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<?php
/*
** Zabbix
** Copyright (C) 2001-2019 Zabbix SIA
**
** This program is free software; you can redistribute it and/or modify
** it under the terms of the GNU General Public License as published by
** the Free Software Foundation; either version 2 of the License, or
** (at your option) any later version.
**
** This program 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 General Public License for more details.
**
** You should have received a copy of the GNU General Public License
** along with this program; if not, write to the Free Software
** Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
**/
/**
* Calculate new color based on bg/fg colors and transparency index
*
* @param resource $image image reference
* @param array $bgColor background color, array of RGB
* @param array $fgColor foreground color, array of RGB
* @param float $alpha transparency index in range of 0-1, 1 returns unchanged fgColor color
*
* @return array new color
*/
function zbx_colormix($image, $bgColor, $fgColor, $alpha) {
$r = $bgColor[0] + ($fgColor[0] - $bgColor[0]) * $alpha;
$g = $bgColor[1] + ($fgColor[1] - $bgColor[1]) * $alpha;
$b = $bgColor[2] + ($fgColor[2] - $bgColor[2]) * $alpha;
return imagecolorresolvealpha($image, $r, $g, $b, 0);
}
/**
* Draw normal line.
* PHP imageline() function is broken because it drops fraction instead of correct rounding of X/Y coordinates.
* All calls to imageline() must be replaced by the wrapper function everywhere in the code.
*
* @param resource $image image reference
* @param int $x1 first x coordinate
* @param int $y1 first y coordinate
* @param int $x2 second x coordinate
* @param int $y2 second y coordinate
* @param int $color line color
*/
function zbx_imageline($image, $x1, $y1, $x2, $y2, $color) {
imageline($image, round($x1), round($y1), round($x2), round($y2), $color);
}
/**
* Draw antialiased line
*
* @param resource $image image reference
* @param int $x1 first x coordinate
* @param int $y1 first y coordinate
* @param int $x2 second x coordinate
* @param int $y2 second y coordinate
* @param int $color line color
* @param int $style line style, one of LINE_TYPE_NORMAL (default), LINE_TYPE_BOLD (bold line)
*/
function zbx_imagealine($image, $x1, $y1, $x2, $y2, $color, $style = LINE_TYPE_NORMAL) {
$x1 = round($x1);
$y1 = round($y1);
$x2 = round($x2);
$y2 = round($y2);
if ($x1 == $x2 && $y1 == $y2) {
imagesetpixel($image, $x1, $y1, $color);
return;
}
// Get foreground line color
$lc = imagecolorsforindex($image, $color);
$lc = [$lc['red'], $lc['green'], $lc['blue']];
$dx = $x2 - $x1;
$dy = $y2 - $y1;
if (abs($dx) > abs($dy)) {
if ($dx < 0) {
zbx_swap($x1, $x2);
$y1 = $y2;
}
for ($x = $x1, $y = $y1; $x <= $x2; $x++, $y = $y1 + ($x - $x1) * $dy / $dx) {
$yint = floor($y);
$yfrac = $y - $yint;
if (LINE_TYPE_BOLD == $style) {
$bc = imagecolorsforindex($image, imagecolorat($image, $x, $yint - 1));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $x, $yint - 1, zbx_colormix($image, $lc, $bc, $yfrac));
$bc = imagecolorsforindex($image, imagecolorat($image, $x, $yint + 1));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $x, $yint + 1, zbx_colormix($image, $lc, $bc, 1 - $yfrac));
imagesetpixel($image, $x, $yint, $color);
}
else {
$bc = imagecolorsforindex($image, imagecolorat($image, $x, $yint));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $x, $yint, zbx_colormix($image, $lc, $bc, $yfrac));
$bc = imagecolorsforindex($image, imagecolorat($image, $x, $yint + 1));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $x, $yint + 1, zbx_colormix($image, $lc, $bc, 1 - $yfrac));
}
}
}
else {
if ($dy < 0) {
zbx_swap($y1, $y2);
$x1 = $x2;
}
for ($y = $y1, $x = $x1; $y <= $y2; $y++, $x = $x1 + ($y - $y1) * $dx / $dy)
{
$xint = floor($x);
$xfrac = $x - $xint;
if (LINE_TYPE_BOLD == $style) {
$bc = imagecolorsforindex($image, imagecolorat($image, $xint - 1, $y));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $xint - 1, $y, zbx_colormix($image, $lc, $bc, $xfrac));
$bc = imagecolorsforindex($image, imagecolorat($image, $xint + 1, $y));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $xint + 1, $y, zbx_colormix($image, $lc, $bc, 1 - $xfrac));
imagesetpixel($image, $xint, $y, $color);
}
else {
$bc = imagecolorsforindex($image, imagecolorat($image, $xint, $y));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $xint, $y, zbx_colormix($image, $lc, $bc, $xfrac));
$bc = imagecolorsforindex($image, imagecolorat($image, $xint + 1, $y));
$bc = [$bc['red'], $bc['green'], $bc['blue']];
imagesetpixel($image, $xint + 1, $y, zbx_colormix($image, $lc, $bc, 1 - $xfrac));
}
}
}
}
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