CommunityID/libs/jpgraph/jpgraph_led.php

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<?php
//=======================================================================
// File: JPGRAPH_LED.PHP
// Description: Module to generate Dotted LED-like digits
// Created: 2006-11-26
// Ver: $Id: jpgraph_led.php 957 2007-12-01 14:00:29Z ljp $
//
// Copyright 2006 (c) Aditus Consulting. All rights reserved.
//
// Changed: 2007-08-06 by Alexander Kurochkin (inspector@list.ru)
// Added: Decipher 4-bit mask.
// Added: Chars Latin > 'L', Cyrilic, other symbols and special symbols for
// simulation some latin and cyrilic chars.
// Added: New Color schemas.
// Deleted: Some minor bugs (StrokeNumber first parameter may be eq empty string,
// false or null - added check see line 294;
// change color schema check for easy maintenance: 291;
// change check on key exist in chars array: moved from StrokeNumber
// function to _GetLED: 251;
//
//========================================================================
// Samples for troubled chars: "ԡ <20>\r <20>\r <20>| <20><> <20>\r >\n< W\r"
// <09> <20> <20> <20> <20> <20> <20> W
//----------------------------------------------------------------------------
// Each character is encoded line by line with the "On"-LEDs corresponding to
// a '1' in the bianry mask of 4 bits.
//
// 4-bit mask:
//
// 0 ____
// 1 ___x
// 2 __x_
// 3 __xx
// 4 _x__
// 5 _x_x
// 6 _xx_
// 7 _xxx
// 8 x___
// 9 x__x
// 10 x_x_
// 11 x_xx
// 12 xx__
// 13 xx_x
// 14 xxx_
// 15 xxxx
//----------------------------------------------------------------------------
// Constants for color schema. See definition of iColorSchema below
DEFINE('LEDC_RED', 0);
DEFINE('LEDC_GREEN', 1);
DEFINE('LEDC_BLUE', 2);
DEFINE('LEDC_YELLOW', 3);
DEFINE('LEDC_GRAY', 4);
DEFINE('LEDC_CHOCOLATE', 5);
DEFINE('LEDC_PERU', 6);
DEFINE('LEDC_GOLDENROD', 7);
DEFINE('LEDC_KHAKI', 8);
DEFINE('LEDC_OLIVE', 9);
DEFINE('LEDC_LIMEGREEN', 10);
DEFINE('LEDC_FORESTGREEN', 11);
DEFINE('LEDC_TEAL', 12);
DEFINE('LEDC_STEELBLUE', 13);
DEFINE('LEDC_NAVY', 14);
DEFINE('LEDC_INVERTGRAY', 15);
// ! It correlate with two-dimensional array $iColorSchema
//========================================================================
// CLASS DigitalLED74
// Description:
// Construct a number as an image that looks like LED numbers in a
// 7x4 digital matrix
//========================================================================
class DigitalLED74
{
private $iLED_X = 4, $iLED_Y=7,
// fg-up, fg-down, bg
$iColorSchema = array(
LEDC_RED => array('red','darkred:0.9','red:0.3'),// 0
LEDC_GREEN => array('green','darkgreen','green:0.3'),// 1
LEDC_BLUE => array('lightblue:0.9','darkblue:0.85','darkblue:0.7'),// 2
LEDC_YELLOW => array('yellow','yellow:0.4','yellow:0.3'),// 3
LEDC_GRAY => array('gray:1.4','darkgray:0.85','darkgray:0.7'),
LEDC_CHOCOLATE => array('chocolate','chocolate:0.7','chocolate:0.5'),
LEDC_PERU => array('peru:0.95','peru:0.6','peru:0.5'),
LEDC_GOLDENROD => array('goldenrod','goldenrod:0.6','goldenrod:0.5'),
LEDC_KHAKI => array('khaki:0.7','khaki:0.4','khaki:0.3'),
LEDC_OLIVE => array('#808000','#808000:0.7','#808000:0.6'),
LEDC_LIMEGREEN => array('limegreen:0.9','limegreen:0.5','limegreen:0.4'),
LEDC_FORESTGREEN => array('forestgreen','forestgreen:0.7','forestgreen:0.5'),
LEDC_TEAL => array('teal','teal:0.7','teal:0.5'),
LEDC_STEELBLUE => array('steelblue','steelblue:0.65','steelblue:0.5'),
LEDC_NAVY => array('navy:1.3','navy:0.95','navy:0.8'),//14
LEDC_INVERTGRAY => array('darkgray','lightgray:1.5','white')//15
),
$iLEDSpec = array(
0 => array(6,9,11,15,13,9,6),
//0 => array(6,9,9,9,9,9,6),
//0 => array(15,9,9,9,9,9,15),
1 => array(2,6,10,2,2,2,2),
2 => array(6,9,1,2,4,8,15),
3 => array(6,9,1,6,1,9,6),
4 => array(1,3,5,9,15,1,1),
5 => array(15,8,8,14,1,9,6),
6 => array(6,8,8,14,9,9,6),
7 => array(15,1,1,2,4,4,4),
8 => array(6,9,9,6,9,9,6),
9 => array(6,9,9,7,1,1,6),
'!' => array(4,4,4,4,4,0,4),
'?' => array(6,9,1,2,2,0,2),
'#' => array(0,9,15,9,15,9,0),
'@' => array(6,9,11,11,10,9,6),
'-' => array(0,0,0,15,0,0,0),
'_' => array(0,0,0,0,0,0,15),
'=' => array(0,0,15,0,15,0,0),
'+' => array(0,0,4,14,4,0,0),
'|' => array(4,4,4,4,4,4,4), //vertical line, used for simulate rus '<27>'
',' => array(0,0,0,0,0,12,4),
'.' => array(0,0,0,0,0,12,12),
':' => array(12,12,0,0,0,12,12),
';' => array(12,12,0,0,0,12,4),
'[' => array(3,2,2,2,2,2,3),
']' => array(12,4,4,4,4,4,12),
'(' => array(1,2,2,2,2,2,1),
')' => array(8,4,4,4,4,4,8),
'{' => array(3,2,2,6,2,2,3),
'}' => array(12,4,4,6,4,4,12),
'<' => array(1,2,4,8,4,2,1),
'>' => array(8,4,2,1,2,4,8),
'*' => array(9,6,15,6,9,0,0),
'"' => array(10,10,0,0,0,0,0),
'\'' => array(4,4,0,0,0,0,0),
'`' => array(4,2,0,0,0,0,0),
'~' => array(13,11,0,0,0,0,0),
'^' => array(4,10,0,0,0,0,0),
'\\' => array(8,8,4,6,2,1,1),
'/' => array(1,1,2,6,4,8,8),
'%' => array(1,9,2,6,4,9,8),
'&' => array(0,4,10,4,11,10,5),
'$' => array(2,7,8,6,1,14,4),
' ' => array(0,0,0,0,0,0,0),
'<27>' => array(0,0,6,6,0,0,0), //149
'<27>' => array(14,10,14,0,0,0,0), //176
'<27>' => array(4,4,14,4,4,4,4), //134
'<27>' => array(4,4,14,4,14,4,4), //135
'<27>' => array(0,4,14,4,0,14,0), //177
'<27>' => array(0,4,2,15,2,4,0), //137 show right arrow
'<27>' => array(0,2,4,15,4,2,0), //156 show left arrow
'<27>' => array(0,0,8,8,0,0,0), //159 show small hi-stick - that need for simulate rus '<27>'
"\t" => array(8,8,8,0,0,0,0), //show hi-stick - that need for simulate rus '<27>'
"\r" => array(8,8,8,8,8,8,8), //vertical line - that need for simulate 'M', 'W' and rus '<27>','<27>' ,'<27>'
"\n" => array(15,15,15,15,15,15,15), //fill up - that need for simulate rus '<27>'
"<EFBFBD>" => array(10,5,10,5,10,5,10), //chess
"<EFBFBD>" => array(15,0,15,0,15,0,15), //4 horizontal lines
// latin
'A' => array(6,9,9,15,9,9,9),
'B' => array(14,9,9,14,9,9,14),
'C' => array(6,9,8,8,8,9,6),
'D' => array(14,9,9,9,9,9,14),
'E' => array(15,8,8,14,8,8,15),
'F' => array(15,8,8,14,8,8,8),
'G' => array(6,9,8,8,11,9,6),
'H' => array(9,9,9,15,9,9,9),
'I' => array(14,4,4,4,4,4,14),
'J' => array(15,1,1,1,1,9,6),
'K' => array(8,9,10,12,12,10,9),
'L' => array(8,8,8,8,8,8,15),
'M' => array(8,13,10,8,8,8,8),// need to add \r
'N' => array(9,9,13,11,9,9,9),
//'O' => array(0,6,9,9,9,9,6),
'O' => array(6,9,9,9,9,9,6),
'P' => array(14,9,9,14,8,8,8),
'Q' => array(6,9,9,9,13,11,6),
'R' => array(14,9,9,14,12,10,9),
'S' => array(6,9,8,6,1,9,6),
'T' => array(14,4,4,4,4,4,4),
'U' => array(9,9,9,9,9,9,6),
'V' => array(0,0,0,10,10,10,4),
'W' => array(8,8,8,8,10,13,8),// need to add \r
'X' => array(9,9,6,6,6,9,9),
//'Y' => array(9,9,9,9,6,6,6),
'Y' => array(10,10,10,10,4,4,4),
'Z' => array(15,1,2,6,4,8,15),
// russian cp1251
'<27>' => array(6,9,9,15,9,9,9),
'<27>' => array(14,8,8,14,9,9,14),
'<27>' => array(14,9,9,14,9,9,14),
'<27>' => array(15,8,8,8,8,8,8),
'<27>' => array(14,9,9,9,9,9,14),
'<27>' => array(15,8,8,14,8,8,15),
'<27>' => array(6,15,8,14,8,8,15),
//<2F> is combine: >\n<
'<27>' => array(6,9,1,2,1,9,6),
'<27>' => array(9,9,9,11,13,9,9),
'<27>' => array(13,9,9,11,13,9,9),
'<27>' => array(9,10,12,10,9,9,9),
'<27>' => array(7,9,9,9,9,9,9),
'<27>' => array(8,13,10,8,8,8,8),// need to add \r
'<27>' => array(9,9,9,15,9,9,9),
'<27>' => array(6,9,9,9,9,9,6),
'<27>' => array(15,9,9,9,9,9,9),
'<27>' => array(14,9,9,14,8,8,8),
'<27>' => array(6,9,8,8,8,9,6),
'<27>' => array(14,4,4,4,4,4,4),
'<27>' => array(9,9,9,7,1,9,6),
'<27>' => array(2,7,10,10,7,2,2),// need to add <20>
'<27>' => array(9,9,6,6,6,9,9),
'<27>' => array(10,10,10,10,10,15,1),
'<27>' => array(9,9,9,7,1,1,1),
'<27>' => array(10,10,10,10,10,10,15),// \r
'<27>' => array(10,10,10,10,10,15,0),// need to add \r
'<27>' => array(12,4,4,6,5,5,6),
'<27>' => array(8,8,8,14,9,9,14),// need to add |
'<27>' => array(8,8,8,14,9,9,14),
'<27>' => array(6,9,1,7,1,9,6),
'<27>' => array(2,2,2,3,2,2,2),// need to add O
'<27>' => array(7,9,9,7,3,5,9)
),
$iSuperSampling = 3, $iMarg = 1, $iRad = 4;
function DigitalLED74($aRadius = 2, $aMargin= 0.6) {
$this->iRad = $aRadius;
$this->iMarg = $aMargin;
}
function SetSupersampling($aSuperSampling = 2) {
$this->iSuperSampling = $aSuperSampling;
}
function _GetLED($aLedIdx, $aColor = 0) {
$width= $this->iLED_X*$this->iRad*2 + ($this->iLED_X+1)*$this->iMarg + $this->iRad ;
$height= $this->iLED_Y*$this->iRad*2 + ($this->iLED_Y)*$this->iMarg + $this->iRad * 2;
// Adjust radious for supersampling
$rad = $this->iRad * $this->iSuperSampling;
// Margin in between "Led" dots
$marg = $this->iMarg * $this->iSuperSampling;
$swidth = $width*$this->iSuperSampling;
$sheight = $height*$this->iSuperSampling;
$simg = new RotImage($swidth, $sheight, 0, DEFAULT_GFORMAT, false);
$simg->SetColor($this->iColorSchema[$aColor][2]);
$simg->FilledRectangle(0, 0, $swidth-1, $sheight-1);
if(array_key_exists($aLedIdx, $this->iLEDSpec)) {
$d = $this->iLEDSpec[$aLedIdx];
}
else {
$d = array(0,0,0,0,0,0,0);
}
for($r = 0; $r < 7; ++$r) {
$dr = $d[$r];
for($c = 0; $c < 4; ++$c) {
if( ($dr & pow(2,3-$c)) !== 0 ) {
$color = $this->iColorSchema[$aColor][0];
}
else {
$color = $this->iColorSchema[$aColor][1];
}
$x = 2*$rad*$c+$rad + ($c+1)*$marg + $rad ;
$y = 2*$rad*$r+$rad + ($r+1)*$marg + $rad ;
$simg->SetColor($color);
$simg->FilledCircle($x,$y,$rad);
}
}
$img = new Image($width, $height, DEFAULT_GFORMAT, false);
$img->Copy($simg->img, 0, 0, 0, 0, $width, $height, $swidth, $sheight);
$simg->Destroy();
unset($simg);
return $img;
}
function StrokeNumber($aValStr, $aColor = 0) {
if($aColor < 0 || $aColor >= sizeof($this->iColorSchema))
$aColor = 0;
if(($n = strlen($aValStr)) == 0) {
$aValStr = ' ';
$n = 1;
}
for($i = 0; $i < $n; ++$i) {
$d = substr($aValStr, $i, 1);
if( $d >= '0' && $d <= '9' ) {
$d = (int)$d;
}
else {
$d = strtoupper($d);
}
$digit_img[$i] = $this->_GetLED($d, $aColor);
}
$w = imagesx($digit_img[0]->img);
$h = imagesy($digit_img[0]->img);
$number_img = new Image($w*$n, $h, DEFAULT_GFORMAT, false);
for($i = 0; $i < $n; ++$i) {
$number_img->Copy($digit_img[$i]->img, $i*$w, 0, 0, 0, $w, $h, $w, $h);
}
$number_img->Headers();
$number_img->Stream();
}
}
?>