nightly-test-server/jpgraph/Examples/fieldscatterex1.php - llvm-archive - Git at Google

 <?php
 include ("../jpgraph.php");
 include ("../jpgraph_scatter.php");

 $polex = 6;
 $poley = 40;

 function FldCallback($x,$y,$a) {
     GLOBAL $polex, $poley;
     $maxr = 3000;

     // Size and arrow size is constant
     $size="";
     $arrowsize="";

     // Since we have different scales we need the data points
     // to be of the same magnitude to give it a distance
     // interpretation.
     $x *= 10;

     // Colors gets colder the further out we go from the center
     $r = ($x-$polex*10)*($x-$polex*10)+($y-$poley)*($y-$poley);
     $f = $r/$maxr;
     if( $f > 1 ) $f=1;
     $red = floor((1-$f)*255);
     $blue = floor($f*255);
     $color = array($red,0,$blue);
     //echo "x=$x, y=$y, blue=$blue, red=$red<br>";
     return array($color,$size,$arrowsize);
 }

 // Create data for a simulated pseudo-magnetic radient field
 $datax = array();
 $datay = array();
 $angle = array();
 for($x=1; $x < 10; ++$x ) {
     for($y=10; $y<100; $y += 10) {
 	$a = -1;
 	if( $x==$polex && $y==$poley ) continue;
 	if( $x==$polex ) {
 	    if( $y > $poley ) $a=90;
 	    else $a = 270;
 	}
 	if( $y==$poley ) {
 	    if( $x  > $polex ) $a=0;
 	    else  $a=180;
 	}
 	if( $a == -1 ) {
 	    $d1 = $y-$poley;
 	    $d2 = ($polex-$x)*20;
 	    if( $y < $poley ) $d2 *= -1;
 	    $h = sqrt($d1*$d1+$d2*$d2);
 	    $t = -$d2/$h;
 	    $ac = acos($t);
 	    if( $y < $poley ) $ac += M_PI;
 	    $a = $ac * 180/M_PI;
 	}
 	$datax[] = $x;
 	$datay[] = $y;
 	$angle[] = $a;
     }
 }

 // Setup the graph
 $graph = new Graph(300,200);
 $graph->SetScale("intlin",0,100,0,10);
 $graph->SetMarginColor('lightblue');


 // ..and titles
 $graph->title->Set("Field plot");

 // Setup the field plot
 $fp = new FieldPlot($datay,$datax,$angle);

 // Setup formatting callback
 $fp->SetCallback('FldCallback');

 // First size argument is length (in pixels of arrow)
 // Second size argument is roughly size of arrow. Arrow size is specified as
 // an integer in the range [0,9]
 $fp->arrow->SetSize(20,2);
 $fp->arrow->SetColor('navy');

 $graph->Add($fp);

 // .. and output
 $graph->Stroke();

 ?>
	<?php
	include ("../jpgraph.php");
	include ("../jpgraph_scatter.php");

	$polex = 6;
	$poley = 40;

	function FldCallback($x,$y,$a) {
	GLOBAL $polex, $poley;
	$maxr = 3000;

	// Size and arrow size is constant
	$size="";
	$arrowsize="";

	// Since we have different scales we need the data points
	// to be of the same magnitude to give it a distance
	// interpretation.
	$x *= 10;

	// Colors gets colder the further out we go from the center
	$r = ($x-$polex10)($x-$polex10)+($y-$poley)($y-$poley);
	$f = $r/$maxr;
	if( $f > 1 ) $f=1;
	$red = floor((1-$f)*255);
	$blue = floor($f*255);
	$color = array($red,0,$blue);
	//echo "x=$x, y=$y, blue=$blue, red=$red<br>";
	return array($color,$size,$arrowsize);
	}

	// Create data for a simulated pseudo-magnetic radient field
	$datax = array();
	$datay = array();
	$angle = array();
	for($x=1; $x < 10; ++$x ) {
	for($y=10; $y<100; $y += 10) {
	$a = -1;
	if( $x==$polex && $y==$poley ) continue;
	if( $x==$polex ) {
	if( $y > $poley ) $a=90;
	else $a = 270;
	}
	if( $y==$poley ) {
	if( $x > $polex ) $a=0;
	else $a=180;
	}
	if( $a == -1 ) {
	$d1 = $y-$poley;
	$d2 = ($polex-$x)*20;
	if( $y < $poley ) $d2 *= -1;
	$h = sqrt($d1$d1+$d2$d2);
	$t = -$d2/$h;
	$ac = acos($t);
	if( $y < $poley ) $ac += M_PI;
	$a = $ac * 180/M_PI;
	}
	$datax[] = $x;
	$datay[] = $y;
	$angle[] = $a;
	}
	}

	// Setup the graph
	$graph = new Graph(300,200);
	$graph->SetScale("intlin",0,100,0,10);
	$graph->SetMarginColor('lightblue');


	// ..and titles
	$graph->title->Set("Field plot");

	// Setup the field plot
	$fp = new FieldPlot($datay,$datax,$angle);

	// Setup formatting callback
	$fp->SetCallback('FldCallback');

	// First size argument is length (in pixels of arrow)
	// Second size argument is roughly size of arrow. Arrow size is specified as
	// an integer in the range [0,9]
	$fp->arrow->SetSize(20,2);
	$fp->arrow->SetColor('navy');

	$graph->Add($fp);

	// .. and output
	$graph->Stroke();

	?>