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<?phprequire_once '../jpgraph.php';require_once '../jpgraph_canvas.php';require_once '../jpgraph_canvtools.php';/** To change this template, choose Tools | Templates* and open the template in the editor.*//*** Description of test_findpolygon** @author ljp*/class Findpolygon {private $nbrContours=-1;public $contourCoord=array();private $scale = array(0,6,0,8);function flattenEdges($p) {$fp=array();for ($i = 0 ; $i < count($p) ; $i++) {$fp[] = $p[$i][0];$fp[] = $p[$i][1];}return $fp;}function SetupTestData() {// for($i=0; $i<count($this->contourCoord[0]); ++$i) {// echo '('.$this->contourCoord[0][$i][0][0].','.$this->contourCoord[0][$i][0][1].') -> '.// '('.$this->contourCoord[0][$i][1][0].','.$this->contourCoord[0][$i][1][1].")\n";// }//$c=0;$p[$c] = array(0.6,1, 1,0.5, 2,0.5, 3,0.5, 3.5,1, 3.5,2, 3,2.5, 2,2.5, 1,2.5, 0.5,2, 0.6,1);$c++;$p[$c] = array(6,0.5, 5.5,1, 5.5,2, 6,2.5);$this->nbrContours = $c+1;for ($c = 0 ; $c < count($p) ; $c++) {$n=count($p[$c]);$this->contourCoord[$c][0] = array(array($p[$c][0],$p[$c][1]),array($p[$c][2],$p[$c][3]));$k=1;for ($i = 0; $i < ($n-4)/2; $i++, $k++) {$this->contourCoord[$c][$k] = array($this->contourCoord[$c][$k-1][1], array($p[$c][2*$k+2],$p[$c][2*$k+1+2]));}// Swap edges order at random$n = count($this->contourCoord[$c]);for($i=0; $i < floor($n/2); ++$i) {$swap1 = rand(0,$n-1);$t = $this->contourCoord[$c][$swap1];while( $swap1 == ($swap2 = rand(0,$n-1)) );$this->contourCoord[$c][$swap1] = $this->contourCoord[$c][$swap2];$this->contourCoord[$c][$swap2] = $t;}// Swap vector direction on 1/3 of the edgesfor ($i = 0 ; $i < floor(count($this->contourCoord[$c])/3) ; $i++) {$e = rand(0, count($this->contourCoord[$c])-1);$edge = $this->contourCoord[$c][$e];$v1 = $edge[0]; $v2 = $edge[1];$this->contourCoord[$c][$e][0] = $v2;$this->contourCoord[$c][$e][1] = $v1;}}$pp = array();for($j=0; $j < count($p); ++$j ) {for( $i=0; $i < count($p[$j])/2; ++$i ) {$pp[$j][$i] = array($p[$j][2*$i],$p[$j][2*$i+1]);}}return $pp;}function p_edges($v) {for ($i = 0 ; $i < count($v) ; $i++) {echo "(".$v[$i][0][0].",".$v[$i][0][1].") -> (".$v[$i][1][0].",".$v[$i][1][1].")\n";}echo "\n";}function CompareCyclic($a,$b,$forward=true) {// We assume disjoint vertices and if last==first this just means// that the polygon is closed. For this comparison it must be unique// elementsif( $a[count($a)-1] == $a[0] ) {array_pop($a);}if( $b[count($b)-1] == $b[0] ) {array_pop($b);}$n1 = count($a); $n2 = count($b);if( $n1 != $n2 )return false;$i=0;while( ($i < $n2) && ($a[0] != $b[$i]) )++$i;if( $i >= $n2 )return false;$j=0;if( $forward ) {while( ($j < $n1) && ($a[$j] == $b[$i]) ) {$i = ($i + 1) % $n2;++$j;}}else {while( ($j < $n1) && ($a[$j] == $b[$i]) ) {--$i;if( $i < 0 ) {$i = $n2-1;}++$j;}}return $j >= $n1;}function dbg($s) {// echo $s."\n";}function IsVerticeOnBorder($x1,$y1) {// Check if the vertice lies on any of the four borderif( $x1==$this->scale[0] || $x1==$this->scale[1] ) {return true;}if( $y1==$this->scale[2] || $y1==$this->scale[3] ) {return true;}return false;}function FindPolygons($debug=false) {$pol = 0;for ($c = 0; $c < $this->nbrContours; $c++) {$this->dbg("\n** Searching polygon chain $c ... ");$this->dbg("------------------------------------------\n");$edges = $this->contourCoord[$c];while( count($edges) > 0 ) {$edge = array_shift($edges);list($x1,$y1) = $edge[0];list($x2,$y2) = $edge[1];$polygons[$pol]=array(array($x1,$y1),array($x2,$y2));$this->dbg("Searching on second vertice.");$found=false;if( ! $this->IsVerticeOnBorder($x2,$y2) ) {do {$this->dbg(" --Searching on edge: ($x1,$y1)->($x2,$y2)");$found=false;$nn = count($edges);for( $i=0; $i < $nn && !$found; ++$i ) {$edge = $edges[$i];if( $found = ($x2==$edge[0][0] && $y2==$edge[0][1]) ) {$polygons[$pol][] = array($edge[1][0],$edge[1][1]);$x1 = $x2; $y1 = $y2;$x2 = $edge[1][0]; $y2 = $edge[1][1];}elseif( $found = ($x2==$edge[1][0] && $y2==$edge[1][1]) ) {$polygons[$pol][] = array($edge[0][0],$edge[0][1]);$x1 = $x2; $y1 = $y2;$x2 = $edge[0][0]; $y2 = $edge[0][1];}if( $found ) {$this->dbg(" --Found next edge: [i=$i], (%,%) -> ($x2,$y2)");unset($edges[$i]);$edges = array_values($edges);}}} while( $found );}if( !$found && count($edges)>0 ) {$this->dbg("Searching on first vertice.");list($x1,$y1) = $polygons[$pol][0];list($x2,$y2) = $polygons[$pol][1];if( ! $this->IsVerticeOnBorder($x1,$y1) ) {do {$this->dbg(" --Searching on edge: ($x1,$y1)->($x2,$y2)");$found=false;$nn = count($edges);for( $i=0; $i < $nn && !$found; ++$i ) {$edge = $edges[$i];if( $found = ($x1==$edge[0][0] && $y1==$edge[0][1]) ) {array_unshift($polygons[$pol],array($edge[1][0],$edge[1][1]));$x2 = $x1; $y2 = $y1;$x1 = $edge[1][0]; $y1 = $edge[1][1];}elseif( $found = ($x1==$edge[1][0] && $y1==$edge[1][1]) ) {array_unshift($polygons[$pol],array($edge[0][0],$edge[0][1]));$x2 = $x1; $y2 = $y1;$x1 = $edge[0][0]; $y1 = $edge[0][1];}if( $found ) {$this->dbg(" --Found next edge: [i=$i], ($x1,$y1) -> (%,%)");unset($edges[$i]);$edges = array_values($edges);}}} while( $found );}}$pol++;}}return $polygons;}}define('HORIZ_EDGE',0);define('VERT_EDGE',1);class FillGridRect {private $edges,$dataPoints,$colors,$isoBars;private $invert=false;function __construct(&$edges,&$dataPoints,$isoBars,$colors) {$this->edges = $edges;$this->dataPoints = $dataPoints;$this->colors = $colors;$this->isoBars = $isoBars;}function GetIsobarColor($val) {for ($i = 0 ; $i < count($this->isoBars) ; $i++) {if( $val <= $this->isoBars[$i] ) {return $this->colors[$i];}}return $this->colors[$i]; // The color for all values above the highest isobar}function GetIsobarVal($a,$b) {// Get the isobar that is between the values a and b// If there are more isobars then return the one with lowest indexif( $b < $a ) {$t=$a; $a=$b; $b=$t;}$i = 0 ;$n = count($this->isoBars);while( $i < $n && $this->isoBars[$i] < $a ) {++$i;}if( $i >= $n )die("Internal error. Cannot find isobar values for ($a,$b)");return $this->isoBars[$i];}function getCrossingCoord($aRow,$aCol,$aEdgeDir,$aIsobarVal) {// In order to avoid numerical problem when two vertices are very close// we have to check and avoid dividing by close to zero denumerator.if( $aEdgeDir == HORIZ_EDGE ) {$d = abs($this->dataPoints[$aRow][$aCol] - $this->dataPoints[$aRow][$aCol+1]);if( $d > 0.001 ) {$xcoord = $aCol + abs($aIsobarVal - $this->dataPoints[$aRow][$aCol]) / $d;}else {$xcoord = $aCol;}$ycoord = $aRow;}else {$d = abs($this->dataPoints[$aRow][$aCol] - $this->dataPoints[$aRow+1][$aCol]);if( $d > 0.001 ) {$ycoord = $aRow + abs($aIsobarVal - $this->dataPoints[$aRow][$aCol]) / $d;}else {$ycoord = $aRow;}$xcoord = $aCol;}if( $this->invert ) {$ycoord = $this->nbrRows-1 - $ycoord;}return array($xcoord,$ycoord);}function Fill(ContCanvas $canvas) {$nx_vertices = count($this->dataPoints[0]);$ny_vertices = count($this->dataPoints);// Loop through all squares in the gridfor($col=0; $col < $nx_vertices-1; ++$col) {for($row=0; $row < $ny_vertices-1; ++$row) {$n = 0;$quad_edges=array();if ( $this->edges[VERT_EDGE][$row][$col] ) $quad_edges[$n++] = array($row, $col, VERT_EDGE);if ( $this->edges[VERT_EDGE][$row][$col+1] ) $quad_edges[$n++] = array($row, $col+1,VERT_EDGE);if ( $this->edges[HORIZ_EDGE][$row][$col] ) $quad_edges[$n++] = array($row, $col, HORIZ_EDGE);if ( $this->edges[HORIZ_EDGE][$row+1][$col] ) $quad_edges[$n++] = array($row+1,$col, HORIZ_EDGE);if( $n == 0 ) {// Easy, fill the entire quadrant with one color since we have no crossings// Select the top left datapoint as representing this quadrant// color for this quadrant$color = $this->GetIsobarColor($this->dataPoints[$row][$col]);$polygon = array($col,$row,$col,$row+1,$col+1,$row+1,$col+1,$row,$col,$row);$canvas->FilledPolygon($polygon,$color);} elseif( $n==2 ) {// There is one isobar edge crossing this quadrant. In order to fill we need to// find out the orientation of the two areas this edge is separating in order to// construct the two polygons that define the two areas to be filled// There are six possible variants// 0) North-South// 1) West-East// 2) West-North// 3) East-North// 4) West-South// 5) East-South$type=-1;if( $this->edges[HORIZ_EDGE][$row][$col] ) {if( $this->edges[HORIZ_EDGE][$row+1][$col] ) $type=0; // North-Southelseif( $this->edges[VERT_EDGE][$row][$col] ) $type=2;elseif( $this->edges[VERT_EDGE][$row][$col+1] ) $type=3;}elseif( $this->edges[HORIZ_EDGE][$row+1][$col] ) {if( $this->edges[VERT_EDGE][$row][$col] ) $type=4;elseif( $this->edges[VERT_EDGE][$row][$col+1] ) $type=5;}else {$type=1;}if( $type==-1 ) {die('Internal error: n=2 but no edges in the quadrant was find to determine type.');}switch( $type ) {case 0: //North-South// North vertice$v1 = $this->dataPoints[$row][$col];$v2 = $this->dataPoints[$row][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x1,$y1) = $this->getCrossingCoord($row, $col,HORIZ_EDGE, $isobarValue);// South vertice$v1 = $this->dataPoints[$row+1][$col];$v2 = $this->dataPoints[$row+1][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x2,$y2) = $this->getCrossingCoord($row+1, $col,HORIZ_EDGE, $isobarValue);$polygon = array($col,$row,$x1,$y1,$x2,$y2,$col,$row+1,$col,$row);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v1));$polygon = array($col+1,$row,$x1,$y1,$x2,$y2,$col+1,$row+1,$col+1,$row);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v2));break;case 1: // West-East// West vertice$v1 = $this->dataPoints[$row][$col];$v2 = $this->dataPoints[$row+1][$col];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x1,$y1) = $this->getCrossingCoord($row, $col,VERT_EDGE, $isobarValue);// East vertice$v1 = $this->dataPoints[$row][$col+1];$v2 = $this->dataPoints[$row+1][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x2,$y2) = $this->getCrossingCoord($row, $col+1,VERT_EDGE, $isobarValue);$polygon = array($col,$row,$x1,$y1,$x2,$y2,$col+1,$row,$col,$row);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v1));$polygon = array($col,$row+1,$x1,$y1,$x2,$y2,$col+1,$row+1,$col,$row+1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v2));break;case 2: // West-North// West vertice$v1 = $this->dataPoints[$row][$col];$v2 = $this->dataPoints[$row+1][$col];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x1,$y1) = $this->getCrossingCoord($row, $col,VERT_EDGE, $isobarValue);// North vertice$v1 = $this->dataPoints[$row][$col];$v2 = $this->dataPoints[$row][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x2,$y2) = $this->getCrossingCoord($row, $col,HORIZ_EDGE, $isobarValue);$polygon = array($col,$row,$x1,$y1,$x2,$y2,$col,$row);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v1));$polygon = array($x1,$y1,$x2,$y2,$col+1,$row,$col+1,$row+1,$col,$row+1,$x1,$y1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v2));break;case 3: // East-North// if( $row==3 && $col==1 && $n==2 ) {// echo " ** East-North<br>";// }// East vertice$v1 = $this->dataPoints[$row][$col+1];$v2 = $this->dataPoints[$row+1][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x1,$y1) = $this->getCrossingCoord($row, $col+1,VERT_EDGE, $isobarValue);//// if( $row==3 && $col==1 && $n==2 ) {// echo " ** E_val($v1,$v2), isobar=$isobarValue<br>";// echo " ** E($x1,$y1)<br>";// }// North vertice$v1 = $this->dataPoints[$row][$col];$v2 = $this->dataPoints[$row][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x2,$y2) = $this->getCrossingCoord($row, $col,HORIZ_EDGE, $isobarValue);// if( $row==3 && $col==1 && $n==2 ) {// echo " ** N_val($v1,$v2), isobar=$isobarValue<br>";// echo " ** N($x2,$y2)<br>";// }// if( $row==3 && $col==1 && $n==2 )// $canvas->Line($x1,$y1,$x2,$y2,'blue');$polygon = array($x1,$y1,$x2,$y2,$col+1,$row,$x1,$y1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v2));$polygon = array($col,$row,$x2,$y2,$x1,$y1,$col+1,$row+1,$col,$row+1,$col,$row);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v1));break;case 4: // West-South// West vertice$v1 = $this->dataPoints[$row][$col];$v2 = $this->dataPoints[$row+1][$col];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x1,$y1) = $this->getCrossingCoord($row, $col,VERT_EDGE, $isobarValue);// South vertice$v1 = $this->dataPoints[$row+1][$col];$v2 = $this->dataPoints[$row+1][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x2,$y2) = $this->getCrossingCoord($row+1, $col,HORIZ_EDGE, $isobarValue);$polygon = array($col,$row+1,$x1,$y1,$x2,$y2,$col,$row+1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v1));$polygon = array($x1,$y1,$x2,$y2,$col+1,$row+1,$col+1,$row,$col,$row,$x1,$y1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v2));break;case 5: // East-South//// if( $row==1 && $col==1 && $n==2 ) {// echo " ** Sout-East<br>";// }// East vertice$v1 = $this->dataPoints[$row][$col+1];$v2 = $this->dataPoints[$row+1][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x1,$y1) = $this->getCrossingCoord($row, $col+1,VERT_EDGE, $isobarValue);// if( $row==1 && $col==1 && $n==2 ) {// echo " ** E_val($v1,$v2), isobar=$isobarValue<br>";// echo " ** E($x1,$y1)<br>";// }// South vertice$v1 = $this->dataPoints[$row+1][$col];$v2 = $this->dataPoints[$row+1][$col+1];$isobarValue = $this->GetIsobarVal($v1, $v2);list($x2,$y2) = $this->getCrossingCoord($row+1, $col,HORIZ_EDGE, $isobarValue);// if( $row==1 && $col==1 && $n==2 ) {// echo " ** S_val($v1,$v2), isobar=$isobarValue<br>";// echo " ** S($x2,$y2)<br>";// }$polygon = array($col+1,$row+1,$x1,$y1,$x2,$y2,$col+1,$row+1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v2));$polygon = array($x1,$y1,$x2,$y2,$col,$row+1,$col,$row,$col+1,$row,$x1,$y1);$canvas->FilledPolygon($polygon,$this->GetIsobarColor($v1));break;}}}}}}class ContCanvas {public $g;public $shape,$scale;function __construct($xmax=6,$ymax=6,$width=400,$height=400) {$this->g = new CanvasGraph($width,$height);$this->scale = new CanvasScale($this->g, 0, $xmax, 0, $ymax);$this->shape = new Shape($this->g, $this->scale);//$this->g->SetFrame(true);$this->g->SetMargin(5,5,5,5);$this->g->SetMarginColor('white@1');$this->g->InitFrame();$this->shape->SetColor('gray');for( $col=1; $col<$xmax; ++$col ) {$this->shape->Line($col, 0, $col, $ymax);}for( $row=1; $row<$ymax; ++$row ) {$this->shape->Line(0, $row, $xmax, $row);}}function SetDatapoints($datapoints) {$ny=count($datapoints);$nx=count($datapoints[0]);$t = new Text();$t->SetFont(FF_ARIAL,FS_NORMAL,8);for( $x=0; $x < $nx; ++$x ) {for( $y=0; $y < $ny; ++$y ) {list($x1,$y1) = $this->scale->Translate($x,$y);if( $datapoints[$y][$x] > 0 )$t->SetColor('blue');else$t->SetColor('black');$t->SetFont(FF_ARIAL,FS_BOLD,8);$t->Set($datapoints[$y][$x]);$t->Stroke($this->g->img,$x1,$y1);$t->SetColor('gray');$t->SetFont(FF_ARIAL,FS_NORMAL,8);$t->Set("($y,$x)");$t->Stroke($this->g->img,$x1+10,$y1);}}}function DrawLinePolygons($p,$color='red') {$this->shape->SetColor($color);for ($i = 0 ; $i < count($p) ; $i++) {$x1 = $p[$i][0][0]; $y1 = $p[$i][0][1];for ($j = 1 ; $j < count($p[$i]) ; $j++) {$x2=$p[$i][$j][0]; $y2 = $p[$i][$j][1];$this->shape->Line($x1, $y1, $x2, $y2);$x1=$x2; $y1=$y2;}}}function Line($x1,$y1,$x2,$y2,$color='red') {$this->shape->SetColor($color);$this->shape->Line($x1, $y1, $x2, $y2);}function Polygon($p,$color='blue') {$this->shape->SetColor($color);$this->shape->Polygon($p);}function FilledPolygon($p,$color='lightblue') {$this->shape->SetColor($color);$this->shape->FilledPolygon($p);}function Point($x,$y,$color) {list($x1,$y1) = $this->scale->Translate($x, $y);$this->shape->SetColor($color);$this->g->img->Point($x1,$y1);}function Stroke() {$this->g->Stroke();}}class PixelFill {private $edges,$dataPoints,$colors,$isoBars;function __construct(&$edges,&$dataPoints,$isoBars,$colors) {$this->edges = $edges;$this->dataPoints = $dataPoints;$this->colors = $colors;$this->isoBars = $isoBars;}function GetIsobarColor($val) {for ($i = 0 ; $i < count($this->isoBars) ; $i++) {if( $val <= $this->isoBars[$i] ) {return $this->colors[$i];}}return $this->colors[$i]; // The color for all values above the highest isobar}function Fill(ContCanvas $canvas) {$nx_vertices = count($this->dataPoints[0]);$ny_vertices = count($this->dataPoints);// Loop through all squares in the gridfor($col=0; $col < $nx_vertices-1; ++$col) {for($row=0; $row < $ny_vertices-1; ++$row) {$v=array($this->dataPoints[$row][$col],$this->dataPoints[$row][$col+1],$this->dataPoints[$row+1][$col+1],$this->dataPoints[$row+1][$col],);list($x1,$y1) = $canvas->scale->Translate($col, $row);list($x2,$y2) = $canvas->scale->Translate($col+1, $row+1);for( $x=$x1; $x < $x2; ++$x ) {for( $y=$y1; $y < $y2; ++$y ) {$v1 = $v[0] + ($v[1]-$v[0])*($x-$x1)/($x2-$x1);$v2 = $v[3] + ($v[2]-$v[3])*($x-$x1)/($x2-$x1);$val = $v1 + ($v2-$v1)*($y-$y1)/($y2-$y1);if( $row==2 && $col==2 ) {//echo " ($val ($x,$y)) (".$v[0].",".$v[1].",".$v[2].",".$v[3].")<br>";}$color = $this->GetIsobarColor($val);$canvas->g->img->SetColor($color);$canvas->g->img->Point($x, $y);}}}}}}$edges=array(array(),array(),array());$datapoints=array();for($col=0; $col<6; $col++) {for($row=0; $row<6; $row++) {$datapoints[$row][$col]=0;$edges[VERT_EDGE][$row][$col] = false;$edges[HORIZ_EDGE][$row][$col] = false;}}$datapoints[1][2] = 2;$datapoints[2][1] = 1;$datapoints[2][2] = 7;$datapoints[2][3] = 2;$datapoints[3][1] = 2;$datapoints[3][2] = 17;$datapoints[3][3] = 4;$datapoints[4][2] = 3;$datapoints[1][4] = 12;$edges[VERT_EDGE][1][2] = true;$edges[VERT_EDGE][3][2] = true;$edges[HORIZ_EDGE][2][1] = true;$edges[HORIZ_EDGE][2][2] = true;$edges[HORIZ_EDGE][3][1] = true;$edges[HORIZ_EDGE][3][2] = true;$isobars = array(5,10,15);$colors = array('lightgray','lightblue','lightred','red');$engine = new PixelFill($edges, $datapoints, $isobars, $colors);$canvas = new ContCanvas();$engine->Fill($canvas);$canvas->SetDatapoints($datapoints);$canvas->Stroke();die();//$tst = new Findpolygon();//$p1 = $tst->SetupTestData();////$canvas = new ContCanvas();//for ($i = 0 ; $i < count($tst->contourCoord); $i++) {// $canvas->DrawLinePolygons($tst->contourCoord[$i]);//}////$p2 = $tst->FindPolygons();//for ($i = 0 ; $i < count($p2) ; $i++) {// $canvas->FilledPolygon($tst->flattenEdges($p2[$i]));//}////for ($i = 0 ; $i < count($p2) ; $i++) {// $canvas->Polygon($tst->flattenEdges($p2[$i]));//}////$canvas->Stroke();//die();//for( $trial = 0; $trial < 1; ++$trial ) {// echo "\nTest $trial:\n";// echo "========================================\n";// $tst = new Findpolygon();// $p1 = $tst->SetupTestData();//// // for ($i = 0 ; $i < count($p1) ; $i++) {// // echo "Test polygon $i:\n";// // echo "---------------------\n";// // $tst->p_edges($tst->contourCoord[$i]);// // echo "\n";// // }// //// $p2 = $tst->FindPolygons();// $npol = count($p2);// //echo "\n** Found $npol separate polygon chains.\n\n";//// for( $i=0; $i<$npol; ++$i ) {//// $res_forward = $tst->CompareCyclic($p1[$i], $p2[$i],true);// $res_backward = $tst->CompareCyclic($p1[$i], $p2[$i],false);// if( $res_backward || $res_forward ) {// // if( $res_forward )// // echo "Forward matches!\n";// // else// // echo "Backward matches!\n";// }// else {// echo "********** NO MATCH!!.\n\n";// echo "\nBefore find:\n";// for ($j = 0 ; $j < count($p1[$i]) ; $j++) {// echo "(".$p1[$i][$j][0].','.$p1[$i][$j][1]."), ";// }// echo "\n";//// echo "\nAfter find:\n";// for ($j = 0 ; $j < count($p2[$i]) ; $j++) {// echo "(".$p2[$i][$j][0].','.$p2[$i][$j][1]."), ";// }// echo "\n";// }//// }//}////echo "\n\nAll tests ready.\n\n";//?>