OriusTecnologia/myadmin
6
0
Fork 0
Code Issues Pull requests Projects Releases Packages Wiki Activity Actions
myadmin/vendor/library/phplot/phplot.php
Kenio 1d6492885f first commit
2025-07-03 13:11:29 -03:00

9205 lines
392 KiB
PHP
Raw Blame History

<?php
/**
* PHPlot - A class for creating scientific and business graphs, charts, plots
*
* This file contains two PHP classes which are used to create graphs,
* charts, and plots. The PHPlot class is the basic class which creates
* indexed-color images, and the extended PHPlot_truecolor class creates
* full-color (24-bit) images.
* PHPlot currently requires PHP 5.3 or later.
*
* $Id: phplot.php 1774 2015-11-03 00:18:50Z lbayuk $
*
* @version 6.2.0
* @copyright 1998-2015 Afan Ottenheimer
* @license GNU Lesser General Public License, version 2.1
* @link http://sourceforge.net/projects/phplot/ PHPlot Web Site with downloads, tracker, discussion
* @link http://phplot.sourceforge.net PHPlot Project Web Site with links to documentation
* @author lbayuk (2006-present) <lbayuk@users.sourceforge.net>
* @author Miguel de Benito Delgado (co-author and maintainer, 2003-2005)
* @author Afan Ottenheimer (original author)
*/
/*
* This 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;
* version 2.1 of the License.
*
* This software 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 software; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
* ---------------------------------------------------------------------
*/
/**
* Class for creating a plot
*
* The PHPlot class represents a plot (chart, graph) with all associated
* parameters. This creates a palette (indexed) color image which is limited
* to 256 total colors. For truecolor images (24 bit R, G, B), see the
* PHPlot_truecolor class.
*
* In most cases, methods of PHPlot just change the internal properties, and
* nothing actually happens until the DrawGraph() method is used. Therefore
* methods can be used in any order up until DrawGraph(); the order should not
* affect the results.
*
* Note: Without a background image, the PHPlot class creates a palette
* (indexed) color image, and the PHPlot_truecolor class creates a truecolor
* image. If a background image is used with the constructor of either class,
* the type of image produced matches the type of the background image.
*
*/
class PHPlot
{
/** PHPlot version constant as a string */
const version = '6.2.0';
/** PHPlot version constant as a number = major * 10000 + minor * 100 + patch */
const version_id = 60200;
// All class variables are declared here, and initialized (if applicable).
// Starting with PHPlot-6.0, most variables have 'protected' visibility
// For more information on these variables, see the Reference Manual, Developer's Guide, List
// of Member Variables. The list below is in alphabetical order, matching the manual.
/** Calculated width of bars for bar charts */
protected $actual_bar_width;
/** Calculated bar gap */
protected $bar_adjust_gap;
/** Extra space between groups of bars */
public $bar_extra_space = 0.5;
/** Width of bar relative to space for one bar */
public $bar_width_adjust = 1;
/** Color (R,G,B,A) for image background */
protected $bg_color;
/** Background image filename */
protected $bgimg;
/** Background image tiling mode */
protected $bgmode;
/** Scale factor for box widths in box plots */
public $boxes_frac_width = 0.3;
/** Maximum half-width for boxes in box plots */
public $boxes_max_width = 8;
/** Minimum half-width for boxes in box plots */
public $boxes_min_width = 2;
/** Ratio of the width of the 'T' ends of box plot whiskers to the width of the boxes */
public $boxes_t_width = 0.6;
/** Flag: Don't send cache suppression headers */
protected $browser_cache = FALSE;
/** Max bubble size for bubbles plots */
public $bubbles_max_size;
/** Min bubbles size for bubble plots */
public $bubbles_min_size = 6;
/** Callback (hook) function information, indexed by callback reason */
protected $callbacks = array(
'data_points' => NULL,
'draw_setup' => NULL,
'draw_image_background' => NULL,
'draw_plotarea_background' => NULL,
'draw_titles' => NULL,
'draw_axes' => NULL,
'draw_graph' => NULL,
'draw_border' => NULL,
'draw_legend' => NULL,
'draw_all' => NULL,
'data_color' => NULL,
'debug_textbox' => NULL,
'debug_scale' => NULL,
);
/** Flag: Draw dashed or solid grid lines? */
protected $dashed_grid = TRUE;
/** Initial dashed pattern code */
protected $dashed_style = '2-4';
/** The (converted) data array */
protected $data;
/** Array of colors (R,G,B,A) for data borders available with some plot types */
protected $data_border_colors;
/** Array of colors (R,G,B,A) for data lines/marks/bars/etc. */
protected $data_colors;
/** Maximum number of dependent variable values */
protected $data_columns;
/** Array: Per row maximum Y value */
protected $data_max;
/** Array: Per row minimum Y value */
protected $data_min;
/** Format of the data array */
protected $data_type = 'text-data';
/** Obsolete - suffix for 'data'-formatted labels */
public $data_units_text = '';
/** Angle (in degrees) for data value labels */
public $data_value_label_angle = 90;
/** Distance (in pixels) for data value labels */
public $data_value_label_distance = 5;
/** Color (R,G,B,A) to use for axis data labels */
protected $datalabel_color;
/** Flag: data type has error bars */
protected $datatype_error_bars;
/** Flag: data type has implied X or Y */
protected $datatype_implied;
/** Flag: data type is one-column data for pie chart */
protected $datatype_pie_single;
/** Flag: data type has swapped X and Y values (horizontal plot) */
protected $datatype_swapped_xy;
/** Flag: data type includes Y and Z value pairs */
protected $datatype_yz;
/** Static array of data type information */
static protected $datatypes = array( // See DecodeDataType() and $datatype_* flags
'text-data' => array('implied' => TRUE),
'text-data-single' => array('implied' => TRUE, 'pie_single' => TRUE),
'data-data' => array(),
'data-data-error' => array('error_bars' => TRUE),
'data-data-yx' => array('swapped_xy' => TRUE),
'text-data-yx' => array('implied' => TRUE, 'swapped_xy' => TRUE),
'data-data-xyz' => array('yz' => TRUE),
'data-data-yx-error' => array('swapped_xy' => TRUE, 'error_bars' => TRUE),
);
/** Static array of data type aliases => primary name */
static protected $datatypes_map = array(
'text-linear' => 'text-data',
'linear-linear' => 'data-data',
'linear-linear-error' => 'data-data-error',
'text-data-pie' => 'text-data-single',
'data-data-error-yx' => 'data-data-yx-error',
);
/** Character to use for decimal point in formatted numbers */
protected $decimal_point;
/** The default color array, used to initialize data_colors and error_bar_colors */
protected $default_colors = array(
'SkyBlue', 'green', 'orange', 'blue', 'red', 'DarkGreen', 'purple', 'peru',
'cyan', 'salmon', 'SlateBlue', 'YellowGreen', 'magenta', 'aquamarine1', 'gold', 'violet'
);
/** Dashed-line template, as a string of space-separated markers (see SetDefaultDashedStyle) */
protected $default_dashed_style;
/** Default TrueType font file */
protected $default_ttfont;
/** Array of flags for elements that must be drawn at most once */
protected $done = array();
/** Flag: How to handle missing Y values */
protected $draw_broken_lines = FALSE;
/** Flag: Draw data borders, available with some plot types */
protected $draw_data_borders;
/** Flag: Draw borders on pie chart segments */
protected $draw_pie_borders;
/** Flag: Draw the background of the plot area */
protected $draw_plot_area_background = FALSE;
/** Flag: Draw X data label lines */
protected $draw_x_data_label_lines = FALSE;
/** Flag: Draw X grid lines? */
protected $draw_x_grid;
/** Flag: Draw Y data label lines */
protected $draw_y_data_label_lines = FALSE;
/** Flag: Draw Y grid lines? */
protected $draw_y_grid;
/** Color (R,G,B,A) to use for data value labels */
protected $dvlabel_color;
/** Array of colors (R,G,B,A) for error bars */
protected $error_bar_colors;
/** Thickness of error bar lines */
protected $error_bar_line_width = 1;
/** Shape (style) of error bars: line or tee */
protected $error_bar_shape = 'tee';
/** Size of error bars */
protected $error_bar_size = 5;
/** Image format: png, gif, jpg, wbmp */
protected $file_format = 'png';
/** Array of font information (should be protected, but public for possible callback use) */
public $fonts;
/** Flag: Draw grid on top of or behind the plot */
public $grid_at_foreground = FALSE;
/** Color (R,G,B,A) to use for axes, plot area border, legend border, pie chart lines and text */
protected $grid_color;
/** Controls fraction of bar group space used for bar */
public $group_frac_width = 0.7;
/** Color (R,G,B,A) for image border, if drawn */
protected $i_border;
/** Image border type */
protected $image_border_type = 'none';
/** Width of image border in pixels */
protected $image_border_width;
/** Image height */
protected $image_height;
/** Image width */
protected $image_width;
/** Image resource (should be protected, but public to reduce breakage) */
public $img;
/** Prevent recursion in error message image production */
protected $in_error;
/** Flag: don't send headers */
protected $is_inline = FALSE;
/** Label format info */
protected $label_format = array('x' => array(), 'xd' => array(), 'y' => array(), 'yd' => array());
/** Pie chart label position factor */
protected $label_scale_position = 0.5;
/** Legend text array */
protected $legend;
/** Color (R,G,B,A) for the legend background */
protected $legend_bg_color;
/** Alignment of color boxes or shape markers in the legend: left, right, or none */
protected $legend_colorbox_align = 'right';
/** Color control for colorbox borders in legend */
protected $legend_colorbox_borders = 'textcolor';
/** Adjusts width of color boxes in the legend */
public $legend_colorbox_width = 1;
/** Array holding legend position information */
protected $legend_pos;
/** Flag: reverse the order of lines in the legend box, bottom to top */
protected $legend_reverse_order = FALSE;
/** Legend style setting, left or right */
protected $legend_text_align = 'right';
/** Color (R,G,B,A) for the legend text */
protected $legend_text_color;
/** Draw color boxes (if false or unset) or shape markers (if true) in the legend */
protected $legend_use_shapes = FALSE;
/** Color (R,G,B,A) for grid lines and X data lines */
protected $light_grid_color;
/** Controls inter-line spacing of text */
protected $line_spacing = 4;
/** Plot line style(s) */
protected $line_styles = array('solid', 'solid', 'dashed');
/** Plot line width(s) */
protected $line_widths = 1;
/** Flag to avoid importing locale info */
public $locale_override = FALSE;
/** Overall max X value in the data array */
protected $max_x;
/** Overall max Y value in the data array */
protected $max_y;
/** Overall max Z value in the data array (for X/Y/Z data type only) */
protected $max_z;
/** Overall min X value in the data array */
protected $min_x;
/** Overall min Y value in the data array */
protected $min_y;
/** Overall min Z value in the data array (for X/Y/Z data type only) */
protected $min_z;
/** Color index of image background */
protected $ndx_bg_color;
/** Color index array for data borders */
protected $ndx_data_border_colors;
/** Color index array for plot data lines/marks/bars/etc. */
protected $ndx_data_colors;
/** Color index array for plot data, darker shade */
protected $ndx_data_dark_colors;
/** Color index for axis data labels */
protected $ndx_datalabel_color;
/** Color index for data value labels */
protected $ndx_dvlabel_color;
/** Color index array for error bars */
protected $ndx_error_bar_colors;
/** Color index for axes, plot area border, legend border, pie chart lines and text */
protected $ndx_grid_color;
/** Color index for image border lines */
protected $ndx_i_border;
/** Color index for image border lines, darker shade */
protected $ndx_i_border_dark;
/** Color index for the legend background */
protected $ndx_legend_bg_color;
/** Color index for the legend text */
protected $ndx_legend_text_color;
/** Color index for grid lines and X data lines */
protected $ndx_light_grid_color;
/** Color index for unshaded pie chart segment borders */
protected $ndx_pieborder_color;
/** Color index for pie chart data labels */
protected $ndx_pielabel_color;
/** Color index of plot area background */
protected $ndx_plot_bg_color;
/** Color index for labels and legend text */
protected $ndx_text_color;
/** Color index for tick marks */
protected $ndx_tick_color;
/** Color index for tick labels */
protected $ndx_ticklabel_color;
/** Color index for main title */
protected $ndx_title_color;
/** Color index for X title */
protected $ndx_x_title_color;
/** Color index for Y title */
protected $ndx_y_title_color;
/** Number of rows in the data array (number of points along X, or number of bar groups, for example) */
protected $num_data_rows;
/** Array with number of entries in each data row (including label and X if present) */
protected $num_recs;
/** Forced number of X tick marks */
protected $num_x_ticks = '';
/** Forced number of Y tick marks */
protected $num_y_ticks = '';
/** Scale factor for element widths in OHLC plots. */
public $ohlc_frac_width = 0.3;
/** Maximum half-width for elements in OHLC plots */
public $ohlc_max_width = 8;
/** Minimum half-width for elements in OHLC plots */
public $ohlc_min_width = 2;
/** Redirect to output file */
protected $output_file;
/** Aspect ratio for shaded pie charts */
public $pie_diam_factor = 0.5;
/** Flag: True to draw pie chart segments clockwise, false or unset for counter-clockwise. */
protected $pie_direction_cw = FALSE;
/** Flag: If true, do not include label sizes when calculating pie size. */
protected $pie_full_size = FALSE;
/** Source of label text for pie charts (percent, value, label, or index) */
protected $pie_label_source;
/** Minimum amount of the plot area that will be reserved for the pie */
public $pie_min_size_factor = 0.5;
/** Starting angle in degrees for the first segment in a pie chart */
protected $pie_start_angle = 0;
/** Color (R,G,B,A) to use for unshaded pie chart segment borders */
protected $pieborder_color;
/** Color (R,G,B,A) to use for pie chart data labels */
protected $pielabel_color;
/** Calculated plot area array: ([0],[1]) is top left, ([2],[3]) is bottom right */
protected $plot_area;
/** Height of the plot area */
protected $plot_area_height;
/** Width of the plot area */
protected $plot_area_width;
/** Color (R,G,B,A) for plot area background */
protected $plot_bg_color;
/** Where to draw plot borders. Can be scalar or array of choices. */
protected $plot_border_type;
/** Max X of the plot area in world coordinates */
protected $plot_max_x;
/** Max Y of the plot area in world coordinates */
protected $plot_max_y;
/** Min X of the plot area in world coordinates */
protected $plot_min_x;
/** Min Y of the plot area in world coordinates */
protected $plot_min_y;
/** X device coordinate of the plot area origin */
protected $plot_origin_x;
/** Y device coordinate of the plot area origin */
protected $plot_origin_y;
/** Selected plot type */
protected $plot_type = 'linepoints';
/** Plot area background image filename */
protected $plotbgimg;
/** Plot area background image tiling mode */
protected $plotbgmode;
/** Array of plot type information, indexed by plot type */
static protected $plots = array(
'area' => array(
'draw_method' => 'DrawArea',
'abs_vals' => TRUE,
),
'bars' => array(
'draw_method' => 'DrawBars',
),
'boxes' => array(
'draw_method' => 'DrawBoxes',
'adjust_type' => 1, // See GetRangeEndAdjust()
),
'bubbles' => array(
'draw_method' => 'DrawBubbles',
'adjust_type' => 1, // See GetRangeEndAdjust()
),
'candlesticks' => array(
'draw_method' => 'DrawOHLC',
'draw_arg' => array(TRUE, FALSE), // Draw candlesticks, only fill if "closed down"
'adjust_type' => 2, // See GetRangeEndAdjust()
),
'candlesticks2' => array(
'draw_method' => 'DrawOHLC',
'draw_arg' => array(TRUE, TRUE), // Draw candlesticks, fill always
'adjust_type' => 2, // See GetRangeEndAdjust()
),
'linepoints' => array(
'draw_method' => 'DrawLinePoints',
'legend_alt_marker' => 'shape',
),
'lines' => array(
'draw_method' => 'DrawLines',
'legend_alt_marker' => 'line',
),
'ohlc' => array(
'draw_method' => 'DrawOHLC',
'draw_arg' => array(FALSE), // Don't draw candlesticks
'adjust_type' => 2, // See GetRangeEndAdjust()
),
'pie' => array(
'draw_method' => 'DrawPieChart',
'suppress_axes' => TRUE,
'abs_vals' => TRUE,
),
'points' => array(
'draw_method' => 'DrawDots',
'legend_alt_marker' => 'shape',
),
'squared' => array(
'draw_method' => 'DrawSquared',
'legend_alt_marker' => 'line',
),
'squaredarea' => array(
'draw_method' => 'DrawSquaredArea',
'abs_vals' => TRUE,
),
'stackedarea' => array(
'draw_method' => 'DrawArea',
'draw_arg' => array(TRUE), // Tells DrawArea to draw stacked area plot
'sum_vals' => TRUE,
'abs_vals' => TRUE,
),
'stackedbars' => array(
'draw_method' => 'DrawStackedBars',
'sum_vals' => TRUE,
),
'stackedsquaredarea' => array(
'draw_method' => 'DrawSquaredArea',
'draw_arg' => array(TRUE), // Tells DrawSquaredArea the data is cumulative
'sum_vals' => TRUE,
'abs_vals' => TRUE,
),
'thinbarline' => array(
'draw_method' => 'DrawThinBarLines',
),
);
/** Size of point_shapes and point_sizes arrays */
protected $point_counts;
/** Marker shapes for point plots */
protected $point_shapes = array(
'diamond', 'dot', 'delta', 'home', 'yield', 'box', 'circle', 'up', 'down', 'cross'
);
/** Marker sizes for point plots */
protected $point_sizes = array(6);
/** Flag: Automatic PrintImage after DrawGraph? */
protected $print_image = TRUE;
/** Tuning parameters for plot range calculation */
protected $rangectl = array( 'x' => array(
'adjust_mode' => 'T', // T=adjust to next tick
'adjust_amount' => NULL, // See GetRangeEndAdjust()
'zero_magnet' => 0.857142, // Value is 6/7
),
'y' => array(
'adjust_mode' => 'T', // T=adjust to next tick
'adjust_amount' => NULL, // See GetRangeEndAdjust()
'zero_magnet' => 0.857142, // Value is 6/7
));
/** Area for each bar in a bar chart */
protected $record_bar_width;
/** Maximum of num_recs[], max number of entries (including label and X if present) for all data rows */
protected $records_per_group;
/** Array mapping color names to array of R, G, B values */
protected $rgb_array;
/** Fixed extra margin used in multiple places */
public $safe_margin = 5;
/** Stores PHPlot version when object was serialized */
protected $saved_version;
/** Drop shadow size for pie and bar charts */
protected $shading = 5;
/** Skip bottom tick mark */
protected $skip_bottom_tick = FALSE;
/** Skip left tick mark */
protected $skip_left_tick = FALSE;
/** Skip right tick mark */
protected $skip_right_tick = FALSE;
/** Skip top tick mark */
protected $skip_top_tick = FALSE;
/** MIME boundary sequence used with streaming plots */
protected $stream_boundary;
/** Boundary and MIME header, output before each frame in a plot stream */
protected $stream_frame_header;
/** Name of the GD output function for this image type, used with streaming plots */
protected $stream_output_f;
/** Flag: Don't produce an error image on fatal error */
protected $suppress_error_image = FALSE;
/** Flag: Don't draw the X axis line */
protected $suppress_x_axis = FALSE;
/** Flag: Don't draw the Y axis line */
protected $suppress_y_axis = FALSE;
/** Color (R,G,B,A) for labels and legend text */
protected $text_color;
/** Character to use to group 1000s in formatted numbers */
protected $thousands_sep;
/** Color (R,G,B,A) for tick marks */
protected $tick_color;
/** Tuning parameters for tick increment calculation */
protected $tickctl = array( 'x' => array(
'tick_mode' => NULL,
'min_ticks' => 8,
'tick_inc_integer' => FALSE,
),
'y' => array(
'tick_mode' => NULL,
'min_ticks' => 8,
'tick_inc_integer' => FALSE,
));
/** Color (R,G,B,A) to use for tick labels */
protected $ticklabel_color;
/** Color (R,G,B,A) for main title (and default for X and Y titles) */
protected $title_color;
/** Y offset of main title position */
protected $title_offset;
/** Main title text */
protected $title_txt = '';
/** Total number of entries (rows times columns in each row) in the data array. */
protected $total_records;
/** Color (R,G,B,A) designated as transparent */
protected $transparent_color;
/** Flag: True if serialized object had a truecolor image */
protected $truecolor;
/** TrueType font directory */
protected $ttf_path = '.';
/** Default font type, True for TrueType, False for GD */
protected $use_ttf = FALSE;
/** Position of X axis (in world coordinates) */
protected $x_axis_position;
/** Device coordinate for the X axis */
protected $x_axis_y_pixels;
/** Effective X data label text angle */
protected $x_data_label_angle;
/** X data label text angle (see also x_data_label_angle) */
protected $x_data_label_angle_u = '';
/** Position of X data labels */
protected $x_data_label_pos;
/** X tick label text angle (and default for x_data_label_angle) */
protected $x_label_angle = 0;
/** Label offset relative to plot area */
protected $x_label_axis_offset;
/** Label offset relative to plot area */
protected $x_label_bot_offset;
/** Label offset relative to plot area */
protected $x_label_top_offset;
/** Calculated plot area margin - left side */
protected $x_left_margin;
/** Calculated plot area margin - right side */
protected $x_right_margin;
/** X tick anchor point */
protected $x_tick_anchor;
/** Length of X tick marks (inside plot area) */
protected $x_tick_cross = 3;
/** Effective step between X tick marks */
protected $x_tick_inc;
/** Step between X tick marks (see also x_tick_inc) */
protected $x_tick_inc_u = '';
/** Position of X tick labels */
protected $x_tick_label_pos;
/** Length of X tick marks (outside plot area) */
protected $x_tick_length = 5;
/** Position of X tick marks */
protected $x_tick_pos = 'plotdown';
/** Title offset relative to plot area */
protected $x_title_bot_offset;
/** Color (R,G,B,A) for X title */
protected $x_title_color;
/** X Axis title position */
protected $x_title_pos = 'none';
/** Title offset relative to plot area */
protected $x_title_top_offset;
/** X Axis title text */
protected $x_title_txt = '';
/** X scale factor for converting World to Device coordinates */
protected $xscale;
/** Linear or log scale on X */
protected $xscale_type = 'linear';
/** Position of Y axis (in world coordinates) */
protected $y_axis_position;
/** Device coordinate for the Y axis */
protected $y_axis_x_pixels;
/** Calculated plot area margin - bottom */
protected $y_bot_margin;
/** Y data label text angle */
protected $y_data_label_angle = 0;
/** Position of Y data labels */
protected $y_data_label_pos;
/** Y tick label text angle */
protected $y_label_angle = 0;
/** Label offset relative to plot area */
protected $y_label_axis_offset;
/** Label offset relative to plot area */
protected $y_label_left_offset;
/** Label offset relative to plot area */
protected $y_label_right_offset;
/** Y tick anchor point */
protected $y_tick_anchor;
/** Length of Y tick marks (inside plot area) */
protected $y_tick_cross = 3;
/** Effective step between Y tick marks */
protected $y_tick_inc;
/** Step between Y tick marks (see also y_tick_inc) */
protected $y_tick_inc_u = '';
/** Position of Y tick labels */
protected $y_tick_label_pos;
/** Length of Y tick marks (outside plot area) */
protected $y_tick_length = 5;
/** Position of Y tick marks */
protected $y_tick_pos = 'plotleft';
/** Color (R,G,B,A) for Y title */
protected $y_title_color;
/** Title offset relative to plot area */
protected $y_title_left_offset;
/** Y Axis title position */
protected $y_title_pos = 'none';
/** Title offset relative to plot area */
protected $y_title_right_offset;
/** Y Axis title text */
protected $y_title_txt = '';
/** Calculated plot area margin - top */
protected $y_top_margin;
/** Y scale factor for converting World to Device coordinates */
protected $yscale;
/** Linear or log scale on Y */
protected $yscale_type = 'linear';
/**
* Constructor: Sets up GD palette image resource, and initializes plot style controls
*
* @param int $width Image width in pixels
* @param int $height Image height in pixels
* @param string $output_file Path for output file. Omit, or NULL, or '' to mean no output file
* @param string $input_file Path to a file to be used as background. Omit, NULL, or '' for none
*/
function __construct($width=600, $height=400, $output_file=NULL, $input_file=NULL)
{
$this->initialize('imagecreate', $width, $height, $output_file, $input_file);
}
/**
* Initializes a PHPlot object (used by PHPlot and PHPlot_truecolor constructors)
*
* @param string $imagecreate_function GD function to use: imagecreate or imagecreatetruecolor
* @param int $width Image width in pixels
* @param int $height Image height in pixels
* @param string $output_file Path for output file. Omit, or NULL, or '' to mean no output file
* @param string $input_file Path to a file to be used as background. Omit, NULL, or '' for none
* @since 5.6.0
*/
protected function initialize($imagecreate_function, $width, $height, $output_file, $input_file)
{
$this->SetRGBArray('small');
if (isset($output_file) && $output_file !== '')
$this->SetOutputFile($output_file);
if (isset($input_file) && $input_file !== '') {
$this->SetInputFile($input_file);
} else {
$this->image_width = $width;
$this->image_height = $height;
$this->img = call_user_func($imagecreate_function, $width, $height);
if (!$this->img)
return $this->PrintError(get_class($this) . '(): Could not create image resource.');
}
$this->SetDefaultStyles();
$this->SetDefaultFonts();
}
/**
* Prepares object for serialization
*
* The image resource cannot be serialized. But rather than try to filter it out from the other
* properties, just let PHP serialize it (it will become an integer=0), and then fix it in __wakeup.
* This way the object is still usable after serialize().
* Note: This does not work if an input file was provided to the constructor.
*
* @return string[] Array of object property names, as required by PHP spec for __sleep()
* @since 5.8.0
*/
function __sleep()
{
$this->truecolor = imageistruecolor($this->img); // Remember image type
$this->saved_version = self::version; // Remember version of PHPlot, for checking on unserialize
return array_keys(get_object_vars($this));
}
/**
* Cleans up object after unserialization
*
* Recreates the image resource (which is not serializable), after validating the PHPlot version.
* @since 5.8.0
*/
function __wakeup()
{
if (strcmp($this->saved_version, self::version) != 0)
$this->PrintError(get_class($this) . '(): Unserialize version mismatch');
$imagecreate_function = $this->truecolor ? 'imagecreatetruecolor' : 'imagecreate';
$this->img = call_user_func($imagecreate_function, $this->image_width, $this->image_height);
if (!$this->img)
$this->PrintError(get_class($this) . '(): Could not create image resource.');
unset($this->truecolor, $this->saved_version);
}
/**
* Reads an image file (used by constructor via SetInput file, and by tile_img for backgrounds)
*
* @param string $image_filename Filename of the image file to read
* @param int $width Reference variable for width of the image in pixels
* @param int $height Reference variable for height of the image in pixels
* @return resource Image resource (False on error if an error handler returns True)
* @since 5.0.4
*/
protected function GetImage($image_filename, &$width, &$height)
{
$error = '';
$size = getimagesize($image_filename);
if (!$size) {
$error = "Unable to query image file $image_filename";
} else {
$image_type = $size[2];
switch ($image_type) {
case IMAGETYPE_GIF:
$img = @ ImageCreateFromGIF ($image_filename);
break;
case IMAGETYPE_PNG:
$img = @ ImageCreateFromPNG ($image_filename);
break;
case IMAGETYPE_JPEG:
$img = @ ImageCreateFromJPEG ($image_filename);
break;
default:
$error = "Unknown image type ($image_type) for image file $image_filename";
break;
}
}
if (empty($error) && !$img) {
// getimagesize is OK, but GD won't read it. Maybe unsupported format.
$error = "Failed to read image file $image_filename";
}
if (!empty($error)) {
return $this->PrintError("GetImage(): $error");
}
$width = $size[0];
$height = $size[1];
return $img;
}
/**
* Selects an input file to be used as background for the whole graph
*
* @param string $which_input_file Pathname to the image file to use as a background
* @deprecated Public use discouraged; intended for use by class constructor
* @return bool True (False on error if an error handler returns True)
*/
function SetInputFile($which_input_file)
{
$im = $this->GetImage($which_input_file, $this->image_width, $this->image_height);
if (!$im)
return FALSE; // GetImage already produced an error message.
// Deallocate any resources previously allocated
if (isset($this->img))
imagedestroy($this->img);
$this->img = $im;
// Do not overwrite the input file with the background color.
$this->done['background'] = TRUE;
return TRUE;
}
/////////////////////////////////////////////
////////////// COLORS
/////////////////////////////////////////////
/**
* Allocates a GD color index for a color specified as an array (R,G,B,A)
*
* At drawing time, this allocates a GD color index for the specified color, which
* is specified as a 4 component array. Earlier, when a color is specified,
* SetRGBColor() parsed and checked it and converted it to this component array form.
*
* @param int[] $color Color specification as (R, G, B, A), or unset variable
* @param int $default_color_index An already-allocated GD color index to use if $color is unset
* @return int A GD color index that can be used when drawing
* @since 5.2.0
*/
protected function GetColorIndex(&$color, $default_color_index = 0)
{
if (empty($color)) return $default_color_index;
list($r, $g, $b, $a) = $color;
return imagecolorresolvealpha($this->img, $r, $g, $b, $a);
}
/**
* Allocates an array of GD color indexes from an array of color specification arrays
*
* This is used for the data_colors array, for example.
* Note: $color_array must use 0-based sequential integer indexes.
*
* @param array $color_array Array of color specifications, each an array (R,G,B,A)
* @param int $max_colors Limit color allocation to no more than this number of colors
* @return int[] Array of GD color indexes that can be used when drawing
* @since 5.3.1
*/
protected function GetColorIndexArray($color_array, $max_colors)
{
$n = min(count($color_array), $max_colors);
$result = array();
for ($i = 0; $i < $n; $i++)
$result[] = $this->GetColorIndex($color_array[$i]);
return $result;
}
/**
* Allocates an array of GD color indexes for darker shades from an array of color specifications
*
* This is used for shadow colors such as those in bar charts with shading.
*
* @param array $color_array Array of color specifications, each an array (R,G,B,A)
* @param int $max_colors Limit color allocation to no more than this number of colors
* @return int[] Array of GD color indexes that can be used when drawing shadow colors
* @since 5.3.1
*/
protected function GetDarkColorIndexArray($color_array, $max_colors)
{
$n = min(count($color_array), $max_colors);
$result = array();
for ($i = 0; $i < $n; $i++)
$result[] = $this->GetDarkColorIndex($color_array[$i]);
return $result;
}
/**
* Allocates a GD color index for a darker shade of a color specified as an array (R,G,B,A)
*
* See notes on GetColorIndex() above.
*
* @param int[] $color Color specification as (R, G, B, A)
* @return int A GD color index that can be used when drawing a shadow color
* @since 5.2.0
*/
protected function GetDarkColorIndex($color)
{
list ($r, $g, $b, $a) = $color;
$r = max(0, $r - 0x30);
$g = max(0, $g - 0x30);
$b = max(0, $b - 0x30);
return imagecolorresolvealpha($this->img, $r, $g, $b, $a);
}
/**
* Sets or reverts all colors and styles to their defaults
*
* @return bool True always
*/
protected function SetDefaultStyles()
{
$this->SetDefaultDashedStyle($this->dashed_style);
$this->SetImageBorderColor(array(194, 194, 194));
$this->SetPlotBgColor('white');
$this->SetBackgroundColor('white');
$this->SetTextColor('black');
$this->SetGridColor('black');
$this->SetLightGridColor('gray');
$this->SetTickColor('black');
$this->SetTitleColor('black');
// These functions set up the default colors when called without parameters
$this->SetDataColors();
$this->SetErrorBarColors();
$this->SetDataBorderColors();
return TRUE;
}
/**
* Sets the overall image background color
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetBackgroundColor($which_color)
{
return (bool)($this->bg_color = $this->SetRGBColor($which_color));
}
/**
* Sets the plot area background color, which is only drawn if SetDrawPlotAreaBackground is used.
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetPlotBgColor($which_color)
{
return (bool)($this->plot_bg_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color of the plot title, and the default color of the X and Y titles.
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetTitleColor($which_color)
{
return (bool)($this->title_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color of the X title, overriding the color set with SetTitleColor()
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 5.2.0
*/
function SetXTitleColor($which_color)
{
return (bool)($this->x_title_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color of the Y title, overriding the color set with SetTitleColor()
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 5.2.0
*/
function SetYTitleColor($which_color)
{
return (bool)($this->y_title_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color of the axis tick marks
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetTickColor($which_color)
{
return (bool)($this->tick_color = $this->SetRGBColor($which_color));
}
/**
* @deprecated Use SetTitleColor() instead
*/
function SetLabelColor($which_color)
{
return $this->SetTitleColor($which_color);
}
/**
* Sets the general text color, which is the default color for legend text, tick and data labels
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetTextColor($which_color)
{
return (bool)($this->text_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color for data labels, overriding the default set with SetTextColor()
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 5.7.0
*/
function SetDataLabelColor($which_color)
{
return (bool)($this->datalabel_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color for data value labels, overriding SetTextColor() and SetDataLabelColor()
*
* Note: Data Value Labels are the labels within the plot area (not the axis labels).
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 5.7.0
*/
function SetDataValueLabelColor($which_color)
{
return (bool)($this->dvlabel_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color for pie chart data labels, overriding the default set with SetGridColor()
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 5.7.0
*/
function SetPieLabelColor($which_color)
{
return (bool)($this->pielabel_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color for pie chart segment borders
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function SetPieBorderColor($which_color)
{
return (bool)($this->pieborder_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color for tick labels, overriding the default set with SetTextColor()
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 5.7.0
*/
function SetTickLabelColor($which_color)
{
return (bool)($this->ticklabel_color = $this->SetRGBColor($which_color));
}
/**
* Sets the X and Y grid colors, and the data label line color
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetLightGridColor($which_color)
{
return (bool)($this->light_grid_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color used for the X and Y axis lines, plot border, and legend border
*
* Also sets the default color for the pie chart data labels and pie chart segment borders.
* These can be overridden by SetPieLabelColor() and SetPieBorderColor() respectively.
* Note: This has nothing to do with the grid, and we don't know where this name came from.
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetGridColor($which_color)
{
return (bool)($this->grid_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color used for the image border, drawn if SetImageBorderType() enables it
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
*/
function SetImageBorderColor($which_color)
{
return (bool)($this->i_border = $this->SetRGBColor($which_color));
}
/**
* Designates a color to be transparent, if transparency is supported by the image format
*
* @param string|int[]|null $which_color Color to make transparent; empty|omit|NULL to reset to none
* @return bool True (False on error if an error handler returns True)
*/
function SetTransparentColor($which_color = NULL)
{
$this->transparent_color = empty($which_color) ? NULL : $this->SetRGBColor($which_color);
return ($this->transparent_color !== FALSE); // True unless SetRGBColor() returned an error
}
/**
* Sets the color used for the legend background, which defaults to the image background color
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function SetLegendBgColor($which_color)
{
return (bool)($this->legend_bg_color = $this->SetRGBColor($which_color));
}
/**
* Sets the color used for the legend text, which defaults to the general text color
*
* @param string|int[] $which_color Color name or spec (#rrggbb, (r,g,b) array, etc)
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function SetLegendTextColor($which_color)
{
return (bool)($this->legend_text_color = $this->SetRGBColor($which_color));
}
/**
* Sets the array of colors to be used (the color map)
*
* The color map maps color names into arrays of R, G, B and optionally A values.
* The selected color map can be user defined, a small predefined one,
* or a large one included from the file 'rgb.inc.php'.
*
* @param array|string $which_color_array Color map array (name=>(R,G,B[,A]), or keyword small | large
* @return bool True always
*/
function SetRGBArray($which_color_array)
{
if (is_array($which_color_array)) { // User defined array
$this->rgb_array = $which_color_array;
} elseif ($which_color_array == 'small') { // Small predefined color array
$this->rgb_array = array(
'white' => array(255, 255, 255),
'snow' => array(255, 250, 250),
'PeachPuff' => array(255, 218, 185),
'ivory' => array(255, 255, 240),
'lavender' => array(230, 230, 250),
'black' => array( 0, 0, 0),
'DimGrey' => array(105, 105, 105),
'gray' => array(190, 190, 190),
'grey' => array(190, 190, 190),
'navy' => array( 0, 0, 128),
'SlateBlue' => array(106, 90, 205),
'blue' => array( 0, 0, 255),
'SkyBlue' => array(135, 206, 235),
'cyan' => array( 0, 255, 255),
'DarkGreen' => array( 0, 100, 0),
'green' => array( 0, 255, 0),
'YellowGreen' => array(154, 205, 50),
'yellow' => array(255, 255, 0),
'orange' => array(255, 165, 0),
'gold' => array(255, 215, 0),
'peru' => array(205, 133, 63),
'beige' => array(245, 245, 220),
'wheat' => array(245, 222, 179),
'tan' => array(210, 180, 140),
'brown' => array(165, 42, 42),
'salmon' => array(250, 128, 114),
'red' => array(255, 0, 0),
'pink' => array(255, 192, 203),
'maroon' => array(176, 48, 96),
'magenta' => array(255, 0, 255),
'violet' => array(238, 130, 238),
'plum' => array(221, 160, 221),
'orchid' => array(218, 112, 214),
'purple' => array(160, 32, 240),
'azure1' => array(240, 255, 255),
'aquamarine1' => array(127, 255, 212)
);
} elseif ($which_color_array == 'large') { // Large color array
if (!@include('rgb.inc.php')) {
return $this->PrintError("SetRGBArray(): Large color map could not be loaded "
. "from 'rgb.inc.php'.");
}
$this->rgb_array = $ColorArray;
} else {
return $this->PrintError("SetRGBArray(): Invalid color map selection");
}
return TRUE;
}
/**
* Parses a color specification and returns the color component values
*
* Accepted color specification forms are (1) component array: array(R,G,B)
* or array(R,G,B,A); (2) component string hexadecimal: "#RRGGBB" or
* "#RRGGBBAA"; (3) A color name from the color map array with optional
* alpha value suffix as ":alpha". R, G, and B are integers 0-255, and
* Alpha is 0 (opaque) to 127 (transparent).
*
* @param string|int[] $color_asked Color spec to parse (color name, #rrggbb, (r,g,b) array, etc)
* @param int $alpha Optional default alpha value (0-127, default 0 for opaque)
* @return int[] Color component values as array (red, green, blue, alpha)
* @deprecated Public use discouraged; intended for class internal use
*/
function SetRGBColor($color_asked, $alpha = 0)
{
if (empty($color_asked)) {
$ret_val = array(0, 0, 0);
} elseif (is_array($color_asked) && (($n = count($color_asked)) == 3 || $n == 4) ) {
// Already an array of 3 or 4 elements:
$ret_val = $color_asked;
} elseif (preg_match('/^#([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})([0-9a-f]{2})?$/i',
$color_asked, $ss)) {
// #RRGGBB or #RRGGBBAA notation:
$ret_val = array(hexdec($ss[1]), hexdec($ss[2]), hexdec($ss[3]));
if (isset($ss[4])) $ret_val[] = hexdec($ss[4]);
} elseif (isset($this->rgb_array[$color_asked])) {
// Color by name:
$ret_val = $this->rgb_array[$color_asked];
} elseif (preg_match('/(.+):([\d]+)$/', $color_asked, $ss)
&& isset($this->rgb_array[$ss[1]])) {
// Color by name with ":alpha" suffix, alpha is a decimal number:
$ret_val = $this->rgb_array[$ss[1]];
$ret_val[3] = (int)$ss[2];
} else {
return $this->PrintError("SetRGBColor(): Color '$color_asked' is not valid.");
}
// Append alpha if not already provided for:
if (count($ret_val) == 3)
$ret_val[] = $alpha;
return $ret_val;
}
/**
* Sets the colors used for plotting data sets, with optional default alpha value
*
* If passed an array, use the values as colors for sequential data sets.
* If passed a single color specification, plot all data sets using that
* single color.
* Special use cases for the $which_data argument: Missing or NULL loads
* the default data color map if no map is already set; an empty string or
* False loads the default color map even if a color map is already set.
* Note: The default value for $alpha here is NULL, not 0, so we can tell
* if it was defaulted. But the effective default value is 0 (opaque).
*
* @param array|string $which_data Array of color specifications, or one color, or empty
* @param array|string $which_border Data border colors, deprecated - use SetDataBorderColors() instead
* @param int $alpha Default alpha to apply to all data colors that do not have an alpha value
* @return bool True (False on error if an error handler returns True)
*/
function SetDataColors($which_data = NULL, $which_border = NULL, $alpha = NULL)
{
if (is_array($which_data)) {
$colors = $which_data; // Use supplied array
} elseif (!empty($which_data)) {
$colors = array($which_data); // Use supplied single color
} elseif (empty($this->data_colors) || !is_null($which_data)) {
$colors = $this->default_colors; // Use default color array
} else {
// which_data is NULL or missing and a color array is already set.
// The existing color array is left alone, except that if $alpha is
// given this will replace the alpha value of each existing color.
// This makes SetDataColors(NULL, NULL, $alpha) work.
if (isset($alpha)) {
$n_colors = count($this->data_colors);
for ($i = 0; $i < $n_colors; $i++) {
$this->data_colors[$i][3] = $alpha; // Component 3 = alpha value
}
}
// No need to reparse the colors or anything else.
return TRUE;
}
if (!isset($alpha))
$alpha = 0; // Actual default is opaque colors.
// Check each color and convert to array (r,g,b,a) form.
// Use the $alpha argument as a default for the alpha value of each color.
$this->data_colors = array();
foreach ($colors as $color) {
$color_array = $this->SetRGBColor($color, $alpha);
if (!$color_array) return FALSE; // SetRGBColor already did an error message.
$this->data_colors[] = $color_array;
}
// For past compatibility:
return $this->SetDataBorderColors($which_border);
}
/**
* Sets the colors used for data borders in some plot types
*
* For plot types which support data borders, such as 'bars', this sets
* the colors used for those borders. See also SetDrawDataBorders().
* Special cases: If $which_br is missing or NULL, use the default of all
* black if colors were not already set; if an empty string or False then
* set the default of all black regardless.
*
* @param array|string $which_br Array of color specifications, or one color, or empty
* @return bool True (False on error if an error handler returns True)
*/
function SetDataBorderColors($which_br = NULL)
{
if (is_array($which_br)) {
$colors = $which_br; // Use supplied array
} elseif (!empty($which_br)) {
$colors = array($which_br); // Use supplied single color
} elseif (empty($this->data_border_colors) || !is_null($which_br)) {
$colors = array('black'); // Use default
} else {
return TRUE; // Do nothing: which_br is NULL or missing and a color array is already set.
}
// Check each color and convert to array (r,g,b,a) form.
$this->data_border_colors = array();
foreach ($colors as $color) {
$color_array = $this->SetRGBColor($color);
if (!$color_array) return FALSE; // SetRGBColor already did an error message.
$this->data_border_colors[] = $color_array;
}
return TRUE;
}
/**
* Sets the colors used for data error bars
*
* Special cases for $which_err: Missing or NULL loads the default colors
* (same as default data colors) if no colors are aleady set; an empty
* string or False loads the default colors even if colors were already set.
*
* @param array|string $which_err Array of color specifications, or one color, or empty
* @return bool True (False on error if an error handler returns True)
*/
function SetErrorBarColors($which_err = NULL)
{
if (is_array($which_err)) {
$colors = $which_err; // Use supplied array
} elseif (!empty($which_err)) {
$colors = array($which_err); // Use supplied single color
} elseif (empty($this->error_bar_colors) || !is_null($which_err)) {
$colors = $this->default_colors; // Use default color array
} else {
return TRUE; // Do nothing: which_err is NULL or missing and a color array is already set.
}
// Check each color and convert to array (r,g,b,a) form.
$this->error_bar_colors = array();
foreach ($colors as $color) {
$color_array = $this->SetRGBColor($color);
if (!$color_array) return FALSE; // SetRGBColor already did an error message.
$this->error_bar_colors[] = $color_array;
}
return TRUE;
}
/**
* Sets the default dashed line style (on/off pattern for dashed lines)
*
* For example: SetDashedStyle('2-3-1-2') means 2 dots of color, 3
* transparent, 1 color, then 2 transparent.
* This builds a template string $this->default_dashed_style which contains
* a space-separated series of marker (#) for pixels on, and the value of
* IMG_COLOR_TRANSPARENT for each pixel which is off.
* See SetDashedStyle() for how it is used.
*
* @param string $which_style Dashed line specification, in the form <pixels_on>-<pixels_off>...
* @return bool True (False on error if an error handler returns True)
*/
function SetDefaultDashedStyle($which_style)
{
// Validate the argument as "(number)-(number)-..." with at least 2 numbers:
if (!preg_match('/^\d+-\d+(-\d+)*$/', $which_style)) {
return $this->PrintError("SetDefaultDashedStyle(): Wrong parameter '$which_style'.");
}
$result = '';
$use_color = TRUE;
$transparent = ' ' . IMG_COLOR_TRANSPARENT;
// Expand the dashed line style specifier:
foreach (explode('-', $which_style) as $n) {
$result .= str_repeat($use_color ? ' #' : $transparent, $n);
$use_color = !$use_color; // Alternate color and transparent
}
$this->default_dashed_style = ltrim($result);
return TRUE;
}
/**
* Returns a GD line style for drawing patterned or solid lines
*
* This returns a value which can be used in GD when drawing lines.
* If styles are off, it just returns the color supplied.
* If styles are on, it applies the given color to the pre-set dashed
* line style (see SetDefaultDashedStyle()) and sets that as the GD
* line style, then returns the special GD code for drawing styled lines.
*
* @param int $which_ndxcol Color index to be used for drawing
* @param bool $use_style TRUE or omit for dashed lines, FALSE for solid lines
* @return int A GD color index for drawing: either $which_ndxcol or IMG_COLOR_STYLED
*/
protected function SetDashedStyle($which_ndxcol, $use_style = TRUE)
{
if (!$use_style)
return $which_ndxcol; // Styles are off; use original color for drawing
// Set the line style, substituting the specified color for the # marker:
imagesetstyle($this->img, explode(' ', str_replace('#', $which_ndxcol, $this->default_dashed_style)));
return IMG_COLOR_STYLED; // Use this value as the color for drawing
}
/**
* Sets line widths (thickness) for each data set
*
* @param int[]|int $which_lw Array of line widths in pixels, or a single value to use for all data sets
* @return bool True always
*/
function SetLineWidths($which_lw=NULL)
{
if (is_array($which_lw)) {
$this->line_widths = $which_lw; // Use provided array
} elseif (!is_null($which_lw)) {
$this->line_widths = array($which_lw); // Convert value to array
}
return TRUE;
}
/**
* Sets the line style (solid or dashed) for each data set
*
* @param string[]|string $which_ls Array or single keyword: solid | dashed | none
* @return bool True always
*/
function SetLineStyles($which_ls=NULL)
{
if (is_array($which_ls)) {
$this->line_styles = $which_ls; // Use provided array
} elseif (!is_null($which_ls)) {
$this->line_styles = ($which_ls) ? array($which_ls) : array('solid');
}
return TRUE;
}
/////////////////////////////////////////////
////////////// TEXT and FONTS
/////////////////////////////////////////////
/**
* Sets spacing between lines of multi-line labels
*
* @param int $which_spc Text line spacing factor (pixels for GD text, scale control for TTF text)
* @return bool True always
*/
function SetLineSpacing($which_spc)
{
$this->line_spacing = $which_spc;
return TRUE;
}
/**
* Sets the default font type
*
* @param bool $which_ttf True to default to TrueType fonts, False to default to GD (fixed) fonts
* @return bool True (False on error if an error handler returns True)
*/
function SetUseTTF($which_ttf)
{
$this->use_ttf = $which_ttf;
return $this->SetDefaultFonts();
}
/**
* Sets the default TrueType font directory
*
* @param string $which_path Full path to a directory containing TrueType fonts
* @return bool True (False on error if an error handler returns True)
*/
function SetTTFPath($which_path)
{
if (!is_dir($which_path) || !is_readable($which_path)) {
return $this->PrintError("SetTTFPath(): $which_path is not a valid path.");
}
$this->ttf_path = $which_path;
return TRUE;
}
/**
* Sets the default TrueType font, and resets all elements to use that TrueType font and default sizes
*
* @param string $which_font Font filename or path; omit or NULL to use a default font
* @return bool True (False on error if an error handler returns True)
*/
function SetDefaultTTFont($which_font = NULL)
{
$this->default_ttfont = $which_font;
return $this->SetUseTTF(TRUE);
}
/**
* Returns the default TrueType font name, searching for one if necessary
*
* If no default has been set, this tries some likely candidates for a font which
* can be loaded. If it finds one that works, that becomes the default TT font.
* If there is no default and it cannot find a working font, it falls back to
* the original PHPlot default (which will not likely work either).
*
* @return string Default TrueType font filename or pathname
* @since 5.1.3
*/
protected function GetDefaultTTFont()
{
if (!isset($this->default_ttfont)) {
// No default font yet. Try some common sans-serif fonts.
$fonts = array('LiberationSans-Regular.ttf', // For Linux with a correct GD font search path
'Verdana.ttf', 'Arial.ttf', 'Helvetica.ttf', // For Windows, maybe others
'liberation/LiberationSans-Regular.ttf', // For newer Ubuntu etc
'ttf-liberation/LiberationSans-Regular.ttf', // For older Debian, Ubuntu, etc
'benjamingothic.ttf', // Original PHPlot default
);
foreach ($fonts as $font) {
// First try the font name alone, to see if GD can find and load it.
if (@imagettfbbox(10, 0, $font, "1") !== False)
break;
// If the font wasn't found, try it with the default TTF path in front.
$font_with_path = $this->ttf_path . DIRECTORY_SEPARATOR . $font;
if (@imagettfbbox(10, 0, $font_with_path, "1") !== False) {
$font = $font_with_path;
break;
}
}
// We either have a working font, or are using the last one regardless.
$this->default_ttfont = $font;
}
return $this->default_ttfont;
}
/**
* Selects all the default font values and sizes
*
* @return bool True (False on error if an error handler returns True)
*/
protected function SetDefaultFonts()
{
if ($this->use_ttf) {
// Defaults for use of TrueType fonts:
return $this->SetFontTTF('generic', '', 8)
&& $this->SetFontTTF('title', '', 14)
&& $this->SetFontTTF('legend', '', 8)
&& $this->SetFontTTF('x_label', '', 6)
&& $this->SetFontTTF('y_label', '', 6)
&& $this->SetFontTTF('x_title', '', 10)
&& $this->SetFontTTF('y_title', '', 10);
}
// Defaults for use of GD fonts:
return $this->SetFontGD('generic', 2)
&& $this->SetFontGD('title', 5)
&& $this->SetFontGD('legend', 2)
&& $this->SetFontGD('x_label', 1)
&& $this->SetFontGD('y_label', 1)
&& $this->SetFontGD('x_title', 3)
&& $this->SetFontGD('y_title', 3);
}
/**
* Selects a GD (fixed) font to use for a plot element
*
* Available element names are: title legend generic x_label y_label x_title y_title
*
* @param string $which_elem Name of the element to change the font for
* @param int|string $which_font GD font number: 1 2 3 4 or 5
* @param int $which_spacing Optional spacing in pixels between text lines
* @return bool True (False on error if an error handler returns True)
* @since 5.0.6
*/
function SetFontGD($which_elem, $which_font, $which_spacing = NULL)
{
if ($which_font < 1 || 5 < $which_font) {
return $this->PrintError(__FUNCTION__ . ': Font size must be 1, 2, 3, 4 or 5');
}
if (!$this->CheckOption($which_elem,
'generic, title, legend, x_label, y_label, x_title, y_title',
__FUNCTION__)) {
return FALSE;
}
// Store the font parameters: name/size, char cell height and width.
$this->fonts[$which_elem] = array('ttf' => FALSE,
'font' => $which_font,
'height' => ImageFontHeight($which_font),
'width' => ImageFontWidth($which_font),
'line_spacing' => $which_spacing);
return TRUE;
}
/**
* Selects a TrueType font for to use for a plot element
*
* Available element names are: title legend generic x_label y_label x_title y_title
*
* @param string $which_elem Name of the element to change the font for
* @param string $which_font TrueType font file or pathname; empty or NULL for the default font
* @param int $which_size Optional font size in points (default 12)
* @param int $which_spacing Optional line spacing adjustment factor
* @return bool True (False on error if an error handler returns True)
* @since 5.0.6
*/
function SetFontTTF($which_elem, $which_font, $which_size = 12, $which_spacing = NULL)
{
if (!$this->CheckOption($which_elem,
'generic, title, legend, x_label, y_label, x_title, y_title',
__FUNCTION__)) {
return FALSE;
}
// Empty font name means use the default font.
if (empty($which_font))
$which_font = $this->GetDefaultTTFont();
$path = $which_font;
// First try the font name directly, if not then try with path.
// Use GD imagettfbbox() to determine if this is a valid font.
// The return $bbox is used below, if valid.
if (($bbox = @imagettfbbox($which_size, 0, $path, "E")) === False) {
$path = $this->ttf_path . DIRECTORY_SEPARATOR . $which_font;
if (($bbox = @imagettfbbox($which_size, 0, $path, "E")) === False) {
return $this->PrintError(__FUNCTION__ . ": Can't find TrueType font $which_font");
}
}
// Calculate the font height and inherent line spacing. TrueType fonts have this information
// internally, but PHP/GD has no way to directly access it. So get the bounding box size of
// an upper-case character without descenders, and the baseline-to-baseline height.
// Note: In practice, $which_size = $height, maybe +/-1 . But which_size is in points,
// and height is in pixels, and someday GD may be able to tell the difference.
// The character width is saved too, but not used by the normal text drawing routines - it
// isn't necessarily a fixed-space font. It is used in DrawLegend.
$height = $bbox[1] - $bbox[5];
$width = $bbox[2] - $bbox[0];
$bbox = ImageTTFBBox($which_size, 0, $path, "E\nE");
$spacing = $bbox[1] - $bbox[5] - 2 * $height;
// Store the font parameters:
$this->fonts[$which_elem] = array('ttf' => TRUE,
'font' => $path,
'size' => $which_size,
'height' => $height,
'width' => $width,
'spacing' => $spacing,
'line_spacing' => $which_spacing);
return TRUE;
}
/**
* Selects which font to use for a plot element
*
* This uses either GD (fixed) or TrueType fonts, depending on the default text
* font type as set with SetUseTTF().
*
* Available element names are: title legend generic x_label y_label x_title y_title
*
* @param string $which_elem Name of the element to change the font for
* @param int|string $which_font For GD fonts, a font number; for TrueType, a font filename or pathname
* @param int $which_size Optional font size in points for TrueType fonts, ignored for GD fonts
* @param int $line_spacing Optional line spacing adjustment factor
* @return bool True (False on error if an error handler returns True)
*/
function SetFont($which_elem, $which_font, $which_size = 12, $line_spacing = NULL)
{
if ($this->use_ttf)
return $this->SetFontTTF($which_elem, $which_font, $which_size, $line_spacing);
return $this->SetFontGD($which_elem, $which_font, $line_spacing);
}
/**
* Returns the inter-line spacing for a font
*
* @param array $font The font, specified as a PHPlot font array
* @return int Spacing between text lines in pixels for text using this font
* @since 5.0.6
*/
protected function GetLineSpacing($font)
{
// Use the per-font line spacing preference, if set, else the global value:
if (isset($font['line_spacing']))
$line_spacing = $font['line_spacing'];
else
$line_spacing = $this->line_spacing;
// For GD fonts, that is the spacing in pixels.
// For TTF, adjust based on the 'natural' font spacing (see SetFontTTF):
if ($font['ttf']) {
$line_spacing = (int)($line_spacing * $font['spacing'] / 6.0);
}
return $line_spacing;
}
/*
* Text drawing and sizing functions:
* ProcessText is meant for use only by DrawText and SizeText.
* ProcessText(True, ...) - Draw a block of text
* ProcessText(False, ...) - Just return ($width, $height) of
* the orthogonal bounding box containing the text.
* ProcessText is further split into separate functions for GD and TTF
* text, due to the size of the code.
*
* Horizontal and vertical alignment are relative to the drawing. That is:
* vertical text (90 deg) gets centered along Y position with
* v_align = 'center', and adjusted to the right of X position with
* h_align = 'right'. Another way to look at this is to say
* that text rotation happens first, then alignment.
*
* Original multiple lines code submitted by Remi Ricard.
* Original vertical code submitted by Marlin Viss.
*
* Text routines rewritten by ljb to fix alignment and position problems.
* Here is my explanation and notes.
*
* + Process TTF text one line at a time, not as a block. (See below)
* + Flipped top vs bottom vertical alignment. The usual interpretation
* is: bottom align means bottom of the text is at the specified Y
* coordinate. For some reason, PHPlot did left/right the correct way,
* but had top/bottom reversed. I fixed it, and left the default valign
* argument as bottom, but the meaning of the default value changed.
*
* For GD font text, only single-line text is handled by GD, and the
* basepoint is the upper left corner of each text line.
* For TTF text, multi-line text could be handled by GD, with the text
* basepoint at the lower left corner of the first line of text.
* (Behavior of TTF drawing routines on multi-line text is not documented.)
* But you cannot do left/center/right alignment on each line that way,
* or proper line spacing.
* Therefore, for either text type, we have to break up the text into
* lines and position each line independently.
*
* There are 9 alignment modes: Horizontal = left, center, or right, and
* Vertical = top, center, or bottom. Alignment is interpreted relative to
* the image, not as the text is read. This makes sense when you consider
* for example X axis labels. They need to be centered below the marks
* (center, top alignment) regardless of the text angle.
* 'Bottom' alignment really means baseline alignment.
*
* GD font text is supported (by libgd) at 0 degrees and 90 degrees only.
* Multi-line or single line text works with any of the 9 alignment modes.
*
* TTF text can be at any angle. The 9 alignment modes work for all angles,
* but the results might not be what you expect for multi-line text. Alignment
* applies to the orthogonal (aligned with X and Y axes) bounding box that
* contains the text, and to each line in the multi-line text box. Since
* alignment is relative to the image, 45 degree multi-line text aligns
* differently from 46 degree text.
*
* Note that PHPlot allows multi-line text for the 3 titles, and they
* are only drawn at 0 degrees (main and X titles) or 90 degrees (Y title).
* Data labels can also be multi-line, and they can be drawn at any angle.
* -ljb 2007-11-03
*
*/
/**
* Draws or returns the size of a text string using GD fixed fonts
*
* This is intended for use only by ProcessText(). See notes there, but note that
* the $font and alignment parameters are pre-processed there and differ here.
* GD text only supports 0 and 90 degrees. This function treats an angle >= 45
* as 90 degrees, and < 45 as 0 degrees.
*
* @param bool $draw_it True to draw the text, False to just return the orthogonal width and height
* @param array $font A PHPlot font array (with 'ttf' = False)
* @param float $angle Text angle in degrees. GD only supports 0 and 90.
* @param int $x Reference point X coordinate for the text (ignored if $draw_it is False)
* @param int $y Reference point Y coordinate for the text (ignored if $draw_it is False)
* @param int $color GD color index to use for drawing the text (ignored if $draw_it is False)
* @param string $text The text to draw or size (can have newlines \n within)
* @param float $h_factor Horizontal alignment factor: 0=left|0.5=center|1=right (ignored if !$draw_it)
* @param float $v_factor Vertical alignment factor: 0=top|0.5=center|1=bottom (ignored if !$draw_it)
* @return bool|int[] True, if drawing text; an array of ($width, $height) if not.
* @since 5.0.5
*/
protected function ProcessTextGD($draw_it, $font, $angle, $x, $y, $color, $text, $h_factor, $v_factor)
{
// Extract font parameters:
$font_number = $font['font'];
$font_width = $font['width'];
$font_height = $font['height'];
$line_spacing = $this->GetLineSpacing($font);
// Break up the text into lines, trim whitespace, find longest line.
// Save the lines and length for drawing below.
$longest = 0;
foreach (explode("\n", $text) as $each_line) {
$lines[] = $line = trim($each_line);
$line_lens[] = $line_len = strlen($line);
if ($line_len > $longest) $longest = $line_len;
}
$n_lines = count($lines);
// Width, height are based on font size and longest line, line count respectively.
// These are relative to the text angle.
$total_width = $longest * $font_width;
$total_height = $n_lines * $font_height + ($n_lines - 1) * $line_spacing;
if (!$draw_it) {
if ($angle < 45) return array($total_width, $total_height);
return array($total_height, $total_width);
}
$interline_step = $font_height + $line_spacing; // Line-to-line step
if ($angle >= 45) {
// Vertical text (90 degrees):
// (Remember the alignment convention with vertical text)
// For 90 degree text, alignment factors change like this:
$temp = $v_factor;
$v_factor = $h_factor;
$h_factor = 1 - $temp;
$draw_func = 'ImageStringUp';
// Rotation matrix "R" for 90 degrees (with Y pointing down):
$r00 = 0; $r01 = 1;
$r10 = -1; $r11 = 0;
} else {
// Horizontal text (0 degrees):
$draw_func = 'ImageString';
// Rotation matrix "R" for 0 degrees:
$r00 = 1; $r01 = 0;
$r10 = 0; $r11 = 1;
}
// Adjust for vertical alignment (horizontal text) or horizontal alignment (vertical text):
$factor = (int)($total_height * $v_factor);
$xpos = $x - $r01 * $factor;
$ypos = $y - $r11 * $factor;
// Debug callback provides the bounding box:
if ($this->GetCallback('debug_textbox')) {
if ($angle >= 45) {
$bbox_width = $total_height;
$bbox_height = $total_width;
$px = $xpos;
$py = $ypos - (1 - $h_factor) * $total_width;
} else {
$bbox_width = $total_width;
$bbox_height = $total_height;
$px = $xpos - $h_factor * $total_width;
$py = $ypos;
}
$this->DoCallback('debug_textbox', $px, $py, $bbox_width, $bbox_height);
}
for ($i = 0; $i < $n_lines; $i++) {
// Adjust for alignment of this line within the text block:
$factor = (int)($line_lens[$i] * $font_width * $h_factor);
$x = $xpos - $r00 * $factor;
$y = $ypos - $r10 * $factor;
// Call ImageString or ImageStringUp:
$draw_func($this->img, $font_number, $x, $y, $lines[$i], $color);
// Step to the next line of text. This is a rotation of (x=0, y=interline_spacing)
$xpos += $r01 * $interline_step;
$ypos += $r11 * $interline_step;
}
return TRUE;
}
/**
* Draws or returns the size of a text string using TrueType fonts (TTF)
*
* This is intended for use only by ProcessText(). See notes there, but note that
* the $font and alignment parameters are pre-processed there and differ here.
*
* @param bool $draw_it True to draw the text, False to just return the orthogonal width and height
* @param array $font A PHPlot font array (with 'ttf' = True)
* @param float $angle Text angle in degrees
* @param int $x Reference point X coordinate for the text (ignored if $draw_it is False)
* @param int $y Reference point Y coordinate for the text (ignored if $draw_it is False)
* @param int $color GD color index to use for drawing the text (ignored if $draw_it is False)
* @param string $text The text to draw or size (can have newlines \n within)
* @param float $h_factor Horizontal alignment factor: 0=left|0.5=center|1=right (ignored if !$draw_it)
* @param float $v_factor Vertical alignment factor: 0=top|0.5=center|1=bottom (ignored if !$draw_it)
* @return bool|int[] True, if drawing text; an array of ($width, $height) if not.
* @since 5.0.5
*/
protected function ProcessTextTTF($draw_it, $font, $angle, $x, $y, $color, $text, $h_factor, $v_factor)
{
// Extract font parameters (see SetFontTTF):
$font_file = $font['font'];
$font_size = $font['size'];
$font_height = $font['height'];
$line_spacing = $this->GetLineSpacing($font);
// Break up the text into lines, trim whitespace.
// Calculate the total width and height of the text box at 0 degrees.
// Save the trimmed lines and their widths for later when drawing.
// To get uniform spacing, don't use the actual line heights.
// Total height = Font-specific line heights plus inter-line spacing.
// Total width = width of widest line.
// Last Line Descent is the offset from the bottom to the text baseline.
// Note: For some reason, ImageTTFBBox uses (-1,-1) as the reference point.
// So 1+bbox[1] is the baseline to bottom distance.
$total_width = 0;
$lastline_descent = 0;
foreach (explode("\n", $text) as $each_line) {
$lines[] = $line = trim($each_line);
$bbox = ImageTTFBBox($font_size, 0, $font_file, $line);
$line_widths[] = $width = $bbox[2] - $bbox[0];
if ($width > $total_width) $total_width = $width;
$lastline_descent = 1 + $bbox[1];
}
$n_lines = count($lines);
$total_height = $n_lines * $font_height + ($n_lines - 1) * $line_spacing;
// Calculate the rotation matrix for the text's angle. Remember that GD points Y down,
// so the sin() terms change sign.
$theta = deg2rad($angle);
$cos_t = cos($theta);
$sin_t = sin($theta);
$r00 = $cos_t; $r01 = $sin_t;
$r10 = -$sin_t; $r11 = $cos_t;
// Make a bounding box of the right size, with upper left corner at (0,0).
// By convention, the point order is: LL, LR, UR, UL.
// Note this is still working with the text at 0 degrees.
// When sizing text (SizeText), use the overall size with descenders.
// This tells the caller how much room to leave for the text.
// When drawing text (DrawText), use the size without descenders - that
// is, down to the baseline. This is for accurate positioning.
$b[0] = 0;
if ($draw_it) {
$b[1] = $total_height;
} else {
$b[1] = $total_height + $lastline_descent;
}
$b[2] = $total_width; $b[3] = $b[1];
$b[4] = $total_width; $b[5] = 0;
$b[6] = 0; $b[7] = 0;
// Rotate the bounding box, then offset to the reference point:
for ($i = 0; $i < 8; $i += 2) {
$x_b = $b[$i];
$y_b = $b[$i+1];
$c[$i] = $x + $r00 * $x_b + $r01 * $y_b;
$c[$i+1] = $y + $r10 * $x_b + $r11 * $y_b;
}
// Get an orthogonal (aligned with X and Y axes) bounding box around it, by
// finding the min and max X and Y:
$bbox_ref_x = $bbox_max_x = $c[0];
$bbox_ref_y = $bbox_max_y = $c[1];
for ($i = 2; $i < 8; $i += 2) {
$x_b = $c[$i];
if ($x_b < $bbox_ref_x) $bbox_ref_x = $x_b;
elseif ($bbox_max_x < $x_b) $bbox_max_x = $x_b;
$y_b = $c[$i+1];
if ($y_b < $bbox_ref_y) $bbox_ref_y = $y_b;
elseif ($bbox_max_y < $y_b) $bbox_max_y = $y_b;
}
$bbox_width = $bbox_max_x - $bbox_ref_x;
$bbox_height = $bbox_max_y - $bbox_ref_y;
if (!$draw_it) {
// Return the bounding box, rounded up (so it always contains the text):
return array((int)ceil($bbox_width), (int)ceil($bbox_height));
}
$interline_step = $font_height + $line_spacing; // Line-to-line step
// Calculate the offsets from the supplied reference point to the
// upper-left corner of the text.
// Start at the reference point at the upper left corner of the bounding
// box (bbox_ref_x, bbox_ref_y) then adjust it for the 9 point alignment.
// h,v_factor are 0,0 for top,left, .5,.5 for center,center, 1,1 for bottom,right.
// $off_x = $bbox_ref_x + $bbox_width * $h_factor - $x;
// $off_y = $bbox_ref_y + $bbox_height * $v_factor - $y;
// Then use that offset to calculate back to the supplied reference point x, y
// to get the text base point.
// $qx = $x - $off_x;
// $qy = $y - $off_y;
// Reduces to:
$qx = 2 * $x - $bbox_ref_x - $bbox_width * $h_factor;
$qy = 2 * $y - $bbox_ref_y - $bbox_height * $v_factor;
// Check for debug callback. Don't calculate bounding box unless it is wanted.
if ($this->GetCallback('debug_textbox')) {
// Calculate the orthogonal bounding box coordinates for debug testing.
// qx, qy is upper left corner relative to the text.
// Calculate px,py: upper left corner (absolute) of the bounding box.
// There are 4 equation sets for this, depending on the quadrant:
if ($sin_t > 0) {
if ($cos_t > 0) {
// Quadrant: 0d - 90d:
$px = $qx; $py = $qy - $total_width * $sin_t;
} else {
// Quadrant: 90d - 180d:
$px = $qx + $total_width * $cos_t; $py = $qy - $bbox_height;
}
} else {
if ($cos_t < 0) {
// Quadrant: 180d - 270d:
$px = $qx - $bbox_width; $py = $qy + $total_height * $cos_t;
} else {
// Quadrant: 270d - 360d:
$px = $qx + $total_height * $sin_t; $py = $qy;
}
}
$this->DoCallback('debug_textbox', $px, $py, $bbox_width, $bbox_height);
}
// Since alignment is applied after rotation, which parameter is used
// to control alignment of each line within the text box varies with
// the angle.
// Angle (degrees): Line alignment controlled by:
// -45 < angle <= 45 h_align
// 45 < angle <= 135 reversed v_align
// 135 < angle <= 225 reversed h_align
// 225 < angle <= 315 v_align
if ($cos_t >= $sin_t) {
if ($cos_t >= -$sin_t) $line_align_factor = $h_factor;
else $line_align_factor = $v_factor;
} else {
if ($cos_t >= -$sin_t) $line_align_factor = 1-$v_factor;
else $line_align_factor = 1-$h_factor;
}
// Now we have the start point, spacing and in-line alignment factor.
// We are finally ready to start drawing the text, line by line.
for ($i = 0; $i < $n_lines; $i++) {
// For drawing TTF text, the reference point is the left edge of the
// text baseline (not the lower left corner of the bounding box).
// The following also adjusts for horizontal (relative to
// the text) alignment of the current line within the box.
// What is happening is rotation of this vector by the text angle:
// (x = (total_width - line_width) * factor, y = font_height)
$width_factor = ($total_width - $line_widths[$i]) * $line_align_factor;
$rx = $qx + $r00 * $width_factor + $r01 * $font_height;
$ry = $qy + $r10 * $width_factor + $r11 * $font_height;
// Finally, draw the text:
ImageTTFText($this->img, $font_size, $angle, $rx, $ry, $color, $font_file, $lines[$i]);
// Step to position of next line.
// This is a rotation of (x=0,y=height+line_spacing) by $angle:
$qx += $r01 * $interline_step;
$qy += $r11 * $interline_step;
}
return TRUE;
}
/**
* Draws or returns the size of a text string
*
* This is intended for use by DrawText() and SizeText() exclusively. It hides the
* differences between GD and TTF text from those and higher level functions. It uses
* either ProcessTextTTF() or ProcessTextGD() to do the actual drawing or sizing.
*
* @param bool $draw_it True to draw the text, False to just return the orthogonal width and height
* @param string|array|null $font_id Text element name, empty or NULL for 'generic', or font array
* @param float $angle Text angle in degrees
* @param int $x Reference point X coordinate for the text (ignored if $draw_it is False)
* @param int $y Reference point Y coordinate for the text (ignored if $draw_it is False)
* @param int $color GD color index to use for drawing the text (ignored if $draw_it is False)
* @param string $text The text to draw or size (can have newlines \n within)
* @param string $halign Horizontal alignment: left | center | right (ignored if $draw_it is False)
* @param string $valign Vertical alignment: top | center | bottom (ignored if $draw_it is False)
* @return bool|int[] True, if drawing text; an array of ($width, $height) if not.
*/
protected function ProcessText($draw_it, $font_id, $angle, $x, $y, $color, $text, $halign, $valign)
{
// Empty text case:
if ($text === '') {
if ($draw_it) return TRUE;
return array(0, 0);
}
// Calculate width and height offset factors using the alignment args:
if ($valign == 'top') $v_factor = 0;
elseif ($valign == 'center') $v_factor = 0.5;
else $v_factor = 1.0; // 'bottom'
if ($halign == 'left') $h_factor = 0;
elseif ($halign == 'center') $h_factor = 0.5;
else $h_factor = 1.0; // 'right'
// Preferred usage for $font_id is a text element name (see SetFont()), but for compatibility
// accept a font array too. For external (callback) usage, support a default font.
if (is_array($font_id)) $font = $font_id; // Use supplied array; deprecated
elseif (!empty($font_id) && isset($this->fonts[$font_id])) $font = $this->fonts[$font_id];
else $font = $this->fonts['generic']; // Fallback default, or font_id is empty.
if ($font['ttf']) {
return $this->ProcessTextTTF($draw_it, $font, $angle, $x, $y, $color, $text,
$h_factor, $v_factor);
}
return $this->ProcessTextGD($draw_it, $font, $angle, $x, $y, $color, $text, $h_factor, $v_factor);
}
/**
* Draws a string of text on the plot
*
* Note: This function is mostly for internal use, and is not documented
* for public use. But it can be legitimately used from a PHPlot callback.
*
* @param string|array|null $which_font Text element name, empty or NULL for 'generic', or font array
* @param float $which_angle Text angle in degrees
* @param int $which_xpos Reference point X coordinate for the text
* @param int $which_ypos Reference point Y coordinate for the text
* @param int $which_color GD color index to use for drawing the text
* @param string $which_text The text to draw, with newlines (\n) between lines
* @param string $which_halign Horizontal alignment (relative to the image): left | center | right
* @param string $which_valign Vertical alignment (relative to the image): top | center | bottom
* @return bool True always
*/
function DrawText($which_font, $which_angle, $which_xpos, $which_ypos, $which_color, $which_text,
$which_halign = 'left', $which_valign = 'bottom')
{
return $this->ProcessText(TRUE,
$which_font, $which_angle, $which_xpos, $which_ypos,
$which_color, $which_text, $which_halign, $which_valign);
}
/**
* Calculates the size of block of text
*
* The returned size is the orthogonal width and height of a bounding
* box aligned with the X and Y axes of the text. Only for angle=0 is
* this the actual width and height of the text block, but for any angle
* it is the amount of space needed to contain the text.
* Note: This function is mostly for internal use, and is not documented
* for public use. But it can be legitimately used from a PHPlot callback.
*
* @param string|array|null $which_font Text element name, empty or NULL for 'generic', or font array
* @param float $which_angle Text angle in degrees
* @param string $which_text The text to calculate size of
* @return int[] A two element array ($width, $height) of the text
*/
function SizeText($which_font, $which_angle, $which_text)
{
// Color, position, and alignment are not used when calculating the size.
return $this->ProcessText(FALSE,
$which_font, $which_angle, 0, 0, 1, $which_text, '', '');
}
/////////////////////////////////////////////
/////////// INPUT / OUTPUT CONTROL
/////////////////////////////////////////////
/**
* Selects the graphic image format generated by DrawGraph()
*
* @param string $format The format to use: jpg | png | gif | wbmp
* @return bool True (False on error if an error handler returns True)
*/
function SetFileFormat($format)
{
$asked = $this->CheckOption($format, 'jpg, png, gif, wbmp', __FUNCTION__);
if (!$asked) return FALSE;
switch ($asked) {
case 'jpg':
$format_test = IMG_JPG;
break;
case 'png':
$format_test = IMG_PNG;
break;
case 'gif':
$format_test = IMG_GIF;
break;
case 'wbmp':
$format_test = IMG_WBMP;
break;
}
if (!(imagetypes() & $format_test)) {
return $this->PrintError("SetFileFormat(): File format '$format' not supported");
}
$this->file_format = $asked;
return TRUE;
}
/**
* Sets an image file to be used as the image background
*
* @param string $input_file Path to the file to be used (jpeg, png or gif)
* @param string $mode Optional method for the background: centeredtile | tile | scale
* @return bool True (False on error if an error handler returns True)
*/
function SetBgImage($input_file, $mode='centeredtile')
{
$this->bgmode = $this->CheckOption($mode, 'tile, centeredtile, scale', __FUNCTION__);
$this->bgimg = $input_file;
return (boolean)$this->bgmode;
}
/**
* Sets an image file to be used as the plot area background
*
* @param string $input_file Path to the file to be used (jpeg, png or gif)
* @param string $mode Optional method for the background: centeredtile | tile | scale
* @return bool True (False on error if an error handler returns True)
*/
function SetPlotAreaBgImage($input_file, $mode='tile')
{
$this->plotbgmode = $this->CheckOption($mode, 'tile, centeredtile, scale', __FUNCTION__);
$this->plotbgimg = $input_file;
return (boolean)$this->plotbgmode;
}
/**
* Redirects PHPlot output to a file
*
* Note: Output file has no effect unless SetIsInline(TRUE) is called.
*
* @param string $which_output_file Pathname of the file to write the image data into
* @return bool True always
*/
function SetOutputFile($which_output_file)
{
if (isset($which_output_file) && $which_output_file !== '')
$this->output_file = $which_output_file;
else
$this->output_file = NULL;
return TRUE;
}
/**
* Sets the output image to be inline, without HTTP headers
*
* This will suppress the Content-Type headers that would otherwise be sent.
*
* @param bool $which_ii True to suppress HTTP headers, False to include the headers
* @return bool True always
*/
function SetIsInline($which_ii)
{
$this->is_inline = (bool)$which_ii;
return TRUE;
}
/**
* Gets the MIME type and GD output function name for the current file type
*
* @param string $mime_type Reference variable where the MIME type is returned
* @param string $output_f Reference variable where the GD output function name is returned
* @return bool True (False on error if an error handler returns True)
* @since 5.5.0
*/
protected function GetImageType(&$mime_type, &$output_f)
{
switch ($this->file_format) {
case 'png':
$mime_type = 'image/png';
$output_f = 'imagepng';
break;
case 'jpg':
$mime_type = 'image/jpeg';
$output_f = 'imagejpeg';
break;
case 'gif':
$mime_type = 'image/gif';
$output_f = 'imagegif';
break;
case 'wbmp':
$mime_type = 'image/wbmp';
$output_f = 'imagewbmp';
break;
default:
// Report the error on PrintImage, because that is where this code used to be.
return $this->PrintError('PrintImage(): Please select an image type!');
}
return TRUE;
}
/**
* Tells the browser not to cache the image
*
* This is used by PrintImage, depending on SetBrowserCache(). It sends
* HTTP headers that discourage browser-side caching.
* Originally submitted by Thiemo Nagel. Modified to add more options based on mjpg-streamer.
*
* @return bool True always
* @since 5.8.0
*/
protected function DisableCaching()
{
header('Expires: Mon, 26 Jul 1997 05:00:00 GMT');
header('Last-Modified: ' . gmdate('D, d M Y H:i:s') . 'GMT');
header('Cache-Control: no-store, no-cache, must-revalidate, pre-check=0, post-check=0, max-age=0');
header('Pragma: no-cache');
return TRUE;
}
/**
* Outputs the generated image to standard output or to a file
*
* This is automatically called by DrawGraph(), unless SetPrintImage(False) was used.
*
* @return bool True always
*/
function PrintImage()
{
if (!$this->browser_cache && !$this->is_inline)
$this->DisableCaching();
// Get MIME type and GD output function name:
if (!$this->GetImageType($mime_type, $output_f)) return FALSE;
if (!$this->is_inline) {
Header("Content-type: $mime_type");
}
if ($this->is_inline && isset($this->output_file)) {
$output_f($this->img, $this->output_file);
} else {
$output_f($this->img);
}
return TRUE;
}
/**
* Returns the image data as raw data, base64 encoded, or data URL (see RFC2397)
*
* @param string $encoding Optional encoding to use: dataurl (default) | raw | base64
* @return string Encoded image data (False on error if error handler returns True)
* @since 5.5.0
*/
function EncodeImage($encoding = 'dataurl')
{
$enc = $this->CheckOption($encoding, 'dataurl, raw, base64', __FUNCTION__);
if (!$enc || !$this->GetImageType($mime_type, $output_f)) return FALSE;
ob_start();
$output_f($this->img);
switch ($enc) {
case 'raw':
return ob_get_clean();
case 'base64':
return base64_encode(ob_get_clean());
default: // 'dataurl', checked above.
return "data:$mime_type;base64,\n" . chunk_split(base64_encode(ob_get_clean()));
}
}
/**
* Draws a text message on the image, replacing the plot
*
* This is used for PHPlot error handling, and is available for
* application-level error handling or other special purposes.
* Options (keys in $options) are: draw_background draw_border force_print
* reset_font text_color text_wrap wrap_width.
* Default option values were chosen for fail-safe error-handling.
*
* @param string $text Text of the message to display in the image
* @param string[] $options Optional associative array of control options
* @return bool True always
* @since 5.7.0
*/
function DrawMessage($text, $options = NULL)
{
// Merge options with defaults, and set as local variables:
extract( array_merge( array(
'draw_background' => FALSE, // Draw image background per SetBgImage(), SetBackgroundColor()
'draw_border' => FALSE, // Draw image border as set with SetBorder*()
'force_print' => TRUE, // Ignore SetPrintImage() setting and always output
'reset_font' => TRUE, // Reset fonts (to avoid possible TTF error)
'text_color' => '', // If not empty, text color specification
'text_wrap' => TRUE, // Wrap the message text with wordwrap()
'wrap_width' => 75, // Width in characters for wordwrap()
), (array)$options));
// Do colors, background, and border:
if ($draw_border && !isset($this->ndx_i_border) || $draw_background && !isset($this->ndx_bg_color))
$this->SetBgColorIndexes();
if ($draw_background) { // User-specified background
$this->DrawBackground(TRUE); // TRUE means force overwriting of background
} else { // Default to plain white background
$bgcolor = imagecolorresolve($this->img, 255, 255, 255);
ImageFilledRectangle($this->img, 0, 0, $this->image_width, $this->image_height, $bgcolor);
}
if ($draw_border) $this->DrawImageBorder(TRUE);
if (empty($text_color)) $rgb = array(0, 0, 0);
else $rgb = $this->SetRGBColor($text_color);
$ndx_text_color = imagecolorresolve($this->img, $rgb[0], $rgb[1], $rgb[2]);
// Error images should reset fonts, to avoid chance of a TTF error when displaying an error.
if ($reset_font) $this->SetUseTTF(FALSE);
// Determine the space needed for the text, and center the text box within the image:
if ($text_wrap) $text = wordwrap($text, $wrap_width);
list($text_width, $text_height) = $this->SizeText('generic', 0, $text);
$x = max($this->safe_margin, ($this->image_width - $text_width) / 2);
$y = max($this->safe_margin, ($this->image_height - $text_height) / 2);
$this->DrawText('generic', 0, $x, $y, $ndx_text_color, $text, 'left', 'top');
if ($force_print || $this->print_image) $this->PrintImage();
return TRUE;
}
/**
* Handles a fatal error in PHPlot
*
* When a fatal error occurs (most often a parameter error in a function call),
* PHPlot will normally produce an image containing the error message,
* output the image, and then trigger a user-level error with the message.
* (The error message has to be presented as an image, because the browser is
* expecting an image.)
* If no error handler is set up, PHP will log the message and exit.
* If there is an error handler, and it returns TRUE, PrintError returns FALSE,
* and this will be passed back up to the calling code as a FALSE return.
*
* @param string $error_message Text of the error message
* @return bool False, but only if there is an error handler that returned TRUE.
*/
protected function PrintError($error_message)
{
// Be sure not to loop recursively, e.g. PrintError - PrintImage - PrintError.
if (isset($this->in_error)) return FALSE;
$this->in_error = TRUE;
// Output an image containing the error message:
if (!$this->suppress_error_image) {
// img will be empty if the error occurs very early - e.g. when allocating the image.
if (!empty($this->img)) {
$this->DrawMessage($error_message);
} elseif (!$this->is_inline) {
Header('HTTP/1.0 500 Internal Server Error');
}
}
trigger_error($error_message, E_USER_ERROR);
// This is only reached if the error handler returns TRUE
unset($this->in_error);
return FALSE;
}
/**
* Enables or disables error image production on failure
*
* @param bool $error_image True to enable the error image, False to disable it.
* @return bool True always
* @since 5.5.0
*/
function SetFailureImage($error_image)
{
$this->suppress_error_image = !$error_image;
return TRUE;
}
/**
* Begins a Motion-JPEG (or other type) plot stream
*
* @return bool True always
* @since 5.8.0
*/
function StartStream()
{
$this->GetImageType($mime_type, $this->stream_output_f);
$this->stream_boundary = "PHPlot-Streaming-Frame"; // Arbitrary MIME boundary
$this->stream_frame_header = "\r\n--$this->stream_boundary\r\nContent-Type: $mime_type\r\n";
$this->DisableCaching(); // Send headers to disable browser-side caching
header("Content-type: multipart/x-mixed-replace; boundary=\"$this->stream_boundary\"");
return TRUE;
}
/**
* Ends a Motion-JPEG (or other type) plot stream
*
* @return bool True always
* @since 5.8.0
*/
function EndStream()
{
echo "\r\n--$this->stream_boundary--\r\n";
flush();
return TRUE;
}
/**
* Outputs the generated plot as one frame in a plot stream
*
* @return bool True always
* @since 5.8.0
*/
function PrintImageFrame()
{
ob_start();
call_user_func($this->stream_output_f, $this->img);
$size = ob_get_length();
$frame = ob_get_clean();
echo $this->stream_frame_header, "Content-Length: $size\r\n\r\n", $frame, "\r\n";
flush();
// This gets the next DrawGraph() to do background and titles again.
$this->done = array();
return TRUE;
}
/////////////////////////////////////////////
/////////// LABELS
/////////////////////////////////////////////
/**
* Positions and controls X data labels
*
* For vertical plots, these are X axis data labels, showing label strings from the data array.
* Accepted positions are: plotdown, plotup, both, none.
* For horizontal plots, these are X data value labels, show the data values.
* Accepted positions are: plotin, plotstack, none.
*
* @param string $which_xdlp Desired label position: plotdown | plotup | both | none | plotin | plotstack
* @return bool True (False on error if an error handler returns True)
*/
function SetXDataLabelPos($which_xdlp)
{
$which_xdlp = $this->CheckOption($which_xdlp, 'plotdown, plotup, both, none, plotin, plotstack',
__FUNCTION__);
if (!$which_xdlp) return FALSE;
$this->x_data_label_pos = $which_xdlp;
return TRUE;
}
/**
* Positions and controls Y data labels
*
* For vertical plots, these are Y data value labels, showing the data values.
* Accepted positions are: plotin, plotstack, none.
* For horizontal plots, these are Y axis data labels, showing label strings from the data array.
* Accepted positions are: plotleft, plotright, both, none.
*
* @param string $which_ydlp Desired label position: plotleft | plotright | both | none | ...
* @return bool True (False on error if an error handler returns True)
*/
function SetYDataLabelPos($which_ydlp)
{
$which_ydlp = $this->CheckOption($which_ydlp, 'plotleft, plotright, both, none, plotin, plotstack',
__FUNCTION__);
if (!$which_ydlp) return FALSE;
$this->y_data_label_pos = $which_ydlp;
return TRUE;
}
/**
* Positions the X tick labels
*
* @param string $which_xtlp Desired label position: plotdown | plotup | both | none | xaxis
* @return bool True (False on error if an error handler returns True)
*/
function SetXTickLabelPos($which_xtlp)
{
$which_xtlp = $this->CheckOption($which_xtlp, 'plotdown, plotup, both, xaxis, none',
__FUNCTION__);
if (!$which_xtlp) return FALSE;
$this->x_tick_label_pos = $which_xtlp;
return TRUE;
}
/**
* Positions the Y tick labels
*
* @param string $which_ytlp Desired label position: plotleft | plotright | both | none | yaxis
* @return bool True (False on error if an error handler returns True)
*/
function SetYTickLabelPos($which_ytlp)
{
$which_ytlp = $this->CheckOption($which_ytlp, 'plotleft, plotright, both, yaxis, none',
__FUNCTION__);
if (!$which_ytlp) return FALSE;
$this->y_tick_label_pos = $which_ytlp;
return TRUE;
}
/**
* Sets the formatting type for tick, data, or pie chart labels
*
* This implements SetXLabelType(), SetYLabelType(), SetXYDataLabelType(), SetYDataLabelType(),
* and part of SetPieLabelType(). Those functions combine their arguments into an array and
* pass the array to this function as $args.
*
* $mode='x' or 'y' set the type for tick labels, and the default type for data labels
* if they are not separately configured. $mode='xd' or 'yd' set the type for data labels.
* $mode='p' sets the type for pie chart labels.
*
* $args[0] sets the formatting type: 'data' | 'time' | 'printf' | 'custom' | empty.
* If this is missing or empty, the default formatting for $mode is restored.
* Additional values in $args[] depend on the formatting type. All further paramters except
* for the callback are optional.
* For type='data': $args[1] = precision, $args[2] = prefix, $args[3] = suffix.
* For type 'time': $args[1] = format string for strftime().
* For type 'printf': $args[1:3] = 1, 2, or 3 format strings for sprintf().
* For type 'custom': $args[1] = the callback (required), $args[2] = pass-through argument.
*
* @param string $mode Which label type to configure: x | y | xd | yd | p
* @param array $args Additional arguments controlling the format type
* @return bool True (False on error if an error handler returns True)
*/
protected function SetLabelType($mode, $args)
{
if (!$this->CheckOption($mode, 'x, y, xd, yd, p', __FUNCTION__))
return FALSE;
$type = isset($args[0]) ? $args[0] : '';
$format = &$this->label_format[$mode]; // Shorthand reference to format storage variables
switch ($type) {
case 'data':
if (isset($args[1]))
$format['precision'] = $args[1];
elseif (!isset($format['precision']))
$format['precision'] = 1;
$format['prefix'] = isset($args[2]) ? $args[2] : '';
$format['suffix'] = isset($args[3]) ? $args[3] : '';
break;
case 'time':
if (isset($args[1]))
$format['time_format'] = $args[1];
elseif (!isset($format['time_format']))
$format['time_format'] = '%H:%M:%S';
break;
case 'printf':
if (isset($args[1]))
// Accept 1, 2, or 3 format strings (see FormatLabel)
$format['printf_format'] = array_slice($args, 1, 3);
elseif (!isset($format['printf_format']))
$format['printf_format'] = '%e';
break;
case 'custom':
if (isset($args[1])) {
$format['custom_callback'] = $args[1];
$format['custom_arg'] = isset($args[2]) ? $args[2] : NULL;
} else {
$type = ''; // Error, 'custom' without a function, set to no-format mode.
}
break;
case '':
case 'title': // Retained for backwards compatibility?
break;
default:
$this->CheckOption($type, 'data, time, printf, custom', __FUNCTION__);
$type = '';
}
$format['type'] = $type;
return (boolean)$type;
}
/**
* Sets formatting mode for X tick labels, and default for X data labels
*
* @param string $type Formatting mode: data | time | printf | custom, or '' to reset to default
* @param mixed $varargs One or more additional arguments that depend on $type
* @return bool True (False on error if an error handler returns True)
*/
function SetXLabelType($type=NULL, $varargs=NULL) // Variable arguments
{
$args = func_get_args();
return $this->SetLabelType('x', $args);
}
/**
* Sets formatting mode for X data labels (overriding any mode set with SetXLabelType)
*
* @param string $type Formatting mode: data | time | printf | custom, or '' to reset to default
* @param mixed $varargs One or more additional arguments that depend on $type
* @return bool True (False on error if an error handler returns True)
* @since 5.1.0
*/
function SetXDataLabelType($type=NULL, $varargs=NULL) // Variable arguments, named params are unused
{
$args = func_get_args();
return $this->SetLabelType('xd', $args);
}
/**
* Sets formatting mode for Y tick labels, and default for Y data labels
*
* @param string $type Formatting mode: data | time | printf | custom, or '' to reset to default
* @param mixed $varargs One or more additional arguments that depend on $type
* @return bool True (False on error if an error handler returns True)
*/
function SetYLabelType($type=NULL, $varargs=NULL) // Variable arguments, named params are unused
{
$args = func_get_args();
return $this->SetLabelType('y', $args);
}
/**
* Sets formatting mode for Y data labels (overriding any mode set with SetYLabelType)
*
* @param string $type Formatting mode: data | time | printf | custom, or '' to reset to default
* @param mixed $varargs One or more additional arguments that depend on $type
* @return bool True (False on error if an error handler returns True)
* @since 5.1.0
*/
function SetYDataLabelType($type=NULL, $varargs=NULL) // Variable arguments, named params are unused
{
$args = func_get_args();
return $this->SetLabelType('yd', $args);
}
/**
* Sets type and formatting mode for pie chart labels.
*
* @param string|string[] $source_ Label source keyword or array: percent | value | label | index | ''
* @param string $type Optional formatting mode: data | printf | custom
* @param mixed $varargs Zero or more additional arguments telling how to format the label
* @return bool True (False on error if an error handler returns True)
* @since 5.6.0
*/
function SetPieLabelType($source_, $type=NULL, $varargs=NULL) // Variable arguments, named params unused
{
$args = func_get_args();
$source = array_shift($args);
if (empty($source)) {
$this->pie_label_source = NULL; // Restore default
$args = array(''); // See below - tells SetLabelType to do no formatting or default.
} else {
$this->pie_label_source = $this->CheckOptionArray($source, 'percent, value, label, index',
__FUNCTION__);
if (empty($this->pie_label_source)) return FALSE;
}
return $this->SetLabelType('p', $args);
}
/**
* Sets the date/time formatting string for X labels
*
* This does not enable date/time formatting. For that you need to use
* SetXLabelType('time'). But since you can pass the formatting string
* to SetXLabelType() also, there is no need to use SetXTimeFormat().
*
* @param string $which_xtf Formatting string to use (see PHP function strftime())
* @return bool True always
*/
function SetXTimeFormat($which_xtf)
{
$this->label_format['x']['time_format'] = $which_xtf;
return TRUE;
}
/**
* Sets the date/time formatting string for Y labels
*
* This does not enable date/time formatting. For that you need to use
* SetYLabelType('time'). But since you can pass the formatting string
* to SetYLabelType() also, there is no need to use SetYTimeFormat().
*
* @param string $which_ytf Formatting string (see PHP function strftime())
* @return bool True always
*/
function SetYTimeFormat($which_ytf)
{
$this->label_format['y']['time_format'] = $which_ytf;
return TRUE;
}
/**
* Sets the separators used when formatting number labels
*
* Separators are used with 'data' label formatting. The defaults
* are set from the system locale (if available).
*
* @param string $decimal_point The character to use as a decimal point
* @param string $thousands_sep The character to use as a thousands grouping separator
* @return bool True always
* @since 5.0.4
*/
function SetNumberFormat($decimal_point, $thousands_sep)
{
$this->decimal_point = $decimal_point;
$this->thousands_sep = $thousands_sep;
return TRUE;
}
/**
* Sets the text angle for X tick labels, and the default angle for X data labels
*
* @param float $which_xla Desired angle for label text, in degrees
* @return bool True always
*/
function SetXLabelAngle($which_xla)
{
$this->x_label_angle = $which_xla;
return TRUE;
}
/**
* Sets the text angle for Y tick labels
*
* Note: Unlike SetXLabelAngle(), this does not also apply to data labels.
*
* @param float $which_yla Desired angle for label text, in degrees
* @return bool True always
*/
function SetYLabelAngle($which_yla)
{
$this->y_label_angle = $which_yla;
return TRUE;
}
/**
* Sets the text angle for X data labels (overriding an angle set with SetXLabelAngle)
*
* @param float $which_xdla Desired angle for label text, in degrees
* @return bool True always
* @since 5.1.0
*/
function SetXDataLabelAngle($which_xdla)
{
$this->x_data_label_angle_u = $which_xdla;
return TRUE;
}
/**
* Sets the angle for Y data labels
*
* @param float $which_ydla Desired angle for label text, in degrees
* @return bool True always
* @since 5.1.0
*/
function SetYDataLabelAngle($which_ydla)
{
$this->y_data_label_angle = $which_ydla;
return TRUE;
}
/////////////////////////////////////////////
/////////// MISC
/////////////////////////////////////////////
/**
* Checks the validity of an option (a multiple-choice function parameter)
*
* @param string $which_opt String to check, usually the provided value of a function argument
* @param string $which_acc String of accepted choices, lower-case, choices separated by comma space
* @param string $which_func Name of the calling function, for error messages, usually __FUNCTION__
* @return string|null Downcased/trimmed option value if valid; NULL on error if error handler returns
*/
protected function CheckOption($which_opt, $which_acc, $which_func)
{
$asked = strtolower(trim($which_opt));
// Look for the supplied value in a comma/space separated list.
if (strpos(", $which_acc,", ", $asked,") !== FALSE)
return $asked;
$this->PrintError("$which_func(): '$which_opt' not in available choices: '$which_acc'.");
return NULL;
}
/**
* Checks the validity of an array of options (multiple-choice function parameters)
*
* This is used to validate arguments to functions that accept either a single value
* or an array of values (example: SetPlotBorderType).
*
* @param string|string[] $opt String or array of strings to check
* @param string $acc String of accepted choices, lower-case, choices separated by comma space
* @param string $func Name of the calling function, for error messages, usually __FUNCTION__
* @return string[]|null Downcased/trimmed option values if valid; NULL on error if error handler returns
* @since 5.1.2
*/
protected function CheckOptionArray($opt, $acc, $func)
{
$opt_array = (array)$opt;
$result = array();
foreach ($opt_array as $option) {
$choice = $this->CheckOption($option, $acc, $func);
if (is_null($choice)) return NULL; // In case CheckOption error handler returns
$result[] = $choice;
}
return $result;
}
/**
* Checks for compatibility of the plot type and data type
*
* This is called by the plot-type-specific drawing functions, such as DrawBars().
* It checks to make sure that the current data type is supported by the
* drawing function.
*
* @param string $valid_types Valid data types, separated by comma space
* @return bool True if data type is valid; False on error if an error handler returns True
* @since 5.1.2
*/
protected function CheckDataType($valid_types)
{
if (strpos(", $valid_types,", ", $this->data_type,") !== FALSE)
return TRUE;
$this->PrintError("Data type '$this->data_type' is not valid for '$this->plot_type' plots."
. " Supported data type(s): '$valid_types'");
return FALSE;
}
/**
* Decodes the data type into variables used to determine how to process a data array
*
* This sets the 'datetype_*' class variables, which are used by other functions
* that need to access the data array. This keeps the information about the meaning
* of each data type in a single place (the datatypes static array).
* @since 5.1.2
*/
protected function DecodeDataType()
{
$v = &self::$datatypes[$this->data_type]; // Shortcut reference, already validated in SetDataType()
$this->datatype_implied = !empty($v['implied']); // X (Y for horizontal plots) is implied
$this->datatype_error_bars = !empty($v['error_bars']); // Has +error, -error values
$this->datatype_pie_single = !empty($v['pie_single']); // Single-row pie chart
$this->datatype_swapped_xy = !empty($v['swapped_xy']); // Horizontal plot with swapped X:Y
$this->datatype_yz = !empty($v['yz']); // Has a Z value for each Y
}
/**
* Validates the data array, making sure it is properly structured
*
* This function is used by DrawGraph() to make sure the data array is populated
* and each row is structured correctly, according to the data type.
*
* It also calculates data_columns, which is the maximum number of dependent
* variable values (usually Y) in the data array rows. (For pie charts, this is
* the number of slices.) It depends on the data_type, unlike records_per_group
* (which was previously used to pad style arrays, but is not accurate).
*
* Note error messages refer to the caller, the public DrawGraph().
*
* @return bool True (False on error if an error handler returns True)
* @since 5.1.3
*/
protected function CheckDataArray()
{
// Test for missing image, which really should never happen.
if (!$this->img) {
return $this->PrintError('DrawGraph(): No image resource allocated');
}
// Test for missing or empty data array:
if (empty($this->data) || !is_array($this->data)) {
return $this->PrintError("DrawGraph(): No data array");
}
if ($this->total_records == 0) {
return $this->PrintError('DrawGraph(): Empty data set');
}
// Decode the data type into functional flags.
$this->DecodeDataType();
// Calculate the maximum number of dependent values per independent value
// (e.g. Y for each X), or the number of pie slices. Also validate the rows.
$skip = $this->datatype_implied ? 1 : 2; // Skip factor for data label and independent variable
if ($this->datatype_error_bars) {
$this->data_columns = (int)(($this->records_per_group - $skip) / 3);
// Validate the data array for error plots: (label, X, then groups of Y, +err, -err):
for ($i = 0; $i < $this->num_data_rows; $i++) {
if ($this->num_recs[$i] < $skip || ($this->num_recs[$i] - $skip) % 3 != 0)
return $this->PrintError("DrawGraph(): Invalid $this->data_type data array (row $i)");
}
} elseif ($this->datatype_pie_single) {
$this->data_columns = $this->num_data_rows; // Special case for this type of pie chart.
// Validate the data array for text-data-single pie charts. Requires 1 value per row.
for ($i = 0; $i < $this->num_data_rows; $i++) {
if ($this->num_recs[$i] != 2)
return $this->PrintError("DrawGraph(): Invalid $this->data_type data array (row $i)");
}
} elseif ($this->datatype_yz) {
$this->data_columns = (int)(($this->records_per_group - $skip) / 2); // (y, z) pairs
// Validate the data array for plots using X, Y, Z: (label, X, then pairs of Y, Z)
for ($i = 0; $i < $this->num_data_rows; $i++) {
if ($this->num_recs[$i] < $skip || ($this->num_recs[$i] - $skip) % 2 != 0)
return $this->PrintError("DrawGraph(): Invalid $this->data_type data array (row $i)");
}
} else {
$this->data_columns = $this->records_per_group - $skip;
// Validate the data array for non-error plots:
for ($i = 0; $i < $this->num_data_rows; $i++) {
if ($this->num_recs[$i] < $skip)
return $this->PrintError("DrawGraph(): Invalid $this->data_type data array (row $i)");
}
}
return TRUE;
}
/**
* Controls browser-side image caching
*
* @param bool $which_browser_cache True to allow the browser to cache the image, false to not allow
* @return bool True always
*/
function SetBrowserCache($which_browser_cache)
{
$this->browser_cache = $which_browser_cache;
return TRUE;
}
/**
* Determines whether or not DrawGraph() automatically outputs the image when the plot is drawn
*
* @param bool $which_pi True to have DrawGraph() call PrintImage() when done, false to not output
* @return bool True always
*/
function SetPrintImage($which_pi)
{
$this->print_image = $which_pi;
return TRUE;
}
/**
* Sets how much of a border is drawn around the plot area
*
* The argument can be a single value, or any array of values, indicating
* which sides should get a border. 'full' means all 4 sides.
*
* @param string|string[] $pdt Border control keyword(s): left|right|top|bottom|sides|none|full
* @return bool True (False on error if an error handler returns True)
*/
function SetPlotBorderType($pbt)
{
$this->plot_border_type = $this->CheckOptionArray($pbt, 'left, right, top, bottom, sides, none, full',
__FUNCTION__);
return !empty($this->plot_border_type);
}
/**
* Sets the type of border drawn around the image
*
* @param string $sibt Border type: raised | solid | plain | none
* @return bool True (False on error if an error handler returns True)
*/
function SetImageBorderType($sibt)
{
$this->image_border_type = $this->CheckOption($sibt, 'raised, plain, solid, none', __FUNCTION__);
return (boolean)$this->image_border_type;
}
/**
* Sets the width of the image border, if enabled
*
* @param int $width Image border width in pixels
* @return bool True always
* @since 5.1.2
*/
function SetImageBorderWidth($width)
{
$this->image_border_width = $width;
return TRUE;
}
/**
* Enables or disables drawing of the plot area background color
*
* @param bool $dpab True to draw the plot area background color, false to not draw it
* @return bool True always
*/
function SetDrawPlotAreaBackground($dpab)
{
$this->draw_plot_area_background = (bool)$dpab;
return TRUE;
}
/**
* Enables or disables drawing of the X (vertical) grid lines
*
* @param bool $dxg True to draw the X grid lines, false to not draw them; or NULL to restore default
* @return bool True always
*/
function SetDrawXGrid($dxg = NULL)
{
$this->draw_x_grid = $dxg;
return TRUE;
}
/**
* Enables or disables drawing of the Y grid lines
*
* @param bool $dyg True to draw the Y grid lines, false to not draw them; or NULL to restore default
* @return bool True always
*/
function SetDrawYGrid($dyg = NULL)
{
$this->draw_y_grid = $dyg;
return TRUE;
}
/**
* Selects dashed or solid grid lines
*
* @param bool $ddg True to draw the grid with dashed lines, false to use solid lines
* @return bool True always
*/
function SetDrawDashedGrid($ddg)
{
$this->dashed_grid = (bool)$ddg;
return TRUE;
}
/**
* Enables or disables drawing of X data label lines
*
* @param bool $dxdl True to draw the X data label lines, false to not draw them
* @return bool True always
*/
function SetDrawXDataLabelLines($dxdl)
{
$this->draw_x_data_label_lines = (bool)$dxdl;
return TRUE;
}
/**
* Enables or disables drawing of Y data label Lines (horizontal plots only)
*
* @param bool $dydl True to draw the Y data label lines, false to not draw them
* @return bool True always
* @since 6.0.0
*/
function SetDrawYDataLabelLines($dydl)
{
$this->draw_y_data_label_lines = (bool)$dydl;
return TRUE;
}
/**
* Enables or disables drawing of borders around pie chart segments
*
* @param bool $dpb True to draw the pie chart segment borders, false to not draw them
* @return bool True always
* @since 6.0.0
*/
function SetDrawPieBorders($dpb)
{
$this->draw_pie_borders = (bool)$dpb;
return TRUE;
}
/**
* Enables or disables drawing of data borders for plot types that support them
*
* For plot types which support data borders, such as 'bars', this enables
* or disables them. The default depends on the plot type.
*
* @param bool $ddb True to draw the data borders, false to not draw them
* @return bool True always
* @since 6.0.0
*/
function SetDrawDataBorders($ddb)
{
$this->draw_data_borders = (bool)$ddb;
return TRUE;
}
/**
* Sets the main title text for the plot
*
* @param string $which_title The text to use for the main plot title. Can contain multiple lines
* @return bool True always
*/
function SetTitle($which_title)
{
$this->title_txt = $which_title;
return TRUE;
}
/**
* Sets the X axis title, and optionally its position
*
* Sets the text to be displayed as the X axis title. Optionally, it
* also sets the position of the title and the axis itself: below the
* graph (the usual place), above the graph, both, or neither.
*
* @param string $which_xtitle The text string to use for the X axis title. Can contain multiple lines
* @param string $which_xpos Optional position for the X axis and title: plotdown plotup both none
* @return bool True (False on error if an error handler returns True)
*/
function SetXTitle($which_xtitle, $which_xpos = 'plotdown')
{
if (!($which_xpos = $this->CheckOption($which_xpos, 'plotdown, plotup, both, none', __FUNCTION__)))
return FALSE;
if (($this->x_title_txt = $which_xtitle) === '')
$this->x_title_pos = 'none';
else
$this->x_title_pos = $which_xpos;
return TRUE;
}
/**
* Sets the Y axis title, and optionally its position
*
* Sets the text to be displayed as the Y axis title. Optionally, it
* also sets the position of the title and the axis itself: on the left
* side of the graph (the usual place), on the right side, both, or neither.
*
* @param string $which_ytitle The text string to use for the Y axis title. Can contain multiple lines
* @param string $which_ypos Optional position for the X axis and title: plotleft plotright both none
* @return bool True (False on error if an error handler returns True)
*/
function SetYTitle($which_ytitle, $which_ypos = 'plotleft')
{
if (!($which_ypos = $this->CheckOption($which_ypos, 'plotleft, plotright, both, none', __FUNCTION__)))
return FALSE;
if (($this->y_title_txt = $which_ytitle) === '')
$this->y_title_pos = 'none';
else
$this->y_title_pos = $which_ypos;
return TRUE;
}
/**
* Sets the size of the drop shadow for bar and pie charts
*
* Sets the size in pixels of the drop shadow used to give bar and pie
* charts a 3-D look. The 3-D look can be disabled by setting the shading
* to zero.
*
* @param int $which_s Size of the drop shadow in pixels
* @return bool True always
*/
function SetShading($which_s)
{
$this->shading = (int)$which_s;
return TRUE;
}
/**
* Selects the type of plot - how the data will be graphed
*
* @param string $which_pt The plot type, such as bars, lines, pie, ...
* @return bool True (False on error if an error handler returns True)
*/
function SetPlotType($which_pt)
{
$avail_plot_types = implode(', ', array_keys(self::$plots)); // List of known plot types
$this->plot_type = $this->CheckOption($which_pt, $avail_plot_types, __FUNCTION__);
return (boolean)$this->plot_type;
}
/**
* Sets the position of the X axis
*
* @param float $pos Axis position as an integer Y world coordinate; '' or omit for default
* @return bool True always
*/
function SetXAxisPosition($pos='')
{
$this->x_axis_position = ($pos === '') ? NULL : (int)$pos;
return TRUE;
}
/**
* Sets the position of the Y axis
*
* @param float $pos Axis position as an integer X world coordinate; '' or omit for default
* @return bool True always
*/
function SetYAxisPosition($pos='')
{
$this->y_axis_position = ($pos === '') ? NULL : (int)$pos;
return TRUE;
}
/**
* Enables or disables drawing of the X axis line
*
* Note: This controls drawing of the axis line only, and not the ticks, labels, or grid.
*
* @param bool $draw True to draw the axis line, False to not draw it
* @return bool True always
* @since 5.3.0
*/
function SetDrawXAxis($draw)
{
$this->suppress_x_axis = !$draw; // See DrawXAxis()
return TRUE;
}
/**
* Enables or disables drawing of the Y axis line
*
* Note: This controls drawing of the axis line only, and not the ticks, labels, or grid.
*
* @param bool $draw True to draw the axis line, False to not draw it
* @return bool True always
* @since 5.3.0
*/
function SetDrawYAxis($draw)
{
$this->suppress_y_axis = !$draw; // See DrawYAxis()
return TRUE;
}
/**
* Selects linear or logarithmic scale for the X axis
*
* @param string $which_xst The scale type: linear | log
* @return bool True (False on error if an error handler returns True)
*/
function SetXScaleType($which_xst)
{
$this->xscale_type = $this->CheckOption($which_xst, 'linear, log', __FUNCTION__);
return (boolean)$this->xscale_type;
}
/**
* Selects linear or logarithmic scale for the Y axis
*
* @param string $which_yst The scale type: linear | log
* @return bool True (False on error if an error handler returns True)
*/
function SetYScaleType($which_yst)
{
$this->yscale_type = $this->CheckOption($which_yst, 'linear, log', __FUNCTION__);
return (boolean)$this->yscale_type;
}
/**
* Sets the precision for numerically formatted X labels
*
* Note: Use of the equivalent SetXLabelType('data', $which_prec) is preferred.
*
* @param int $which_prec Number of digits to display
* @return bool True (False on error if an error handler returns True)
*/
function SetPrecisionX($which_prec)
{
return $this->SetXLabelType('data', $which_prec);
}
/**
* Sets the precision for numerically formatted Y labels
*
* Note: Use of the equivalent SetYLabelType('data', $which_prec) is preferred.
*
* @param int $which_prec Number of digits to display
* @return bool True (False on error if an error handler returns True)
*/
function SetPrecisionY($which_prec)
{
return $this->SetYLabelType('data', $which_prec);
}
/**
* Sets the line width used for error bars
*
* @param int $which_seblw Desired width in pixels of the lines used to draw error bars
* @return bool True always
*/
function SetErrorBarLineWidth($which_seblw)
{
$this->error_bar_line_width = $which_seblw;
return TRUE;
}
/**
* Sets the position for pie chart labels
*
* @param float $which_blp Label position factor (0 <= blp <= 1); 0 or False for no labels
* @return bool True always
*/
function SetLabelScalePosition($which_blp)
{
$this->label_scale_position = $which_blp;
return TRUE;
}
/**
* Sets the size of the error bar tee
*
* @param int $which_ebs Length in pixels of the error bar "T"
* @return bool True always
*/
function SetErrorBarSize($which_ebs)
{
$this->error_bar_size = $which_ebs;
return TRUE;
}
/**
* Selects the shape of the error bars
*
* @param string $which_ebs Error bar shape: tee | line
* @return bool True (False on error if an error handler returns True)
*/
function SetErrorBarShape($which_ebs)
{
$this->error_bar_shape = $this->CheckOption($which_ebs, 'tee, line', __FUNCTION__);
return (boolean)$this->error_bar_shape;
}
/**
* Synchronizes the lengths of the point shapes and point sizes arrays
*
* This pads the smaller of $point_shapes[] and $point_sizes[], making them the same size.
* It is called just before drawing any plot that needs 'points'.
* @since 5.1.0
*/
protected function CheckPointParams()
{
$ps = count($this->point_sizes);
$pt = count($this->point_shapes);
if ($ps < $pt) {
$this->pad_array($this->point_sizes, $pt);
$this->point_counts = $pt;
} elseif ($ps > $pt) {
$this->pad_array($this->point_shapes, $ps);
$this->point_counts = $ps;
} else {
$this->point_counts = $ps;
}
}
/**
* Selects the point shape for each data set
*
* Valid point shapes are known here and in DrawShape(). Includes: circle | dot | diamond | ...
* The point shape and point sizes arrays are synchronized before drawing a graph
* that uses points. See CheckPointParams()
*
* @param string|string[] $which_pt Array (or single value) of valid point shapes
* @return bool True (False on error if an error handler returns True)
*/
function SetPointShapes($which_pt)
{
$this->point_shapes = $this->CheckOptionArray($which_pt, 'halfline, line, plus, cross, rect,'
. ' circle, dot, diamond, triangle, trianglemid, delta, yield, star, hourglass,'
. ' bowtie, target, box, home, up, down, none', __FUNCTION__);
return !empty($this->point_shapes);
}
/**
* Sets the point size for each data set
*
* The point shape and point sizes arrays are synchronized before drawing a graph
* that uses points. See CheckPointParams()
*
* @param string[]|string $which_ps Array (or single value) of point sizes in pixels
* @return bool True always
*/
function SetPointSizes($which_ps)
{
if (is_array($which_ps)) {
// Use provided array:
$this->point_sizes = $which_ps;
} elseif (!is_null($which_ps)) {
// Make the single value into an array:
$this->point_sizes = array($which_ps);
}
return TRUE;
}
/**
* Sets whether lines should be broken at missing data, for 'lines' and 'squared' plots.
*
* @param bool $bl True to break the lines, false to connect around missing data
* @return bool True always
*/
function SetDrawBrokenLines($bl)
{
$this->draw_broken_lines = (bool)$bl;
return TRUE;
}
/**
* Sets the data type, which defines the structure of the data array
*
* For a list of available data types, see the static arrays $datatypes and $datatypes_map.
*
* @param string $which_dt The data array format type: text-data | data-data | ...
* @return bool True (False on error if an error handler returns True)
*/
function SetDataType($which_dt)
{
// Handle data type aliases - mostly for backward compatibility:
if (isset(self::$datatypes_map[$which_dt]))
$which_dt = self::$datatypes_map[$which_dt];
// Validate the datatype argument against the available data types:
$valid_data_types = implode(', ', array_keys(self::$datatypes));
$this->data_type = $this->CheckOption($which_dt, $valid_data_types, __FUNCTION__);
return (boolean)$this->data_type;
}
/**
* Sets the data array for plotting
*
* This copy the array of data values, converting rows to numerical indexes.
* It also validates that the array uses 0-based sequential integer indexes,
* and that each array value (row) is another array. Other validation is
* deferred to CheckDataArray().
*
* @param array $which_dv The data array, an array of row arrays, interpreted per SetDataType()
* @return bool True (False on error if an error handler returns True)
*/
function SetDataValues($which_dv)
{
$this->num_data_rows = count($which_dv);
$this->total_records = 0;
$this->data = array();
$this->num_recs = array();
for ($i = 0; $i < $this->num_data_rows; $i++) {
if (!isset($which_dv[$i]) || !is_array($which_dv[$i])) {
return $this->PrintError("SetDataValues(): Invalid data array (row $i)");
}
$this->data[$i] = array_values($which_dv[$i]); // convert to numerical indices.
// Count size of each row, and total for the array.
$this->total_records += $this->num_recs[$i] = count($this->data[$i]);
}
// This is the size of the widest row in the data array
// Note records_per_group isn't used much anymore. See data_columns in CheckDataArray()
$this->records_per_group = empty($this->num_recs) ? 0 : max($this->num_recs);
return TRUE;
}
/**
* Pads the style arrays so they are large enough for the number of data sets
*
* The style arrays to be padded are line_widths, line_styles, data_colors, data_border_colors.
* This ensures they have at least $data_columns entries (maximum number of data sets), which
* simplifies the plot drawing functions.
* Other data color arrays are handled in the Need*Colors() functions instead (if needed).
*
* @return bool True always
*/
protected function PadArrays()
{
$this->pad_array($this->line_widths, $this->data_columns);
$this->pad_array($this->line_styles, $this->data_columns);
$this->pad_array($this->ndx_data_colors, $this->data_columns);
$this->pad_array($this->ndx_data_border_colors, $this->data_columns);
return TRUE;
}
/**
* Pads an array with copies of itself until it reaches the given size
*
* pad_array only works on 0-based sequential integer indexed arrays. It also
* accepts a scalar, which is first converted to a single element array.
* Elements of the array are appended until it reaches the given size.
*
* @param array|mixed $arr Reference variable for the array (or scalar) to pad
* @param int $size Minimum size of the resulting array
*/
protected function pad_array(&$arr, $size)
{
if (! is_array($arr)) {
$arr = array($arr);
}
$n = count($arr);
$base = 0;
while ($n < $size) $arr[$n++] = $arr[$base++];
}
/**
* Formats a floating point number, with decimal separator and thousands groups separator
*
* This is like PHP's number_format, but uses class variables for separators, and tries to
* get the separators from the current locale.
* Note: The locale is saved and reset after getting the values. This is needed due to an issue with
* PHP (see PHP bug 45365 and others): It uses a locale-specific decimal separator when converting
* numbers to strings, but fails to convert back if the separator is other than dot. This would cause
* pie chart labels to fail with "A non well formed numeric value encountered".
*
* @param float $number A floating point number to format
* @param int $decimals Number of decimal places in the result
* @return string The formatted result
*/
protected function number_format($number, $decimals=0)
{
// Try to get the proper decimal and thousands separators if they are not already set.
if (!isset($this->decimal_point, $this->thousands_sep)) {
// Load locale-specific values from environment, unless disabled (for testing):
if (!$this->locale_override) {
$save_locale = @setlocale(LC_NUMERIC, '0');
@setlocale(LC_NUMERIC, '');
}
// Fetch locale settings:
$locale = @localeconv();
// Restore locale. (See note above.)
if (!empty($save_locale)) @setlocale(LC_NUMERIC, $save_locale);
if (isset($locale['decimal_point'], $locale['thousands_sep'])) {
$this->decimal_point = $locale['decimal_point'];
$this->thousands_sep = $locale['thousands_sep'];
} else {
// Locale information not available.
$this->decimal_point = '.';
$this->thousands_sep = ',';
}
}
return number_format($number, $decimals, $this->decimal_point, $this->thousands_sep);
}
/**
* Registers a callback (hook) function
*
* See the $callbacks array (class property) for the available callback names
*
* @param string $reason A pre-defined name where a callback can be defined
* @param callback $function Function or method to register for callback
* @param mixed $arg Optional opaque argument to supply to the callback function when called
* @return bool True if the callback reason is valid, else False
* @since 5.0.4
*/
function SetCallback($reason, $function, $arg = NULL)
{
// Use array_key_exists because valid reason keys have NULL as value.
if (!array_key_exists($reason, $this->callbacks))
return FALSE;
$this->callbacks[$reason] = array($function, $arg);
return TRUE;
}
/**
* Returns the current callback function registered for the given reason
*
* Note you can safely test the return value with a simple 'if', as no valid
* function name evaluates to false. PHPlot uses if (GetCallback(...)) to
* to avoid preparing arguments to an unused callback.
*
* @param string $reason A pre-defined name where a callback can be defined
* @return callback|false The current callback for the reason; False if none or invalid
* @since 5.0.4
*/
function GetCallback($reason)
{
if (isset($this->callbacks[$reason]))
return $this->callbacks[$reason][0];
return FALSE;
}
/**
* Un-registers any callback registered for the given reason
*
* Note: A True return means $reason is valid; it does not mean a callback
* was actually registered for that reason.
*
* @param string $reason A pre-defined name where a callback can be defined
* @return bool True if it was a valid callback reason, else False
* @since 5.0.4
*/
function RemoveCallback($reason)
{
if (!array_key_exists($reason, $this->callbacks))
return FALSE;
$this->callbacks[$reason] = NULL;
return TRUE;
}
/**
* Invokes a callback function, if one is registered
*
* Callbacks are called like this: callback_function($image, $passthru, [$arg,...])
* Here $passthru is the argument specified when the callback was defined by SetCallback()
* and is under control of the application. $arg... is zero or more additional arguments
* specified when then callback is called. These are under control of PHPlot itself.
*
* @param string $reason A string naming one of the pre-defined callback reasons
* @param mixed $varargs Zero or more additional arguments to be passed to the callback
* @return mixed Whatever value is returned by the callback function (if any)
*/
protected function DoCallback($reason, $varargs = NULL)
{
if (!isset($this->callbacks[$reason]))
return;
$args = func_get_args();
// Make the argument vector $args[] look like: $image, $passthru, [$arg...]
list($function, $args[0]) = $this->callbacks[$reason];
array_unshift($args, $this->img);
return call_user_func_array($function, $args);
}
/**
* Allocates colors for the image background and image border
*
* This is separate from SetColorIndexes() below so that DrawMessage can use it.
*
* @since 5.7.0
*/
protected function SetBgColorIndexes()
{
$this->ndx_bg_color = $this->GetColorIndex($this->bg_color); // Background first
$this->ndx_plot_bg_color = $this->GetColorIndex($this->plot_bg_color);
if ($this->image_border_type != 'none') {
$this->ndx_i_border = $this->GetColorIndex($this->i_border);
$this->ndx_i_border_dark = $this->GetDarkColorIndex($this->i_border);
}
}
/**
* Allocates all the colors needed for the plot
*
* This is called by DrawGraph to allocate the colors needed for the plot. Each selectable
* color has already been validated, parsed into an array (r,g,b,a), and stored into a member
* variable. Now the GD color indexes are assigned and stored into the ndx_*_color variables.
* This is deferred here to avoid allocating unneeded colors and to avoid order dependencies,
* especially with the transparent color.
*
* For drawing data elements, only the main data colors and border colors are allocated here.
* Dark colors and error bar colors are allocated by Need*Color() functions.
* (Data border colors default to just black, so there is no cost to always allocating.)
*
* Data color allocation works as follows. If there is a data_color callback, then allocate all
* defined data colors (because the callback can use them however it wants). Otherwise, only allocate
* the number of colors that will be used. This is the larger of the number of data sets and the
* number of legend lines.
*
* @since 5.2.0
*/
protected function SetColorIndexes()
{
$this->SetBgColorIndexes(); // Background and border colors
// Handle defaults for X and Y title colors.
$this->ndx_title_color = $this->GetColorIndex($this->title_color);
$this->ndx_x_title_color = $this->GetColorIndex($this->x_title_color, $this->ndx_title_color);
$this->ndx_y_title_color = $this->GetColorIndex($this->y_title_color, $this->ndx_title_color);
// General text color, which is the default color for tick and data labels unless overridden.
$this->ndx_text_color = $this->GetColorIndex($this->text_color);
$this->ndx_ticklabel_color = $this->GetColorIndex($this->ticklabel_color, $this->ndx_text_color);
$this->ndx_datalabel_color = $this->GetColorIndex($this->datalabel_color, $this->ndx_text_color);
$this->ndx_dvlabel_color = $this->GetColorIndex($this->dvlabel_color, $this->ndx_datalabel_color);
$this->ndx_grid_color = $this->GetColorIndex($this->grid_color);
$this->ndx_light_grid_color = $this->GetColorIndex($this->light_grid_color);
$this->ndx_tick_color = $this->GetColorIndex($this->tick_color);
// Pie label and border colors default to grid color, for historical reasons (PHPlot <= 5.6.1)
$this->ndx_pielabel_color = $this->GetColorIndex($this->pielabel_color, $this->ndx_grid_color);
$this->ndx_pieborder_color = $this->GetColorIndex($this->pieborder_color, $this->ndx_grid_color);
// Maximum number of data & border colors to allocate:
if ($this->GetCallback('data_color')) {
$n_data = count($this->data_colors); // Need all of them
$n_border = count($this->data_border_colors);
} else {
$n_data = max($this->data_columns, empty($this->legend) ? 0 : count($this->legend));
$n_border = $n_data; // One border color per data color
}
// Allocate main data colors. For other colors used for data, see the functions which follow.
$this->ndx_data_colors = $this->GetColorIndexArray($this->data_colors, $n_data);
$this->ndx_data_border_colors = $this->GetColorIndexArray($this->data_border_colors, $n_border);
// Legend colors: background defaults to image background, text defaults to general text color.
$this->ndx_legend_bg_color = $this->GetColorIndex($this->legend_bg_color, $this->ndx_bg_color);
$this->ndx_legend_text_color = $this->GetColorIndex($this->legend_text_color, $this->ndx_text_color);
// Set up a color as transparent, if SetTransparentColor was used.
if (!empty($this->transparent_color)) {
imagecolortransparent($this->img, $this->GetColorIndex($this->transparent_color));
}
}
/**
* Allocates dark-shade data colors used for shading
*
* This is called if needed by graph drawing functions that need shading.
*
* @since 5.2.0
*/
protected function NeedDataDarkColors()
{
// This duplicates the calculation in SetColorIndexes() for number of data colors to allocate.
if ($this->GetCallback('data_color')) {
$n_data = count($this->data_colors);
} else {
$n_data = max($this->data_columns, empty($this->legend) ? 0 : count($this->legend));
}
$this->ndx_data_dark_colors = $this->GetDarkColorIndexArray($this->data_colors, $n_data);
$this->pad_array($this->ndx_data_dark_colors, $this->data_columns);
}
/**
* Allocates error bar colors
*
* This is called if needed by graph drawing functions that draw error bars.
*
* @since 5.2.0
*/
protected function NeedErrorBarColors()
{
// This is similar to the calculation in SetColorIndexes() for number of data colors to allocate.
if ($this->GetCallback('data_color')) {
$n_err = count($this->error_bar_colors);
} else {
$n_err = max($this->data_columns, empty($this->legend) ? 0 : count($this->legend));
}
$this->ndx_error_bar_colors = $this->GetColorIndexArray($this->error_bar_colors, $n_err);
$this->pad_array($this->ndx_error_bar_colors, $this->data_columns);
}
/**
* Selects the best alignment for text, based on its vector angle from a point
*
* This picks one of 8 alignments (horizontal = left, center, or right; vertical = top, center
* or bottom; but never center/center) for text that needs to be close to a point but directed
* away from the point. The angle of the vector from the reference point determines the alignment.
*
* How it works: Picture a unit circle with 16 slices of 22.5 degrees each.
* Draw horizontal lines at the 22.5 degree and -22.5 degree positions on the circle.
* Text above the upper line will have 'bottom' vertical alignment; below the lower line will
* have 'top' vertical alignment, and between the lines will have 'center' vertical alignment.
* Horizontal alignment is similar, using +/- 22.5 degrees from vertical.
*
* @param float $sin_t sin() of the angle of the text offset from a reference point
* @param float $cos_t cos() of the angle of the text offset from a reference point
* @param string $h_align Reference variable to get the horizontal alignment, for DrawText()
* @param string $v_align Reference variable to get the vertical alignment, for DrawText()
* @param bool $reverse True to reverse the alignment, e.g. for text inside an ellipse
* @since 5.6.0
*/
protected function GetTextAlignment($sin_t, $cos_t, &$h_align, &$v_align, $reverse = FALSE)
{
if ($reverse) { // Return the opposite alignment, align(T-180) vs align(T)
$sin_t = -$sin_t; // sin(T-180) = -sin(T)
$cos_t = -$cos_t; // cos(T-180) = -cos(T)
}
if ($sin_t >= 0.383) $v_align = 'bottom'; // 0.383 = sin(22.5 degrees)
elseif ($sin_t >= -0.383) $v_align = 'center';
else $v_align = 'top';
if ($cos_t >= 0.383) $h_align = 'left'; // 0.383 = cos(90 - 22.5 degrees)
elseif ($cos_t >= -0.383) $h_align = 'center';
else $h_align = 'right';
}
/**
* Determines if and where to draw Data Value Labels
*
* This is called by plot drawing functions that support Data Value Labels (other
* than bars and stackedbars, which have their own way of doing it). If those
* labels are on, it returns True and sets 4 keys in $dvl[] which are used by
* DrawDataValueLabel to position the label: x_offset, y_offset = pixel offsets
* for the label; h_align, v_align = text alignment choices.
* It uses two member variables: data_value_label_angle and data_value_label_distance
* to define the vector to the label.
*
* @param string $label_control Label position control; either $x_data_label_pos or $y_data_label_pos
* @param array $dvl Reference argument for result parameters for DrawDataValueLabel()
* @return bool False if data value labels are off; True if on and $dvl is set
* @since 5.3.0
*/
protected function CheckDataValueLabels($label_control, &$dvl)
{
if ($label_control != 'plotin')
return FALSE; // No data value labels
$angle = deg2rad($this->data_value_label_angle);
$cos = cos($angle);
$sin = sin($angle);
$dvl['x_offset'] = (int)($this->data_value_label_distance * $cos);
$dvl['y_offset'] = -(int)($this->data_value_label_distance * $sin); // Y is reversed (device coords)
// Choose text alignment based on angle:
$this->GetTextAlignment($sin, $cos, $dvl['h_align'], $dvl['v_align']);
return TRUE;
}
/**
* Enables or disables automatic pie chart size calculation
*
* If autosize is disabled, PHPlot uses the full plot area (as PHPlot-5.5.0
* and earlier always did). Note the flag pie_full_size is unset by default,
* and stores the complement of $enable.
*
* @param bool $enable True to enable automatic size calculation, False to use the maximum area
* @return bool True always
* @since 5.6.0
*/
function SetPieAutoSize($enable)
{
$this->pie_full_size = !$enable;
return TRUE;
}
/**
* Sets the starting angle for pie chart segments
*
* @param float $angle Starting angle in degrees
* @return bool True always
* @since 6.0.0
*/
function SetPieStartAngle($angle)
{
$this->pie_start_angle = $angle;
return TRUE;
}
/**
* Sets the direction for pie chart segments
*
* @param string $which Direction for pie segments: clockwise | cw | counterclockwise | ccw
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function SetPieDirection($which)
{
$control = $this->CheckOption($which, 'clockwise, cw, counterclockwise, ccw', __FUNCTION__);
if (empty($control)) return FALSE;
$this->pie_direction_cw = ($control == 'clockwise' || $control == 'cw');
return TRUE;
}
//////////////////////////////////////////////////////////
/////////// DATA ANALYSIS, SCALING AND TRANSLATION
//////////////////////////////////////////////////////////
/**
* Analyzes the data array and calculates the minimum and maximum values
*
* In this function, IV refers to the independent variable, and DV the dependent
* variable. For vertical plots (most common), IV is X and DV is Y. For
* horizontal plots (swapped X/Y), IV is Y and DV is X. At the end of the
* function, IV and DV ranges get assigned into X or Y variables.
*
* The data type mostly determines the data array structure, but some plot types
* do special things such as sum the values in a row. This information is in the
* plots[] array.
*
* This calculates min_x, max_x, min_y, and max_y. It also calculates two arrays
* data_min[] and data_max[] with per-row min and max values. These are used for
* data label lines. For vertical plots, these are the Y range for each X. For
* vertical (swapped X/Y) plots, they are the X range for each Y. For X/Y/Z
* plots, it also calculates min_z and max_z.
*
* @return bool True always
*/
protected function FindDataLimits()
{
// Does this plot type need special processing of the data values?
$sum_vals = !empty(self::$plots[$this->plot_type]['sum_vals']); // Add up values in each row
$abs_vals = !empty(self::$plots[$this->plot_type]['abs_vals']); // Take absolute values
// Initialize arrays which track the min/max per-row dependent values:
$this->data_min = array();
$this->data_max = array();
// Independent values are in the data array or assumed?
if ($this->datatype_implied) {
// Range for text-data is 0.5 to num_data_rows-0.5. Add 0.5 fixed margins on each side.
$all_iv = array(0, $this->num_data_rows);
} else {
$all_iv = array(); // Calculated below
}
// For X/Y/Z plots, make sure these are not left over from a previous plot.
if ($this->datatype_yz)
$this->min_z = $this->max_z = NULL;
// Process all rows of data:
for ($i = 0; $i < $this->num_data_rows; $i++) {
$n_vals = $this->num_recs[$i];
$j = 1; // Skips label at [0]
if (!$this->datatype_implied) {
$all_iv[] = (double)$this->data[$i][$j++];
}
if ($sum_vals) {
$all_dv = array(0, 0); // One limit is 0, other calculated below
} else {
$all_dv = array();
}
while ($j < $n_vals) {
if (is_numeric($val = $this->data[$i][$j++])) {
if ($this->datatype_error_bars) {
$all_dv[] = $val + (double)$this->data[$i][$j++];
$all_dv[] = $val - (double)$this->data[$i][$j++];
} else {
if ($abs_vals) {
$val = abs($val); // Use absolute values
}
if ($sum_vals) {
$all_dv[1] += $val; // Sum of values
} else {
$all_dv[] = $val; // List of all values
}
if ($this->datatype_yz) {
$z = $this->data[$i][$j++]; // Note Z is required if Y is present.
if (!isset($this->min_z) || $z < $this->min_z) $this->min_z = $z;
if (!isset($this->max_z) || $z > $this->max_z) $this->max_z = $z;
}
}
} else { // Missing DV value
if ($this->datatype_error_bars) $j += 2;
elseif ($this->datatype_yz) $j++;
}
}
if (!empty($all_dv)) {
$this->data_min[$i] = min($all_dv); // Store per-row DV range
$this->data_max[$i] = max($all_dv);
}
}
if ($this->datatype_swapped_xy) {
// Assign min and max for swapped X/Y plots: IV=Y and DV=X
$this->min_y = min($all_iv);
$this->max_y = max($all_iv);
if (empty($this->data_min)) { // Guard against regressive case: No X at all
$this->min_x = 0;
$this->max_x = 0;
} else {
$this->min_x = min($this->data_min); // Store global X range
$this->max_x = max($this->data_max);
}
} else {
// Assign min and max for normal plots: IV=X and DV=Y
$this->min_x = min($all_iv);
$this->max_x = max($all_iv);
if (empty($this->data_min)) { // Guard against regressive case: No Y at all
$this->min_y = 0;
$this->max_y = 0;
} else {
$this->min_y = min($this->data_min); // Store global Y range
$this->max_y = max($this->data_max);
}
}
// For X/Y/Z plots, make sure these are set. If there are no valid data values,
// they will be unset, so set them here to prevent undefined property warnings.
if ($this->datatype_yz && !isset($this->min_z)) { // Means max_z is also unset
$this->max_z = $this->min_z = 0; // Actual values do not matter.
}
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'min_x' => $this->min_x, 'min_y' => $this->min_y,
'max_x' => $this->max_x, 'max_y' => $this->max_y,
'min_z' => isset($this->min_z) ? $this->min_z : '',
'max_z' => isset($this->max_z) ? $this->max_z : ''));
}
return TRUE;
}
/**
* Calculates the plot area margin size and related positions and offsets
*
* Calculates the title sizes: title_height, x_title_height, and y_title_width.
* These are local, not class variables, since they are only used here.
* The X and Y title size variables are 0 if there is no corresponding title.
*
* Calculates the tick label and axis data label offsets, relative to the plot
* area: x_label_top_offset, x_label_bot_offset, x_label_axis_offset,
* y_label_left_offset, y_label_right_offset, and y_label_axis_offset.
*
* Calculates the title position offsets, relative to the plot area:
* x_title_top_offset, x_title_bot_offset, y_title_left_offset, and
* y_title_left_offset. Also calculates the main title offset, which is relative
* to the top of the image.
*
* Finally, calculates the plot area margins using the above to figure out how
* much space outside the plot area is needed. The class variables are:
* y_top_margin, y_bot_margin, x_left_margin, and x_right_margin. All 4 margins
* are calculated, but only those not set with SetPlotAreaPixels() or
* SetMarginsPixels() are stored into the class variables.
*
* A plot with $minimize True, such as a pie chart, does not have an X or Y axis
* or X/Y titles, and so can use more of the image space.
*
* A picture of the locations of elements and spacing can be found in the
* PHPlot Reference Manual.
*
* @param bool $maximize If True, use full image area (less margins and title space)
* @return bool True always
*/
protected function CalcMargins($maximize)
{
// This is the line-to-line or line-to-text spacing:
$gap = $this->safe_margin;
// Initial margin on each side takes into account a possible image border.
// For compatibility, if border is 1 or 2, don't increase the margins.
$base_margin = max($gap, $this->GetImageBorderWidth() + 3);
$this->title_offset = $base_margin; // For use in DrawTitle
// Minimum margin on each side. This reduces the chance that the
// right-most tick label (for example) will run off the image edge
// if there are no titles on that side.
$min_margin = 2 * $gap + $base_margin;
// Calculate the title sizes (main here, axis titles below):
list($unused, $title_height) = $this->SizeText('title', 0, $this->title_txt);
// Special case for maximum area usage with no X/Y titles or labels, only main title:
if ($maximize) {
if (!isset($this->x_left_margin))
$this->x_left_margin = $base_margin;
if (!isset($this->x_right_margin))
$this->x_right_margin = $base_margin;
if (!isset($this->y_top_margin)) {
$this->y_top_margin = $base_margin;
if ($title_height > 0)
$this->y_top_margin += $title_height + $gap;
}
if (!isset($this->y_bot_margin))
$this->y_bot_margin = $base_margin;
return TRUE;
}
list($unused, $x_title_height) = $this->SizeText('x_title', 0, $this->x_title_txt);
list($y_title_width, $unused) = $this->SizeText('y_title', 90, $this->y_title_txt);
// For X/Y tick and label position of 'xaxis' or 'yaxis', determine if the axis happens to be
// on an edge of a plot. If it is, we need to account for the margins there.
if ($this->x_axis_position <= $this->plot_min_y)
$x_axis_pos = 'bottom';
elseif ($this->x_axis_position >= $this->plot_max_y)
$x_axis_pos = 'top';
else
$x_axis_pos = 'none';
if ($this->y_axis_position <= $this->plot_min_x)
$y_axis_pos = 'left';
elseif ($this->y_axis_position >= $this->plot_max_x)
$y_axis_pos = 'right';
else
$y_axis_pos = 'none';
// Calculate the heights for X tick and data labels, and the max (used if they are overlaid):
$x_data_label_height = ($this->x_data_label_pos == 'none') ? 0 : $this->CalcMaxDataLabelSize('x');
$x_tick_label_height = ($this->x_tick_label_pos == 'none') ? 0 : $this->CalcMaxTickLabelSize('x');
$x_max_label_height = max($x_data_label_height, $x_tick_label_height);
// Calculate the space needed above and below the plot for X tick and X data labels:
// Above the plot:
$tick_labels_above = ($this->x_tick_label_pos == 'plotup' || $this->x_tick_label_pos == 'both'
|| ($this->x_tick_label_pos == 'xaxis' && $x_axis_pos == 'top'));
$data_labels_above = ($this->x_data_label_pos == 'plotup' || $this->x_data_label_pos == 'both');
if ($tick_labels_above) {
if ($data_labels_above) {
$label_height_above = $x_max_label_height;
} else {
$label_height_above = $x_tick_label_height;
}
} elseif ($data_labels_above) {
$label_height_above = $x_data_label_height;
} else {
$label_height_above = 0;
}
// Below the plot:
$tick_labels_below = ($this->x_tick_label_pos == 'plotdown' || $this->x_tick_label_pos == 'both'
|| ($this->x_tick_label_pos == 'xaxis' && $x_axis_pos == 'bottom'));
$data_labels_below = ($this->x_data_label_pos == 'plotdown' || $this->x_data_label_pos == 'both');
if ($tick_labels_below) {
if ($data_labels_below) {
$label_height_below = $x_max_label_height;
} else {
$label_height_below = $x_tick_label_height;
}
} elseif ($data_labels_below) {
$label_height_below = $x_data_label_height;
} else {
$label_height_below = 0;
}
// Calculate the width for Y tick and data labels, if on, and the max:
// Note CalcMaxDataLabelSize('y') returns 0 except for swapped X/Y plots.
$y_data_label_width = ($this->y_data_label_pos == 'none') ? 0 : $this->CalcMaxDataLabelSize('y');
$y_tick_label_width = ($this->y_tick_label_pos == 'none') ? 0 : $this->CalcMaxTickLabelSize('y');
$y_max_label_width = max($y_data_label_width, $y_tick_label_width);
// Calculate the space needed left and right of the plot for Y tick and Y data labels:
// (Y data labels here are for swapped X/Y plots such has horizontal bars)
// Left of the plot:
$tick_labels_left = ($this->y_tick_label_pos == 'plotleft' || $this->y_tick_label_pos == 'both'
|| ($this->y_tick_label_pos == 'yaxis' && $y_axis_pos == 'left'));
$data_labels_left = ($this->y_data_label_pos == 'plotleft' || $this->y_data_label_pos == 'both');
if ($tick_labels_left) {
if ($data_labels_left) {
$label_width_left = $y_max_label_width;
} else {
$label_width_left = $y_tick_label_width;
}
} elseif ($data_labels_left) {
$label_width_left = $y_data_label_width;
} else {
$label_width_left = 0;
}
// Right of the plot:
$tick_labels_right = ($this->y_tick_label_pos == 'plotright' || $this->y_tick_label_pos == 'both'
|| ($this->y_tick_label_pos == 'yaxis' && $y_axis_pos == 'right'));
$data_labels_right = ($this->y_data_label_pos == 'plotright' || $this->y_data_label_pos == 'both');
if ($tick_labels_right) {
if ($data_labels_right) {
$label_width_right = $y_max_label_width;
} else {
$label_width_right = $y_tick_label_width;
}
} elseif ($data_labels_right) {
$label_width_right = $y_data_label_width;
} else {
$label_width_right = 0;
}
///////// Calculate margins:
// Calculating Top and Bottom margins:
// y_top_margin: Main title, Upper X title, X ticks and tick labels, and X data labels:
// y_bot_margin: Lower title, ticks and tick labels, and data labels:
$top_margin = $base_margin;
$bot_margin = $base_margin;
$this->x_title_top_offset = $gap;
$this->x_title_bot_offset = $gap;
// Space for main title?
if ($title_height > 0)
$top_margin += $title_height + $gap;
// Reserve space for X title, above and/or below as needed:
if ($x_title_height > 0 && ($pos = $this->x_title_pos) != 'none') {
if ($pos == 'plotup' || $pos == 'both')
$top_margin += $x_title_height + $gap;
if ($pos == 'plotdown' || $pos == 'both')
$bot_margin += $x_title_height + $gap;
}
// Space for X Labels above the plot?
if ($label_height_above > 0) {
$top_margin += $label_height_above + $gap;
$this->x_title_top_offset += $label_height_above + $gap;
}
// Space for X Labels below the plot?
if ($label_height_below > 0) {
$bot_margin += $label_height_below + $gap;
$this->x_title_bot_offset += $label_height_below + $gap;
}
// Space for X Ticks above the plot?
if ($this->x_tick_pos == 'plotup' || $this->x_tick_pos == 'both'
|| ($this->x_tick_pos == 'xaxis' && $x_axis_pos == 'top')) {
$top_margin += $this->x_tick_length;
$this->x_label_top_offset = $this->x_tick_length + $gap;
$this->x_title_top_offset += $this->x_tick_length;
} else {
// No X Ticks above the plot:
$this->x_label_top_offset = $gap;
}
// Space for X Ticks below the plot?
if ($this->x_tick_pos == 'plotdown' || $this->x_tick_pos == 'both'
|| ($this->x_tick_pos == 'xaxis' && $x_axis_pos == 'bottom')) {
$bot_margin += $this->x_tick_length;
$this->x_label_bot_offset = $this->x_tick_length + $gap;
$this->x_title_bot_offset += $this->x_tick_length;
} else {
// No X Ticks below the plot:
$this->x_label_bot_offset = $gap;
}
// Label offsets for on-axis ticks:
if ($this->x_tick_pos == 'xaxis') {
$this->x_label_axis_offset = $this->x_tick_length + $gap;
} else {
$this->x_label_axis_offset = $gap;
}
// Calculating Left and Right margins:
// x_left_margin: Left Y title, Y ticks and tick labels:
// x_right_margin: Right Y title, Y ticks and tick labels:
$left_margin = $base_margin;
$right_margin = $base_margin;
$this->y_title_left_offset = $gap;
$this->y_title_right_offset = $gap;
// Reserve space for Y title, on left and/or right as needed:
if ($y_title_width > 0 && ($pos = $this->y_title_pos) != 'none') {
if ($pos == 'plotleft' || $pos == 'both')
$left_margin += $y_title_width + $gap;
if ($pos == 'plotright' || $pos == 'both')
$right_margin += $y_title_width + $gap;
}
// Space for Y Labels left of the plot?
if ($label_width_left > 0) {
$left_margin += $label_width_left + $gap;
$this->y_title_left_offset += $label_width_left + $gap;
}
// Space for Y Labels right of the plot?
if ($label_width_right > 0) {
$right_margin += $label_width_right + $gap;
$this->y_title_right_offset += $label_width_right + $gap;
}
// Space for Y Ticks left of plot?
if ($this->y_tick_pos == 'plotleft' || $this->y_tick_pos == 'both'
|| ($this->y_tick_pos == 'yaxis' && $y_axis_pos == 'left')) {
$left_margin += $this->y_tick_length;
$this->y_label_left_offset = $this->y_tick_length + $gap;
$this->y_title_left_offset += $this->y_tick_length;
} else {
// No Y Ticks left of plot:
$this->y_label_left_offset = $gap;
}
// Space for Y Ticks right of plot?
if ($this->y_tick_pos == 'plotright' || $this->y_tick_pos == 'both'
|| ($this->y_tick_pos == 'yaxis' && $y_axis_pos == 'right')) {
$right_margin += $this->y_tick_length;
$this->y_label_right_offset = $this->y_tick_length + $gap;
$this->y_title_right_offset += $this->y_tick_length;
} else {
// No Y Ticks right of plot:
$this->y_label_right_offset = $gap;
}
// Label offsets for on-axis ticks:
if ($this->x_tick_pos == 'yaxis') {
$this->y_label_axis_offset = $this->y_tick_length + $gap;
} else {
$this->y_label_axis_offset = $gap;
}
// Apply the minimum margins and store in the object.
// Do not set margins which were user-defined (see note at top of function).
if (!isset($this->y_top_margin))
$this->y_top_margin = max($min_margin, $top_margin);
if (!isset($this->y_bot_margin))
$this->y_bot_margin = max($min_margin, $bot_margin);
if (!isset($this->x_left_margin))
$this->x_left_margin = max($min_margin, $left_margin);
if (!isset($this->x_right_margin))
$this->x_right_margin = max($min_margin, $right_margin);
if ($this->GetCallback('debug_scale')) {
// (Too bad compact() doesn't work on class member variables...)
$this->DoCallback('debug_scale', __FUNCTION__, array(
'label_height_above' => $label_height_above,
'label_height_below' => $label_height_below,
'label_width_left' => $label_width_left,
'label_width_right' => $label_width_right,
'x_tick_length' => $this->x_tick_length,
'y_tick_length' => $this->y_tick_length,
'x_left_margin' => $this->x_left_margin,
'x_right_margin' => $this->x_right_margin,
'y_top_margin' => $this->y_top_margin,
'y_bot_margin' => $this->y_bot_margin,
'x_label_top_offset' => $this->x_label_top_offset,
'x_label_bot_offset' => $this->x_label_bot_offset,
'y_label_left_offset' => $this->y_label_left_offset,
'y_label_right_offset' => $this->y_label_right_offset,
'x_title_top_offset' => $this->x_title_top_offset,
'x_title_bot_offset' => $this->x_title_bot_offset,
'y_title_left_offset' => $this->y_title_left_offset,
'y_title_right_offset' => $this->y_title_right_offset));
}
return TRUE;
}
/**
* Calculates the plot area (in pixels) from the margins
*
* This does the deferred calculation of class variables plot_area,
* plot_area_width, and plot_area_height. The margins might come
* from SetMarginsPixels(), SetPlotAreaPixels(), or CalcMargins().
*
* @return bool True always
* @since 5.0.5
*/
protected function CalcPlotAreaPixels()
{
$this->plot_area = array($this->x_left_margin, $this->y_top_margin,
$this->image_width - $this->x_right_margin,
$this->image_height - $this->y_bot_margin);
$this->plot_area_width = $this->plot_area[2] - $this->plot_area[0];
$this->plot_area_height = $this->plot_area[3] - $this->plot_area[1];
$this->DoCallback('debug_scale', __FUNCTION__, $this->plot_area);
return TRUE;
}
/**
* Sets the margins around the plot area
*
* This determines the plot area, equivalent to SetPlotAreaPixels()
* but instead of giving the plot area size, you give the margin sizes.
*
* @param int $which_lm Left margin in pixels; omit or NULL to auto-calculate
* @param int $which_rm Right margin in pixels; omit or NULL to auto-calculate
* @param int $which_tm Top margin in pixels; omit or NULL to auto-calculate
* @param int $which_bm Bottom margin in pixels; omit or NULL to auto-calculate
* @return bool True always
*/
function SetMarginsPixels($which_lm = NULL, $which_rm = NULL, $which_tm = NULL, $which_bm = NULL)
{
$this->x_left_margin = $which_lm;
$this->x_right_margin = $which_rm;
$this->y_top_margin = $which_tm;
$this->y_bot_margin = $which_bm;
return TRUE;
}
/**
* Sets the limits for the plot area, in device coordinates
*
* This determines the plot area, equivalent to SetMarginsPixels()
* but instead of giving the margin sizes, you give the plot area size,
*
* This stores the margins, not the area. That may seem odd, but the idea is
* to make SetPlotAreaPixels and SetMarginsPixels two ways to accomplish the
* same thing, and the deferred calculations in CalcMargins and
* CalcPlotAreaPixels don't need to know which was used.
*
* @param int $x1 Top left corner X coordinate in pixels; omit or NULL to auto-calculate
* @param int $y1 Top left corner Y coordinate in pixels; omit or NULL to auto-calculate
* @param int $x2 Bottom right corner X coordinate in pixels; omit or NULL to auto-calculate
* @param int $y2 Bottom right corner Y coordinate in pixels; omit or NULL to auto-calculate
* @return bool True always
*/
function SetPlotAreaPixels($x1 = NULL, $y1 = NULL, $x2 = NULL, $y2 = NULL)
{
$this->x_left_margin = $x1;
$this->x_right_margin = isset($x2) ? $this->image_width - $x2 : NULL;
$this->y_top_margin = $y1;
$this->y_bot_margin = isset($y2) ? $this->image_height - $y2 : NULL;
return TRUE;
}
/**
* Calculates an appropriate tick increment in 'decimal' mode
*
* This is used by CalcStep(). It returns the largest value that is 1, 2, or 5
* times an integer power of 10, and which divides the data range into no fewer
* than min_ticks tick intervals.
*
* @param float $range The data range (max - min), already checked as > 0
* @param int $min_ticks Smallest number of intervals allowed, already checked > 0
* @return float The calculated tick increment
* @since 6.0.0
*/
protected function CalcStep125($range, $min_ticks)
{
$v = log10($range / $min_ticks);
$vi = (int)floor($v);
$tick_step = pow(10, $vi);
$f = $v - $vi;
if ($f > 0.69897) $tick_step *= 5; // Note 0.69897 = log10(5)
elseif ($f > 0.301) $tick_step *= 2; // Note 0.30103 = log10(2), truncated to fix edge cases
return $tick_step;
}
/**
* Calculates an appropriate tick increment in 'date/time' mode
*
* This is used by CalcStep() when the axis values use date/time units.
* Unlike in CalcStep125(), there is no equation to compute this, so an array
* $datetime_steps is used. The values are "natural" time intervals, keeping
* the ratio between adjacent entries <= 2.5 (so that max_ticks <= 2.5*min_ticks).
* For seconds or minutes, it uses: 1 2 5 10 15 30. For hours, it uses 1 2 4 8 12
* 24 48 96 and 168 (=7 days). Above that, it falls back to CalcStep125 using days.
*
* @param float $range The data range (max - min), already checked as > 0
* @param int $min_ticks Smallest number of intervals allowed, already checked > 0
* @return int The calculated tick increment. This will always be >= 1 second
* @since 6.0.0
*/
protected function CalcStepDatetime($range, $min_ticks)
{
static $datetime_steps = array(1, 2, 5, 10, 15, 30, 60, 120, 300, 600, 900, 1800, 3600,
7200, 14400, 28800, 43200, 86400, 172800, 345600, 604800);
static $datetime_limit = 1512000; // 1 week times 2.5, in seconds.
if ($range < $min_ticks) {
$tick_step = 1; // Range is too small; minimum interval is 1 second.
} elseif (($tick_limit = $range / $min_ticks) <= $datetime_limit) {
// Find the biggest value in the table <= tick_limit (which is the
// exact interval which would give min_ticks steps):
foreach ($datetime_steps as $v) {
if ($v <= $tick_limit) $tick_step = $v;
else break;
}
} else {
// Use the numeric-mode algorithm to find a 1,2,5*10**n solution, in units of days.
$tick_step = $this->CalcStep125($range / 86400, $min_ticks) * 86400;
}
return $tick_step;
}
/**
* Calculates an appropriate tick increment in 'binary' mode
*
* This is used by CalcStep(). It returns the largest power of 2 that divides
* the range into at least min_ticks intervals.
* Note: This contains an ugly work-around to a round-off problem. Using
* floor(log2(2^N)) should produce N for all integer N, but with glibc, it turns
* out that log2(8) is slightly < 3, and similar for a few other values (64, 4096,
* 8192). So they truncate to N-1. Other tested values, and all negative values,
* and all values on Windows, were found to truncate with floor() in the right
* direction. The adjustment below makes all values N=-50 to 50 truncate correctly.
*
* @param float $range The data range (max - min), already checked as > 0
* @param int $min_ticks Smallest number of intervals allowed, already checked > 0
* @return float The calculated tick increment
* @since 6.0.0
*/
protected function CalcStepBinary($range, $min_ticks)
{
$log2 = log($range / $min_ticks, 2);
if ($log2 > 0) $log2 *= 1.000001; // See note above
return pow(2, (int)floor($log2));
}
/**
* Calculates an ideal tick increment for a given range
*
* This is only used when neither Set[XY]TickIncrement nor SetNum[XY]Ticks was used.
*
* @param string $which Which axis to calculate for. Must be 'x' or 'y'
* @param float $range The data range (max - min), already checked as > 0
* @return float The tick increment, using one of 3 methods depending on the 'tick_mode'
* @since 6.0.0
*/
protected function CalcStep($which, $range)
{
// Get tick control variables: min_ticks, tick_mode, tick_inc_integer.
extract($this->tickctl[$which]);
// If tick_mode is null, default to decimal mode unless the axis uses date/time formatting:
if (!isset($tick_mode)) {
if (isset($this->label_format[$which]['type']) && $this->label_format[$which]['type'] == 'time')
$tick_mode = 'date';
else
$tick_mode = 'decimal';
}
// Use proper mode to calculate the tick increment, with integer override option.
if ($tick_mode == 'date') {
$tick_step = $this->CalcStepDatetime($range, $min_ticks);
} elseif ($tick_inc_integer && $range <= $min_ticks) {
$tick_step = 1; // Whole integer ticks selected but range is too small.
} elseif ($tick_mode == 'binary') {
$tick_step = $this->CalcStepBinary($range, $min_ticks);
} else {
$tick_step = $this->CalcStep125($range, $min_ticks);
}
return $tick_step;
}
/**
* Initializes range variables for CalcPlotRange()
*
* This is a helper for CalcPlotRange(), which calls it 4 times, to initialize
* each end of the range for each axis. It also sets flags to indicate
* whether automatic adjustment of the range end is needed.
*
* @param float $plot_limit Reference to (possibly unset) plot_min_[xy] or plot_max_[xy]
* @param bool $implied True if this is the implied variable (X for vertical plots)
* @param float $data_limit Actual data limit at this end: one of min_x, max_x, etc.
* @return array Array with (initial value of the range limit, adjustment flag)
* @since 6.0.0
*/
protected function CalcRangeInit(&$plot_limit, $implied, $data_limit)
{
if (isset($plot_limit) && $plot_limit !== '') {
// Use the user-supplied value, and do no further adjustments.
return array($plot_limit, FALSE);
}
// Start with the actual data range. Set adjustment flag TRUE unless the range was implied.
return array($data_limit, !$implied);
}
/**
* Checks for a positive plot area range, and adjust if necessary
*
* This makes sure that the X or Y plot range is positive. The tick increment and
* other calculations cannot handle negative or zero range, so we need to do
* something to prevent it. There are 2 general cases: 1) automatic range, and
* data is 'flat' (all same value). 2) One side of range given in
* SetPlotAreaWorld(), and all the data is on the wrong side of that.
*
* Note that values specified in SetPlotAreaWorld() are never adjusted, even if it
* means an empty plot (because all the data is outside the range).
*
* Called by CalcPlotRange() after CalcRangeInit() applies the defaults.
*
* @param string $which Which axis: 'x' or 'y', used only for reporting
* @param float $plot_min Reference variable for the low end limit, changed if necessary
* @param float $plot_max Reference variable for the high end limit, changed if necessary
* @param bool $adjust_min True means $plot_min was auto-calculated, and may be adjusted
* @param bool $adjust_max True means $plot_max was auto-calculated, and may be adjusted
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
protected function CheckPlotRange($which, &$plot_min, &$plot_max, $adjust_min, $adjust_max)
{
if ($plot_min < $plot_max)
return TRUE; // No adjustment needed.
// Bad range, plot_min >= plot_max, needs fixing.
if ($adjust_max && $adjust_min) {
// Both min and max are calculated, so either or both can be adjusted.
// It should not be possible that plot_min > plot_max here, but check it to be safe:
if ($plot_max != $plot_min)
return $this->PrintError("SetPlotAreaWorld(): Inverse auto $which range error");
if ($plot_max == 0.0) {
// All 0. Use the arbitrary range 0:10
$plot_max = 10;
} elseif ($plot_min > 0) {
// All same positive value. Use the range 0:10 (or larger).
$plot_min = 0;
$plot_max = max($plot_max, 10);
} else {
// All same negative value. Use the range -10:0 (or larger).
$plot_min = min($plot_min, -10);
$plot_max = 0;
}
} elseif ($adjust_max) { // Equivalent to: ($adjust_max && !$adjust_min)
// Max is calculated, min was set, so adjust max
if ($plot_min < 0) $plot_max = 0;
else $plot_max = $plot_min + 10;
} elseif ($adjust_min) { // Equivalent to: (!$adjust_max && $adjust_min)
// Min is calculated, max was set, so adjust min
if ($plot_max > 0) $plot_min = 0;
else $plot_min = $plot_max - 10;
} else { // Equivalent to: (!$adjust_max && !$adjust_min)
// Both limits are set. This should never happen, since SetPlotAreaWorld stops it.
return $this->PrintError("SetPlotAreaWorld(): Inverse $which range error");
}
return TRUE;
}
/**
* Gets the plot range end adjustment factor
*
* This is a helper for CalcPlotRange(). If $adjust is already set, it is left
* alone, otherwise it uses the current plot type to apply a default setting.
*
* @param string $which Which axis to calculate for. Must be 'x' or 'y'
* @param float $adjust Reference variable for the range end adjustment factor, NULL or already set
* @since 6.0.0
*/
protected function GetRangeEndAdjust($which, &$adjust)
{
if (isset($adjust)) return; // Already set, nothing to do
// The plot type can customize how an end adjustment is applied:
if (empty(self::$plots[$this->plot_type]['adjust_type'])) {
// Default (adjust_type missing or 0) means pad the dependent variable axis only.
$adjust = ($which == 'x' XOR $this->datatype_swapped_xy) ? 0 : 0.03;
} else {
switch (self::$plots[$this->plot_type]['adjust_type']) {
case 1:
// Adjust type = 1 means add extra padding to both X and Y axis ends
$adjust = 0.03;
break;
case 2:
// Adjust type = 2 means do not add extra padding to either axis.
$adjust = 0;
break;
}
}
}
/**
* Calculates the plot range and tick increment for X or Y
*
* This is a helper for CalcPlotAreaWorld(). It returns the plot range (plot_min
* and plot_max), and the tick increment, for the X or Y axis. Priority is given
* to user-set values with SetPlotAreaWorld() and Set[XY]TickIncrement(), but if
* these were defaulted then values are automatically calculated.
*
* @param string $which Which axis to calculate for. Must be 'x' or 'y'
* @return float[] Array of (tick_increment, plot_min, plot_max) or FALSE on handled error
* @since 6.0.0
*/
protected function CalcPlotRange($which)
{
// Independent variable is X in the usual vertical plots; Y in horizontal plots:
$independent_variable = ($this->datatype_swapped_xy XOR $which == 'x');
// 'implied' means this is a non-explicitly given independent variable, e.g. X in 'text-data'.
$implied = $this->datatype_implied && $independent_variable;
// Initialize the range (plot_min : plot_max) and get the adjustment flags:
list($plot_min, $adjust_min) =
$this->CalcRangeInit($this->{"plot_min_$which"}, $implied, $this->{"min_$which"});
list($plot_max, $adjust_max) =
$this->CalcRangeInit($this->{"plot_max_$which"}, $implied, $this->{"max_$which"});
// Get local copies of variables used for range adjustment: adjust_{mode,amount} zero_magnet
extract($this->rangectl[$which]);
$this->GetRangeEndAdjust($which, $adjust_amount); // Apply default to $adjust_amount if needed
// Get local copies of other variables for X or Y:
if ($which == 'x') {
$num_ticks = $this->num_x_ticks;
$tick_inc = $this->x_tick_inc_u;
// Tick anchor is only used in 'T' adjust mode, where no tick anchor means anchor at 0.
$tick_anchor = isset($this->x_tick_anchor) ? $this->x_tick_anchor : 0;
} else {
$num_ticks = $this->num_y_ticks;
$tick_inc = $this->y_tick_inc_u;
$tick_anchor = isset($this->y_tick_anchor) ? $this->y_tick_anchor : 0;
}
// Validate the range, which must be positive. Adjusts plot_min and plot_max if necessary.
if (!$this->CheckPlotRange($which, $plot_min, $plot_max, $adjust_min, $adjust_max))
return FALSE;
// Adjust the min and max values, if flagged above for adjustment.
// Notes: (zero_magnet / (1 - zero_magnet)) is just a way to map a control with range 0:1
// into the range 0:infinity (with zero_magnet==1 handled as a special case).
// (plot_max / (plot_max - plot_min)) compares the range after plot_min would be set
// to zero with the original range. Similar for negative data: (plot_min / (plot_min - plot_max))
// compares the range with plot_max=0 to the original range.
$range = $plot_max - $plot_min;
// When all data > 0, test to see if the zero magnet is strong enough to pull the min down to zero:
if ($adjust_min && $plot_min > 0 && $zero_magnet > 0 && ($zero_magnet == 1.0 ||
$plot_max / $range < $zero_magnet / (1 - $zero_magnet))) {
$plot_min = 0;
$range = $plot_max;
}
// Similar to above, but for negative data: zero magnet pulls max up to zero:
if ($adjust_max && $plot_max < 0 && $zero_magnet > 0 && ($zero_magnet == 1.0 ||
-$plot_min / $range < $zero_magnet / (1 - $zero_magnet))) {
$plot_max = 0;
$range = 0 - $plot_min;
}
// Calculate the tick increment, if it wasn't set using Set[XY]TickIncrement().
$num_ticks_override = FALSE;
if (empty($tick_inc)) {
if (empty($num_ticks)) {
// Calculate a reasonable tick increment, based on the current plot area limits
$tick_inc = $this->CalcStep($which, $range);
} else {
// Number of ticks was provided: use exactly that.
// Adjustment is below, after range is calculated using mode 'R':
$adjust_mode = 'R';
$num_ticks_override = TRUE;
}
}
// Adjust the lower bound, if necessary, using one of 3 modes:
if ($adjust_min && $plot_min != 0) {
// Mode 'R' and basis for other modes: Extend the limit by a percentage of the
// plot range, but only when the data is negative (to leave room below for labels).
if ($plot_min < 0)
$plot_min -= $adjust_amount * $range;
if ($adjust_mode == 'T') {
// Mode 'T': Adjust to previous tick mark, taking tick anchor into account.
$pm = $tick_anchor + $tick_inc * floor(($plot_min - $tick_anchor) / $tick_inc);
// Don't allow the tick anchor adjustment to result in the range end moving across 0:
$plot_min = (($plot_min >= 0) === ($pm >= 0)) ? $pm : 0;
} elseif ($adjust_mode == 'I') {
// Mode 'I': Adjust to previous integer:
$plot_min = floor($plot_min);
}
}
// Adjust the upper bound, if necessary, using one of 3 modes:
if ($adjust_max && $plot_max != 0) {
// Mode 'R' and basis for other modes: Extend the limit by a percentage of the
// plot range, but only when the max is positive (leaves room above for labels).
if ($plot_max > 0)
$plot_max += $adjust_amount * $range;
if ($adjust_mode == 'T') {
// Mode 'T': Adjust to next tick mark, taking tick anchor into account:
$pm = $tick_anchor + $tick_inc * ceil(($plot_max - $tick_anchor) / $tick_inc);
// Don't allow the tick anchor adjustment to result in the range end moving across 0:
$plot_max = (($plot_max >= 0) === ($pm >= 0)) ? $pm : 0;
} elseif ($adjust_mode == 'I') {
// Mode 'I': Adjustment to next higher integer.
$plot_max = ceil($plot_max);
}
}
// Calculate the tick increment for the case where number of ticks was given:
if ($num_ticks_override) {
$tick_inc = ($plot_max - $plot_min) / $num_ticks;
}
// Check log scale range - plot_min and plot_max must be > 0.
if ($which == 'y' && $this->yscale_type == 'log' || $which == 'x' && $this->xscale_type == 'log') {
if ($plot_min <= 0) $plot_min = 1;
if ($plot_max <= 0) {
// Note: Error message names the public function, not this function.
return $this->PrintError("SetPlotAreaWorld(): Invalid $which range for log scale");
}
}
// Final error check to ensure the range is positive.
if ($plot_min >= $plot_max) $plot_max = $plot_min + 1;
// Return the calculated values. (Note these get stored back into class variables.)
return array($tick_inc, $plot_min, $plot_max);
}
/**
* Calculates the World Coordinate limits of the plot area, and the tick increments
*
* This is called by DrawGraph(), after FindDataLimits() determines the data
* limits, to calculate the plot area scale and tick increments. The plot range
* and increment are related, which is why they are calculated together.
*
* The plot range variables (plot_min_x, plot_max_x, plot_min_y, plot_max_y) are
* calculated if necessary, then stored back into the object ('sticky' for
* multiple plots on an image).
*
* The tick increments (x_tick_inc, y_tick_inc) are calculated. These default to
* the user-set values (x_tick_inc_u, y_tick_inc_u) but we keep the effective
* values separate so that they can be recalculated for a second plot (which may
* have a different data range).
*
* @return bool True, unless an handled error occurred in a called function
* @since 5.0.5
*/
protected function CalcPlotAreaWorld()
{
list($this->x_tick_inc, $this->plot_min_x, $this->plot_max_x) = $this->CalcPlotRange('x');
list($this->y_tick_inc, $this->plot_min_y, $this->plot_max_y) = $this->CalcPlotRange('y');
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'plot_min_x' => $this->plot_min_x, 'plot_min_y' => $this->plot_min_y,
'plot_max_x' => $this->plot_max_x, 'plot_max_y' => $this->plot_max_y,
'x_tick_inc' => $this->x_tick_inc, 'y_tick_inc' => $this->y_tick_inc));
}
return isset($this->x_tick_inc, $this->y_tick_inc); // Pass thru FALSE return from CalcPlotRange()
}
/**
* Overrides automatic data scaling to device coordinates
*
* This fixes one or more ends of the range of the plot to specific
* value(s), given in World Coordinates.
* Any limit not set or set to NULL will be calculated in
* CalcPlotAreaWorld(). If both ends of either X or Y range are
* supplied, the range is validated to ensure min < max.
*
* @param float $xmin X data range minimum; omit or NULL to auto-calculate
* @param float $ymin Y data range minimum; omit or NULL to auto-calculate
* @param float $xmax X data range maximum; omit or NULL to auto-calculate
* @param float $ymax Y data range maximum; omit or NULL to auto-calculate
* @return bool True (False on error if an error handler returns True)
*/
function SetPlotAreaWorld($xmin=NULL, $ymin=NULL, $xmax=NULL, $ymax=NULL)
{
$this->plot_min_x = $xmin;
$this->plot_max_x = $xmax;
$this->plot_min_y = $ymin;
$this->plot_max_y = $ymax;
if (isset($xmin) && isset($xmax) && $xmin >= $xmax) $bad = 'X';
elseif (isset($ymin) && isset($ymax) && $ymin >= $ymax) $bad = 'Y';
else return TRUE;
return $this->PrintError("SetPlotAreaWorld(): $bad range error - min >= max");
}
/**
* Calculates sizes of bars for bars and stackedbars plots
*
* This calculates the following class variables, which control the size and
* spacing of bars in vertical and horizontal 'bars' and 'stackedbars' plots:
* record_bar_width (allocated width for each bar, including gaps),
* actual_bar_width (actual drawn width of each bar), and
* bar_adjust_gap (gap on each side of each bar, 0 if they touch).
*
* Note that when $verticals is False, the bars are horizontal, but the same
* variable names are used. Think of "bar_width" as being the width if you
* are standing on the Y axis looking towards positive X.
*
* @param bool $stacked If true, this is a stacked bar plot (1 bar per group)
* @param bool $verticals If false, this is a horizontal bar plot
* @return bool True always
*/
protected function CalcBarWidths($stacked, $verticals)
{
// group_width is the width of a group, including padding
if ($verticals) {
$group_width = $this->plot_area_width / $this->num_data_rows;
} else {
$group_width = $this->plot_area_height / $this->num_data_rows;
}
// Number of bar spaces in the group, including actual bars and bar_extra_space extra:
if ($stacked) {
$num_spots = 1 + $this->bar_extra_space;
} else {
$num_spots = $this->data_columns + $this->bar_extra_space;
}
// record_bar_width is the width of each bar's allocated area.
// If bar_width_adjust=1 this is the width of the bar, otherwise
// the bar is centered inside record_bar_width.
// The equation is:
// group_frac_width * group_width = record_bar_width * num_spots
$this->record_bar_width = $this->group_frac_width * $group_width / $num_spots;
// Note that the extra space due to group_frac_width and bar_extra_space will be
// evenly divided on each side of the group: the drawn bars are centered in the group.
// Within each bar's allocated space, if bar_width_adjust=1 the bar fills the
// space, otherwise it is centered.
// This is the actual drawn bar width:
$this->actual_bar_width = $this->record_bar_width * $this->bar_width_adjust;
// This is the gap on each side of the bar (0 if bar_width_adjust=1):
$this->bar_adjust_gap = ($this->record_bar_width - $this->actual_bar_width) / 2;
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'record_bar_width' => $this->record_bar_width,
'actual_bar_width' => $this->actual_bar_width,
'bar_adjust_gap' => $this->bar_adjust_gap));
}
return TRUE;
}
/**
* Calculates the X and Y axis positions in world coordinates
*
* This validates or calculates the class variables x_axis_position and
* y_axis_position. Note x_axis_position is the Y value where the X axis
* goes; y_axis_position is the X value where the Y axis goes.
* If they were set by the user, they are used as-is, unless they are
* outside the data range. If they are not set, they are calculated here.
*
* For vertical plots, the X axis defaults to Y=0 if that is inside the plot
* range, else whichever of the top or bottom that has the smallest absolute
* value (that is, the value closest to 0). The Y axis defaults to the left
* edge. For horizontal plots, the axis roles and defaults are switched.
*
* @return bool True always
* @since 5.0.5
*/
protected function CalcAxisPositions()
{
// Validate user-provided X axis position, or calculate a default if not provided:
if (isset($this->x_axis_position)) {
// Force user-provided X axis position to be within the plot range:
$this->x_axis_position = min(max($this->plot_min_y, $this->x_axis_position), $this->plot_max_y);
} elseif ($this->yscale_type == 'log') {
// Always use 1 for X axis position on log scale plots.
$this->x_axis_position = 1;
} elseif ($this->datatype_swapped_xy || $this->plot_min_y > 0) {
// Horizontal plot, or Vertical Plot with all Y > 0: Place X axis on the bottom.
$this->x_axis_position = $this->plot_min_y;
} elseif ($this->plot_max_y < 0) {
// Vertical plot with all Y < 0, so place the X axis at the top.
$this->x_axis_position = $this->plot_max_y;
} else {
// Vertical plot range includes Y=0, so place X axis at 0.
$this->x_axis_position = 0;
}
// Validate user-provided Y axis position, or calculate a default if not provided:
if (isset($this->y_axis_position)) {
// Force user-provided Y axis position to be within the plot range:
$this->y_axis_position = min(max($this->plot_min_x, $this->y_axis_position), $this->plot_max_x);
} elseif ($this->xscale_type == 'log') {
// Always use 1 for Y axis position on log scale plots.
$this->y_axis_position = 1;
} elseif (!$this->datatype_swapped_xy || $this->plot_min_x > 0) {
// Vertical plot, or Horizontal Plot with all X > 0: Place Y axis on left side.
$this->y_axis_position = $this->plot_min_x;
} elseif ($this->plot_max_x < 0) {
// Horizontal plot with all X < 0, so place the Y axis on the right side.
$this->y_axis_position = $this->plot_max_x;
} else {
// Horizontal plot range includes X=0: place Y axis at 0.
$this->y_axis_position = 0;
}
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'x_axis_position' => $this->x_axis_position,
'y_axis_position' => $this->y_axis_position));
}
return TRUE;
}
/**
* Calculates parameters for transforming world coordinates to pixel coordinates
*
* This calculates xscale, yscale, plot_origin_x, and plot_origin_y, which map
* world coordinate space into the plot area. These are used by xtr() and ytr()
*
* @return bool True always
*/
protected function CalcTranslation()
{
if ($this->plot_max_x - $this->plot_min_x == 0) { // Check for div by 0
$this->xscale = 0;
} else {
if ($this->xscale_type == 'log') {
$this->xscale = $this->plot_area_width /
(log10($this->plot_max_x) - log10($this->plot_min_x));
} else {
$this->xscale = $this->plot_area_width / ($this->plot_max_x - $this->plot_min_x);
}
}
if ($this->plot_max_y - $this->plot_min_y == 0) { // Check for div by 0
$this->yscale = 0;
} else {
if ($this->yscale_type == 'log') {
$this->yscale = $this->plot_area_height /
(log10($this->plot_max_y) - log10($this->plot_min_y));
} else {
$this->yscale = $this->plot_area_height / ($this->plot_max_y - $this->plot_min_y);
}
}
// GD defines x = 0 at left and y = 0 at TOP so -/+ respectively
if ($this->xscale_type == 'log') {
$this->plot_origin_x = $this->plot_area[0] - ($this->xscale * log10($this->plot_min_x) );
} else {
$this->plot_origin_x = $this->plot_area[0] - ($this->xscale * $this->plot_min_x);
}
if ($this->yscale_type == 'log') {
$this->plot_origin_y = $this->plot_area[3] + ($this->yscale * log10($this->plot_min_y));
} else {
$this->plot_origin_y = $this->plot_area[3] + ($this->yscale * $this->plot_min_y);
}
// Convert axis positions to device coordinates:
$this->y_axis_x_pixels = $this->xtr($this->y_axis_position);
$this->x_axis_y_pixels = $this->ytr($this->x_axis_position);
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'xscale' => $this->xscale, 'yscale' => $this->yscale,
'plot_origin_x' => $this->plot_origin_x, 'plot_origin_y' => $this->plot_origin_y,
'y_axis_x_pixels' => $this->y_axis_x_pixels,
'x_axis_y_pixels' => $this->x_axis_y_pixels));
}
return TRUE;
}
/**
* Translates an X world coordinate value into a pixel coordinate value
*
* @param float $x_world X world coordinate value to translate
* @return int Translated X device (pixel) coordinate
* @deprecated Public use discouraged; use GetDeviceXY() instead
*/
function xtr($x_world)
{
if ($this->xscale_type == 'log') {
$x_pixels = $this->plot_origin_x + log10($x_world) * $this->xscale ;
} else {
$x_pixels = $this->plot_origin_x + $x_world * $this->xscale ;
}
return round($x_pixels);
}
/**
* Translates a Y world coordinate value into a pixel coordinate value
*
* @param float $y_world Y world coordinate value to translate
* @return int Translated Y device (pixel) coordinate
* @deprecated Public use discouraged; use GetDeviceXY() instead
*/
function ytr($y_world)
{
if ($this->yscale_type == 'log') {
//minus because GD defines y = 0 at top. doh!
$y_pixels = $this->plot_origin_y - log10($y_world) * $this->yscale ;
} else {
$y_pixels = $this->plot_origin_y - $y_world * $this->yscale ;
}
return round($y_pixels);
}
/**
* Translates world coordinates into device coordinates
*
* This is a public interface to xtr() and ytr(), which are left as public
* for historical reasons but deprecated for public use. It maps (x,y) in
* world coordinates to (x,y) into device (pixel) coordinates. Typical usage
* is: list($x_pixel, $y_pixel) = $plot->GetDeviceXY($x_world, $y_world)
*
* Note: This only works after scaling has been set up, which happens in
* DrawGraph(). So it is only useful from a drawing callback, or if
* SetPrintImage(False) was used and after DrawGraph().
*
* @param float $x_world X world coordinate value to translate
* @param float $y_world Y world coordinate value to translate
* @return int[] Array of ($x, $y) device coordinates; False on error if error handler returns True
* @since 5.1.0
*/
function GetDeviceXY($x_world, $y_world)
{
if (!isset($this->xscale)) {
return $this->PrintError("GetDeviceXY() was called before translation factors were calculated");
}
return array($this->xtr($x_world), $this->ytr($y_world));
}
/**
* Gets the tick mark parameters
*
* This is used by DrawXTicks(), DrawYTicks(), and CalcMaxTickLabelSize().
* It returns the parameters needed to draw tick marks: start value, end value,
* and step. Note CalcTicks() used to but no longer actually does the
* calculations. That is done in CalcPlotAreaWorld().
*
* @param string $which Which axis to calculate tick parameters for. Must be 'x' or 'y'
* @return float[] Array of (tick_start, tick_end, tick_step)
* @since 5.0.5
*/
protected function CalcTicks($which)
{
if ($which == 'x') {
$tick_step = $this->x_tick_inc;
$anchor = &$this->x_tick_anchor; // Reference used because it might not be set.
$plot_max = $this->plot_max_x;
$plot_min = $this->plot_min_x;
$skip_lo = $this->skip_left_tick;
$skip_hi = $this->skip_right_tick;
} else { // Assumed 'y'
$tick_step = $this->y_tick_inc;
$anchor = &$this->y_tick_anchor;
$plot_max = $this->plot_max_y;
$plot_min = $this->plot_min_y;
$skip_lo = $this->skip_bottom_tick;
$skip_hi = $this->skip_top_tick;
}
// To avoid losing a final tick mark due to round-off errors, push tick_end out slightly.
$tick_start = (double)$plot_min;
$tick_end = (double)$plot_max + ($plot_max - $plot_min) / 10000.0;
// If a tick anchor was given, adjust the start of the range so the anchor falls
// at an exact tick mark (or would, if it was within range).
if (isset($anchor))
$tick_start = $anchor - $tick_step * floor(($anchor - $tick_start) / $tick_step);
// Lastly, adjust for option to skip left/bottom or right/top tick marks:
if ($skip_lo)
$tick_start += $tick_step;
if ($skip_hi)
$tick_end -= $tick_step;
if ($this->GetCallback('debug_scale'))
$this->DoCallback('debug_scale', __FUNCTION__,
compact('which', 'tick_start', 'tick_end', 'tick_step'));
return array($tick_start, $tick_end, $tick_step);
}
/**
* Calculates the size of the biggest tick label
*
* This is used by CalcMargins() to figure out how much margin space is needed
* for the tick labels.
* For 'x' ticks, it returns the height (delta Y) of the tallest label.
* For 'y' ticks, it returns the width (delta X) of the widest label.
*
* @param string $which Which axis to calculate for. Must be 'x' or 'y'
* @return float The needed tick label width (for Y) or height (for X)
* @since 5.0.5
*/
protected function CalcMaxTickLabelSize($which)
{
list($tick_start, $tick_end, $tick_step) = $this->CalcTicks($which);
$angle = ($which == 'x') ? $this->x_label_angle : $this->y_label_angle;
$font_id = $which . '_label'; // Use x_label or y_label font.
$max_width = 0;
$max_height = 0;
// Loop over ticks, same as DrawXTicks and DrawYTicks:
// Avoid cumulative round-off errors from $val += $delta
$n = 0;
$tick_val = $tick_start;
while ($tick_val <= $tick_end) {
$tick_label = $this->FormatLabel($which, $tick_val);
list($width, $height) = $this->SizeText($font_id, $angle, $tick_label);
if ($width > $max_width) $max_width = $width;
if ($height > $max_height) $max_height = $height;
$tick_val = $tick_start + ++$n * $tick_step;
}
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'which' => $which, 'height' => $max_height, 'width' => $max_width));
}
if ($which == 'x')
return $max_height;
return $max_width;
}
/**
* Calculates the size of the biggest axis data label
*
* This is used by CalcMargins() to figure out how much margin space is needed
* for the axis data labels.
* For X axis labels, it returns the height (delta Y) of the tallest label.
* For Y axis labels, it returns the width (delta X) of the widest label.
*
* There can be at most one set of axis data labels. For vertical plots, these
* are X axis data labels, and go along the top or bottom or both. For horizontal
* plots, these are Y axis data labels, and go along the left or right or both.
* CalcMaxDataLabelSize(axis) returns 0 if data labels do not apply to that axis.
* To do this, it needs to check the plottype flag indicating swapped X/Y.
*
* @param string $which Which axis to calculate for. Must be 'x' or 'y'
* @return float The needed axis data label width (for Y) or height (for X)
* @since 5.0.5
*/
protected function CalcMaxDataLabelSize($which = 'x')
{
// Shortcut: Y data labels for vertical plots, and X data labels for horizontal plots,
// are inside the plot, rather than along the axis lines, and so take up no margin space.
if ($which == 'y' XOR $this->datatype_swapped_xy)
return 0;
$angle = ($which == 'x') ? $this->x_data_label_angle : $this->y_data_label_angle;
$font_id = $which . '_label'; // Use x_label or y_label font.
$format_code = $which . 'd'; // Use format code 'xd' or 'yd'
$max_width = 0;
$max_height = 0;
// Loop over all data labels and find the biggest:
for ($i = 0; $i < $this->num_data_rows; $i++) {
$label = $this->FormatLabel($format_code, $this->data[$i][0], $i);
list($width, $height) = $this->SizeText($font_id, $angle, $label);
if ($width > $max_width) $max_width = $width;
if ($height > $max_height) $max_height = $height;
}
if ($this->GetCallback('debug_scale')) {
$this->DoCallback('debug_scale', __FUNCTION__, array(
'height' => $max_height, 'width' => $max_width));
}
if ($this->datatype_swapped_xy)
return $max_width;
return $max_height;
}
/**
* Determines if there are any non-empty data labels in the data array
*
* This is used by CheckLabels() to determine if data labels are available.
*
* @return bool True if all data labels are empty, else False.
* @since 5.1.2
*/
protected function CheckLabelsAllEmpty()
{
for ($i = 0; $i < $this->num_data_rows; $i++)
if ($this->data[$i][0] !== '') return FALSE;
return TRUE;
}
/**
* Checks and sets label parameters
*
* This handles deferred processing for label positioning and other label-related
* parameters. It sets defaults for label angles, and applies defaults to X and Y
* tick and data label positions.
*
* @return bool True always
* @since 5.1.0
*/
protected function CheckLabels()
{
// Default for X data label angle is a special case (different from Y).
if ($this->x_data_label_angle_u === '')
$this->x_data_label_angle = $this->x_label_angle; // Not set with SetXDataLabelAngle()
else
$this->x_data_label_angle = $this->x_data_label_angle_u; // Set with SetXDataLabelAngle()
// X Label position fixups, for x_data_label_pos and x_tick_label_pos:
if ($this->datatype_swapped_xy) {
// Just apply defaults - there is no position conflict for X labels.
if (!isset($this->x_tick_label_pos))
$this->x_tick_label_pos = 'plotdown';
if (!isset($this->x_data_label_pos))
$this->x_data_label_pos = 'none';
} else {
// Apply defaults but do not allow conflict between tick and data labels.
if (isset($this->x_data_label_pos)) {
if (!isset($this->x_tick_label_pos)) {
// Case: data_label_pos is set, tick_label_pos needs a default:
if ($this->x_data_label_pos == 'none')
$this->x_tick_label_pos = 'plotdown';
else
$this->x_tick_label_pos = 'none';
}
} elseif (isset($this->x_tick_label_pos)) {
// Case: tick_label_pos is set, data_label_pos needs a default:
if ($this->x_tick_label_pos == 'none')
$this->x_data_label_pos = 'plotdown';
else
$this->x_data_label_pos = 'none';
} else {
// Case: Neither tick_label_pos nor data_label_pos is set.
// We do not want them to be both on (as PHPlot used to do in this case).
// Turn on data labels if any were supplied, else tick labels.
if ($this->CheckLabelsAllEmpty()) {
$this->x_data_label_pos = 'none';
$this->x_tick_label_pos = 'plotdown';
} else {
$this->x_data_label_pos = 'plotdown';
$this->x_tick_label_pos = 'none';
}
}
}
// Y Label position fixups, for y_data_label_pos and y_tick_label_pos:
if (!$this->datatype_swapped_xy) {
// Just apply defaults - there is no position conflict.
if (!isset($this->y_tick_label_pos))
$this->y_tick_label_pos = 'plotleft';
if (!isset($this->y_data_label_pos))
$this->y_data_label_pos = 'none';
} else {
// Apply defaults but do not allow conflict between tick and data labels.
if (isset($this->y_data_label_pos)) {
if (!isset($this->y_tick_label_pos)) {
// Case: data_label_pos is set, tick_label_pos needs a default:
if ($this->y_data_label_pos == 'none')
$this->y_tick_label_pos = 'plotleft';
else
$this->y_tick_label_pos = 'none';
}
} elseif (isset($this->y_tick_label_pos)) {
// Case: tick_label_pos is set, data_label_pos needs a default:
if ($this->y_tick_label_pos == 'none')
$this->y_data_label_pos = 'plotleft';
else
$this->y_data_label_pos = 'none';
} else {
// Case: Neither tick_label_pos nor data_label_pos is set.
// Turn on data labels if any were supplied, else tick labels.
if ($this->CheckLabelsAllEmpty()) {
$this->y_data_label_pos = 'none';
$this->y_tick_label_pos = 'plotleft';
} else {
$this->y_data_label_pos = 'plotleft';
$this->y_tick_label_pos = 'none';
}
}
}
return TRUE;
}
/**
* Formats a value for use as a tick, data, or pie chart label
*
* @param string $which_pos Which format controls to use: x | y | xd | yd | p (tick, data, pie)
* @param mixed $which_lab The value of the label to be formatted (usually a float)
* @param mixed $varargs Zero or more additional arguments to pass to a custom format function
* @return string The formatted label value (original value if no formatting is enabled)
*/
protected function FormatLabel($which_pos, $which_lab, $varargs=NULL) // Variable additional arguments
{
// Assign a reference shortcut to the label format controls, default xd,yd to x,y.
if ($which_pos == 'xd' && empty($this->label_format['xd']))
$which_pos = 'x';
elseif ($which_pos == 'yd' && empty($this->label_format['yd']))
$which_pos = 'y';
$format = &$this->label_format[$which_pos];
// Don't format empty strings (especially as time or numbers), or if no type was set.
if ($which_lab !== '' && !empty($format['type'])) {
switch ($format['type']) {
case 'title': // Note: This is obsolete
$which_lab = @ $this->data[$which_lab][0];
break;
case 'data':
$which_lab = $format['prefix']
. $this->number_format($which_lab, $format['precision'])
. $this->data_units_text // Obsolete
. $format['suffix'];
break;
case 'time':
$which_lab = strftime($format['time_format'], $which_lab);
break;
case 'printf':
if (!is_array($format['printf_format'])) {
$use_format = $format['printf_format'];
} else {
// Select from 1, 2, or 3 formats based on the sign of the value (like spreadsheets).
// With 2 formats, use [0] for >= 0, [1] for < 0.
// With 3 formats, use [0] for > 0, [1] for < 0, [2] for = 0.
$n_formats = count($format['printf_format']);
if ($n_formats == 3 && $which_lab == 0) {
$use_format = $format['printf_format'][2];
} elseif ($n_formats > 1 && $which_lab < 0) {
$use_format = $format['printf_format'][1];
$which_lab = -$which_lab; // Format the absolute value
} else $use_format = $format['printf_format'][0];
}
$which_lab = sprintf($use_format, $which_lab);
break;
case 'custom':
// Build argument vector: (text, custom_callback_arg, other_args...)
$argv = func_get_args();
$argv[0] = $which_lab;
$argv[1] = $format['custom_arg'];
$which_lab = call_user_func_array($format['custom_callback'], $argv);
break;
}
}
return $which_lab;
}
/**
* Sets range tuning parameters for X or Y
*
* This implements TuneXAutoRange() and TuneYAutoRange(). Note that
* parameter values are checked, but invalid values are silently ignored.
*
* @param string $which Which axis to adjust parameters for: 'x' or 'y'
* @param float $zero_magnet Zero magnet value, NULL to ignore
* @param string $adjust_mode Range extension mode, NULL to ignore
* @param float $adjust_amount Range extension amount, NULL to ignore
* @return bool True always
* @since 6.0.0
*/
protected function TuneAutoRange($which, $zero_magnet, $adjust_mode, $adjust_amount)
{
if (isset($zero_magnet) && $zero_magnet >= 0 && $zero_magnet <= 1.0)
$this->rangectl[$which]['zero_magnet'] = $zero_magnet;
if (isset($adjust_mode) && strpos('TRI', $adjust_mode[0]) !== FALSE)
$this->rangectl[$which]['adjust_mode'] = $adjust_mode;
if (isset($adjust_amount) && $adjust_amount >= 0)
$this->rangectl[$which]['adjust_amount'] = $adjust_amount;
return TRUE;
}
/**
* Adjusts tuning parameters for X axis range calculation
*
* See TuneAutoRange() above, which implements this function.
*
* @param float $zero_magnet Optional X axis zero magnet value, controlling range extension to include 0
* @param string $adjust_mode Optional X axis range extension mode: T | R | I (Tick, Range, Integer)
* @param float $adjust_amount Optional X axis range extension amount
* @return bool True always
* @since 6.0.0
*/
function TuneXAutoRange($zero_magnet = NULL, $adjust_mode = NULL, $adjust_amount = NULL)
{
return $this->TuneAutoRange('x', $zero_magnet, $adjust_mode, $adjust_amount);
}
/**
* Adjusts tuning parameters for Y axis range calculation
*
* See TuneAutoRange() above, which implements this function.
*
* @param float $zero_magnet Optional Y axis zero magnet value, controlling range extension to include 0
* @param string $adjust_mode Optional Y axis range extension mode: T | R | I (Tick, Range, Integer)
* @param float $adjust_amount Optional Y axis range extension amount
* @return bool True always
* @since 6.0.0
*/
function TuneYAutoRange($zero_magnet = NULL, $adjust_mode = NULL, $adjust_amount = NULL)
{
return $this->TuneAutoRange('y', $zero_magnet, $adjust_mode, $adjust_amount);
}
/**
* Sets tick tuning parameters for X or Y
*
* This implements TuneXAutoTicks() and TuneYAutoTicks().
*
* @param string $which Which axis to adjust parameters for: 'x' or 'y'
* @param int $min_ticks Minimum number of tick intervals
* @param string $tick_mode Tick increment calculation mode
* @param bool $tick_inc_integer True to always use integer tick increments
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
protected function TuneAutoTicks($which, $min_ticks, $tick_mode, $tick_inc_integer)
{
if (isset($min_ticks) && $min_ticks > 0)
$this->tickctl[$which]['min_ticks'] = (integer)$min_ticks;
if (isset($tick_mode)) {
$tick_mode = $this->CheckOption($tick_mode, 'decimal, binary, date',
'Tune' . strtoupper($which) . 'AutoTicks');
if (!$tick_mode)
return FALSE;
$this->tickctl[$which]['tick_mode'] = $tick_mode;
}
if (isset($tick_inc_integer))
$this->tickctl[$which]['tick_inc_integer'] = (bool)$tick_inc_integer;
return TRUE;
}
/**
* Adjusts tuning parameters for X axis tick increment calculation
*
* See TuneAutoTicks() above, which implements this function.
*
* @param int $min_ticks Minimum number of tick intervals along the axis
* @param string $tick_mode Tick increment calculation mode: decimal | binary | date
* @param bool $tick_inc_integer True to always use integer tick increments, false to allow fractions
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function TuneXAutoTicks($min_ticks = NULL, $tick_mode = NULL, $tick_inc_integer = NULL)
{
return $this->TuneAutoTicks('x', $min_ticks, $tick_mode, $tick_inc_integer);
}
/**
* Adjusts tuning parameters for Y axis tick increment calculation
*
* See TuneAutoTicks() above, which implements this function.
*
* @param int $min_ticks Minimum number of tick intervals along the axis
* @param string $tick_mode Tick increment calculation mode: decimal | binary | date
* @param bool $tick_inc_integer True to always use integer tick increments, false to allow fractions
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function TuneYAutoTicks($min_ticks = NULL, $tick_mode = NULL, $tick_inc_integer = NULL)
{
return $this->TuneAutoTicks('y', $min_ticks, $tick_mode, $tick_inc_integer);
}
/////////////////////////////////////////////
/////////////// TICKS
/////////////////////////////////////////////
/**
* Sets the length of the interval between X ticks
*
* @param float $which_ti X tick increment in world coordinates; omit or '' for default auto-calculate
* @return bool True always
*/
function SetXTickIncrement($which_ti='')
{
$this->x_tick_inc_u = $which_ti;
return TRUE;
}
/**
* Sets the length of the interval between Y ticks
*
* @param float $which_ti Y tick increment in world coordinates; omit or '' for default auto-calculate
* @return bool True always
*/
function SetYTickIncrement($which_ti='')
{
$this->y_tick_inc_u = $which_ti;
return TRUE;
}
/**
* Sets the number of X tick intervals
*
* @param int $which_nt Number of X tick intervals; omit or '' for default auto-calculate
* @return bool True always
*/
function SetNumXTicks($which_nt='')
{
$this->num_x_ticks = $which_nt;
return TRUE;
}
/**
* Sets the number of Y tick intervals
*
* @param int $which_nt Number of Y tick intervals; omit or '' for default auto-calculate
* @return bool True always
*/
function SetNumYTicks($which_nt='')
{
$this->num_y_ticks = $which_nt;
return TRUE;
}
/**
* Positions the X tick marks (above the plot, below, both above and below; at the X axis, or suppressed)
*
* @param string $which_tp Tick mark position: plotdown | plotup | both | xaxis | none
* @return bool True (False on error if an error handler returns True)
*/
function SetXTickPos($which_tp)
{
$this->x_tick_pos = $this->CheckOption($which_tp, 'plotdown, plotup, both, xaxis, none',
__FUNCTION__);
return (boolean)$this->x_tick_pos;
}
/**
* Positions the Y tick marks (left, right, or both sides; at the Y axis, or suppressed)
*
* @param string $which_tp Tick mark position: plotleft | plotright | both | yaxis | none
* @return bool True (False on error if an error handler returns True)
*/
function SetYTickPos($which_tp)
{
$this->y_tick_pos = $this->CheckOption($which_tp, 'plotleft, plotright, both, yaxis, none',
__FUNCTION__);
return (boolean)$this->y_tick_pos;
}
/**
* Suppress the top Y axis tick mark and label
*
* @param bool $skip True to skip the tick mark and label; false to draw them
* @return bool True always
*/
function SetSkipTopTick($skip)
{
$this->skip_top_tick = (bool)$skip;
return TRUE;
}
/**
* Suppress the bottom Y axis tick mark and label
*
* @param bool $skip True to skip the tick mark and label; false to draw them
* @return bool True always
*/
function SetSkipBottomTick($skip)
{
$this->skip_bottom_tick = (bool)$skip;
return TRUE;
}
/**
* Suppress the left-most (first) X axis tick mark and label
*
* @param bool $skip True to skip the tick mark and label; false to draw them
* @return bool True always
*/
function SetSkipLeftTick($skip)
{
$this->skip_left_tick = (bool)$skip;
return TRUE;
}
/**
* Suppress the right-most (last) X axis tick mark and label
*
* @param bool $skip True to skip the tick mark and label; false to draw them
* @return bool True always
*/
function SetSkipRightTick($skip)
{
$this->skip_right_tick = (bool)$skip;
return TRUE;
}
/**
* Sets the outer length of X tick marks (the part that sticks out from the plot area)
*
* @param int $which_xln Outer length of the tick marks, in pixels
* @return bool True always
*/
function SetXTickLength($which_xln)
{
$this->x_tick_length = $which_xln;
return TRUE;
}
/**
* Sets the outer length of Y tick marks (the part that sticks out from the plot area)
*
* @param int $which_yln Outer length of the tick marks, in pixels
* @return bool True always
*/
function SetYTickLength($which_yln)
{
$this->y_tick_length = $which_yln;
return TRUE;
}
/**
* Sets the crossing length of X tick marks (the part that sticks into the plot area)
*
* @param int $which_xc Crossing length of the tick marks, in pixels
* @return bool True always
*/
function SetXTickCrossing($which_xc)
{
$this->x_tick_cross = $which_xc;
return TRUE;
}
/**
* Sets the crossing length of Y tick marks (the part that sticks into the plot area)
*
* @param int $which_yc Crossing length of the tick marks, in pixels
* @return bool True always
*/
function SetYTickCrossing($which_yc)
{
$this->y_tick_cross = $which_yc;
return TRUE;
}
/**
* Sets an anchor point for X tick marks
*
* A tick anchor forces a tick mark at that exact value (if the data range were extended to include it).
*
* @param float $xta Tick anchor position in World Coordinates; omit or NULL for no anchor
* @return bool True always
* @since 5.4.0
*/
function SetXTickAnchor($xta = NULL)
{
$this->x_tick_anchor = $xta;
return TRUE;
}
/**
* Sets an anchor point for Y tick marks
*
* A tick anchor forces a tick mark at that exact value (if the data range were extended to include it).
*
* @param float $yta Tick anchor position in World Coordinates; omit or NULL for no anchor
* @return bool True always
* @since 5.4.0
*/
function SetYTickAnchor($yta = NULL)
{
$this->y_tick_anchor = $yta;
return TRUE;
}
/////////////////////////////////////////////
//////////////////// GENERIC DRAWING
/////////////////////////////////////////////
/**
* Fills the image background, with a tiled image file or solid color
*
* @param bool $overwrite True to do it even if already done, False or omit to do once only
* @return bool True always
*/
protected function DrawBackground($overwrite=FALSE)
{
// Check if background should be drawn:
if (empty($this->done['background']) || $overwrite) {
if (isset($this->bgimg)) { // If bgimg is defined, use it
$this->tile_img($this->bgimg, 0, 0, $this->image_width, $this->image_height, $this->bgmode);
} else { // Else use solid color
ImageFilledRectangle($this->img, 0, 0, $this->image_width, $this->image_height,
$this->ndx_bg_color);
}
$this->done['background'] = TRUE;
}
return TRUE;
}
/**
* Fills the plot area background, with a tiled image file or solid color
*
* @return bool True always
*/
protected function DrawPlotAreaBackground()
{
if (isset($this->plotbgimg)) {
$this->tile_img($this->plotbgimg, $this->plot_area[0], $this->plot_area[1],
$this->plot_area_width, $this->plot_area_height, $this->plotbgmode);
} elseif ($this->draw_plot_area_background) {
ImageFilledRectangle($this->img, $this->plot_area[0], $this->plot_area[1],
$this->plot_area[2], $this->plot_area[3], $this->ndx_plot_bg_color);
}
return TRUE;
}
/**
* Tiles an image from a file onto the plot image (for backgrounds)
*
* @param string $file Filename of the picture to be used as tile
* @param int $xorig X device coordinate of where the tile is to begin
* @param int $yorig Y device coordinate of where the tile is to begin
* @param int $width Width of the area to be tiled
* @param int $height Height of the area to be tiled
* @param string $mode Tiling mode: centeredtile | tile | scale
* @return bool True (False on error if an error handler returns True)
*
*/
protected function tile_img($file, $xorig, $yorig, $width, $height, $mode)
{
$im = $this->GetImage($file, $tile_width, $tile_height);
if (!$im)
return FALSE; // GetImage already produced an error message.
if ($mode == 'scale') {
imagecopyresampled($this->img, $im, $xorig, $yorig, 0, 0, $width, $height,
$tile_width, $tile_height);
return TRUE;
}
if ($mode == 'centeredtile') {
$x0 = - floor($tile_width/2); // Make the tile look better
$y0 = - floor($tile_height/2);
} else { // Accept anything else as $mode == 'tile'
$x0 = 0;
$y0 = 0;
}
// Draw the tile onto a temporary image first.
$tmp = imagecreate($width, $height);
if (! $tmp)
return $this->PrintError('tile_img(): Could not create image resource.');
for ($x = $x0; $x < $width; $x += $tile_width)
for ($y = $y0; $y < $height; $y += $tile_height)
imagecopy($tmp, $im, $x, $y, 0, 0, $tile_width, $tile_height);
// Copy the temporary image onto the final one.
imagecopy($this->img, $tmp, $xorig, $yorig, 0,0, $width, $height);
// Free resources
imagedestroy($tmp);
imagedestroy($im);
return TRUE;
}
/**
* Returns the width of the image border, for CalcMargins() and DrawImageBorder().
*
* @return int Border width in pixels, 0 for no borders
* @since 5.1.2
*/
protected function GetImageBorderWidth()
{
if ($this->image_border_type == 'none')
return 0; // No border
if (!empty($this->image_border_width))
return $this->image_border_width; // Specified border width
if ($this->image_border_type == 'raised')
return 2; // Default for raised border is 2 pixels.
return 1; // Default for other border types is 1 pixel.
}
/**
* Draws a border around the final image
*
* This draws a border around the image, if enabled by SetImageBorderType().
* Note: type 'plain' draws a flat border using the dark shade of the border color.
* This probably should have been written to use the actual border color, but
* it is too late to fix it without changing plot appearances. Therefore a
* new type 'solid' was added to use the SetImageBorderColor color.
*
* @param bool $overwrite True to do it even if already done, False or omit to do once only
* @return bool True (False on error if an error handler returns True)
*
*/
protected function DrawImageBorder($overwrite=FALSE)
{
// Check if border should be drawn:
if ($this->image_border_type == 'none' || !(empty($this->done['border']) || $overwrite))
return TRUE;
$width = $this->GetImageBorderWidth();
$color1 = $this->ndx_i_border;
$color2 = $this->ndx_i_border_dark;
$ex = $this->image_width - 1;
$ey = $this->image_height - 1;
switch ($this->image_border_type) {
case 'raised':
// Top and left lines use border color, right and bottom use the darker shade.
// Drawing order matters in the upper right and lower left corners.
for ($i = 0; $i < $width; $i++, $ex--, $ey--) {
imageline($this->img, $i, $i, $ex, $i, $color1); // Top
imageline($this->img, $ex, $i, $ex, $ey, $color2); // Right
imageline($this->img, $i, $i, $i, $ey, $color1); // Left
imageline($this->img, $i, $ey, $ex, $ey, $color2); // Bottom
}
break;
case 'plain': // See note above re colors
$color1 = $color2;
// Fall through
case 'solid':
for ($i = 0; $i < $width; $i++, $ex--, $ey--) {
imagerectangle($this->img, $i, $i, $ex, $ey, $color1);
}
break;
default:
return $this->PrintError(
"DrawImageBorder(): unknown image_border_type: '$this->image_border_type'");
}
$this->done['border'] = TRUE; // Border should only be drawn once per image.
return TRUE;
}
/**
* Draws the main plot title
*
* @return bool True always
*/
protected function DrawTitle()
{
if (!empty($this->done['title']) || $this->title_txt === '')
return TRUE;
// Center of the image:
$xpos = $this->image_width / 2;
// Place it at almost at the top
$ypos = $this->title_offset;
$this->DrawText('title', 0, $xpos, $ypos, $this->ndx_title_color, $this->title_txt, 'center', 'top');
$this->done['title'] = TRUE;
return TRUE;
}
/**
* Draws the X axis title, on the top or bottom (or both) of the plot area
*
* @return bool True always
*/
protected function DrawXTitle()
{
if ($this->x_title_pos == 'none')
return TRUE;
// Center of the plot
$xpos = ($this->plot_area[2] + $this->plot_area[0]) / 2;
// Upper title
if ($this->x_title_pos == 'plotup' || $this->x_title_pos == 'both') {
$ypos = $this->plot_area[1] - $this->x_title_top_offset;
$this->DrawText('x_title', 0, $xpos, $ypos, $this->ndx_x_title_color,
$this->x_title_txt, 'center', 'bottom');
}
// Lower title
if ($this->x_title_pos == 'plotdown' || $this->x_title_pos == 'both') {
$ypos = $this->plot_area[3] + $this->x_title_bot_offset;
$this->DrawText('x_title', 0, $xpos, $ypos, $this->ndx_x_title_color,
$this->x_title_txt, 'center', 'top');
}
return TRUE;
}
/**
* Draws the Y axis title, on the left or right side (or both) of the plot area
*
* @return bool True always
*/
protected function DrawYTitle()
{
if ($this->y_title_pos == 'none')
return TRUE;
// Center the title vertically to the plot area
$ypos = ($this->plot_area[3] + $this->plot_area[1]) / 2;
if ($this->y_title_pos == 'plotleft' || $this->y_title_pos == 'both') {
$xpos = $this->plot_area[0] - $this->y_title_left_offset;
$this->DrawText('y_title', 90, $xpos, $ypos, $this->ndx_y_title_color,
$this->y_title_txt, 'right', 'center');
}
if ($this->y_title_pos == 'plotright' || $this->y_title_pos == 'both') {
$xpos = $this->plot_area[2] + $this->y_title_right_offset;
$this->DrawText('y_title', 90, $xpos, $ypos, $this->ndx_y_title_color,
$this->y_title_txt, 'left', 'center');
}
return TRUE;
}
/**
* Draws the X axis, including ticks and labels, and vertical grid lines
*
* @return bool True always
*/
protected function DrawXAxis()
{
// Draw ticks, labels and grid
$this->DrawXTicks();
//Draw X Axis at Y = x_axis_y_pixels, unless suppressed (See SetXAxisPosition)
if (!$this->suppress_x_axis) {
ImageLine($this->img, $this->plot_area[0]+1, $this->x_axis_y_pixels,
$this->plot_area[2]-1, $this->x_axis_y_pixels, $this->ndx_grid_color);
}
return TRUE;
}
/**
* Draws the Y axis, including ticks and labels, and horizontal grid lines
*
* This draws the Y axis and grid lines. It must be called before DrawXAxis() to avoid
* having a horizontal grid line overwrite the X axis.
*
* @return bool True always
*/
protected function DrawYAxis()
{
// Draw ticks, labels and grid
$this->DrawYTicks();
// Draw Y axis at X = y_axis_x_pixels, unless suppressed (See SetYAxisPosition)
if (!$this->suppress_y_axis) {
ImageLine($this->img, $this->y_axis_x_pixels, $this->plot_area[1],
$this->y_axis_x_pixels, $this->plot_area[3], $this->ndx_grid_color);
}
return TRUE;
}
/**
* Draws one X tick mark and its tick label
*
* @param float $x X value for the label
* @param int $x_pixels X device coordinate for this tick mark
* @return bool True always
* @since 5.0.5
*/
protected function DrawXTick($x, $x_pixels)
{
// Ticks on X axis
if ($this->x_tick_pos == 'xaxis') {
ImageLine($this->img, $x_pixels, $this->x_axis_y_pixels - $this->x_tick_cross,
$x_pixels, $this->x_axis_y_pixels + $this->x_tick_length, $this->ndx_tick_color);
}
// Ticks on top of the Plot Area
if ($this->x_tick_pos == 'plotup' || $this->x_tick_pos == 'both') {
ImageLine($this->img, $x_pixels, $this->plot_area[1] - $this->x_tick_length,
$x_pixels, $this->plot_area[1] + $this->x_tick_cross, $this->ndx_tick_color);
}
// Ticks on bottom of Plot Area
if ($this->x_tick_pos == 'plotdown' || $this->x_tick_pos == 'both') {
ImageLine($this->img, $x_pixels, $this->plot_area[3] + $this->x_tick_length,
$x_pixels, $this->plot_area[3] - $this->x_tick_cross, $this->ndx_tick_color);
}
if ($this->x_tick_label_pos != 'none') {
$x_label = $this->FormatLabel('x', $x);
// Label on X axis
if ($this->x_tick_label_pos == 'xaxis') {
$this->DrawText('x_label', $this->x_label_angle,
$x_pixels, $this->x_axis_y_pixels + $this->x_label_axis_offset,
$this->ndx_ticklabel_color, $x_label, 'center', 'top');
}
// Label on top of the plot area
if ($this->x_tick_label_pos == 'plotup' || $this->x_tick_label_pos == 'both') {
$this->DrawText('x_label', $this->x_label_angle,
$x_pixels, $this->plot_area[1] - $this->x_label_top_offset,
$this->ndx_ticklabel_color, $x_label, 'center', 'bottom');
}
// Label on bottom of the plot area
if ($this->x_tick_label_pos == 'plotdown' || $this->x_tick_label_pos == 'both') {
$this->DrawText('x_label', $this->x_label_angle,
$x_pixels, $this->plot_area[3] + $this->x_label_bot_offset,
$this->ndx_ticklabel_color, $x_label, 'center', 'top');
}
}
return TRUE;
}
/**
* Draws one Y tick mark and its tick label
*
* @param float $y Y value for the label
* @param int $y_pixels Y device coordinate for this tick mark
* @return bool True always
* @since 5.8.0
*/
protected function DrawYTick($y, $y_pixels)
{
// Ticks on Y axis
if ($this->y_tick_pos == 'yaxis') {
ImageLine($this->img, $this->y_axis_x_pixels - $this->y_tick_length, $y_pixels,
$this->y_axis_x_pixels + $this->y_tick_cross, $y_pixels, $this->ndx_tick_color);
}
// Ticks to the left of the Plot Area
if (($this->y_tick_pos == 'plotleft') || ($this->y_tick_pos == 'both') ) {
ImageLine($this->img, $this->plot_area[0] - $this->y_tick_length, $y_pixels,
$this->plot_area[0] + $this->y_tick_cross, $y_pixels, $this->ndx_tick_color);
}
// Ticks to the right of the Plot Area
if (($this->y_tick_pos == 'plotright') || ($this->y_tick_pos == 'both') ) {
ImageLine($this->img, $this->plot_area[2] + $this->y_tick_length, $y_pixels,
$this->plot_area[2] - $this->y_tick_cross, $y_pixels, $this->ndx_tick_color);
}
if ($this->y_tick_label_pos != 'none') {
$y_label = $this->FormatLabel('y', $y);
// Labels on Y axis
if ($this->y_tick_label_pos == 'yaxis') {
$this->DrawText('y_label', $this->y_label_angle,
$this->y_axis_x_pixels - $this->y_label_axis_offset, $y_pixels,
$this->ndx_ticklabel_color, $y_label, 'right', 'center');
}
// Labels to the left of the plot area
if ($this->y_tick_label_pos == 'plotleft' || $this->y_tick_label_pos == 'both') {
$this->DrawText('y_label', $this->y_label_angle,
$this->plot_area[0] - $this->y_label_left_offset, $y_pixels,
$this->ndx_ticklabel_color, $y_label, 'right', 'center');
}
// Labels to the right of the plot area
if ($this->y_tick_label_pos == 'plotright' || $this->y_tick_label_pos == 'both') {
$this->DrawText('y_label', $this->y_label_angle,
$this->plot_area[2] + $this->y_label_right_offset, $y_pixels,
$this->ndx_ticklabel_color, $y_label, 'left', 'center');
}
}
return TRUE;
}
/**
* Draws the vertical grid lines, the X axis tick marks, and X axis tick labels
*
* @return bool True always
*/
protected function DrawXTicks()
{
// Set color for solid, or flag for dashed line:
$style = $this->SetDashedStyle($this->ndx_light_grid_color, $this->dashed_grid);
// Draw grids lines?
$draw_grid = $this->GetGridSetting('x');
// Calculate the tick start, end, and step:
list($x_start, $x_end, $delta_x) = $this->CalcTicks('x');
// Loop, avoiding cumulative round-off errors from $x += $delta_x
for ($n = 0; ($x = $x_start + $n * $delta_x) <= $x_end; $n++) {
$x_pixels = $this->xtr($x);
// Draw vertical grid line:
if ($draw_grid) {
ImageLine($this->img, $x_pixels, $this->plot_area[1], $x_pixels, $this->plot_area[3], $style);
}
// Draw tick mark and tick label:
$this->DrawXTick($x, $x_pixels);
}
return TRUE;
}
/**
* Draws the horizontal grid lines, the Y axis tick marks, and Y axis tick labels
*
* @return bool True always
*/
protected function DrawYTicks()
{
// Set color for solid, or flag for dashed line:
$style = $this->SetDashedStyle($this->ndx_light_grid_color, $this->dashed_grid);
// Draw grids lines?
$draw_grid = $this->GetGridSetting('y');
// Calculate the tick start, end, and step:
list($y_start, $y_end, $delta_y) = $this->CalcTicks('y');
// Loop, avoiding cumulative round-off errors from $y += $delta_y
for ($n = 0; ($y = $y_start + $n * $delta_y) <= $y_end; $n++) {
$y_pixels = $this->ytr($y);
// Draw horizontal grid line:
if ($draw_grid) {
ImageLine($this->img, $this->plot_area[0]+1, $y_pixels, $this->plot_area[2]-1,
$y_pixels, $style);
}
// Draw tick mark and tick label:
$this->DrawYTick($y, $y_pixels);
}
return TRUE;
}
/**
* Draws the border around the plot area
*
* This draws the plot border, as set by SetPlotBorderType(). The
* plot_border_type can be unset/NULL, a scaler, or an array. If unset or null,
* the default is used ('sides' if the plot includes axes, 'none' if not).
*
* @param bool $draw_axes True or omit to draw the X axis and Y axis, false to not (for pie charts)
* @return bool True always
*/
protected function DrawPlotBorder($draw_axes = TRUE)
{
// Force plot_border_type to array and apply defaults.
if (isset($this->plot_border_type)) {
$pbt = (array)$this->plot_border_type;
} elseif ($draw_axes) $pbt = array('sides');
else return TRUE; // Default to no border for plots without axes (e.g. pie charts)
$sides = 0; // Bitmap: 1=left 2=top 4=right 8=bottom
$map = array('left' => 1, 'plotleft' => 1, 'right' => 4, 'plotright' => 4, 'top' => 2,
'bottom' => 8, 'both' => 5, 'sides' => 5, 'full' => 15, 'none' => 0);
foreach ($pbt as $option) $sides |= $map[$option];
if ($sides == 15) { // Border on all 4 sides
imagerectangle($this->img, $this->plot_area[0], $this->plot_area[1],
$this->plot_area[2], $this->plot_area[3], $this->ndx_grid_color);
} else {
if ($sides & 1) // Left
imageline($this->img, $this->plot_area[0], $this->plot_area[1],
$this->plot_area[0], $this->plot_area[3], $this->ndx_grid_color);
if ($sides & 2) // Top
imageline($this->img, $this->plot_area[0], $this->plot_area[1],
$this->plot_area[2], $this->plot_area[1], $this->ndx_grid_color);
if ($sides & 4) // Right
imageline($this->img, $this->plot_area[2], $this->plot_area[1],
$this->plot_area[2], $this->plot_area[3], $this->ndx_grid_color);
if ($sides & 8) // Bottom
imageline($this->img, $this->plot_area[0], $this->plot_area[3],
$this->plot_area[2], $this->plot_area[3], $this->ndx_grid_color);
}
return TRUE;
}
/**
* Draws the data value label associated with a point in the plot
*
* The labels drawn by this function are those that show the value (usually
* the Y value) of the data point. They are drawn within the plot area,
* not to be confused with axis data labels.
*
* The $dvl parameter array can contain these keys:
* h_align v_align : Selects from 9-point text alignment (default center, center);
* x_offset y_offset : Text position offsets, in device coordinates (default 0,0);
* min_width min_height : Suppress the text if it will not fit (default null,null = no check).
* See also CheckDataValueLabels() which sets some of these.
*
* @param string $x_or_y Which labels: x | y, used to select font, angle, formatting
* @param int $row Identifies the row of the data point (for custom label formatting)
* @param int $column Identifies the column of the data point (for custom label formatting)
* @param float $x_world X world coordinate of the base point
* @param float $y_world Y world coordinate of the base point
* @param mixed $text The text to draw after formatting with FormatLabel()
* @param mixed[] $dvl Associative array with additional label position controls (see above)
* @return bool True, if the text was drawn, or False, if it will not fit
* @since 5.1.3
*/
protected function DrawDataValueLabel($x_or_y, $row, $column, $x_world, $y_world, $text, $dvl)
{
if ($x_or_y == 'x') {
$angle = $this->x_data_label_angle;
$font_id = 'x_label';
$formatted_text = $this->FormatLabel('xd', $text, $row, $column);
} else { // Assumed 'y'
$angle = $this->y_data_label_angle;
$font_id = 'y_label';
$formatted_text = $this->FormatLabel('yd', $text, $row, $column);
}
// Assign defaults and then extract control variables from $dvl:
$x_offset = $y_offset = 0;
$h_align = $v_align = 'center';
extract($dvl);
// Check to see if the text fits in the available space, if requested.
if (isset($min_width) || isset($min_height)) {
list($width, $height) = $this->SizeText($font_id, $angle, $formatted_text);
if ((isset($min_width) && ($min_width - $width) < 2)
|| (isset($min_height) && ($min_height - $height) < 2))
return FALSE;
}
$this->DrawText($font_id, $angle, $this->xtr($x_world) + $x_offset, $this->ytr($y_world) + $y_offset,
$this->ndx_dvlabel_color, $formatted_text, $h_align, $v_align);
return TRUE;
}
/**
* Draws an X axis data label, and optional data label line (used in vertical plots)
*
* @param string $xlab Text of the label to draw
* @param int $xpos X position for the label, in device coordinates
* @param int $row Row index, 0 for the first X, 1 for the second, etc.
* @param bool $do_lines True for plot types that support data label lines, False or omit if not
* @return bool True always
*/
protected function DrawXDataLabel($xlab, $xpos, $row, $do_lines=FALSE)
{
$xlab = $this->FormatLabel('xd', $xlab, $row);
// Labels below the plot area
if ($this->x_data_label_pos == 'plotdown' || $this->x_data_label_pos == 'both')
$this->DrawText('x_label', $this->x_data_label_angle,
$xpos, $this->plot_area[3] + $this->x_label_bot_offset,
$this->ndx_datalabel_color, $xlab, 'center', 'top');
// Labels above the plot area
if ($this->x_data_label_pos == 'plotup' || $this->x_data_label_pos == 'both')
$this->DrawText('x_label', $this->x_data_label_angle,
$xpos, $this->plot_area[1] - $this->x_label_top_offset,
$this->ndx_datalabel_color, $xlab, 'center', 'bottom');
if ($do_lines && $this->draw_x_data_label_lines)
$this->DrawXDataLine($xpos, $row);
return TRUE;
}
/**
* Draws a Y axis data label, and optional data label line (used in horizontal plots)
*
* @param string $ylab Text of the label to draw
* @param int $ypos Y position for the label, in device coordinates
* @param int $row Row index, 0 for the first Y, 1 for the second, etc.
* @param bool $do_lines True for plot types that support data label lines, False or omit if not
* @return bool True always
* @since 5.1.2
*/
protected function DrawYDataLabel($ylab, $ypos, $row, $do_lines=FALSE)
{
$ylab = $this->FormatLabel('yd', $ylab, $row);
// Labels left of the plot area
if ($this->y_data_label_pos == 'plotleft' || $this->y_data_label_pos == 'both')
$this->DrawText('y_label', $this->y_data_label_angle,
$this->plot_area[0] - $this->y_label_left_offset, $ypos,
$this->ndx_datalabel_color, $ylab, 'right', 'center');
// Labels right of the plot area
if ($this->y_data_label_pos == 'plotright' || $this->y_data_label_pos == 'both')
$this->DrawText('y_label', $this->y_data_label_angle,
$this->plot_area[2] + $this->y_label_right_offset, $ypos,
$this->ndx_datalabel_color, $ylab, 'left', 'center');
if ($do_lines && $this->draw_y_data_label_lines)
$this->DrawYDataLine($ypos, $row);
return TRUE;
}
/**
* Draws vertical data label lines (used in vertical plots)
*
* This draws vertical lines from a data point up and/or down.
* Which lines are drawn depends on the value of x_data_label_pos.
* Whether this is done not depends on draw_x_data_label_lines.
*
* @param int $xpos X position in pixels of the line
* @param int $row Index of the data row being drawn
* @return bool True always
*/
protected function DrawXDataLine($xpos, $row)
{
// Set color for solid, or flag for dashed line:
$style = $this->SetDashedStyle($this->ndx_light_grid_color, $this->dashed_grid);
if ($this->x_data_label_pos == 'both') {
// Lines from the bottom up
ImageLine($this->img, $xpos, $this->plot_area[3], $xpos, $this->plot_area[1], $style);
} elseif ($this->x_data_label_pos == 'plotdown' && isset($this->data_max[$row])) {
// Lines from the bottom of the plot up to the max Y value at this X:
$ypos = $this->ytr($this->data_max[$row]);
ImageLine($this->img, $xpos, $ypos, $xpos, $this->plot_area[3], $style);
} elseif ($this->x_data_label_pos == 'plotup' && isset($this->data_min[$row])) {
// Lines from the top of the plot down to the min Y value at this X:
$ypos = $this->ytr($this->data_min[$row]);
ImageLine($this->img, $xpos, $this->plot_area[1], $xpos, $ypos, $style);
}
return TRUE;
}
/**
* Draws horizontal data label lines (used in horizontal plots)
*
* This draws horizontal lines from a data points left and/or right.
* Which lines are drawn depends on the value of y_data_label_pos.
* Whether this is done not depends on draw_y_data_label_lines.
*
* @param int $ypos Y position in pixels of the line
* @param int $row Index of the data row being drawn
* @return bool True always
* @since 6.0.0
*/
protected function DrawYDataLine($ypos, $row)
{
// Set color for solid, or flag for dashed line:
$style = $this->SetDashedStyle($this->ndx_light_grid_color, $this->dashed_grid);
if ($this->y_data_label_pos == 'both') {
// Lines from the left side to the right side
ImageLine($this->img, $this->plot_area[0], $ypos, $this->plot_area[2], $ypos, $style);
} elseif ($this->y_data_label_pos == 'plotleft' && isset($this->data_max[$row])) {
// Lines from the left of the plot rightwards the max X value at this Y:
$xpos = $this->xtr($this->data_max[$row]);
ImageLine($this->img, $xpos, $ypos, $this->plot_area[0], $ypos, $style);
} elseif ($this->y_data_label_pos == 'plotright' && isset($this->data_min[$row])) {
// Lines from the right of the plot leftwards to the min X value at this Y:
$xpos = $this->xtr($this->data_min[$row]);
ImageLine($this->img, $this->plot_area[2], $ypos, $xpos, $ypos, $style);
}
return TRUE;
}
/**
* Formats a pie chart label
*
* @param int $index Pie slice number, starting with 0
* @param string[] $pie_label_source Label formatting mode(s). See CheckPieLabels() and SetPieLabelType()
* @param float $arc_angle Delta angle for this slice, in degrees
* @param float $slice_weight Numeric value, or relative weight, of this slice
* @return string The formatted label value
* @since 5.6.0
*/
protected function FormatPieLabel($index, $pie_label_source, $arc_angle, $slice_weight)
{
$values = array(); // Builds up label value, one field at a time.
foreach ($pie_label_source as $word) {
switch ($word) {
case 'label': // Use label from data array, but only if data type is compatible
$values[] = $this->datatype_pie_single ? $this->data[$index][0] : '';
break;
case 'value': // Use actual numeric value of the slice
$values[] = $slice_weight;
break;
case 'index': // Use slice index: 0, 1, 2...
$values[] = $index;
break;
default: // Use percentage: 100% x arc_angle / (360 degrees) = arc_angle / 3.6
$values[] = $arc_angle / 3.6;
}
}
// Format the label and return the result. Note: The conditional avoids a number-to-string
// conversion for the single-source case. This avoids a PHP issue with locale-based conversion.
return $this->FormatLabel('p', count($values) == 1 ? $values[0] : implode(' ', $values));
}
/**
* Draws a pie chart label
*
* This draws a single label for a pie chart.
*
* The $r parameter array is calculated by DrawPieChart() and contains
* values that are constant for the chart, so do not need to be
* recalculated for each slice. Array keys are 'x' 'y' and 'reverse'.
* r[x], r[y] are the parameters of the ellipse: ` x**2 / r[x]**2 + y**2 / r[y]**2 = 1 `
* Also: ` x = r[x] * cos(angle) ` and ` y = r[y] * sin(angle) ` (relative to pie center).
* 'reverse' is a flag for text alignment (see GetTextAlignment()).
*
* @param string $label_txt Pre-formatted label, from FormatPieLabel()
* @param int $xc X device coordinate of the pie center
* @param int $yc Y device coordinate of the pie center
* @param float $start_angle Slice starting angle in degrees
* @param float $arc_angle Slice angular width in degrees
* @param mixed[] $r Additional paramter array (from DrawPieChart, see comment above)
* @return bool True always
* @since 5.6.0
*/
protected function DrawPieLabel($label_txt, $xc, $yc, $start_angle, $arc_angle, $r)
{
$mid_angle = deg2rad($start_angle + $arc_angle / 2);
$sin_mid = sin($mid_angle);
$cos_mid = cos($mid_angle);
// Calculate label reference point.
$label_x = $xc + $cos_mid * $r['x'];
$label_y = $yc - $sin_mid * $r['y'];
// For labels in the lower half, outside the pie, offset it to account for shading.
// But don't shift labels just below the horizontal, because the shading is too thin there,
// and the label ends up too far from the slice. Make a smooth transition between label offsets on
// shaded area and above. (This isn't perfect at all, but works for reasonably low shading.)
if ($this->label_scale_position >= 0.5 && $this->shading > 0 && $sin_mid < 0) {
$yoff = min($this->shading, -$sin_mid * $r['y']);
} else $yoff = 0;
// Calculate text alignment (h_align, v_align) based on angle:
$this->GetTextAlignment($sin_mid, $cos_mid, $h_align, $v_align, $r['reverse']);
// Draw the label:
$this->DrawText('generic', 0, $label_x, $label_y + $yoff, $this->ndx_pielabel_color,
$label_txt, $h_align, $v_align);
return TRUE;
}
/////////////////////////////////////////////
/////////////// LEGEND
/////////////////////////////////////////////
/**
* Adds text to a legend box
*
* The legend can be set up with a single call by passing an array of
* strings (1 string per legend line/data set), or it can be built up
* one line at a time with repeated calls passing a single string.
* NULL (or an empty array) can be passed to cancel the legend.
*
* @param string|string[] $which_leg Array of strings for the legend, or a single string to append
* @return bool True always
*/
function SetLegend($which_leg)
{
if (is_array($which_leg)) { // use array (or cancel, if empty array)
$this->legend = $which_leg;
} elseif (!is_null($which_leg)) { // append string
if (!isset($this->legend)) $this->legend = array(); // Seems unnecessary, but be safe.
$this->legend[] = $which_leg;
} else {
$this->legend = NULL; // Reset to no legend.
}
return TRUE;
}
/**
* Positions the legend on the image, using device coordinates
*
* @param int $which_x X coordinate in pixels of the upper left corner of the legend box
* @param int $which_y Y coordinate in pixels of the upper left corner of the legend box
* @return bool True (False on error if an error handler returns True)
*/
function SetLegendPixels($which_x=NULL, $which_y=NULL)
{
return $this->SetLegendPosition(0, 0, 'image', 0, 0, $which_x, $which_y);
}
/**
* Positions the legend on the image, using world coordinates
*
* @param int $which_x World coordinate X of the upper left corner of the legend box
* @param int $which_y World coordinate Y of the upper left corner of the legend box
* @return bool True (False on error if an error handler returns True)
*/
function SetLegendWorld($which_x, $which_y)
{
return $this->SetLegendPosition(0, 0, 'world', $which_x, $which_y);
}
/**
* Positions the legend
*
* This implements SetLegendWorld(), SetLegendPixels(), and also allows use
* of relative coordinates, with optional pixel offset.
*
* 'Relative coordinates' means: (0,0) is the upper left corner, and (1,1)
* is the lower right corner of the element (legend, image, plot, or title
* area), regardless of its size. These are floating point values, each
* usually in the range [0,1], but they can be negative or greater than 1.
*
* If any of x, y, x_offset, or y_offset are NULL, the default legend
* positioning is restored.
*
* Note: This only stores the parameters. The real work is in GetLegendPosition().
*
* @param float $x Relative coordinate X indicating an anchor point on the legend box
* @param float $y Relative coordinate X indicating an anchor point on the legend box
* @param string $relative_to Position is relative to: image | plot | world | title
* @param float $x_base Base point X for positioning to the anchor point
* @param float $y_base Base point Y for positioning to the anchor point
* @param int $x_offset Additional legend box offset X value in pixels
* @param int $y_offset Additional legend box offset Y value in pixels
* @return bool True (False on error if an error handler returns True)
* @since 5.4.0
*/
function SetLegendPosition($x, $y, $relative_to, $x_base, $y_base, $x_offset = 0, $y_offset = 0)
{
// Special case: NULL means restore the default positioning.
if (!isset($x, $y, $x_offset, $y_offset)) {
$this->legend_pos = NULL;
} else {
$mode = $this->CheckOption($relative_to, 'image, plot, title, world', __FUNCTION__);
if (empty($mode))
return FALSE;
// Save all values for use by GetLegendPosition()
$this->legend_pos = compact('x', 'y', 'mode', 'x_base', 'y_base', 'x_offset', 'y_offset');
}
return TRUE;
}
/**
* Controls the appearance of the legend
*
* @param string $text_align How to align the text in the legend: left | right
* @param string $colorbox_align How to align the color boxes or shape markers: left | right | none | ''
* @return bool True (False on error if an error handler returns True)
* @since 5.0.4
*/
function SetLegendStyle($text_align, $colorbox_align = '')
{
$this->legend_text_align = $this->CheckOption($text_align, 'left, right', __FUNCTION__);
if (empty($colorbox_align))
$this->legend_colorbox_align = $this->legend_text_align;
else
$this->legend_colorbox_align = $this->CheckOption($colorbox_align, 'left, right, none',
__FUNCTION__);
return ($this->legend_text_align && $this->legend_colorbox_align);
}
/**
* Selects use of color boxes or alternative shapes (point shapes or line segments) in the legend
*
* @param bool $use_shapes True to use shapes or lines, false to use color boxes
* @return bool True always
* @since 5.4.0
*/
function SetLegendUseShapes($use_shapes)
{
$this->legend_use_shapes = (bool)$use_shapes;
return TRUE;
}
/**
* Controls the order of text lines in the legend (e.g. for Stackedbar plots)
*
* @param bool $reversal True to reverse the order - bottom up; False for default top down
* @return bool True always
* @since 5.5.0
*/
function SetLegendReverse($reversal = False)
{
$this->legend_reverse_order = (bool)$reversal;
return TRUE;
}
/**
* Controls the borders around the color boxes in the legend
*
* @param string $cbbmode Color box mode: none | textcolor | databordercolor
* @return bool True (False on error if an error handler returns True)
* @since 6.0.0
*/
function SetLegendColorboxBorders($cbbmode = 'textcolor')
{
$this->legend_colorbox_borders = $this->CheckOption($cbbmode, 'none, textcolor, databordercolor',
__FUNCTION__);
return (boolean)$this->legend_colorbox_borders;
}
/**
* Calculates legend sizing parameters
*
* Used by DrawLegend() and the public GetLegendSize().
* It returns information based on any SetLegend*() calls already made. It does not use
* legend position or data scaling, so it can be called before data scaling is set up.
* It must not be called if $this->legend is empty.
*
* Returns an associative array with these entries describing legend sizing:
* 'width', 'height' : Overall legend box size in pixels.
* 'char_w', 'char_h' : Width and height of 'E' in legend text font. (Used to size color boxes)
* 'v_margin' : Inside margin for legend
* 'dot_height' : Height of color boxes (even if not drawn), for line spacing.
* 'colorbox_mode', 'colorbox_width' : Colorbox/shape mode and width factor.
*
* @return array Legend sizing parameter associative array
* @since 5.4.0
*/
protected function GetLegendSizeParams()
{
$font = &$this->fonts['legend']; // Shortcut to font info array
// Find maximum legend label line width.
$max_width = 0;
foreach ($this->legend as $line) {
list($width, $unused) = $this->SizeText('legend', 0, $line);
if ($width > $max_width) $max_width = $width;
}
// Font parameters are used to size the color boxes:
$char_w = $font['width'];
$char_h = $font['height'];
$line_spacing = $this->GetLineSpacing($font);
// Get color-box mode. Note GetLegendSizeParams can be called from GetLegendSize, and not all
// settings are defined then, but the colorbox_mode won't be used then so it need not be valid.
if ($this->legend_colorbox_align == 'none') {
$colorbox_mode = False; // Color boxes are off
} elseif (!$this->legend_use_shapes || empty(self::$plots[$this->plot_type]['legend_alt_marker'])) {
$colorbox_mode = 'box'; // Not using shapes, or plot type defines no shape, so use boxes.
} else {
$colorbox_mode = self::$plots[$this->plot_type]['legend_alt_marker']; // Shape from plot type
}
// Sizing parameters:
$v_margin = $char_h / 2; // Between vertical borders and labels
$dot_height = $char_h + $line_spacing; // Height of the color boxes (even if not drawn)
$colorbox_width = $char_w * $this->legend_colorbox_width; // Color box width, with adjustment
// The 'line' style marker needs a wider colorbox than shape or box.
if ($colorbox_mode == 'line')
$colorbox_width *= 4;
// Calculate overall legend box width and height.
// Width is e.g.: "| space colorbox space text space |" where each space adds $char_w,
// and colorbox (if drawn) adds $char_w * its width adjustment.
if ($colorbox_mode) {
$width = $max_width + 3 * $char_w + $colorbox_width;
} else {
$width = $max_width + 2 * $char_w;
}
$height = $dot_height * count($this->legend) + 2 * $v_margin;
return compact('width', 'height', 'char_w', 'char_h', 'v_margin',
'colorbox_mode', 'dot_height', 'colorbox_width');
}
/**
* Gets the legend box size (can be used to adjust the plot margins, for example)
*
* @return int[] Legend box size as array of (width, height) in pixels, False if no legend defined.
* @since 5.4.0
*/
function GetLegendSize()
{
if (empty($this->legend))
return FALSE;
$params = $this->GetLegendSizeParams();
return array($params['width'], $params['height']);
}
/**
* Calculates the legend location in device coordinates
*
* This is a helper for DrawLegend, and is only called if there is a legend.
* See SetLegendWorld(), SetLegendPixels(), SetLegendPosition().
*
* @param int $width Width of the legend box
* @param int $height Height of the legend box
* @return int[] Coordinates of the upper left corner of the legend box as an array ($x, $y)
* @since 5.4.0
*/
protected function GetLegendPosition($width, $height)
{
// Extract variables set by SetLegend*(): $mode, $x, $y, $x_base, $y_base, $x_offset, $y_offset
if (isset($this->legend_pos['mode']))
extract($this->legend_pos);
else
$mode = ''; // Default legend position mode.
switch ($mode) {
case 'plot': // SetLegendPosition with mode='plot', relative coordinates over plot area.
return array((int)($x_base * $this->plot_area_width - $x * $width)
+ $this->plot_area[0] + $x_offset,
(int)($y_base * $this->plot_area_height - $y * $height)
+ $this->plot_area[1] + $y_offset);
case 'world': // User-defined position in world-coordinates (SetLegendWorld), using x_base, y_base
return array($this->xtr($x_base) + $x_offset - (int)($x * $width),
$this->ytr($y_base) + $y_offset - (int)($y * $height));
case 'image': // SetLegendPosition with mode='image', relative coordinates over image area.
// SetLegendPixels() uses this too, with x=y=0.
return array((int)($x_base * $this->image_width - $x * $width) + $x_offset,
(int)($y_base * $this->image_height - $y * $height) + $y_offset);
case 'title': // SetLegendPosition with mode='title', relative to main title.
// Recalculate main title position/size, since CalcMargins does not save it. See DrawTitle()
list($title_width, $title_height) = $this->SizeText('title', 0, $this->title_txt);
$title_x = (int)(($this->image_width - $title_width) / 2);
return array((int)($x_base * $title_width - $x * $width) + $title_x + $x_offset,
(int)($y_base * $title_height - $y * $height) + $this->title_offset + $y_offset);
default: // If mode is unset (or invalid), use default position.
return array ($this->plot_area[2] - $width - $this->safe_margin,
$this->plot_area[1] + $this->safe_margin);
}
}
/**
* Draws the plot legend - the outline box, text labels, and color boxes or shapes
*
* @return bool True always
*/
protected function DrawLegend()
{
// Calculate legend box sizing parameters:
// See GetLegendSizeParams() to see what variables are set by this.
extract($this->GetLegendSizeParams());
// Get legend box position:
list($box_start_x, $box_start_y) = $this->GetLegendPosition($width, $height);
$box_end_y = $box_start_y + $height;
$box_end_x = $box_start_x + $width;
// Draw outer box
ImageFilledRectangle($this->img, $box_start_x, $box_start_y, $box_end_x, $box_end_y,
$this->ndx_legend_bg_color);
ImageRectangle($this->img, $box_start_x, $box_start_y, $box_end_x, $box_end_y,
$this->ndx_grid_color);
// Calculate color box and text horizontal positions.
if (!$colorbox_mode) {
if ($this->legend_text_align == 'left')
$x_pos = $box_start_x + $char_w;
else
$x_pos = $box_end_x - $char_w;
$dot_left_x = 0; // Not used directly if color boxes/shapes are off, but referenced below.
} elseif ($this->legend_colorbox_align == 'left') {
$dot_left_x = $box_start_x + $char_w;
$dot_right_x = $dot_left_x + $colorbox_width;
if ($this->legend_text_align == 'left')
$x_pos = $dot_right_x + $char_w;
else
$x_pos = $box_end_x - $char_w;
} else { // colorbox_align == 'right'
$dot_right_x = $box_end_x - $char_w;
$dot_left_x = $dot_right_x - $colorbox_width;
if ($this->legend_text_align == 'left')
$x_pos = $box_start_x + $char_w;
else
$x_pos = $dot_left_x - $char_w;
}
// $y_pos is the bottom of each color box. $yc is the vertical center of the color box or
// the point shape (if drawn). The text is centered vertically on $yc.
// For normal order (top-down), $y_pos starts at the top. For reversed order, at the bottom.
if ($this->legend_reverse_order) {
$y_pos = $box_end_y - $v_margin;
$delta_y = -$dot_height;
} else {
$y_pos = $box_start_y + $v_margin + $dot_height;
$delta_y = $dot_height;
}
$yc = (int)($y_pos - $dot_height / 2);
$xc = (int)($dot_left_x + $colorbox_width / 2); // Horizontal center for point shape if drawn
// Colorbox color index, shape index, and line width/style index variables.
// Note the arrays these are used to index have been padded to data_columns entries. The legend
// can contain more than data_columns entries, though, but it only makes sense to be able
// to index additional entries for the data color, due to the data_color callback.
if ($colorbox_mode) {
$color_index = 0;
$max_color_index = count($this->ndx_data_colors) - 1;
$lws_index = 0; // Line Width and Style index
$shape_index = 0;
}
foreach ($this->legend as $leg) {
// Draw text with requested alignment:
$this->DrawText('legend', 0, $x_pos, $yc, $this->ndx_legend_text_color, $leg,
$this->legend_text_align, 'center');
if ($colorbox_mode) {
$y1 = $y_pos - $dot_height + 1;
$y2 = $y_pos - 1;
// If plot area background is on, draw a background for any non-box shapes:
if ($this->draw_plot_area_background && $colorbox_mode != 'box') {
ImageFilledRectangle($this->img, $dot_left_x, $y1, $dot_right_x, $y2,
$this->ndx_plot_bg_color);
}
switch ($colorbox_mode) {
case 'shape':
// Draw the shape. DrawShape() takes shape_index modulo number of defined shapes.
$this->DrawShape($xc, $yc, $shape_index++, $this->ndx_data_colors[$color_index], FALSE);
break;
case 'line':
// Draw a short line segment with proper color, width, and style
imagesetthickness($this->img, $this->line_widths[$lws_index]);
$style = $this->SetDashedStyle($this->ndx_data_colors[$color_index],
$this->line_styles[$lws_index] == 'dashed');
imageline($this->img, $dot_left_x, $yc, $dot_right_x, $yc, $style);
imagesetthickness($this->img, 1);
if (++$lws_index >= $this->data_columns) $lws_index = 0; // Wrap around
break;
default:
// Draw color boxes:
ImageFilledRectangle($this->img, $dot_left_x, $y1, $dot_right_x, $y2,
$this->ndx_data_colors[$color_index]);
// Draw a rectangle around the box, if enabled.
if ($this->legend_colorbox_borders != 'none') {
if ($this->legend_colorbox_borders == 'databordercolor')
$color = $this->ndx_data_border_colors[$color_index];
else
$color = $this->ndx_text_color;
ImageRectangle($this->img, $dot_left_x, $y1, $dot_right_x, $y2, $color);
}
}
if (++$color_index > $max_color_index) $color_index = 0;
}
$y_pos += $delta_y;
$yc += $delta_y;
}
return TRUE;
}
/////////////////////////////////////////////
//////////////////// PLOT DRAWING HELPERS
/////////////////////////////////////////////
/**
* Gets the color index to use for plotting a data element (point or line segment, for example)
*
* This is used to select data colors for plotting. Without a custom data
* color callback, color selection is based on $idx, the column index in
* the data array. So the first data set (Y) uses the first color, etc.
* With a custom data color callback, both row and column index values
* are passed to the callback so it can use them to select a color.
*
* @param int $row Row index for the current data point (used only for a custom data color callback)
* @param int $idx Column index for the current data point (e.g. 0 for the first Y value for each X)
* @param mixed[] $vars Reference variable, array for local storage (caller makes an empty array)
* @param int $data_color Reference variable: returned color index to use for drawing
* @param mixed $extra Extra variable passed through to a data color callback
* @since 5.2.0
*/
protected function GetDataColor($row, $idx, &$vars, &$data_color, $extra = 0)
{
// Initialize or extract variables:
if (empty($vars)) {
$custom_color = (bool)$this->GetCallback('data_color');
$num_data_colors = count($this->ndx_data_colors);
$vars = compact('custom_color', 'num_data_colors');
} else {
extract($vars);
}
// Select the data color:
if ($custom_color) {
$idx = $this->DoCallback('data_color', $row, $idx, $extra) % $num_data_colors;
}
$data_color = $this->ndx_data_colors[$idx];
}
/**
* Gets the color indexes to use for data element and error bar plotting
*
* @param int $row Row index for the current data point (used only for a custom data color callback)
* @param int $idx Column index for the current data point (e.g. 0 for the first Y value for each X)
* @param mixed[] $vars Reference variable, array for local storage (caller makes an empty array)
* @param int $data_color Reference variable: returned color index to use for drawing
* @param int error_color Reference variable: returned color index to use for the error bars
* @param mixed $extra Extra variable passed through to a data color callback
* @since 5.2.0
*/
protected function GetDataErrorColors($row, $idx, &$vars, &$data_color, &$error_color, $extra = 0)
{
// Initialize or extract variables:
if (empty($vars)) {
$this->NeedErrorBarColors(); // This plot needs error bar colors.
$custom_color = (bool)$this->GetCallback('data_color');
$num_data_colors = count($this->ndx_data_colors);
$num_error_colors = count($this->ndx_error_bar_colors);
$vars = compact('custom_color', 'num_data_colors', 'num_error_colors');
} else {
extract($vars);
}
// Select the colors.
if ($custom_color) {
$col_i = $this->DoCallback('data_color', $row, $idx, $extra); // Custom color index
$data_color = $this->ndx_data_colors[$col_i % $num_data_colors];
$error_color = $this->ndx_error_bar_colors[$col_i % $num_error_colors];
} else {
$data_color = $this->ndx_data_colors[$idx];
$error_color = $this->ndx_error_bar_colors[$idx];
}
}
/**
* Gets the color indexes to use for a bar chart (data color, border color, shading color)
*
* @param int $row Row index for the current data point (used only for a custom data color callback)
* @param int $idx Column index for the current data point (e.g. 0 for the first Y value for each X)
* @param mixed[] $vars Reference variable, array for local storage (caller makes an empty array)
* @param int $data_color Returned color index to use for the bar fill
* @param int $shade_color Returned color index for the shading, NULL if shading is off
* @param int $border_color Returned color index for the bar borders, NULL if borders are off
* @since 5.2.0
*/
protected function GetBarColors($row, $idx, &$vars, &$data_color, &$shade_color, &$border_color)
{
// Initialize or extract this functions persistant state variables:
if (empty($vars)) {
if (($shaded = ($this->shading > 0)))
$this->NeedDataDarkColors(); // Plot needs dark colors for shading
$custom_color = (bool)$this->GetCallback('data_color');
$num_data_colors = count($this->ndx_data_colors);
$num_border_colors = count($this->ndx_data_border_colors);
// Are borders enabled? Default is true for unshaded plots, false for shaded.
$borders = isset($this->draw_data_borders) ? $this->draw_data_borders : !$shaded;
$vars = compact('borders', 'custom_color', 'num_data_colors', 'num_border_colors', 'shaded');
} else {
extract($vars);
}
// Select the colors.
if ($custom_color) {
$col_i = $this->DoCallback('data_color', $row, $idx); // Custom color index
$i_data = $col_i % $num_data_colors; // Index for data colors and dark colors
$i_border = $col_i % $num_border_colors; // Index for data borders (if used)
} else {
$i_data = $i_border = $idx;
}
$data_color = $this->ndx_data_colors[$i_data];
$shade_color = $shaded ? $this->ndx_data_dark_colors[$i_data] : NULL;
$border_color = $borders ? $this->ndx_data_border_colors[$i_border] : NULL;
}
/**
* Gets the grid setting, on or off
*
* This function determines the dynamic defaults. The grid defaults on for
* the dependent variable, off for the independent variable.
*
* @param string $xy Which grid to check for: x | y
* @return bool True if the grid should be drawn, False if it should not be drawn
* @since 6.0.0
*/
protected function GetGridSetting($xy)
{
if ($xy == 'x')
return isset($this->draw_x_grid) ? $this->draw_x_grid : $this->datatype_swapped_xy;
// Assumed 'y'
return isset($this->draw_y_grid) ? $this->draw_y_grid : !$this->datatype_swapped_xy;
}
/**
* Draws a single marker shape (a dot or shape)
*
* This is used by points and linepoints plots to draw a point, and by the
* legend. Also see SetPointShapes() for the list of supported shapes.
*
* @param int $x X device coordinate of the center of the shape
* @param int $y Y device coordinate of the center of the shape
* @param int $record Index into point_shapes[] and point_sizes[] arrays (taken modulo their sizes)
* @param int $color Color index to use for the point shape
* @param bool $allow_none True or omit allow 'none' as shape, False to substitute (for legend)
* @return bool True always
* @since 5.4.0
*/
protected function DrawShape($x, $y, $record, $color, $allow_none = TRUE)
{
$index = $record % $this->point_counts;
$point_size = $this->point_sizes[$index];
$half_point = (int)($point_size / 2);
$x1 = $x - $half_point;
$x2 = $x + $half_point;
$y1 = $y - $half_point;
$y2 = $y + $half_point;
switch ($this->point_shapes[$index]) {
case 'halfline':
ImageLine($this->img, $x1, $y, $x, $y, $color);
break;
case 'none': /* Special case, no point shape here */
if ($allow_none) break; // But fall throught to line if a shape is required
case 'line':
ImageLine($this->img, $x1, $y, $x2, $y, $color);
break;
case 'plus':
ImageLine($this->img, $x1, $y, $x2, $y, $color);
ImageLine($this->img, $x, $y1, $x, $y2, $color);
break;
case 'cross':
ImageLine($this->img, $x1, $y1, $x2, $y2, $color);
ImageLine($this->img, $x1, $y2, $x2, $y1, $color);
break;
case 'circle':
ImageArc($this->img, $x, $y, $point_size, $point_size, 0, 360, $color);
break;
case 'dot':
ImageFilledEllipse($this->img, $x, $y, $point_size, $point_size, $color);
break;
case 'diamond':
$arrpoints = array($x1, $y, $x, $y1, $x2, $y, $x, $y2);
ImageFilledPolygon($this->img, $arrpoints, 4, $color);
break;
case 'triangle':
$arrpoints = array($x1, $y, $x2, $y, $x, $y2);
ImageFilledPolygon($this->img, $arrpoints, 3, $color);
break;
case 'trianglemid':
$arrpoints = array($x1, $y1, $x2, $y1, $x, $y);
ImageFilledPolygon($this->img, $arrpoints, 3, $color);
break;
case 'yield':
$arrpoints = array($x1, $y1, $x2, $y1, $x, $y2);
ImageFilledPolygon($this->img, $arrpoints, 3, $color);
break;
case 'delta':
$arrpoints = array($x1, $y2, $x2, $y2, $x, $y1);
ImageFilledPolygon($this->img, $arrpoints, 3, $color);
break;
case 'star':
ImageLine($this->img, $x1, $y, $x2, $y, $color);
ImageLine($this->img, $x, $y1, $x, $y2, $color);
ImageLine($this->img, $x1, $y1, $x2, $y2, $color);
ImageLine($this->img, $x1, $y2, $x2, $y1, $color);
break;
case 'hourglass':
$arrpoints = array($x1, $y1, $x2, $y1, $x1, $y2, $x2, $y2);
ImageFilledPolygon($this->img, $arrpoints, 4, $color);
break;
case 'bowtie':
$arrpoints = array($x1, $y1, $x1, $y2, $x2, $y1, $x2, $y2);
ImageFilledPolygon($this->img, $arrpoints, 4, $color);
break;
case 'target':
ImageFilledRectangle($this->img, $x1, $y1, $x, $y, $color);
ImageFilledRectangle($this->img, $x, $y, $x2, $y2, $color);
ImageRectangle($this->img, $x1, $y1, $x2, $y2, $color);
break;
case 'box':
ImageRectangle($this->img, $x1, $y1, $x2, $y2, $color);
break;
case 'home': /* As in: "home plate" (baseball), also looks sort of like a house. */
$arrpoints = array($x1, $y2, $x2, $y2, $x2, $y, $x, $y1, $x1, $y);
ImageFilledPolygon($this->img, $arrpoints, 5, $color);
break;
case 'up':
ImagePolygon($this->img, array($x, $y1, $x2, $y2, $x1, $y2), 3, $color);
break;
case 'down':
ImagePolygon($this->img, array($x, $y2, $x1, $y1, $x2, $y1), 3, $color);
break;
default: /* Also 'rect' */
ImageFilledRectangle($this->img, $x1, $y1, $x2, $y2, $color);
break;
}
return TRUE;
}
/**
* Draws a single marker point, using World Coordinates
*
* @param int $row Row index of data point (only used for a data_points callback)
* @param int $column Column index of data point, used to select the marker shape and size
* @param int $x_world X world coordinate of the data point
* @param int $y_world Y world coordinate of the data point
* @param int $color Color to use for the data point
* @return bool True always (from DrawShape)
*/
protected function DrawDot($row, $column, $x_world, $y_world, $color)
{
$x = $this->xtr($x_world);
$y = $this->ytr($y_world);
$result = $this->DrawShape($x, $y, $column, $color);
$this->DoCallback('data_points', 'dot', $row, $column, $x, $y);
return $result;
}
/**
* Draws a single bar (or bar segment), with optional shading or border
*
* This draws a single bar (or bar segment), for bar and stackedbar plots,
* both vertical and horizontal. The 3 color values come from GetBarColors.
* Two flags (at most 1 of which can be false) are used to suppress shading
* for some cases of stackedbar plots.
*
* @param int $row Row index of data point (only used for a data_points callback)
* @param int $column Column index of data point (only used for a data_points callback)
* @param int $x1 One corner of the bar X (device coordinates)
* @param int $y1 One corner of the bar Y (device coordinates)
* @param int $x2 Other corner of the bar X (device coordinates)
* @param int $y2 Other corner of the bar Y (device coordinates)
* @param int $data_color Color index to use for the bar fill
* @param int $shade_color Color index to use for the shading (if shading is on, else NULL)
* @param int $border_color Color index to use for the bar outlines (borders), if enabled, else NULL
* @param bool $shade_top Shade the top? (Suppressed for downward stack segments except first)
* @param bool $shade_side Shade the right side? (Suppressed for leftward stack segments except first)
* @return bool True always
* @since 5.2.0
*/
protected function DrawBar($row, $column, $x1, $y1, $x2, $y2, $data_color, $shade_color, $border_color,
$shade_top = TRUE, $shade_side = TRUE)
{
// Sort the points so x1,y1 is upper left and x2,y2 is lower right. This
// is needed in order to get the shading right, and imagerectangle may require it.
if ($x1 > $x2) {
$t = $x1; $x1 = $x2; $x2 = $t;
}
if ($y1 > $y2) {
$t = $y1; $y1 = $y2; $y2 = $t;
}
// Draw the bar
ImageFilledRectangle($this->img, $x1, $y1, $x2, $y2, $data_color);
// Draw a shade, if shading is on.
if (isset($shade_color)) {
$shade = $this->shading;
if ($shade_top && $shade_side) {
$pts = array($x1, $y1, $x1 + $shade, $y1 - $shade, $x2 + $shade, $y1 - $shade,
$x2 + $shade, $y2 - $shade, $x2, $y2, $x2, $y1);
} elseif ($shade_top) { // Suppress side shading
$pts = array($x1, $y1, $x1 + $shade, $y1 - $shade, $x2 + $shade, $y1 - $shade, $x2, $y1);
} else { // Suppress top shading (Note shade_top==FALSE && shade_side==FALSE is not allowed)
$pts = array($x2, $y2, $x2, $y1, $x2 + $shade, $y1 - $shade, $x2 + $shade, $y2 - $shade);
}
ImageFilledPolygon($this->img, $pts, count($pts) / 2, $shade_color);
}
// Draw a border around the bar, if enabled.
if (isset($border_color)) {
// Avoid a PHP/GD bug with zero-height ImageRectangle resulting in "T"-shaped ends.
if ($y1 == $y2)
imageline($this->img, $x1, $y1, $x2, $y2, $border_color);
else
imagerectangle($this->img, $x1, $y1, $x2, $y2, $border_color);
}
$this->DoCallback('data_points', 'rect', $row, $column, $x1, $y1, $x2, $y2);
return TRUE;
}
/**
* Draws an error bar set for horizontal plots, showing +/- error in X
*
* @param float $x X world coordinate of the data point (dependent variable)
* @param float $y Y world coordinate of the data point (independent variable)
* @param float $error_plus X error offset above $x (world coordinates >= 0)
* @param float $error_minus X error offset below $x (world coordinates >= 0)
* @param int $color Color to use for the error bars
* @return bool True always
* @since 6.1.0
*/
protected function DrawXErrorBars($x, $y, $error_plus, $error_minus, $color)
{
$x1 = $this->xtr($x);
$y1 = $this->ytr($y);
$x2p = $this->xtr($x + $error_plus);
$x2m = $this->xtr($x - $error_minus);
imagesetthickness($this->img, $this->error_bar_line_width);
imageline($this->img, $x2p, $y1 , $x2m, $y1, $color);
if ($this->error_bar_shape == 'tee') {
$e = $this->error_bar_size;
imageline($this->img, $x2p, $y1 - $e, $x2p, $y1 + $e, $color);
imageline($this->img, $x2m, $y1 - $e, $x2m, $y1 + $e, $color);
}
imagesetthickness($this->img, 1);
return TRUE;
}
/**
* Draws an error bar set for vertical plots, showing +/- error in Y
*
* @param float $x X world coordinate of the data point (independent variable)
* @param float $y Y world coordinate of the data point (dependent variable)
* @param float $error_plus Y error offset above $y (world coordinates >= 0)
* @param float $error_minus Y error offset below $y (world coordinates >= 0)
* @param int $color Color to use for the error bars
* @return bool True always
* @since 6.1.0
*/
protected function DrawYErrorBars($x, $y, $error_plus, $error_minus, $color)
{
$x1 = $this->xtr($x);
$y1 = $this->ytr($y);
$y2p = $this->ytr($y + $error_plus);
$y2m = $this->ytr($y - $error_minus);
imagesetthickness($this->img, $this->error_bar_line_width);
imageline($this->img, $x1, $y2p , $x1, $y2m, $color);
if ($this->error_bar_shape == 'tee') {
$e = $this->error_bar_size;
imageline($this->img, $x1 - $e, $y2p, $x1 + $e, $y2p, $color);
imageline($this->img, $x1 - $e, $y2m, $x1 + $e, $y2m, $color);
}
imagesetthickness($this->img, 1);
return TRUE;
}
/**
* Sets up the default pie chart label type and format
*
* If SetPieLabelType() was not called, this function set the default.
* The default for pie chart labels is to show the slice percentage,
* with fixed point precision. For backward compatibility with
* PHPlot <= 5.5.0, the Y label data precision (if set) is the default
* precision used.
*
* @return string[] A value to use as pie_label_source in FormatPieLabel()
* @since 5.6.0
*/
protected function CheckPieLabels()
{
if (empty($this->pie_label_source)) { // SetPieLabelType() was not called, or was reset to default
$prec = isset($this->label_format['y']['precision']) ? $this->label_format['y']['precision'] : 1;
$this->SetLabelType('p', array('data', $prec, '', '%'));
return array('percent'); // Default to 'percent' labels (leaving this->pie_label_source empty)
}
return $this->pie_label_source; // Use label type set set with SetPieLabelType()
}
/**
* Sets up for an area plot, calculating a points list and drawing data labels
*
* This is used for area fill plots: [stacked]area and [stacked]squaredarea.
* It converts the data array to device coordinate arrays. This also
* draws the axis data labels (if enabled). Caller ensures there are at
* least 2 rows (X), and all rows have same number of columns (Y).
* Note that the returned $yd array has an extra column for points along
* the X axis. See comment below on 'artifical Y value'.
* This does not support missing points or data value labels.
*
* @param bool $stacked True for a stacked plot (cumulative Y), false if not
* @param int[] $xd Reference variable - returned array with X device coordinates
* @param int[] $yd Reference variable - returned 2D array with Y device coordinates
* @return int Number of columns in yd[][], which is $this->data_columns + 1
* @since 6.2.0
*/
protected function SetupAreaPlot($stacked, &$xd, &$yd)
{
$xd = array();
$yd = array();
// Outer loop over rows (X); inner over columns (Y):
for ($row = 0; $row < $this->num_data_rows; $row++) {
$rec = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied X values?
$x_now = 0.5 + $row; // Place text-data at X = 0.5, 1.5, 2.5, etc...
else
$x_now = $this->data[$row][$rec++]; // Read it, advance record index
$xd[$row] = $x_now_pixels = $this->xtr($x_now); // Save in device coordinates
if ($this->x_data_label_pos != 'none') // Draw X Data labels?
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row);
// There is an artificial Y value at the X axis. For stacked plots, it goes before the
// first real Y, so the first area fill is from the axis to the first Y data set.
// For non-stacked plots, it goes after the last Y, so the last area fill is from axis
// to the last Y data set.
if ($stacked)
$yd[$row] = array($this->x_axis_y_pixels);
else
$yd[$row] = array();
// Store the Y values for this X. Missing Y values are not supported, and are replaced with 0.
// Negative numbers are not supported, and are replaced with absolute values.
// The resulting numbers are also clipped to the X axis' Y value (which can be > 0).
$y = 0; // Accumulate (if not reset below) the Y values
for ($idx = 0; $rec < $this->records_per_group; $rec++, $idx++) {
if (is_numeric($y_now = $this->data[$row][$rec]))
$y += abs($y_now);
$yd[$row][] = $this->ytr(max($this->x_axis_position, $y));
if (!$stacked) $y = 0; // For non-stacked plots, reset Y in each loop.
}
// See above: For non-stacked plots, the Y value for X axis goes at the end.
if (!$stacked)
$yd[$row][] = $this->x_axis_y_pixels;
}
return ($this->data_columns + 1); // This is the size of each yd[][]
}
/**
* Draws the data borders for an area fill plot
*
* This is used by area fill plots (area, squaredarea, and their stacked
* variants) to draw the data borders, if enabled.
*
* @param int $n_columns Number of columns in $yd, returned by SetupAreaPlot()
* @param int[] $xd X device coordinate array from SetupAreaPlot()
* @param int[] $yd Y device coordinate array from SetupAreaPlot()
* @param bool $stacked True for a stacked plot (cumulative Y), false if not
* @param bool $stepped True for a stepped (squared) plot, false for a regular area plot
* @return bool True always
* @since 6.2.0
*/
function DrawAreaFillBorders($n_columns, $xd, $yd, $stacked, $stepped)
{
for ($col = 1; $col < $n_columns; $col++) {
$color = $this->ndx_data_border_colors[$col-1];
// This is due to the difference in the $yd array for stacked and unstacked.
if ($stacked) {
$this_col = $col; // Border follows column = 1 to N-1
$other_col = $col - 1; // Left and right edges use the previous column
} else {
$this_col = $col - 1; // Border follows column = 0 to N-2
$other_col = $col; // Left and right edges use the next column
}
// Left edge:
$x = $xd[0];
$y = $yd[0][$this_col];
ImageLine($this->img, $x, $yd[0][$other_col], $x, $y, $color);
// Across the top, with an 'X then Y' step at each point:
for ($row = 1; $row < $this->num_data_rows; $row++) {
$prev_x = $x;
$prev_y = $y;
$x = $xd[$row];
$y = $yd[$row][$this_col];
if ($stepped) {
ImageLine($this->img, $prev_x, $prev_y, $x, $prev_y, $color);
ImageLine($this->img, $x, $prev_y, $x, $y, $color);
} else {
ImageLine($this->img, $prev_x, $prev_y, $x, $y, $color);
}
}
// Right edge:
ImageLine($this->img, $x, $y, $x, $yd[$this->num_data_rows - 1][$other_col], $color);
}
return TRUE;
}
/////////////////////////////////////////////
//////////////////// PLOT DRAWING
/////////////////////////////////////////////
/**
* Draws a pie plot (Pie chart)
*
* This is the main function for drawing a pie chart. Supported data
* types are 'text-data', 'data-data', and 'text-data-single'.
*
* For text-data-single, the data array contains records with a label and
* one Y value. Each record defines a sector of the pie, as a portion of
* the sum of all Y values. Data labels are ignored by default, but can
* be selected for display with SetPieLabelType().
*
* For text-data and data-data, the data array contains records with an
* ignored label, an ignored X value for data-data only, and N (N>=1) Y
* values per record. The pie chart will be produced with N segments. The
* relative size of the first sector of the pie is the sum of the first Y
* data value in each record, etc. The data labels cannot be used, since
* they don't map to specific pie sectors.
*
* If there are no valid positive data points at all, just draw nothing.
* It may seem more correct to raise an error, but all of the other plot
* types handle it this way implicitly. DrawGraph() checks for an empty
* data array, but this handles a non-empty data array with no Y values,
* or all Y=0.
*
* @return bool True (False on error if an error handler returns True)
*
*/
protected function DrawPieChart()
{
// Early checks and initialization:
if (!$this->CheckDataType('text-data, text-data-single, data-data'))
return FALSE;
// SetLabelScalePosition(0 or FALSE) means no labels.
$do_labels = !empty($this->label_scale_position);
if ($do_labels) {
// Validate and get default for pie chart label source and format:
$pie_label_source = $this->CheckPieLabels();
// Labels outside (vs inside) the pie? If so, pie size will need adjusting.
$labels_outside = $this->label_scale_position >= 0.5; // Only defined if ($do_labels)
}
// Draw segment borders? Default is True for unshaded, False for shaded
$do_borders = isset($this->draw_pie_borders) ? $this->draw_pie_borders : ($this->shading == 0);
$max_data_colors = count($this->ndx_data_colors); // Number of colors available
// Check shading. Diameter factor $diam_factor is (height / width)
if ($this->shading > 0) {
$diam_factor = $this->pie_diam_factor;
$this->NeedDataDarkColors(); // Dark colors are needed for shading
} else {
$diam_factor = 1.0; // Unshaded pies are always round, width == height
}
// Pie center point is always the center of the plot area, regardless of label sizes.
$xpos = $this->plot_area[0] + $this->plot_area_width/2;
$ypos = $this->plot_area[1] + $this->plot_area_height/2;
// Reduce the data array into sumarr[], accounting for the data type:
$num_slices = $this->data_columns; // See CheckDataArray which calculates this for us.
if ($num_slices < 1) return TRUE; // Give up early if there is no data at all.
$sumarr = array_fill(0, $num_slices, 0); // Initialize array of per-sector sums.
if ($this->datatype_pie_single) {
// text-data-single: One data column per row, one pie slice per row.
for ($i = 0; $i < $num_slices; $i++) {
if (is_numeric($val = $this->data[$i][1]))
$sumarr[$i] = abs($val);
}
} else {
// text-data: Sum each column (skipping label), one pie slice per column.
// data-data: Sum each column (skipping X value and label), one pie slice per column.
$skip = ($this->datatype_implied) ? 1 : 2; // Leading values to skip in each row.
for ($i = 0; $i < $this->num_data_rows; $i++) {
for ($j = $skip; $j < $this->num_recs[$i]; $j++) {
if (is_numeric($val = $this->data[$i][$j]))
$sumarr[$j-$skip] += abs($val);
}
}
}
$total = array_sum($sumarr);
if ($total == 0) {
// There are either no valid data points, or all are 0.
// See top comment about why not to make this an error.
return TRUE;
}
// Pre-calculate the label strings, if labels are on. Also get the maximum height and width
// of the labels, to use in sizing the pie chart (if the labels are outside the pie).
// This is an overly pessimistic approach - assumes the widest label is at 0 or 180 degrees - but
// is much easier than calculating the exact space needed for all labels around the pie.
// For more detailed comments on the in-loop calculations, see the second loop below where
// the features are actually drawn.
// Note this is going around the pie, with angles specified, but we do not yet know the pie size.
$label_max_width = 0; // Widest label width, in pixels
$label_max_height = 0; // Tallest label height, in pixels
if ($do_labels) {
$labels = array(); // Array to store the formatted label strings
$end_angle = $start_angle = $this->pie_start_angle;
for ($j = 0; $j < $num_slices; $j++) {
$slice_weight = $sumarr[$j];
$arc_angle = 360 * $slice_weight / $total;
if ($this->pie_direction_cw) {
$end_angle = $start_angle;
$start_angle -= $arc_angle;
} else {
$start_angle = $end_angle;
$end_angle += $arc_angle;
}
$arc_start_angle = (int)(360 - $start_angle);
$arc_end_angle = (int)(360 - $end_angle);
if ($arc_start_angle > $arc_end_angle) { // Skip segments with angle < 1 degree
$labels[$j] = $this->FormatPieLabel($j, $pie_label_source, $arc_angle, $slice_weight);
if ($labels_outside) { // Labels are outside the pie chart
list($width, $height) = $this->SizeText('generic', 0, $labels[$j]);
if ($width > $label_max_width) $label_max_width = $width;
if ($height > $label_max_height) $label_max_height = $height;
}
}
}
}
// Calculate the maximum available area for the pie, leaving room for labels (if outside the pie):
// This can be overridden by using SetPieAutoSize(FALSE), which sets the flag: pie_full_size=TRUE.
if ($do_labels && $labels_outside && !$this->pie_full_size) {
// There needs to be safe_margin between the labels and the plot area margins, and at least
// safe_margin between the labels and the pie edge (this is LR_marg and TB_marg below).
// plot_area_width = avail_width + 2 * (LR_marg + label_width + safe_margin)
// Where LR_marg = max(safe_margin, avail_width * label_scale_position - avail_width/2)
// plot_area_height = avail_height + 2 * (TB_marg + label_height + safe_margin + shading)
// Where TB_marg = max(safe_margin, avail_height * label_scale_position - avail_height/2)
// Note shading is on bottom only, but since center is fixed, it is counted on top too.
// Note (avail_width * label_scale_position) is the distance from the pie center to the label
// text base point. Subtract avail_width/2 to get the inner margin (unless it is too small).
// Similar for Y: avail_height * label_scale_position - avail_height/2 is the distance from
// the pie center up to the label text base point.
// Calculate available space for both values of LR_marg, TB_marg and take the smaller ones.
$avail_width = min(
($this->plot_area_width / 2 - $label_max_width - $this->safe_margin) /
$this->label_scale_position,
$this->plot_area_width - 4 * $this->safe_margin - 2 * $label_max_width);
$avail_height = min(
($this->plot_area_height / 2 - $label_max_height - $this->safe_margin - $this->shading) /
$this->label_scale_position,
$this->plot_area_height - 4*$this->safe_margin - 2*($label_max_height + $this->shading));
// Sanity check - don't let large labels shrink the pie too much.
$avail_width = max($avail_width, $this->pie_min_size_factor * $this->plot_area_width);
$avail_height = max($avail_height, $this->pie_min_size_factor * $this->plot_area_height);
} else { // No adjustment needed for labels
$avail_width = $this->plot_area_width - 2 * $this->safe_margin;
// Note shading is only on bottom, but need to subtract 2x because center does not move.
$avail_height = $this->plot_area_height - 2 * ($this->safe_margin + $this->shading);
}
// Calculate the pie width and height for the best fit, given diam_factor and available space:
if ($avail_height / $avail_width > $diam_factor) {
$pie_width = $avail_width;
$pie_height = $pie_width * $diam_factor;
} else {
$pie_height = $avail_height;
$pie_width = $pie_height / $diam_factor;
}
// Factors used to calculate label positions by DrawPieLabel(). See there for explanation.
if ($do_labels) {
$r['reverse'] = 0.25 < $this->label_scale_position && $this->label_scale_position < 0.5;
$r['x'] = $pie_width * $this->label_scale_position;
$r['y'] = $pie_height * $this->label_scale_position;
if ($labels_outside) {
// Don't let outside labels touch the pie edge - move them out a bit:
$r['x'] = max($r['x'], $pie_width / 2 + $this->safe_margin);
$r['y'] = max($r['y'], $pie_height / 2 + $this->safe_margin);
} else {
// Don't let inside labels touch the pie edge - move them in a bit:
$r['x'] = min($r['x'], $pie_width / 2 - $this->safe_margin);
$r['y'] = min($r['y'], $pie_height / 2 - $this->safe_margin);
}
}
// Draw the pie. For shaded pies, draw one set for each shading level ($h).
for ($h = $this->shading; $h >= 0; $h--) {
$color_index = 0;
// Initialize the start angle (for clockwise) or end angle (for counter-clockwise).
// See "Calculate the two angles" below to make sense of this.
$end_angle = $start_angle = $this->pie_start_angle;
// Loop over all pie segments:
for ($j = 0; $j < $num_slices; $j++) {
$slice_weight = $sumarr[$j];
$arc_angle = 360 * $slice_weight / $total;
// For shaded pies: the last one (at the top of the "stack") has a brighter color:
if ($h == 0)
$slicecol = $this->ndx_data_colors[$color_index];
else
$slicecol = $this->ndx_data_dark_colors[$color_index];
// Calculate the two angles that define this pie segment.
// Note that regardless of the direction (CW or CCW), start_angle < end_angle.
if ($this->pie_direction_cw) {
$end_angle = $start_angle;
$start_angle -= $arc_angle;
} else {
$start_angle = $end_angle;
$end_angle += $arc_angle;
}
// Calculate the arc angles for ImageFilledArc(), which measures angles in the opposite
// direction (counter-clockwise), and only takes integer values.
$arc_start_angle = (int)(360 - $start_angle);
$arc_end_angle = (int)(360 - $end_angle);
// Don't try to draw a 0 degree slice - it would make a full circle.
if ($arc_start_angle > $arc_end_angle) {
// Draw the slice
ImageFilledArc($this->img, $xpos, $ypos+$h, $pie_width, $pie_height,
$arc_end_angle, $arc_start_angle, $slicecol, IMG_ARC_PIE);
// Processing to do only for the last (if shaded) or only (if unshaded) loop:
if ($h == 0) {
// Draw the pie segment outline (if enabled):
if ($do_borders) {
ImageFilledArc($this->img, $xpos, $ypos, $pie_width, $pie_height,
$arc_end_angle, $arc_start_angle, $this->ndx_pieborder_color,
IMG_ARC_PIE | IMG_ARC_EDGED |IMG_ARC_NOFILL);
}
// Draw the label:
if ($do_labels)
$this->DrawPieLabel($labels[$j], $xpos, $ypos, $start_angle, $arc_angle, $r);
// Trigger a data points callback; note it gets the calculated (reversed) angles:
$this->DoCallback('data_points', 'pie', $j, 0, $xpos, $ypos, $pie_width,
$pie_height, $arc_start_angle, $arc_end_angle);
}
}
if (++$color_index >= $max_data_colors)
$color_index = 0;
} // end loop for each slice
} // end loop for each level of shading
return TRUE;
}
/**
* Draws a points plot, or the points for a linepoints plot
*
* This is the main function for drawing a points plot, and is also used
* for a linepoints plot. Vertical and Horizontal plots, and error plots,
* are all supported. "iv" is used for the independent variable (X for
* vertical plots, Y for horizontal) and "dv" is used for the dependent
* variable (Y or X respectively).
*
* When $paired is true, a linepoints plot is being drawn, and some
* elements are suppressed here because they are done elsewhere. See
* DrawLinePoints() for details.
*
* @param bool $paired True if doing a linepoints plot, False or omit for points plot
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawDots($paired = FALSE)
{
if (!$this->CheckDataType('text-data, data-data, text-data-yx, data-data-yx, '
. 'data-data-error, data-data-yx-error'))
return FALSE;
// Adjust the point shapes and point sizes arrays:
$this->CheckPointParams();
$gcvars = array(); // For GetDataColor, which initializes and uses this.
// Special flag for data color callback to indicate the 'points' part of 'linepoints':
$alt_flag = $paired ? 1 : 0;
// Data labels, Data Value Labels? (Skip if doing the points from a linepoints plot)
if ($this->datatype_swapped_xy) {
// Horizontal plots can have X Data Value Labels, Y Axis Data Labels
$do_x_axis_labels = FALSE;
$do_x_valu_labels = !$paired && $this->CheckDataValueLabels($this->x_data_label_pos, $dvl);
$do_y_axis_labels = !$paired && $this->y_data_label_pos != 'none';
$do_y_valu_labels = FALSE;
} else {
// Vertical plots can have X Axis Data Labels, Y Data Value Labels
$do_x_axis_labels = !$paired && $this->x_data_label_pos != 'none';
$do_x_valu_labels = FALSE;
$do_y_axis_labels = FALSE;
$do_y_valu_labels = !$paired && $this->CheckDataValueLabels($this->y_data_label_pos, $dvl);
}
for ($row = 0; $row < $this->num_data_rows; $row++) {
$rec = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied independent variable values?
$iv = 0.5 + $row; // Place text-data at 0.5, 1.5, 2.5, etc...
else
$iv = $this->data[$row][$rec++]; // Read it, advance record index
// Axis data label?
if ($do_x_axis_labels)
$this->DrawXDataLabel($this->data[$row][0], $this->xtr($iv), $row, TRUE);
elseif ($do_y_axis_labels)
$this->DrawYDataLabel($this->data[$row][0], $this->ytr($iv), $row, TRUE);
// Proceed with dependent values
for ($idx = 0; $rec < $this->num_recs[$row]; $idx++) {
if (is_numeric($dv = $this->data[$row][$rec++])) { // Allow for missing data
// Select the color(s):
if ($this->datatype_error_bars) {
$this->GetDataErrorColors($row, $idx, $gcvars, $data_color, $error_color, $alt_flag);
} else {
$this->GetDataColor($row, $idx, $gcvars, $data_color, $alt_flag);
}
// Draw the marker, and error bar (if enabled):
if ($this->datatype_swapped_xy) {
$this->DrawDot($row, $idx, $dv, $iv, $data_color);
if ($this->datatype_error_bars) {
$this->DrawXErrorBars($dv, $iv, $this->data[$row][$rec],
$this->data[$row][$rec+1], $error_color);
}
} else {
$this->DrawDot($row, $idx, $iv, $dv, $data_color);
if ($this->datatype_error_bars) {
$this->DrawYErrorBars($iv, $dv, $this->data[$row][$rec],
$this->data[$row][$rec+1], $error_color);
}
}
// Draw data value labels?
if ($do_y_valu_labels) { // Vertical plot
$this->DrawDataValueLabel('y', $row, $idx, $iv, $dv, $dv, $dvl);
} elseif ($do_x_valu_labels) { // Horizontal plot
$this->DrawDataValueLabel('x', $row, $idx, $dv, $iv, $dv, $dvl);
}
}
if ($this->datatype_error_bars) {
$rec += 2; // Skip over error bar values, even in missing data case.
}
}
}
return TRUE;
}
/**
* Draws a thinbarline plot (Thin Bar Line)
*
* This is the main function for drawing a thinbarline plot, which
* is also known as an Impulse plot. Supported data types are
* data-data and text-data for vertical plots, and data-data-yx and
* text-data-yx for horizontal plots. "iv" is used for the independent
* variable (X for vertical plots, Y for horizontal) and "dv" is used
* for the dependent variable (Y or X respectively).
*
* Although this plot type supports multiple data sets, it rarely makes
* sense to have more than one, because the lines will overlay.
*
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawThinBarLines()
{
if (!$this->CheckDataType('text-data, data-data, text-data-yx, data-data-yx'))
return FALSE;
$gcvars = array(); // For GetDataColor, which initializes and uses this.
for ($row = 0; $row < $this->num_data_rows; $row++) {
$rec = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied independent variable values?
$iv_now = 0.5 + $row; // Place text-data at 0.5, 1.5, 2.5, etc...
else
$iv_now = $this->data[$row][$rec++]; // Read it, advance record index
if ($this->datatype_swapped_xy) {
$y_now_pixels = $this->ytr($iv_now);
// Draw Y Data labels?
if ($this->y_data_label_pos != 'none')
$this->DrawYDataLabel($this->data[$row][0], $y_now_pixels, $row);
} else {
$x_now_pixels = $this->xtr($iv_now);
// Draw X Data labels?
if ($this->x_data_label_pos != 'none')
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row);
}
// Proceed with dependent values
for ($idx = 0; $rec < $this->num_recs[$row]; $rec++, $idx++) {
if (is_numeric($dv = $this->data[$row][$rec])) { // Allow for missing data
ImageSetThickness($this->img, $this->line_widths[$idx]);
// Select the color:
$this->GetDataColor($row, $idx, $gcvars, $data_color);
if ($this->datatype_swapped_xy) {
// Draw a line from user defined y axis position right (or left) to xtr($dv)
ImageLine($this->img, $this->y_axis_x_pixels, $y_now_pixels,
$this->xtr($dv), $y_now_pixels, $data_color);
} else {
// Draw a line from user defined x axis position up (or down) to ytr($dv)
ImageLine($this->img, $x_now_pixels, $this->x_axis_y_pixels,
$x_now_pixels, $this->ytr($dv), $data_color);
}
}
}
}
ImageSetThickness($this->img, 1);
return TRUE;
}
/**
* Draws an area or stackedarea plot
*
* This is the main function for drawing area and stackedarea plots. Both
* of these fill the area between lines, but 'stackedarea' is cumulative (like
* stackedbars), and 'area' is not. Also 'area' fills from the last data set to
* the X axis, and 'stackedarea' fills from the X axis to the first data set.
* 'area' and 'stackedarea' plots are identical when there is only one data set.
*
* Supported data types are data-data and text-data. All Y values must be
* >= 0 (with absolute value used if any negative values are found).
* Missing data points are not supported (any missing points are set to
* 0). All rows must have the same number of Y points, or an error will
* be produced.
*
* @param bool $do_stacked True for stackedarea plot, false or omit for area plot
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawArea($do_stacked = FALSE)
{
if (!$this->CheckDataType('text-data, data-data'))
return FALSE;
// Validation: Need at least 2 rows; all rows must have same number of columns.
if (($n_rows = $this->num_data_rows) < 2) return TRUE;
if ($this->records_per_group != min($this->num_recs)) {
return $this->PrintError("DrawArea(): Data array must contain the same number"
. " of Y values for each X");
}
// Calculate and store device coordinates xd[] and yd[][], and draw the data labels.
$n_columns = $this->SetupAreaPlot($do_stacked, $xd, $yd);
// Draw the filled polygons.
// Note data_columns is the number of Y points (columns excluding label and X), and the
// number of entries in the yd[] arrays is data_columns+1.
$prev_col = 0;
for ($col = 1; $col < $n_columns; $col++) { // 1 extra for X axis artificial column
$pts = array();
// Previous data set forms top (for area) or bottom (for stackedarea):
for ($row = 0; $row < $n_rows; $row++) {
array_push($pts, $xd[$row], $yd[$row][$prev_col]);
}
// Current data set forms bottom (for area) or top (for stackedarea):
for ($row = $n_rows - 1; $row >= 0; $row--) {
array_push($pts, $xd[$row], $yd[$row][$col]);
}
// Draw it:
ImageFilledPolygon($this->img, $pts, $n_rows * 2, $this->ndx_data_colors[$prev_col]);
$prev_col = $col;
}
// Draw the data borders, if enabled. (After, else the area fills cover parts of it.)
if (!empty($this->draw_data_borders))
$this->DrawAreaFillBorders($n_columns, $xd, $yd, $do_stacked, FALSE);
return TRUE;
}
/**
* Draws a lines plot, or the lines for a linepoints plot
*
* This is the main function for drawing a lines plot, and is also used
* for a linepoints plot. Vertical and Horizontal plots, and error plots,
* are all supported. "iv" is used for the independent variable (X for
* vertical plots, Y for horizontal) and "dv" is used for the dependent
* variable (Y or X respectively).
*
* When $paired is true, a linepoints plot is being drawn, and some
* elements are suppressed here because they are done elsewhere. See
* DrawLinePoints() for details.
*
* @param bool $paired True if doing a linepoints plots, False or omit for lines plot
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawLines($paired = FALSE)
{
if (!$this->CheckDataType('text-data, data-data, text-data-yx, data-data-yx, '
. 'data-data-error, data-data-yx-error'))
return FALSE;
// Flag array telling if the current point is valid, one element per plot line.
// If start_lines[i] is true, then (lastx[i], lasty[i]) is the previous point.
if ($this->data_columns > 0)
$start_lines = array_fill(0, $this->data_columns, FALSE);
$gcvars = array(); // For GetDataColor, which initializes and uses this.
// Data labels, Data Value Labels?
if ($this->datatype_swapped_xy) {
// Horizontal plots can have X Data Value Labels, Y Axis Data Labels
$do_x_axis_labels = FALSE;
$do_x_valu_labels = $this->CheckDataValueLabels($this->x_data_label_pos, $dvl);
$do_y_axis_labels = $this->y_data_label_pos != 'none';
$do_y_valu_labels = FALSE;
} else {
// Vertical plots can have X Axis Data Labels, Y Data Value Labels
$do_x_axis_labels = $this->x_data_label_pos != 'none';
$do_x_valu_labels = FALSE;
$do_y_axis_labels = FALSE;
$do_y_valu_labels = $this->CheckDataValueLabels($this->y_data_label_pos, $dvl);
}
for ($row = 0; $row < $this->num_data_rows; $row++) {
$rec = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied X values?
$iv = 0.5 + $row; // Place text-data at X = 0.5, 1.5, 2.5, etc...
else
$iv = $this->data[$row][$rec++]; // Get actual X value from array
// Convert independent variable to device coordinates
if ($this->datatype_swapped_xy) {
$y_now_pixels = $this->ytr($iv);
} else {
$x_now_pixels = $this->xtr($iv);
}
// Axis data label?
if ($do_x_axis_labels)
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row, TRUE);
elseif ($do_y_axis_labels)
$this->DrawYDataLabel($this->data[$row][0], $y_now_pixels, $row, TRUE);
// Proceed with dependent values
for ($idx = 0; $rec < $this->num_recs[$row]; $idx++) {
$line_style = $this->line_styles[$idx];
// Skip point if data value is missing. Also skip if the whole line is suppressed
// with style='none' (useful with linepoints plots)
if (is_numeric($dv = $this->data[$row][$rec++]) && $line_style != 'none') {
// Convert dependent variable to device coordinates
if ($this->datatype_swapped_xy) {
$x_now_pixels = $this->xtr($dv);
} else {
$y_now_pixels = $this->ytr($dv);
}
// Select the color(s):
if ($this->datatype_error_bars) {
$this->GetDataErrorColors($row, $idx, $gcvars, $data_color, $error_color);
} else {
$this->GetDataColor($row, $idx, $gcvars, $data_color);
}
if ($start_lines[$idx]) {
// Set line width, revert it to normal at the end
ImageSetThickness($this->img, $this->line_widths[$idx]);
// Select solid color or dashed line
$style = $this->SetDashedStyle($data_color, $line_style == 'dashed');
// Draw the line segment:
ImageLine($this->img, $x_now_pixels, $y_now_pixels,
$lastx[$idx], $lasty[$idx], $style);
}
// Draw error bars, but not for linepoints plots, because DrawPoints() does it.
if ($this->datatype_error_bars && !$paired) {
if ($this->datatype_swapped_xy) {
$this->DrawXErrorBars($dv, $iv, $this->data[$row][$rec],
$this->data[$row][$rec+1], $error_color);
} else {
$this->DrawYErrorBars($iv, $dv, $this->data[$row][$rec],
$this->data[$row][$rec+1], $error_color);
}
}
// Draw data value labels?
if ($do_y_valu_labels) // Vertical plot
$this->DrawDataValueLabel('y', $row, $idx, $iv, $dv, $dv, $dvl);
elseif ($do_x_valu_labels) // Horizontal plot
$this->DrawDataValueLabel('x', $row, $idx, $dv, $iv, $dv, $dvl);
$lastx[$idx] = $x_now_pixels;
$lasty[$idx] = $y_now_pixels;
$start_lines[$idx] = TRUE;
} elseif ($this->draw_broken_lines) {
$start_lines[$idx] = FALSE; // Missing point value or line style suppression
}
if ($this->datatype_error_bars)
$rec += 2; // Skip over error bar values, even in missing data case.
}
}
ImageSetThickness($this->img, 1); // Revert to original state for lines to be drawn later.
return TRUE;
}
/**
* Draws a linepoints plot (Lines and Points)
*
* This is the main function for drawing a linepoints plot. This just uses
* DrawLines() to draw the lines, and DrawDots() to draw the points, so it
* supports the same data types and variations as they do.
*
* The argument passed to the two drawing functions tells them not to
* duplicate elements, as follows: DrawLines() draws the lines, not the
* error bars (even if applicable), and the data labels. DrawDots() draws
* the points, the error bars (if applicable), and not the data labels.
*
* @return bool True (False on error if an error handler returns True)
* @since 5.1.3
*/
protected function DrawLinePoints()
{
return $this->DrawLines(TRUE) && $this->DrawDots(TRUE);
}
/**
* Draws a squared plot (Squared Line, Stepped Line)
*
* This is the main function for drawing a squared plot. Supported data
* types are data-data and text-data. This is based on DrawLines(), with
* two line segments drawn for each point.
*
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawSquared()
{
if (!$this->CheckDataType('text-data, data-data'))
return FALSE;
// Flag array telling if the current point is valid, one element per plot line.
// If start_lines[i] is true, then (lastx[i], lasty[i]) is the previous point.
if ($this->data_columns > 0)
$start_lines = array_fill(0, $this->data_columns, FALSE);
$gcvars = array(); // For GetDataColor, which initializes and uses this.
// Data Value Labels?
$do_dvls = $this->CheckDataValueLabels($this->y_data_label_pos, $dvl);
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied X values?
$x_now = 0.5 + $row; // Place text-data at X = 0.5, 1.5, 2.5, etc...
else
$x_now = $this->data[$row][$record++]; // Read it, advance record index
$x_now_pixels = $this->xtr($x_now); // Absolute coordinates
if ($this->x_data_label_pos != 'none') // Draw X Data labels?
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row);
// Draw Lines
for ($idx = 0; $record < $this->num_recs[$row]; $record++, $idx++) {
if (is_numeric($y_now = $this->data[$row][$record])) { // Allow for missing Y data
$y_now_pixels = $this->ytr($y_now);
if ($start_lines[$idx]) {
// Set line width, revert it to normal at the end
ImageSetThickness($this->img, $this->line_widths[$idx]);
// Select the color:
$this->GetDataColor($row, $idx, $gcvars, $data_color);
// Select solid color or dashed line
$style = $this->SetDashedStyle($data_color, $this->line_styles[$idx] == 'dashed');
// Draw the step:
$y_mid = $lasty[$idx];
ImageLine($this->img, $lastx[$idx], $y_mid, $x_now_pixels, $y_mid, $style);
ImageLine($this->img, $x_now_pixels, $y_mid, $x_now_pixels, $y_now_pixels, $style);
}
// Draw data value labels?
if ($do_dvls)
$this->DrawDataValueLabel('y', $row, $idx, $x_now, $y_now, $y_now, $dvl);
$lastx[$idx] = $x_now_pixels;
$lasty[$idx] = $y_now_pixels;
$start_lines[$idx] = TRUE;
} elseif ($this->draw_broken_lines) { // Y data missing, leave a gap.
$start_lines[$idx] = FALSE;
}
}
}
ImageSetThickness($this->img, 1);
return TRUE;
}
/**
* Draws a squaredarea or stackedsquaredarea plot (Squared Area)
*
* This is the main function for drawing squaredarea and stackedsquaredarea plots,
* which area a blend of 'squared' plus either 'area' or 'stackedarea'. Supported
* data types are data-data and text-data. Missing points are not allowed,
* and all data sets must have the same number of points.
*
* @param bool $do_stacked True for cumulative (stacked), false or omit for unstacked.
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawSquaredArea($do_stacked = FALSE)
{
if (!$this->CheckDataType('text-data, data-data'))
return FALSE;
// Validation: Need at least 2 rows; all rows must have same number of columns.
if (($n_rows = $this->num_data_rows) < 2) return TRUE;
if ($this->records_per_group != min($this->num_recs)) {
return $this->PrintError("DrawSquaredArea(): Data array must contain the same number"
. " of Y values for each X");
}
// Calculate and store device coordinates xd[] and yd[][], and draw the data labels.
$n_columns = $this->SetupAreaPlot($do_stacked, $xd, $yd);
// Draw a filled polygon for each Y column
$prev_col = 0;
for ($col = 1; $col < $n_columns; $col++) { // 1 extra for X axis artificial column
// Current data set forms the top. For each point after the first, add 2 points.
$x_prev = $xd[0];
$y_prev = $yd[0][$col];
$pts = array($x_prev, $y_prev); // Bottom left point
for ($row = 1; $row < $n_rows; $row++) {
$x = $xd[$row];
$y = $yd[$row][$col];
array_push($pts, $x, $y_prev, $x, $y);
$x_prev = $x;
$y_prev = $y;
}
// Previous data set forms the bottom. Process right to left.
// Note $row is now $n_rows, and it will be stepped back to 0.
$row--;
$x_prev = $xd[$row];
$y_prev = $yd[$row][$prev_col];
array_push($pts, $x_prev, $y_prev); // Bottom right point
while (--$row >= 0) {
$x = $xd[$row];
$y = $yd[$row][$prev_col];
array_push($pts, $x_prev, $y, $x, $y);
$x_prev = $x;
$y_prev = $y;
}
// Draw the resulting polygon, which has (2 * (1 + 2*(n_rows-1))) points:
ImageFilledPolygon($this->img, $pts, 4 * $n_rows - 2, $this->ndx_data_colors[$prev_col]);
$prev_col = $col;
}
// Draw the data borders, if enabled. (After, else the area fills cover parts of it.)
if (!empty($this->draw_data_borders))
$this->DrawAreaFillBorders($n_columns, $xd, $yd, $do_stacked, TRUE);
return TRUE;
}
/**
* Draws a bars plot (Bar chart)
*
* This is the main function for drawing a bars plot. Supported data
* types are text-data, for vertical plots, and text-data-yx, for
* horizontal plots (for which it calls DrawHorizBars()).
*
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawBars()
{
if (!$this->CheckDataType('text-data, text-data-yx'))
return FALSE;
if ($this->datatype_swapped_xy)
return $this->DrawHorizBars();
$this->CalcBarWidths(FALSE, TRUE); // Calculate bar widths for unstacked, vertical
// This is the X offset from the bar group's label center point to the left side of the first bar
// in the group. See also CalcBarWidths above.
$x_first_bar = ($this->data_columns * $this->record_bar_width) / 2 - $this->bar_adjust_gap;
$gcvars = array(); // For GetBarColors, which initializes and uses this.
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
$x_now_pixels = $this->xtr(0.5 + $row); // Place text-data at X = 0.5, 1.5, 2.5, etc...
if ($this->x_data_label_pos != 'none') // Draw X Data labels?
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row);
// Lower left X of first bar in the group:
$x1 = $x_now_pixels - $x_first_bar;
// Draw the bars in the group:
for ($idx = 0; $record < $this->num_recs[$row]; $record++, $idx++) {
if (is_numeric($y = $this->data[$row][$record])) { // Allow for missing Y data
$x2 = $x1 + $this->actual_bar_width;
if (($upgoing_bar = $y >= $this->x_axis_position)) {
$y1 = $this->ytr($y);
$y2 = $this->x_axis_y_pixels;
} else {
$y1 = $this->x_axis_y_pixels;
$y2 = $this->ytr($y);
}
// Select the colors:
$this->GetBarColors($row, $idx, $gcvars, $data_color, $shade_color, $border_color);
// Draw the bar, and the shade or border:
$this->DrawBar($row, $idx, $x1, $y1, $x2, $y2, $data_color, $shade_color, $border_color);
// Draw optional data value label above or below the bar:
if ($this->y_data_label_pos == 'plotin') {
$dvl['x_offset'] = ($idx + 0.5) * $this->record_bar_width - $x_first_bar;
if ($upgoing_bar) {
$dvl['v_align'] = 'bottom';
$dvl['y_offset'] = -5 - $this->shading;
} else {
$dvl['v_align'] = 'top';
$dvl['y_offset'] = 2;
}
$this->DrawDataValueLabel('y', $row, $idx, $row+0.5, $y, $y, $dvl);
}
}
// Step to next bar in group:
$x1 += $this->record_bar_width;
}
}
return TRUE;
}
/**
* Draws a Horizontal Bar chart
*
* This is called from DrawBars() when the data type indicates a
* horizontal plot.
*
* @return bool True (False on error if an error handler returns True)
* @since 5.1.2
*/
protected function DrawHorizBars()
{
$this->CalcBarWidths(FALSE, FALSE); // Calculate bar widths for unstacked, vertical
// This is the Y offset from the bar group's label center point to the bottom of the first bar
// in the group. See also CalcBarWidths above.
$y_first_bar = ($this->data_columns * $this->record_bar_width) / 2 - $this->bar_adjust_gap;
$gcvars = array(); // For GetBarColors, which initializes and uses this.
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
$y_now_pixels = $this->ytr(0.5 + $row); // Place bars at Y=0.5, 1.5, 2.5, etc...
if ($this->y_data_label_pos != 'none') // Draw Y Data Labels?
$this->DrawYDataLabel($this->data[$row][0], $y_now_pixels, $row);
// Lower left Y of first bar in the group:
$y1 = $y_now_pixels + $y_first_bar;
// Draw the bars in the group:
for ($idx = 0; $record < $this->num_recs[$row]; $record++, $idx++) {
if (is_numeric($x = $this->data[$row][$record])) { // Allow for missing X data
$y2 = $y1 - $this->actual_bar_width;
if (($rightwards_bar = $x >= $this->y_axis_position)) {
$x1 = $this->xtr($x);
$x2 = $this->y_axis_x_pixels;
} else {
$x1 = $this->y_axis_x_pixels;
$x2 = $this->xtr($x);
}
// Select the colors:
$this->GetBarColors($row, $idx, $gcvars, $data_color, $shade_color, $border_color);
// Draw the bar, and the shade or border:
$this->DrawBar($row, $idx, $x1, $y1, $x2, $y2, $data_color, $shade_color, $border_color);
// Draw optional data value label to the right or left of the bar:
if ($this->x_data_label_pos == 'plotin') {
$dvl['y_offset'] = $y_first_bar - ($idx + 0.5) * $this->record_bar_width;
if ($rightwards_bar) {
$dvl['h_align'] = 'left';
$dvl['x_offset'] = 5 + $this->shading;
} else {
$dvl['h_align'] = 'right';
$dvl['x_offset'] = -2;
}
$this->DrawDataValueLabel('x', $row, $idx, $x, $row+0.5, $x, $dvl);
}
}
// Step to next bar in group:
$y1 -= $this->record_bar_width;
}
}
return TRUE;
}
/**
* Draws a stackedbars plot (Stacked Bar chart)
*
* This is the main function for drawing a stackedbars plot. Supported
* data types are text-data, for vertical plots, and text-data-yx, for
* horizontal plots (for which it calls DrawHorizStackedBars()).
* Original stacked bars idea by Laurent Kruk < lolok at users.sourceforge.net >
*
* @return bool True (False on error if an error handler returns True)
*/
protected function DrawStackedBars()
{
if (!$this->CheckDataType('text-data, text-data-yx'))
return FALSE;
if ($this->datatype_swapped_xy)
return $this->DrawHorizStackedBars();
$this->CalcBarWidths(TRUE, TRUE); // Calculate bar widths for stacked, vertical
// This is the X offset from the bar's label center point to the left side of the bar.
$x_first_bar = $this->record_bar_width / 2 - $this->bar_adjust_gap;
$gcvars = array(); // For GetBarColors, which initializes and uses this.
// Determine if any data labels are on:
$data_labels_within = ($this->y_data_label_pos == 'plotstack');
$data_labels_end = $data_labels_within || ($this->y_data_label_pos == 'plotin');
$data_label_y_offset = -5 - $this->shading; // For upward labels only.
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
$x_now_pixels = $this->xtr(0.5 + $row); // Place text-data at X = 0.5, 1.5, 2.5, etc...
if ($this->x_data_label_pos != 'none') // Draw X Data labels?
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row);
// Determine bar direction based on 1st non-zero value. Note the bar direction is
// based on zero, not the axis value.
$n_recs = $this->num_recs[$row];
$upward = TRUE; // Initialize this for the case of all segments = 0
for ($i = $record; $i < $n_recs; $i++) {
if (is_numeric($this_y = $this->data[$row][$i]) && $this_y != 0) {
$upward = ($this_y > 0);
break;
}
}
$x1 = $x_now_pixels - $x_first_bar; // Left X of bars in this stack
$x2 = $x1 + $this->actual_bar_width; // Right X of bars in this stack
$wy1 = 0; // World coordinates Y1, current sum of values
$wy2 = $this->x_axis_position; // World coordinates Y2, last drawn value
// Draw bar segments and labels in this stack.
$first = TRUE;
for ($idx = 0; $record < $n_recs; $record++, $idx++) {
// Skip missing Y values. Process Y=0 values due to special case of moved axis.
if (is_numeric($this_y = $this->data[$row][$record])) {
$wy1 += $this_y; // Keep the running total for this bar stack
// Draw the segment only if it will increase the stack height (ignore if wrong direction):
if (($upward && $wy1 > $wy2) || (!$upward && $wy2 > $wy1)) {
$y1 = $this->ytr($wy1); // Convert to device coordinates. $y1 is outermost value.
$y2 = $this->ytr($wy2); // $y2 is innermost (closest to axis).
// Select the colors:
$this->GetBarColors($row, $idx, $gcvars, $data_color, $shade_color, $border_color);
// Draw the bar, and the shade or border:
$this->DrawBar($row, $idx, $x1, $y1, $x2, $y2,
$data_color, $shade_color, $border_color,
// Only shade the top for upward bars, or the first segment of downward bars:
$upward || $first, TRUE);
// Draw optional data label for this bar segment just inside the end.
// Text value is the current Y, but position is the cumulative Y.
// The label is only drawn if it fits in the segment height |y2-y1|.
if ($data_labels_within) {
$dvl['min_height'] = abs($y1 - $y2);
if ($upward) {
$dvl['v_align'] = 'top';
$dvl['y_offset'] = 3;
} else {
$dvl['v_align'] = 'bottom';
$dvl['y_offset'] = -3;
}
$this->DrawDataValueLabel('y', $row, $idx, $row+0.5, $wy1, $this_y, $dvl);
}
// Mark the new end of the bar, conditional on segment height > 0.
$wy2 = $wy1;
$first = FALSE;
}
}
} // end for
// Draw optional data label above the bar with the total value.
// Value is wy1 (total value), but position is wy2 (end of the bar stack).
// These differ only with wrong-direction segments, or a stack completely clipped by the axis.
if ($data_labels_end) {
$dvl['min_height'] = NULL; // Might be set above, but the whole array might not exist.
if ($upward) {
$dvl['v_align'] = 'bottom';
$dvl['y_offset'] = $data_label_y_offset;
} else {
$dvl['v_align'] = 'top';
$dvl['y_offset'] = 5;
}
$this->DrawDataValueLabel('y', $row, NULL, $row+0.5, $wy2, $wy1, $dvl);
}
} // end for
return TRUE;
}
/**
* Draws a Horizontal Stacked Bar chart
*
* This is called from DrawStackedBars() when the data type indicates a
* horizontal plot.
*
* @return bool True (False on error if an error handler returns True)
* @since 5.1.3
*/
protected function DrawHorizStackedBars()
{
$this->CalcBarWidths(TRUE, FALSE); // Calculate bar widths for stacked, horizontal
// This is the Y offset from the bar's label center point to the bottom of the bar
$y_first_bar = $this->record_bar_width / 2 - $this->bar_adjust_gap;
$gcvars = array(); // For GetBarColors, which initializes and uses this.
// Determine if any data labels are on:
$data_labels_within = ($this->x_data_label_pos == 'plotstack');
$data_labels_end = $data_labels_within || ($this->x_data_label_pos == 'plotin');
$data_label_x_offset = 5 + $this->shading; // For rightward labels only
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
$y_now_pixels = $this->ytr(0.5 + $row); // Place bars at Y=0.5, 1.5, 2.5, etc...
if ($this->y_data_label_pos != 'none') // Draw Y Data labels?
$this->DrawYDataLabel($this->data[$row][0], $y_now_pixels, $row);
// Determine bar direction based on 1st non-zero value. Note the bar direction is
// based on zero, not the axis value.
$n_recs = $this->num_recs[$row];
$rightward = TRUE; // Initialize this for the case of all segments = 0
for ($i = $record; $i < $n_recs; $i++) {
if (is_numeric($this_x = $this->data[$row][$i]) && $this_x != 0) {
$rightward = ($this_x > 0);
break;
}
}
// Lower left and upper left Y of the bars in this stack:
$y1 = $y_now_pixels + $y_first_bar; // Lower Y of bars in this stack
$y2 = $y1 - $this->actual_bar_width; // Upper Y of bars in this stack
$wx1 = 0; // World coordinates X1, current sum of values
$wx2 = $this->y_axis_position; // World coordinates X2, last drawn value
// Draw bar segments and labels in this stack.
$first = TRUE;
for ($idx = 0; $record < $this->num_recs[$row]; $record++, $idx++) {
// Skip missing X values. Process X=0 values due to special case of moved axis.
if (is_numeric($this_x = $this->data[$row][$record])) {
$wx1 += $this_x; // Keep the running total for this bar stack
// Draw the segment only if it will increase the stack length (ignore if wrong direction):
if (($rightward && $wx1 > $wx2) || (!$rightward && $wx2 > $wx1)) {
$x1 = $this->xtr($wx1); // Convert to device coordinates. $x1 is outermost value.
$x2 = $this->xtr($wx2); // $x2 is innermost (closest to axis).
// Select the colors:
$this->GetBarColors($row, $idx, $gcvars, $data_color, $shade_color, $border_color);
// Draw the bar, and the shade or border:
$this->DrawBar($row, $idx, $x1, $y1, $x2, $y2,
$data_color, $shade_color, $border_color,
// Only shade the side for rightward bars, or the first segment of leftward bars:
TRUE, $rightward || $first);
// Draw optional data label for this bar segment just inside the end.
// Text value is the current X, but position is the cumulative X.
// The label is only drawn if it fits in the segment width |x2-x1|.
if ($data_labels_within) {
$dvl['min_width'] = abs($x1 - $x2);
if ($rightward) {
$dvl['h_align'] = 'right';
$dvl['x_offset'] = -3;
} else {
$dvl['h_align'] = 'left';
$dvl['x_offset'] = 3;
}
$this->DrawDataValueLabel('x', $row, $idx, $wx1, $row+0.5, $this_x, $dvl);
}
// Mark the new end of the bar, conditional on segment width > 0.
$wx2 = $wx1;
$first = FALSE;
}
}
} // end for
// Draw optional data label right of the bar with the total value.
// Value is wx1 (total value), but position is wx2 (end of the bar stack).
// These differ only with wrong-direction segments, or a stack completely clipped by the axis.
if ($data_labels_end) {
$dvl['min_width'] = NULL; // Might be set above, but the whole array might not exist.
if ($rightward) {
$dvl['h_align'] = 'left';
$dvl['x_offset'] = $data_label_x_offset;
} else {
$dvl['h_align'] = 'right';
$dvl['x_offset'] = -5;
}
$this->DrawDataValueLabel('x', $row, NULL, $wx2, $row+0.5, $wx1, $dvl);
}
} // end for
return TRUE;
}
/**
* Draws an ohlc, candlesticks, or candlesticks2 plot ("Open/High/Low/Close" OHLC plot)
*
* This is the main function for drawing an ohlc, candlesticks, or
* candlesticks2 plot, which are typically used to show price changes in
* financial instruments. Supported data types are text-data and
* data-data, each with exactly 4 Y values per row: Open, High, Low, and
* Close. The 2 parameters select one of the 3 plot subtypes.
*
* @param bool $draw_candles True to draw a candlestick plot, False to draw an ohlc plot
* @param bool $always_fill True to always fill, False or omit to fill only when closing down
* @return bool True (False on error if an error handler returns True)
* @since 5.3.0
*/
protected function DrawOHLC($draw_candles, $always_fill = FALSE)
{
if (!$this->CheckDataType('text-data, data-data'))
return FALSE;
if ($this->data_columns != 4) // early error check (more inside the loop)
return $this->PrintError("DrawOHLC(): rows must have 4 values.");
// Assign name of GD function to draw candlestick bodies for stocks that close up.
$draw_body_close_up = $always_fill ? 'imagefilledrectangle' : 'imagerectangle';
// Calculate the half-width of the candle body, or length of the tick marks.
// This is scaled based on the plot density, but within tight limits.
$dw = max($this->ohlc_min_width, min($this->ohlc_max_width,
(int)($this->ohlc_frac_width * $this->plot_area_width / $this->num_data_rows)));
// Get line widths to use: index 0 for body/stroke, 1 for wick/tick.
list($body_thickness, $wick_thickness) = $this->line_widths;
$gcvars = array(); // For GetDataColor, which initializes and uses this.
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied X values?
$x_now = 0.5 + $row; // Place text-data at X = 0.5, 1.5, 2.5, etc...
else
$x_now = $this->data[$row][$record++]; // Read it, advance record index
$x_now_pixels = $this->xtr($x_now); // Convert X to device coordinates
$x_left = $x_now_pixels - $dw;
$x_right = $x_now_pixels + $dw;
if ($this->x_data_label_pos != 'none') // Draw X Data labels?
$this->DrawXDataLabel($this->data[$row][0], $x_now_pixels, $row);
// Each row must have 4 values, but skip rows with non-numeric entries.
if ($this->num_recs[$row] - $record != 4) {
return $this->PrintError("DrawOHLC(): row $row must have 4 values.");
}
if (!is_numeric($yo = $this->data[$row][$record++])
|| !is_numeric($yh = $this->data[$row][$record++])
|| !is_numeric($yl = $this->data[$row][$record++])
|| !is_numeric($yc = $this->data[$row][$record++])) {
continue;
}
// Set device coordinates for each value and direction flag:
$yh_pixels = $this->ytr($yh);
$yl_pixels = $this->ytr($yl);
$yc_pixels = $this->ytr($yc);
$yo_pixels = $this->ytr($yo);
$closed_up = $yc >= $yo;
// Get data colors and line thicknesses:
if ($closed_up) {
$this->GetDataColor($row, 1, $gcvars, $body_color); // Color 1 for body, closing up
$this->GetDataColor($row, 3, $gcvars, $ext_color); // Color 3 for wicks/ticks
} else {
$this->GetDataColor($row, 0, $gcvars, $body_color); // Color 0 for body, closing down
$this->GetDataColor($row, 2, $gcvars, $ext_color); // Color 2 for wicks/ticks
}
imagesetthickness($this->img, $body_thickness);
if ($draw_candles) {
// Note: Unlike ImageFilledRectangle, ImageRectangle 'requires' its arguments in
// order with upper left corner first.
if ($closed_up) {
$yb1_pixels = $yc_pixels; // Upper body Y
$yb2_pixels = $yo_pixels; // Lower body Y
$draw_body = $draw_body_close_up;
// Avoid a PHP/GD bug resulting in "T"-shaped ends to zero height unfilled rectangle:
if ($yb1_pixels == $yb2_pixels)
$draw_body = 'imagefilledrectangle';
} else {
$yb1_pixels = $yo_pixels;
$yb2_pixels = $yc_pixels;
$draw_body = 'imagefilledrectangle';
}
// Draw candle body
$draw_body($this->img, $x_left, $yb1_pixels, $x_right, $yb2_pixels, $body_color);
// Draw upper and lower wicks, if they have height. (In device coords, that's dY<0)
imagesetthickness($this->img, $wick_thickness);
if ($yh_pixels < $yb1_pixels) {
imageline($this->img, $x_now_pixels, $yb1_pixels, $x_now_pixels, $yh_pixels, $ext_color);
}
if ($yl_pixels > $yb2_pixels) {
imageline($this->img, $x_now_pixels, $yb2_pixels, $x_now_pixels, $yl_pixels, $ext_color);
}
} else {
// Basic OHLC
imageline($this->img, $x_now_pixels, $yl_pixels, $x_now_pixels, $yh_pixels, $body_color);
imagesetthickness($this->img, $wick_thickness);
imageline($this->img, $x_left, $yo_pixels, $x_now_pixels, $yo_pixels, $ext_color);
imageline($this->img, $x_right, $yc_pixels, $x_now_pixels, $yc_pixels, $ext_color);
}
imagesetthickness($this->img, 1);
$this->DoCallback('data_points', 'rect', $row, 0, $x_left, $yh_pixels, $x_right, $yl_pixels);
}
return TRUE;
}
/**
* Draws a bubbles plot (Bubble chart)
*
* This is the main function for drawing a bubbles plot, which is a
* scatter plot with bubble size showing the Z value.
* Supported data type is data-data-xyz with rows of (label, X, Y1, Z1, ...)
* with multiple data sets (Y, Z pairs) supported.
*
* @return bool True (False on error if an error handler returns True)
* @since 5.5.0
*/
protected function DrawBubbles()
{
if (!$this->CheckDataType('data-data-xyz'))
return FALSE;
$gcvars = array(); // For GetDataColor, which initializes and uses this.
// Calculate or use supplied maximum bubble size:
if (isset($this->bubbles_max_size)) {
$bubbles_max_size = $this->bubbles_max_size;
} else {
$bubbles_max_size = min($this->plot_area_width, $this->plot_area_height) / 12;
}
// Calculate bubble scale parameters. Bubble_size(z) = $f_size * $z + $b_size
if ($this->max_z <= $this->min_z) { // Regressive case, no Z range.
$f_size = 0;
$b_size = ($bubbles_max_size + $this->bubbles_min_size) / 2; // Use average size of all bubbles
} else {
$f_size = ($bubbles_max_size - $this->bubbles_min_size) / ($this->max_z - $this->min_z);
$b_size = $bubbles_max_size - $f_size * $this->max_z;
}
for ($row = 0; $row < $this->num_data_rows; $row++) {
$rec = 1; // Skip record #0 (data label)
$x = $this->xtr($this->data[$row][$rec++]); // Get X value from data array.
// Draw X Data labels?
if ($this->x_data_label_pos != 'none')
$this->DrawXDataLabel($this->data[$row][0], $x, $row, TRUE);
// Proceed with Y,Z values
for ($idx = 0; $rec < $this->num_recs[$row]; $rec += 2, $idx++) {
if (is_numeric($y_now = $this->data[$row][$rec])) { //Allow for missing Y data
$y = $this->ytr($y_now);
$z = (double)$this->data[$row][$rec+1]; // Z is required if Y is present.
$size = (int)($f_size * $z + $b_size); // Calculate bubble size
// Select the color:
$this->GetDataColor($row, $idx, $gcvars, $data_color);
// Draw the bubble:
ImageFilledEllipse($this->img, $x, $y, $size, $size, $data_color);
$this->DoCallback('data_points', 'circle', $row, $idx, $x, $y, $size);
}
}
}
return TRUE;
}
/**
* Draws a boxes plot (Box Plot or Box and Whisker plot)
*
* This is the main function for drawing a boxes plot. Supported data
* types are text-data and data-data, each with 5 or more Y values per
* row. The first 5 values are Ymin, YQ1, Ymid, YQ3, Ymax. Any additional
* values are outliers. PHPlot requires Ymin <= YQ1 <= Ymin <= YQ3 <= Ymax
* but does not assume anything about specific values (quartile, median).
*
* @return bool True (False on error if an error handler returns True)
* @since 6.1.0
*/
protected function DrawBoxes()
{
if (!$this->CheckDataType('text-data, data-data'))
return FALSE;
if ($this->data_columns < 5) // early error check (more inside the loop)
return $this->PrintError("DrawBoxes(): rows must have 5 or more values.");
// Set up the point shapes/sizes arrays - needed for outliers:
$this->CheckPointParams();
// Calculate the half-width of the boxes.
// This is scaled based on the plot density, but within tight limits.
$width1 = max($this->boxes_min_width, min($this->boxes_max_width,
(int)($this->boxes_frac_width * $this->plot_area_width / $this->num_data_rows)));
// This is the half-width of the upper and lower T's and the ends of the whiskers:
$width2 = $this->boxes_t_width * $width1;
// A box plot can use up to 3 different line widths:
list($box_thickness, $belt_thickness, $whisker_thickness) = $this->line_widths;
$gcvars = array(); // For GetDataColor, which initializes and uses this.
for ($row = 0; $row < $this->num_data_rows; $row++) {
$record = 1; // Skip record #0 (data label)
if ($this->datatype_implied) // Implied X values?
$xw = 0.5 + $row; // Place text-data at X = 0.5, 1.5, 2.5, etc...
else
$xw = $this->data[$row][$record++]; // Read it, advance record index
$xd = $this->xtr($xw); // Convert X to device coordinates
$x_left = $xd - $width1;
$x_right = $xd + $width1;
if ($this->x_data_label_pos != 'none') // Draw X Data labels?
$this->DrawXDataLabel($this->data[$row][0], $xd, $row);
// Each row must have at least 5 values:
$num_y = $this->num_recs[$row] - $record;
if ($num_y < 5) {
return $this->PrintError("DrawBoxes(): row $row must have at least 5 values.");
}
// Collect the 5 primary Y values, plus any outliers:
$yd = array(); // Device coords
for ($i = 0; $i < $num_y; $i++) {
$yd[$i] = is_numeric($y = $this->data[$row][$record++]) ? $this->ytr($y) : NULL;
}
// Skip the row if either YQ1 or YQ3 is missing:
if (!isset($yd[1], $yd[3])) continue;
// Box plot uses 4 colors, and 1 dashed line style for the whiskers:
$this->GetDataColor($row, 0, $gcvars, $box_color);
$this->GetDataColor($row, 1, $gcvars, $belt_color);
$this->GetDataColor($row, 2, $gcvars, $outlier_color);
$this->GetDataColor($row, 3, $gcvars, $whisker_color);
$whisker_style = $this->SetDashedStyle($whisker_color, $this->line_styles[0] == 'dashed');
// Draw the lower whisker and T
if (isset($yd[0]) && $yd[0] > $yd[1]) { // Note device Y coordinates are inverted (*-1)
imagesetthickness($this->img, $whisker_thickness);
imageline($this->img, $xd, $yd[0], $xd, $yd[1], $whisker_style);
imageline($this->img, $xd - $width2, $yd[0], $xd + $width2, $yd[0], $whisker_color);
}
// Draw the upper whisker and T
if (isset($yd[4]) && $yd[3] > $yd[4]) { // Meaning: Yworld[3] < Yworld[4]
imagesetthickness($this->img, $whisker_thickness);
imageline($this->img, $xd, $yd[3], $xd, $yd[4], $whisker_style);
imageline($this->img, $xd - $width2, $yd[4], $xd + $width2, $yd[4], $whisker_color);
}
// Draw the median belt (before the box, so the ends of the belt don't break up the box.)
if (isset($yd[2])) {
imagesetthickness($this->img, $belt_thickness);
imageline($this->img, $x_left, $yd[2], $x_right, $yd[2], $belt_color);
}
// Draw the box
imagesetthickness($this->img, $box_thickness);
imagerectangle($this->img, $x_left, $yd[3], $x_right, $yd[1], $box_color);
imagesetthickness($this->img, 1);
// Draw any outliers, all using the same shape marker (index 0) and color:
for ($i = 5; $i < $num_y; $i++) {
if (isset($yd[$i]))
$this->DrawShape($xd, $yd[$i], 0, $outlier_color);
}
$this->DoCallback('data_points', 'rect', $row, 0, $x_left, $yd[4], $x_right, $yd[0]);
}
return TRUE;
}
/**
* Draws the current graph onto the image
*
* This is the function that performs the actual drawing, after all the
* parameters and data are set up. It also outputs the finished image,
* unless told not to with SetPrintImage(False).
* Note: It is possible for this to be called multiple times (multi-plot).
*
* @return bool True (False on error if an error handler returns True)
*/
function DrawGraph()
{
// Test for missing image, missing data, empty data:
if (!$this->CheckDataArray())
return FALSE; // Error message already reported.
// Load some configuration values from the array of plot types:
$pt = &self::$plots[$this->plot_type]; // Use reference for shortcut
$draw_method = $pt['draw_method'];
$draw_arg = isset($pt['draw_arg']) ? $pt['draw_arg'] : array();
$draw_axes = empty($pt['suppress_axes']);
// Allocate colors for the plot:
$this->SetColorIndexes();
// Calculate scaling, but only for plots with axes (excludes pie charts).
if ($draw_axes) {
// Get maxima and minima for scaling:
if (!$this->FindDataLimits())
return FALSE;
// Set plot area world values (plot_max_x, etc.):
if (!$this->CalcPlotAreaWorld())
return FALSE;
// Calculate X and Y axis positions in World Coordinates:
$this->CalcAxisPositions();
// Process label-related parameters:
$this->CheckLabels();
}
// Calculate the plot margins, if needed.
// For pie charts, set the $maximize argument to maximize space usage.
$this->CalcMargins(!$draw_axes);
// Calculate the actual plot area in device coordinates:
$this->CalcPlotAreaPixels();
// Calculate the mapping between world and device coordinates:
if ($draw_axes) $this->CalcTranslation();
// Pad color and style arrays to fit records per group:
$this->PadArrays();
$this->DoCallback('draw_setup');
$this->DrawBackground();
$this->DrawImageBorder();
$this->DoCallback('draw_image_background');
$this->DrawPlotAreaBackground();
$this->DoCallback('draw_plotarea_background', $this->plot_area);
$this->DrawTitle();
if ($draw_axes) { // If no axes (pie chart), no axis titles either
$this->DrawXTitle();
$this->DrawYTitle();
}
$this->DoCallback('draw_titles');
// grid_at_foreground flag allows grid behind or in front of the plot
if ($draw_axes && !$this->grid_at_foreground) {
$this->DrawYAxis(); // Y axis must be drawn before X axis (see DrawYAxis())
$this->DrawXAxis();
$this->DoCallback('draw_axes');
}
// Call the plot-type drawing method:
call_user_func_array(array($this, $draw_method), $draw_arg);
$this->DoCallback('draw_graph', $this->plot_area);
if ($draw_axes && $this->grid_at_foreground) {
$this->DrawYAxis(); // Y axis must be drawn before X axis (see DrawYAxis())
$this->DrawXAxis();
$this->DoCallback('draw_axes');
}
$this->DrawPlotBorder($draw_axes); // Flag controls default for plot area borders
$this->DoCallback('draw_border');
if (!empty($this->legend)) {
$this->DrawLegend();
$this->DoCallback('draw_legend');
}
$this->DoCallback('draw_all', $this->plot_area);
if ($this->print_image && !$this->PrintImage())
return FALSE;
return TRUE;
}
/////////////////////////////////////////////
////////////////// DEPRECATED METHODS
/////////////////////////////////////////////
/*
* Note on deprecated methods - as these pre-date the PHPlot Reference
* Manual, and there is minimal documentation about them, I have neither
* removed them nor changed them. They are not tested or documented, and
* should not be used.
*/
/**
* @deprecated Use SetYTickPos() instead
*/
function SetDrawVertTicks($which_dvt)
{
if ($which_dvt != 1)
$this->SetYTickPos('none');
return TRUE;
}
/**
* @deprecated Use SetXTickPos() instead
*/
function SetDrawHorizTicks($which_dht)
{
if ($which_dht != 1)
$this->SetXTickPos('none');
return TRUE;
}
/**
* @deprecated Use SetNumXTicks() instead
*/
function SetNumHorizTicks($n)
{
return $this->SetNumXTicks($n);
}
/**
* @deprecated Use SetNumYTicks() instead
*/
function SetNumVertTicks($n)
{
return $this->SetNumYTicks($n);
}
/**
* @deprecated Use SetXTickIncrement() instead
*/
function SetHorizTickIncrement($inc)
{
return $this->SetXTickIncrement($inc);
}
/**
* @deprecated Use SetYTickIncrement() instead
*/
function SetVertTickIncrement($inc)
{
return $this->SetYTickIncrement($inc);
}
/**
* @deprecated Use SetYTickPos() instead
*/
function SetVertTickPosition($which_tp)
{
return $this->SetYTickPos($which_tp);
}
/**
* @deprecated Use SetXTickPos() instead
*/
function SetHorizTickPosition($which_tp)
{
return $this->SetXTickPos($which_tp);
}
/**
* @deprecated Use SetFont() instead
*/
function SetTitleFontSize($which_size)
{
return $this->SetFont('title', $which_size);
}
/**
* @deprecated Use SetFont() instead
*/
function SetAxisFontSize($which_size)
{
$this->SetFont('x_label', $which_size);
$this->SetFont('y_label', $which_size);
}
/**
* @deprecated Use SetFont() instead
*/
function SetSmallFontSize($which_size)
{
return $this->SetFont('generic', $which_size);
}
/**
* @deprecated Use SetFont() instead
*/
function SetXLabelFontSize($which_size)
{
return $this->SetFont('x_title', $which_size);
}
/**
* @deprecated Use SetFont() instead
*/
function SetYLabelFontSize($which_size)
{
return $this->SetFont('y_title', $which_size);
}
/**
* @deprecated Use SetXTitle() instead
*/
function SetXLabel($which_xlab)
{
return $this->SetXTitle($which_xlab);
}
/**
* @deprecated Use SetYTitle() instead
*/
function SetYLabel($which_ylab)
{
return $this->SetYTitle($which_ylab);
}
/**
* @deprecated Use SetXTickLength() and SetYTickLength() instead
*/
function SetTickLength($which_tl)
{
$this->SetXTickLength($which_tl);
$this->SetYTickLength($which_tl);
return TRUE;
}
/**
* @deprecated Use SetYLabelType() instead
*/
function SetYGridLabelType($which_yglt)
{
return $this->SetYLabelType($which_yglt);
}
/**
* @deprecated Use SetXLabelType() instead
*/
function SetXGridLabelType($which_xglt)
{
return $this->SetXLabelType($which_xglt);
}
/**
* @deprecated Use SetYTickLabelPos() instead
*/
function SetYGridLabelPos($which_yglp)
{
return $this->SetYTickLabelPos($which_yglp);
}
/**
* @deprecated Use SetXTickLabelPos() instead
*/
function SetXGridLabelPos($which_xglp)
{
return $this->SetXTickLabelPos($which_xglp);
}
/**
* @deprecated Use SetXtitle() instead
*/
function SetXTitlePos($xpos)
{
$this->x_title_pos = $xpos;
return TRUE;
}
/**
* @deprecated Use SetYTitle() instead
*/
function SetYTitlePos($xpos)
{
$this->y_title_pos = $xpos;
return TRUE;
}
/**
* @deprecated Use SetXDataLabelPos() instead
*/
function SetDrawXDataLabels($which_dxdl)
{
if ($which_dxdl == '1' )
$this->SetXDataLabelPos('plotdown');
else
$this->SetXDataLabelPos('none');
}
/**
* @deprecated Use SetPlotAreaPixels() instead
*/
function SetNewPlotAreaPixels($x1, $y1, $x2, $y2)
{
return $this->SetPlotAreaPixels($x1, $y1, $x2, $y2);
}
/**
* @deprecated Use SetLineWidths() instead
*/
function SetLineWidth($which_lw)
{
$this->SetLineWidths($which_lw);
if (!$this->error_bar_line_width) {
$this->SetErrorBarLineWidth($which_lw);
}
return TRUE;
}
/**
* @deprecated Use SetPointShapes() instead
*/
function SetPointShape($which_pt)
{
$this->SetPointShapes($which_pt);
return TRUE;
}
/**
* @deprecated Use SetPointSizes() instead
*/
function SetPointSize($which_ps)
{
$this->SetPointSizes($which_ps);
return TRUE;
}
/**
* @deprecated Use PrintError() instead
*/
protected function DrawError($error_message, $where_x = NULL, $where_y = NULL)
{
return $this->PrintError($error_message);
}
}
/**
* Class for creating a plot using a truecolor (24-bit R,G,B) image
*
* The PHPlot_truecolor class extends the PHPlot class to use GD truecolor
* images. Unlike PHPlot which usually creates indexed RGB files limited to
* 256 total colors, PHPlot_truecolor objects use images which do not have a
* limit on the number of colors.
*
* Note: Without a background image, the PHPlot class creates a palette
* (indexed) color image, and the PHPlot_truecolor class creates a truecolor
* image. If a background image is used with the constructor of either class,
* the type of image produced matches the type of the background image.
*
*/
class PHPlot_truecolor extends PHPlot
{
/**
* Constructor: Sets up GD truecolor image resource, and initializes plot style controls
*
* @param int $width Image width in pixels
* @param int $height Image height in pixels
* @param string $output_file Path for output file. Omit, or NULL, or '' to mean no output file
* @param string $input_file Path to a file to be used as background. Omit, NULL, or '' for none
*/
function __construct($width=600, $height=400, $output_file=NULL, $input_file=NULL)
{
$this->initialize('imagecreatetruecolor', $width, $height, $output_file, $input_file);
}
}
Reference in a new issue View git blame Copy permalink