoder& bitStreamEncoder, int markDuration, int 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) {
boolean checkNext(LegoPfBitStreamEncoder& bitStreamEncoder, int markDuration, int pauseDuration) {
bool result = bitStreamEncoder.next();
result = result && check(bitStreamEncoder, markDuration, pauseDuration);
return result;
@@ -129,16 +129,16 @@ void testMessage407Repeated(LegoPfBitStreamEncoder& bitStreamEncoder) {
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 + 5 * 16000 - 10844);
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 + 5 * 16000 - 10844);
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 + 8 * 16000 - 10844);
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 + 8 * 16000 - 10844);
result = result && checkNext(bitStreamEncoder, 158, 1026);
result = result && checkDataBitsOfMessage407(bitStreamEncoder);
result = result && checkNext(bitStreamEncoder, 158, 1026);
@@ -191,3 +191,7 @@ void testGetMessageLengthAllLow(LegoPfBitStreamEncoder& bitStreamEncoder) {
bitStreamEncoder.reset(0x0, false);
logTestResult(bitStreamEncoder.getMessageLength() == 9104);
}

513
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 "IRremote.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 "IRremoteInt.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

22
irRecv.cpp
View File

@@ -1,11 +1,6 @@
#include "IRremote.h"
#include "IRremoteInt.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.
@@ -89,11 +84,6 @@ int IRrecv::decode (decode_results *results)
DBG_PRINTLN("Attempting Lego Power Functions");
if (decodeLegoPowerFunctions(results)) return true ;
#endif
#if DECODE_NERF_LOP
DBG_PRINTLN("Attempting Nerf Laser Ops Pro Functions");
if (decodeNerfLOP(results)) return true ;
#endif
// decodeHash returns a hash on any input.
// Thus, it needs to be last in the list.
@@ -127,17 +117,6 @@ IRrecv::IRrecv (int recvpin, int blinkpin)
//
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)
@@ -151,7 +130,6 @@ void IRrecv::enableIRIn ( )
TIMER_RESET;
sei(); // enable interrupts
#endif
// Initialize state machine variables
irparams.rcvstate = STATE_IDLE;

3
irSend.cpp
View File

@@ -54,8 +54,6 @@ void IRsend::space (unsigned int time)
//
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
@@ -68,7 +66,6 @@ void IRsend::enableIROut (int khz)
// CS2 = 000: no prescaling
// The top value for the timer. The modulation frequency will be SYSCLOCK / 2 / OCR2A.
TIMER_CONFIG_KHZ(khz);
#endif
}
//+=============================================================================

105
ir_Aiwa.cpp
View File

@@ -1,105 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// AAA IIIII W W AAA
// A A I W W A A
// AAAAA I W W W AAAAA
// A A I W W W A A
// A A IIIII WWW A A
//==============================================================================
// Based off the RC-T501 RCU
// Lirc file http://lirc.sourceforge.net/remotes/aiwa/RC-T501
#define AIWA_RC_T501_HZ 38
#define AIWA_RC_T501_BITS 15
#define AIWA_RC_T501_PRE_BITS 26
#define AIWA_RC_T501_POST_BITS 1
#define AIWA_RC_T501_SUM_BITS (AIWA_RC_T501_PRE_BITS + AIWA_RC_T501_BITS + AIWA_RC_T501_POST_BITS)
#define AIWA_RC_T501_HDR_MARK 8800
#define AIWA_RC_T501_HDR_SPACE 4500
#define AIWA_RC_T501_BIT_MARK 500
#define AIWA_RC_T501_ONE_SPACE 600
#define AIWA_RC_T501_ZERO_SPACE 1700
//+=============================================================================
#if SEND_AIWA_RC_T501
void IRsend::sendAiwaRCT501 (int code)
{
unsigned long pre = 0x0227EEC0; // 26-bits
// Set IR carrier frequency
enableIROut(AIWA_RC_T501_HZ);
// Header
mark(AIWA_RC_T501_HDR_MARK);
space(AIWA_RC_T501_HDR_SPACE);
// Send "pre" data
for (unsigned long mask = 1UL << (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) ;
}
//-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
// I suspect TOPBIT should be changed to 0x00008000
// Skip first 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) ;
code <<= 1;
}
//-^- THIS CODE LOOKS LIKE IT MIGHT BE WRONG - CHECK!
// POST-DATA, 1 bit, 0x0
mark(AIWA_RC_T501_BIT_MARK);
space(AIWA_RC_T501_ZERO_SPACE);
mark(AIWA_RC_T501_BIT_MARK);
space(0);
}
#endif
//+=============================================================================
#if DECODE_AIWA_RC_T501
bool IRrecv::decodeAiwaRCT501 (decode_results *results)
{
int data = 0;
int offset = 1;
// 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 ;
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 ;
// 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++;
}
results->bits = (offset - 1) / 2;
if (results->bits < 42) return false ;
results->value = data;
results->decode_type = AIWA_RC_T501;
return true;
}
#endif

94
ir_Denon.cpp
View File

@@ -1,94 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.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

54
ir_Dish.cpp
View File

@@ -1,54 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// DDDD IIIII SSSS H H
// D D I S H H
// D D I SSS HHHHH
// D D I S H H
// DDDD IIIII SSSS H H
//==============================================================================
// Sharp and DISH support by Todd Treece ( http://unionbridge.org/design/ircommand )
//
// The sned function needs to be repeated 4 times
//
// Only send the last for characters of the hex.
// I.E. Use 0x1C10 instead of 0x0000000000001C10 as listed in the LIRC file.
//
// Here is the LIRC file I found that seems to match the remote codes from the
// oscilloscope:
// 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
//+=============================================================================
#if SEND_DISH
void IRsend::sendDISH (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(56);
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 )
}
#endif

101
ir_JVC.cpp
View File

@@ -1,101 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// JJJJJ V V CCCC
// J V V C
// J V V C
// J J V V C
// J V CCCC
//==============================================================================
#define JVC_BITS 16
#define JVC_HDR_MARK 8000
#define JVC_HDR_SPACE 4000
#define JVC_BIT_MARK 600
#define JVC_ONE_SPACE 1600
#define JVC_ZERO_SPACE 550
#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)
{
// Set IR carrier frequency
enableIROut(38);
// Only send the Header if this is NOT a repeat command
if (!repeat){
mark(JVC_HDR_MARK);
space(JVC_HDR_SPACE);
}
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(JVC_BIT_MARK);
space(JVC_ONE_SPACE);
} else {
mark(JVC_BIT_MARK);
space(JVC_ZERO_SPACE);
}
}
// Footer
mark(JVC_BIT_MARK);
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
#if DECODE_JVC
bool 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;
results->decode_type = JVC;
return true;
}
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], JVC_HDR_MARK)) return false ;
if (irparams.rawlen < (2 * JVC_BITS) + 1 ) return false ;
// Initial space
if (!MATCH_SPACE(results->rawbuf[offset++], JVC_HDR_SPACE)) return false ;
for (int i = 0; i < JVC_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], JVC_BIT_MARK)) return false ;
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 return false ;
offset++;
}
// Stop bit
if (!MATCH_MARK(results->rawbuf[offset], JVC_BIT_MARK)) return false ;
// Success
results->bits = JVC_BITS;
results->value = data;
results->decode_type = JVC;
return true;
}
#endif

80
ir_LG.cpp
View File

@@ -1,80 +0,0 @@
#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
//+=============================================================================
#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
ir_Lego_PF.cpp
View File

@@ -1,46 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.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
ir_Lego_PF_BitStreamEncoder.h
View File

@@ -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;
}
}
};

85
ir_Mitsubishi.cpp
View File

@@ -1,85 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// MMMMM IIIII TTTTT SSSS U U BBBB IIIII SSSS H H IIIII
// M M M I T S U U B B I S H H I
// M M M I T SSS U U BBBB I SSS HHHHH I
// M M I T S U U B B I S H H I
// M M IIIII T SSSS UUU BBBBB IIIII SSSS H H IIIII
//==============================================================================
// Looks like Sony except for timings, 48 chars of data and time/space different
#define MITSUBISHI_BITS 16
// Mitsubishi RM 75501
// 14200 7 41 7 42 7 42 7 17 7 17 7 18 7 41 7 18 7 17 7 17 7 18 7 41 8 17 7 17 7 18 7 17 7
// #define MITSUBISHI_HDR_MARK 250 // seen range 3500
#define MITSUBISHI_HDR_SPACE 350 // 7*50+100
#define MITSUBISHI_ONE_MARK 1950 // 41*50-100
#define MITSUBISHI_ZERO_MARK 750 // 17*50-100
// #define MITSUBISHI_DOUBLE_SPACE_USECS 800 // usually ssee 713 - not using ticks as get number wrapround
// #define MITSUBISHI_RPT_LENGTH 45000
//+=============================================================================
#if DECODE_MITSUBISHI
bool 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;
if (irparams.rawlen < 2 * MITSUBISHI_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 0
// Not seeing double keys from Mitsubishi
if (results->rawbuf[offset] < MITSUBISHI_DOUBLE_SPACE_USECS) {
// Serial.print("IR Gap found: ");
results->bits = 0;
results->value = REPEAT;
results->decode_type = MITSUBISHI;
return true;
}
#endif
offset++;
// Typical
// 14200 7 41 7 42 7 42 7 17 7 17 7 18 7 41 7 18 7 17 7 17 7 18 7 41 8 17 7 17 7 18 7 17 7
// Initial Space
if (!MATCH_MARK(results->rawbuf[offset], MITSUBISHI_HDR_SPACE)) return false ;
offset++;
while (offset + 1 < irparams.rawlen) {
if (MATCH_MARK(results->rawbuf[offset], MITSUBISHI_ONE_MARK)) data = (data << 1) | 1 ;
else if (MATCH_MARK(results->rawbuf[offset], MITSUBISHI_ZERO_MARK)) data <<= 1 ;
else return false ;
offset++;
if (!MATCH_SPACE(results->rawbuf[offset], MITSUBISHI_HDR_SPACE)) break ;
offset++;
}
// Success
results->bits = (offset - 1) / 2;
if (results->bits < MITSUBISHI_BITS) {
results->bits = 0;
return false;
}
results->value = data;
results->decode_type = MITSUBISHI;
return true;
}
#endif

98
ir_NEC.cpp
View File

@@ -1,98 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// N N EEEEE CCCC
// NN N E C
// N N N EEE C
// N NN E C
// N N EEEEE CCCC
//==============================================================================
#define NEC_BITS 32
#define NEC_HDR_MARK 9000
#define NEC_HDR_SPACE 4500
#define NEC_BIT_MARK 560
#define NEC_ONE_SPACE 1690
#define NEC_ZERO_SPACE 560
#define NEC_RPT_SPACE 2250
//+=============================================================================
#if SEND_NEC
void IRsend::sendNEC (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(38);
// Header
mark(NEC_HDR_MARK);
space(NEC_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(NEC_BIT_MARK);
space(NEC_ONE_SPACE);
} else {
mark(NEC_BIT_MARK);
space(NEC_ZERO_SPACE);
}
}
// Footer
mark(NEC_BIT_MARK);
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
// NECs have a repeat only 4 items long
//
#if DECODE_NEC
bool 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!?
// Check header "mark"
if (!MATCH_MARK(results->rawbuf[offset], NEC_HDR_MARK)) return false ;
offset++;
// Check for repeat
if ( (irparams.rawlen == 4)
&& MATCH_SPACE(results->rawbuf[offset ], NEC_RPT_SPACE)
&& MATCH_MARK (results->rawbuf[offset+1], NEC_BIT_MARK )
) {
results->bits = 0;
results->value = REPEAT;
results->decode_type = NEC;
return true;
}
// Check we have enough data
if (irparams.rawlen < (2 * NEC_BITS) + 4) return false ;
// Check header "space"
if (!MATCH_SPACE(results->rawbuf[offset], NEC_HDR_SPACE)) return false ;
offset++;
// Build the data
for (int i = 0; i < NEC_BITS; i++) {
// Check data "mark"
if (!MATCH_MARK(results->rawbuf[offset], NEC_BIT_MARK)) return false ;
offset++;
// Suppend this bit
if (MATCH_SPACE(results->rawbuf[offset], NEC_ONE_SPACE )) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset], NEC_ZERO_SPACE)) data = (data << 1) | 0 ;
else return false ;
offset++;
}
// Success
results->bits = NEC_BITS;
results->value = data;
results->decode_type = NEC;
return true;
}
#endif

89
ir_NerfLaserOpsPro.cpp
View File

@@ -1,89 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
//
//
// NERF LASER OPS PRO
//
//
//==============================================================================
#define BITS 15 // The number of bits in the command
#define HDR_MARK 2800 // The length of the Header:Mark
#define HDR_SPACE 6000 // The lenght of the Header:Space
#define ONE_MARK 1800 // The length of a Bit:Mark for 1's
#define ZERO_MARK 800 // The length of a Bit:Mark for 0's
#define ALL_SPACE 2100 // The length of a Bit:Space
#define purpule 0x440
#define red 0x400
#define blue 0x420
//+=============================================================================
//
#if SEND_NERF_LOP
void IRsend::sendNerfLOP (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(40);
// Header
mark (HDR_MARK);
space(HDR_SPACE);
mark (HDR_MARK);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
space(ALL_SPACE);
mark (ONE_MARK);
} else {
space(ALL_SPACE);
mark (ZERO_MARK);
}
}
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
//
#if DECODE_NERF_LOP
bool IRrecv::decodeNerfLOP (decode_results *results)
{
//NOT IMPLEMENTED YET
return false;
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

78
ir_Panasonic.cpp
View File

@@ -1,78 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// PPPP AAA N N AAA SSSS OOO N N IIIII CCCC
// P P A A NN N A A S O O NN N I C
// PPPP AAAAA N N N AAAAA SSS O O N N N I C
// P A A N NN A A S O O N NN I C
// 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
//+=============================================================================
#if SEND_PANASONIC
void IRsend::sendPanasonic (unsigned int address, unsigned long data)
{
// Set IR carrier frequency
enableIROut(35);
// Header
mark(PANASONIC_HDR_MARK);
space(PANASONIC_HDR_SPACE);
// Address
for (unsigned long mask = 1UL << (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) {
mark(PANASONIC_BIT_MARK);
if (data & mask) space(PANASONIC_ONE_SPACE) ;
else space(PANASONIC_ZERO_SPACE) ;
}
// Footer
mark(PANASONIC_BIT_MARK);
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
#if DECODE_PANASONIC
bool IRrecv::decodePanasonic (decode_results *results)
{
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 ;
// decode address
for (int i = 0; i < PANASONIC_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], PANASONIC_BIT_MARK)) return false ;
if (MATCH_SPACE(results->rawbuf[offset],PANASONIC_ONE_SPACE )) data = (data << 1) | 1 ;
else if (MATCH_SPACE(results->rawbuf[offset],PANASONIC_ZERO_SPACE)) data = (data << 1) | 0 ;
else return false ;
offset++;
}
results->value = (unsigned long)data;
results->address = (unsigned int)(data >> 32);
results->decode_type = PANASONIC;
results->bits = PANASONIC_BITS;
return true;
}
#endif

207
ir_RC5_RC6.cpp
View File

@@ -1,207 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//+=============================================================================
// Gets one undecoded level at a time from the raw buffer.
// The RC5/6 decoding is easier if the data is broken into time intervals.
// E.g. if the buffer has MARK for 2 time intervals and SPACE for 1,
// successive calls to getRClevel will return MARK, MARK, SPACE.
// offset and used are updated to keep track of the current position.
// 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.
width = results->rawbuf[*offset];
val = ((*offset) % 2) ? MARK : SPACE;
correction = (val == MARK) ? MARK_EXCESS : - MARK_EXCESS;
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)++;
}
DBG_PRINTLN( (val == MARK) ? "MARK" : "SPACE" );
return val;
}
#endif
//==============================================================================
// RRRR CCCC 55555
// R R C 5
// RRRR C 5555
// R R C 5
// R R CCCC 5555
//
// NB: First bit must be a one (start bit)
//
#define MIN_RC5_SAMPLES 11
#define RC5_T1 889
#define RC5_RPT_LENGTH 46000
//+=============================================================================
#if SEND_RC5
void IRsend::sendRC5 (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(36);
// Start
mark(RC5_T1);
space(RC5_T1);
mark(RC5_T1);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
space(RC5_T1); // 1 is space, then mark
mark(RC5_T1);
} else {
mark(RC5_T1);
space(RC5_T1);
}
}
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
#if DECODE_RC5
bool 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 ;
// 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 ;
for (nbits = 0; offset < irparams.rawlen; nbits++) {
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 ;
}
// Success
results->bits = nbits;
results->value = data;
results->decode_type = RC5;
return true;
}
#endif
//+=============================================================================
// RRRR CCCC 6666
// R R C 6
// RRRR C 6666
// R R C 6 6
// R R CCCC 666
//
// 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
#if SEND_RC6
void IRsend::sendRC6 (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(36);
// Header
mark(RC6_HDR_MARK);
space(RC6_HDR_SPACE);
// Start bit
mark(RC6_T1);
space(RC6_T1);
// Data
for (unsigned long i = 1, mask = 1UL << (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) {
mark(t);
space(t);
} else {
space(t);
mark(t);
}
}
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
#if DECODE_RC6
bool 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 ;
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], RC6_HDR_MARK)) return false ;
if (!MATCH_SPACE(results->rawbuf[offset++], RC6_HDR_SPACE)) return false ;
// Get start bit (1)
if (getRClevel(results, &offset, &used, RC6_T1) != MARK) return false ;
if (getRClevel(results, &offset, &used, RC6_T1) != SPACE) return false ;
for (nbits = 0; offset < results->rawlen; nbits++) {
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
}
// Success
results->bits = nbits;
results->value = data;
results->decode_type = RC6;
return true;
}
#endif

92
ir_Samsung.cpp
View File

@@ -1,92 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS AAA MMM SSSS U U N N GGGG
// S A A M M M S U U NN N G
// SSS AAAAA M M M SSS U U N N N G GG
// S A A M M S U U N NN G G
// SSSS A A M M SSSS UUU N N GGG
//==============================================================================
#define SAMSUNG_BITS 32
#define SAMSUNG_HDR_MARK 5000
#define SAMSUNG_HDR_SPACE 5000
#define SAMSUNG_BIT_MARK 560
#define SAMSUNG_ONE_SPACE 1600
#define SAMSUNG_ZERO_SPACE 560
#define SAMSUNG_RPT_SPACE 2250
//+=============================================================================
#if SEND_SAMSUNG
void IRsend::sendSAMSUNG (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(38);
// Header
mark(SAMSUNG_HDR_MARK);
space(SAMSUNG_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(SAMSUNG_BIT_MARK);
space(SAMSUNG_ONE_SPACE);
} else {
mark(SAMSUNG_BIT_MARK);
space(SAMSUNG_ZERO_SPACE);
}
}
// Footer
mark(SAMSUNG_BIT_MARK);
space(0); // Always end with the LED off
}
#endif
//+=============================================================================
// SAMSUNGs have a repeat only 4 items long
//
#if DECODE_SAMSUNG
bool IRrecv::decodeSAMSUNG (decode_results *results)
{
long data = 0;
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;
results->decode_type = SAMSUNG;
return true;
}
if (irparams.rawlen < (2 * SAMSUNG_BITS) + 4) return false ;
// Initial space
if (!MATCH_SPACE(results->rawbuf[offset++], SAMSUNG_HDR_SPACE)) return false ;
for (int i = 0; i < SAMSUNG_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], SAMSUNG_BIT_MARK)) return false ;
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 return false ;
offset++;
}
// Success
results->bits = SAMSUNG_BITS;
results->value = data;
results->decode_type = SAMSUNG;
return true;
}
#endif

76
ir_Sanyo.cpp
View File

@@ -1,76 +0,0 @@
#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
//+=============================================================================
#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

71
ir_Sharp.cpp
View File

@@ -1,71 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS H H AAA RRRR PPPP
// S H H A A R R P P
// SSS HHHHH AAAAA RRRR PPPP
// S H H A A R R P
// SSSS H H A A R R P
//==============================================================================
// 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
//
// 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_TOGGLE_MASK 0x3FF
//+=============================================================================
#if SEND_SHARP
void IRsend::sendSharpRaw (unsigned long data, int nbits)
{
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);
}
}
mark(SHARP_BIT_MARK);
space(SHARP_ZERO_SPACE);
delay(40);
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);
}
#endif

95
ir_Sony.cpp
View File

@@ -1,95 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// SSSS OOO N N Y Y
// S O O NN N Y Y
// SSS O O N N N Y
// S O O N NN Y
// SSSS OOO N N Y
//==============================================================================
#define SONY_BITS 12
#define SONY_HDR_MARK 2400
#define SONY_HDR_SPACE 600
#define SONY_ONE_MARK 1200
#define SONY_ZERO_MARK 600
#define SONY_RPT_LENGTH 45000
#define SONY_DOUBLE_SPACE_USECS 500 // usually ssee 713 - not using ticks as get number wrapround
//+=============================================================================
#if SEND_SONY
void IRsend::sendSony (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(40);
// Header
mark(SONY_HDR_MARK);
space(SONY_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(SONY_ONE_MARK);
space(SONY_HDR_SPACE);
} else {
mark(SONY_ZERO_MARK);
space(SONY_HDR_SPACE);
}
}
// We will have ended with LED off
}
#endif
//+=============================================================================
#if DECODE_SONY
bool 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 ;
// Some Sony's deliver repeats fast after first
// unfortunately can't spot difference from of repeat from two fast clicks
if (results->rawbuf[offset] < SONY_DOUBLE_SPACE_USECS) {
// Serial.print("IR Gap found: ");
results->bits = 0;
results->value = REPEAT;
# ifdef DECODE_SANYO
results->decode_type = SANYO;
# else
results->decode_type = UNKNOWN;
# endif
return true;
}
offset++;
// Initial mark
if (!MATCH_MARK(results->rawbuf[offset++], SONY_HDR_MARK)) return false ;
while (offset + 1 < irparams.rawlen) {
if (!MATCH_SPACE(results->rawbuf[offset++], SONY_HDR_SPACE)) break ;
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 return false ;
offset++;
}
// Success
results->bits = (offset - 1) / 2;
if (results->bits < 12) {
results->bits = 0;
return false;
}
results->value = data;
results->decode_type = SONY;
return true;
}
#endif

179
ir_Template.cpp
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@@ -1,179 +0,0 @@
/*
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 "IRremote.h"
#include "IRremoteInt.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

91
ir_Whynter.cpp
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@@ -1,91 +0,0 @@
#include "IRremote.h"
#include "IRremoteInt.h"
//==============================================================================
// W W H H Y Y N N TTTTT EEEEE RRRRR
// W W H H Y Y NN N T E R R
// W W W HHHHH Y N N N T EEE RRRR
// W W W H H Y N NN T E R R
// WWW H H Y N N T EEEEE R R
//==============================================================================
#define WHYNTER_BITS 32
#define WHYNTER_HDR_MARK 2850
#define WHYNTER_HDR_SPACE 2850
#define WHYNTER_BIT_MARK 750
#define WHYNTER_ONE_MARK 750
#define WHYNTER_ONE_SPACE 2150
#define WHYNTER_ZERO_MARK 750
#define WHYNTER_ZERO_SPACE 750
//+=============================================================================
#if SEND_WHYNTER
void IRsend::sendWhynter (unsigned long data, int nbits)
{
// Set IR carrier frequency
enableIROut(38);
// Start
mark(WHYNTER_ZERO_MARK);
space(WHYNTER_ZERO_SPACE);
// Header
mark(WHYNTER_HDR_MARK);
space(WHYNTER_HDR_SPACE);
// Data
for (unsigned long mask = 1UL << (nbits - 1); mask; mask >>= 1) {
if (data & mask) {
mark(WHYNTER_ONE_MARK);
space(WHYNTER_ONE_SPACE);
} else {
mark(WHYNTER_ZERO_MARK);
space(WHYNTER_ZERO_SPACE);
}
}
// Footer
mark(WHYNTER_ZERO_MARK);
space(WHYNTER_ZERO_SPACE); // Always end with the LED off
}
#endif
//+=============================================================================
#if DECODE_WHYNTER
bool IRrecv::decodeWhynter (decode_results *results)
{
long data = 0;
int offset = 1; // skip initial space
// Check we have the right amount of data
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 ;
// 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 ;
// data bits
for (int i = 0; i < WHYNTER_BITS; i++) {
if (!MATCH_MARK(results->rawbuf[offset++], WHYNTER_BIT_MARK)) 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 = (data << 1) | 0 ;
else return false ;
offset++;
}
// trailing mark
if (!MATCH_MARK(results->rawbuf[offset], WHYNTER_BIT_MARK)) return false ;
// Success
results->bits = WHYNTER_BITS;
results->value = data;
results->decode_type = WHYNTER;
return true;
}
#endif

2
library.json
View File

@@ -7,7 +7,7 @@
"type": "git",
"url": "https://github.com/z3t0/Arduino-IRremote.git"
},
"version": "2.3.3",
"version": "2.2.1",
"frameworks": "arduino",
"platforms": "atmelavr",
"authors" :

11
library.properties
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@@ -1,9 +1,8 @@
name=IRremote
version=2.2.3
author=shirriff
maintainer=shirriff
version=3.0.0
author=shirriff, z3t0 <zetoslab@gmail.com>
maintainer=z3t0 <zetoslab@gmail.com>
sentence=Send and receive infrared signals with multiple protocols
paragraph=Send and receive infrared signals with multiple protocols
category=Signal Input/Output
url=https://github.com/shirriff/Arduino-IRremote.git
category=Communication
url=http://z3t0.github.io/Arduino-IRremote/
architectures=*

97
readmdFrench.md
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@@ -1,97 +0,0 @@
## IRremote Library
Cette bibliothèque vous permet d'envoyer et de recevoir des signaux infrarouges sur un Arduino.
Des tutoriels et plus d'informations seront disponibles sur la page d'accueil officielle.
## Version - 2.2.3
## Installation
1. Allez à la [Releases](https://github.com/z3t0/Arduino-IRremote/releases) page.
2. Téléchargez la dernière version.
3. Extraire le fichier zip
4. Déplacez le dossier "IRremote" vers vos bibliothèques.
5. Assurez-vous de supprimer Arduino_Root / libraries / RobotIRremote. Où Arduino_Root fait référence au répertoire d'installation d'Arduino. La bibliothèque RobotIRremote a des définitions similaires à IRremote et provoque des erreurs.
## FAQ
Je ne travaille pas correctement en utilisant Neopixels (aka WS2811 / WS2812 / WS2812B)
Que vous utilisiez la librairie Adafruit Neopixel ou FastLED, les interruptions sont désactivées sur de nombreux processeurs bas de gamme comme les arduinos de base. À son tour, cela empêche le gestionnaire IR de s'exécuter quand il le faut. Il y a quelques solutions à ce processus, voir cette page de Marc MERLIN
[cette page de Marc MERLIN](http://marc.merlins.org/perso/arduino/post_2017-04-03_Arduino-328P-Uno-Teensy3_1-ESP8266-ESP32-IR-and-Neopixels.html)
## Conseils pris en charge
- Teensy 1.0 / 1.0++ / 2.0 / 2++ / 3.0 / 3.1 / Teensy-LC; Crédits: @PaulStoffregen (Teensy Team)
- Sanguino
- ATmega8, 48, 88, 168, 328
- ATmega8535, 16, 32, 164, 324, 644, 1284,
- ATmega64, 128
- ATtiny 84 / 85
- ESP32 (recevoir seulement)
- ESP8266 est basé sur un ancien code qui n'est pas très récent, mais cela fonctionne raisonnablement bien. Voir https://github.com/markszabo/IRremoteESP8266
Sparkfun Pro Micro
Nous sommes ouverts aux suggestions d'ajout de support pour les nouveaux tableaux, cependant, nous vous recommandons fortement de contacter votre fournisseur et de fournir un soutien de leur côté.
## Spécifications matérielles
| Carte/CPU | Envoyer Pin | Compteurs |
|--------------------------------------------------------------------------|---------------------|-------------------|
| [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 (insupporté) | **1** |
| [Sparkfun Pro Micro](https://www.sparkfun.com/products/12640) | 9, **5**, 5 | 1, **3**, 4_HS |
| [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** |
## Patchs expérimentaux
Voici les correctifs strictement pris en charge qui n'ont pas encore été intégrés. Si vous avez des questions, n'hésitez pas à demander ici. Si cela fonctionne, faites le nous savoir!
[Arduino 101](https://github.com/z3t0/Arduino-IRremote/pull/481#issuecomment-311243146)
Le tableau ci-dessus répertorie les temporisations actuellement supportées et les broches d'envoi correspondantes, beaucoup de ces broches supplémentaires sont ouvertes.
## Utilisation
- À faire TODO (Vérifier les exemples pour l'instant)
## Contribution
Si vous voulez contribuer à ce projet:
- Signaler les bogues et les erreurs
- Demander des améliorations
- Créer des problèmes et tirer des requêtes
- Parlez de cette bibliothèque à d'autres personnes
- Contribuer de nouveaux protocoles
Vérifiez ici [ici](Contributing.md) pour quelques guidelines
## Contact
Email: zetoslab@gmail.com
Please only email me if it is more appropriate than creating an Issue / PR. I **will** not respond to requests for adding support for particular boards, unless of course you are the creator of the board and would like to cooperate on the project. I will also **ignore** any emails asking me to tell you how to implement your ideas. However, if you have a private inquiry that you would only apply to you and you would prefer it to be via email, by all means.
## Contributeurs
Check [here](Contributors.md)
@Lsuperman735 French translation
## Copyright
Copyright 2009-2012 Ken Shirriff