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File: full-test.php

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  Classes of Marco Sillano  >  IRP Classes  >  full-test.php  >  Download  
File: full-test.php
Role: Example script
Content type: text/plain
Description: Example script
Class: IRP Classes
Send and receive infrared commands via serial port
Author: By
Last change: Update full-test.php
Date: 4 years ago
Size: 8,312 bytes
 

Contents

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?<?php
/*
  full-test - Example for irp_classes (https://github.com/msillano/irp_classes)
  Copyright (c) 2017 Marco Sillano. All right reserved.

  This library is free software; you can redistribute it and/or
  modify it under the terms of the GNU Lesser General Public
  License as published by the Free Software Foundation; either
  version 2.1 of the License, or (at your option) any later version.

  This library is distributed in the hope that it will be useful,
  but WITHOUT ANY WARRANTY; without even the implied warranty of
  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
  Lesser General Public License for more details.

  You should have received a copy of the GNU Lesser General Public
  License along with this library; if not, write to the Free Software
  Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA
*/

$d = dirname(__FILE__);
include(
"$d/irp_classes.php");
// ------------------------------------- test code
$protocol = 'JVC'; // change default here to run this alone
$number = 1; // number of stream repetitions
if (isset($_GET['protocol'])) // called from index: it uses parameter
   
$protocol = $_GET['protocol'];
//--------------------- some IRP example for test
$JVC = '{38k,525}<1,-1|1,-3>(16,-8,(D:8,F:8,1,-45)+)';
$JVC_data = '{D=7,F=0x4F}';
// alternative: here as example, not used:
$JVC_HEX = 'E0FC';
// alternative: here as example, not used:
$data_JVC = array();
$data_JVC['D'] = 7;
$data_JVC['F'] = 0x3F;

$Denon = '{38k,264}<1,-3|1,-7>(D:5,F:8,0:2,1,-165,D:5,~F:8,3:2,1,-165)+';
$Denon_data = '{D=7,F=0x3F}';

$NEC2 = '{38.0k,564}<1,-1|1,-3>(16,-8,D:8,S:8,F:8,~F:8,1,^108m)+';
$NEC2_data = '{D=0,S=191,F=1}';

$NEC1 = '{38.0k,562}<1,-1|1,-3>(16,-8,D:8,~D:8,F:8,~F:8,1,^110m,(16,-4,1,^110m)*)';
//$NEC1='{38.0k,564}<1,-1|1,-3>(16,-8,D:8,S:8,F:8,~F:8,1,^108m,(16,-4,1,^108m)*)';
$NEC1_data = '{D=6,F=1}';

$AdNotam = '{35.7K,895,msb}<1,-1|1,-3>(0:1,1:1,D:6,F:6,1,^114m)+';
$AdNotam_data = '{D=0x17,F=0x15}';

$Amino = '{36.0k,268,msb}<-1,1|1,-1>([T=1] [T=0],7,-6,3,D:4,1:1,T:1,1:2,0:8,F:8,15:4,C:4,-79m)+{C =(D:4+4*T+9+F:4+F:4:4+15)&15}';
$Amino_data = '{D=7,F=0xF0}';

$Archer = '{0k,12}<1,-3.3m|1,-4.7m>(F:5,1,-9.7m)+';
$Archer_data = '{F=17}';

$DirectTV = '{38k,600,msb}<1,-1|1,-2|2,-1|2,-2>(5,(5,-2,D:4,F:8,C:4,1,-50)+) {C=7*(F:2:6)+5*(F:2:4)+3*(F:2:2)+(F:2)}';
$DirectTV_data = '{D=0x0A, F=37}';

$Grunding16 = '{35.7k,578,msb}<-4,2|-3,1,-1,1|-2,1,-2,1|-1,1,-3,1> (806u,-2960u,1346u,T:1,F:8,D:7,-100)+';
$Grunding16_data = '{T=0, D=0x3A, F=37}';

$Nokia = '{36k,msb}<164,-276|164,-445|164,-614|164,-783>(412,-276,D:8,S:8,F:8,164,-10m)+';
$Nokia_data = '{ D=0xDD, S=0x4A, F=37}';

$OrtekMCE = '{38.6k,480}<1,-1|-1,1>([P=0][P=1][P=2],4,-1,D:5,P:2,F:6,C:4,-48m)+{C=3+#D+#P+#F}';
$OrtekMCE_data = '{D=0x1A, F=37}';

$RC5 = '{36k,msb,889}<1,-1|-1,1>(1:1,~F:1:6,T:1,D:5,F:6,^114m)+';
$RC5_data = '{D=0x1A, F=37,T=0}';

$XMP = '{38k,136,msb}<210u,-760u>(<0:1|0:1,-1|0:1,-2|0:1,-3|0:1,-4|0:1,-5|0:1,-6|0:1,-7|0:1,-8|0:1,-9|0:1,-10|0:1,-11|0:1,-12|0:1,-13|0:1,-14|0:1,-15>(T=0,(S:4:4,C1:4,S:4,15:4,OEM:8,D:8,210u,-13.8m,S:4:4,C2:4,T:4,S:4,F:16,210u,-80.4m,T=8)+)){C1=-(15+S+S::4+15+OEM+OEM::4+D+D::4):4,C2=-(15+S+S:4+T+F+F::4+F::8+F::12)&15}';
$XMP_data = '{D=0x3A, S=0x33, F=0xFEDC, OEM=0xFe}';

$Zenit = '{40k,520,msb}<1,-10|1,-1,1,-8>(S:1,<1:2|2:2>(F:D),-90m)+';
$Zenit_data = '{S=1, F=43, D=4}';

$Fujitsu_Aircon = '{38.4k,413}<1,-1|1,-3>(8,-4,20:8,99:8,0:8,16:8,16:8,254:8,9:8,48:8,H:8,J:8, K:8, L:8, M:8,N:8,32:8,Z:8,1,-104.3m)+ {H=16*A + wOn, J=16*C + B, K=16*E:4 + D:4, L=tOff:8, M=tOff:3:8+fOff*8+16*tOn:4, N=tOn:7:8+128*fOn,Z=256-(H+J+K+L+M+N+80)%256}';
// [A:0..15,wOn:0..1,B:0..15, C:0..15,D:0..15,E:0..15,tOff:0..1024,tOn:0..1024,fOff:0..1,fOn:0..1]
$Fujitsu_Aircon_data = '{A=0,wOn=1,B=2, C=3,D=4,E=5,tOff=0x10,tOn=0x20,fOff=0,fOn=0}';

// NOTA: We can add to existing expressions, calculating H,J,K,L,M,N e Z from A,wOn,B,C,D,E,tOff,tOn,fOff,fOn,
// also the inverses expressions, calculating A,wOn,B,C,D,E,tOff,tOn,fOff,fOn from H,J,K,L,M,N,Z.
// This will not influence the ENCODE phase (values have precedence on expressions) but in DECODE phase we can get
// from RAW not only H,J,K,L,M,N,Z but also A,wOn,B,C,D,E,tOff,tOn,fOff,fOn. (using dataVerify() function)
$Fujitsu_Aircon_modified = '{38.4k,413}<1,-1|1,-3>(8,-4,20:8,99:8,0:8,16:8,16:8,254:8,9:8,48:8,H:8,J:8, K:8, L:8, M:8,N:8,32:8,Z:8,1,-104.3m)+ {H=16*A + wOn, J=16*C + B, K=16*E:4 + D:4, L=tOff:8, M=tOff:3:8+fOff*8+16*tOn:4, N=tOn:7:4+128*fOn,Z=256-(H+J+K+L+M+N+80)%256, A=H:4:4,wOn=H:1,B=J:4,C=J:4:4,D=K:4,E=K:4:4,tOff=L+256*M:3, tOn=M:4:4+16*N:7,fOn=N:1:7,fOff=M:1:3}';
$Fujitsu_Aircon_modified_data = '{A=0,wOn=1,B=2, C=3,D=4,E=5,tOff=0x10,tOn=0x20,fOff=0,fOn=0}';

// Only this requires Data persistence ( T is not defined)...
// set $number > 1 (more commands), and call resetData() before re-run to start clean.
$test1 = '{36k,msb,889}<1,-1|-1,1>(1:1,~F:1:6,T:1,D:5,F:6,^100m,T=T+1)+';
$test1_data = '{D=0x0D, F=0x7F}';
// ====================================== test code ==========
echo '<HTML><HEAD></HEAD><BODY>';
echo
"<b> ==== ENCODING/DECODING RAW IR PROTOCOL $protocol ====</b><br><br>";
echo
" ==== PROTOCOL INFOS by toString() ====<br>";
// create object
$aProtocol = new irp_protocol($$protocol);
if (
$protocol == 'test1')
   
$aProtocol->setDataPermanence(); // 'test1' protocol requires data permanence
// prints some infos about protocol
$aProtocol->toString();
// data name
$data = $protocol . '_data';
echo
'<br>==== ENCODE: RAW output from encodeRaw(): <br>';
$raw1 = $aProtocol->encodeRaw($$data, $number); // RAW is default
print('RAW = ' . $raw1 . '<br>');
echo
'<br>==== ENCODE: RAW output compressed by RAWprocess(): <br>';
$raw2 = $aProtocol->RAWprocess($raw1, 0);
print(
'RAW-0 = ' . $raw2 . '<br>');
print(
'RAW-1 = ' . $aProtocol->RAWprocess($raw1, 1) . '<br>');
print(
'RAW-2 = ' . $aProtocol->RAWprocess($raw1, 2) . '<br>');
echo
'<br>==== ENCODE: user data <br>';
echo
'DATA = ' . $$data . '<br>';
echo
'<br>==== DECODE: RAW output by decodeRaw(), using RAW_0 as input:<br>';
$aProtocol->resetData(); // in case of permanence, restart
$out = $aProtocol->decodeRaw($raw2);
print(
'DATA = ' . $out . '<br>');
echo
'<br>==== DECODE: dataVerify(false) - terse output:<br>';
echo
'<pre>' . $aProtocol->dataVerify(false) . '</pre>';
echo
'<br>==== DECODE: dataVerify(true) - verbose output:<br>';
echo
'<pre>' . $aProtocol->dataVerify(true) . '</pre>';
echo
'<br>==== COMPARISON ENCODE/DECODE BIN<br>';
// now output mode BIN:
$aProtocol->setOutputBin();
// get DECODE again with output bin
$aProtocol->resetData(); // in case of permanence, restart
$bin2 = $aProtocol->decodeRaw($raw2);
// get ENCODE again with output bin
$aProtocol->resetData(); // in case of permanence, restart
$bin = $aProtocol->encodeRaw($$data, $number);
print(
'<pre>E-BIN = ' . $bin . '<br>');
print(
'D-BIN = ' . $bin2 . '<br>');
// transform BINs using RAWprocess()
print('E-BIN-0 = ' . $aProtocol->RAWprocess($bin, 0) . '<br>');
print(
'D-BIN-0 = ' . $aProtocol->RAWprocess($bin2, 0) . '<br>');
print(
'E-BIN-1 = ' . $aProtocol->RAWprocess($bin, 1) . '<br>');
print(
'D-BIN-1 = ' . $aProtocol->RAWprocess($bin2, 1) . '<br>');
print(
'E-BIN-2 = ' . $aProtocol->RAWprocess($bin, 2) . '<br>');
print(
'D-BIN-2 = ' . $aProtocol->RAWprocess($bin2, 2) . '</pre><br>');
echo
' <hr> <center><<< <a href="javascript:history.go(-1)" >Back</a> </center>';
echo
'</BODY></HTML>';
?>

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