<?php
<
/**
* Graph Class. PHP Class to draw line, point, bar, and area graphs, including numeric x-axis and double y-axis.
* Version: 1.6.3
* Copyright (C) 2000 Herman Veluwenkamp
*
* 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., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* Copy of GNU Lesser General Public License at: http://www.gnu.org/copyleft/lesser.txt
* Contact author at: hermanV@mindless.com
*
* @package core
* @subpackage lib
*/
> declare(strict_types=1);
defined('MOODLE_INTERNAL') || die();
>
/* This file contains modifications by Martin Dougiamas
* as part of Moodle (http://moodle.com). Modified lines
* are marked with "Moodle".
*/
/**
* @package moodlecore
*/
class graph {
var $image;
var $debug = FALSE; // be careful!!
var $calculated = array(); // array of computed values for chart
var $parameter = array( // input parameters
'width' => 320, // default width of image
'height' => 240, // default height of image
'file_name' => 'none', // name of file for file to be saved as.
// NOTE: no suffix required. this is determined from output_format below.
'output_format' => 'PNG', // image output format. 'GIF', 'PNG', 'JPEG'. default 'PNG'.
'seconds_to_live' => 0, // expiry time in seconds (for HTTP header)
'hours_to_live' => 0, // expiry time in hours (for HTTP header)
'path_to_fonts' => 'fonts/', // path to fonts folder. don't forget *trailing* slash!!
// for WINDOZE this may need to be the full path, not relative.
'title' => 'Graph Title', // text for graph title
'title_font' => 'default.ttf', // title text font. don't forget to set 'path_to_fonts' above.
'title_size' => 16, // title text point size
'title_colour' => 'black', // colour for title text
'x_label' => '', // if this is set then this text is printed on bottom axis of graph.
'y_label_left' => '', // if this is set then this text is printed on left axis of graph.
'y_label_right' => '', // if this is set then this text is printed on right axis of graph.
'label_size' => 8, // label text point size
'label_font' => 'default.ttf', // label text font. don't forget to set 'path_to_fonts' above.
'label_colour' => 'gray33', // label text colour
'y_label_angle' => 90, // rotation of y axis label
'x_label_angle' => 90, // rotation of y axis label
'outer_padding' => 5, // padding around outer text. i.e. title, y label, and x label.
'inner_padding' => 0, // padding beteen axis text and graph.
'x_inner_padding' => 5, // padding beteen axis text and graph.
'y_inner_padding' => 6, // padding beteen axis text and graph.
'outer_border' => 'none', // colour of border aound image, or 'none'.
'inner_border' => 'black', // colour of border around actual graph, or 'none'.
'inner_border_type' => 'box', // 'box' for all four sides, 'axis' for x/y axis only,
// 'y' or 'y-left' for y axis only, 'y-right' for right y axis only,
// 'x' for x axis only, 'u' for both left and right y axis and x axis.
'outer_background' => 'none', // background colour of entire image.
'inner_background' => 'none', // background colour of plot area.
'y_min_left' => 0, // this will be reset to minimum value if there is a value lower than this.
'y_max_left' => 0, // this will be reset to maximum value if there is a value higher than this.
'y_min_right' => 0, // this will be reset to minimum value if there is a value lower than this.
'y_max_right' => 0, // this will be reset to maximum value if there is a value higher than this.
'x_min' => 0, // only used if x axis is numeric.
'x_max' => 0, // only used if x axis is numeric.
'y_resolution_left' => 1, // scaling for rounding of y axis max value.
// if max y value is 8645 then
// if y_resolution is 0, then y_max becomes 9000.
// if y_resolution is 1, then y_max becomes 8700.
// if y_resolution is 2, then y_max becomes 8650.
// if y_resolution is 3, then y_max becomes 8645.
// get it?
'y_decimal_left' => 0, // number of decimal places for y_axis text.
'y_resolution_right' => 2, // ... same for right hand side
'y_decimal_right' => 0, // ... same for right hand side
'x_resolution' => 2, // only used if x axis is numeric.
'x_decimal' => 0, // only used if x axis is numeric.
'point_size' => 4, // default point size. use even number for diamond or triangle to get nice look.
'brush_size' => 4, // default brush size for brush line.
'brush_type' => 'circle', // type of brush to use to draw line. choose from the following
// 'circle', 'square', 'horizontal', 'vertical', 'slash', 'backslash'
'bar_size' => 0.8, // size of bar to draw. <1 bars won't touch
// 1 is full width - i.e. bars will touch.
// >1 means bars will overlap.
'bar_spacing' => 10, // space in pixels between group of bars for each x value.
'shadow_offset' => 3, // draw shadow at this offset, unless overidden by data parameter.
'shadow' => 'grayCC', // 'none' or colour of shadow.
'shadow_below_axis' => true, // whether to draw shadows of bars and areas below the x/zero axis.
'x_axis_gridlines' => 'auto', // if set to a number then x axis is treated as numeric.
'y_axis_gridlines' => 6, // number of gridlines on y axis.
'zero_axis' => 'none', // colour to draw zero-axis, or 'none'.
'axis_font' => 'default.ttf', // axis text font. don't forget to set 'path_to_fonts' above.
'axis_size' => 8, // axis text font size in points
'axis_colour' => 'gray33', // colour of axis text.
'y_axis_angle' => 0, // rotation of axis text.
'x_axis_angle' => 0, // rotation of axis text.
'y_axis_text_left' => 1, // whether to print left hand y axis text. if 0 no text, if 1 all ticks have text,
'x_axis_text' => 1, // if 4 then print every 4th tick and text, etc...
'y_axis_text_right' => 0, // behaviour same as above for right hand y axis.
'x_offset' => 0.5, // x axis tick offset from y axis as fraction of tick spacing.
'y_ticks_colour' => 'black', // colour to draw y ticks, or 'none'
'x_ticks_colour' => 'black', // colour to draw x ticks, or 'none'
'y_grid' => 'line', // grid lines. set to 'line' or 'dash'...
'x_grid' => 'line', // or if set to 'none' print nothing.
'grid_colour' => 'grayEE', // default grid colour.
'tick_length' => 4, // length of ticks in pixels. can be negative. i.e. outside data drawing area.
'legend' => 'none', // default. no legend.
// otherwise: 'top-left', 'top-right', 'bottom-left', 'bottom-right',
// 'outside-top', 'outside-bottom', 'outside-left', or 'outside-right'.
'legend_offset' => 10, // offset in pixels from graph or outside border.
'legend_padding' => 5, // padding around legend text.
'legend_font' => 'default.ttf', // legend text font. don't forget to set 'path_to_fonts' above.
'legend_size' => 8, // legend text point size.
'legend_colour' => 'black', // legend text colour.
'legend_border' => 'none', // legend border colour, or 'none'.
'decimal_point' => '.', // symbol for decimal separation '.' or ',' *european support.
'thousand_sep' => ',', // symbol for thousand separation ',' or ''
);
var $y_tick_labels = null; // array of text values for y-axis tick labels
var $offset_relation = null; // array of offsets for different sets of data
// init all text - title, labels, and axis text.
function init() {
/// Moodle mods: overrides the font path and encodings
global $CFG;
/// A default.ttf is searched for in this order:
/// dataroot/lang/xx_local/fonts
/// dataroot/lang/xx/fonts
/// dirroot/lang/xx/fonts
/// dataroot/lang
/// lib/
$currlang = current_language();
if (file_exists("$CFG->dataroot/lang/".$currlang."_local/fonts/default.ttf")) {
$fontpath = "$CFG->dataroot/lang/".$currlang."_local/fonts/";
} else if (file_exists("$CFG->dataroot/lang/$currlang/fonts/default.ttf")) {
$fontpath = "$CFG->dataroot/lang/$currlang/fonts/";
} else if (file_exists("$CFG->dirroot/lang/$currlang/fonts/default.ttf")) {
$fontpath = "$CFG->dirroot/lang/$currlang/fonts/";
} else if (file_exists("$CFG->dataroot/lang/default.ttf")) {
$fontpath = "$CFG->dataroot/lang/";
} else {
$fontpath = "$CFG->libdir/";
}
$this->parameter['path_to_fonts'] = $fontpath;
/// End Moodle mods
$this->calculated['outer_border'] = $this->calculated['boundary_box'];
// outer padding
$this->calculated['boundary_box']['left'] += $this->parameter['outer_padding'];
$this->calculated['boundary_box']['top'] += $this->parameter['outer_padding'];
$this->calculated['boundary_box']['right'] -= $this->parameter['outer_padding'];
$this->calculated['boundary_box']['bottom'] -= $this->parameter['outer_padding'];
$this->init_x_axis();
$this->init_y_axis();
$this->init_legend();
$this->init_labels();
// take into account tick lengths
$this->calculated['bottom_inner_padding'] = $this->parameter['x_inner_padding'];
if (($this->parameter['x_ticks_colour'] != 'none') && ($this->parameter['tick_length'] < 0))
$this->calculated['bottom_inner_padding'] -= $this->parameter['tick_length'];
$this->calculated['boundary_box']['bottom'] -= $this->calculated['bottom_inner_padding'];
$this->calculated['left_inner_padding'] = $this->parameter['y_inner_padding'];
if ($this->parameter['y_axis_text_left']) {
if (($this->parameter['y_ticks_colour'] != 'none') && ($this->parameter['tick_length'] < 0))
$this->calculated['left_inner_padding'] -= $this->parameter['tick_length'];
}
$this->calculated['boundary_box']['left'] += $this->calculated['left_inner_padding'];
$this->calculated['right_inner_padding'] = $this->parameter['y_inner_padding'];
if ($this->parameter['y_axis_text_right']) {
if (($this->parameter['y_ticks_colour'] != 'none') && ($this->parameter['tick_length'] < 0))
$this->calculated['right_inner_padding'] -= $this->parameter['tick_length'];
}
$this->calculated['boundary_box']['right'] -= $this->calculated['right_inner_padding'];
// boundaryBox now has coords for plotting area.
$this->calculated['inner_border'] = $this->calculated['boundary_box'];
$this->init_data();
$this->init_x_ticks();
$this->init_y_ticks();
}
function draw_text() {
$colour = $this->parameter['outer_background'];
if ($colour != 'none') $this->draw_rectangle($this->calculated['outer_border'], $colour, 'fill'); // graph background
// draw border around image
$colour = $this->parameter['outer_border'];
if ($colour != 'none') $this->draw_rectangle($this->calculated['outer_border'], $colour, 'box'); // graph border
$this->draw_title();
$this->draw_x_label();
$this->draw_y_label_left();
$this->draw_y_label_right();
$this->draw_x_axis();
$this->draw_y_axis();
if ($this->calculated['y_axis_left']['has_data']) $this->draw_zero_axis_left(); // either draw zero axis on left
else if ($this->calculated['y_axis_right']['has_data']) $this->draw_zero_axis_right(); // ... or right.
$this->draw_legend();
// draw border around plot area
$colour = $this->parameter['inner_background'];
if ($colour != 'none') $this->draw_rectangle($this->calculated['inner_border'], $colour, 'fill'); // graph background
// draw border around image
$colour = $this->parameter['inner_border'];
if ($colour != 'none') $this->draw_rectangle($this->calculated['inner_border'], $colour, $this->parameter['inner_border_type']); // graph border
}
function draw_stack() {
$this->init();
$this->draw_text();
$yOrder = $this->y_order; // save y_order data.
// iterate over each data set. order is very important if you want to see data correctly. remember shadows!!
foreach ($yOrder as $set) {
$this->y_order = array($set);
$this->init_data();
$this->draw_data();
}
$this->y_order = $yOrder; // revert y_order data.
$this->output();
}
function draw() {
$this->init();
$this->draw_text();
$this->draw_data();
$this->output();
}
// draw a data set
function draw_set($order, $set, $offset) {
if ($offset) @$this->init_variable($colour, $this->y_format[$set]['shadow'], $this->parameter['shadow']);
else $colour = $this->y_format[$set]['colour'];
@$this->init_variable($point, $this->y_format[$set]['point'], 'none');
@$this->init_variable($pointSize, $this->y_format[$set]['point_size'], $this->parameter['point_size']);
@$this->init_variable($line, $this->y_format[$set]['line'], 'none');
@$this->init_variable($brushType, $this->y_format[$set]['brush_type'], $this->parameter['brush_type']);
@$this->init_variable($brushSize, $this->y_format[$set]['brush_size'], $this->parameter['brush_size']);
@$this->init_variable($bar, $this->y_format[$set]['bar'], 'none');
@$this->init_variable($barSize, $this->y_format[$set]['bar_size'], $this->parameter['bar_size']);
@$this->init_variable($area, $this->y_format[$set]['area'], 'none');
$lastX = 0;
$lastY = 'none';
$fromX = 0;
$fromY = 'none';
//print "set $set<br />";
//expand_pre($this->calculated['y_plot']);
foreach ($this->x_data as $index => $x) {
//print "index $index<br />";
$thisY = $this->calculated['y_plot'][$set][$index];
$thisX = $this->calculated['x_plot'][$index];
//print "$thisX, $thisY <br />";
if (($bar!='none') && (string)$thisY != 'none') {
if (isset($this->offset_relation[$set]) && $relatedset = $this->offset_relation[$set]) {
$yoffset = $this->calculated['y_plot'][$relatedset][$index]; // Moodle
} else { // Moodle
$yoffset = 0; // Moodle
} // Moodle
//$this->bar($thisX, $thisY, $bar, $barSize, $colour, $offset, $set); // Moodle
$this->bar($thisX, $thisY, $bar, $barSize, $colour, $offset, $set, $yoffset); // Moodle
}
if (($area!='none') && (((string)$lastY != 'none') && ((string)$thisY != 'none')))
$this->area($lastX, $lastY, $thisX, $thisY, $area, $colour, $offset);
if (($point!='none') && (string)$thisY != 'none') $this->plot($thisX, $thisY, $point, $pointSize, $colour, $offset);
if (($line!='none') && ((string)$thisY != 'none')) {
if ((string)$fromY != 'none')
$this->line($fromX, $fromY, $thisX, $thisY, $line, $brushType, $brushSize, $colour, $offset);
$fromY = $thisY; // start next line from here
$fromX = $thisX; // ...
} else {
$fromY = 'none';
$fromX = 'none';
}
$lastX = $thisX;
$lastY = $thisY;
}
}
function draw_data() {
// cycle thru y data to be plotted
// first check for drop shadows...
foreach ($this->y_order as $order => $set) {
@$this->init_variable($offset, $this->y_format[$set]['shadow_offset'], $this->parameter['shadow_offset']);
@$this->init_variable($colour, $this->y_format[$set]['shadow'], $this->parameter['shadow']);
if ($colour != 'none') $this->draw_set($order, $set, $offset);
}
// then draw data
foreach ($this->y_order as $order => $set) {
$this->draw_set($order, $set, 0);
}
}
function draw_legend() {
$position = $this->parameter['legend'];
if ($position == 'none') return; // abort if no border
$borderColour = $this->parameter['legend_border'];
$offset = $this->parameter['legend_offset'];
$padding = $this->parameter['legend_padding'];
$height = $this->calculated['legend']['boundary_box_all']['height'];
$width = $this->calculated['legend']['boundary_box_all']['width'];
$graphTop = $this->calculated['boundary_box']['top'];
$graphBottom = $this->calculated['boundary_box']['bottom'];
$graphLeft = $this->calculated['boundary_box']['left'];
$graphRight = $this->calculated['boundary_box']['right'];
$outsideRight = $this->calculated['outer_border']['right'];
$outsideBottom = $this->calculated['outer_border']['bottom'];
switch ($position) {
case 'top-left':
$top = $graphTop + $offset;
$bottom = $graphTop + $height + $offset;
$left = $graphLeft + $offset;
$right = $graphLeft + $width + $offset;
break;
case 'top-right':
$top = $graphTop + $offset;
$bottom = $graphTop + $height + $offset;
$left = $graphRight - $width - $offset;
$right = $graphRight - $offset;
break;
case 'bottom-left':
$top = $graphBottom - $height - $offset;
$bottom = $graphBottom - $offset;
$left = $graphLeft + $offset;
$right = $graphLeft + $width + $offset;
break;
case 'bottom-right':
$top = $graphBottom - $height - $offset;
$bottom = $graphBottom - $offset;
$left = $graphRight - $width - $offset;
$right = $graphRight - $offset;
break;
case 'outside-top' :
$top = $graphTop;
$bottom = $graphTop + $height;
$left = $outsideRight - $width - $offset;
$right = $outsideRight - $offset;
break;
case 'outside-bottom' :
$top = $graphBottom - $height;
$bottom = $graphBottom;
$left = $outsideRight - $width - $offset;
$right = $outsideRight - $offset;
break;
case 'outside-left' :
$top = $outsideBottom - $height - $offset;
$bottom = $outsideBottom - $offset;
$left = $graphLeft;
$right = $graphLeft + $width;
break;
case 'outside-right' :
$top = $outsideBottom - $height - $offset;
$bottom = $outsideBottom - $offset;
$left = $graphRight - $width;
$right = $graphRight;
break;
default: // default is top left. no particular reason.
$top = $this->calculated['boundary_box']['top'];
$bottom = $this->calculated['boundary_box']['top'] + $this->calculated['legend']['boundary_box_all']['height'];
$left = $this->calculated['boundary_box']['left'];
$right = $this->calculated['boundary_box']['right'] + $this->calculated['legend']['boundary_box_all']['width'];
}
// legend border
if($borderColour!='none') $this->draw_rectangle(array('top' => $top,
'left' => $left,
'bottom' => $bottom,
'right' => $right), $this->parameter['legend_border'], 'box');
// legend text
$legendText = array('points' => $this->parameter['legend_size'],
'angle' => 0,
'font' => $this->parameter['legend_font'],
'colour' => $this->parameter['legend_colour']);
$box = $this->calculated['legend']['boundary_box_max']['height']; // use max height for legend square size.
$x = $left + $padding;
$x_text = $x + $box * 2;
$y = $top + $padding;
foreach ($this->y_order as $set) {
$legendText['text'] = $this->calculated['legend']['text'][$set];
if ($legendText['text'] != 'none') {
// if text exists then draw box and text
$boxColour = $this->colour[$this->y_format[$set]['colour']];
// draw box
ImageFilledRectangle($this->image, $x, $y, $x + $box, $y + $box, $boxColour);
// draw text
$coords = array('x' => $x + $box * 2, 'y' => $y, 'reference' => 'top-left');
$legendText['boundary_box'] = $this->calculated['legend']['boundary_box'][$set];
$this->update_boundaryBox($legendText['boundary_box'], $coords);
$this->print_TTF($legendText);
$y += $padding + $box;
}
}
}
function draw_y_label_right() {
if (!$this->parameter['y_label_right']) return;
$x = $this->calculated['boundary_box']['right'] + $this->parameter['y_inner_padding'];
if ($this->parameter['y_axis_text_right']) $x += $this->calculated['y_axis_right']['boundary_box_max']['width']
+ $this->calculated['right_inner_padding'];
$y = ($this->calculated['boundary_box']['bottom'] + $this->calculated['boundary_box']['top']) / 2;
$label = $this->calculated['y_label_right'];
$coords = array('x' => $x, 'y' => $y, 'reference' => 'left-center');
$this->update_boundaryBox($label['boundary_box'], $coords);
$this->print_TTF($label);
}
function draw_y_label_left() {
if (!$this->parameter['y_label_left']) return;
$x = $this->calculated['boundary_box']['left'] - $this->parameter['y_inner_padding'];
if ($this->parameter['y_axis_text_left']) $x -= $this->calculated['y_axis_left']['boundary_box_max']['width']
+ $this->calculated['left_inner_padding'];
$y = ($this->calculated['boundary_box']['bottom'] + $this->calculated['boundary_box']['top']) / 2;
$label = $this->calculated['y_label_left'];
$coords = array('x' => $x, 'y' => $y, 'reference' => 'right-center');
$this->update_boundaryBox($label['boundary_box'], $coords);
$this->print_TTF($label);
}
function draw_title() {
if (!$this->parameter['title']) return;
//$y = $this->calculated['outside_border']['top'] + $this->parameter['outer_padding'];
$y = $this->calculated['boundary_box']['top'] - $this->parameter['outer_padding'];
$x = ($this->calculated['boundary_box']['right'] + $this->calculated['boundary_box']['left']) / 2;
$label = $this->calculated['title'];
$coords = array('x' => $x, 'y' => $y, 'reference' => 'bottom-center');
$this->update_boundaryBox($label['boundary_box'], $coords);
$this->print_TTF($label);
}
function draw_x_label() {
if (!$this->parameter['x_label']) return;
$y = $this->calculated['boundary_box']['bottom'] + $this->parameter['x_inner_padding'];
if ($this->parameter['x_axis_text']) $y += $this->calculated['x_axis']['boundary_box_max']['height']
+ $this->calculated['bottom_inner_padding'];
$x = ($this->calculated['boundary_box']['right'] + $this->calculated['boundary_box']['left']) / 2;
$label = $this->calculated['x_label'];
$coords = array('x' => $x, 'y' => $y, 'reference' => 'top-center');
$this->update_boundaryBox($label['boundary_box'], $coords);
$this->print_TTF($label);
}
function draw_zero_axis_left() {
$colour = $this->parameter['zero_axis'];
if ($colour == 'none') return;
// draw zero axis on left hand side
$this->calculated['zero_axis'] = round($this->calculated['boundary_box']['top'] + ($this->calculated['y_axis_left']['max'] * $this->calculated['y_axis_left']['factor']));
ImageLine($this->image, $this->calculated['boundary_box']['left'], $this->calculated['zero_axis'], $this->calculated['boundary_box']['right'], $this->calculated['zero_axis'], $this->colour[$colour]);
}
function draw_zero_axis_right() {
$colour = $this->parameter['zero_axis'];
if ($colour == 'none') return;
// draw zero axis on right hand side
$this->calculated['zero_axis'] = round($this->calculated['boundary_box']['top'] + ($this->calculated['y_axis_right']['max'] * $this->calculated['y_axis_right']['factor']));
ImageLine($this->image, $this->calculated['boundary_box']['left'], $this->calculated['zero_axis'], $this->calculated['boundary_box']['right'], $this->calculated['zero_axis'], $this->colour[$colour]);
}
function draw_x_axis() {
$gridColour = $this->colour[$this->parameter['grid_colour']];
$tickColour = $this->colour[$this->parameter['x_ticks_colour']];
$axis_colour = $this->parameter['axis_colour'];
$xGrid = $this->parameter['x_grid'];
< $gridTop = $this->calculated['boundary_box']['top'];
< $gridBottom = $this->calculated['boundary_box']['bottom'];
> $gridTop = (int) round($this->calculated['boundary_box']['top']);
> $gridBottom = (int) round($this->calculated['boundary_box']['bottom']);
if ($this->parameter['tick_length'] >= 0) {
$tickTop = $this->calculated['boundary_box']['bottom'] - $this->parameter['tick_length'];
$tickBottom = $this->calculated['boundary_box']['bottom'];
$textBottom = $tickBottom + $this->calculated['bottom_inner_padding'];
} else {
$tickTop = $this->calculated['boundary_box']['bottom'];
$tickBottom = $this->calculated['boundary_box']['bottom'] - $this->parameter['tick_length'];
$textBottom = $tickBottom + $this->calculated['bottom_inner_padding'];
}
$axis_font = $this->parameter['axis_font'];
$axis_size = $this->parameter['axis_size'];
$axis_angle = $this->parameter['x_axis_angle'];
if ($axis_angle == 0) $reference = 'top-center';
if ($axis_angle > 0) $reference = 'top-right';
if ($axis_angle < 0) $reference = 'top-left';
if ($axis_angle == 90) $reference = 'top-center';
//generic tag information. applies to all axis text.
$axisTag = array('points' => $axis_size, 'angle' => $axis_angle, 'font' => $axis_font, 'colour' => $axis_colour);
foreach ($this->calculated['x_axis']['tick_x'] as $set => $tickX) {
> $tickX = (int) round($tickX);
// draw x grid if colour specified
if ($xGrid != 'none') {
switch ($xGrid) {
case 'line':
< ImageLine($this->image, round($tickX), round($gridTop), round($tickX), round($gridBottom), $gridColour);
> ImageLine($this->image, $tickX, $gridTop, $tickX, $gridBottom, $gridColour);
break;
case 'dash':
< ImageDashedLine($this->image, round($tickX), round($gridTop), round($tickX), round($gridBottom), $gridColour);
> $this->image_dashed_line($this->image, $tickX, $gridTop, $tickX, $gridBottom, $gridColour); // Moodle
break;
}
}
if ($this->parameter['x_axis_text'] && !($set % $this->parameter['x_axis_text'])) { // test if tick should be displayed
// draw tick
if ($tickColour != 'none')
< ImageLine($this->image, round($tickX), round($tickTop), round($tickX), round($tickBottom), $tickColour);
> ImageLine($this->image, $tickX, $tickTop, $tickX, $tickBottom, $tickColour);
// draw axis text
$coords = array('x' => $tickX, 'y' => $textBottom, 'reference' => $reference);
$axisTag['text'] = $this->calculated['x_axis']['text'][$set];
$axisTag['boundary_box'] = $this->calculated['x_axis']['boundary_box'][$set];
$this->update_boundaryBox($axisTag['boundary_box'], $coords);
$this->print_TTF($axisTag);
}
}
}
function draw_y_axis() {
$gridColour = $this->colour[$this->parameter['grid_colour']];
$tickColour = $this->colour[$this->parameter['y_ticks_colour']];
$axis_colour = $this->parameter['axis_colour'];
$yGrid = $this->parameter['y_grid'];
< $gridLeft = $this->calculated['boundary_box']['left'];
< $gridRight = $this->calculated['boundary_box']['right'];
> $gridLeft = (int) round($this->calculated['boundary_box']['left']);
> $gridRight = (int) round($this->calculated['boundary_box']['right']);
// axis font information
$axis_font = $this->parameter['axis_font'];
$axis_size = $this->parameter['axis_size'];
$axis_angle = $this->parameter['y_axis_angle'];
$axisTag = array('points' => $axis_size, 'angle' => $axis_angle, 'font' => $axis_font, 'colour' => $axis_colour);
if ($this->calculated['y_axis_left']['has_data']) {
// LEFT HAND SIDE
// left and right coords for ticks
if ($this->parameter['tick_length'] >= 0) {
$tickLeft = $this->calculated['boundary_box']['left'];
$tickRight = $this->calculated['boundary_box']['left'] + $this->parameter['tick_length'];
} else {
$tickLeft = $this->calculated['boundary_box']['left'] + $this->parameter['tick_length'];
$tickRight = $this->calculated['boundary_box']['left'];
}
$textRight = $tickLeft - $this->calculated['left_inner_padding'];
if ($axis_angle == 0) $reference = 'right-center';
if ($axis_angle > 0) $reference = 'right-top';
if ($axis_angle < 0) $reference = 'right-bottom';
if ($axis_angle == 90) $reference = 'right-center';
foreach ($this->calculated['y_axis']['tick_y'] as $set => $tickY) {
> $tickY = (int) round($tickY);
// draw y grid if colour specified
if ($yGrid != 'none') {
switch ($yGrid) {
case 'line':
< ImageLine($this->image, round($gridLeft), round($tickY), round($gridRight), round($tickY), $gridColour);
> ImageLine($this->image, $gridLeft, $tickY, $gridRight, $tickY, $gridColour);
break;
case 'dash':
< ImageDashedLine($this->image, round($gridLeft), round($tickY), round($gridRight), round($tickY), $gridColour);
> $this->image_dashed_line($this->image, $gridLeft, $tickY, $gridRight, $tickY, $gridColour); // Moodle
break;
}
}
// y axis text
if ($this->parameter['y_axis_text_left'] && !($set % $this->parameter['y_axis_text_left'])) { // test if tick should be displayed
// draw tick
if ($tickColour != 'none')
< ImageLine($this->image, round($tickLeft), round($tickY), round($tickRight), round($tickY), $tickColour);
> ImageLine($this->image, $tickLeft, $tickY, $tickRight, $tickY, $tickColour);
// draw axis text...
$coords = array('x' => $textRight, 'y' => $tickY, 'reference' => $reference);
$axisTag['text'] = $this->calculated['y_axis_left']['text'][$set];
$axisTag['boundary_box'] = $this->calculated['y_axis_left']['boundary_box'][$set];
$this->update_boundaryBox($axisTag['boundary_box'], $coords);
$this->print_TTF($axisTag);
}
}
}
if ($this->calculated['y_axis_right']['has_data']) {
// RIGHT HAND SIDE
// left and right coords for ticks
if ($this->parameter['tick_length'] >= 0) {
$tickLeft = $this->calculated['boundary_box']['right'] - $this->parameter['tick_length'];
$tickRight = $this->calculated['boundary_box']['right'];
} else {
$tickLeft = $this->calculated['boundary_box']['right'];
$tickRight = $this->calculated['boundary_box']['right'] - $this->parameter['tick_length'];
}
$textLeft = $tickRight+ $this->calculated['left_inner_padding'];
if ($axis_angle == 0) $reference = 'left-center';
if ($axis_angle > 0) $reference = 'left-bottom';
if ($axis_angle < 0) $reference = 'left-top';
if ($axis_angle == 90) $reference = 'left-center';
foreach ($this->calculated['y_axis']['tick_y'] as $set => $tickY) {
if (!$this->calculated['y_axis_left']['has_data'] && $yGrid != 'none') { // draw grid if not drawn already (above)
switch ($yGrid) {
case 'line':
ImageLine($this->image, round($gridLeft), round($tickY), round($gridRight), round($tickY), $gridColour);
break;
case 'dash':
< ImageDashedLine($this->image, round($gridLeft), round($tickY), round($gridRight), round($tickY), $gridColour);
> $this->image_dashed_line($this->image, round($gridLeft), round($tickY), round($gridRight), round($tickY), $gridColour); // Moodle
break;
}
}
if ($this->parameter['y_axis_text_right'] && !($set % $this->parameter['y_axis_text_right'])) { // test if tick should be displayed
// draw tick
if ($tickColour != 'none')
ImageLine($this->image, round($tickLeft), round($tickY), round($tickRight), round($tickY), $tickColour);
// draw axis text...
$coords = array('x' => $textLeft, 'y' => $tickY, 'reference' => $reference);
$axisTag['text'] = $this->calculated['y_axis_right']['text'][$set];
$axisTag['boundary_box'] = $this->calculated['y_axis_left']['boundary_box'][$set];
$this->update_boundaryBox($axisTag['boundary_box'], $coords);
$this->print_TTF($axisTag);
}
}
}
}
function init_data() {
$this->calculated['y_plot'] = array(); // array to hold pixel plotting coords for y axis
$height = $this->calculated['boundary_box']['bottom'] - $this->calculated['boundary_box']['top'];
$width = $this->calculated['boundary_box']['right'] - $this->calculated['boundary_box']['left'];
// calculate pixel steps between axis ticks.
$this->calculated['y_axis']['step'] = $height / ($this->parameter['y_axis_gridlines'] - 1);
// calculate x ticks spacing taking into account x offset for ticks.
$extraTick = 2 * $this->parameter['x_offset']; // extra tick to account for padding
$numTicks = $this->calculated['x_axis']['num_ticks'] - 1; // number of x ticks
// Hack by rodger to avoid division by zero, see bug 1231
if ($numTicks==0) $numTicks=1;
$this->calculated['x_axis']['step'] = $width / ($numTicks + $extraTick);
$widthPlot = $width - ($this->calculated['x_axis']['step'] * $extraTick);
$this->calculated['x_axis']['step'] = $widthPlot / $numTicks;
//calculate factor for transforming x,y physical coords to logical coords for right hand y_axis.
$y_range = $this->calculated['y_axis_right']['max'] - $this->calculated['y_axis_right']['min'];
$y_range = ($y_range ? $y_range : 1);
$this->calculated['y_axis_right']['factor'] = $height / $y_range;
//calculate factor for transforming x,y physical coords to logical coords for left hand axis.
$yRange = $this->calculated['y_axis_left']['max'] - $this->calculated['y_axis_left']['min'];
$yRange = ($yRange ? $yRange : 1);
$this->calculated['y_axis_left']['factor'] = $height / $yRange;
if ($this->parameter['x_axis_gridlines'] != 'auto') {
$xRange = $this->calculated['x_axis']['max'] - $this->calculated['x_axis']['min'];
$xRange = ($xRange ? $xRange : 1);
$this->calculated['x_axis']['factor'] = $widthPlot / $xRange;
}
//expand_pre($this->calculated['boundary_box']);
// cycle thru all data sets...
$this->calculated['num_bars'] = 0;
foreach ($this->y_order as $order => $set) {
// determine how many bars there are
if (isset($this->y_format[$set]['bar']) && ($this->y_format[$set]['bar'] != 'none')) {
$this->calculated['bar_offset_index'][$set] = $this->calculated['num_bars']; // index to relate bar with data set.
$this->calculated['num_bars']++;
}
// calculate y coords for plotting data
foreach ($this->x_data as $index => $x) {
$this->calculated['y_plot'][$set][$index] = $this->y_data[$set][$index];
if ((string)$this->y_data[$set][$index] != 'none') {
if (isset($this->y_format[$set]['y_axis']) && $this->y_format[$set]['y_axis'] == 'right') {
$this->calculated['y_plot'][$set][$index] =
round(($this->y_data[$set][$index] - $this->calculated['y_axis_right']['min'])
* $this->calculated['y_axis_right']['factor']);
} else {
//print "$set $index<br />";
$this->calculated['y_plot'][$set][$index] =
round(($this->y_data[$set][$index] - $this->calculated['y_axis_left']['min'])
* $this->calculated['y_axis_left']['factor']);
}
}
}
}
//print "factor ".$this->calculated['x_axis']['factor']."<br />";
//expand_pre($this->calculated['x_plot']);
// calculate bar parameters if bars are to be drawn.
if ($this->calculated['num_bars']) {
$xStep = $this->calculated['x_axis']['step'];
$totalWidth = $this->calculated['x_axis']['step'] - $this->parameter['bar_spacing'];
$barWidth = $totalWidth / $this->calculated['num_bars'];
$barX = ($barWidth - $totalWidth) / 2; // starting x offset
for ($i=0; $i < $this->calculated['num_bars']; $i++) {
$this->calculated['bar_offset_x'][$i] = $barX;
$barX += $barWidth; // add width of bar to x offset.
}
$this->calculated['bar_width'] = $barWidth;
}
}
function init_x_ticks() {
// get coords for x axis ticks and data plots
//$xGrid = $this->parameter['x_grid'];
$xStep = $this->calculated['x_axis']['step'];
$ticksOffset = $this->parameter['x_offset']; // where to start drawing ticks relative to y axis.
$gridLeft = $this->calculated['boundary_box']['left'] + ($xStep * $ticksOffset); // grid x start
$tickX = $gridLeft; // tick x coord
foreach ($this->calculated['x_axis']['text'] as $set => $value) {
//print "index: $set<br />";
// x tick value
$this->calculated['x_axis']['tick_x'][$set] = $tickX;
// if num ticks is auto then x plot value is same as x tick
if ($this->parameter['x_axis_gridlines'] == 'auto') $this->calculated['x_plot'][$set] = round($tickX);
//print $this->calculated['x_plot'][$set].'<br />';
$tickX += $xStep;
}
//print "xStep: $xStep <br />";
// if numeric x axis then calculate x coords for each data point. this is seperate from x ticks.
$gridX = $gridLeft;
if (empty($this->calculated['x_axis']['factor'])) {
$this->calculated['x_axis']['factor'] = 0;
}
if (empty($this->calculated['x_axis']['min'])) {
$this->calculated['x_axis']['min'] = 0;
}
$factor = $this->calculated['x_axis']['factor'];
$min = $this->calculated['x_axis']['min'];
if ($this->parameter['x_axis_gridlines'] != 'auto') {
foreach ($this->x_data as $index => $x) {
//print "index: $index, x: $x<br />";
$offset = $x - $this->calculated['x_axis']['min'];
//$gridX = ($offset * $this->calculated['x_axis']['factor']);
//print "offset: $offset <br />";
//$this->calculated['x_plot'][$set] = $gridLeft + ($offset * $this->calculated['x_axis']['factor']);
$this->calculated['x_plot'][$index] = $gridLeft + ($x - $min) * $factor;
//print $this->calculated['x_plot'][$set].'<br />';
}
}
//expand_pre($this->calculated['boundary_box']);
//print "factor ".$this->calculated['x_axis']['factor']."<br />";
//expand_pre($this->calculated['x_plot']);
}
function init_y_ticks() {
// get coords for y axis ticks
$yStep = $this->calculated['y_axis']['step'];
$gridBottom = $this->calculated['boundary_box']['bottom'];
$tickY = $gridBottom; // tick y coord
for ($i = 0; $i < $this->parameter['y_axis_gridlines']; $i++) {
$this->calculated['y_axis']['tick_y'][$i] = $tickY;
$tickY -= $yStep;
}
}
function init_labels() {
if ($this->parameter['title']) {
$size = $this->get_boundaryBox(
array('points' => $this->parameter['title_size'],
'angle' => 0,
'font' => $this->parameter['title_font'],
'text' => $this->parameter['title']));
$this->calculated['title']['boundary_box'] = $size;
$this->calculated['title']['text'] = $this->parameter['title'];
$this->calculated['title']['font'] = $this->parameter['title_font'];
$this->calculated['title']['points'] = $this->parameter['title_size'];
$this->calculated['title']['colour'] = $this->parameter['title_colour'];
$this->calculated['title']['angle'] = 0;
$this->calculated['boundary_box']['top'] += $size['height'] + $this->parameter['outer_padding'];
//$this->calculated['boundary_box']['top'] += $size['height'];
} else $this->calculated['title']['boundary_box'] = $this->get_null_size();
if ($this->parameter['y_label_left']) {
$this->calculated['y_label_left']['text'] = $this->parameter['y_label_left'];
$this->calculated['y_label_left']['angle'] = $this->parameter['y_label_angle'];
$this->calculated['y_label_left']['font'] = $this->parameter['label_font'];
$this->calculated['y_label_left']['points'] = $this->parameter['label_size'];
$this->calculated['y_label_left']['colour'] = $this->parameter['label_colour'];
$size = $this->get_boundaryBox($this->calculated['y_label_left']);
$this->calculated['y_label_left']['boundary_box'] = $size;
//$this->calculated['boundary_box']['left'] += $size['width'] + $this->parameter['inner_padding'];
$this->calculated['boundary_box']['left'] += $size['width'];
} else $this->calculated['y_label_left']['boundary_box'] = $this->get_null_size();
if ($this->parameter['y_label_right']) {
$this->calculated['y_label_right']['text'] = $this->parameter['y_label_right'];
$this->calculated['y_label_right']['angle'] = $this->parameter['y_label_angle'];
$this->calculated['y_label_right']['font'] = $this->parameter['label_font'];
$this->calculated['y_label_right']['points'] = $this->parameter['label_size'];
$this->calculated['y_label_right']['colour'] = $this->parameter['label_colour'];
$size = $this->get_boundaryBox($this->calculated['y_label_right']);
$this->calculated['y_label_right']['boundary_box'] = $size;
//$this->calculated['boundary_box']['right'] -= $size['width'] + $this->parameter['inner_padding'];
$this->calculated['boundary_box']['right'] -= $size['width'];
} else $this->calculated['y_label_right']['boundary_box'] = $this->get_null_size();
if ($this->parameter['x_label']) {
$this->calculated['x_label']['text'] = $this->parameter['x_label'];
$this->calculated['x_label']['angle'] = $this->parameter['x_label_angle'];
$this->calculated['x_label']['font'] = $this->parameter['label_font'];
$this->calculated['x_label']['points'] = $this->parameter['label_size'];
$this->calculated['x_label']['colour'] = $this->parameter['label_colour'];
$size = $this->get_boundaryBox($this->calculated['x_label']);
$this->calculated['x_label']['boundary_box'] = $size;
//$this->calculated['boundary_box']['bottom'] -= $size['height'] + $this->parameter['inner_padding'];
$this->calculated['boundary_box']['bottom'] -= $size['height'];
} else $this->calculated['x_label']['boundary_box'] = $this->get_null_size();
}
function init_legend() {
$this->calculated['legend'] = array(); // array to hold calculated values for legend.
//$this->calculated['legend']['boundary_box_max'] = array('height' => 0, 'width' => 0);
$this->calculated['legend']['boundary_box_max'] = $this->get_null_size();
if ($this->parameter['legend'] == 'none') return;
$position = $this->parameter['legend'];
$numSets = 0; // number of data sets with legends.
$sumTextHeight = 0; // total of height of all legend text items.
$width = 0;
$height = 0;
foreach ($this->y_order as $set) {
$text = isset($this->y_format[$set]['legend']) ? $this->y_format[$set]['legend'] : 'none';
$size = $this->get_boundaryBox(
array('points' => $this->parameter['legend_size'],
'angle' => 0,
'font' => $this->parameter['legend_font'],
'text' => $text));
$this->calculated['legend']['boundary_box'][$set] = $size;
$this->calculated['legend']['text'][$set] = $text;
//$this->calculated['legend']['font'][$set] = $this->parameter['legend_font'];
//$this->calculated['legend']['points'][$set] = $this->parameter['legend_size'];
//$this->calculated['legend']['angle'][$set] = 0;
if ($text && $text!='none') {
$numSets++;
$sumTextHeight += $size['height'];
}
if ($size['width'] > $this->calculated['legend']['boundary_box_max']['width'])
$this->calculated['legend']['boundary_box_max'] = $size;
}
$offset = $this->parameter['legend_offset']; // offset in pixels of legend box from graph border.
$padding = $this->parameter['legend_padding']; // padding in pixels around legend text.
$textWidth = $this->calculated['legend']['boundary_box_max']['width']; // width of largest legend item.
$textHeight = $this->calculated['legend']['boundary_box_max']['height']; // use height as size to use for colour square in legend.
$width = $padding * 2 + $textWidth + $textHeight * 2; // left and right padding + maximum text width + space for square
$height = ($padding + $textHeight) * $numSets + $padding; // top and bottom padding + padding between text + text.
$this->calculated['legend']['boundary_box_all'] = array('width' => $width,
'height' => $height,
'offset' => $offset,
'reference' => $position);
switch ($position) { // move in right or bottom if legend is outside data plotting area.
case 'outside-top' :
$this->calculated['boundary_box']['right'] -= $offset + $width; // move in right hand side
break;
case 'outside-bottom' :
$this->calculated['boundary_box']['right'] -= $offset + $width; // move in right hand side
break;
case 'outside-left' :
$this->calculated['boundary_box']['bottom'] -= $offset + $height; // move in right hand side
break;
case 'outside-right' :
$this->calculated['boundary_box']['bottom'] -= $offset + $height; // move in right hand side
break;
}
}
function init_y_axis() {
$this->calculated['y_axis_left'] = array(); // array to hold calculated values for y_axis on left.
$this->calculated['y_axis_left']['boundary_box_max'] = $this->get_null_size();
$this->calculated['y_axis_right'] = array(); // array to hold calculated values for y_axis on right.
$this->calculated['y_axis_right']['boundary_box_max'] = $this->get_null_size();
$axis_font = $this->parameter['axis_font'];
$axis_size = $this->parameter['axis_size'];
$axis_colour = $this->parameter['axis_colour'];
$axis_angle = $this->parameter['y_axis_angle'];
$y_tick_labels = $this->y_tick_labels;
$this->calculated['y_axis_left']['has_data'] = FALSE;
$this->calculated['y_axis_right']['has_data'] = FALSE;
// find min and max y values.
$minLeft = $this->parameter['y_min_left'];
$maxLeft = $this->parameter['y_max_left'];
$minRight = $this->parameter['y_min_right'];
$maxRight = $this->parameter['y_max_right'];
$dataLeft = array();
$dataRight = array();
foreach ($this->y_order as $order => $set) {
if (isset($this->y_format[$set]['y_axis']) && $this->y_format[$set]['y_axis'] == 'right') {
$this->calculated['y_axis_right']['has_data'] = TRUE;
$dataRight = array_merge($dataRight, $this->y_data[$set]);
} else {
$this->calculated['y_axis_left']['has_data'] = TRUE;
$dataLeft = array_merge($dataLeft, $this->y_data[$set]);
}
}
$dataLeftRange = $this->find_range($dataLeft, $minLeft, $maxLeft, $this->parameter['y_resolution_left']);
$dataRightRange = $this->find_range($dataRight, $minRight, $maxRight, $this->parameter['y_resolution_right']);
$minLeft = $dataLeftRange['min'];
$maxLeft = $dataLeftRange['max'];
$minRight = $dataRightRange['min'];
$maxRight = $dataRightRange['max'];
$this->calculated['y_axis_left']['min'] = $minLeft;
$this->calculated['y_axis_left']['max'] = $maxLeft;
$this->calculated['y_axis_right']['min'] = $minRight;
$this->calculated['y_axis_right']['max'] = $maxRight;
$stepLeft = ($maxLeft - $minLeft) / ($this->parameter['y_axis_gridlines'] - 1);
$startLeft = $minLeft;
$step_right = ($maxRight - $minRight) / ($this->parameter['y_axis_gridlines'] - 1);
$start_right = $minRight;
if ($this->parameter['y_axis_text_left']) {
for ($i = 0; $i < $this->parameter['y_axis_gridlines']; $i++) { // calculate y axis text sizes
// left y axis
if ($y_tick_labels) {
$value = $y_tick_labels[$i];
} else {
$value = number_format($startLeft, $this->parameter['y_decimal_left'], $this->parameter['decimal_point'], $this->parameter['thousand_sep']);
}
$this->calculated['y_axis_left']['data'][$i] = $startLeft;
$this->calculated['y_axis_left']['text'][$i] = $value; // text is formatted raw data
$size = $this->get_boundaryBox(
array('points' => $axis_size,
'font' => $axis_font,
'angle' => $axis_angle,
'colour' => $axis_colour,
'text' => $value));
$this->calculated['y_axis_left']['boundary_box'][$i] = $size;
if ($size['height'] > $this->calculated['y_axis_left']['boundary_box_max']['height'])
$this->calculated['y_axis_left']['boundary_box_max']['height'] = $size['height'];
if ($size['width'] > $this->calculated['y_axis_left']['boundary_box_max']['width'])
$this->calculated['y_axis_left']['boundary_box_max']['width'] = $size['width'];
$startLeft += $stepLeft;
}
$this->calculated['boundary_box']['left'] += $this->calculated['y_axis_left']['boundary_box_max']['width']
+ $this->parameter['y_inner_padding'];
}
if ($this->parameter['y_axis_text_right']) {
for ($i = 0; $i < $this->parameter['y_axis_gridlines']; $i++) { // calculate y axis text sizes
// right y axis
$value = number_format($start_right, $this->parameter['y_decimal_right'], $this->parameter['decimal_point'], $this->parameter['thousand_sep']);
$this->calculated['y_axis_right']['data'][$i] = $start_right;
$this->calculated['y_axis_right']['text'][$i] = $value; // text is formatted raw data
$size = $this->get_boundaryBox(
array('points' => $axis_size,
'font' => $axis_font,
'angle' => $axis_angle,
'colour' => $axis_colour,
'text' => $value));
$this->calculated['y_axis_right']['boundary_box'][$i] = $size;
if ($size['height'] > $this->calculated['y_axis_right']['boundary_box_max']['height'])
$this->calculated['y_axis_right']['boundary_box_max'] = $size;
if ($size['width'] > $this->calculated['y_axis_right']['boundary_box_max']['width'])
$this->calculated['y_axis_right']['boundary_box_max']['width'] = $size['width'];
$start_right += $step_right;
}
$this->calculated['boundary_box']['right'] -= $this->calculated['y_axis_right']['boundary_box_max']['width']
+ $this->parameter['y_inner_padding'];
}
}
function init_x_axis() {
$this->calculated['x_axis'] = array(); // array to hold calculated values for x_axis.
$this->calculated['x_axis']['boundary_box_max'] = array('height' => 0, 'width' => 0);
$axis_font = $this->parameter['axis_font'];
$axis_size = $this->parameter['axis_size'];
$axis_colour = $this->parameter['axis_colour'];
$axis_angle = $this->parameter['x_axis_angle'];
// check whether to treat x axis as numeric
if ($this->parameter['x_axis_gridlines'] == 'auto') { // auto means text based x_axis, not numeric...
$this->calculated['x_axis']['num_ticks'] = sizeof($this->x_data);
$data = $this->x_data;
for ($i=0; $i < $this->calculated['x_axis']['num_ticks']; $i++) {
$value = array_shift($data); // grab value from begin of array
$this->calculated['x_axis']['data'][$i] = $value;
$this->calculated['x_axis']['text'][$i] = $value; // raw data and text are both the same in this case
$size = $this->get_boundaryBox(
array('points' => $axis_size,
'font' => $axis_font,
'angle' => $axis_angle,
'colour' => $axis_colour,
'text' => $value));
$this->calculated['x_axis']['boundary_box'][$i] = $size;
if ($size['height'] > $this->calculated['x_axis']['boundary_box_max']['height'])
$this->calculated['x_axis']['boundary_box_max'] = $size;
}
} else { // x axis is numeric so find max min values...
$this->calculated['x_axis']['num_ticks'] = $this->parameter['x_axis_gridlines'];
$min = $this->parameter['x_min'];
$max = $this->parameter['x_max'];
$data = array();
$data = $this->find_range($this->x_data, $min, $max, $this->parameter['x_resolution']);
$min = $data['min'];
$max = $data['max'];
$this->calculated['x_axis']['min'] = $min;
$this->calculated['x_axis']['max'] = $max;
$step = ($max - $min) / ($this->calculated['x_axis']['num_ticks'] - 1);
$start = $min;
for ($i = 0; $i < $this->calculated['x_axis']['num_ticks']; $i++) { // calculate x axis text sizes
$value = number_format($start, $this->parameter['xDecimal'], $this->parameter['decimal_point'], $this->parameter['thousand_sep']);
$this->calculated['x_axis']['data'][$i] = $start;
$this->calculated['x_axis']['text'][$i] = $value; // text is formatted raw data
$size = $this->get_boundaryBox(
array('points' => $axis_size,
'font' => $axis_font,
'angle' => $axis_angle,
'colour' => $axis_colour,
'text' => $value));
$this->calculated['x_axis']['boundary_box'][$i] = $size;
if ($size['height'] > $this->calculated['x_axis']['boundary_box_max']['height'])
$this->calculated['x_axis']['boundary_box_max'] = $size;
$start += $step;
}
}
if ($this->parameter['x_axis_text'])
$this->calculated['boundary_box']['bottom'] -= $this->calculated['x_axis']['boundary_box_max']['height']
+ $this->parameter['x_inner_padding'];
}
// find max and min values for a data array given the resolution.
function find_range($data, $min, $max, $resolution) {
if (sizeof($data) == 0 ) return array('min' => 0, 'max' => 0);
foreach ($data as $key => $value) {
if ($value=='none') continue;
if ($value > $max) $max = $value;
if ($value < $min) $min = $value;
}
if ($max == 0) {
$factor = 1;
} else {
if ($max < 0) $factor = - pow(10, (floor(log10(abs($max))) + $resolution) );
else $factor = pow(10, (floor(log10(abs($max))) - $resolution) );
}
if ($factor > 0.1) { // To avoid some wierd rounding errors (Moodle)
$factor = round($factor * 1000.0) / 1000.0; // To avoid some wierd rounding errors (Moodle)
} // To avoid some wierd rounding errors (Moodle)
$max = $factor * @ceil($max / $factor);
$min = $factor * @floor($min / $factor);
//print "max=$max, min=$min<br />";
return array('min' => $min, 'max' => $max);
}
public function __construct() {
if (func_num_args() == 2) {
$this->parameter['width'] = func_get_arg(0);
$this->parameter['height'] = func_get_arg(1);
}
//$this->boundaryBox = array(
$this->calculated['boundary_box'] = array(
'left' => 0,
'top' => 0,
'right' => $this->parameter['width'] - 1,
'bottom' => $this->parameter['height'] - 1);
$this->init_colours();
//ImageColorTransparent($this->image, $this->colour['white']); // colour for transparency
}
/**
* Old syntax of class constructor. Deprecated in PHP7.
*
* @deprecated since Moodle 3.1
*/
public function graph() {
debugging('Use of class name as constructor is deprecated', DEBUG_DEVELOPER);
self::__construct();
}
/**
* Prepare label's text for GD output.
*
* @param string $label string to be prepared.
* @return string Reversed input string, if we are in RTL mode and has no numbers.
* Otherwise, returns the string as is.
*/
private function prepare_label_text($label) {
if (right_to_left() and !preg_match('/[0-9]/i', $label)) {
return core_text::strrev($label);
} else {
return $label;
}
}
function print_TTF($message) {
$points = $message['points'];
$angle = $message['angle'];
// We have to manually reverse the label, since php GD cannot handle RTL characters properly in UTF8 strings.
$text = $this->prepare_label_text($message['text']);
$colour = $this->colour[$message['colour']];
$font = $this->parameter['path_to_fonts'].$message['font'];
$x = $message['boundary_box']['x'];
$y = $message['boundary_box']['y'];
$offsetX = $message['boundary_box']['offsetX'];
$offsetY = $message['boundary_box']['offsetY'];
$height = $message['boundary_box']['height'];
$width = $message['boundary_box']['width'];
$reference = $message['boundary_box']['reference'];
switch ($reference) {
case 'top-left':
case 'left-top':
$y += $height - $offsetY;
//$y += $offsetY;
$x += $offsetX;
break;
case 'left-center':
$y += ($height / 2) - $offsetY;
$x += $offsetX;
break;
case 'left-bottom':
$y -= $offsetY;
$x += $offsetX;
break;
case 'top-center':
$y += $height - $offsetY;
$x -= ($width / 2) - $offsetX;
break;
case 'top-right':
case 'right-top':
$y += $height - $offsetY;
$x -= $width - $offsetX;
break;
case 'right-center':
$y += ($height / 2) - $offsetY;
$x -= $width - $offsetX;
break;
case 'right-bottom':
$y -= $offsetY;
$x -= $width - $offsetX;
break;
case 'bottom-center':
$y -= $offsetY;
$x -= ($width / 2) - $offsetX;
break;
default:
$y = 0;
$x = 0;
break;
}
// start of Moodle addition
$text = core_text::utf8_to_entities($text, true, true); //does not work with hex entities!
// end of Moodle addition
> [$x, $y] = [(int) round($x), (int) round($y)];
ImageTTFText($this->image, $points, $angle, $x, $y, $colour, $font, $text);
}
// move boundaryBox to coordinates specified
function update_boundaryBox(&$boundaryBox, $coords) {
$width = $boundaryBox['width'];
$height = $boundaryBox['height'];
$x = $coords['x'];
$y = $coords['y'];
$reference = $coords['reference'];
switch ($reference) {
case 'top-left':
case 'left-top':
$top = $y;
$bottom = $y + $height;
$left = $x;
$right = $x + $width;
break;
case 'left-center':
$top = $y - ($height / 2);
$bottom = $y + ($height / 2);
$left = $x;
$right = $x + $width;
break;
case 'left-bottom':
$top = $y - $height;
$bottom = $y;
$left = $x;
$right = $x + $width;
break;
case 'top-center':
$top = $y;
$bottom = $y + $height;
$left = $x - ($width / 2);
$right = $x + ($width / 2);
break;
case 'right-top':
case 'top-right':
$top = $y;
$bottom = $y + $height;
$left = $x - $width;
$right = $x;
break;
case 'right-center':
$top = $y - ($height / 2);
$bottom = $y + ($height / 2);
$left = $x - $width;
$right = $x;
break;
case 'bottom=right':
case 'right-bottom':
$top = $y - $height;
$bottom = $y;
$left = $x - $width;
$right = $x;
break;
default:
$top = 0;
$bottom = $height;
$left = 0;
$right = $width;
break;
}
$boundaryBox = array_merge($boundaryBox, array('top' => $top,
'bottom' => $bottom,
'left' => $left,
'right' => $right,
'x' => $x,
'y' => $y,
'reference' => $reference));
}
function get_null_size() {
return array('width' => 0,
'height' => 0,
'offsetX' => 0,
'offsetY' => 0,
//'fontHeight' => 0
);
}
function get_boundaryBox($message) {
$points = $message['points'];
$angle = $message['angle'];
$font = $this->parameter['path_to_fonts'].$message['font'];
$text = $message['text'];
//print ('get_boundaryBox');
//expandPre($message);
// get font size
$bounds = ImageTTFBBox($points, $angle, $font, "W");
if ($angle < 0) {
$fontHeight = abs($bounds[7]-$bounds[1]);
} else if ($angle > 0) {
$fontHeight = abs($bounds[1]-$bounds[7]);
} else {
$fontHeight = abs($bounds[7]-$bounds[1]);
}
// get boundary box and offsets for printing at an angle
// start of Moodle addition
$text = core_text::utf8_to_entities($text, true, true); //gd does not work with hex entities!
// end of Moodle addition
$bounds = ImageTTFBBox($points, $angle, $font, $text);
if ($angle < 0) {
$width = abs($bounds[4]-$bounds[0]);
$height = abs($bounds[3]-$bounds[7]);
$offsetY = abs($bounds[3]-$bounds[1]);
$offsetX = 0;
} else if ($angle > 0) {
$width = abs($bounds[2]-$bounds[6]);
$height = abs($bounds[1]-$bounds[5]);
$offsetY = 0;
$offsetX = abs($bounds[0]-$bounds[6]);
} else {
$width = abs($bounds[4]-$bounds[6]);
$height = abs($bounds[7]-$bounds[1]);
$offsetY = $bounds[1];
$offsetX = 0;
}
//return values
return array('width' => $width,
'height' => $height,
'offsetX' => $offsetX,
'offsetY' => $offsetY,
//'fontHeight' => $fontHeight
);
}
function draw_rectangle($border, $colour, $type) {
$colour = $this->colour[$colour];
switch ($type) {
case 'fill': // fill the rectangle
ImageFilledRectangle($this->image, $border['left'], $border['top'], $border['right'], $border['bottom'], $colour);
break;
case 'box': // all sides
ImageRectangle($this->image, $border['left'], $border['top'], $border['right'], $border['bottom'], $colour);
break;
case 'axis': // bottom x axis and left y axis
ImageLine($this->image, $border['left'], $border['top'], $border['left'], $border['bottom'], $colour);
ImageLine($this->image, $border['left'], $border['bottom'], $border['right'], $border['bottom'], $colour);
break;
case 'y': // left y axis only
case 'y-left':
ImageLine($this->image, $border['left'], $border['top'], $border['left'], $border['bottom'], $colour);
break;
case 'y-right': // right y axis only
ImageLine($this->image, $border['right'], $border['top'], $border['right'], $border['bottom'], $colour);
break;
case 'x': // bottom x axis only
ImageLine($this->image, $border['left'], $border['bottom'], $border['right'], $border['bottom'], $colour);
break;
case 'u': // u shaped. bottom x axis and both left and right y axis.
ImageLine($this->image, $border['left'], $border['top'], $border['left'], $border['bottom'], $colour);
ImageLine($this->image, $border['right'], $border['top'], $border['right'], $border['bottom'], $colour);
ImageLine($this->image, $border['left'], $border['bottom'], $border['right'], $border['bottom'], $colour);
break;
}
}
function init_colours() {
$this->image = ImageCreate($this->parameter['width'], $this->parameter['height']);
// standard colours
$this->colour['white'] = ImageColorAllocate ($this->image, 0xFF, 0xFF, 0xFF); // first colour is background colour.
$this->colour['black'] = ImageColorAllocate ($this->image, 0x00, 0x00, 0x00);
$this->colour['maroon'] = ImageColorAllocate ($this->image, 0x80, 0x00, 0x00);
$this->colour['green'] = ImageColorAllocate ($this->image, 0x00, 0x80, 0x00);
$this->colour['ltgreen'] = ImageColorAllocate ($this->image, 0x52, 0xF1, 0x7F);
$this->colour['ltltgreen']= ImageColorAllocate ($this->image, 0x99, 0xFF, 0x99);
$this->colour['olive'] = ImageColorAllocate ($this->image, 0x80, 0x80, 0x00);
$this->colour['navy'] = ImageColorAllocate ($this->image, 0x00, 0x00, 0x80);
$this->colour['purple'] = ImageColorAllocate ($this->image, 0x80, 0x00, 0x80);
$this->colour['gray'] = ImageColorAllocate ($this->image, 0x80, 0x80, 0x80);
$this->colour['red'] = ImageColorAllocate ($this->image, 0xFF, 0x00, 0x00);
$this->colour['ltred'] = ImageColorAllocate ($this->image, 0xFF, 0x99, 0x99);
$this->colour['ltltred'] = ImageColorAllocate ($this->image, 0xFF, 0xCC, 0xCC);
$this->colour['orange'] = ImageColorAllocate ($this->image, 0xFF, 0x66, 0x00);
$this->colour['ltorange'] = ImageColorAllocate ($this->image, 0xFF, 0x99, 0x66);
$this->colour['ltltorange'] = ImageColorAllocate ($this->image, 0xFF, 0xcc, 0x99);
$this->colour['lime'] = ImageColorAllocate ($this->image, 0x00, 0xFF, 0x00);
$this->colour['yellow'] = ImageColorAllocate ($this->image, 0xFF, 0xFF, 0x00);
$this->colour['blue'] = ImageColorAllocate ($this->image, 0x00, 0x00, 0xFF);
$this->colour['ltblue'] = ImageColorAllocate ($this->image, 0x00, 0xCC, 0xFF);
$this->colour['ltltblue'] = ImageColorAllocate ($this->image, 0x99, 0xFF, 0xFF);
$this->colour['fuchsia'] = ImageColorAllocate ($this->image, 0xFF, 0x00, 0xFF);
$this->colour['aqua'] = ImageColorAllocate ($this->image, 0x00, 0xFF, 0xFF);
//$this->colour['white'] = ImageColorAllocate ($this->image, 0xFF, 0xFF, 0xFF);
// shades of gray
$this->colour['grayF0'] = ImageColorAllocate ($this->image, 0xF0, 0xF0, 0xF0);
$this->colour['grayEE'] = ImageColorAllocate ($this->image, 0xEE, 0xEE, 0xEE);
$this->colour['grayDD'] = ImageColorAllocate ($this->image, 0xDD, 0xDD, 0xDD);
$this->colour['grayCC'] = ImageColorAllocate ($this->image, 0xCC, 0xCC, 0xCC);
$this->colour['gray33'] = ImageColorAllocate ($this->image, 0x33, 0x33, 0x33);
$this->colour['gray66'] = ImageColorAllocate ($this->image, 0x66, 0x66, 0x66);
$this->colour['gray99'] = ImageColorAllocate ($this->image, 0x99, 0x99, 0x99);
$this->colour['none'] = 'none';
return true;
}
function output() {
if ($this->debug) { // for debugging purposes.
//expandPre($this->graph);
//expandPre($this->y_data);
//expandPre($this->x_data);
//expandPre($this->parameter);
} else {
$expiresSeconds = $this->parameter['seconds_to_live'];
$expiresHours = $this->parameter['hours_to_live'];
if ($expiresHours || $expiresSeconds) {
$now = mktime (date("H"),date("i"),date("s"),date("m"),date("d"),date("Y"));
$expires = mktime (date("H")+$expiresHours,date("i"),date("s")+$expiresSeconds,date("m"),date("d"),date("Y"));
$expiresGMT = gmdate('D, d M Y H:i:s', $expires).' GMT';
$lastModifiedGMT = gmdate('D, d M Y H:i:s', $now).' GMT';
Header('Last-modified: '.$lastModifiedGMT);
Header('Expires: '.$expiresGMT);
}
if ($this->parameter['file_name'] == 'none') {
switch ($this->parameter['output_format']) {
case 'GIF':
Header("Content-type: image/gif"); // GIF??. switch to PNG guys!!
ImageGIF($this->image);
break;
case 'JPEG':
Header("Content-type: image/jpeg"); // JPEG for line art??. included for completeness.
ImageJPEG($this->image);
break;
default:
Header("Content-type: image/png"); // preferred output format
ImagePNG($this->image);
break;
}
} else {
switch ($this->parameter['output_format']) {
case 'GIF':
ImageGIF($this->image, $this->parameter['file_name'].'.gif');
break;
case 'JPEG':
ImageJPEG($this->image, $this->parameter['file_name'].'.jpg');
break;
default:
ImagePNG($this->image, $this->parameter['file_name'].'.png');
break;
}
}
ImageDestroy($this->image);
}
} // function output
function init_variable(&$variable, $value, $default) {
if (!empty($value)) $variable = $value;
else if (isset($default)) $variable = $default;
else unset($variable);
}
// plot a point. options include square, circle, diamond, triangle, and dot. offset is used for drawing shadows.
// for diamonds and triangles the size should be an even number to get nice look. if odd the points are crooked.
function plot($x, $y, $type, $size, $colour, $offset) {
//print("drawing point of type: $type, at offset: $offset");
$u = $x + $offset;
$v = $this->calculated['inner_border']['bottom'] - $y + $offset;
$half = $size / 2;
<
> [$u, $v, $half] = [(int) round($u), (int) round($v), (int) round($half)];
switch ($type) {
case 'square':
ImageFilledRectangle($this->image, $u-$half, $v-$half, $u+$half, $v+$half, $this->colour[$colour]);
break;
case 'square-open':
ImageRectangle($this->image, $u-$half, $v-$half, $u+$half, $v+$half, $this->colour[$colour]);
break;
case 'circle':
ImageArc($this->image, $u, $v, $size, $size, 0, 360, $this->colour[$colour]);
ImageFillToBorder($this->image, $u, $v, $this->colour[$colour], $this->colour[$colour]);
break;
case 'circle-open':
ImageArc($this->image, $u, $v, $size, $size, 0, 360, $this->colour[$colour]);
break;
case 'diamond':
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
ImageFilledPolygon($this->image, array($u, $v-$half, $u+$half, $v, $u, $v+$half, $u-$half, $v), 4, $this->colour[$colour]);
> ImageFilledPolygon($this->image, array($u, $v - $half, $u + $half, $v, $u, $v + $half, $u - $half, $v), $this->colour[$colour]);
break;
> } else {
case 'diamond-open':
> }
ImagePolygon($this->image, array($u, $v-$half, $u+$half, $v, $u, $v+$half, $u-$half, $v), 4, $this->colour[$colour]);
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
break;
> ImagePolygon($this->image, array($u, $v - $half, $u + $half, $v, $u, $v + $half, $u - $half, $v), $this->colour[$colour]);
case 'triangle':
> } else {
ImageFilledPolygon($this->image, array($u, $v-$half, $u+$half, $v+$half, $u-$half, $v+$half), 3, $this->colour[$colour]);
> }
break;
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
case 'triangle-open':
> ImageFilledPolygon($this->image, array($u, $v - $half, $u + $half, $v + $half, $u - $half, $v + $half), $this->colour[$colour]);
ImagePolygon($this->image, array($u, $v-$half, $u+$half, $v+$half, $u-$half, $v+$half), 3, $this->colour[$colour]);
> } else {
break;
> }
case 'dot':
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
ImageSetPixel($this->image, $u, $v, $this->colour[$colour]);
> ImagePolygon($this->image, array($u, $v - $half, $u + $half, $v + $half, $u - $half, $v + $half), $this->colour[$colour]);
break;
> } else {
}
> }
}
function bar($x, $y, $type, $size, $colour, $offset, $index, $yoffset) {
$index_offset = $this->calculated['bar_offset_index'][$index];
if ( $yoffset ) {
$bar_offsetx = 0;
} else {
$bar_offsetx = $this->calculated['bar_offset_x'][$index_offset];
}
//$this->dbug("drawing bar at offset = $offset : index = $index: bar_offsetx = $bar_offsetx");
$span = ($this->calculated['bar_width'] * $size) / 2;
$x_left = $x + $bar_offsetx - $span;
$x_right = $x + $bar_offsetx + $span;
if ($this->parameter['zero_axis'] != 'none') {
$zero = $this->calculated['zero_axis'];
if ($this->parameter['shadow_below_axis'] ) $zero += $offset;
< $u_left = $x_left + $offset;
< $u_right = $x_right + $offset - 1;
> $u_left = (int) round($x_left + $offset);
> $u_right = (int) round($x_right + $offset - 1);
$v = $this->calculated['boundary_box']['bottom'] - $y + $offset;
if ($v > $zero) {
$top = $zero +1;
$bottom = $v;
} else {
$top = $v;
$bottom = $zero - 1;
}
> [$top, $bottom] = [(int) round($top), (int) round($bottom)];
switch ($type) {
>
case 'open':
< //ImageRectangle($this->image, round($u_left), $top, round($u_right), $bottom, $this->colour[$colour]);
if ($v > $zero)
< ImageRectangle($this->image, round($u_left), $bottom, round($u_right), $bottom, $this->colour[$colour]);
> ImageRectangle($this->image, $u_left, $bottom, $u_right, $bottom, $this->colour[$colour]);
else
< ImageRectangle($this->image, round($u_left), $top, round($u_right), $top, $this->colour[$colour]);
< ImageRectangle($this->image, round($u_left), $top, round($u_left), $bottom, $this->colour[$colour]);
< ImageRectangle($this->image, round($u_right), $top, round($u_right), $bottom, $this->colour[$colour]);
> ImageRectangle($this->image, $u_left, $top, $u_right, $top, $this->colour[$colour]);
> ImageRectangle($this->image, $u_left, $top, $u_left, $bottom, $this->colour[$colour]);
> ImageRectangle($this->image, $u_right, $top, $u_right, $bottom, $this->colour[$colour]);
break;
case 'fill':
< ImageFilledRectangle($this->image, round($u_left), $top, round($u_right), $bottom, $this->colour[$colour]);
> ImageFilledRectangle($this->image, $u_left, $top, $u_right, $bottom, $this->colour[$colour]);
break;
}
} else {
$bottom = $this->calculated['boundary_box']['bottom'];
if ($this->parameter['shadow_below_axis'] ) $bottom += $offset;
if ($this->parameter['inner_border'] != 'none') $bottom -= 1; // 1 pixel above bottom if border is to be drawn.
< $u_left = $x_left + $offset;
< $u_right = $x_right + $offset - 1;
> $u_left = (int) round($x_left + $offset);
> $u_right = (int) round($x_right + $offset - 1);
$v = $this->calculated['boundary_box']['bottom'] - $y + $offset;
// Moodle addition, plus the function parameter yoffset
if ($yoffset) { // Moodle
$yoffset = $yoffset - round(($bottom - $v) / 2.0); // Moodle
$bottom -= $yoffset; // Moodle
$v -= $yoffset; // Moodle
} // Moodle
> [$v, $bottom] = [(int) round($v), (int) round($bottom)];
switch ($type) {
>
case 'open':
< ImageRectangle($this->image, round($u_left), $v, round($u_right), $bottom, $this->colour[$colour]);
> ImageRectangle($this->image, $u_left, $v, $u_right, $bottom, $this->colour[$colour]);
break;
case 'fill':
< ImageFilledRectangle($this->image, round($u_left), $v, round($u_right), $bottom, $this->colour[$colour]);
> ImageFilledRectangle($this->image, $u_left, $v, $u_right, $bottom, $this->colour[$colour]);
break;
}
}
}
function area($x_start, $y_start, $x_end, $y_end, $type, $colour, $offset) {
//dbug("drawing area type: $type, at offset: $offset");
if ($this->parameter['zero_axis'] != 'none') {
$bottom = $this->calculated['boundary_box']['bottom'];
$zero = $this->calculated['zero_axis'];
if ($this->parameter['shadow_below_axis'] ) $zero += $offset;
$u_start = $x_start + $offset;
$u_end = $x_end + $offset;
$v_start = $bottom - $y_start + $offset;
$v_end = $bottom - $y_end + $offset;
switch ($type) {
case 'fill':
// draw it this way 'cos the FilledPolygon routine seems a bit buggy.
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
ImageFilledPolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $zero, $u_start, $zero), 4, $this->colour[$colour]);
> ImageFilledPolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $zero, $u_start, $zero), $this->colour[$colour]);
ImagePolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $zero, $u_start, $zero), 4, $this->colour[$colour]);
> ImagePolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $zero, $u_start, $zero), $this->colour[$colour]);
break;
> } else {
case 'open':
> }
< //ImagePolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $zero, $u_start, $zero), 4, $this->colour[$colour]);
ImageLine($this->image, $u_start, $v_start, $u_end, $v_end, $this->colour[$colour]);
ImageLine($this->image, $u_start, $v_start, $u_start, $zero, $this->colour[$colour]);
ImageLine($this->image, $u_end, $v_end, $u_end, $zero, $this->colour[$colour]);
break;
}
} else {
$bottom = $this->calculated['boundary_box']['bottom'];
$u_start = $x_start + $offset;
$u_end = $x_end + $offset;
$v_start = $bottom - $y_start + $offset;
$v_end = $bottom - $y_end + $offset;
if ($this->parameter['shadow_below_axis'] ) $bottom += $offset;
if ($this->parameter['inner_border'] != 'none') $bottom -= 1; // 1 pixel above bottom if border is to be drawn.
switch ($type) {
case 'fill':
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
ImageFilledPolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $bottom, $u_start, $bottom), 4, $this->colour[$colour]);
> ImageFilledPolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $bottom, $u_start, $bottom), $this->colour[$colour]);
break;
> } else {
case 'open':
> }
ImagePolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $bottom, $u_start, $bottom), 4, $this->colour[$colour]);
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
break;
> ImagePolygon($this->image, array($u_start, $v_start, $u_end, $v_end, $u_end, $bottom, $u_start, $bottom), $this->colour[$colour]);
}
> } else {
}
> }
}
function line($x_start, $y_start, $x_end, $y_end, $type, $brush_type, $brush_size, $colour, $offset) {
//dbug("drawing line of type: $type, at offset: $offset");
< $u_start = $x_start + $offset;
< $v_start = $this->calculated['boundary_box']['bottom'] - $y_start + $offset;
< $u_end = $x_end + $offset;
< $v_end = $this->calculated['boundary_box']['bottom'] - $y_end + $offset;
> $u_start = (int) round($x_start + $offset);
> $v_start = (int) round($this->calculated['boundary_box']['bottom'] - $y_start + $offset);
> $u_end = (int) round($x_end + $offset);
> $v_end = (int) round($this->calculated['boundary_box']['bottom'] - $y_end + $offset);
switch ($type) {
case 'brush':
$this->draw_brush_line($u_start, $v_start, $u_end, $v_end, $brush_size, $brush_type, $colour);
break;
case 'line' :
ImageLine($this->image, $u_start, $v_start, $u_end, $v_end, $this->colour[$colour]);
break;
case 'dash':
< ImageDashedLine($this->image, $u_start, $v_start, $u_end, $v_end, $this->colour[$colour]);
> $this->image_dashed_line($this->image, $u_start, $v_start, $u_end, $v_end, $this->colour[$colour]); // Moodle
break;
}
}
// function to draw line. would prefer to use gdBrush but this is not supported yet.
function draw_brush_line($x0, $y0, $x1, $y1, $size, $type, $colour) {
//$this->dbug("line: $x0, $y0, $x1, $y1");
$dy = $y1 - $y0;
$dx = $x1 - $x0;
$t = 0;
$watchdog = 1024; // precaution to prevent infinite loops.
$this->draw_brush($x0, $y0, $size, $type, $colour);
if (abs($dx) > abs($dy)) { // slope < 1
//$this->dbug("slope < 1");
$m = $dy / $dx; // compute slope
$t += $y0;
$dx = ($dx < 0) ? -1 : 1;
$m *= $dx;
while (round($x0) != round($x1)) {
if (!$watchdog--) break;
$x0 += $dx; // step to next x value
$t += $m; // add slope to y value
$y = round($t);
//$this->dbug("x0=$x0, x1=$x1, y=$y watchdog=$watchdog");
$this->draw_brush($x0, $y, $size, $type, $colour);
}
} else { // slope >= 1
//$this->dbug("slope >= 1");
$m = $dx / $dy; // compute slope
$t += $x0;
$dy = ($dy < 0) ? -1 : 1;
$m *= $dy;
while (round($y0) != round($y1)) {
if (!$watchdog--) break;
$y0 += $dy; // step to next y value
$t += $m; // add slope to x value
$x = round($t);
//$this->dbug("x=$x, y0=$y0, y1=$y1 watchdog=$watchdog");
$this->draw_brush($x, $y0, $size, $type, $colour);
}
}
}
function draw_brush($x, $y, $size, $type, $colour) {
$x = round($x);
$y = round($y);
$half = round($size / 2);
switch ($type) {
case 'circle':
ImageArc($this->image, $x, $y, $size, $size, 0, 360, $this->colour[$colour]);
ImageFillToBorder($this->image, $x, $y, $this->colour[$colour], $this->colour[$colour]);
break;
case 'square':
ImageFilledRectangle($this->image, $x-$half, $y-$half, $x+$half, $y+$half, $this->colour[$colour]);
break;
case 'vertical':
ImageFilledRectangle($this->image, $x, $y-$half, $x+1, $y+$half, $this->colour[$colour]);
break;
case 'horizontal':
ImageFilledRectangle($this->image, $x-$half, $y, $x+$half, $y+1, $this->colour[$colour]);
break;
case 'slash':
< ImageFilledPolygon($this->image, array($x+$half, $y-$half,
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
> ImageFilledPolygon($this->image, array(
> $x + $half, $y - $half,
> $x + $half + 1, $y - $half,
> $x - $half + 1, $y + $half,
> $x - $half, $y + $half
> ), $this->colour[$colour]);
> } else {
> ImageFilledPolygon($this->image, array(
> $x + $half, $y - $half,
$x+$half+1, $y-$half,
$x-$half+1, $y+$half,
$x-$half, $y+$half
), 4, $this->colour[$colour]);
> }
break;
case 'backslash':
< ImageFilledPolygon($this->image, array($x-$half, $y-$half,
> if (version_compare(PHP_VERSION, '8.0.0', '>=')) {
> ImageFilledPolygon($this->image, array(
> $x - $half, $y - $half,
> $x - $half + 1, $y - $half,
> $x + $half + 1, $y + $half,
> $x + $half, $y + $half
> ), $this->colour[$colour]);
> } else {
> ImageFilledPolygon($this->image, array(
> $x - $half, $y-$half,
$x-$half+1, $y-$half,
$x+$half+1, $y+$half,
$x+$half, $y+$half
), 4, $this->colour[$colour]);
> }
break;
default:
@eval($type); // user can create own brush script.
}
> }
}
>
> /**
} // class graph
> * Moodle.
> *
> * A replacement for deprecated ImageDashedLine function.
> *
> * @param resource|GdImage $image
> * @param int $x1 — x-coordinate for first point.
> * @param int $y1 — y-coordinate for first point.
> * @param int $x2 — x-coordinate for second point.
> * @param int $y2 — y-coordinate for second point.
> * @param int $color
> * @return void
> */
> private function image_dashed_line($image, $x1, $y1, $x2, $y2, $colour): void {
> // Create a dashed style.
> $style = array(
> $colour,
> $colour,
> $colour,
> $colour,
> IMG_COLOR_TRANSPARENT,
> IMG_COLOR_TRANSPARENT,
> IMG_COLOR_TRANSPARENT,
> IMG_COLOR_TRANSPARENT
> );
> imagesetstyle($image, $style);
>
> // Apply the dashed style.
> imageline($image, $x1, $y1, $x2, $y2, IMG_COLOR_STYLED);