GetMinVal(); $limit = $aScale->GetMaxVal(); $nextMajor = 10*$start; $step = $nextMajor / 10.0; $count=1; $ticklen_maj=5; $dx_maj=round(sin($aAxisAngle)*$ticklen_maj); $dy_maj=round(cos($aAxisAngle)*$ticklen_maj); $ticklen_min=3; $dx_min=round(sin($aAxisAngle)*$ticklen_min); $dy_min=round(cos($aAxisAngle)*$ticklen_min); $aMajPos=array(); $aMajLabel=array(); if( $this->supress_first ) { $aMajLabel[] = ''; } else { $aMajLabel[]=$start; } $yr=$aScale->RelTranslate($start); $xt=round($yr*cos($aAxisAngle))+$aScale->scale_abs[0]; $yt=$aPos-round($yr*sin($aAxisAngle)); $aMajPos[]=$xt+2*$dx_maj; $aMajPos[]=$yt-$aImg->GetFontheight()/2; $grid[]=$xt; $grid[]=$yt; $aImg->SetLineWeight($this->weight); for($y=$start; $y<=$limit; $y+=$step,++$count ) { $yr=$aScale->RelTranslate($y); $xt=round($yr*cos($aAxisAngle))+$aScale->scale_abs[0]; $yt=$aPos-round($yr*sin($aAxisAngle)); if( $count % 10 == 0 ) { $grid[]=$xt; $grid[]=$yt; $aMajPos[]=$xt+2*$dx_maj; $aMajPos[]=$yt-$aImg->GetFontheight()/2; if( !$this->supress_tickmarks ) { if( $this->majcolor != '' ) { $aImg->PushColor($this->majcolor); } $aImg->Line($xt+$dx_maj,$yt+$dy_maj,$xt-$dx_maj,$yt-$dy_maj); if( $this->majcolor != '' ) { $aImg->PopColor(); } } if( $this->label_formfunc != '' ) { $f=$this->label_formfunc; $l = call_user_func($f,$nextMajor); } else { $l = $nextMajor; } $aMajLabel[]=$l; $nextMajor *= 10; $step *= 10; $count=1; } else { if( !$this->supress_minor_tickmarks ) { if( $this->mincolor != '' ) { $aImg->PushColor($this->mincolor); } $aImg->Line($xt+$dx_min,$yt+$dy_min,$xt-$dx_min,$yt-$dy_min); if( $this->mincolor != '' ) { $aImg->PopColor(); } } } } } } //=================================================== // CLASS RadarLinear // Description: Linear ticks //=================================================== class RadarLinearTicks extends Ticks { private $minor_step=1, $major_step=2; private $xlabel_offset=0,$xtick_offset=0; function __construct() { // Empty } // Return major step size in world coordinates function GetMajor() { return $this->major_step; } // Return minor step size in world coordinates function GetMinor() { return $this->minor_step; } // Set Minor and Major ticks (in world coordinates) function Set($aMajStep,$aMinStep=false) { if( $aMinStep==false ) { $aMinStep=$aMajStep; } if( $aMajStep <= 0 || $aMinStep <= 0 ) { JpGraphError::RaiseL(25064); //JpGraphError::Raise(" Minor or major step size is 0. Check that you haven't got an accidental SetTextTicks(0) in your code. 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; $this->is_set = true; } function Stroke($aImg,&$grid,$aPos,$aAxisAngle,$aScale,&$aMajPos,&$aMajLabel) { // Prepare to draw linear ticks $maj_step_abs = abs($aScale->scale_factor*$this->major_step); $min_step_abs = abs($aScale->scale_factor*$this->minor_step); $nbrmaj = round($aScale->world_abs_size/$maj_step_abs); $nbrmin = round($aScale->world_abs_size/$min_step_abs); $skip = round($nbrmin/$nbrmaj); // Don't draw minor on top of major // Draw major ticks $ticklen2=$this->major_abs_size; $dx=round(sin($aAxisAngle)*$ticklen2); $dy=round(cos($aAxisAngle)*$ticklen2); $label=$aScale->scale[0]+$this->major_step; $aImg->SetLineWeight($this->weight); $aMajPos = array(); $aMajLabel = array(); for($i=1; $i<=$nbrmaj; ++$i) { $xt=round($i*$maj_step_abs*cos($aAxisAngle))+$aScale->scale_abs[0]; $yt=$aPos-round($i*$maj_step_abs*sin($aAxisAngle)); if( $this->label_formfunc != '' ) { $f=$this->label_formfunc; $l = call_user_func($f,$label); } else { $l = $label; } $aMajLabel[]=$l; $label += $this->major_step; $grid[]=$xt; $grid[]=$yt; $aMajPos[($i-1)*2]=$xt+2*$dx; $aMajPos[($i-1)*2+1]=$yt-$aImg->GetFontheight()/2; if( !$this->supress_tickmarks ) { if( $this->majcolor != '' ) { $aImg->PushColor($this->majcolor); } $aImg->Line($xt+$dx,$yt+$dy,$xt-$dx,$yt-$dy); if( $this->majcolor != '' ) { $aImg->PopColor(); } } } // Draw minor ticks $ticklen2=$this->minor_abs_size; $dx=round(sin($aAxisAngle)*$ticklen2); $dy=round(cos($aAxisAngle)*$ticklen2); if( !$this->supress_tickmarks && !$this->supress_minor_tickmarks) { if( $this->mincolor != '' ) { $aImg->PushColor($this->mincolor); } for($i=1; $i<=$nbrmin; ++$i) { if( ($i % $skip) == 0 ) { continue; } $xt=round($i*$min_step_abs*cos($aAxisAngle))+$aScale->scale_abs[0]; $yt=$aPos-round($i*$min_step_abs*sin($aAxisAngle)); $aImg->Line($xt+$dx,$yt+$dy,$xt-$dx,$yt-$dy); } if( $this->mincolor != '' ) { $aImg->PopColor(); } } } } //=================================================== // CLASS RadarAxis // Description: Implements axis for the radar graph //=================================================== class RadarAxis extends AxisPrototype { public $title=null; private $title_color='navy'; private $len=0; function __construct($img,$aScale,$color=array(0,0,0)) { parent::__construct($img,$aScale,$color); $this->len = $img->plotheight; $this->title = new Text(); $this->title->SetFont(FF_FONT1,FS_BOLD); $this->color = array(0,0,0); } // Stroke the axis // $pos = Vertical position of axis // $aAxisAngle = Axis angle // $grid = Returns an array with positions used to draw the grid // $lf = Label flag, TRUE if the axis should have labels function Stroke($pos,$aAxisAngle,&$grid,$title,$lf) { $this->img->SetColor($this->color); // Determine end points for the axis $x=round($this->scale->world_abs_size*cos($aAxisAngle)+$this->scale->scale_abs[0]); $y=round($pos-$this->scale->world_abs_size*sin($aAxisAngle)); // Draw axis $this->img->SetColor($this->color); $this->img->SetLineWeight($this->weight); if( !$this->hide ) { $this->img->Line($this->scale->scale_abs[0],$pos,$x,$y); } $this->scale->ticks->Stroke($this->img,$grid,$pos,$aAxisAngle,$this->scale,$majpos,$majlabel); $ncolor=0; if( isset($this->ticks_label_colors) ) { $ncolor=count($this->ticks_label_colors); } // Draw labels if( $lf && !$this->hide ) { $this->img->SetFont($this->font_family,$this->font_style,$this->font_size); $this->img->SetTextAlign('left','top'); $this->img->SetColor($this->label_color); // majpos contains (x,y) coordinates for labels if( ! $this->hide_labels ) { $n = floor(count($majpos)/2); for($i=0; $i < $n; ++$i) { // Set specific label color if specified if( $ncolor > 0 ) { $this->img->SetColor($this->ticks_label_colors[$i % $ncolor]); } if( $this->ticks_label != null && isset($this->ticks_label[$i]) ) { $this->img->StrokeText($majpos[$i*2],$majpos[$i*2+1],$this->ticks_label[$i]); } else { $this->img->StrokeText($majpos[$i*2],$majpos[$i*2+1],$majlabel[$i]); } } } } $this->_StrokeAxisTitle($pos,$aAxisAngle,$title); } function _StrokeAxisTitle($pos,$aAxisAngle,$title) { $this->title->Set($title); $marg=6+$this->title->margin; $xt=round(($this->scale->world_abs_size+$marg)*cos($aAxisAngle)+$this->scale->scale_abs[0]); $yt=round($pos-($this->scale->world_abs_size+$marg)*sin($aAxisAngle)); // Position the axis title. // dx, dy is the offset from the top left corner of the bounding box that sorrounds the text // that intersects with the extension of the corresponding axis. The code looks a little // bit messy but this is really the only way of having a reasonable position of the // axis titles. if( $this->title->iWordwrap > 0 ) { $title = wordwrap($title,$this->title->iWordwrap,"\n"); } $h=$this->img->GetTextHeight($title)*1.2; $w=$this->img->GetTextWidth($title)*1.2; while( $aAxisAngle > 2*M_PI ) $aAxisAngle -= 2*M_PI; // Around 3 a'clock if( $aAxisAngle>=7*M_PI/4 || $aAxisAngle <= M_PI/4 ) $dx=-0.15; // Small trimming to make the dist to the axis more even // Around 12 a'clock if( $aAxisAngle>=M_PI/4 && $aAxisAngle <= 3*M_PI/4 ) $dx=($aAxisAngle-M_PI/4)*2/M_PI; // Around 9 a'clock if( $aAxisAngle>=3*M_PI/4 && $aAxisAngle <= 5*M_PI/4 ) $dx=1; // Around 6 a'clock if( $aAxisAngle>=5*M_PI/4 && $aAxisAngle <= 7*M_PI/4 ) $dx=(1-($aAxisAngle-M_PI*5/4)*2/M_PI); if( $aAxisAngle>=7*M_PI/4 ) $dy=(($aAxisAngle-M_PI)-3*M_PI/4)*2/M_PI; if( $aAxisAngle<=M_PI/12 ) $dy=(0.5-$aAxisAngle*2/M_PI); if( $aAxisAngle<=M_PI/4 && $aAxisAngle > M_PI/12) $dy=(1-$aAxisAngle*2/M_PI); if( $aAxisAngle>=M_PI/4 && $aAxisAngle <= 3*M_PI/4 ) $dy=1; if( $aAxisAngle>=3*M_PI/4 && $aAxisAngle <= 5*M_PI/4 ) $dy=(1-($aAxisAngle-3*M_PI/4)*2/M_PI); if( $aAxisAngle>=5*M_PI/4 && $aAxisAngle <= 7*M_PI/4 ) $dy=0; if( !$this->hide ) { $this->title->Stroke($this->img,$xt-$dx*$w,$yt-$dy*$h,$title); } } } // Class //=================================================== // CLASS RadarGrid // Description: Draws grid for the radar graph //=================================================== class RadarGrid { //extends Grid { private $type='solid'; private $grid_color='#DDDDDD'; private $show=false, $weight=1; function __construct() { // Empty } function SetColor($aMajColor) { $this->grid_color = $aMajColor; } function SetWeight($aWeight) { $this->weight=$aWeight; } // Specify if grid should be dashed, dotted or solid function SetLineStyle($aType) { $this->type = $aType; } // Decide if both major and minor grid should be displayed function Show($aShowMajor=true) { $this->show=$aShowMajor; } function Stroke($img,$grid) { if( !$this->show ) { return; } $nbrticks = count($grid[0])/2; $nbrpnts = count($grid); $img->SetColor($this->grid_color); $img->SetLineWeight($this->weight); for($i=0; $i<$nbrticks; ++$i) { for($j=0; $j<$nbrpnts; ++$j) { $pnts[$j*2]=$grid[$j][$i*2]; $pnts[$j*2+1]=$grid[$j][$i*2+1]; } for($k=0; $k<$nbrpnts; ++$k ){ $l=($k+1)%$nbrpnts; if( $this->type == 'solid' ) $img->Line($pnts[$k*2],$pnts[$k*2+1],$pnts[$l*2],$pnts[$l*2+1]); elseif( $this->type == 'dotted' ) $img->DashedLine($pnts[$k*2],$pnts[$k*2+1],$pnts[$l*2],$pnts[$l*2+1],1,6); elseif( $this->type == 'dashed' ) $img->DashedLine($pnts[$k*2],$pnts[$k*2+1],$pnts[$l*2],$pnts[$l*2+1],2,4); elseif( $this->type == 'longdashed' ) $img->DashedLine($pnts[$k*2],$pnts[$k*2+1],$pnts[$l*2],$pnts[$l*2+1],8,6); } $pnts=array(); } } } // Class //=================================================== // CLASS RadarPlot // Description: Plot a radarplot //=================================================== class RadarPlot { public $mark=null; public $legend=''; public $legendcsimtarget=''; public $legendcsimalt=''; public $csimtargets=array(); // Array of targets for CSIM public $csimareas=""; // Resultant CSIM area tags public $csimalts=null; // ALT:s for corresponding target private $data=array(); private $fill=false, $fill_color=array(200,170,180); private $color=array(0,0,0); private $weight=1; private $linestyle='solid'; //--------------- // CONSTRUCTOR function __construct($data) { $this->data = $data; $this->mark = new PlotMark(); } function Min() { return Min($this->data); } function Max() { return Max($this->data); } function SetLegend($legend) { $this->legend=$legend; } function SetLineStyle($aStyle) { $this->linestyle=$aStyle; } function SetLineWeight($w) { $this->weight=$w; } function SetFillColor($aColor) { $this->fill_color = $aColor; $this->fill = true; } function SetFill($f=true) { $this->fill = $f; } function SetColor($aColor,$aFillColor=false) { $this->color = $aColor; if( $aFillColor ) { $this->SetFillColor($aFillColor); $this->fill = true; } } // Set href targets for CSIM function SetCSIMTargets($aTargets,$aAlts=null) { $this->csimtargets=$aTargets; $this->csimalts=$aAlts; } // Get all created areas function GetCSIMareas() { return $this->csimareas; } function Stroke($img, $pos, $scale, $startangle) { $nbrpnts = count($this->data); $astep=2*M_PI/$nbrpnts; $a=$startangle; for($i=0; $i<$nbrpnts; ++$i) { // Rotate each non null point to the correct axis-angle $cs=$scale->RelTranslate($this->data[$i]); $x=round($cs*cos($a)+$scale->scale_abs[0]); $y=round($pos-$cs*sin($a)); $pnts[$i*2]=$x; $pnts[$i*2+1]=$y; // If the next point is null then we draw this polygon segment // to the center, skip the next and draw the next segment from // the center up to the point on the axis with the first non-null // value and continues from that point. Some additoinal logic is necessary // to handle the boundary conditions if( $i < $nbrpnts-1 ) { if( is_null($this->data[$i+1]) ) { $cs = 0; $x=round($cs*cos($a)+$scale->scale_abs[0]); $y=round($pos-$cs*sin($a)); $pnts[$i*2]=$x; $pnts[$i*2+1]=$y; $a += $astep; } } $a += $astep; } if( $this->fill ) { $img->SetColor($this->fill_color); $img->FilledPolygon($pnts); } $img->SetLineWeight($this->weight); $img->SetColor($this->color); $img->SetLineStyle($this->linestyle); $pnts[] = $pnts[0]; $pnts[] = $pnts[1]; $img->Polygon($pnts); $img->SetLineStyle('solid'); // Reset line style to default // Add plotmarks on top if( $this->mark->show ) { for($i=0; $i < $nbrpnts; ++$i) { if( isset($this->csimtargets[$i]) ) { $this->mark->SetCSIMTarget($this->csimtargets[$i]); $this->mark->SetCSIMAlt($this->csimalts[$i]); $this->mark->SetCSIMAltVal($pnts[$i*2], $pnts[$i*2+1]); $this->mark->Stroke($img, $pnts[$i*2], $pnts[$i*2+1]); $this->csimareas .= $this->mark->GetCSIMAreas(); } else { $this->mark->Stroke($img,$pnts[$i*2],$pnts[$i*2+1]); } } } } function GetCount() { return count($this->data); } function Legend($graph) { if( $this->legend == '' ) { return; } if( $this->fill ) { $graph->legend->Add($this->legend,$this->fill_color,$this->mark); } else { $graph->legend->Add($this->legend,$this->color,$this->mark); } } } // Class //=================================================== // CLASS RadarGraph // Description: Main container for a radar graph //=================================================== class RadarGraph extends Graph { public $grid,$axis=null; private $posx,$posy; private $len; private $axis_title=null; function __construct($width=300,$height=200,$cachedName="",$timeout=0,$inline=1) { parent::__construct($width,$height,$cachedName,$timeout,$inline); $this->posx = $width/2; $this->posy = $height/2; $this->len = min($width,$height)*0.35; $this->SetColor(array(255,255,255)); $this->SetTickDensity(TICKD_NORMAL); $this->SetScale('lin'); $this->SetGridDepth(DEPTH_FRONT); } function HideTickMarks($aFlag=true) { $this->axis->scale->ticks->SupressTickMarks($aFlag); } function ShowMinorTickmarks($aFlag=true) { $this->yscale->ticks->SupressMinorTickMarks(!$aFlag); } function SetScale($axtype,$ymin=1,$ymax=1,$dummy1=null,$dumy2=null) { if( $axtype != 'lin' && $axtype != 'log' ) { JpGraphError::RaiseL(18003,$axtype); //("Illegal scale for radarplot ($axtype). Must be \"lin\" or \"log\""); } if( $axtype == 'lin' ) { $this->yscale = new LinearScale($ymin,$ymax); $this->yscale->ticks = new RadarLinearTicks(); $this->yscale->ticks->SupressMinorTickMarks(); } elseif( $axtype == 'log' ) { $this->yscale = new LogScale($ymin,$ymax); $this->yscale->ticks = new RadarLogTicks(); } $this->axis = new RadarAxis($this->img,$this->yscale); $this->grid = new RadarGrid(); } function SetSize($aSize) { if( $aSize < 0.1 || $aSize>1 ) { JpGraphError::RaiseL(18004,$aSize); //("Radar Plot size must be between 0.1 and 1. (Your value=$s)"); } $this->len=min($this->img->width,$this->img->height)*$aSize/2; } function SetPlotSize($aSize) { $this->SetSize($aSize); } function SetTickDensity($densy=TICKD_NORMAL,$dummy1=null) { $this->ytick_factor=25; switch( $densy ) { 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: $this->ytick_factor=70; break; default: JpGraphError::RaiseL(18005,$densy); //("RadarPlot Unsupported Tick density: $densy"); } } function SetPos($px,$py=0.5) { $this->SetCenter($px,$py); } function SetCenter($px,$py=0.5) { if( $px >= 0 && $px <= 1 ) { $this->posx = $this->img->width*$px; } else { $this->posx = $px; } if( $py >= 0 && $py <= 1 ) { $this->posy = $this->img->height*$py; } else { $this->posy = $py; } } function SetColor($aColor) { $this->SetMarginColor($aColor); } function SetTitles($aTitleArray) { $this->axis_title = $aTitleArray; } function Add($aPlot) { if( $aPlot == null ) { JpGraphError::RaiseL(25010);//("Graph::Add() You tried to add a null plot to the graph."); } if( is_array($aPlot) && count($aPlot) > 0 ) { $cl = $aPlot[0]; } else { $cl = $aPlot; } if( $cl instanceof Text ) $this->AddText($aPlot); elseif( class_exists('IconPlot',false) && ($cl instanceof IconPlot) ) $this->AddIcon($aPlot); else { $this->plots[] = $aPlot; } } function GetPlotsYMinMax($aPlots) { $min=$aPlots[0]->Min(); $max=$aPlots[0]->Max(); foreach( $this->plots as $p ) { $max=max($max,$p->Max()); $min=min($min,$p->Min()); } if( $min < 0 ) { JpGraphError::RaiseL(18006,$min); //("Minimum data $min (Radar plots should only be used when all data points > 0)"); } return array($min,$max); } function StrokeIcons() { if( $this->iIcons != null ) { $n = count($this->iIcons); for( $i=0; $i < $n; ++$i ) { $this->iIcons[$i]->Stroke($this->img); } } } function StrokeTexts() { if( $this->texts != null ) { $n = count($this->texts); for( $i=0; $i < $n; ++$i ) { $this->texts[$i]->Stroke($this->img); } } } // Stroke the Radar graph function Stroke($aStrokeFileName='') { // 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; $n = count($this->plots); // Set Y-scale if( !$this->yscale->IsSpecified() && count($this->plots) > 0 ) { list($min,$max) = $this->GetPlotsYMinMax($this->plots); $this->yscale->AutoScale($this->img,0,$max,$this->len/$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, $this->len/$this->ytick_factor, $this->yscale->auto_ticks); } // Set start position end length of scale (in absolute pixels) $this->yscale->SetConstants($this->posx,$this->len); // We need as many axis as there are data points $nbrpnts=$this->plots[0]->GetCount(); // If we have no titles just number the axis 1,2,3,... if( $this->axis_title==null ) { for($i=0; $i < $nbrpnts; ++$i ) { $this->axis_title[$i] = $i+1; } } elseif( count($this->axis_title) < $nbrpnts) { JpGraphError::RaiseL(18007); // ("Number of titles does not match number of points in plot."); } for( $i=0; $i < $n; ++$i ) { if( $nbrpnts != $this->plots[$i]->GetCount() ) { JpGraphError::RaiseL(18008); //("Each radar plot must have the same number of data points."); } } if( !$_csim ) { if( $this->background_image != '' ) { $this->StrokeFrameBackground(); } else { $this->StrokeFrame(); $this->StrokeBackgroundGrad(); } } $astep=2*M_PI/$nbrpnts; if( !$_csim ) { if( $this->iIconDepth == DEPTH_BACK ) { $this->StrokeIcons(); } // Prepare legends for($i=0; $i < $n; ++$i) { $this->plots[$i]->Legend($this); } $this->legend->Stroke($this->img); $this->footer->Stroke($this->img); } if( !$_csim ) { if( $this->grid_depth == DEPTH_BACK ) { // Draw axis and grid for( $i=0,$a=M_PI/2; $i < $nbrpnts; ++$i, $a += $astep ) { $this->axis->Stroke($this->posy,$a,$grid[$i],$this->axis_title[$i],$i==0); } $this->grid->Stroke($this->img,$grid); } if( $this->iIconDepth == DEPTH_BACK ) { $this->StrokeIcons(); } } // Plot points $a=M_PI/2; for($i=0; $i < $n; ++$i ) { $this->plots[$i]->Stroke($this->img, $this->posy, $this->yscale, $a); } if( !$_csim ) { if( $this->grid_depth != DEPTH_BACK ) { // Draw axis and grid for( $i=0,$a=M_PI/2; $i < $nbrpnts; ++$i, $a += $astep ) { $this->axis->Stroke($this->posy,$a,$grid[$i],$this->axis_title[$i],$i==0); } $this->grid->Stroke($this->img,$grid); } $this->StrokeTitles(); $this->StrokeTexts(); if( $this->iIconDepth == DEPTH_FRONT ) { $this->StrokeIcons(); } } // Should we do any final image transformation if( $this->iImgTrans && !$_csim ) { if( !class_exists('ImgTrans',false) ) { require_once('jpgraph_imgtrans.php'); } $tform = new ImgTrans($this->img->img); $this->img->img = $tform->Skew3D($this->iImgTransHorizon,$this->iImgTransSkewDist, $this->iImgTransDirection,$this->iImgTransHighQ, $this->iImgTransMinSize,$this->iImgTransFillColor, $this->iImgTransBorder); } if( !$_csim ) { // If the filename is given as the special "__handle" // then the image handler is returned and the image is NOT // streamed back if( $aStrokeFileName == _IMG_HANDLER ) { return $this->img->img; } else { // Finally stream the generated picture $this->cache->PutAndStream($this->img,$this->cache_name,$this->inline,$aStrokeFileName); } } } } // Class /* EOF */ ?>