You can't have both background images and truetype fonts in the same // image until these bugs has been fixed in GD 2.01. There is a patch // available for GD 2.0.1 though. See the README file. DEFINE('USE_TRUECOLOR',true); // Specify what version of the GD library is installed. // If this is set to 'auto' the version will be automatically // determined. // However since determining the library takes ~1ms you can also // manually specify the version if you know what version you have. // This means that you should // set this define to true if you have GD 2.x installed to save 1ms. DEFINE("USE_LIBRARY_GD2",'auto'); // Should the cache be used at all? By setting this to false no // files will be generated in the cache directory. // The difference from READ_CACHE being that setting READ_CACHE to // false will still create the image in the cache directory // just not use it. By setting USE_CACHE=false no files will even // be generated in the cache directory. DEFINE("USE_CACHE",false); // Should we try to find an image in the cache before generating it? // Set this define to false to bypass the reading of the cache and always // regenerate the image. Note that even if reading the cache is // disabled the cached will still be updated with the newly generated // image. Set also "USE_CACHE" below. DEFINE("READ_CACHE",true); // Determine if the error handler should be image based or purely // text based. Image based makes it easier since the script will // always return an image even in case of errors. DEFINE("USE_IMAGE_ERROR_HANDLER",true); // If the color palette is full should JpGraph try to allocate // the closest match? If you plan on using background images or // gradient fills it might be a good idea to enable this. // If not you will otherwise get an error saying that the color palette is // exhausted. The drawback of using approximations is that the colors // might not be exactly what you specified. // Note1: This does only apply to paletted images, not truecolor // images since they don't have the limitations of maximum number // of colors. DEFINE("USE_APPROX_COLORS",true); // Special unicode cyrillic language support DEFINE("LANGUAGE_CYRILLIC",false); // If you are setting this config to true the conversion // will assume that the input text is windows 1251, if // false it will assume koi8-r DEFINE("CYRILLIC_FROM_WINDOWS",false); // Should usage of deprecated functions and parameters give a fatal error? // (Useful to check if code is future proof.) DEFINE("ERR_DEPRECATED",true); // Should the time taken to generate each picture be branded to the lower // left in corner in each generated image? Useful for performace measurements // generating graphs DEFINE("BRAND_TIMING",false); // What format should be used for the timing string? DEFINE("BRAND_TIME_FORMAT","(%01.3fs)"); //------------------------------------------------------------------------ // The following constants should rarely have to be changed ! //------------------------------------------------------------------------ // What group should the cached file belong to // (Set to "" will give the default group for the "PHP-user") // Please note that the Apache user must be a member of the // specified group since otherwise it is impossible for Apache // to set the specified group. DEFINE("CACHE_FILE_GROUP","wwwadmin"); // What permissions should the cached file have // (Set to "" will give the default persmissions for the "PHP-user") DEFINE("CACHE_FILE_MOD",0664); // Decide if we should use the bresenham circle algorithm or the // built in Arc(). Bresenham gives better visual apperance of circles // but is more CPU intensive and slower then the built in Arc() function // in GD. Turned off by default for speed DEFINE("USE_BRESENHAM",false); // Special file name to indicate that we only want to calc // the image map in the call to Graph::Stroke() used // internally from the GetHTMLCSIM() method. DEFINE("_CSIM_SPECIALFILE","_csim_special_"); // HTTP GET argument that is used with image map // to indicate to the script to just generate the image // and not the full CSIM HTML page. DEFINE("_CSIM_DISPLAY","_jpg_csimd"); // Special filename for Graph::Stroke(). If this filename is given // then the image will NOT be streamed to browser of file. Instead the // Stroke call will return the handler for the created GD image. DEFINE("_IMG_HANDLER","__handle"); // DON'T SET THIS FLAG YORSELF THIS IS ONLY FOR INTERNAL TESTING // PURPOSES. ENABLING THIS FLAG WILL MAKE SOME OF YOUR SCRIPT // STOP WORKING // Enable some extra debug information for CSIM etc to be shown. DEFINE("JPG_DEBUG",false); // Version info DEFINE('JPG_VERSION','1.12'); //------------------------------------------------------------------------ // Automatic settings of path for cache and font directory // if they have not been previously specified //------------------------------------------------------------------------ if (!defined('CACHE_DIR')) { if ( strstr( PHP_OS, 'WIN') ) { if( empty($_SERVER['TEMP']) ) { die('JpGraph Error: No path specified for CACHE_DIR. Please specify a path for that DEFINE in jpgraph.php'); } else { DEFINE('CACHE_DIR', $_SERVER['TEMP'] . '/'); } } else { DEFINE('CACHE_DIR','/tmp/jpgraph_cache/'); } } if (!defined('TTF_DIR')) { if (strstr( PHP_OS, 'WIN') ) { if( empty($_SERVER['SystemRoot']) ) { die('JpGraph Error: No path specified for TTF_DIR. Please specify a path for that DEFINE in jpgraph.php'); } else { DEFINE('TTF_DIR', $_SERVER['SystemRoot'] . '/fonts/'); } } else { DEFINE('TTF_DIR','/usr/X11R6/lib/X11/fonts/truetype/'); } } //------------------------------------------------------------------ // Constants which are used as parameters for the method calls //------------------------------------------------------------------ // TTF Font families DEFINE("FF_COURIER",10); DEFINE("FF_VERDANA",11); DEFINE("FF_TIMES",12); DEFINE("FF_COMIC",14); DEFINE("FF_ARIAL",15); DEFINE("FF_GEORGIA",16); DEFINE("FF_TREBUCHE",17); // Chinese font DEFINE("FF_SIMSUN",18); // Older deprecated fonts DEFINE("FF_BOOK",91); // Deprecated fonts from 1.9 DEFINE("FF_HANDWRT",92); // Deprecated fonts from 1.9 // TTF Font styles DEFINE("FS_NORMAL",9001); DEFINE("FS_BOLD",9002); DEFINE("FS_ITALIC",9003); DEFINE("FS_BOLDIT",9004); DEFINE("FS_BOLDITALIC",9004); //Definitions for internal font, new style DEFINE("FF_FONT0",1); DEFINE("FF_FONT1",2); DEFINE("FF_FONT2",4); //Definitions for internal font, old style // (Only defined here to be able to generate an error mesage // when used) DEFINE("FONT0",99); // Deprecated from 1.2 DEFINE("FONT1",98); // Deprecated from 1.2 DEFINE("FONT1_BOLD",97); // Deprecated from 1.2 DEFINE("FONT2",96); // Deprecated from 1.2 DEFINE("FONT2_BOLD",95); // Deprecated from 1.2 // Tick density DEFINE("TICKD_DENSE",1); DEFINE("TICKD_NORMAL",2); DEFINE("TICKD_SPARSE",3); DEFINE("TICKD_VERYSPARSE",4); // Side for ticks and labels. DEFINE("SIDE_LEFT",-1); DEFINE("SIDE_RIGHT",1); DEFINE("SIDE_DOWN",-1); DEFINE("SIDE_BOTTOM",-1); DEFINE("SIDE_UP",1); DEFINE("SIDE_TOP",1); // Legend type stacked vertical or horizontal DEFINE("LEGEND_VERT",0); DEFINE("LEGEND_HOR",1); // Mark types for plot marks DEFINE("MARK_SQUARE",1); DEFINE("MARK_UTRIANGLE",2); DEFINE("MARK_DTRIANGLE",3); DEFINE("MARK_DIAMOND",4); DEFINE("MARK_CIRCLE",5); DEFINE("MARK_FILLEDCIRCLE",6); DEFINE("MARK_CROSS",7); DEFINE("MARK_STAR",8); DEFINE("MARK_X",9); DEFINE("MARK_LEFTTRIANGLE",10); DEFINE("MARK_RIGHTTRIANGLE",11); DEFINE("MARK_FLASH",12); DEFINE("MARK_IMG",13); // Builtin images DEFINE("MARK_IMG_PUSHPIN",50); DEFINE("MARK_IMG_SPUSHPIN",50); DEFINE("MARK_IMG_LPUSHPIN",51); DEFINE("MARK_IMG_DIAMOND",52); DEFINE("MARK_IMG_SQUARE",53); DEFINE("MARK_IMG_STAR",54); DEFINE("MARK_IMG_BALL",55); DEFINE("MARK_IMG_SBALL",55); DEFINE("MARK_IMG_MBALL",56); DEFINE("MARK_IMG_LBALL",57); DEFINE("MARK_IMG_BEVEL",58); // Styles for gradient color fill DEFINE("GRAD_VER",1); DEFINE("GRAD_VERT",1); DEFINE("GRAD_HOR",2); DEFINE("GRAD_MIDHOR",3); DEFINE("GRAD_MIDVER",4); DEFINE("GRAD_CENTER",5); DEFINE("GRAD_WIDE_MIDVER",6); DEFINE("GRAD_WIDE_MIDHOR",7); DEFINE("GRAD_LEFT_REFLECTION",8); DEFINE("GRAD_RIGHT_REFLECTION",9); // Inline defines DEFINE("INLINE_YES",1); DEFINE("INLINE_NO",0); // Format for background images DEFINE("BGIMG_FILLPLOT",1); DEFINE("BGIMG_FILLFRAME",2); DEFINE("BGIMG_COPY",3); DEFINE("BGIMG_CENTER",4); // Depth of objects DEFINE("DEPTH_BACK",0); DEFINE("DEPTH_FRONT",1); // Direction DEFINE("VERTICAL",1); DEFINE("HORIZONTAL",0); // Constants for types of static bands in plot area DEFINE("BAND_RDIAG",1); // Right diagonal lines DEFINE("BAND_LDIAG",2); // Left diagonal lines DEFINE("BAND_SOLID",3); // Solid one color DEFINE("BAND_VLINE",4); // Vertical lines DEFINE("BAND_HLINE",5); // Horizontal lines DEFINE("BAND_3DPLANE",6); // "3D" Plane DEFINE("BAND_HVCROSS",7); // Vertical/Hor crosses DEFINE("BAND_DIAGCROSS",8); // Diagonal crosses // Axis styles for scientific style axis DEFINE('AXSTYLE_SIMPLE',1); DEFINE('AXSTYLE_BOXIN',2); DEFINE('AXSTYLE_BOXOUT',3); DEFINE('AXSTYLE_YBOXIN',4); DEFINE('AXSTYLE_YBOXOUT',5); // Style for title backgrounds DEFINE('TITLEBKG_STYLE1',1); DEFINE('TITLEBKG_STYLE2',2); DEFINE('TITLEBKG_STYLE3',3); DEFINE('TITLEBKG_FRAME_NONE',0); DEFINE('TITLEBKG_FRAME_FULL',1); DEFINE('TITLEBKG_FRAME_BOTTOM',2); DEFINE('TITLEBKG_FRAME_BEVEL',3); DEFINE('TITLEBKG_FILLSTYLE_HSTRIPED',1); DEFINE('TITLEBKG_FILLSTYLE_VSTRIPED',2); DEFINE('TITLEBKG_FILLSTYLE_SOLID',3); // Width of tab titles DEFINE('TABTITLE_WIDTHFIT',0); DEFINE('TABTITLE_WIDTHFULL',-1); // // Get hold of gradient class (In Version 2.x) // A client of the library has to manually include this // include "jpgraph_gradient.php"; // // First of all set up a default error handler // //============================================================= // The default trivial text error handler. //============================================================= class JpGraphErrObject { function JpGraphErrObject() { // Empty. Reserved for future use } // If aHalt is true then execution can't continue. Typical used for // fatal errors function Raise($aMsg,$aHalt=true) { $aMsg = "JpGraph Error: ".$aMsg; if( $aHalt ) die($aMsg); else echo $aMsg."
";
}
}
//==============================================================
// An image based error handler
//==============================================================
class JpGraphErrObjectImg {
function Raise($aMsg,$aHalt=true) {
if( headers_sent() ) {
// Special case for headers already sent error. Dont
// return an image since it can't be displayed
die("JpGraph Error: ".$aMsg);
}
// Create an image that contains the error text.
$w=450; $h=110;
$img = new Image($w,$h);
$img->SetColor("darkred");
$img->Rectangle(0,0,$w-1,$h-1);
$img->SetFont(FF_FONT1,FS_BOLD);
$img->StrokeText(10,20,"JpGraph Error:");
$img->SetColor("black");
$img->SetFont(FF_FONT1,FS_NORMAL);
$txt = new Text(wordwrap($aMsg,70),10,20);
$txt->Align("left","top");
$txt->Stroke($img);
$img->Headers();
$img->Stream();
die();
}
}
//
// A wrapper class that is used to access the specified error object
// (to hide the global error parameter and avoid having a GLOBAL directive
// in all methods.
//
class JpGraphError {
function Install($aErrObject) {
GLOBAL $__jpg_err;
$__jpg_err = $aErrObject;
}
function Raise($aMsg,$aHalt=true){
GLOBAL $__jpg_err;
$tmp = new $__jpg_err;
$tmp->Raise($aMsg,$aHalt);
}
}
//
// ... and install the default error handler
//
if( USE_IMAGE_ERROR_HANDLER ) {
JpGraphError::Install("JpGraphErrObjectImg");
}
else {
JpGraphError::Install("JpGraphErrObject");
}
//
//Check if there were any warnings, perhaps some wrong includes by the
//user
//
if( isset($GLOBALS['php_errormsg']) ) {
JpGraphError::Raise("General PHP error:
If this is not the case you might have stumbled upon a bug in JpGraph.
Please report this and if possible include the data that caused the
problem.");
}
$this->major_step=$aMajStep;
$this->minor_step=$aMinStep;
$this->is_set = true;
}
// Draw linear ticks
function Stroke(&$img,&$scale,$pos) {
$maj_step_abs = $scale->scale_factor*$this->major_step;
$min_step_abs = $scale->scale_factor*$this->minor_step;
if( $min_step_abs==0 || $maj_step_abs==0 )
JpGraphError::Raise(" A plot has an illegal scale. This could for example be that you are trying to use text autoscaling to draw a line plot with only one point or that the plot area is too small. Try increasing the graph size or correct the lineplot.");
$limit = $scale->scale_abs[1];
$nbrmajticks=floor(1.000001*(($scale->GetMaxVal()-$scale->GetMinVal())/$this->major_step))+1;
$first=0;
// If precision hasn't been specified set it to a sensible value
if( $this->precision==-1 ) {
$t = log10($this->minor_step);
if( $t > 0 )
$precision = 0;
else
$precision = -floor($t);
}
else
$precision = $this->precision;
$img->SetLineWeight($this->weight);
// Handle ticks on X-axis
if( $scale->type == "x" ) {
// Draw the minor tick marks
$yu = $pos - $this->direction*$this->GetMinTickAbsSize();
$label = $scale->GetMinVal();
$x=$scale->scale_abs[0];
$i=0;
$j=0;
$step = round($maj_step_abs/$min_step_abs);
while( $x < $limit ) {
$this->ticks_pos[]=$x;
$this->ticks_label[]=$label;
$label+=$this->minor_step;
if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) {
if( $this->mincolor!="" ) $img->PushColor($this->mincolor);
$img->Line($x,$pos,$x,$yu);
if( $this->mincolor!="" ) $img->PopColor();
}
if( $i % $step == 0 ) {
$this->maj_ticks_pos[$j]=round($x);//$xtick;
++$j;
}
++$i;
$x += $min_step_abs;
}
$this->maj_ticks_pos[$j]=$x;
// Draw the major tick marks
$yu = $pos - $this->direction*$this->GetMajTickAbsSize();
// TODO: Add logic to set label_offset for text labels
$label = (float)$scale->GetMinVal()+$this->text_label_start+$this->label_offset;
$start_abs=$scale->scale_factor*$this->text_label_start;
$nbrmajticks=ceil(($scale->GetMaxVal()-$scale->GetMinVal()-$this->text_label_start )/$this->major_step)+1;
$x = $scale->scale_abs[0]+$start_abs+$this->xlabel_offset*$min_step_abs;
for( $i=0; $label<=$scale->GetMaxVal()+$this->label_offset; ++$i ) {
// Apply format
if( $this->label_formfunc != "" ) {
$f=$this->label_formfunc;
$l = $f($label);
}
elseif( $this->label_formatstr != "" )
$l = sprintf($this->label_formatstr,$label);
else {
$v = round($label,$precision);
$l = sprintf("%01.".$precision."f",$v);
}
if( ($this->supress_zerolabel && $l==0) ||
($this->supress_first && $i==0) ||
($this->supress_last && $i==$nbrmajticks-1) ) {
$l="";
}
$this->maj_ticks_label[$i]=$l;
$label+=$this->major_step;
$this->maj_ticklabels_pos[$i] = $x;
// $this->maj_ticklabels_pos[$i] = $this->maj_ticks_pos[$i];
// The x-position of the tick marks can be different from the labels.
// Note that we record the tick position (not the label) so that the grid
// happen upon tick marks and not labels.
$xtick=$scale->scale_abs[0]+$start_abs+$this->xtick_offset*$min_step_abs+$i*$maj_step_abs;
$this->maj_ticks_pos[$i]=$xtick;
if(!($this->xtick_offset > 0 && $i==$nbrmajticks-1) &&
!$this->supress_tickmarks) {
if( $this->majcolor!="" ) $img->PushColor($this->majcolor);
$img->Line($this->maj_ticks_pos[$i],$pos,$this->maj_ticks_pos[$i],$yu);
if( $this->majcolor!="" ) $img->PopColor();
}
$x += $maj_step_abs;
}
}
elseif( $scale->type == "y" ) {
// Draw the major tick marks
$xr = $pos + $this->direction*$this->GetMajTickAbsSize();
$label = $scale->GetMinVal();
$tmpmaj=array();
$tmpmin=array();
for( $i=0; $i<$nbrmajticks; ++$i) {
$y=$scale->scale_abs[0]+$i*$maj_step_abs;
$tmpmaj[]=$y;
// THe following two lines might seem to be unecessary but they are not!
// The reason being that for X-axis we separate the position of the labels
// and the tick marks which we don't do for the Y-axis.
// We therefore need to make sure both arrays are corcectly filled
// since Axis::StrokeLabels() uses the label positions and Grid::Stroke() uses
// the tick positions.
$this->maj_ticklabels_pos[$i]=$y;
$this->maj_ticks_pos[$i]=$y;
if( $this->label_formfunc != "" ) {
$f=$this->label_formfunc;
$l = $f($label);
}
elseif( $this->label_formatstr != "" )
$l = sprintf($this->label_formatstr,$label);
else
$l = sprintf("%01.".$precision."f",round($label,$precision));
if( ($this->supress_zerolabel && ($l + 0)==0) || ($this->supress_first && $i==0) ||
($this->supress_last && $i==$nbrmajticks-1) ) {
$l="";
}
$this->maj_ticks_label[$i]=$l;
$label+=$this->major_step;
if( !$this->supress_tickmarks ) {
if( $this->majcolor!="" ) $img->PushColor($this->majcolor);
$img->Line($pos,$y,$xr,$y);
if( $this->majcolor!="" ) $img->PopColor();
}
}
// Draw the minor tick marks
$xr = $pos + $this->direction*$this->GetMinTickAbsSize();
$label = $scale->GetMinVal();
for( $i=0,$y=$scale->scale_abs[0]; $y>=$limit; ) {
$tmpmin[]=$y;
$this->ticks_pos[$i]=$y;
$this->ticks_label[$i]=$label;
$label+=$this->minor_step;
if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) {
if( $this->mincolor!="" ) $img->PushColor($this->mincolor);
$img->Line($pos,$y,$xr,$y);
if( $this->mincolor!="" ) $img->PopColor();
}
++$i;
$y=$scale->scale_abs[0]+$i*$min_step_abs;
}
}
}
//---------------
// PRIVATE METHODS
// Spoecify the offset of the displayed tick mark with the tick "space"
// Legal values for $o is [0,1] used to adjust where the tick marks and label
// should be positioned within the major tick-size
// $lo specifies the label offset and $to specifies the tick offset
// this comes in handy for example in bar graphs where we wont no offset for the
// tick but have the labels displayed halfway under the bars.
function SetXLabelOffset($aLabelOff,$aTickOff=-1) {
$this->xlabel_offset=$aLabelOff;
if( $aTickOff==-1 ) // Same as label offset
$this->xtick_offset=$aLabelOff;
else
$this->xtick_offset=$aTickOff;
if( $aLabelOff>0 )
$this->SupressLast(); // The last tick wont fit
}
// Which tick label should we start with?
function SetTextLabelStart($aTextLabelOff) {
$this->text_label_start=$aTextLabelOff;
}
} // Class
//===================================================
// CLASS LinearScale
// Description: Handle linear scaling between screen and world
//===================================================
class LinearScale {
var $scale=array(0,0);
var $scale_abs=array(0,0);
var $scale_factor; // Scale factor between world and screen
var $world_size; // Plot area size in world coordinates
var $world_abs_size; // Plot area size in pixels
var $off; // Offset between image edge and plot area
var $type; // is this x or y scale ?
var $ticks=null; // Store ticks
var $autoscale_min=false; // Forced minimum value, auto determine max
var $autoscale_max=false; // Forced maximum value, auto determine min
var $gracetop=0,$gracebottom=0;
var $intscale=false; // Restrict autoscale to integers
var $textscale=false; // Just a flag to let the Plot class find out if
// we are a textscale or not. This is a cludge since
// this ionformatyion is availabale in Graph::axtype but
// we don't have access to the graph object in the Plots
// stroke method. So we let graph store the status here
// when the linear scale is created. A real cludge...
var $text_scale_off = 0;
var $auto_ticks=false; // When using manual scale should the ticks be automatically set?
var $name = 'lin';
//---------------
// CONSTRUCTOR
function LinearScale($aMin=0,$aMax=0,$aType="y") {
assert($aType=="x" || $aType=="y" );
assert($aMin<=$aMax);
$this->type=$aType;
$this->scale=array($aMin,$aMax);
$this->world_size=$aMax-$aMin;
$this->ticks = new LinearTicks();
}
//---------------
// PUBLIC METHODS
// Second phase constructor
function Init(&$aImg) {
$this->InitConstants($aImg);
// We want image to notify us when the margins changes so we
// can recalculate the constants.
// PHP <= 4.04 BUGWARNING: IT IS IMPOSSIBLE TO DO THIS IN THE CONSTRUCTOR
// SINCE (FOR SOME REASON) IT IS IMPOSSIBLE TO PASS A REFERENCE
// TO 'this' INSTEAD IT WILL ADD AN ANONYMOUS COPY OF THIS OBJECT WHICH WILL
// GET ALL THE NOTIFICATIONS. (This took a while to track down...)
// Add us as an observer to class Image
$aImg->AddObserver("InitConstants",$this);
}
// Check if scale is set or if we should autoscale
// We should do this is either scale or ticks has not been set
function IsSpecified() {
if( $this->GetMinVal()==$this->GetMaxVal() ) { // Scale not set
return false;
}
return true;
}
// Set the minimum data value when the autoscaling is used.
// Usefull if you want a fix minimum (like 0) but have an
// automatic maximum
function SetAutoMin($aMin) {
$this->autoscale_min=$aMin;
}
// Set the minimum data value when the autoscaling is used.
// Usefull if you want a fix minimum (like 0) but have an
// automatic maximum
function SetAutoMax($aMax) {
$this->autoscale_max=$aMax;
}
// If the user manually specifies a scale should the ticks
// still be set automatically?
function SetAutoTicks($aFlag=true) {
$this->auto_ticks = $aFlag;
}
// Specify scale "grace" value (top and bottom)
function SetGrace($aGraceTop,$aGraceBottom=0) {
if( $aGraceTop<0 || $aGraceBottom < 0 )
JpGraphError::Raise(" Grace must be larger then 0");
$this->gracetop=$aGraceTop;
$this->gracebottom=$aGraceBottom;
}
// Get the minimum value in the scale
function GetMinVal() {
return $this->scale[0];
}
// get maximum value for scale
function GetMaxVal() {
return $this->scale[1];
}
// Specify a new min/max value for sclae
function Update(&$aImg,$aMin,$aMax) {
$this->scale=array($aMin,$aMax);
$this->world_size=$aMax-$aMin;
$this->InitConstants($aImg);
}
// Translate between world and screen
function Translate($aCoord) {
return $this->off+($aCoord - $this->GetMinVal()) * $this->scale_factor;
}
// Relative translate (don't include offset) usefull when we just want
// to know the relative position (in pixels) on the axis
function RelTranslate($aCoord) {
return ($aCoord - $this->GetMinVal()) * $this->scale_factor;
}
// Restrict autoscaling to only use integers
function SetIntScale($aIntScale=true) {
$this->intscale=$aIntScale;
}
// Calculate an integer autoscale
function IntAutoScale(&$img,$min,$max,$maxsteps,$majend=true) {
// Make sure limits are integers
$min=floor($min);
$max=ceil($max);
if( abs($min-$max)==0 ) {
--$min; ++$max;
}
$maxsteps = floor($maxsteps);
$gracetop=round(($this->gracetop/100.0)*abs($max-$min));
$gracebottom=round(($this->gracebottom/100.0)*abs($max-$min));
if( is_numeric($this->autoscale_min) ) {
$min = ceil($this->autoscale_min);
if( $min >= $max ) {
JpGraphError::Raise('You have specified a min value with SetAutoMin() which is larger than the maximum value used for the scale. This is not possible.');
die();
}
}
if( is_numeric($this->autoscale_max) ) {
$max = ceil($this->autoscale_max);
if( $min >= $max ) {
JpGraphError::Raise('You have specified a max value with SetAutoMax() which is smaller than the miminum value used for the scale. This is not possible.');
die();
}
}
if( abs($min-$max ) == 0 ) {
++$max;
--$min;
}
$min -= $gracebottom;
$max += $gracetop;
// First get tickmarks as multiples of 1, 10, ...
if( $majend ) {
list($num1steps,$adj1min,$adj1max,$maj1step) =
$this->IntCalcTicks($maxsteps,$min,$max,1);
}
else {
$adj1min = $min;
$adj1max = $max;
list($num1steps,$maj1step) =
$this->IntCalcTicksFreeze($maxsteps,$min,$max,1);
}
if( abs($min-$max) > 2 ) {
// Then get tick marks as 2:s 2, 20, ...
if( $majend ) {
list($num2steps,$adj2min,$adj2max,$maj2step) =
$this->IntCalcTicks($maxsteps,$min,$max,5);
}
else {
$adj2min = $min;
$adj2max = $max;
list($num2steps,$maj2step) =
$this->IntCalcTicksFreeze($maxsteps,$min,$max,5);
}
}
else {
$num2steps = 10000; // Dummy high value so we don't choose this
}
if( abs($min-$max) > 5 ) {
// Then get tickmarks as 5:s 5, 50, 500, ...
if( $majend ) {
list($num5steps,$adj5min,$adj5max,$maj5step) =
$this->IntCalcTicks($maxsteps,$min,$max,2);
}
else {
$adj5min = $min;
$adj5max = $max;
list($num5steps,$maj5step) =
$this->IntCalcTicksFreeze($maxsteps,$min,$max,2);
}
}
else {
$num5steps = 10000; // Dummy high value so we don't choose this
}
// Check to see whichof 1:s, 2:s or 5:s fit better with
// the requested number of major ticks
$match1=abs($num1steps-$maxsteps);
$match2=abs($num2steps-$maxsteps);
if( !empty($maj5step) && $maj5step > 1 )
$match5=abs($num5steps-$maxsteps);
else
$match5=10000; // Dummy high value
// Compare these three values and see which is the closest match
// We use a 0.6 weight to gravitate towards multiple of 5:s
if( $match1 < $match2 ) {
if( $match1 < $match5 )
$r=1;
else
$r=3;
}
else {
if( $match2 < $match5 )
$r=2;
else
$r=3;
}
// Minsteps are always the same as maxsteps for integer scale
switch( $r ) {
case 1:
$this->Update($img,$adj1min,$adj1max);
$this->ticks->Set($maj1step,$maj1step);
break;
case 2:
$this->Update($img,$adj2min,$adj2max);
$this->ticks->Set($maj2step,$maj2step);
break;
case 3:
$this->Update($img,$adj5min,$adj5max);
$this->ticks->Set($maj5step,$maj2step);
break;
}
}
// Calculate autoscale. Used if user hasn't given a scale and ticks
// $maxsteps is the maximum number of major tickmarks allowed.
function AutoScale(&$img,$min,$max,$maxsteps,$majend=true) {
if( $this->intscale ) {
$this->IntAutoScale($img,$min,$max,$maxsteps,$majend);
return;
}
if( abs($min-$max) < 0.00001 ) {
// We need some difference to be able to autoscale
// make it 5% above and 5% below value
if( $min==0 && $max==0 ) { // Special case
$min=-1; $max=1;
}
else {
$delta = (abs($max)+abs($min))*0.005;
$min -= $delta;
$max += $delta;
}
}
$gracetop=($this->gracetop/100.0)*abs($max-$min);
$gracebottom=($this->gracebottom/100.0)*abs($max-$min);
if( is_numeric($this->autoscale_min) ) {
$min = $this->autoscale_min;
if( $min >= $max ) {
JpGraphError::Raise('You have specified a min value with SetAutoMin() which is larger than the maximum value used for the scale. This is not possible.');
die();
}
if( abs($min-$max ) < 0.00001 )
$max *= 1.2;
}
if( is_numeric($this->autoscale_max) ) {
$max = $this->autoscale_max;
if( $min >= $max ) {
JpGraphError::Raise('You have specified a max value with SetAutoMax() which is smaller than the miminum value used for the scale. This is not possible.');
die();
}
if( abs($min-$max ) < 0.00001 )
$min *= 0.8;
}
$min -= $gracebottom;
$max += $gracetop;
// First get tickmarks as multiples of 0.1, 1, 10, ...
if( $majend ) {
list($num1steps,$adj1min,$adj1max,$min1step,$maj1step) =
$this->CalcTicks($maxsteps,$min,$max,1,2);
}
else {
$adj1min=$min;
$adj1max=$max;
list($num1steps,$min1step,$maj1step) =
$this->CalcTicksFreeze($maxsteps,$min,$max,1,2,false);
}
// Then get tick marks as 2:s 0.2, 2, 20, ...
if( $majend ) {
list($num2steps,$adj2min,$adj2max,$min2step,$maj2step) =
$this->CalcTicks($maxsteps,$min,$max,5,2);
}
else {
$adj2min=$min;
$adj2max=$max;
list($num2steps,$min2step,$maj2step) =
$this->CalcTicksFreeze($maxsteps,$min,$max,5,2,false);
}
// Then get tickmarks as 5:s 0.05, 0.5, 5, 50, ...
if( $majend ) {
list($num5steps,$adj5min,$adj5max,$min5step,$maj5step) =
$this->CalcTicks($maxsteps,$min,$max,2,5);
}
else {
$adj5min=$min;
$adj5max=$max;
list($num5steps,$min5step,$maj5step) =
$this->CalcTicksFreeze($maxsteps,$min,$max,2,5,false);
}
// Check to see whichof 1:s, 2:s or 5:s fit better with
// the requested number of major ticks
$match1=abs($num1steps-$maxsteps);
$match2=abs($num2steps-$maxsteps);
$match5=abs($num5steps-$maxsteps);
// Compare these three values and see which is the closest match
// We use a 0.8 weight to gravitate towards multiple of 5:s
$r=$this->MatchMin3($match1,$match2,$match5,0.8);
switch( $r ) {
case 1:
$this->Update($img,$adj1min,$adj1max);
$this->ticks->Set($maj1step,$min1step);
break;
case 2:
$this->Update($img,$adj2min,$adj2max);
$this->ticks->Set($maj2step,$min2step);
break;
case 3:
$this->Update($img,$adj5min,$adj5max);
$this->ticks->Set($maj5step,$min5step);
break;
}
}
//---------------
// PRIVATE METHODS
// This method recalculates all constants that are depending on the
// margins in the image. If the margins in the image are changed
// this method should be called for every scale that is registred with
// that image. Should really be installed as an observer of that image.
function InitConstants(&$img) {
if( $this->type=="x" ) {
$this->world_abs_size=$img->width - $img->left_margin - $img->right_margin;
$this->off=$img->left_margin;
$this->scale_factor = 0;
if( $this->world_size > 0 )
$this->scale_factor=$this->world_abs_size/($this->world_size*1.0);
}
else { // y scale
$this->world_abs_size=$img->height - $img->top_margin - $img->bottom_margin;
$this->off=$img->top_margin+$this->world_abs_size;
$this->scale_factor = 0;
if( $this->world_size > 0 )
$this->scale_factor=-$this->world_abs_size/($this->world_size*1.0);
}
$size = $this->world_size * $this->scale_factor;
$this->scale_abs=array($this->off,$this->off + $size);
}
// Initialize the conversion constants for this scale
// This tries to pre-calculate as much as possible to speed up the
// actual conversion (with Translate()) later on
// $start =scale start in absolute pixels (for x-scale this is an y-position
// and for an y-scale this is an x-position
// $len =absolute length in pixels of scale
function SetConstants($aStart,$aLen) {
$this->world_abs_size=$aLen;
$this->off=$aStart;
if( $this->world_size<=0 ) {
JpGraphError::Raise("JpGraph Fatal Error:
If there is still a problem try downgrading the quality of
the background image to use a smaller pallete to leave some
entries for your graphs. You should try to limit the number
of colors in your background image to 64.
If there is still problem set the constant
Unfortunately there is not much JpGraph can do about this
since the palette size is a limitation of current graphic format and
what the underlying GD library suppports.");
}
return $this->current_color;
}
function PushColor($color) {
if( $color != "" ) {
$this->colorstack[$this->colorstackidx]=$this->current_color_name;
$this->colorstack[$this->colorstackidx+1]=$this->current_color;
$this->colorstackidx+=2;
$this->SetColor($color);
}
else {
JpGraphError::Raise("Color specified as empty string in PushColor().");
}
}
function PopColor() {
if($this->colorstackidx<1)
JpGraphError::Raise(" Negative Color stack index. Unmatched call to PopColor()");
$this->current_color=$this->colorstack[--$this->colorstackidx];
$this->current_color_name=$this->colorstack[--$this->colorstackidx];
}
// Why this duplication? Because this way we can call this method
// for any image and not only the current objsct
function AdjSat($sat) { $this->_AdjSat($this->img,$sat); }
function _AdjSat($img,$sat) {
$nbr = imagecolorstotal ($img);
for( $i=0; $i<$nbr; ++$i ) {
$colarr = imagecolorsforindex ($img,$i);
$rgb[0]=$colarr["red"];
$rgb[1]=$colarr["green"];
$rgb[2]=$colarr["blue"];
$rgb = $this->AdjRGBSat($rgb,$sat);
imagecolorset ($img, $i, $rgb[0], $rgb[1], $rgb[2]);
}
}
function AdjBrightContrast($bright,$contr=0) {
$this->_AdjBrightContrast($this->img,$bright,$contr);
}
function _AdjBrightContrast($img,$bright,$contr=0) {
if( $bright < -1 || $bright > 1 || $contr < -1 || $contr > 1 )
JpGraphError::Raise(" Parameters for brightness and Contrast out of range [-1,1]");
$nbr = imagecolorstotal ($img);
for( $i=0; $i<$nbr; ++$i ) {
$colarr = imagecolorsforindex ($img,$i);
$r = $this->AdjRGBBrightContrast($colarr["red"],$bright,$contr);
$g = $this->AdjRGBBrightContrast($colarr["green"],$bright,$contr);
$b = $this->AdjRGBBrightContrast($colarr["blue"],$bright,$contr);
imagecolorset ($img, $i, $r, $g, $b);
}
}
// Private helper function for adj sat
// Adjust saturation for RGB array $u. $sat is a value between -1 and 1
// Note: Due to GD inability to handle true color the RGB values are only between
// 8 bit. This makes saturation quite sensitive for small increases in parameter sat.
//
// Tip: To get a grayscale picture set sat=-100, values <-100 changes the colors
// to it's complement.
//
// Implementation note: The saturation is implemented directly in the RGB space
// by adjusting the perpendicular distance between the RGB point and the "grey"
// line (1,1,1). Setting $sat>0 moves the point away from the line along the perp.
// distance and a negative value moves the point closer to the line.
// The values are truncated when the color point hits the bounding box along the
// RGB axis.
// DISCLAIMER: I'm not 100% sure this is he correct way to implement a color
// saturation function in RGB space. However, it looks ok and has the expected effect.
function AdjRGBSat($rgb,$sat) {
// TODO: Should be moved to the RGB class
// Grey vector
$v=array(1,1,1);
// Dot product
$dot = $rgb[0]*$v[0]+$rgb[1]*$v[1]+$rgb[2]*$v[2];
// Normalize dot product
$normdot = $dot/3; // dot/|v|^2
// Direction vector between $u and its projection onto $v
for($i=0; $i<3; ++$i)
$r[$i] = $rgb[$i] - $normdot*$v[$i];
// Adjustment factor so that sat==1 sets the highest RGB value to 255
if( $sat > 0 ) {
$m=0;
for( $i=0; $i<3; ++$i) {
if( sign($r[$i]) == 1 && $r[$i]>0)
$m=max($m,(255-$rgb[$i])/$r[$i]);
}
$tadj=$m;
}
else
$tadj=1;
$tadj = $tadj*$sat;
for($i=0; $i<3; ++$i) {
$un[$i] = round($rgb[$i] + $tadj*$r[$i]);
if( $un[$i]<0 ) $un[$i]=0; // Truncate color when they reach 0
if( $un[$i]>255 ) $un[$i]=255;// Avoid potential rounding error
}
return $un;
}
// Private helper function for AdjBrightContrast
function AdjRGBBrightContrast($rgb,$bright,$contr) {
// TODO: Should be moved to the RGB class
// First handle contrast, i.e change the dynamic range around grey
if( $contr <= 0 ) {
// Decrease contrast
$adj = abs($rgb-128) * (-$contr);
if( $rgb < 128 ) $rgb += $adj;
else $rgb -= $adj;
}
else { // $contr > 0
// Increase contrast
if( $rgb < 128 ) $rgb = $rgb - ($rgb * $contr);
else $rgb = $rgb + ((255-$rgb) * $contr);
}
// Add (or remove) various amount of white
$rgb += $bright*255;
$rgb=min($rgb,255);
$rgb=max($rgb,0);
return $rgb;
}
function SetLineWeight($weight) {
$this->line_weight = $weight;
}
function SetStartPoint($x,$y) {
$this->lastx=round($x);
$this->lasty=round($y);
}
function Arc($cx,$cy,$w,$h,$s,$e) {
// GD Arc doesn't like negative angles
while( $s < 0) $s += 360;
while( $e < 0) $e += 360;
imagearc($this->img,round($cx),round($cy),round($w),round($h),
$s,$e,$this->current_color);
}
function FilledArc($xc,$yc,$w,$h,$s,$e,$style="") {
if( $GLOBALS['gd2'] ) {
while( $s < 0 ) $s += 360;
while( $e < 0 ) $e += 360;
if( $style=="" )
$style=IMG_ARC_PIE;
imagefilledarc($this->img,round($xc),round($yc),round($w),round($h),
round($s),round($e),$this->current_color,$style);
return;
}
// In GD 1.x we have to do it ourself interesting enough there is surprisingly
// little difference in time between doing it PHP and using the optimised GD
// library (roughly ~20%) I had expected it to be at least 100% slower doing it
// manually with a polygon approximation in PHP.....
$fillcolor = $this->current_color_name;
$w /= 2; // We use radius in our calculations instead
$h /= 2;
// Setup the angles so we have the same conventions as the builtin
// FilledArc() which is a little bit strange if you ask me....
$s = 360-$s;
$e = 360-$e;
if( $e > $s ) {
$e = $e - 360;
$da = $s - $e;
}
$da = $s-$e;
// We use radians
$s *= M_PI/180;
$e *= M_PI/180;
$da *= M_PI/180;
// Calculate a polygon approximation
$p[0] = $xc;
$p[1] = $yc;
// Heuristic on how many polygons we need to make the
// arc look good
$numsteps = round(8 * abs($da) * ($w+$h)*($w+$h)/1500);
if( $numsteps == 0 ) return;
if( $numsteps < 7 ) $numsteps=7;
$delta = abs($da)/$numsteps;
$pa=array();
$a = $s;
for($i=1; $i<=$numsteps; ++$i ) {
$p[2*$i] = round($xc + $w*cos($a));
$p[2*$i+1] = round($yc - $h*sin($a));
//$a = $s + $i*$delta;
$a -= $delta;
$pa[2*($i-1)] = $p[2*$i];
$pa[2*($i-1)+1] = $p[2*$i+1];
}
// Get the last point at the exact ending angle to avoid
// any rounding errors.
$p[2*$i] = round($xc + $w*cos($e));
$p[2*$i+1] = round($yc - $h*sin($e));
$pa[2*($i-1)] = $p[2*$i];
$pa[2*($i-1)+1] = $p[2*$i+1];
$i++;
$p[2*$i] = $xc;
$p[2*$i+1] = $yc;
if( $fillcolor != "" ) {
$this->PushColor($fillcolor);
imagefilledpolygon($this->img,$p,count($p)/2,$this->current_color);
$this->PopColor();
}
}
function FilledCakeSlice($cx,$cy,$w,$h,$s,$e) {
$this->CakeSlice($cx,$cy,$w,$h,$s,$e,$this->current_color_name);
}
function CakeSlice($xc,$yc,$w,$h,$s,$e,$fillcolor="",$arccolor="") {
$s = round($s); $e = round($e);
$w = round($w); $h = round($h);
$xc = round($xc); $yc = round($yc);
$this->PushColor($fillcolor);
$this->FilledArc($xc,$yc,2*$w,2*$h,$s,$e);
$this->PopColor();
if( $arccolor != "" ) {
$this->PushColor($arccolor);
// We add 2 pixels to make the Arc() better aligned with
// the filled arc.
if( $GLOBALS['gd2'] ) {
imagefilledarc($this->img,$xc,$yc,2*$w,2*$h,$s,$e,$this->current_color_name,
IMG_ARC_NOFILL | IMG_ARC_EDGED ) ;
}
else {
$this->Arc($xc,$yc,2*$w+2,2*$h+2,$s,$e);
$xx = $w * cos(2*M_PI - $s*M_PI/180) + $xc;
$yy = $yc - $h * sin(2*M_PI - $s*M_PI/180);
$this->Line($xc,$yc,$xx,$yy);
$xx = $w * cos(2*M_PI - $e*M_PI/180) + $xc;
$yy = $yc - $h * sin(2*M_PI - $e*M_PI/180);
$this->Line($xc,$yc,$xx,$yy);
}
$this->PopColor();
}
}
function Ellipse($xc,$yc,$w,$h) {
$this->Arc($xc,$yc,$w,$h,0,360);
}
// Breseham circle gives visually better result then using GD
// built in arc(). It takes some more time but gives better
// accuracy.
function BresenhamCircle($xc,$yc,$r) {
$d = 3-2*$r;
$x = 0;
$y = $r;
while($x<=$y) {
$this->Point($xc+$x,$yc+$y);
$this->Point($xc+$x,$yc-$y);
$this->Point($xc-$x,$yc+$y);
$this->Point($xc-$x,$yc-$y);
$this->Point($xc+$y,$yc+$x);
$this->Point($xc+$y,$yc-$x);
$this->Point($xc-$y,$yc+$x);
$this->Point($xc-$y,$yc-$x);
if( $d<0 ) $d += 4*$x+6;
else {
$d += 4*($x-$y)+10;
--$y;
}
++$x;
}
}
function Circle($xc,$yc,$r) {
if( USE_BRESENHAM )
$this->BresenhamCircle($xc,$yc,$r);
else {
/*
// Some experimental code snippet to see if we can get a decent
// result doing a trig-circle
// Create an approximated circle with 0.05 rad resolution
$end = 2*M_PI;
$l = $r/10;
if( $l < 3 ) $l=3;
$step_size = 2*M_PI/(2*$r*M_PI/$l);
$pts = array();
$pts[] = $r + $xc;
$pts[] = $yc;
for( $a=$step_size; $a <= $end; $a += $step_size ) {
$pts[] = round($xc + $r*cos($a));
$pts[] = round($yc - $r*sin($a));
}
imagepolygon($this->img,$pts,count($pts)/2,$this->current_color);
*/
$this->Arc($xc,$yc,$r*2,$r*2,0,360);
// For some reason imageellipse() isn't in GD 2.0.1, PHP 4.1.1
//imageellipse($this->img,$xc,$yc,$r,$r,$this->current_color);
}
}
function FilledCircle($xc,$yc,$r) {
if( $GLOBALS['gd2'] ) {
imagefilledellipse($this->img,round($xc),round($yc),
2*$r,2*$r,$this->current_color);
}
else {
for( $i=1; $i < 2*$r; $i += 2 ) {
// To avoid moire patterns we have to draw some
// 1 extra "skewed" filled circles
$this->Arc($xc,$yc,$i,$i,0,360);
$this->Arc($xc,$yc,$i+1,$i,0,360);
$this->Arc($xc,$yc,$i+1,$i+1,0,360);
}
}
}
// Linear Color InterPolation
function lip($f,$t,$p) {
$p = round($p,1);
$r = $f[0] + ($t[0]-$f[0])*$p;
$g = $f[1] + ($t[1]-$f[1])*$p;
$b = $f[2] + ($t[2]-$f[2])*$p;
return array($r,$g,$b);
}
// Anti-aliased line.
// Note that this is roughly 8 times slower then a normal line!
function WuLine($x1,$y1,$x2,$y2) {
// Get foreground line color
$lc = imagecolorsforindex($this->img,$this->current_color);
$lc = array($lc["red"],$lc["green"],$lc["blue"]);
$dx = $x2-$x1;
$dy = $y2-$y1;
if( abs($dx) > abs($dy) ) {
if( $dx<0 ) {
$dx = -$dx;$dy = -$dy;
$tmp=$x2;$x2=$x1;$x1=$tmp;
$tmp=$y2;$y2=$y1;$y1=$tmp;
}
$x=$x1<<16; $y=$y1<<16;
$yinc = ($dy*65535)/$dx;
while( ($x >> 16) < $x2 ) {
$bc = @imagecolorsforindex($this->img,imagecolorat($this->img,$x>>16,$y>>16));
if( $bc <= 0 ) {
JpGraphError::Raise('Problem with color palette and your GD setup. Please disable anti-aliasing or use GD2 with true-color. If you have GD2 library installed please make sure that you have set the USE_GD2 constant to true and that truecolor is enabled.');
}
$bc=array($bc["red"],$bc["green"],$bc["blue"]);
$this->SetColor($this->lip($lc,$bc,($y & 0xFFFF)/65535));
imagesetpixel($this->img,$x>>16,$y>>16,$this->current_color);
$this->SetColor($this->lip($lc,$bc,(~$y & 0xFFFF)/65535));
imagesetpixel($this->img,$x>>16,($y>>16)+1,$this->current_color);
$x += 65536; $y += $yinc;
}
}
else {
if( $dy<0 ) {
$dx = -$dx;$dy = -$dy;
$tmp=$x2;$x2=$x1;$x1=$tmp;
$tmp=$y2;$y2=$y1;$y1=$tmp;
}
$x=$x1<<16; $y=$y1<<16;
$xinc = ($dx*65535)/$dy;
while( ($y >> 16) < $y2 ) {
$bc = @imagecolorsforindex($this->img,imagecolorat($this->img,$x>>16,$y>>16));
if( $bc <= 0 ) {
JpGraphError::Raise('Problem with color palette and your GD setup. Please disable anti-aliasing or use GD2 with true-color. If you have GD2 library installed please make sure that you have set the USE_GD2 constant to true and truecolor is enabled.');
}
$bc=array($bc["red"],$bc["green"],$bc["blue"]);
$this->SetColor($this->lip($lc,$bc,($x & 0xFFFF)/65535));
imagesetpixel($this->img,$x>>16,$y>>16,$this->current_color);
$this->SetColor($this->lip($lc,$bc,(~$x & 0xFFFF)/65535));
imagesetpixel($this->img,($x>>16)+1,$y>>16,$this->current_color);
$y += 65536; $x += $xinc;
}
}
$this->SetColor($lc);
imagesetpixel($this->img,$x2,$y2,$this->current_color);
imagesetpixel($this->img,$x1,$y1,$this->current_color);
}
// Set line style dashed, dotted etc
function SetLineStyle($s) {
if( is_numeric($s) ) {
if( $s<1 || $s>4 )
JpGraphError::Raise(" Illegal numeric argument to SetLineStyle(): ($s)");
}
elseif( is_string($s) ) {
if( $s == "solid" ) $s=1;
elseif( $s == "dotted" ) $s=2;
elseif( $s == "dashed" ) $s=3;
elseif( $s == "longdashed" ) $s=4;
else JpGraphError::Raise(" Illegal string argument to SetLineStyle(): $s");
}
else JpGraphError::Raise(" Illegal argument to SetLineStyle $s");
$this->line_style=$s;
}
// Same as Line but take the line_style into account
function StyleLine($x1,$y1,$x2,$y2) {
switch( $this->line_style ) {
case 1:// Solid
$this->Line($x1,$y1,$x2,$y2);
break;
case 2: // Dotted
$this->DashedLine($x1,$y1,$x2,$y2,1,6);
break;
case 3: // Dashed
$this->DashedLine($x1,$y1,$x2,$y2,2,4);
break;
case 4: // Longdashes
$this->DashedLine($x1,$y1,$x2,$y2,8,6);
break;
default:
JpGraphError::Raise(" Unknown line style: $this->line_style ");
break;
}
}
function Line($x1,$y1,$x2,$y2) {
$x1 = round($x1);
$x2 = round($x2);
$y1 = round($y1);
$y2 = round($y2);
if( $this->line_weight==0 ) return;
if( $this->use_anti_aliasing ) {
$dx = $x2-$x1;
$dy = $y2-$y1;
// Vertical, Horizontal or 45 lines don't need anti-aliasing
if( $dx!=0 && $dy!=0 && $dx!=$dy ) {
$this->WuLine($x1,$y1,$x2,$y2);
return;
}
}
if( $this->line_weight==1 ) {
imageline($this->img,$x1,$y1,$x2,$y2,$this->current_color);
}
elseif( $x1==$x2 ) { // Special case for vertical lines
imageline($this->img,$x1,$y1,$x2,$y2,$this->current_color);
$w1=floor($this->line_weight/2);
$w2=floor(($this->line_weight-1)/2);
for($i=1; $i<=$w1; ++$i)
imageline($this->img,$x1+$i,$y1,$x2+$i,$y2,$this->current_color);
for($i=1; $i<=$w2; ++$i)
imageline($this->img,$x1-$i,$y1,$x2-$i,$y2,$this->current_color);
}
elseif( $y1==$y2 ) { // Special case for horizontal lines
imageline($this->img,$x1,$y1,$x2,$y2,$this->current_color);
$w1=floor($this->line_weight/2);
$w2=floor(($this->line_weight-1)/2);
for($i=1; $i<=$w1; ++$i)
imageline($this->img,$x1,$y1+$i,$x2,$y2+$i,$this->current_color);
for($i=1; $i<=$w2; ++$i)
imageline($this->img,$x1,$y1-$i,$x2,$y2-$i,$this->current_color);
}
else { // General case with a line at an angle
$a = atan2($y1-$y2,$x2-$x1);
// Now establish some offsets from the center. This gets a little
// bit involved since we are dealing with integer functions and we
// want the apperance to be as smooth as possible and never be thicker
// then the specified width.
// We do the trig stuff to make sure that the endpoints of the line
// are perpendicular to the line itself.
$dx=(sin($a)*$this->line_weight/2);
$dy=(cos($a)*$this->line_weight/2);
$pnts = array($x2+$dx,$y2+$dy,$x2-$dx,$y2-$dy,$x1-$dx,$y1-$dy,$x1+$dx,$y1+$dy);
imagefilledpolygon($this->img,$pnts,count($pnts)/2,$this->current_color);
}
$this->lastx=$x2; $this->lasty=$y2;
}
function Polygon($p,$closed=FALSE) {
if( $this->line_weight==0 ) return;
$n=count($p);
$oldx = $p[0];
$oldy = $p[1];
for( $i=2; $i < $n; $i+=2 ) {
$this->Line($oldx,$oldy,$p[$i],$p[$i+1]);
$oldx = $p[$i];
$oldy = $p[$i+1];
}
if( $closed )
$this->Line($oldx,$oldy,$p[0],$p[1]);
}
function FilledPolygon($pts) {
$n=count($pts);
for($i=0; $i < $n; ++$i)
$pts[$i] = round($pts[$i]);
imagefilledpolygon($this->img,$pts,count($pts)/2,$this->current_color);
}
function Rectangle($xl,$yu,$xr,$yl) {
$this->Polygon(array($xl,$yu,$xr,$yu,$xr,$yl,$xl,$yl,$xl,$yu));
}
function FilledRectangle($xl,$yu,$xr,$yl) {
$this->FilledPolygon(array($xl,$yu,$xr,$yu,$xr,$yl,$xl,$yl));
}
function FilledRectangle2($xl,$yu,$xr,$yl,$color1,$color2,$style=1) {
// Fill a rectangle with lines of two colors
if( $style===1 ) {
// Horizontal stripe
if( $yl < $yu ) {
$t = $yl; $yl=$yu; $yu=$t;
}
for( $y=$yu; $y <= $yl; ++$y) {
$this->SetColor($color1);
$this->Line($xl,$y,$xr,$y);
++$y;
$this->SetColor($color2);
$this->Line($xl,$y,$xr,$y);
}
}
else {
if( $xl < $xl ) {
$t = $xl; $xl=$xr; $xr=$t;
}
for( $x=$xl; $x <= $xr; ++$x) {
$this->SetColor($color1);
$this->Line($x,$yu,$x,$yl);
++$x;
$this->SetColor($color2);
$this->Line($x,$yu,$x,$yl);
}
}
}
function ShadowRectangle($xl,$yu,$xr,$yl,$fcolor=false,$shadow_width=3,$shadow_color=array(102,102,102)) {
// This is complicated by the fact that we must also handle the case where
// the reactangle has no fill color
$this->PushColor($shadow_color);
$this->FilledRectangle($xr-$shadow_width,$yu+$shadow_width,$xr,$yl-$shadow_width-1);
$this->FilledRectangle($xl+$shadow_width,$yl-$shadow_width,$xr,$yl);
//$this->FilledRectangle($xl+$shadow_width,$yu+$shadow_width,$xr,$yl);
$this->PopColor();
if( $fcolor==false )
$this->Rectangle($xl,$yu,$xr-$shadow_width-1,$yl-$shadow_width-1);
else {
$this->PushColor($fcolor);
$this->FilledRectangle($xl,$yu,$xr-$shadow_width-1,$yl-$shadow_width-1);
$this->PopColor();
$this->Rectangle($xl,$yu,$xr-$shadow_width-1,$yl-$shadow_width-1);
}
}
function FilledRoundedRectangle($xt,$yt,$xr,$yl,$r=5) {
if( $r==0 ) {
$this->FilledRectangle($xt,$yt,$xr,$yl);
return;
}
// To avoid overlapping fillings (which will look strange
// when alphablending is enabled) we have no choice but
// to fill the five distinct areas one by one.
// Center square
$this->FilledRectangle($xt+$r,$yt+$r,$xr-$r,$yl-$r);
// Top band
$this->FilledRectangle($xt+$r,$yt,$xr-$r,$yt+$r-1);
// Bottom band
$this->FilledRectangle($xt+$r,$yl-$r+1,$xr-$r,$yl);
// Left band
$this->FilledRectangle($xt,$yt+$r+1,$xt+$r-1,$yl-$r);
// Right band
$this->FilledRectangle($xr-$r+1,$yt+$r,$xr,$yl-$r);
// Topleft & Topright arc
$this->FilledArc($xt+$r,$yt+$r,$r*2,$r*2,180,270);
$this->FilledArc($xr-$r,$yt+$r,$r*2,$r*2,270,360);
// Bottomleft & Bottom right arc
$this->FilledArc($xt+$r,$yl-$r,$r*2,$r*2,90,180);
$this->FilledArc($xr-$r,$yl-$r,$r*2,$r*2,0,90);
}
function RoundedRectangle($xt,$yt,$xr,$yl,$r=5) {
if( $r==0 ) {
$this->Rectangle($xt,$yt,$xr,$yl);
return;
}
// Top & Bottom line
$this->Line($xt+$r,$yt,$xr-$r,$yt);
$this->Line($xt+$r,$yl,$xr-$r,$yl);
// Left & Right line
$this->Line($xt,$yt+$r,$xt,$yl-$r);
$this->Line($xr,$yt+$r,$xr,$yl-$r);
// Topleft & Topright arc
$this->Arc($xt+$r,$yt+$r,$r*2,$r*2,180,270);
$this->Arc($xr-$r,$yt+$r,$r*2,$r*2,270,360);
// Bottomleft & Bottomright arc
$this->Arc($xt+$r,$yl-$r,$r*2,$r*2,90,180);
$this->Arc($xr-$r,$yl-$r,$r*2,$r*2,0,90);
}
function FilledBevel($x1,$y1,$x2,$y2,$depth=2,$color1='white@0.4',$color2='darkgray@0.4') {
$this->FilledRectangle($x1,$y1,$x2,$y2);
$this->Bevel($x1,$y1,$x2,$y2,$depth,$color1,$color2);
}
function Bevel($x1,$y1,$x2,$y2,$depth=2,$color1='white@0.4',$color2='black@0.5') {
$this->PushColor($color1);
for( $i=0; $i < $depth; ++$i ) {
$this->Line($x1+$i,$y1+$i,$x1+$i,$y2-$i);
$this->Line($x1+$i,$y1+$i,$x2-$i,$y1+$i);
}
$this->PopColor();
$this->PushColor($color2);
for( $i=0; $i < $depth; ++$i ) {
$this->Line($x1+$i,$y2-$i,$x2-$i,$y2-$i);
$this->Line($x2-$i,$y1+$i,$x2-$i,$y2-$i-1);
}
$this->PopColor();
}
function StyleLineTo($x,$y) {
$this->StyleLine($this->lastx,$this->lasty,$x,$y);
$this->lastx=$x;
$this->lasty=$y;
}
function LineTo($x,$y) {
$this->Line($this->lastx,$this->lasty,$x,$y);
$this->lastx=$x;
$this->lasty=$y;
}
function Point($x,$y) {
imagesetpixel($this->img,round($x),round($y),$this->current_color);
}
function Fill($x,$y) {
imagefill($this->img,round($x),round($y),$this->current_color);
}
function FillToBorder($x,$y,$aBordColor) {
$bc = $this->rgb->allocate($aBordColor);
if( $bc == -1 ) {
JpGraphError::Raise('Image::FillToBorder : Can not allocate more colors');
exit();
}
imagefilltoborder($this->img,round($x),round($y),$bc,$this->current_color);
}
function DashedLine($x1,$y1,$x2,$y2,$dash_length=1,$dash_space=4) {
// Code based on, but not identical to, work by Ariel Garza and James Pine
$line_length = ceil (sqrt(pow(($x2 - $x1),2) + pow(($y2 - $y1),2)) );
$dx = ($line_length) ? ($x2 - $x1) / $line_length : 0;
$dy = ($line_length) ? ($y2 - $y1) / $line_length : 0;
$lastx = $x1; $lasty = $y1;
$xmax = max($x1,$x2);
$xmin = min($x1,$x2);
$ymax = max($y1,$y2);
$ymin = min($y1,$y2);
for ($i = 0; $i < $line_length; $i += ($dash_length + $dash_space)) {
$x = ($dash_length * $dx) + $lastx;
$y = ($dash_length * $dy) + $lasty;
// The last section might overshoot so we must take a computational hit
// and check this.
if( $x>$xmax ) $x=$xmax;
if( $y>$ymax ) $y=$ymax;
if( $x<$xmin ) $x=$xmin;
if( $y<$ymin ) $y=$ymin;
$this->Line($lastx,$lasty,$x,$y);
$lastx = $x + ($dash_space * $dx);
$lasty = $y + ($dash_space * $dy);
}
}
function SetExpired($aFlg=true) {
$this->expired = $aFlg;
}
// Generate image header
function Headers() {
if ($this->expired) {
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-cache, must-revalidate");
header("Pragma: no-cache");
}
header("Content-type: image/$this->img_format");
}
// Adjust image quality for formats that allow this
function SetQuality($q) {
$this->quality = $q;
}
// Stream image to browser or to file
function Stream($aFile="") {
$func="image".$this->img_format;
if( $this->img_format=="jpeg" && $this->quality != null ) {
$res = @$func($this->img,$aFile,$this->quality);
}
else {
if( $aFile != "" ) {
$res = @$func($this->img,$aFile);
}
else
$res = @$func($this->img);
}
if( !$res )
JpGraphError::Raise("Can't create or stream image to file $aFile Check that PHP has enough permission to write a file to the current directory.");
}
// Clear resource tide up by image
function Destroy() {
imagedestroy($this->img);
}
// Specify image format. Note depending on your installation
// of PHP not all formats may be supported.
function SetImgFormat($aFormat) {
$aFormat = strtolower($aFormat);
$tst = true;
$supported = imagetypes();
if( $aFormat=="auto" ) {
if( $supported & IMG_PNG )
$this->img_format="png";
elseif( $supported & IMG_JPG )
$this->img_format="jpeg";
elseif( $supported & IMG_GIF )
$this->img_format="gif";
else
JpGraphError::Raise(" Your PHP (and GD-lib) installation does not appear to support any known graphic formats.".
"You need to first make sure GD is compiled as a module to PHP. If you also want to use JPEG images".
"you must get the JPEG library. Please see the PHP docs for details.");
return true;
}
else {
if( $aFormat=="jpeg" || $aFormat=="png" || $aFormat=="gif" ) {
if( $aFormat=="jpeg" && !($supported & IMG_JPG) )
$tst=false;
elseif( $aFormat=="png" && !($supported & IMG_PNG) )
$tst=false;
elseif( $aFormat=="gif" && !($supported & IMG_GIF) )
$tst=false;
else {
$this->img_format=$aFormat;
return true;
}
}
else
$tst=false;
if( !$tst )
JpGraphError::Raise(" Your PHP installation does not support the chosen graphic format: $aFormat");
}
}
} // CLASS
//===================================================
// CLASS RotImage
// Description: Exactly as Image but draws the image at
// a specified angle around a specified rotation point.
//===================================================
class RotImage extends Image {
var $m=array();
var $a=0;
var $dx=0,$dy=0,$transx=0,$transy=0;
function RotImage($aWidth,$aHeight,$a=0,$aFormat=DEFAULT_GFORMAT) {
$this->Image($aWidth,$aHeight,$aFormat);
$this->dx=$this->left_margin+$this->plotwidth/2;
$this->dy=$this->top_margin+$this->plotheight/2;
$this->SetAngle($a);
}
function SetCenter($dx,$dy) {
$old_dx = $this->dx;
$old_dy = $this->dy;
$this->dx=$dx;
$this->dy=$dy;
$this->SetAngle($this->a);
return array($old_dx,$old_dy);
}
function SetTranslation($dx,$dy) {
$old = array($this->transx,$this->transy);
$this->transx = $dx;
$this->transy = $dy;
return $old;
}
function UpdateRotMatrice() {
$a = $this->a;
$a *= M_PI/180;
$sa=sin($a); $ca=cos($a);
// Create the rotation matrix
$this->m[0][0] = $ca;
$this->m[0][1] = -$sa;
$this->m[0][2] = $this->dx*(1-$ca) + $sa*$this->dy ;
$this->m[1][0] = $sa;
$this->m[1][1] = $ca;
$this->m[1][2] = $this->dy*(1-$ca) - $sa*$this->dx ;
}
function SetAngle($a) {
$tmp = $this->a;
$this->a = $a;
$this->UpdateRotMatrice();
return $tmp;
}
function Circle($xc,$yc,$r) {
// Circle get's rotated through the Arc() call
// made in the parent class
parent::Circle($xc,$yc,$r);
}
function FilledCircle($xc,$yc,$r) {
// If we use GD1 then Image::FilledCircle will use a
// call to Arc so it will get rotated through the Arc
// call.
if( $GLOBALS['gd2'] ) {
list($xc,$yc) = $this->Rotate($xc,$yc);
}
parent::FilledCircle($xc,$yc,$r);
}
function Arc($xc,$yc,$w,$h,$s,$e) {
list($xc,$yc) = $this->Rotate($xc,$yc);
$s += $this->a;
$e += $this->a;
parent::Arc($xc,$yc,$w,$h,$s,$e);
}
function FilledArc($xc,$yc,$w,$h,$s,$e) {
list($xc,$yc) = $this->Rotate($xc,$yc);
$s += $this->a;
$e += $this->a;
parent::FilledArc($xc,$yc,$w,$h,$s,$e);
}
function SetMargin($lm,$rm,$tm,$bm) {
parent::SetMargin($lm,$rm,$tm,$bm);
$this->dx=$this->left_margin+$this->plotwidth/2;
$this->dy=$this->top_margin+$this->plotheight/2;
$this->UpdateRotMatrice();
}
function Rotate($x,$y) {
// Optimization. Ignore rotation if Angle==0 || ANgle==360
if( $this->a == 0 || $this->a == 360 ) {
return array($x + $this->transx, $y + $this->transy );
}
else {
$x1=round($this->m[0][0]*$x + $this->m[0][1]*$y,1) + $this->m[0][2] + $this->transx;
$y1=round($this->m[1][0]*$x + $this->m[1][1]*$y,1) + $this->m[1][2] + $this->transy;
return array($x1,$y1);
}
}
function ArrRotate($pnts) {
for($i=0; $i < count($pnts)-1; $i+=2)
list($pnts[$i],$pnts[$i+1]) = $this->Rotate($pnts[$i],$pnts[$i+1]);
return $pnts;
}
function Line($x1,$y1,$x2,$y2) {
list($x1,$y1) = $this->Rotate($x1,$y1);
list($x2,$y2) = $this->Rotate($x2,$y2);
parent::Line($x1,$y1,$x2,$y2);
}
function Rectangle($x1,$y1,$x2,$y2) {
// Rectangle uses Line() so it will be rotated through that call
parent::Rectangle($x1,$y1,$x2,$y2);
}
function FilledRectangle($x1,$y1,$x2,$y2) {
if( $y1==$y2 || $x1==$x2 )
$this->Line($x1,$y1,$x2,$y2);
else
$this->FilledPolygon(array($x1,$y1,$x2,$y1,$x2,$y2,$x1,$y2));
}
function Polygon($pnts,$closed=FALSE) {
//Polygon uses Line() so it will be rotated through that call
parent::Polygon($pnts,$closed);
}
function FilledPolygon($pnts) {
parent::FilledPolygon($this->ArrRotate($pnts));
}
function Point($x,$y) {
list($xp,$yp) = $this->Rotate($x,$y);
parent::Point($xp,$yp);
}
function StrokeText($x,$y,$txt,$dir=0,$paragraph_align="left",$debug=false) {
list($xp,$yp) = $this->Rotate($x,$y);
parent::StrokeText($xp,$yp,$txt,$dir,$paragraph_align,$debug);
}
}
//===================================================
// CLASS ImgStreamCache
// Description: Handle caching of graphs to files
//===================================================
class ImgStreamCache {
var $cache_dir;
var $img=null;
var $timeout=0; // Infinite timeout
//---------------
// CONSTRUCTOR
function ImgStreamCache(&$aImg, $aCacheDir=CACHE_DIR) {
$this->img = &$aImg;
$this->cache_dir = $aCacheDir;
}
//---------------
// PUBLIC METHODS
// Specify a timeout (in minutes) for the file. If the file is older then the
// timeout value it will be overwritten with a newer version.
// If timeout is set to 0 this is the same as infinite large timeout and if
// timeout is set to -1 this is the same as infinite small timeout
function SetTimeout($aTimeout) {
$this->timeout=$aTimeout;
}
// Output image to browser and also write it to the cache
function PutAndStream(&$aImage,$aCacheFileName,$aInline,$aStrokeFileName) {
// Some debugging code to brand the image with numbe of colors
// used
GLOBAL $gJpgBrandTiming;
if( $gJpgBrandTiming ) {
global $tim;
$t=$tim->Pop()/1000.0;
$c=$aImage->SetColor("black");
$t=sprintf(BRAND_TIME_FORMAT,round($t,3));
imagestring($this->img->img,2,5,$this->img->height-20,$t,$c);
}
// Check if we should stroke the image to an arbitrary file
if( $aStrokeFileName!="" ) {
if( $aStrokeFileName == "auto" )
$aStrokeFileName = GenImgName();
if( file_exists($aStrokeFileName) ) {
// Delete the old file
if( !@unlink($aStrokeFileName) )
JpGraphError::Raise(" Can't delete cached image $aStrokeFileName. Permission problem?");
}
$aImage->Stream($aStrokeFileName);
return;
}
if( $aCacheFileName != "" && USE_CACHE) {
$aCacheFileName = $this->cache_dir . $aCacheFileName;
if( file_exists($aCacheFileName) ) {
if( !$aInline ) {
// If we are generating image off-line (just writing to the cache)
// and the file exists and is still valid (no timeout)
// then do nothing, just return.
$diff=time()-filemtime($aCacheFileName);
if( $diff < 0 )
JpGraphError::Raise(" Cached imagefile ($aCacheFileName) has file date in the future!!");
if( $this->timeout>0 && ($diff <= $this->timeout*60) )
return;
}
if( !@unlink($aCacheFileName) )
JpGraphError::Raise(" Can't delete cached image $aStrokeFileName. Permission problem?");
$aImage->Stream($aCacheFileName);
}
else {
$this->MakeDirs(dirname($aCacheFileName));
if( !is_writeable(dirname($aCacheFileName)) ) {
JpGraphError::Raise('PHP has not enough permissions to write to the cache file '.$aCacheFileName.'. Please make sure that the user running PHP has write permission for this file if you wan to use the cache system with JpGraph.');
}
$aImage->Stream($aCacheFileName);
}
$res=true;
// Set group to specified
if( CACHE_FILE_GROUP != "" )
$res = @chgrp($aCacheFileName,CACHE_FILE_GROUP);
if( CACHE_FILE_MOD != "" )
$res = @chmod($aCacheFileName,CACHE_FILE_MOD);
if( !$res )
JpGraphError::Raise(" Can't set permission for cached image $aStrokeFileName. Permission problem?");
$aImage->Destroy();
if( $aInline ) {
if ($fh = @fopen($aCacheFileName, "rb") ) {
$this->img->Headers();
fpassthru($fh);
return;
}
else
JpGraphError::Raise(" Cant open file from cache [$aFile]");
}
}
elseif( $aInline ) {
$this->img->Headers();
$aImage->Stream();
return;
}
}
// Check if a given image is in cache and in that case
// pass it directly on to web browser. Return false if the
// image file doesn't exist or exists but is to old
function GetAndStream($aCacheFileName) {
$aCacheFileName = $this->cache_dir.$aCacheFileName;
if ( USE_CACHE && file_exists($aCacheFileName) && $this->timeout>=0 ) {
$diff=time()-filemtime($aCacheFileName);
if( $this->timeout>0 && ($diff > $this->timeout*60) ) {
return false;
}
else {
if ($fh = @fopen($aCacheFileName, "rb")) {
$this->img->Headers();
fpassthru($fh);
return true;
}
else
JpGraphError::Raise(" Can't open cached image \"$aCacheFileName\" for reading.");
}
}
return false;
}
//---------------
// PRIVATE METHODS
// Create all necessary directories in a path
function MakeDirs($aFile) {
$dirs = array();
while ( !(file_exists($aFile)) ) {
$dirs[] = $aFile;
$aFile = dirname($aFile);
}
for ($i = sizeof($dirs)-1; $i>=0; $i--) {
if(! @mkdir($dirs[$i],0777) )
JpGraphError::Raise(" Can't create directory $aFile. Make sure PHP has write permission to this directory.");
// We also specify mode here after we have changed group.
// This is necessary if Apache user doesn't belong the
// default group and hence can't specify group permission
// in the previous mkdir() call
if( CACHE_FILE_GROUP != "" ) {
$res=true;
$res =@chgrp($dirs[$i],CACHE_FILE_GROUP);
$res &= @chmod($dirs[$i],0777);
if( !$res )
JpGraphError::Raise(" Can't set permissions for $aFile. Permission problems?");
}
}
return true;
}
} // CLASS Cache
//===================================================
// CLASS Legend
// Description: Responsible for drawing the box containing
// all the legend text for the graph
//===================================================
DEFINE('_DEFAULT_LPM_SIZE',8);
class Legend {
var $color=array(0,0,0); // Default fram color
var $fill_color=array(235,235,235); // Default fill color
var $shadow=true; // Shadow around legend "box"
var $shadow_color='gray';
var $txtcol=array();
var $mark_abs_size=_DEFAULT_LPM_SIZE;
var $xmargin=10,$ymargin=6,$shadow_width=2;
var $xpos=0.05, $ypos=0.15, $xabspos=-1, $yabspos=-1;
var $halign="right", $valign="top";
var $font_family=FF_FONT1,$font_style=FS_NORMAL,$font_size=12;
var $font_color='black';
var $hide=false,$layout_n=1;
var $weight=1,$frameweight=1;
var $csimareas='';
//---------------
// CONSTRUCTOR
function Legend() {
// Empty
}
//---------------
// PUBLIC METHODS
function Hide($aHide=true) {
$this->hide=$aHide;
}
function SetShadow($aShow='gray',$aWidth=2) {
if( is_string($aShow) ) {
$this->shadow_color = $aShow;
$this->shadow=true;
}
else
$this->shadow=$aShow;
$this->shadow_width=$aWidth;
}
function SetMarkAbsSize($aSize) {
$this->mark_abs_size = $aSize ;
}
function SetLineWeight($aWeight) {
$this->weight = $aWeight;
}
function SetFrameWeight($aWeight) {
$this->frameweight = $aWeight;
}
function SetLayout($aDirection=LEGEND_VERT) {
$this->layout_n = $aDirection==LEGEND_VERT ? 1 : 99 ;
}
function SetColumns($aCols) {
$this->layout_n = $aCols ;
}
function SetLineSpacing($aSpacing) {
$this->ymargin = $aSpacing ;
}
// Set color on frame around box
function SetColor($aFontColor,$aColor='black') {
$this->font_color=$aFontColor;
$this->color=$aColor;
}
function SetFont($aFamily,$aStyle=FS_NORMAL,$aSize=10) {
$this->font_family = $aFamily;
$this->font_style = $aStyle;
$this->font_size = $aSize;
}
function SetPos($aX,$aY,$aHAlign="right",$aVAlign="top") {
$this->Pos($aX,$aY,$aHAlign,$aVAlign);
}
function SetAbsPos($aX,$aY,$aHAlign="right",$aVAlign="top") {
$this->xabspos=$aX;
$this->yabspos=$aY;
$this->halign=$aHAlign;
$this->valign=$aVAlign;
}
function Pos($aX,$aY,$aHAlign="right",$aVAlign="top") {
if( !($aX<1 && $aY<1) )
JpGraphError::Raise(" Position for legend must be given as percentage in range 0-1");
$this->xpos=$aX;
$this->ypos=$aY;
$this->halign=$aHAlign;
$this->valign=$aVAlign;
}
function SetFillColor($aColor) {
$this->fill_color=$aColor;
}
function Add($aTxt,$aColor,$aPlotmark="",$aLinestyle=0,$csimtarget="",$csimalt="") {
$this->txtcol[]=array($aTxt,$aColor,$aPlotmark,$aLinestyle,$csimtarget,$csimalt);
}
function GetCSIMAreas() {
return $this->csimareas;
}
function Stroke(&$aImg) {
if( $this->hide ) return;
$aImg->SetFont($this->font_family,$this->font_style,$this->font_size);
$n=count($this->txtcol);
if( $n == 0 ) return;
// Find out the max width and height of each column to be able
// to size the legend box.
$numcolumns = ($n > $this->layout_n ? $this->layout_n : $n);
for( $i=0; $i < $numcolumns; ++$i ) {
$colwidth[$i] = $aImg->GetTextWidth($this->txtcol[$i][0]) +
2*$this->xmargin + 2*$this->mark_abs_size;
$colheight[$i] = 0;
}
// Find our maximum height in each row
$rows = -1 ;
for( $i=0; $i < $n; ++$i ) {
$h = max($this->mark_abs_size,$aImg->GetTextHeight($this->txtcol[$i][0]))+$this->ymargin;
if( $i % $numcolumns == 0 ) {
$rows++;
$rowheight[$rows] = 0;
}
$rowheight[$rows] = max($rowheight[$rows],$h);
}
$abs_height = 0;
for( $i=0; $i <= $rows; ++$i ) {
$abs_height += $rowheight[$i] ;
}
// Make damn sure that the height is at least as high as mark size + ymargin
$abs_height = max($abs_height,$this->mark_abs_size+$this->ymargin);
$abs_height += 2*$this->ymargin;
// Find out the maximum width in each column
for( $i=$numcolumns; $i < $n; ++$i ) {
$colwidth[$i % $numcolumns] = max(
$aImg->GetTextWidth($this->txtcol[$i][0])+2*$this->xmargin+2*$this->mark_abs_size,
$colwidth[$i % $numcolumns]);
}
// Get the total width
$mtw = 0;
for( $i=0; $i < $numcolumns; ++$i ) {
$mtw += $colwidth[$i];
}
// Find out maximum width we need for legend box
$abs_width = $mtw+$this->xmargin;
if( $this->xabspos === -1 && $this->yabspos === -1 ) {
$this->xabspos = $this->xpos*$aImg->width ;
$this->yabspos = $this->ypos*$aImg->height ;
}
// Positioning of the legend box
if( $this->halign=="left" )
$xp = $this->xabspos;
elseif( $this->halign=="center" )
$xp = $this->xabspos - $abs_width/2;
else
$xp = $aImg->width - $this->xabspos - $abs_width;
$yp=$this->yabspos;
if( $this->valign=="center" )
$yp-=$abs_height/2;
elseif( $this->valign=="bottom" )
$yp-=$abs_height;
// Stroke legend box
$aImg->SetColor($this->color);
$aImg->SetLineWeight($this->frameweight);
if( $this->shadow )
$aImg->ShadowRectangle($xp,$yp,$xp+$abs_width+$this->shadow_width,
$yp+$abs_height+$this->shadow_width,
$this->fill_color,$this->shadow_width,$this->shadow_color);
else {
$aImg->SetColor($this->fill_color);
$aImg->FilledRectangle($xp,$yp,$xp+$abs_width,$yp+$abs_height);
$aImg->SetColor($this->color);
$aImg->Rectangle($xp,$yp,$xp+$abs_width,$yp+$abs_height);
}
// x1,y1 is the position for the legend mark
$aImg->SetLineWeight($this->weight);
$x1=$xp+$this->mark_abs_size/2+3;
$y1=$yp + $this->mark_abs_size/2 + $this->ymargin/2;
$f2 = round($aImg->GetTextHeight('X')/2);
$grad = new Gradient($aImg);
// Now stroke each legend in turn
$i = 1 ; $row = 0;
foreach($this->txtcol as $p) {
$x1 = round($x1); $y1=round($y1);
if ( $p[2] != "" && $p[2]->GetType() > -1 ) {
// Make a plot mark legend
$aImg->SetColor($p[1]);
if( $p[3] > 0 ) {
$aImg->SetLineStyle($p[3]);
$aImg->StyleLine($x1-3,$y1+$f2,$x1+$this->mark_abs_size+3,$y1+$f2);
}
// Stroke a mark with the standard size
// (As long as it is not an image mark )
if( $p[2]->GetType() != MARK_IMG ) {
$p[2]->iFormatCallback = '';
if( $this->mark_abs_size === _DEFAULT_LPM_SIZE )
$p[2]->SetDefaultWidth();
else
$p[2]->SetSize($this->mark_abs_size);
$p[2]->Stroke($aImg,$x1+$this->mark_abs_size/2,$y1+$f2);
}
}
elseif ( $p[2] != "" && (is_string($p[3]) || $p[3]>0 ) ) {
// Draw a styled line
$aImg->SetColor($p[1]);
$aImg->SetLineStyle($p[3]);
$aImg->StyleLine($x1,$y1+$f2,$x1+$this->mark_abs_size,$y1+$f2);
$aImg->StyleLine($x1,$y1+$f2+1,$x1+$this->mark_abs_size,$y1+$f2+1);
}
else {
// Draw a colored box
$color = $p[1] ;
$ym = round($y1 + $f2 - $this->mark_abs_size/2);
if( is_array($color) && count($color)==3 ) {
// The client want a gradient color
$grad->FilledRectangle($x1,$ym,
$x1+$this->mark_abs_size,$ym+$this->mark_abs_size,
$color[0],$color[1],$color[2]);
}
else {
$aImg->SetColor($p[1]);
$aImg->FilledRectangle($x1,$ym,$x1+$this->mark_abs_size,$ym+$this->mark_abs_size);
}
$aImg->SetColor($this->color);
$aImg->SetLineWeight($this->weight);
$aImg->Rectangle($x1,$ym,$x1+$this->mark_abs_size,$ym+$this->mark_abs_size);
}
$aImg->SetColor($this->font_color);
$aImg->SetFont($this->font_family,$this->font_style,$this->font_size);
$aImg->SetTextAlign("left","top");
$aImg->StrokeText(round($x1+$this->mark_abs_size+$this->xmargin*1.5),$y1,$p[0]);
// Add CSIM for Legend if defined
if( $p[4] != "" ) {
$xe = $x1 + $this->xmargin+2*$this->mark_abs_size+$aImg->GetTextWidth($p[0]);
$ye = $y1 + max($this->mark_abs_size,$aImg->GetTextHeight($p[0]));
$coords = "$x1,$y1,$xe,$y1,$xe,$ye,$x1,$ye";
$this->csimareas .= "csimareas .= " alt=\"$tmp\" title=\"$tmp\"";
}
$this->csimareas .= ">\n";
}
if( $i >= $this->layout_n ) {
$x1 = $xp+$this->mark_abs_size/2+3;
//$y1 += max($aImg->GetTextHeight($p[0]),$this->mark_abs_size)+$this->ymargin;
$y1 += $rowheight[$row++];
$i = 1;
}
else {
$x1 += $colwidth[($i-1) % $numcolumns] ;
++$i;
}
}
}
} // Class
//===================================================
// CLASS DisplayValue
// Description: Used to print data values at data points
//===================================================
class DisplayValue {
var $show=false,$format="%.1f",$negformat="";
var $iFormCallback='';
var $angle=0;
var $ff=FF_FONT1,$fs=FS_NORMAL,$fsize=10;
var $color="navy",$negcolor="";
var $margin=5,$valign="",$halign="center";
var $iHideZero=false;
function Show($aFlag=true) {
$this->show=$aFlag;
}
function SetColor($aColor,$aNegcolor="") {
$this->color = $aColor;
$this->negcolor = $aNegcolor;
}
function SetFont($aFontFamily,$aFontStyle=FS_NORMAL,$aFontSize=10) {
$this->ff=$aFontFamily;
$this->fs=$aFontStyle;
$this->fsize=$aFontSize;
}
function SetMargin($aMargin) {
$this->margin = $aMargin;
}
function SetAngle($aAngle) {
$this->angle = $aAngle;
}
function SetAlign($aHAlign,$aVAlign='') {
$this->halign = $aHAlign;
$this->valign = $aVAlign;
}
function SetFormat($aFormat,$aNegFormat="") {
$this->format= $aFormat;
$this->negformat= $aNegFormat;
}
function SetFormatCallback($aFunc) {
$this->iFormCallback = $aFunc;
}
function HideZero($aFlag=true) {
$this->iHideZero=$aFlag;
}
function Stroke($img,$aVal,$x,$y) {
if( $this->show )
{
if( $this->negformat=="" ) $this->negformat=$this->format;
if( $this->negcolor=="" ) $this->negcolor=$this->color;
if( $aVal===NULL || (is_string($aVal) && ($aVal=="" || $aVal=="-" || $aVal=="x" ) ) )
return;
if( is_numeric($aVal) && $aVal==0 && $this->iHideZero ) {
return;
}
// Since the value is used in different cirumstances we need to check what
// kind of formatting we shall use. For example, to display values in a line
// graph we simply display the formatted value, but in the case where the user
// has already specified a text string we don't fo anything.
if( $this->iFormCallback != '' ) {
$f = $this->iFormCallback;
$sval = $f($aVal);
}
elseif( is_numeric($aVal) ) {
if( $aVal >= 0 )
$sval=sprintf($this->format,$aVal);
else
$sval=sprintf($this->negformat,$aVal);
}
else
$sval=$aVal;
$y = $y-sign($aVal)*$this->margin;
$txt = new Text($sval,$x,$y);
$txt->SetFont($this->ff,$this->fs,$this->fsize);
if( $this->valign == "" ) {
if( $aVal >= 0 )
$valign = "bottom";
else
$valign = "top";
}
else
$valign = $this->valign;
$txt->Align($this->halign,$valign);
$txt->SetOrientation($this->angle);
if( $aVal > 0 )
$txt->SetColor($this->color);
else
$txt->SetColor($this->negcolor);
$txt->Stroke($img);
}
}
}
//===================================================
// CLASS Plot
// Description: Abstract base class for all concrete plot classes
//===================================================
class Plot {
var $line_weight=1;
var $coords=array();
var $legend='',$hidelegend=false;
var $csimtargets=array(); // Array of targets for CSIM
var $csimareas=""; // Resultant CSIM area tags
var $csimalts=null; // ALT:s for corresponding target
var $color="black";
var $numpoints=0;
var $weight=1;
var $value;
var $center=false;
var $legendcsimtarget='';
var $legendcsimalt='';
//---------------
// CONSTRUCTOR
function Plot(&$aDatay,$aDatax=false) {
$this->numpoints = count($aDatay);
if( $this->numpoints==0 )
JpGraphError::Raise(" Empty data array specified for plot. Must have at least one data point.");
$this->coords[0]=$aDatay;
if( is_array($aDatax) )
$this->coords[1]=$aDatax;
$this->value = new DisplayValue();
}
//---------------
// PUBLIC METHODS
// Stroke the plot
// "virtual" function which must be implemented by
// the subclasses
function Stroke(&$aImg,&$aXScale,&$aYScale) {
JpGraphError::Raise("JpGraph: Stroke() must be implemented by concrete subclass to class Plot");
}
function HideLegend($f=true) {
$this->hidelegend = $f;
}
function DoLegend(&$graph) {
if( !$this->hidelegend )
$this->Legend($graph);
}
function StrokeDataValue($img,$aVal,$x,$y) {
$this->value->Stroke($img,$aVal,$x,$y);
}
// Set href targets for CSIM
function SetCSIMTargets($aTargets,$aAlts=null) {
$this->csimtargets=$aTargets;
$this->csimalts=$aAlts;
}
// Get all created areas
function GetCSIMareas() {
return $this->csimareas;
}
// "Virtual" function which gets called before any scale
// or axis are stroked used to do any plot specific adjustment
function PreStrokeAdjust(&$aGraph) {
if( substr($aGraph->axtype,0,4) == "text" && (isset($this->coords[1])) )
JpGraphError::Raise("JpGraph: You can't use a text X-scale with specified X-coords. Use a \"int\" or \"lin\" scale instead.");
return true;
}
// Get minimum values in plot
function Min() {
if( isset($this->coords[1]) )
$x=$this->coords[1];
else
$x="";
if( $x != "" && count($x) > 0 )
$xm=min($x);
else
$xm=0;
$y=$this->coords[0];
if( count($y) > 0 ) {
$ym = $y[0];
$cnt = count($y);
$i=0;
while( $i<$cnt && !is_numeric($ym=$y[$i]) )
$i++;
while( $i < $cnt) {
if( is_numeric($y[$i]) )
$ym=min($ym,$y[$i]);
++$i;
}
}
else
$ym="";
return array($xm,$ym);
}
// Get maximum value in plot
function Max() {
if( isset($this->coords[1]) )
$x=$this->coords[1];
else
$x="";
if( $x!="" && count($x) > 0 )
$xm=max($x);
else {
//$xm=count($this->coords[0])-1; // We count from 0..(n-1)
$xm = $this->numpoints-1;
}
$y=$this->coords[0];
if( count($y) > 0 ) {
if( !isset($y[0]) ) {
$y[0] = 0;
// Change in 1.5.1 Don't treat this as an error any more. Just silently concert to 0
// JpGraphError::Raise(" You have not specified a y[0] value!!");
}
$cnt = count($y);
$i=0;
while( $i<$cnt && !is_numeric($ym=$y[$i]) )
$i++;
while( $i < $cnt ) {
if( is_numeric($y[$i]) ) $ym=max($ym,$y[$i]);
++$i;
}
}
else
$ym="";
return array($xm,$ym);
}
function SetColor($aColor) {
$this->color=$aColor;
}
function SetLegend($aLegend,$aCSIM="",$aCSIMAlt="") {
$this->legend = $aLegend;
$this->legendcsimtarget = $aCSIM;
$this->legendcsimalt = $aCSIMAlt;
}
function SetWeight($aWeight) {
$this->weight=$aWeight;
}
function SetLineWeight($aWeight=1) {
$this->line_weight=$aWeight;
}
function SetCenter($aCenter=true) {
$this->center = $aCenter;
}
// This method gets called by Graph class to plot anything that should go
// into the margin after the margin color has been set.
function StrokeMargin(&$aImg) {
return true;
}
// Framework function the chance for each plot class to set a legend
function Legend(&$aGraph) {
if( $this->legend != "" )
$aGraph->legend->Add($this->legend,$this->color,"",0,$this->legendcsimtarget,$this->legendcsimalt);
}
} // Class
require_once "jpgraph_plotmark.inc" ;
//==============================================================================
// The following section contains classes to implement the "band" functionality
//==============================================================================
// Utility class to hold coordinates for a rectangle
class Rectangle {
var $x,$y,$w,$h;
var $xe, $ye;
function Rectangle($aX,$aY,$aWidth,$aHeight) {
$this->x=$aX;
$this->y=$aY;
$this->w=$aWidth;
$this->h=$aHeight;
$this->xe=$aX+$aWidth-1;
$this->ye=$aY+$aHeight-1;
}
}
//=====================================================================
// Class RectPattern
// Base class for pattern hierarchi that is used to display patterned
// bands on the graph. Any subclass that doesn't override Stroke()
// must at least implement method DoPattern(&$aImg) which is responsible
// for drawing the pattern onto the graph.
//=====================================================================
class RectPattern {
var $color;
var $weight;
var $rect=null;
var $doframe=true;
var $linespacing; // Line spacing in pixels
var $iBackgroundColor=-1; // Default is no background fill
function RectPattern($aColor,$aWeight=1) {
$this->color = $aColor;
$this->weight = $aWeight;
}
function SetBackground($aBackgroundColor) {
$this->iBackgroundColor=$aBackgroundColor;
}
function SetPos(&$aRect) {
$this->rect = $aRect;
}
function ShowFrame($aShow=true) {
$this->doframe=$aShow;
}
function SetDensity($aDens) {
if( $aDens <1 || $aDens > 100 )
JpGraphError::Raise(" Desity for pattern must be between 1 and 100. (You tried $aDens)");
// 1% corresponds to linespacing=50
// 100 % corresponds to linespacing 1
$this->linespacing = floor(((100-$aDens)/100.0)*50)+1;
}
function Stroke(&$aImg) {
if( $this->rect == null )
JpGraphError::Raise(" No positions specified for pattern.");
if( !(is_numeric($this->iBackgroundColor) && $this->iBackgroundColor==-1) ) {
$aImg->SetColor($this->iBackgroundColor);
$aImg->FilledRectangle($this->rect->x,$this->rect->y,$this->rect->xe,$this->rect->ye);
}
$aImg->SetColor($this->color);
$aImg->SetLineWeight($this->weight);
// Virtual function implemented by subclass
$this->DoPattern($aImg);
// Frame around the pattern area
if( $this->doframe )
$aImg->Rectangle($this->rect->x,$this->rect->y,$this->rect->xe,$this->rect->ye);
}
}
//=====================================================================
// Class RectPatternSolid
// Implements a solid band
//=====================================================================
class RectPatternSolid extends RectPattern {
function RectPatternSolid($aColor="black",$aWeight=1) {
parent::RectPattern($aColor,$aWeight);
}
function DoPattern(&$aImg) {
$aImg->SetColor($this->color);
$aImg->FilledRectangle($this->rect->x,$this->rect->y,
$this->rect->xe,$this->rect->ye);
}
}
//=====================================================================
// Class RectPatternHor
// Implements horizontal line pattern
//=====================================================================
class RectPatternHor extends RectPattern {
function RectPatternHor($aColor="black",$aWeight=1,$aLineSpacing=7) {
parent::RectPattern($aColor,$aWeight);
$this->linespacing = $aLineSpacing;
}
function DoPattern(&$aImg) {
$x0 = $this->rect->x;
$x1 = $this->rect->xe;
$y = $this->rect->y;
while( $y < $this->rect->ye ) {
$aImg->Line($x0,$y,$x1,$y);
$y += $this->linespacing;
}
}
}
//=====================================================================
// Class RectPatternVert
// Implements vertical line pattern
//=====================================================================
class RectPatternVert extends RectPattern {
var $linespacing=10; // Line spacing in pixels
function RectPatternVert($aColor="black",$aWeight=1,$aLineSpacing=7) {
parent::RectPattern($aColor,$aWeight);
$this->linespacing = $aLineSpacing;
}
//--------------------
// Private methods
//
function DoPattern(&$aImg) {
$x = $this->rect->x;
$y0 = $this->rect->y;
$y1 = $this->rect->ye;
while( $x < $this->rect->xe ) {
$aImg->Line($x,$y0,$x,$y1);
$x += $this->linespacing;
}
}
}
//=====================================================================
// Class RectPatternRDiag
// Implements right diagonal pattern
//=====================================================================
class RectPatternRDiag extends RectPattern {
var $linespacing; // Line spacing in pixels
function RectPatternRDiag($aColor="black",$aWeight=1,$aLineSpacing=12) {
parent::RectPattern($aColor,$aWeight);
$this->linespacing = $aLineSpacing;
}
function DoPattern(&$aImg) {
// --------------------
// | / / / / /|
// |/ / / / / |
// | / / / / |
// --------------------
$xe = $this->rect->xe;
$ye = $this->rect->ye;
$x0 = $this->rect->x + round($this->linespacing/2);
$y0 = $this->rect->y;
$x1 = $this->rect->x;
$y1 = $this->rect->y + round($this->linespacing/2);
while($x0<=$xe && $y1<=$ye) {
$aImg->Line($x0,$y0,$x1,$y1);
$x0 += $this->linespacing;
$y1 += $this->linespacing;
}
if( $xe-$x1 > $ye-$y0 ) {
// Width larger than height
$x1 = $this->rect->x + ($y1-$ye);
$y1 = $ye;
$y0 = $this->rect->y;
while( $x0 <= $xe ) {
$aImg->Line($x0,$y0,$x1,$y1);
$x0 += $this->linespacing;
$x1 += $this->linespacing;
}
$y0=$this->rect->y + ($x0-$xe);
$x0=$xe;
}
else {
// Height larger than width
$diff = $x0-$xe;
$y0 = $diff+$this->rect->y;
$x0 = $xe;
$x1 = $this->rect->x;
while( $y1 <= $ye ) {
$aImg->Line($x0,$y0,$x1,$y1);
$y1 += $this->linespacing;
$y0 += $this->linespacing;
}
$diff = $y1-$ye;
$y1 = $ye;
$x1 = $diff + $this->rect->x;
}
while( $y0 <= $ye ) {
$aImg->Line($x0,$y0,$x1,$y1);
$y0 += $this->linespacing;
$x1 += $this->linespacing;
}
}
}
//=====================================================================
// Class RectPatternLDiag
// Implements left diagonal pattern
//=====================================================================
class RectPatternLDiag extends RectPattern {
var $linespacing; // Line spacing in pixels
function RectPatternLDiag($aColor="black",$aWeight=1,$aLineSpacing=12) {
$this->linespacing = $aLineSpacing;
parent::RectPattern($aColor,$aWeight);
}
function DoPattern(&$aImg) {
// --------------------
// |\ \ \ \ \ |
// | \ \ \ \ \|
// | \ \ \ \ |
// |------------------|
$xe = $this->rect->xe;
$ye = $this->rect->ye;
$x0 = $this->rect->x + round($this->linespacing/2);
$y0 = $this->rect->ye;
$x1 = $this->rect->x;
$y1 = $this->rect->ye - round($this->linespacing/2);
while($x0<=$xe && $y1>=$this->rect->y) {
$aImg->Line($x0,$y0,$x1,$y1);
$x0 += $this->linespacing;
$y1 -= $this->linespacing;
}
if( $xe-$x1 > $ye-$this->rect->y ) {
// Width larger than height
$x1 = $this->rect->x + ($this->rect->y-$y1);
$y0=$ye; $y1=$this->rect->y;
while( $x0 <= $xe ) {
$aImg->Line($x0,$y0,$x1,$y1);
$x0 += $this->linespacing;
$x1 += $this->linespacing;
}
$y0=$this->rect->ye - ($x0-$xe);
$x0=$xe;
}
else {
// Height larger than width
$diff = $x0-$xe;
$y0 = $ye-$diff;
$x0 = $xe;
while( $y1 >= $this->rect->y ) {
$aImg->Line($x0,$y0,$x1,$y1);
$y0 -= $this->linespacing;
$y1 -= $this->linespacing;
}
$diff = $this->rect->y - $y1;
$x1 = $this->rect->x + $diff;
$y1 = $this->rect->y;
}
while( $y0 >= $this->rect->y ) {
$aImg->Line($x0,$y0,$x1,$y1);
$y0 -= $this->linespacing;
$x1 += $this->linespacing;
}
}
}
//=====================================================================
// Class RectPattern3DPlane
// Implements "3D" plane pattern
//=====================================================================
class RectPattern3DPlane extends RectPattern {
var $alpha=50; // Parameter that specifies the distance
// to "simulated" horizon in pixel from the
// top of the band. Specifies how fast the lines
// converge.
function RectPattern3DPlane($aColor="black",$aWeight=1) {
parent::RectPattern($aColor,$aWeight);
$this->SetDensity(10); // Slightly larger default
}
function SetHorizon($aHorizon) {
$this->alpha=$aHorizon;
}
function DoPattern(&$aImg) {
// "Fake" a nice 3D grid-effect.
$x0 = $this->rect->x + $this->rect->w/2;
$y0 = $this->rect->y;
$x1 = $x0;
$y1 = $this->rect->ye;
$x0_right = $x0;
$x1_right = $x1;
// BTW "apa" means monkey in Swedish but is really a shortform for
// "alpha+a" which was the labels I used on paper when I derived the
// geometric to get the 3D perspective right.
// $apa is the height of the bounding rectangle plus the distance to the
// artifical horizon (alpha)
$apa = $this->rect->h + $this->alpha;
// Three cases and three loops
// 1) The endpoint of the line ends on the bottom line
// 2) The endpoint ends on the side
// 3) Horizontal lines
// Endpoint falls on bottom line
$middle=$this->rect->x + $this->rect->w/2;
$dist=$this->linespacing;
$factor=$this->alpha /($apa);
while($x1>$this->rect->x) {
$aImg->Line($x0,$y0,$x1,$y1);
$aImg->Line($x0_right,$y0,$x1_right,$y1);
$x1 = $middle - $dist;
$x0 = $middle - $dist * $factor;
$x1_right = $middle + $dist;
$x0_right = $middle + $dist * $factor;
$dist += $this->linespacing;
}
// Endpoint falls on sides
$dist -= $this->linespacing;
$d=$this->rect->w/2;
$c = $apa - $d*$apa/$dist;
while( $x0>$this->rect->x ) {
$aImg->Line($x0,$y0,$this->rect->x,$this->rect->ye-$c);
$aImg->Line($x0_right,$y0,$this->rect->xe,$this->rect->ye-$c);
$dist += $this->linespacing;
$x0 = $middle - $dist * $factor;
$x1 = $middle - $dist;
$x0_right = $middle + $dist * $factor;
$c = $apa - $d*$apa/$dist;
}
// Horizontal lines
// They need some serious consideration since they are a function
// of perspective depth (alpha) and density (linespacing)
$x0=$this->rect->x;
$x1=$this->rect->xe;
$y=$this->rect->ye;
// The first line is drawn directly. Makes the loop below slightly
// more readable.
$aImg->Line($x0,$y,$x1,$y);
$hls = $this->linespacing;
// A correction factor for vertical "brick" line spacing to account for
// a) the difference in number of pixels hor vs vert
// b) visual apperance to make the first layer of "bricks" look more
// square.
$vls = $this->linespacing*0.6;
$ds = $hls*($apa-$vls)/$apa;
// Get the slope for the "perspective line" going from bottom right
// corner to top left corner of the "first" brick.
// Uncomment the following lines if you want to get a visual understanding
// of what this helpline does. BTW this mimics the way you would get the
// perspective right when drawing on paper.
/*
$x0 = $middle;
$y0 = $this->rect->ye;
$len=floor(($this->rect->ye-$this->rect->y)/$vls);
$x1 = $middle-round($len*$ds);
$y1 = $this->rect->ye-$len*$vls;
$aImg->PushColor("red");
$aImg->Line($x0,$y0,$x1,$y1);
$aImg->PopColor();
*/
$y -= $vls;
$k=($this->rect->ye-($this->rect->ye-$vls))/($middle-($middle-$ds));
$dist = $hls;
while( $y>$this->rect->y ) {
$aImg->Line($this->rect->x,$y,$this->rect->xe,$y);
$adj = $k*$dist/(1+$dist*$k/$apa);
if( $adj < 2 ) $adj=2;
$y = $this->rect->ye - round($adj);
$dist += $hls;
}
}
}
//=====================================================================
// Class RectPatternCross
// Vert/Hor crosses
//=====================================================================
class RectPatternCross extends RectPattern {
var $vert=null;
var $hor=null;
function RectPatternCross($aColor="black",$aWeight=1) {
parent::RectPattern($aColor,$aWeight);
$this->vert = new RectPatternVert($aColor,$aWeight);
$this->hor = new RectPatternHor($aColor,$aWeight);
}
function SetOrder($aDepth) {
$this->vert->SetOrder($aDepth);
$this->hor->SetOrder($aDepth);
}
function SetPos(&$aRect) {
parent::SetPos($aRect);
$this->vert->SetPos($aRect);
$this->hor->SetPos($aRect);
}
function SetDensity($aDens) {
$this->vert->SetDensity($aDens);
$this->hor->SetDensity($aDens);
}
function DoPattern(&$aImg) {
$this->vert->DoPattern($aImg);
$this->hor->DoPattern($aImg);
}
}
//=====================================================================
// Class RectPatternDiagCross
// Vert/Hor crosses
//=====================================================================
class RectPatternDiagCross extends RectPattern {
var $left=null;
var $right=null;
function RectPatternDiagCross($aColor="black",$aWeight=1) {
parent::RectPattern($aColor,$aWeight);
$this->right = new RectPatternRDiag($aColor,$aWeight);
$this->left = new RectPatternLDiag($aColor,$aWeight);
}
function SetOrder($aDepth) {
$this->left->SetOrder($aDepth);
$this->right->SetOrder($aDepth);
}
function SetPos(&$aRect) {
parent::SetPos($aRect);
$this->left->SetPos($aRect);
$this->right->SetPos($aRect);
}
function SetDensity($aDens) {
$this->left->SetDensity($aDens);
$this->right->SetDensity($aDens);
}
function DoPattern(&$aImg) {
$this->left->DoPattern($aImg);
$this->right->DoPattern($aImg);
}
}
//=====================================================================
// Class RectPatternFactory
// Factory class for rectangular pattern
//=====================================================================
class RectPatternFactory {
function RectPatternFactory() {
// Empty
}
function Create($aPattern,$aColor,$aWeight=1) {
switch($aPattern) {
case BAND_RDIAG:
$obj = new RectPatternRDiag($aColor,$aWeight);
break;
case BAND_LDIAG:
$obj = new RectPatternLDiag($aColor,$aWeight);
break;
case BAND_SOLID:
$obj = new RectPatternSolid($aColor,$aWeight);
break;
case BAND_VLINE:
$obj = new RectPatternVert($aColor,$aWeight);
break;
case BAND_HLINE:
$obj = new RectPatternHor($aColor,$aWeight);
break;
case BAND_3DPLANE:
$obj = new RectPattern3DPlane($aColor,$aWeight);
break;
case BAND_HVCROSS:
$obj = new RectPatternCross($aColor,$aWeight);
break;
case BAND_DIAGCROSS:
$obj = new RectPatternDiagCross($aColor,$aWeight);
break;
default:
JpGraphError::Raise(" Unknown pattern specification ($aPattern)");
}
return $obj;
}
}
//=====================================================================
// Class PlotBand
// Factory class which is used by the client.
// It is reposnsible for factoring the corresponding pattern
// concrete class.
//=====================================================================
class PlotBand {
var $prect=null;
var $depth;
var $dir, $min, $max;
function PlotBand($aDir,$aPattern,$aMin,$aMax,$aColor="black",$aWeight=1,$aDepth=DEPTH_BACK) {
$f = new RectPatternFactory();
$this->prect = $f->Create($aPattern,$aColor,$aWeight);
$this->dir = $aDir;
$this->min = $aMin;
$this->max = $aMax;
$this->depth=$aDepth;
}
// Set position. aRect contains absolute image coordinates
function SetPos(&$aRect) {
assert( $this->prect != null ) ;
$this->prect->SetPos($aRect);
}
function ShowFrame($aFlag=true) {
$this->prect->ShowFrame($aFlag);
}
// Set z-order. In front of pplot or in the back
function SetOrder($aDepth) {
$this->depth=$aDepth;
}
function SetDensity($aDens) {
$this->prect->SetDensity($aDens);
}
function GetDir() {
return $this->dir;
}
function GetMin() {
return $this->min;
}
function GetMax() {
return $this->max;
}
// Display band
function Stroke(&$aImg,&$aXScale,&$aYScale) {
assert( $this->prect != null ) ;
if( $this->dir == HORIZONTAL ) {
if( $this->min === 'min' ) $this->min = $aYScale->GetMinVal();
if( $this->max === 'max' ) $this->max = $aYScale->GetMaxVal();
// Only draw the bar if it actually appears in the range
if ($this->min < $aYScale->GetMaxVal() && $this->max > $aYScale->GetMinVal()) {
// Trucate to limit of axis
$this->min = max($this->min, $aYScale->GetMinVal());
$this->max = min($this->max, $aYScale->GetMaxVal());
$x=$aXScale->scale_abs[0];
$y=$aYScale->Translate($this->max);
$width=$aXScale->scale_abs[1]-$aXScale->scale_abs[0]+1;
$height=abs($y-$aYScale->Translate($this->min))+1;
$this->prect->SetPos(new Rectangle($x,$y,$width,$height));
$this->prect->Stroke($aImg);
}
}
else { // VERTICAL
if( $this->min === 'min' ) $this->min = $aXScale->GetMinVal();
if( $this->max === 'max' ) $this->max = $aXScale->GetMaxVal();
// Only draw the bar if it actually appears in the range
if ($this->min < $aXScale->GetMaxVal() && $this->max > $aXScale->GetMinVal()) {
// Trucate to limit of axis
$this->min = max($this->min, $aXScale->GetMinVal());
$this->max = min($this->max, $aXScale->GetMaxVal());
$y=$aYScale->scale_abs[1];
$x=$aXScale->Translate($this->min);
$height=abs($aYScale->scale_abs[1]-$aYScale->scale_abs[0]);
$width=abs($x-$aXScale->Translate($this->max));
$this->prect->SetPos(new Rectangle($x,$y,$width,$height));
$this->prect->Stroke($aImg);
}
}
}
}
//===================================================
// CLASS PlotLine
// Description:
// Data container class to hold properties for a static
// line that is drawn directly in the plot area.
// Usefull to add static borders inside a plot to show
// for example set-values
//===================================================
class PlotLine {
var $weight=1;
var $color="black";
var $direction=-1;
var $scaleposition;
//---------------
// CONSTRUCTOR
function PlotLine($aDir=HORIZONTAL,$aPos=0,$aColor="black",$aWeight=1) {
$this->direction = $aDir;
$this->color=$aColor;
$this->weight=$aWeight;
$this->scaleposition=$aPos;
}
//---------------
// PUBLIC METHODS
function SetPosition($aScalePosition) {
$this->scaleposition=$aScalePosition;
}
function SetDirection($aDir) {
$this->direction = $aDir;
}
function SetColor($aColor) {
$this->color=$aColor;
}
function SetWeight($aWeight) {
$this->weight=$aWeight;
}
function Stroke(&$aImg,&$aXScale,&$aYScale) {
$aImg->SetColor($this->color);
$aImg->SetLineWeight($this->weight);
if( $this->direction == VERTICAL ) {
$ymin_abs=$aYScale->Translate($aYScale->GetMinVal());
$ymax_abs=$aYScale->Translate($aYScale->GetMaxVal());
$xpos_abs=$aXScale->Translate($this->scaleposition);
$aImg->Line($xpos_abs, $ymin_abs, $xpos_abs, $ymax_abs);
}
elseif( $this->direction == HORIZONTAL ) {
$xmin_abs=$aXScale->Translate($aXScale->GetMinVal());
$xmax_abs=$aXScale->Translate($aXScale->GetMaxVal());
$ypos_abs=$aYScale->Translate($this->scaleposition);
$aImg->Line($xmin_abs, $ypos_abs, $xmax_abs, $ypos_abs);
}
else
JpGraphError::Raise(" Illegal direction for static line");
}
}
//
".$GLOBALS['php_errormsg']);
}
//
// Routine to determine if GD1 or GD2 is installed
//
function CheckGDVersion() {
ob_start();
phpinfo(8); // Just get the modules loaded
$a = ob_get_contents();
ob_end_clean();
if( preg_match('/.*GD Version.*(1\.).*/',$a,$m) ) {
$r=1;$v=$m[1];
}
elseif( preg_match('/.*GD Version.*(2\.).*/',$a,$m) ) {
$r=2;$v=$m[1];
}
else {
$r=0;$v=$m[1];
}
return $r;
}
//
// Check what version of the GD library is installed.
//
if( USE_LIBRARY_GD2 === 'auto' ) {
$gdversion = CheckGDVersion();
if( $gdversion == 2 ) {
$GLOBALS['gd2'] = true;
$GLOBALS['copyfunc'] = 'imagecopyresampled';
}
elseif( $gdversion == 1 ) {
$GLOBALS['gd2'] = false;
$GLOBALS['copyfunc'] = 'imagecopyresized';
}
else {
JpGraphError::Raise(" Your PHP installation does not seem to
have the required GD library.
Please see the PHP documentation on how to install and enable the GD library.");
}
}
else {
$GLOBALS['gd2'] = USE_LIBRARY_GD2;
$GLOBALS['copyfunc'] = USE_LIBRARY_GD2 ? 'imagecopyresampled' : 'imagecopyresized';
}
// Usefull mathematical function
function sign($a) {return $a >= 0 ? 1 : -1;}
// Utility function to generate an image name based on the filename we
// are running from and assuming we use auto detection of graphic format
// (top level), i.e it is safe to call this function
// from a script that uses JpGraph
function GenImgName() {
global $HTTP_SERVER_VARS;
$supported = imagetypes();
if( $supported & IMG_PNG )
$img_format="png";
elseif( $supported & IMG_GIF )
$img_format="gif";
elseif( $supported & IMG_JPG )
$img_format="jpeg";
if( !isset($_SERVER['PHP_SELF']) )
JpGraphError::Raise(" Can't access PHP_SELF, PHP global variable. You can't run PHP from command line
if you want to use the 'auto' naming of cache or image files.");
$fname=basename($_SERVER['PHP_SELF']);
// Replace the ".php" extension with the image format extension
return substr($fname,0,strlen($fname)-4).".".$img_format;
}
class LanguageConv {
var $g2312 = null ;
function Convert($aTxt,$aFF) {
if( LANGUAGE_CYRILLIC ) {
if( CYRILLIC_FROM_WINDOWS ) {
$aTxt = convert_cyr_string($aTxt, "w", "k");
}
$isostring = convert_cyr_string($aTxt, "k", "i");
$unistring = LanguageConv::iso2uni($isostring);
return $unistring;
}
elseif( $aFF === FF_SIMSUN ) {
// Do Chinese conversion
if( $this->g2312 == null ) {
include_once 'jpgraph_gb2312.php' ;
$this->g2312 = new GB2312toUTF8();
}
return $this->g2312->gb2utf8($aTxt);
}
else
return $aTxt;
}
// Translate iso encoding to unicode
function iso2uni ($isoline){
for ($i=0; $i < strlen($isoline); $i++){
$thischar=substr($isoline,$i,1);
$charcode=ord($thischar);
$uniline.=($charcode>175) ? "" . (1040+($charcode-176)). ";" : $thischar;
}
return $uniline;
}
}
//===================================================
// CLASS JpgTimer
// Description: General timing utility class to handle
// timne measurement of generating graphs. Multiple
// timers can be started by pushing new on a stack.
//===================================================
class JpgTimer {
var $start;
var $idx;
//---------------
// CONSTRUCTOR
function JpgTimer() {
$this->idx=0;
}
//---------------
// PUBLIC METHODS
// Push a new timer start on stack
function Push() {
list($ms,$s)=explode(" ",microtime());
$this->start[$this->idx++]=floor($ms*1000) + 1000*$s;
}
// Pop the latest timer start and return the diff with the
// current time
function Pop() {
assert($this->idx>0);
list($ms,$s)=explode(" ",microtime());
$etime=floor($ms*1000) + (1000*$s);
$this->idx--;
return $etime-$this->start[$this->idx];
}
} // Class
$gJpgBrandTiming = BRAND_TIMING;
//===================================================
// CLASS DateLocale
// Description: Hold localized text used in dates
// ToDOo: Rewrite this to use the real local locale
// instead.
//===================================================
class DateLocale {
var $iLocale = 'C'; // environmental locale be used by default
var $iDayAbb = null;
var $iShortDay = null;
var $iShortMonth = null;
var $iMonthName = null;
//---------------
// CONSTRUCTOR
function DateLocale() {
settype($this->iDayAbb, 'array');
settype($this->iShortDay, 'array');
settype($this->iShortMonth, 'array');
settype($this->iMonthName, 'array');
$this->Set('C');
}
//---------------
// PUBLIC METHODS
function Set($aLocale) {
if ( in_array($aLocale, array_keys($this->iDayAbb)) ){
$this->iLocale = $aLocale;
return TRUE; // already cached nothing else to do!
}
$pLocale = setlocale(LC_TIME, 0); // get current locale for LC_TIME
$res = setlocale(LC_TIME, $aLocale);
if ( ! $res ){
JpGraphError::Raise("You are trying to use the locale ($aLocale) which your PHP installation does not support. Hint: Use '' to indicate the default locale for this geographic region.");
return FALSE;
}
$this->iLocale = $aLocale;
for ( $i = 0, $ofs = 0 - strftime('%w'); $i < 7; $i++, $ofs++ ){
$day = strftime('%a', strtotime("$ofs day"));
$day{0} = strtoupper($day{0});
$this->iDayAbb[$aLocale][]= $day{0};
$this->iShortDay[$aLocale][]= $day;
}
for($i=1; $i<=12; ++$i) {
list($short ,$full) = explode('|', strftime("%b|%B",strtotime("2001-$i-01")));
$this->iShortMonth[$aLocale][] = ucfirst($short);
$this->iMonthName [$aLocale][] = ucfirst($full);
}
setlocale(LC_TIME, $pLocale);
return TRUE;
}
function GetDayAbb() {
return $this->iDayAbb[$this->iLocale];
}
function GetShortDay() {
return $this->iShortDay[$this->iLocale];
}
function GetShortMonth() {
return $this->iShortMonth[$this->iLocale];
}
function GetShortMonthName($aNbr) {
return $this->iShortMonth[$this->iLocale][$aNbr];
}
function GetLongMonthName($aNbr) {
return $this->iMonthName[$this->iLocale][$aNbr];
}
function GetMonth() {
return $this->iMonthName[$this->iLocale];
}
}
$gDateLocale = new DateLocale();
$gJpgDateLocale = new DateLocale();
//===================================================
// CLASS FuncGenerator
// Description: Utility class to help generate data for function plots.
// The class supports both parametric and regular functions.
//===================================================
class FuncGenerator {
var $iFunc='',$iXFunc='',$iMin,$iMax,$iStepSize;
function FuncGenerator($aFunc,$aXFunc='') {
$this->iFunc = $aFunc;
$this->iXFunc = $aXFunc;
}
function E($aXMin,$aXMax,$aSteps=50) {
$this->iMin = $aXMin;
$this->iMax = $aXMax;
$this->iStepSize = ($aXMax-$aXMin)/$aSteps;
if( $this->iXFunc != '' )
$t = 'for($i='.$aXMin.'; $i<='.$aXMax.'; $i += '.$this->iStepSize.') {$ya[]='.$this->iFunc.';$xa[]='.$this->iXFunc.';}';
elseif( $this->iFunc != '' )
$t = 'for($x='.$aXMin.'; $x<='.$aXMax.'; $x += '.$this->iStepSize.') {$ya[]='.$this->iFunc.';$xa[]=$x;} $x='.$aXMax.';$ya[]='.$this->iFunc.';$xa[]=$x;';
else
JpGraphError::Raise('FuncGenerator : No function specified. ');
@eval($t);
// If there is an error in the function specifcation this is the only
// way we can discover that.
if( empty($xa) || empty($ya) )
JpGraphError::Raise('FuncGenerator : Syntax error in function specification ');
return array($xa,$ya);
}
}
//=======================================================
// CLASS Footer
// Description: Encapsulates the footer line in the Graph
//
//=======================================================
class Footer {
var $left,$center,$right;
var $iLeftMargin = 3;
var $iRightMargin = 3;
var $iBottomMargin = 3;
function Footer() {
$this->left = new Text();
$this->left->ParagraphAlign('left');
$this->center = new Text();
$this->center->ParagraphAlign('center');
$this->right = new Text();
$this->right->ParagraphAlign('right');
}
function Stroke($aImg) {
$y = $aImg->height - $this->iBottomMargin;
$x = $this->iLeftMargin;
$this->left->Align('left','bottom');
$this->left->Stroke($aImg,$x,$y);
$x = ($aImg->width - $this->iLeftMargin - $this->iRightMargin)/2;
$this->center->Align('center','bottom');
$this->center->Stroke($aImg,$x,$y);
$x = $aImg->width - $this->iRightMargin;
$this->right->Align('right','bottom');
$this->right->Stroke($aImg,$x,$y);
}
}
DEFINE('BGRAD_FRAME',1);
DEFINE('BGRAD_MARGIN',2);
DEFINE('BGRAD_PLOT',3);
//===================================================
// CLASS Graph
// Description: Main class to handle graphs
//===================================================
class Graph {
var $cache=null; // Cache object (singleton)
var $img=null; // Img object (singleton)
var $plots=array(); // Array of all plot object in the graph (for Y 1 axis)
var $y2plots=array();// Array of all plot object in the graph (for Y 2 axis)
var $xscale=null; // X Scale object (could be instance of LinearScale or LogScale
var $yscale=null,$y2scale=null;
var $cache_name; // File name to be used for the current graph in the cache directory
var $xgrid=null; // X Grid object (linear or logarithmic)
var $ygrid=null,$y2grid=null; //dito for Y
var $doframe=true,$frame_color=array(0,0,0), $frame_weight=1; // Frame around graph
var $boxed=false, $box_color=array(0,0,0), $box_weight=1; // Box around plot area
var $doshadow=false,$shadow_width=4,$shadow_color=array(102,102,102); // Shadow for graph
var $xaxis=null; // X-axis (instane of Axis class)
var $yaxis=null, $y2axis=null; // Y axis (instance of Axis class)
var $margin_color=array(200,200,200); // Margin color of graph
var $plotarea_color=array(255,255,255); // Plot area color
var $title,$subtitle,$subsubtitle; // Title and subtitle(s) text object
var $axtype="linlin"; // Type of axis
var $xtick_factor; // Factot to determine the maximum number of ticks depending on the plot with
var $texts=null; // Text object to ge shown in the graph
var $lines=null;
var $bands=null;
var $text_scale_off=0; // Text scale offset in world coordinates
var $background_image="",$background_image_type=-1,$background_image_format="png";
var $background_image_bright=0,$background_image_contr=0,$background_image_sat=0;
var $image_bright=0, $image_contr=0, $image_sat=0;
var $inline;
var $showcsim=0,$csimcolor="red"; //debug stuff, draw the csim boundaris on the image if <>0
var $grid_depth=DEPTH_BACK; // Draw grid under all plots as default
var $iAxisStyle = AXSTYLE_SIMPLE;
var $iCSIMdisplay=false,$iHasStroked = false;
var $footer;
var $csimcachename = '', $csimcachetimeout = 0;
var $iDoClipping = false;
var $y2orderback=true;
var $tabtitle;
var $bkg_gradtype=-1,$bkg_gradstyle=BGRAD_MARGIN;
var $bkg_gradfrom='navy', $bkg_gradto='silver';
var $titlebackground = false;
var $titlebackground_color = 'lightblue',
$titlebackground_style = 1,
$titlebackground_framecolor = 'blue',
$titlebackground_framestyle = 2,
$titlebackground_frameweight = 1,
$titlebackground_bevelheight = 3 ;
var $titlebkg_fillstyle=TITLEBKG_FILLSTYLE_SOLID;
var $titlebkg_scolor1='black',$titlebkg_scolor2='white';
var $framebevel = false, $framebeveldepth = 2 ;
var $framebevelborder = false, $framebevelbordercolor='black';
var $framebevelcolor1='white@0.4', $framebevelcolor2='black@0.4';
//---------------
// CONSTRUCTOR
// aWIdth Width in pixels of image
// aHeight Height in pixels of image
// aCachedName Name for image file in cache directory
// aTimeOut Timeout in minutes for image in cache
// aInline If true the image is streamed back in the call to Stroke()
// If false the image is just created in the cache
function Graph($aWidth=300,$aHeight=200,$aCachedName="",$aTimeOut=0,$aInline=true) {
GLOBAL $gJpgBrandTiming;
// If timing is used create a new timing object
if( $gJpgBrandTiming ) {
global $tim;
$tim = new JpgTimer();
$tim->Push();
}
// Automatically generate the image file name based on the name of the script that
// generates the graph
if( $aCachedName=="auto" )
$aCachedName=GenImgName();
// Should the image be streamed back to the browser or only to the cache?
$this->inline=$aInline;
$this->img = new RotImage($aWidth,$aHeight);
$this->cache = new ImgStreamCache($this->img);
$this->cache->SetTimeOut($aTimeOut);
$this->title = new Text();
$this->title->ParagraphAlign('center');
$this->title->SetFont(FF_FONT2,FS_BOLD);
$this->title->SetMargin(3);
$this->subtitle = new Text();
$this->subtitle->ParagraphAlign('center');
$this->subsubtitle = new Text();
$this->subsubtitle->ParagraphAlign('center');
$this->legend = new Legend();
$this->footer = new Footer();
// If the cached version exist just read it directly from the
// cache, stream it back to browser and exit
if( $aCachedName!="" && READ_CACHE && $aInline )
if( $this->cache->GetAndStream($aCachedName) ) {
exit();
}
$this->cache_name = $aCachedName;
$this->SetTickDensity(); // Normal density
$this->tabtitle = new GraphTabTitle();
}
//---------------
// PUBLIC METHODS
// Should the grid be in front or back of the plot?
function SetGridDepth($aDepth) {
$this->grid_depth=$aDepth;
}
// Specify graph angle 0-360 degrees.
function SetAngle($aAngle) {
$this->img->SetAngle($aAngle);
}
function SetAlphaBlending($aFlg=true) {
$this->img->SetAlphaBlending($aFlg);
}
// Shortcut to image margin
function SetMargin($lm,$rm,$tm,$bm) {
$this->img->SetMargin($lm,$rm,$tm,$bm);
}
function SetY2OrderBack($aBack=true) {
$this->y2orderback = $aBack;
}
// Rotate the graph 90 degrees and set the margin
// when we have done a 90 degree rotation
function Set90AndMargin($lm=0,$rm=0,$tm=0,$bm=0) {
$lm = $lm ==0 ? floor(0.2 * $this->img->width) : $lm ;
$rm = $rm ==0 ? floor(0.1 * $this->img->width) : $rm ;
$tm = $tm ==0 ? floor(0.2 * $this->img->height) : $tm ;
$bm = $bm ==0 ? floor(0.1 * $this->img->height) : $bm ;
$adj = ($this->img->height - $this->img->width)/2;
$this->img->SetMargin($tm-$adj,$bm-$adj,$rm+$adj,$lm+$adj);
$this->img->SetCenter(floor($this->img->width/2),floor($this->img->height/2));
$this->SetAngle(90);
$this->xaxis->SetLabelAlign('right','center');
$this->yaxis->SetLabelAlign('center','bottom');
}
function SetClipping($aFlg=true) {
$this->iDoClipping = $aFlg ;
}
// Add a plot object to the graph
function Add(&$aPlot) {
if( $aPlot == null )
JpGraphError::Raise(" Graph::Add() You tried to add a null plot to the graph.");
if( is_array($aPlot) && count($aPlot) > 0 )
$cl = get_class($aPlot[0]);
else
$cl = get_class($aPlot);
if( $cl == 'text' )
$this->AddText($aPlot);
elseif( $cl == 'plotline' )
$this->AddLine($aPlot);
elseif( $cl == 'plotband' )
$this->AddBand($aPlot);
else
$this->plots[] = &$aPlot;
}
// Add plot to second Y-scale
function AddY2(&$aPlot) {
if( $aPlot == null )
JpGraphError::Raise(" Graph::AddY2() You tried to add a null plot to the graph.");
$this->y2plots[] = &$aPlot;
}
// Add text object to the graph
function AddText(&$aTxt) {
if( $aTxt == null )
JpGraphError::Raise(" Graph::AddText() You tried to add a null text to the graph.");
if( is_array($aTxt) ) {
for($i=0; $i < count($aTxt); ++$i )
$this->texts[]=&$aTxt[$i];
}
else
$this->texts[] = &$aTxt;
}
// Add a line object (class PlotLine) to the graph
function AddLine(&$aLine) {
if( $aLine == null )
JpGraphError::Raise(" Graph::AddLine() You tried to add a null line to the graph.");
if( is_array($aLine) ) {
for($i=0; $i
");
$this->y2scale->Init($this->img);
$this->y2axis = new Axis($this->img,$this->y2scale);
$this->y2axis->scale->ticks->SetDirection(SIDE_LEFT);
$this->y2axis->SetLabelSide(SIDE_RIGHT);
// Deafult position is the max x-value
$this->y2grid = new Grid($this->y2axis);
}
// Specify density of ticks when autoscaling 'normal', 'dense', 'sparse', 'verysparse'
// The dividing factor have been determined heuristically according to my aesthetic
// sense (or lack off) y.m.m.v !
function SetTickDensity($aYDensity=TICKD_NORMAL,$aXDensity=TICKD_NORMAL) {
$this->xtick_factor=30;
$this->ytick_factor=25;
switch( $aYDensity ) {
case TICKD_DENSE:
$this->ytick_factor=12;
break;
case TICKD_NORMAL:
$this->ytick_factor=25;
break;
case TICKD_SPARSE:
$this->ytick_factor=40;
break;
case TICKD_VERYSPARSE:
$this->ytick_factor=100;
break;
default:
JpGraphError::Raise("JpGraph: Unsupported Tick density: $densy");
}
switch( $aXDensity ) {
case TICKD_DENSE:
$this->xtick_factor=15;
break;
case TICKD_NORMAL:
$this->xtick_factor=30;
break;
case TICKD_SPARSE:
$this->xtick_factor=45;
break;
case TICKD_VERYSPARSE:
$this->xtick_factor=60;
break;
default:
JpGraphError::Raise("JpGraph: Unsupported Tick density: $densx");
}
}
// Get a string of all image map areas
function GetCSIMareas() {
if( !$this->iHasStroked )
$this->Stroke(_CSIM_SPECIALFILE);
$csim=$this->legend->GetCSIMAreas();
$n = count($this->plots);
for( $i=0; $i<$n; ++$i )
$csim .= $this->plots[$i]->GetCSIMareas();
$n = count($this->y2plots);
for( $i=0; $i<$n; ++$i )
$csim .= $this->y2plots[$i]->GetCSIMareas();
return $csim;
}
// Get a complete tag for the final image map
function GetHTMLImageMap($aMapName) {
$im = "";
return $im;
}
function CheckCSIMCache($aCacheName,$aTimeOut=60) {
global $HTTP_SERVER_VARS;
if( $aCacheName=='auto' )
$aCacheName=basename($HTTP_SERVER_VARS['PHP_SELF']);
$this->csimcachename = CSIMCACHE_DIR.$aCacheName;
$this->csimcachetimeout = $aTimeOut;
// First determine if we need to check for a cached version
// This differs from the standard cache in the sense that the
// image and CSIM map HTML file is written relative to the directory
// the script executes in and not the specified cache directory.
// The reason for this is that the cache directory is not necessarily
// accessible from the HTTP server.
if( $this->csimcachename != '' ) {
$dir = dirname($this->csimcachename);
$base = basename($this->csimcachename);
$base = strtok($base,'.');
$suffix = strtok('.');
$basecsim = $dir.'/'.$base.'_csim_.html';
$baseimg = $dir.'/'.$base.'.'.$this->img->img_format;
$timedout=false;
// Does it exist at all ?
if( file_exists($basecsim) && file_exists($baseimg) ) {
// Check that it hasn't timed out
$diff=time()-filemtime($basecsim);
if( $this->csimcachetimeout>0 && ($diff > $this->csimcachetimeout*60) ) {
$timedout=true;
@unlink($basecsim);
@unlink($baseimg);
}
else {
if ($fh = @fopen($basecsim, "r")) {
fpassthru($fh);
exit();
}
else
JpGraphError::Raise(" Can't open cached CSIM \"$basecsim\" for reading.");
}
}
}
return false;
}
function StrokeCSIM($aScriptName='',$aCSIMName='',$aBorder=0) {
GLOBAL $HTTP_GET_VARS;
if( $aCSIMName=='' ) {
// create a random map name
srand ((double) microtime() * 1000000);
$r = rand(0,100000);
$aCSIMName='__mapname'.$r.'__';
}
if( empty($HTTP_GET_VARS[_CSIM_DISPLAY]) ) {
// First determine if we need to check for a cached version
// This differs from the standard cache in the sense that the
// image and CSIM map HTML file is written relative to the directory
// the script executes in and not the specified cache directory.
// The reason for this is that the cache directory is not necessarily
// accessible from the HTTP server.
if( $this->csimcachename != '' ) {
$dir = dirname($this->csimcachename);
$base = basename($this->csimcachename);
$base = strtok($base,'.');
$suffix = strtok('.');
$basecsim = $dir.'/'.$base.'_csim_.html';
$baseimg = $base.'.'.$this->img->img_format;
// Check that apache can write to directory specified
if( file_exists($dir) && !is_writeable($dir) ) {
JpgraphError::Raise('Apache/PHP does not have permission to write to the CSIM cache directory ('.$dir.'). Check permissions.');
}
// Make sure directory exists
$this->cache->MakeDirs($dir);
// Write the image file
$this->Stroke(CSIMCACHE_DIR.$baseimg);
// Construct wrapper HTML and write to file and send it back to browser
$htmlwrap = $this->GetHTMLImageMap($aCSIMName)."\n".
''."\n";
if($fh = @fopen($basecsim,'w') ) {
fwrite($fh,$htmlwrap);
fclose($fh);
echo $htmlwrap;
}
else
JpGraphError::Raise(" Can't write CSIM \"$basecsim\" for writing. Check free space and permissions.");
}
else {
if( $aScriptName=='' ) {
JpGraphError::Raise('Missing script name in call to StrokeCSIM(). You must specify the name of the actual image script as the first parameter to StrokeCSIM().');
exit();
}
// Construct the HTML wrapper page
// Get all user defined URL arguments
reset($HTTP_GET_VARS);
// This is a JPGRAPH internal defined that prevents
// us from recursively coming here again
$urlarg='?'._CSIM_DISPLAY.'=1';
while( list($key,$value) = each($HTTP_GET_VARS) ) {
if( is_array($value) ) {
$n = count($value);
for( $i=0; $i < $n; ++$i ) {
$urlarg .= '&'.$key.'%5B%5D='.urlencode($value[$i]);
}
}
else {
$urlarg .= '&'.$key.'='.urlencode($value);
}
}
echo $this->GetHTMLImageMap($aCSIMName);
echo "";
}
}
else {
$this->Stroke();
}
}
function GetTextsYMinMax() {
$n = count($this->texts);
$min=null;
$max=null;
for( $i=0; $i < $n; ++$i ) {
if( $this->texts[$i]->iScalePosY !== null &&
$this->texts[$i]->iScalePosX !== null ) {
if( $min === null ) {
$min = $max = $this->texts[$i]->iScalePosY ;
}
else {
$min = min($min,$this->texts[$i]->iScalePosY);
$max = max($max,$this->texts[$i]->iScalePosY);
}
}
}
if( $min !== null ) {
return array($min,$max);
}
else
return null;
}
function GetTextsXMinMax() {
$n = count($this->texts);
$min=null;
$max=null;
for( $i=0; $i < $n; ++$i ) {
if( $this->texts[$i]->iScalePosY !== null &&
$this->texts[$i]->iScalePosX !== null ) {
if( $min === null ) {
$min = $max = $this->texts[$i]->iScalePosX ;
}
else {
$min = min($min,$this->texts[$i]->iScalePosX);
$max = max($max,$this->texts[$i]->iScalePosX);
}
}
}
if( $min !== null ) {
return array($min,$max);
}
else
return null;
}
function GetXMinMax() {
list($min,$ymin) = $this->plots[0]->Min();
list($max,$ymax) = $this->plots[0]->Max();
foreach( $this->plots as $p ) {
list($xmin,$ymin) = $p->Min();
list($xmax,$ymax) = $p->Max();
$min = Min($xmin,$min);
$max = Max($xmax,$max);
}
if( $this->y2axis != null ) {
foreach( $this->y2plots as $p ) {
list($xmin,$ymin) = $p->Min();
list($xmax,$ymax) = $p->Max();
$min = Min($xmin,$min);
$max = Max($xmax,$max);
}
}
return array($min,$max);
}
function AdjustMarginsForTitles() {
$totrequired =
($this->title->t != '' ?
$this->title->GetTextHeight($this->img) + $this->title->margin + 5 : 0 ) +
($this->subtitle->t != '' ?
$this->subtitle->GetTextHeight($this->img) + $this->subtitle->margin + 5 : 0 ) +
($this->subsubtitle->t != '' ?
$this->subsubtitle->GetTextHeight($this->img) + $this->subsubtitle->margin + 5 : 0 ) ;
$btotrequired = 0;
if( !$this->xaxis->hide && !$this->xaxis->hide_labels ) {
// Minimum bottom margin
if( $this->xaxis->title->t != '' ) {
if( $this->img->a == 90 )
$btotrequired = $this->yaxis->title->GetTextHeight($this->img) + 5 ;
else
$btotrequired = $this->xaxis->title->GetTextHeight($this->img) + 5 ;
}
else
$btotrequired = 0;
if( $this->img->a == 90 ) {
$this->img->SetFont($this->yaxis->font_family,$this->yaxis->font_style,
$this->yaxis->font_size);
$lh = $this->img->GetTextHeight('Mg',$this->yaxis->label_angle);
}
else {
$this->img->SetFont($this->xaxis->font_family,$this->xaxis->font_style,
$this->xaxis->font_size);
$lh = $this->img->GetTextHeight('Mg',$this->xaxis->label_angle);
}
$btotrequired += $lh + 5;
}
if( $this->img->a == 90 ) {
// DO Nothing. It gets too messy to do this properly for 90 deg...
}
else{
if( $this->img->top_margin < $totrequired ) {
$this->SetMargin($this->img->left_margin,$this->img->right_margin,
$totrequired,$this->img->bottom_margin);
}
if( $this->img->bottom_margin < $btotrequired ) {
$this->SetMargin($this->img->left_margin,$this->img->right_margin,
$this->img->top_margin,$btotrequired);
}
}
}
// Stroke the graph
// $aStrokeFileName If != "" the image will be written to this file and NOT
// streamed back to the browser
function Stroke($aStrokeFileName="") {
// Start by adjusting the margin so that potential titles will fit.
$this->AdjustMarginsForTitles();
// If the filename is the predefined value = '_csim_special_'
// we assume that the call to stroke only needs to do enough
// to correctly generate the CSIM maps.
// We use this variable to skip things we don't strictly need
// to do to generate the image map to improve performance
// a best we can. Therefor you will see a lot of tests !$_csim in the
// code below.
$_csim = ($aStrokeFileName===_CSIM_SPECIALFILE);
// We need to know if we have stroked the plot in the
// GetCSIMareas. Otherwise the CSIM hasn't been generated
// and in the case of GetCSIM called before stroke to generate
// CSIM without storing an image to disk GetCSIM must call Stroke.
$this->iHasStroked = true;
// Do any pre-stroke adjustment that is needed by the different plot types
// (i.e bar plots want's to add an offset to the x-labels etc)
for($i=0; $i
\nYou have either:
\n";
$e .= "1. Specified an Y axis for autoscaling but have not supplied any plots
\n";
$e .= "2. Specified a scale manually but have forgot to specify the tick steps";
JpGraphError::Raise($e);
}
// Bail out if no plots and no specified X-scale
if( (!$this->xscale->IsSpecified() && count($this->plots)==0 && count($this->y2plots)==0) )
JpGraphError::Raise("JpGraph: Can't draw unspecified X-scale.
No plots.
");
//Check if we should autoscale y-axis
if( !$this->yscale->IsSpecified() && count($this->plots)>0 ) {
list($min,$max) = $this->GetPlotsYMinMax($this->plots);
$lres = $this->GetLinesYMinMax($this->lines);
if( $lres ) {
list($linmin,$linmax) = $lres ;
$min = min($min,$linmin);
$max = max($max,$linmax);
}
$tres = $this->GetTextsYMinMax();
if( $tres ) {
list($tmin,$tmax) = $tres ;
$min = min($min,$tmin);
$max = max($max,$tmax);
}
$this->yscale->AutoScale($this->img,$min,$max,
$this->img->plotheight/$this->ytick_factor);
}
elseif( $this->yscale->IsSpecified() &&
( $this->yscale->auto_ticks || !$this->yscale->ticks->IsSpecified()) ) {
// The tick calculation will use the user suplied min/max values to determine
// the ticks. If auto_ticks is false the exact user specifed min and max
// values will be used for the scale.
// If auto_ticks is true then the scale might be slightly adjusted
// so that the min and max values falls on an even major step.
$min = $this->yscale->scale[0];
$max = $this->yscale->scale[1];
$this->yscale->AutoScale($this->img,$min,$max,
$this->img->plotheight/$this->ytick_factor,
$this->yscale->auto_ticks);
}
if( $this->y2scale != null) {
if( !$this->y2scale->IsSpecified() && count($this->y2plots)>0 ) {
list($min,$max) = $this->GetPlotsYMinMax($this->y2plots);
$this->y2scale->AutoScale($this->img,$min,$max,$this->img->plotheight/$this->ytick_factor);
}
elseif( $this->y2scale->IsSpecified() &&
( $this->y2scale->auto_ticks || !$this->y2scale->ticks->IsSpecified()) ) {
// The tick calculation will use the user suplied min/max values to determine
// the ticks. If auto_ticks is false the exact user specifed min and max
// values will be used for the scale.
// If auto_ticks is true then the scale might be slightly adjusted
// so that the min and max values falls on an even major step.
$min = $this->y2scale->scale[0];
$max = $this->y2scale->scale[1];
$this->y2scale->AutoScale($this->img,$min,$max,
$this->img->plotheight/$this->ytick_factor,
$this->y2scale->auto_ticks);
}
}
//Check if we should autoscale x-axis
if( !$this->xscale->IsSpecified() ) {
if( substr($this->axtype,0,4) == "text" ) {
$max=0;
foreach( $this->plots as $p ) {
$max=max($max,$p->numpoints-1);
}
$min=0;
if( $this->y2axis != null ) {
foreach( $this->y2plots as $p ) {
$max=max($max,$p->numpoints-1);
}
}
$this->xscale->Update($this->img,$min,$max);
$this->xscale->ticks->Set($this->xaxis->tick_step,1);
$this->xscale->ticks->SupressMinorTickMarks();
}
else {
list($min,$max) = $this->GetXMinMax();
$lres = $this->GetLinesXMinMax($this->lines);
if( $lres ) {
list($linmin,$linmax) = $lres ;
$min = min($min,$linmin);
$max = max($max,$linmax);
}
$tres = $this->GetTextsXMinMax();
if( $tres ) {
list($tmin,$tmax) = $tres ;
$min = min($min,$tmin);
$max = max($max,$tmax);
}
$this->xscale->AutoScale($this->img,$min,$max,$this->img->plotwidth/$this->xtick_factor);
}
//Adjust position of y-axis and y2-axis to minimum/maximum of x-scale
if( !is_numeric($this->yaxis->pos) && !is_string($this->yaxis->pos) )
$this->yaxis->SetPos($this->xscale->GetMinVal());
if( $this->y2axis != null ) {
if( !is_numeric($this->y2axis->pos) && !is_string($this->y2axis->pos) )
$this->y2axis->SetPos($this->xscale->GetMaxVal());
$this->y2axis->SetTitleSide(SIDE_RIGHT);
}
}
elseif( $this->xscale->IsSpecified() &&
( $this->xscale->auto_ticks || !$this->xscale->ticks->IsSpecified()) ) {
// The tick calculation will use the user suplied min/max values to determine
// the ticks. If auto_ticks is false the exact user specifed min and max
// values will be used for the scale.
// If auto_ticks is true then the scale might be slightly adjusted
// so that the min and max values falls on an even major step.
$min = $this->xscale->scale[0];
$max = $this->xscale->scale[1];
$this->xscale->AutoScale($this->img,$min,$max,
$this->img->plotwidth/$this->xtick_factor,
false);
if( $this->y2axis != null ) {
if( !is_numeric($this->y2axis->pos) && !is_string($this->y2axis->pos) )
$this->y2axis->SetPos($this->xscale->GetMaxVal());
$this->y2axis->SetTitleSide(SIDE_RIGHT);
}
}
// If we have a negative values and x-axis position is at 0
// we need to supress the first and possible the last tick since
// they will be drawn on top of the y-axis (and possible y2 axis)
// The test below might seem strange the reasone being that if
// the user hasn't specified a value for position this will not
// be set until we do the stroke for the axis so as of now it
// is undefined.
// For X-text scale we ignore all this since the tick are usually
// much further in and not close to the Y-axis. Hence the test
// for 'text'
if( ($this->yaxis->pos==$this->xscale->GetMinVal() ||
(is_string($this->yaxis->pos) && $this->yaxis->pos=='min')) &&
!is_numeric($this->xaxis->pos) && $this->yscale->GetMinVal() < 0 &&
substr($this->axtype,0,4) != 'text' && $this->xaxis->pos!="min" ) {
//$this->yscale->ticks->SupressZeroLabel(false);
$this->xscale->ticks->SupressFirst();
if( $this->y2axis != null ) {
$this->xscale->ticks->SupressLast();
}
}
elseif( !is_numeric($this->yaxis->pos) && $this->yaxis->pos=='max' ) {
$this->xscale->ticks->SupressLast();
}
if( !$_csim ) {
$this->StrokePlotArea();
$this->StrokeAxis();
}
// Stroke bands
if( $this->bands != null && !$_csim)
for($i=0; $i
Specified: '".
$aImgFormat."'
File: '".$aFile."'";
JpGraphError::Raise($t);
}
$img = @$f($aFile);
if( !$img ) {
JpGraphError::Raise(" Can't read background image: '".$aFile."'");
}
return $img;
}
function StrokeBackgroundGrad() {
if( $this->bkg_gradtype < 0 )
return;
$grad = new Gradient($this->img);
if( $this->bkg_gradstyle == BGRAD_PLOT ) {
$xl = $this->img->left_margin;
$yt = $this->img->top_margin;
$xr = $xl + $this->img->plotwidth ;
$yb = $yt + $this->img->plotheight ;
}
else {
$xl = 0;
$yt = 0;
$xr = $xl + $this->img->width - 1;
$yb = $yt + $this->img->height - 1;
}
if( $this->doshadow ) {
$xr -= $this->shadow_width;
$yb -= $this->shadow_width;
}
$grad->FilledRectangle($xl,$yt,$xr,$yb,
$this->bkg_gradfrom,$this->bkg_gradto,
$this->bkg_gradtype);
}
function StrokeFrameBackground() {
if( $this->background_image == "" )
return;
$bkgimg = $this->LoadBkgImage($this->background_image_format);
$this->img->_AdjBrightContrast($bkgimg,$this->background_image_bright,
$this->background_image_contr);
$this->img->_AdjSat($bkgimg,$this->background_image_sat);
$bw = ImageSX($bkgimg);
$bh = ImageSY($bkgimg);
// No matter what the angle is we always stroke the image and frame
// assuming it is 0 degree
$aa = $this->img->SetAngle(0);
switch( $this->background_image_type ) {
case BGIMG_FILLPLOT: // Resize to just fill the plotarea
$this->StrokeFrame();
$GLOBALS['copyfunc']($this->img->img,$bkgimg,
$this->img->left_margin,$this->img->top_margin,
0,0,$this->img->plotwidth,$this->img->plotheight,
$bw,$bh);
break;
case BGIMG_FILLFRAME: // Fill the whole area from upper left corner, resize to just fit
$GLOBALS['copyfunc']($this->img->img,$bkgimg,
0,0,0,0,
$this->img->width,$this->img->height,
$bw,$bh);
$this->StrokeFrame();
break;
case BGIMG_COPY: // Just copy the image from left corner, no resizing
$GLOBALS['copyfunc']($this->img->img,$bkgimg,
0,0,0,0,
$bw,$bh,
$bw,$bh);
$this->StrokeFrame();
break;
case BGIMG_CENTER: // Center original image in the plot area
$centerx = round($this->img->plotwidth/2+$this->img->left_margin-$bw/2);
$centery = round($this->img->plotheight/2+$this->img->top_margin-$bh/2);
$GLOBALS['copyfunc']($this->img->img,$bkgimg,
$centerx,$centery,
0,0,
$bw,$bh,
$bw,$bh);
$this->StrokeFrame();
break;
default:
JpGraphError::Raise(" Unknown background image layout");
}
$this->img->SetAngle($aa);
}
// Private
// Draw a frame around the image
function StrokeFrame() {
if( !$this->doframe ) return;
if( $this->background_image_type <= 1 &&
($this->bkg_gradtype < 0 ||
($this->bkg_gradtype > 0 && $this->bkg_gradstyle==BGRAD_PLOT) ) )
$c = $this->margin_color;
else
$c = false;
if( $this->doshadow ) {
$this->img->SetColor($this->frame_color);
$this->img->ShadowRectangle(0,0,$this->img->width,$this->img->height,
$c,$this->shadow_width,$this->shadow_color);
}
elseif( $this->framebevel ) {
if( $c ) {
$this->img->SetColor($this->margin_color);
$this->img->FilledRectangle(0,0,$this->img->width-1,$this->img->height-1);
}
$this->img->Bevel(1,1,$this->img->width-2,$this->img->height-2,
$this->framebeveldepth,
$this->framebevelcolor1,$this->framebevelcolor2);
if( $this->framebevelborder ) {
$this->img->SetColor($this->framebevelbordercolor);
$this->img->Rectangle(0,0,$this->img->width-1,$this->img->height-1);
}
}
else {
$this->img->SetLineWeight($this->frame_weight);
if( $c ) {
$this->img->SetColor($this->margin_color);
$this->img->FilledRectangle(0,0,$this->img->width-1,$this->img->height-1);
}
$this->img->SetColor($this->frame_color);
$this->img->Rectangle(0,0,$this->img->width-1,$this->img->height-1);
}
$this->StrokeBackgroundGrad();
}
// Stroke the plot area with either a solid color or a background image
function StrokePlotArea() {
// Note: To be consistent we really should take a possible shadow
// into account. However, that causes some problem for the LinearScale class
// since in the current design it does not have any links to class Graph which
// means it has no way of compensating for the adjusted plotarea in case of a
// shadow. So, until I redesign LinearScale we can't compensate for this.
// So just set the two adjustment parameters to zero for now.
$boxadj = 0; //$this->doframe ? $this->frame_weight : 0 ;
$adj = 0; //$this->doshadow ? $this->shadow_width : 0 ;
if( $this->background_image != "" ) {
$this->StrokeFrameBackground();
}
else {
$aa = $this->img->SetAngle(0);
$this->StrokeFrame();
if( $this->bkg_gradtype < 0 ||
($this->bkg_gradtype > 0 && $this->bkg_gradstyle==BGRAD_MARGIN ) ) {
$this->img->SetAngle($aa);
$this->img->PushColor($this->plotarea_color);
$this->img->FilledRectangle($this->img->left_margin+$boxadj,
$this->img->top_margin+$boxadj,
$this->img->width-$this->img->right_margin-$adj-2*$boxadj,
$this->img->height-$this->img->bottom_margin-$adj-2*$boxadj);
$this->img->PopColor();
}
}
}
function StrokePlotBox() {
// Should we draw a box around the plot area?
if( $this->boxed ) {
$this->img->SetLineWeight($this->box_weight);
$this->img->SetColor($this->box_color);
$this->img->Rectangle(
$this->img->left_margin,$this->img->top_margin,
$this->img->width-$this->img->right_margin,
$this->img->height-$this->img->bottom_margin);
}
}
function SetTitleBackgroundFillStyle($aStyle,$aColor1='black',$aColor2='white') {
$this->titlebkg_fillstyle = $aStyle;
$this->titlebkg_scolor1 = $aColor1;
$this->titlebkg_scolor2 = $aColor2;
}
function SetTitleBackground($aBackColor='gray', $aStyle=TITLEBKG_STYLE1, $aFrameStyle=TITLEBKG_FRAME_NONE, $aFrameColor='black', $aFrameWeight=1, $aBevelHeight=3, $aEnable=true) {
$this->titlebackground = $aEnable;
$this->titlebackground_color = $aBackColor;
$this->titlebackground_style = $aStyle;
$this->titlebackground_framecolor = $aFrameColor;
$this->titlebackground_framestyle = $aFrameStyle;
$this->titlebackground_frameweight = $aFrameWeight;
$this->titlebackground_bevelheight = $aBevelHeight ;
}
function StrokeTitles() {
$margin=3;
if( $this->titlebackground ) {
// Find out height
$this->title->margin += 2 ;
$h = $this->title->GetTextHeight($this->img)+$this->title->margin+$margin;
if( $this->subtitle->t != "" && !$this->subtitle->hide ) {
$h += $this->subtitle->GetTextHeight($this->img)+$margin+
$this->subtitle->margin;
}
if( $this->subsubtitle->t != "" && !$this->subsubtitle->hide ) {
$h += $this->subsubtitle->GetTextHeight($this->img)+$margin+
$this->subsubtitle->margin;
}
$this->img->PushColor($this->titlebackground_color);
if( $this->titlebackground_style === 1 ) {
// Inside the frame
if( $this->framebevel ) {
$x1 = $y1 = $this->framebeveldepth + 1 ;
$x2 = $this->img->width - $this->framebeveldepth - 2 ;
$this->title->margin += $this->framebeveldepth + 1 ;
$h += $y1 ;
}
else {
$x1 = $y1 = $this->frame_weight;
$x2 = $this->img->width - 2*$x1;
}
}
elseif( $this->titlebackground_style === 2 ) {
// Cover the frame as well
$x1 = $y1 = 0;
$x2 = $this->img->width - 1 ;
}
elseif( $this->titlebackground_style === 3) {
// Cover the frame as well (the difference is that
// for style==3 a bevel frame border is on top
// of the title background)
$x1 = $y1 = 0;
$x2 = $this->img->width - 1 ;
$h += $this->framebeveldepth ;
$this->title->margin += $this->framebeveldepth ;
}
else {
JpGraphError::Raise('Unknown title background style.');
}
if( $this->titlebackground_framestyle === 3 ) {
$h += $this->titlebackground_bevelheight*2 + 1 ;
$this->title->margin += $this->titlebackground_bevelheight ;
}
if( $this->doshadow ) {
$x2 -= $this->shadow_width ;
}
if( $this->titlebkg_fillstyle==TITLEBKG_FILLSTYLE_HSTRIPED ) {
$this->img->FilledRectangle2($x1,$y1,$x2,$h,
$this->titlebkg_scolor1,
$this->titlebkg_scolor2);
}
elseif( $this->titlebkg_fillstyle==TITLEBKG_FILLSTYLE_VSTRIPED ) {
$this->img->FilledRectangle2($x1,$y1,$x2,$h,
$this->titlebkg_scolor1,
$this->titlebkg_scolor2,2);
}
else {
// Solid fill
$this->img->FilledRectangle($x1,$y1,$x2,$h);
}
$this->img->PopColor();
$this->img->PushColor($this->titlebackground_framecolor);
$this->img->SetLineWeight($this->titlebackground_frameweight);
if( $this->titlebackground_framestyle == 1 ) {
// Frame background
$this->img->Rectangle($x1,$y1,$x2,$h);
}
elseif( $this->titlebackground_framestyle == 2 ) {
// Bottom line only
$this->img->Line($x1,$h,$x2,$h);
}
elseif( $this->titlebackground_framestyle == 3 ) {
$this->img->Bevel($x1,$y1,$x2,$h,$this->titlebackground_bevelheight);
}
$this->img->PopColor();
// This is clumsy. But we neeed to stroke the whole graph frame if it is
// set to bevel to get the bevel shading on top of the text background
if( $this->framebevel && $this->doframe &&
$this->titlebackground_style === 3 ) {
$this->img->Bevel(1,1,$this->img->width-2,$this->img->height-2,
$this->framebeveldepth,
$this->framebevelcolor1,$this->framebevelcolor2);
if( $this->framebevelborder ) {
$this->img->SetColor($this->framebevelbordercolor);
$this->img->Rectangle(0,0,$this->img->width-1,$this->img->height-1);
}
}
}
// Stroke title
$y = $this->title->margin;
$this->title->Center(0,$this->img->width,$y);
$this->title->Stroke($this->img);
// ... and subtitle
$y += $this->title->GetTextHeight($this->img) + $margin + $this->subtitle->margin;
$this->subtitle->Center(0,$this->img->width,$y);
$this->subtitle->Stroke($this->img);
// ... and subsubtitle
$y += $this->subtitle->GetTextHeight($this->img) + $margin + $this->subsubtitle->margin;
$this->subsubtitle->Center(0,$this->img->width,$y);
$this->subsubtitle->Stroke($this->img);
// ... and fancy title
$this->tabtitle->Stroke($this->img);
}
function StrokeTexts() {
// Stroke any user added text objects
if( $this->texts != null ) {
for($i=0; $i
You have unfortunately stumbled upon a bug in JpGraph.
It seems like the scale range is ".$this->world_size." [for ".
$this->type." scale]
Please report Bug #01 to jpgraph@aditus.nu and include the script
that gave this error.
This problem could potentially be caused by trying to use \"illegal\"
values in the input data arrays (like trying to send in strings or
only NULL values) which causes the autoscaling to fail.");
}
// scale_factor = number of pixels per world unit
$this->scale_factor=$this->world_abs_size/($this->world_size*1.0);
// scale_abs = start and end points of scale in absolute pixels
$this->scale_abs=array($this->off,$this->off+$this->world_size*$this->scale_factor);
}
// Calculate number of ticks steps with a specific division
// $a is the divisor of 10**x to generate the first maj tick intervall
// $a=1, $b=2 give major ticks with multiple of 10, ...,0.1,1,10,...
// $a=5, $b=2 give major ticks with multiple of 2:s ...,0.2,2,20,...
// $a=2, $b=5 give major ticks with multiple of 5:s ...,0.5,5,50,...
// We return a vector of
// [$numsteps,$adjmin,$adjmax,$minstep,$majstep]
// If $majend==true then the first and last marks on the axis will be major
// labeled tick marks otherwise it will be adjusted to the closest min tick mark
function CalcTicks($maxsteps,$min,$max,$a,$b,$majend=true) {
$diff=$max-$min;
if( $diff==0 )
$ld=0;
else
$ld=floor(log10($diff));
// Gravitate min towards zero if we are close
if( $min>0 && $min < pow(10,$ld) ) $min=0;
//$majstep=pow(10,$ld-1)/$a;
$majstep=pow(10,$ld)/$a;
$minstep=$majstep/$b;
$adjmax=ceil($max/$minstep)*$minstep;
$adjmin=floor($min/$minstep)*$minstep;
$adjdiff = $adjmax-$adjmin;
$numsteps=$adjdiff/$majstep;
while( $numsteps>$maxsteps ) {
$majstep=pow(10,$ld)/$a;
$numsteps=$adjdiff/$majstep;
++$ld;
}
$minstep=$majstep/$b;
$adjmin=floor($min/$minstep)*$minstep;
$adjdiff = $adjmax-$adjmin;
if( $majend ) {
$adjmin = floor($min/$majstep)*$majstep;
$adjdiff = $adjmax-$adjmin;
$adjmax = ceil($adjdiff/$majstep)*$majstep+$adjmin;
}
else
$adjmax=ceil($max/$minstep)*$minstep;
return array($numsteps,$adjmin,$adjmax,$minstep,$majstep);
}
function CalcTicksFreeze($maxsteps,$min,$max,$a,$b) {
// Same as CalcTicks but don't adjust min/max values
$diff=$max-$min;
if( $diff==0 )
$ld=0;
else
$ld=floor(log10($diff));
//$majstep=pow(10,$ld-1)/$a;
$majstep=pow(10,$ld)/$a;
$minstep=$majstep/$b;
$numsteps=floor($diff/$majstep);
while( $numsteps > $maxsteps ) {
$majstep=pow(10,$ld)/$a;
$numsteps=floor($diff/$majstep);
++$ld;
}
$minstep=$majstep/$b;
return array($numsteps,$minstep,$majstep);
}
function IntCalcTicks($maxsteps,$min,$max,$a,$majend=true) {
$diff=$max-$min;
if( $diff==0 )
JpGraphError::Raise('Can\'t automatically determine ticks since min==max.');
else
$ld=floor(log10($diff));
// Gravitate min towards zero if we are close
if( $min>0 && $min < pow(10,$ld) ) $min=0;
if( $ld == 0 ) $ld=1;
if( $a == 1 )
$majstep = 1;
else
$majstep=pow(10,$ld)/$a;
$adjmax=ceil($max/$majstep)*$majstep;
$adjmin=floor($min/$majstep)*$majstep;
$adjdiff = $adjmax-$adjmin;
$numsteps=$adjdiff/$majstep;
while( $numsteps>$maxsteps ) {
$majstep=pow(10,$ld)/$a;
$numsteps=$adjdiff/$majstep;
++$ld;
}
$adjmin=floor($min/$majstep)*$majstep;
$adjdiff = $adjmax-$adjmin;
if( $majend ) {
$adjmin = floor($min/$majstep)*$majstep;
$adjdiff = $adjmax-$adjmin;
$adjmax = ceil($adjdiff/$majstep)*$majstep+$adjmin;
}
else
$adjmax=ceil($max/$majstep)*$majstep;
return array($numsteps,$adjmin,$adjmax,$majstep);
}
function IntCalcTicksFreeze($maxsteps,$min,$max,$a) {
// Same as IntCalcTick but don't change min/max values
$diff=$max-$min;
if( $diff==0 )
JpGraphError::Raise('Can\'t automatically determine ticks since min==max.');
else
$ld=floor(log10($diff));
if( $ld == 0 ) $ld=1;
if( $a == 1 )
$majstep = 1;
else
$majstep=pow(10,$ld)/$a;
$numsteps=floor($diff/$majstep);
while( $numsteps > $maxsteps ) {
$majstep=pow(10,$ld)/$a;
$numsteps=floor($diff/$majstep);
++$ld;
}
return array($numsteps,$majstep);
}
// Determine the minimum of three values witha weight for last value
function MatchMin3($a,$b,$c,$weight) {
if( $a < $b ) {
if( $a < ($c*$weight) )
return 1; // $a smallest
else
return 3; // $c smallest
}
elseif( $b < ($c*$weight) )
return 2; // $b smallest
return 3; // $c smallest
}
} // Class
//===================================================
// CLASS RGB
// Description: Color definitions as RGB triples
//===================================================
class RGB {
var $rgb_table;
var $img;
function RGB($aImg=null) {
$this->img = $aImg;
// Conversion array between color names and RGB
$this->rgb_table = array(
"aqua"=> array(0,255,255),
"lime"=> array(0,255,0),
"teal"=> array(0,128,128),
"whitesmoke"=>array(245,245,245),
"gainsboro"=>array(220,220,220),
"oldlace"=>array(253,245,230),
"linen"=>array(250,240,230),
"antiquewhite"=>array(250,235,215),
"papayawhip"=>array(255,239,213),
"blanchedalmond"=>array(255,235,205),
"bisque"=>array(255,228,196),
"peachpuff"=>array(255,218,185),
"navajowhite"=>array(255,222,173),
"moccasin"=>array(255,228,181),
"cornsilk"=>array(255,248,220),
"ivory"=>array(255,255,240),
"lemonchiffon"=>array(255,250,205),
"seashell"=>array(255,245,238),
"mintcream"=>array(245,255,250),
"azure"=>array(240,255,255),
"aliceblue"=>array(240,248,255),
"lavender"=>array(230,230,250),
"lavenderblush"=>array(255,240,245),
"mistyrose"=>array(255,228,225),
"white"=>array(255,255,255),
"black"=>array(0,0,0),
"darkslategray"=>array(47,79,79),
"dimgray"=>array(105,105,105),
"slategray"=>array(112,128,144),
"lightslategray"=>array(119,136,153),
"gray"=>array(190,190,190),
"lightgray"=>array(211,211,211),
"midnightblue"=>array(25,25,112),
"navy"=>array(0,0,128),
"cornflowerblue"=>array(100,149,237),
"darkslateblue"=>array(72,61,139),
"slateblue"=>array(106,90,205),
"mediumslateblue"=>array(123,104,238),
"lightslateblue"=>array(132,112,255),
"mediumblue"=>array(0,0,205),
"royalblue"=>array(65,105,225),
"blue"=>array(0,0,255),
"dodgerblue"=>array(30,144,255),
"deepskyblue"=>array(0,191,255),
"skyblue"=>array(135,206,235),
"lightskyblue"=>array(135,206,250),
"steelblue"=>array(70,130,180),
"lightred"=>array(211,167,168),
"lightsteelblue"=>array(176,196,222),
"lightblue"=>array(173,216,230),
"powderblue"=>array(176,224,230),
"paleturquoise"=>array(175,238,238),
"darkturquoise"=>array(0,206,209),
"mediumturquoise"=>array(72,209,204),
"turquoise"=>array(64,224,208),
"cyan"=>array(0,255,255),
"lightcyan"=>array(224,255,255),
"cadetblue"=>array(95,158,160),
"mediumaquamarine"=>array(102,205,170),
"aquamarine"=>array(127,255,212),
"darkgreen"=>array(0,100,0),
"darkolivegreen"=>array(85,107,47),
"darkseagreen"=>array(143,188,143),
"seagreen"=>array(46,139,87),
"mediumseagreen"=>array(60,179,113),
"lightseagreen"=>array(32,178,170),
"palegreen"=>array(152,251,152),
"springgreen"=>array(0,255,127),
"lawngreen"=>array(124,252,0),
"green"=>array(0,255,0),
"chartreuse"=>array(127,255,0),
"mediumspringgreen"=>array(0,250,154),
"greenyellow"=>array(173,255,47),
"limegreen"=>array(50,205,50),
"yellowgreen"=>array(154,205,50),
"forestgreen"=>array(34,139,34),
"olivedrab"=>array(107,142,35),
"darkkhaki"=>array(189,183,107),
"khaki"=>array(240,230,140),
"palegoldenrod"=>array(238,232,170),
"lightgoldenrodyellow"=>array(250,250,210),
"lightyellow"=>array(255,255,200),
"yellow"=>array(255,255,0),
"gold"=>array(255,215,0),
"lightgoldenrod"=>array(238,221,130),
"goldenrod"=>array(218,165,32),
"darkgoldenrod"=>array(184,134,11),
"rosybrown"=>array(188,143,143),
"indianred"=>array(205,92,92),
"saddlebrown"=>array(139,69,19),
"sienna"=>array(160,82,45),
"peru"=>array(205,133,63),
"burlywood"=>array(222,184,135),
"beige"=>array(245,245,220),
"wheat"=>array(245,222,179),
"sandybrown"=>array(244,164,96),
"tan"=>array(210,180,140),
"chocolate"=>array(210,105,30),
"firebrick"=>array(178,34,34),
"brown"=>array(165,42,42),
"darksalmon"=>array(233,150,122),
"salmon"=>array(250,128,114),
"lightsalmon"=>array(255,160,122),
"orange"=>array(255,165,0),
"darkorange"=>array(255,140,0),
"coral"=>array(255,127,80),
"lightcoral"=>array(240,128,128),
"tomato"=>array(255,99,71),
"orangered"=>array(255,69,0),
"red"=>array(255,0,0),
"hotpink"=>array(255,105,180),
"deeppink"=>array(255,20,147),
"pink"=>array(255,192,203),
"lightpink"=>array(255,182,193),
"palevioletred"=>array(219,112,147),
"maroon"=>array(176,48,96),
"mediumvioletred"=>array(199,21,133),
"violetred"=>array(208,32,144),
"magenta"=>array(255,0,255),
"violet"=>array(238,130,238),
"plum"=>array(221,160,221),
"orchid"=>array(218,112,214),
"mediumorchid"=>array(186,85,211),
"darkorchid"=>array(153,50,204),
"darkviolet"=>array(148,0,211),
"blueviolet"=>array(138,43,226),
"purple"=>array(160,32,240),
"mediumpurple"=>array(147,112,219),
"thistle"=>array(216,191,216),
"snow1"=>array(255,250,250),
"snow2"=>array(238,233,233),
"snow3"=>array(205,201,201),
"snow4"=>array(139,137,137),
"seashell1"=>array(255,245,238),
"seashell2"=>array(238,229,222),
"seashell3"=>array(205,197,191),
"seashell4"=>array(139,134,130),
"AntiqueWhite1"=>array(255,239,219),
"AntiqueWhite2"=>array(238,223,204),
"AntiqueWhite3"=>array(205,192,176),
"AntiqueWhite4"=>array(139,131,120),
"bisque1"=>array(255,228,196),
"bisque2"=>array(238,213,183),
"bisque3"=>array(205,183,158),
"bisque4"=>array(139,125,107),
"peachPuff1"=>array(255,218,185),
"peachpuff2"=>array(238,203,173),
"peachpuff3"=>array(205,175,149),
"peachpuff4"=>array(139,119,101),
"navajowhite1"=>array(255,222,173),
"navajowhite2"=>array(238,207,161),
"navajowhite3"=>array(205,179,139),
"navajowhite4"=>array(139,121,94),
"lemonchiffon1"=>array(255,250,205),
"lemonchiffon2"=>array(238,233,191),
"lemonchiffon3"=>array(205,201,165),
"lemonchiffon4"=>array(139,137,112),
"ivory1"=>array(255,255,240),
"ivory2"=>array(238,238,224),
"ivory3"=>array(205,205,193),
"ivory4"=>array(139,139,131),
"honeydew"=>array(193,205,193),
"lavenderblush1"=>array(255,240,245),
"lavenderblush2"=>array(238,224,229),
"lavenderblush3"=>array(205,193,197),
"lavenderblush4"=>array(139,131,134),
"mistyrose1"=>array(255,228,225),
"mistyrose2"=>array(238,213,210),
"mistyrose3"=>array(205,183,181),
"mistyrose4"=>array(139,125,123),
"azure1"=>array(240,255,255),
"azure2"=>array(224,238,238),
"azure3"=>array(193,205,205),
"azure4"=>array(131,139,139),
"slateblue1"=>array(131,111,255),
"slateblue2"=>array(122,103,238),
"slateblue3"=>array(105,89,205),
"slateblue4"=>array(71,60,139),
"royalblue1"=>array(72,118,255),
"royalblue2"=>array(67,110,238),
"royalblue3"=>array(58,95,205),
"royalblue4"=>array(39,64,139),
"dodgerblue1"=>array(30,144,255),
"dodgerblue2"=>array(28,134,238),
"dodgerblue3"=>array(24,116,205),
"dodgerblue4"=>array(16,78,139),
"steelblue1"=>array(99,184,255),
"steelblue2"=>array(92,172,238),
"steelblue3"=>array(79,148,205),
"steelblue4"=>array(54,100,139),
"deepskyblue1"=>array(0,191,255),
"deepskyblue2"=>array(0,178,238),
"deepskyblue3"=>array(0,154,205),
"deepskyblue4"=>array(0,104,139),
"skyblue1"=>array(135,206,255),
"skyblue2"=>array(126,192,238),
"skyblue3"=>array(108,166,205),
"skyblue4"=>array(74,112,139),
"lightskyblue1"=>array(176,226,255),
"lightskyblue2"=>array(164,211,238),
"lightskyblue3"=>array(141,182,205),
"lightskyblue4"=>array(96,123,139),
"slategray1"=>array(198,226,255),
"slategray2"=>array(185,211,238),
"slategray3"=>array(159,182,205),
"slategray4"=>array(108,123,139),
"lightsteelblue1"=>array(202,225,255),
"lightsteelblue2"=>array(188,210,238),
"lightsteelblue3"=>array(162,181,205),
"lightsteelblue4"=>array(110,123,139),
"lightblue1"=>array(191,239,255),
"lightblue2"=>array(178,223,238),
"lightblue3"=>array(154,192,205),
"lightblue4"=>array(104,131,139),
"lightcyan1"=>array(224,255,255),
"lightcyan2"=>array(209,238,238),
"lightcyan3"=>array(180,205,205),
"lightcyan4"=>array(122,139,139),
"paleturquoise1"=>array(187,255,255),
"paleturquoise2"=>array(174,238,238),
"paleturquoise3"=>array(150,205,205),
"paleturquoise4"=>array(102,139,139),
"cadetblue1"=>array(152,245,255),
"cadetblue2"=>array(142,229,238),
"cadetblue3"=>array(122,197,205),
"cadetblue4"=>array(83,134,139),
"turquoise1"=>array(0,245,255),
"turquoise2"=>array(0,229,238),
"turquoise3"=>array(0,197,205),
"turquoise4"=>array(0,134,139),
"cyan1"=>array(0,255,255),
"cyan2"=>array(0,238,238),
"cyan3"=>array(0,205,205),
"cyan4"=>array(0,139,139),
"darkslategray1"=>array(151,255,255),
"darkslategray2"=>array(141,238,238),
"darkslategray3"=>array(121,205,205),
"darkslategray4"=>array(82,139,139),
"aquamarine1"=>array(127,255,212),
"aquamarine2"=>array(118,238,198),
"aquamarine3"=>array(102,205,170),
"aquamarine4"=>array(69,139,116),
"darkseagreen1"=>array(193,255,193),
"darkseagreen2"=>array(180,238,180),
"darkseagreen3"=>array(155,205,155),
"darkseagreen4"=>array(105,139,105),
"seagreen1"=>array(84,255,159),
"seagreen2"=>array(78,238,148),
"seagreen3"=>array(67,205,128),
"seagreen4"=>array(46,139,87),
"palegreen1"=>array(154,255,154),
"palegreen2"=>array(144,238,144),
"palegreen3"=>array(124,205,124),
"palegreen4"=>array(84,139,84),
"springgreen1"=>array(0,255,127),
"springgreen2"=>array(0,238,118),
"springgreen3"=>array(0,205,102),
"springgreen4"=>array(0,139,69),
"chartreuse1"=>array(127,255,0),
"chartreuse2"=>array(118,238,0),
"chartreuse3"=>array(102,205,0),
"chartreuse4"=>array(69,139,0),
"olivedrab1"=>array(192,255,62),
"olivedrab2"=>array(179,238,58),
"olivedrab3"=>array(154,205,50),
"olivedrab4"=>array(105,139,34),
"darkolivegreen1"=>array(202,255,112),
"darkolivegreen2"=>array(188,238,104),
"darkolivegreen3"=>array(162,205,90),
"darkolivegreen4"=>array(110,139,61),
"khaki1"=>array(255,246,143),
"khaki2"=>array(238,230,133),
"khaki3"=>array(205,198,115),
"khaki4"=>array(139,134,78),
"lightgoldenrod1"=>array(255,236,139),
"lightgoldenrod2"=>array(238,220,130),
"lightgoldenrod3"=>array(205,190,112),
"lightgoldenrod4"=>array(139,129,76),
"yellow1"=>array(255,255,0),
"yellow2"=>array(238,238,0),
"yellow3"=>array(205,205,0),
"yellow4"=>array(139,139,0),
"gold1"=>array(255,215,0),
"gold2"=>array(238,201,0),
"gold3"=>array(205,173,0),
"gold4"=>array(139,117,0),
"goldenrod1"=>array(255,193,37),
"goldenrod2"=>array(238,180,34),
"goldenrod3"=>array(205,155,29),
"goldenrod4"=>array(139,105,20),
"darkgoldenrod1"=>array(255,185,15),
"darkgoldenrod2"=>array(238,173,14),
"darkgoldenrod3"=>array(205,149,12),
"darkgoldenrod4"=>array(139,101,8),
"rosybrown1"=>array(255,193,193),
"rosybrown2"=>array(238,180,180),
"rosybrown3"=>array(205,155,155),
"rosybrown4"=>array(139,105,105),
"indianred1"=>array(255,106,106),
"indianred2"=>array(238,99,99),
"indianred3"=>array(205,85,85),
"indianred4"=>array(139,58,58),
"sienna1"=>array(255,130,71),
"sienna2"=>array(238,121,66),
"sienna3"=>array(205,104,57),
"sienna4"=>array(139,71,38),
"burlywood1"=>array(255,211,155),
"burlywood2"=>array(238,197,145),
"burlywood3"=>array(205,170,125),
"burlywood4"=>array(139,115,85),
"wheat1"=>array(255,231,186),
"wheat2"=>array(238,216,174),
"wheat3"=>array(205,186,150),
"wheat4"=>array(139,126,102),
"tan1"=>array(255,165,79),
"tan2"=>array(238,154,73),
"tan3"=>array(205,133,63),
"tan4"=>array(139,90,43),
"chocolate1"=>array(255,127,36),
"chocolate2"=>array(238,118,33),
"chocolate3"=>array(205,102,29),
"chocolate4"=>array(139,69,19),
"firebrick1"=>array(255,48,48),
"firebrick2"=>array(238,44,44),
"firebrick3"=>array(205,38,38),
"firebrick4"=>array(139,26,26),
"brown1"=>array(255,64,64),
"brown2"=>array(238,59,59),
"brown3"=>array(205,51,51),
"brown4"=>array(139,35,35),
"salmon1"=>array(255,140,105),
"salmon2"=>array(238,130,98),
"salmon3"=>array(205,112,84),
"salmon4"=>array(139,76,57),
"lightsalmon1"=>array(255,160,122),
"lightsalmon2"=>array(238,149,114),
"lightsalmon3"=>array(205,129,98),
"lightsalmon4"=>array(139,87,66),
"orange1"=>array(255,165,0),
"orange2"=>array(238,154,0),
"orange3"=>array(205,133,0),
"orange4"=>array(139,90,0),
"darkorange1"=>array(255,127,0),
"darkorange2"=>array(238,118,0),
"darkorange3"=>array(205,102,0),
"darkorange4"=>array(139,69,0),
"coral1"=>array(255,114,86),
"coral2"=>array(238,106,80),
"coral3"=>array(205,91,69),
"coral4"=>array(139,62,47),
"tomato1"=>array(255,99,71),
"tomato2"=>array(238,92,66),
"tomato3"=>array(205,79,57),
"tomato4"=>array(139,54,38),
"orangered1"=>array(255,69,0),
"orangered2"=>array(238,64,0),
"orangered3"=>array(205,55,0),
"orangered4"=>array(139,37,0),
"deeppink1"=>array(255,20,147),
"deeppink2"=>array(238,18,137),
"deeppink3"=>array(205,16,118),
"deeppink4"=>array(139,10,80),
"hotpink1"=>array(255,110,180),
"hotpink2"=>array(238,106,167),
"hotpink3"=>array(205,96,144),
"hotpink4"=>array(139,58,98),
"pink1"=>array(255,181,197),
"pink2"=>array(238,169,184),
"pink3"=>array(205,145,158),
"pink4"=>array(139,99,108),
"lightpink1"=>array(255,174,185),
"lightpink2"=>array(238,162,173),
"lightpink3"=>array(205,140,149),
"lightpink4"=>array(139,95,101),
"palevioletred1"=>array(255,130,171),
"palevioletred2"=>array(238,121,159),
"palevioletred3"=>array(205,104,137),
"palevioletred4"=>array(139,71,93),
"maroon1"=>array(255,52,179),
"maroon2"=>array(238,48,167),
"maroon3"=>array(205,41,144),
"maroon4"=>array(139,28,98),
"violetred1"=>array(255,62,150),
"violetred2"=>array(238,58,140),
"violetred3"=>array(205,50,120),
"violetred4"=>array(139,34,82),
"magenta1"=>array(255,0,255),
"magenta2"=>array(238,0,238),
"magenta3"=>array(205,0,205),
"magenta4"=>array(139,0,139),
"mediumred"=>array(140,34,34),
"orchid1"=>array(255,131,250),
"orchid2"=>array(238,122,233),
"orchid3"=>array(205,105,201),
"orchid4"=>array(139,71,137),
"plum1"=>array(255,187,255),
"plum2"=>array(238,174,238),
"plum3"=>array(205,150,205),
"plum4"=>array(139,102,139),
"mediumorchid1"=>array(224,102,255),
"mediumorchid2"=>array(209,95,238),
"mediumorchid3"=>array(180,82,205),
"mediumorchid4"=>array(122,55,139),
"darkorchid1"=>array(191,62,255),
"darkorchid2"=>array(178,58,238),
"darkorchid3"=>array(154,50,205),
"darkorchid4"=>array(104,34,139),
"purple1"=>array(155,48,255),
"purple2"=>array(145,44,238),
"purple3"=>array(125,38,205),
"purple4"=>array(85,26,139),
"mediumpurple1"=>array(171,130,255),
"mediumpurple2"=>array(159,121,238),
"mediumpurple3"=>array(137,104,205),
"mediumpurple4"=>array(93,71,139),
"thistle1"=>array(255,225,255),
"thistle2"=>array(238,210,238),
"thistle3"=>array(205,181,205),
"thistle4"=>array(139,123,139),
"gray1"=>array(10,10,10),
"gray2"=>array(40,40,30),
"gray3"=>array(70,70,70),
"gray4"=>array(100,100,100),
"gray5"=>array(130,130,130),
"gray6"=>array(160,160,160),
"gray7"=>array(190,190,190),
"gray8"=>array(210,210,210),
"gray9"=>array(240,240,240),
"darkgray"=>array(100,100,100),
"darkblue"=>array(0,0,139),
"darkcyan"=>array(0,139,139),
"darkmagenta"=>array(139,0,139),
"darkred"=>array(139,0,0),
"silver"=>array(192, 192, 192),
"eggplant"=>array(144,176,168),
"lightgreen"=>array(144,238,144));
}
//----------------
// PUBLIC METHODS
// Colors can be specified as either
// 1. #xxxxxx HTML style
// 2. "colorname" as a named color
// 3. array(r,g,b) RGB triple
// This function translates this to a native RGB format and returns an
// RGB triple.
function Color($aColor) {
if (is_string($aColor)) {
// Strip of any alpha factor
$pos = strpos($aColor,'@');
if( $pos === false ) {
$alpha = 0;
}
else {
$pos2 = strpos($aColor,':');
if( $pos2===false )
$pos2 = $pos-1; // Sentinel
if( $pos > $pos2 ) {
$alpha = substr($aColor,$pos+1);
$aColor = substr($aColor,0,$pos);
}
else {
$alpha = substr($aColor,$pos+1,$pos2-$pos-1);
$aColor = substr($aColor,0,$pos).substr($aColor,$pos2);
}
}
// Extract potential adjustment figure at end of color
// specification
$pos = strpos($aColor,":");
if( $pos === false ) {
$adj = 1.0;
}
else {
$adj = 0.0 + substr($aColor,$pos+1);
$aColor = substr($aColor,0,$pos);
}
if( $adj < 0 )
JpGraphError::Raise('Adjustment factor for color must be > 0');
if (substr($aColor, 0, 1) == "#") {
$r = hexdec(substr($aColor, 1, 2));
$g = hexdec(substr($aColor, 3, 2));
$b = hexdec(substr($aColor, 5, 2));
} else {
if(!isset($this->rgb_table[$aColor]) )
JpGraphError::Raise(" Unknown color: $aColor");
$tmp=$this->rgb_table[$aColor];
$r = $tmp[0];
$g = $tmp[1];
$b = $tmp[2];
}
// Scale adj so that an adj=2 always
// makes the color 100% white (i.e. 255,255,255.
// and adj=1 neutral and adj=0 black.
if( $adj > 1 ) {
$m = ($adj-1.0)*(255-min(255,min($r,min($g,$b))));
return array(min(255,$r+$m), min(255,$g+$m), min(255,$b+$m),$alpha);
}
elseif( $adj < 1 ) {
$m = ($adj-1.0)*max(255,max($r,max($g,$b)));
return array(max(0,$r+$m), max(0,$g+$m), max(0,$b+$m),$alpha);
}
else {
return array($r,$g,$b,$alpha);
}
} elseif( is_array($aColor) ) {
if( count($aColor)==3 ) {
$aColor[3]=0;
return $aColor;
}
else
return $aColor;
}
else
JpGraphError::Raise(" Unknown color specification: $aColor , size=".count($aColor));
}
// Compare two colors
// return true if equal
function Equal($aCol1,$aCol2) {
$c1 = $this->Color($aCol1);
$c2 = $this->Color($aCol2);
if( $c1[0]==$c2[0] && $c1[1]==$c2[1] && $c1[2]==$c2[2] )
return true;
else
return false;
}
// Allocate a new color in the current image
// Return new color index, -1 if no more colors could be allocated
function Allocate($aColor,$aAlpha=0.0) {
list ($r, $g, $b, $a) = $this->color($aColor);
// If alpha is specified in the color string then this
// takes precedence over the second argument
if( $a > 0 )
$aAlpha = $a;
if(@$GLOBALS['gd2']==true) {
if( $aAlpha < 0 || $aAlpha > 1 ) {
JpGraphError::Raise('Alpha parameter for color must be between 0.0 and 1.0');
exit(1);
}
return imagecolorresolvealpha($this->img, $r, $g, $b, round($aAlpha * 127));
} else {
$index = imagecolorexact($this->img, $r, $g, $b);
if ($index == -1) {
$index = imagecolorallocate($this->img, $r, $g, $b);
if( USE_APPROX_COLORS && $index == -1 )
$index = imagecolorresolve($this->img, $r, $g, $b);
}
return $index;
}
}
} // Class
//===================================================
// CLASS Image
// Description: Wrapper class with some goodies to form the
// Interface to low level image drawing routines.
//===================================================
class Image {
var $img_format;
var $expired=true;
var $img;
var $left_margin=30,$right_margin=30,$top_margin=20,$bottom_margin=30;
var $plotwidth=0,$plotheight=0;
var $rgb=null;
var $current_color,$current_color_name;
var $lastx=0, $lasty=0;
var $width, $height;
var $line_weight=1;
var $line_style=1; // Default line style is solid
var $obs_list=array();
var $font_size=12,$font_family=FF_FONT1, $font_style=FS_NORMAL;
var $font_file='';
var $text_halign="left",$text_valign="bottom";
var $ttf=null;
var $use_anti_aliasing=false;
var $quality=null;
var $colorstack=array(),$colorstackidx=0;
var $canvascolor = 'white' ;
var $langconv = null ;
//---------------
// CONSTRUCTOR
function Image($aWidth,$aHeight,$aFormat=DEFAULT_GFORMAT) {
$this->CreateImgCanvas($aWidth,$aHeight);
$this->SetAutoMargin();
if( !$this->SetImgFormat($aFormat) ) {
JpGraphError::Raise("JpGraph: Selected graphic format is either not supported or unknown [$aFormat]");
}
$this->ttf = new TTF();
$this->langconv = new LanguageConv();
}
// Should we use anti-aliasing. Note: This really slows down graphics!
function SetAntiAliasing() {
$this->use_anti_aliasing=true;
}
function CreateRawCanvas($aWidth=0,$aHeight=0) {
if( @$GLOBALS['gd2']==true && USE_TRUECOLOR ) {
$this->img = @imagecreatetruecolor($aWidth, $aHeight);
if( $this->img < 1 ) {
die("JpGraph Error: Can't create truecolor image. Check that you really have GD2 library installed.");
}
$this->SetAlphaBlending();
} else {
$this->img = @imagecreate($aWidth, $aHeight);
if( $this->img < 1 ) {
die("JpGraph Error: Can't create image. Check that you really have the GD library installed.");
}
}
if( $this->rgb != null )
$this->rgb->img = $this->img ;
else
$this->rgb = new RGB($this->img);
}
function CloneCanvasH() {
$oldimage = $this->img;
$this->CreateRawCanvas($this->width,$this->height);
imagecopy($this->img,$oldimage,0,0,0,0,$this->width,$this->height);
return $oldimage;
}
function CreateImgCanvas($aWidth=0,$aHeight=0) {
$old = array($this->img,$this->width,$this->height);
$aWidth = round($aWidth);
$aHeight = round($aHeight);
$this->width=$aWidth;
$this->height=$aHeight;
if( $aWidth==0 || $aHeight==0 ) {
// We will set the final size later.
// Note: The size must be specified before any other
// img routines that stroke anything are called.
$this->img = null;
$this->rgb = null;
return $old;
}
$this->CreateRawCanvas($aWidth,$aHeight);
// Set canvas color (will also be the background color for a
// a pallett image
$this->SetColor($this->canvascolor);
$this->FilledRectangle(0,0,$aWidth,$aHeight);
return $old ;
}
function CopyCanvasH($aToHdl,$aFromHdl,$aToX,$aToY,$aFromX,$aFromY,$aWidth,$aHeight,$aw=-1,$ah=-1) {
if( $aw === -1 ) {
$aw = $aWidth;
$ah = $aHeight;
$f = 'imagecopyresized';
}
else {
$f = $GLOBALS['copyfunc'] ;
}
$f($aToHdl,$aFromHdl,
$aToX,$aToY,$aFromX,$aFromY, $aWidth,$aHeight,$aw,$ah);
}
function SetCanvasH($aHdl) {
$this->img = $aHdl;
$this->rgb->img = $aHdl;
}
function SetCanvasColor($aColor) {
$this->canvascolor = $aColor ;
}
function SetAlphaBlending($aFlg=true) {
if( $GLOBALS['gd2'] )
ImageAlphaBlending($this->img,$aFlg);
else
JpGraphError::Raise('You only seem to have GD 1.x installed. To enable Alphablending requires GD 2.x or higher. Please install GD or make sure the constant USE_GD2 is specified correctly to reflect your installation. By default it tries to autodetect what version of GD you have installed. On some very rare occasions it may falsely detect GD2 where only GD1 is installed. You must then set USE_GD2 to false.');
}
function SetAutoMargin() {
GLOBAL $gJpgBrandTiming;
$min_bm=0;
if( $gJpgBrandTiming )
$min_bm=15;
$lm = max(0,$this->width/7);
$rm = max(0,$this->width/10);
$tm = max(0,$this->height/7);
$bm = max($min_bm,$this->height/7);
$this->SetMargin($lm,$rm,$tm,$bm);
}
//---------------
// PUBLIC METHODS
// Add observer. The observer will be notified when
// the margin changes
function AddObserver($aMethod,&$aObject) {
$this->obs_list[]=array($aMethod,&$aObject);
}
// Call all observers
function NotifyObservers() {
// foreach($this->obs_list as $o)
// $o[1]->$o[0]($this);
for($i=0; $i < count($this->obs_list); ++$i) {
$obj = & $this->obs_list[$i][1];
$method = $this->obs_list[$i][0];
$obj->$method($this);
}
}
function SetFont($family,$style=FS_NORMAL,$size=10) {
if($family==FONT1_BOLD || $family==FONT2_BOLD || $family==FONT0 || $family==FONT1 || $family==FONT2 )
JpGraphError::Raise(" Usage of FONT0, FONT1, FONT2 is deprecated. Use FF_xxx instead.");
$this->font_family=$family;
$this->font_style=$style;
$this->font_size=$size;
$this->font_file='';
if( ($this->font_family==FF_FONT1 || $this->font_family==FF_FONT2) && $this->font_style==FS_BOLD ){
++$this->font_family;
}
if( $this->font_family > FF_FONT2+1 ) { // A TTF font so get the font file
// Check that this PHP has support for TTF fonts
if( !function_exists('imagettfbbox') ) {
JpGraphError::Raise('This PHP build has not been configured with TTF support. You need to recompile your PHP installation with FreeType support.');
exit();
}
$this->font_file = $this->ttf->File($this->font_family,$this->font_style);
}
}
// Get the specific height for a text string
function GetTextHeight($txt="",$angle=0) {
$tmp = split("\n",$txt);
$n = count($tmp);
$m=0;
for($i=0; $i< $n; ++$i)
$m = max($m,strlen($tmp[$i]));
if( $this->font_family <= FF_FONT2+1 ) {
if( $angle==0 )
return $n*imagefontheight($this->font_family);
else
return $m*imagefontwidth($this->font_family);
}
else {
$bbox = $this->GetTTFBBox($txt,$angle);
return $bbox[1]-$bbox[5];
}
}
// Estimate font height
function GetFontHeight($angle=0) {
$txt = "XOMg";
return $this->GetTextHeight($txt,$angle);
}
// Approximate font width with width of letter "O"
function GetFontWidth($angle=0) {
$txt = 'O';
return $this->GetTextWidth($txt,$angle);
}
// Get actual width of text in absolute pixels
function GetTextWidth($txt,$angle=0) {
$tmp = split("\n",$txt);
$n = count($tmp);
if( $this->font_family <= FF_FONT2+1 ) {
$m=0;
for($i=0; $i < $n; ++$i) {
$l=strlen($tmp[$i]);
if( $l > $m ) {
$m = $l;
}
}
if( $angle==0 ) {
$width=$m*imagefontwidth($this->font_family);
return $width;
}
else {
// 90 degrees internal so height becomes width
return $n*imagefontheight($this->font_family);
}
}
else {
// For TTF fonts we must walk through a lines and find the
// widest one which we use as the width of the multi-line
// paragraph
$m=0;
for( $i=0; $i < $n; ++$i ) {
$bbox = $this->GetTTFBBox($tmp[$i],$angle);
$mm = $bbox[2] - $bbox[0];
if( $mm > $m )
$m = $mm;
}
return $m;
}
}
// Draw text with a box around it
function StrokeBoxedText($x,$y,$txt,$dir=0,$fcolor="white",$bcolor="black",
$shadowcolor=false,$paragraph_align="left",
$xmarg=6,$ymarg=4,$cornerradius=0,$dropwidth=3) {
if( !is_numeric($dir) ) {
if( $dir=="h" ) $dir=0;
elseif( $dir=="v" ) $dir=90;
else JpGraphError::Raise(" Unknown direction specified in call to StrokeBoxedText() [$dir]");
}
if( $this->font_family >= FF_FONT0 && $this->font_family <= FF_FONT2+1) {
$width=$this->GetTextWidth($txt,$dir) ;
$height=$this->GetTextHeight($txt,$dir) ;
}
else {
$width=$this->GetBBoxWidth($txt,$dir) ;
$height=$this->GetBBoxHeight($txt,$dir) ;
}
$height += 2*$ymarg;
$width += 2*$xmarg;
if( $this->text_halign=="right" ) $x -= $width;
elseif( $this->text_halign=="center" ) $x -= $width/2;
if( $this->text_valign=="bottom" ) $y -= $height;
elseif( $this->text_valign=="center" ) $y -= $height/2;
if( $shadowcolor ) {
$this->PushColor($shadowcolor);
$this->FilledRoundedRectangle($x-$xmarg+$dropwidth,$y-$ymarg+$dropwidth,
$x+$width+$dropwidth,$y+$height+$dropwidth,
$cornerradius);
$this->PopColor();
$this->PushColor($fcolor);
$this->FilledRoundedRectangle($x-$xmarg,$y-$ymarg,$x+$width,$y+$height,$cornerradius);
$this->PopColor();
$this->PushColor($bcolor);
$this->RoundedRectangle($x-$xmarg,$y-$ymarg,$x+$width,$y+$height,$cornerradius);
$this->PopColor();
}
else {
if( $fcolor ) {
$oc=$this->current_color;
$this->SetColor($fcolor);
$this->FilledRoundedRectangle($x-$xmarg,$y-$ymarg,$x+$width,$y+$height,$cornerradius);
$this->current_color=$oc;
}
if( $bcolor ) {
$oc=$this->current_color;
$this->SetColor($bcolor);
$this->RoundedRectangle($x-$xmarg,$y-$ymarg,$x+$width,$y+$height,$cornerradius);
$this->current_color=$oc;
}
}
$h=$this->text_halign;
$v=$this->text_valign;
$this->SetTextAlign("left","top");
$this->StrokeText($x, $y, $txt, $dir, $paragraph_align);
$this->SetTextAlign($h,$v);
}
// Set text alignment
function SetTextAlign($halign,$valign="bottom") {
$this->text_halign=$halign;
$this->text_valign=$valign;
}
function _StrokeBuiltinFont($x,$y,$txt,$dir=0,$paragraph_align="left") {
if( is_numeric($dir) && $dir!=90 && $dir!=0)
JpGraphError::Raise(" Internal font does not support drawing text at arbitrary angle. Use TTF fonts instead.");
$h=$this->GetTextHeight($txt);
$fh=$this->GetFontHeight();
$w=$this->GetTextWidth($txt);
if( $this->text_halign=="right")
$x -= $dir==0 ? $w : $h;
elseif( $this->text_halign=="center" ) {
// For center we subtract 1 pixel since this makes the middle
// be prefectly in the middle
$x -= $dir==0 ? $w/2-1 : $h/2;
}
if( $this->text_valign=="top" )
$y += $dir==0 ? $h : $w;
elseif( $this->text_valign=="center" )
$y += $dir==0 ? $h/2 : $w/2;
if( $dir==90 )
imagestringup($this->img,$this->font_family,$x,$y,$txt,$this->current_color);
else {
if( ereg("\n",$txt) ) {
$tmp = split("\n",$txt);
for($i=0; $i < count($tmp); ++$i) {
$w1 = $this->GetTextWidth($tmp[$i]);
if( $paragraph_align=="left" ) {
imagestring($this->img,$this->font_family,$x,$y-$h+1+$i*$fh,$tmp[$i],$this->current_color);
}
elseif( $paragraph_align=="right" ) {
imagestring($this->img,$this->font_family,$x+($w-$w1),
$y-$h+1+$i*$fh,$tmp[$i],$this->current_color);
}
else {
imagestring($this->img,$this->font_family,$x+$w/2-$w1/2,
$y-$h+1+$i*$fh,$tmp[$i],$this->current_color);
}
}
}
else {
//Put the text
imagestring($this->img,$this->font_family,$x,$y-$h+1,$txt,$this->current_color);
}
}
}
function AddTxtCR($aTxt) {
// If the user has just specified a '\n'
// instead of '\n\t' we have to add '\r' since
// the width will be too muchy otherwise since when
// we print we stroke the individually lines by hand.
$e = explode("\n",$aTxt);
$n = count($e);
for($i=0; $i<$n; ++$i) {
$e[$i]=str_replace("\r","",$e[$i]);
}
return implode("\n\r",$e);
}
function GetTTFBBox($aTxt,$aAngle=0) {
$bbox = @ImageTTFBBox($this->font_size,$aAngle,$this->font_file,$aTxt);
if( $bbox === false ) {
JpGraphError::Raise("There is either a configuration problem with TrueType or a problem reading font file (".$this->font_file."). Make sure file exists and is in a readable place for the HTTP process. (If 'basedir' restriction is enabled in PHP then the font file must be located in the document root.). It might also be a wrongly installed FreeType library. Try uppgrading to at least FreeType 2.1.13 and recompile GD with the correct setup so it can find the new FT library.");
}
return $bbox;
}
function GetBBoxTTF($aTxt,$aAngle=0) {
// Normalize the bounding box to become a minimum
// enscribing rectangle
$aTxt = $this->AddTxtCR($aTxt);
if( !is_readable($this->font_file) ) {
JpGraphError::Raise('Can not read font file ('.$this->font_file.') in call to Image::GetBBoxTTF. Please make sure that you have set a font before calling this method and that the font is installed in the TTF directory.');
}
$bbox = $this->GetTTFBBox($aTxt,$aAngle);
if( $aAngle==0 )
return $bbox;
if( $aAngle >= 0 ) {
if( $aAngle <= 90 ) { //<=0
$bbox = array($bbox[6],$bbox[1],$bbox[2],$bbox[1],
$bbox[2],$bbox[5],$bbox[6],$bbox[5]);
}
elseif( $aAngle <= 180 ) { //<= 2
$bbox = array($bbox[4],$bbox[7],$bbox[0],$bbox[7],
$bbox[0],$bbox[3],$bbox[4],$bbox[3]);
}
elseif( $aAngle <= 270 ) { //<= 3
$bbox = array($bbox[2],$bbox[5],$bbox[6],$bbox[5],
$bbox[6],$bbox[1],$bbox[2],$bbox[1]);
}
else {
$bbox = array($bbox[0],$bbox[3],$bbox[4],$bbox[3],
$bbox[4],$bbox[7],$bbox[0],$bbox[7]);
}
}
elseif( $aAngle < 0 ) {
if( $aAngle <= -270 ) { // <= -3
$bbox = array($bbox[6],$bbox[1],$bbox[2],$bbox[1],
$bbox[2],$bbox[5],$bbox[6],$bbox[5]);
}
elseif( $aAngle <= -180 ) { // <= -2
$bbox = array($bbox[0],$bbox[3],$bbox[4],$bbox[3],
$bbox[4],$bbox[7],$bbox[0],$bbox[7]);
}
elseif( $aAngle <= -90 ) { // <= -1
$bbox = array($bbox[2],$bbox[5],$bbox[6],$bbox[5],
$bbox[6],$bbox[1],$bbox[2],$bbox[1]);
}
else {
$bbox = array($bbox[0],$bbox[3],$bbox[4],$bbox[3],
$bbox[4],$bbox[7],$bbox[0],$bbox[7]);
}
}
return $bbox;
}
function GetBBoxHeight($aTxt,$aAngle=0) {
$box = $this->GetBBoxTTF($aTxt,$aAngle);
return $box[1]-$box[7]+1;
}
function GetBBoxWidth($aTxt,$aAngle=0) {
$box = $this->GetBBoxTTF($aTxt,$aAngle);
return $box[2]-$box[0]+1;
}
function _StrokeTTF($x,$y,$txt,$dir=0,$paragraph_align="left",$debug=false) {
// Remember the anchor point before adjustment
if( $debug ) {
$ox=$x;
$oy=$y;
}
if( !ereg("\n",$txt) || ($dir>0 && ereg("\n",$txt)) ) {
// Format a single line
$txt = $this->AddTxtCR($txt);
$bbox=$this->GetBBoxTTF($txt,$dir);
// Align x,y ot lower left corner of bbox
$x -= $bbox[0];
$y -= $bbox[1];
// Note to self: "topanchor" is deprecated after we changed the
// bopunding box stuff.
if( $this->text_halign=="right" || $this->text_halign=="topanchor" )
$x -= $bbox[2]-$bbox[0];
elseif( $this->text_halign=="center" ) $x -= ($bbox[2]-$bbox[0])/2;
if( $this->text_valign=="top" ) $y += abs($bbox[5])+$bbox[1];
elseif( $this->text_valign=="center" ) $y -= ($bbox[5]-$bbox[1])/2;
ImageTTFText ($this->img, $this->font_size, $dir, $x, $y,
$this->current_color,$this->font_file,$txt);
if( $debug ) {
// Draw the bounding rectangle and the bounding box
$box=ImageTTFBBox($this->font_size,$dir,$this->font_file,$txt);
$p = array();
$p1 = array();
for($i=0; $i < 4; ++$i) {
$p[] = $bbox[$i*2]+$x;
$p[] = $bbox[$i*2+1]+$y;
$p1[] = $box[$i*2]+$x;
$p1[] = $box[$i*2+1]+$y;
}
// Draw bounding box
$this->PushColor('green');
$this->Polygon($p1,true);
$this->PopColor();
// Draw bounding rectangle
$this->PushColor('darkgreen');
$this->Polygon($p,true);
$this->PopColor();
// Draw a cross at the anchor point
$this->PushColor('red');
$this->Line($ox-15,$oy,$ox+15,$oy);
$this->Line($ox,$oy-15,$ox,$oy+15);
$this->PopColor();
}
}
else {
// Format a text paragraph
$fh=$this->GetFontHeight();
// Line margin is 15% of font height
$linemargin=round($fh*0.15);
$fh += $linemargin;
$w=$this->GetTextWidth($txt);
$y -= $linemargin/2;
$tmp = split("\n",$txt);
$nl = count($tmp);
$h = $nl * $fh;
if( $this->text_halign=="right")
$x -= $dir==0 ? $w : $h;
elseif( $this->text_halign=="center" ) {
$x -= $dir==0 ? $w/2 : $h/2;
}
if( $this->text_valign=="top" )
$y += $dir==0 ? $h : $w;
elseif( $this->text_valign=="center" )
$y += $dir==0 ? $h/2 : $w/2;
// Here comes a tricky bit.
// Since we have to give the position for the string at the
// baseline this means thaht text will move slightly up
// and down depending on any of it's character descend below
// the baseline, for example a 'g'. To adjust the Y-position
// we therefore adjust the text with the baseline Y-offset
// as used for the current font and size. This will keep the
// baseline at a fixed positoned disregarding the actual
// characters in the string.
$standardbox = $this->GetTTFBBox('Gg',$dir);
$yadj = $standardbox[1];
$xadj = $standardbox[0];
for($i=0; $i < $nl; ++$i) {
$wl = $this->GetTextWidth($tmp[$i]);
$bbox = $this->GetTTFBBox($tmp[$i],$dir);
if( $paragraph_align=="left" ) {
$xl = $x;
}
elseif( $paragraph_align=="right" ) {
$xl = $x + ($w-$wl);
}
else {
// Center
$xl = $x + $w/2 - $wl/2 ;
}
$xl -= $bbox[0];
$yl = $y - $yadj;
$xl = $xl - $xadj;
ImageTTFText ($this->img, $this->font_size, $dir,
$xl, $yl-($h-$fh)+$fh*$i,
$this->current_color,$this->font_file,$tmp[$i]);
if( $debug ) {
// Draw the bounding rectangle around each line
$box=ImageTTFBBox($this->font_size,$dir,$this->font_file,$tmp[$i]);
$p = array();
for($j=0; $j < 4; ++$j) {
$p[] = $bbox[$j*2]+$xl;
$p[] = $bbox[$j*2+1]+$yl-($h-$fh)+$fh*$i;
}
// Draw bounding rectangle
$this->PushColor('darkgreen');
$this->Polygon($p,true);
$this->PopColor();
}
}
if( $debug ) {
// Draw a cross at the anchor point
$this->PushColor('red');
$this->Line($ox-25,$oy,$ox+25,$oy);
$this->Line($ox,$oy-25,$ox,$oy+25);
$this->PopColor();
}
}
}
function StrokeText($x,$y,$txt,$dir=0,$paragraph_align="left",$debug=false) {
$x = round($x);
$y = round($y);
// Do special language encoding
$txt = $this->langconv->Convert($txt,$this->font_family);
if( !is_numeric($dir) )
JpGraphError::Raise(" Direction for text most be given as an angle between 0 and 90.");
if( $this->font_family >= FF_FONT0 && $this->font_family <= FF_FONT2+1) {
$this->_StrokeBuiltinFont($x,$y,$txt,$dir,$paragraph_align,$debug);
}
elseif($this->font_family >= FF_COURIER && $this->font_family <= FF_BOOK) {
$this->_StrokeTTF($x,$y,$txt,$dir,$paragraph_align,$debug);
}
else
JpGraphError::Raise(" Unknown font font family specification. ");
}
function SetMargin($lm,$rm,$tm,$bm) {
$this->left_margin=$lm;
$this->right_margin=$rm;
$this->top_margin=$tm;
$this->bottom_margin=$bm;
$this->plotwidth=$this->width - $this->left_margin-$this->right_margin ;
$this->plotheight=$this->height - $this->top_margin-$this->bottom_margin ;
if( $this->plotwidth < 0 || $this->plotheight < 0 )
JpGraphError::raise("To small plot area. ($lm,$rm,$tm,$bm : $this->plotwidth x $this->plotheight). With the given image size and margins there is to little space left for the plot. Increase the plot size or reduce the margins.");
$this->NotifyObservers();
}
function SetTransparent($color) {
imagecolortransparent ($this->img,$this->rgb->allocate($color));
}
function SetColor($color,$aAlpha=0) {
$this->current_color_name = $color;
$this->current_color=$this->rgb->allocate($color,$aAlpha);
if( $this->current_color == -1 ) {
$tc=imagecolorstotal($this->img);
JpGraphError::Raise("Can't allocate any more colors.
Image has already allocated maximum of $tc colors.
This might happen if you have anti-aliasing turned on
together with a background image or perhaps gradient fill
since this requires many, many colors. Try to turn off
anti-aliasing.
DEFINE(\"USE_APPROX_COLORS\",true);
in jpgraph.php This will use approximative colors
when the palette is full.