PHP 8.4.0 RC2 available for testing

imagefilledpolygon

(PHP 4, PHP 5, PHP 7, PHP 8)

imagefilledpolygonİçi dolu bir çokgen çizer

Açıklama

PHP 8.0.0 ve üstü için sözdizimi (isimli bağımsız değişkenler desteklenmez)

imagefilledpolygon(GdImage $görüntü, array $noktalar, int $renk): bool

Diğer sözdizimi (PHP 8.1.0 ve sonrası için önerilmiyor)

imagefilledpolygon(
    GdImage $görüntü,
    array $noktalar,
    int $nokta_sayısı,
    int $renk
): bool

imagefilledpolygon() belirtilen görüntü üzerinde içi dolu bir çokgen çizer.

Bağımsız Değişkenler

görüntü

imagecreatetruecolor() gibi bir görüntü oluşturma işlevinden dönen bir GdImage nesnesi.

noktalar

Çokgeni oluşturan kırık çizginin kırılma noktalarının x ve y koordinatlarını çizilme sırasıyla içeren dizi.

nokta_sayısı

Kırılma noktalarının sayısı; en az 3 olmalıdır.

İkinci sözdizimindeki gibi bu bağımsız değişken atlanırsa, noktalar çift sayıda öğeye sahip olmalı ve nokta_sayısının count($noktalar)/2 olduğu varsayılmalıdır.
renk

Dolgu rengi. imagecolorallocate() işlevi le oluşturulmuş bir renk tanıtıcı.

Dönen Değerler

Başarı durumunda true, başarısızlık durumunda false döner.

Sürüm Bilgisi

Sürüm: Açıklama
8.1.0 nokta_sayısı bağımsız değişkeninin kullanımı artık önerilmiyor.
8.0.0 görüntü bağımsız değişkeninde artık bir GdImage nesnesi aktarmak gerekiyor; evvelce resource türünde geçerli bir gd değeri gerekirdi.

Örnekler

Örnek 1 - imagefilledpolygon() örneği

<?php
// Kırık çizginin kırılma noktalarını içeren dizi
$values = array(
40, 50, // Nokta 1 (x, y)
20, 240, // Nokta 2 (x, y)
60, 60, // Nokta 3 (x, y)
240, 20, // Nokta 4 (x, y)
50, 40, // Nokta 5 (x, y)
10, 10 // Nokta 6 (x, y)
);

// Tuvalimizi oluşturalım
$image = imagecreatetruecolor(250, 250);

// renkleri seçelim
$bg = imagecolorallocate($image, 0, 0, 0);
$mavi = imagecolorallocate($image, 0, 0, 255);

// artalanı boyayalım
imagefilledrectangle($image, 0, 0, 249, 249, $bg);

// çokgeni çizelim
imagefilledpolygon($image, $values, 6, $mavi);

// görüntüyü çıktılayalım.
header('Content-Type: image/png');
imagepng($image);
imagedestroy($image);
?>

Yukarıdaki örnek şuna benzer bir çıktı üretir:

Örnek çıktısı: imagefilledpolygon()

Ayrıca Bakınız

add a note

User Contributed Notes 9 notes

up
0
martin at eksperimentrum dot dk
6 years ago
How to draw a simple 6-sided star img where x,y is center of the star and s is the size:

function drawStar($img, $x, $y, $s, $color) {
$x=$x-$s/2;
$y=$y-$s/4;
$points=array($x,$y, $x+$s/2,$y+$s, $x+$s,$y);
imagefilledpolygon($img, $points, 3, $color);
$points=array($x,2/3*$s+$y, $x+$s/2,$y-$s/3, $x+$s,2/3*$s+$y);
imagefilledpolygon($img, $points, 3, $color);
}
up
0
Steween
7 years ago
My version of drawStar (with examples)

<?php
header
("Content-type: image/png");

/* drawStar or regular polygon
$x, $y -> Position in the image
$radius -> Radius of the star
$spikes -> Number of spikes (min 2)
$ratio -> Ratio between outer and inner points
$dir -> Rotation 270° for having an up spike( with ratio<1)
*/
function drawStar($x, $y, $radius, $spikes=5, $ratio=0.5, $dir=270) {
$coordinates = array();
$angle = 360 / $spikes ;
for(
$i=0; $i<$spikes; $i++){
$coordinates[] = $x + ( $radius * cos(deg2rad($dir+$angle*$i)));
$coordinates[] = $y + ( $radius * sin(deg2rad($dir+$angle*$i)));
$coordinates[] = $x + ($ratio*$radius * cos(deg2rad($dir+$angle*$i + $angle/2)));
$coordinates[] = $y + ($ratio*$radius * sin(deg2rad($dir+$angle*$i + $angle/2)));
}
return
$coordinates ;
}

// 14*20+24*2 = 328 Examples
$im = imagecreate(800,600);
imagecolorallocate($im, 0, 0, 0);
$w = imagecolorallocate($im, 255, 255, 255);
$r = imagecolorallocate($im, 255, 0, 0);
for (
$spikes=2; $spikes<16; $spikes++) { //[2-15]
for ($ratio=1; $ratio<21; $ratio++) { //[0.1-2.0]
$values = drawStar(40*$ratio-20, $spikes*40-60, 10, $spikes, $ratio/10);
imagefilledpolygon($im, $values, count($values)/2, ($ratio % 5 == 0) ? $r : $w);
}
}
for (
$dir=0; $dir<24; $dir++) {
$values = drawStar(30*$dir+20, 580, 10, 2, 1.5, $dir*15);
imagefilledpolygon($im, $values, count($values)/2, $w);
$values = drawStar(30*$dir+20, 580, 10, 2, 0.2, $dir*15);
imagefilledpolygon($im, $values, count($values)/2, $r);
}
imagepng($im);
imagedestroy($im);
?>
up
0
rbenheidorn at gmail dot com
9 years ago
Discovered while working on printing geographical boundaries to an image: if you provide floating point vertices, then the decimal value is automatically truncated. This can cause images drawn with floating point vertices to shift slightly towards the top-left corner. My personal resolution is to round all of the vertices to their nearest whole values, which eliminates this shift.
up
0
austinoblouk at yahoo dot com
15 years ago
Actually the minimum it allows is 3. It says "Total number of vertices, which must be bigger than 3." but it allows 3...
up
0
webmaster at mywebsolution dot de
16 years ago
Just thought that 'tatlar at yahoo dot com's function has some redundant code in it, so I tried to "improve" it. Now you can choose a variable number of spikes.

<?php
error_reporting
(E_ALL);
function
drawStar($x, $y, $radius, $spikes=5) {
// $x, $y -> Position in the image
// $radius -> Radius of the star
// $spikes -> Number of spikes

$coordinates = array();
$angel = 360 / $spikes ;

// Get the coordinates of the outer shape of the star
$outer_shape = array();
for(
$i=0; $i<$spikes; $i++){
$outer_shape[$i]['x'] = $x + ($radius * cos(deg2rad(270 - $angel*$i)));
$outer_shape[$i]['y'] = $y + ($radius * sin(deg2rad(270 - $angel*$i)));
}

// Get the coordinates of the inner shape of the star
$inner_shape = array();
for(
$i=0; $i<$spikes; $i++){
$inner_shape[$i]['x'] = $x + (0.5*$radius * cos(deg2rad(270-180 - $angel*$i)));
$inner_shape[$i]['y'] = $y + (0.5*$radius * sin(deg2rad(270-180 - $angel*$i)));
}

// Bring the coordinates in the right order
foreach($inner_shape as $key => $value){
if(
$key == (floor($spikes/2)+1))
break;
$inner_shape[] = $value;
unset(
$inner_shape[$key]);
}

// Reset the keys
$i=0;
foreach(
$inner_shape as $value){
$inner_shape[$i] = $value;
$i++;
}

// "Merge" outer and inner shape
foreach($outer_shape as $key => $value){
$coordinates[] = $outer_shape[$key]['x'];
$coordinates[] = $outer_shape[$key]['y'];
$coordinates[] = $inner_shape[$key]['x'];
$coordinates[] = $inner_shape[$key]['y'];
}

// Return the coordinates
return $coordinates ;
}

// Example
$spikes = 5;

$values = drawStar(250, 250, 200, $spikes);
$im = imagecreate(500,500);
imagecolorallocate($im,0,0,0);
$w = imagecolorallocate($im, 255, 255, 255);
imagefilledpolygon($im, $values, $spikes*2, $w);
imageGIF($im);
imagedestroy($im);
?>
up
0
jylyn at hotmail dot com
17 years ago
In spite of what it says about requiring more than 3 vertices, it is possible to draw a triangle with this function!
up
0
etnekor at tar dot hu
18 years ago
There is a simple function to draw a filled point with a chosen radius and color.

<?php
function drawPoint($img, $radius, $origo_x, $origo_y, $pointColor)
{
for (
$i=0;$i<=360;$i++)
{
$pont[] = $origo_x + ($radius * sin(deg2rad($i)));
$pont[] = $origo_y - ($radius * cos(deg2rad($i)));
}
reset($pont);
ImageFilledPolygon ($img, $pont, (sizeof($pont)/2), $pointColor);
}
?>
up
-1
tatlar at yahoo dot com
18 years ago
<?php function _makeFiveSidedStar( $x, $y, $radius, $shape='polygon', $spiky=NULL ) {
// $x, $y co-ords of origin (in pixels), $radius (in pixels), $shape - 'polygon' or 'star', $spikiness - ratio between 0 and 1
$point = array() ;
$angle = 360 / 5 ;
$point[0]['x'] = $x ;
$point[0]['y'] = $y - $radius ;
$point[2]['x'] = $x + ( $radius * cos( deg2rad( 90 - $angle ) ) ) ;
$point[2]['y'] = $y - ( $radius * sin( deg2rad( 90 - $angle ) ) ) ;
$point[4]['x'] = $x + ( $radius * sin( deg2rad( 180 - ( $angle*2 ) ) ) ) ;
$point[4]['y'] = $y + ( $radius * cos( deg2rad( 180 - ( $angle*2 ) ) ) ) ;
$point[6]['x'] = $x - ( $radius * sin( deg2rad( 180 - ( $angle*2 ) ) ) ) ;
$point[6]['y'] = $y + ( $radius * cos( deg2rad( 180 - ( $angle*2 ) ) ) ) ;
$point[8]['x'] = $x - ( $radius * cos( deg2rad( 90 - $angle ) ) ) ;
$point[8]['y'] = $y - ( $radius * sin( deg2rad( 90 - $angle ) ) ) ;
if(
$shape == 'star' ) {
if(
$spiky == NULL ) $spiky = 0.5 ; // default to 0.5
$indent = $radius * $spiky ;
$point[1]['x'] = $x + ( $indent * cos( deg2rad( 90 - $angle/2 ) ) ) ;
$point[1]['y'] = $y - ( $indent * sin( deg2rad( 90 - $angle/2 ) ) ) ;
$point[3]['x'] = $x + ( $indent * sin( deg2rad( 180 - $angle ) ) ) ;
$point[3]['y'] = $y - ( $indent * cos( deg2rad( 180 - $angle ) ) ) ;
$point[5]['x'] = $x ;
$point[5]['y'] = $y + ( $indent * sin( deg2rad( 180 - $angle ) ) ) ;
$point[7]['x'] = $x - ( $indent * sin( deg2rad( 180 - $angle ) ) ) ;
$point[7]['y'] = $y - ( $indent * cos( deg2rad( 180 - $angle ) ) ) ;
$point[9]['x'] = $x - ( $indent * cos( deg2rad( 90 - $angle/2 ) ) ) ;
$point[9]['y'] = $y - ( $indent * sin( deg2rad( 90 - $angle/2 ) ) ) ;
}
ksort( $point ) ;
$coords = array() ; // new array
foreach( $point as $pKey=>$pVal ) {
if(
is_array( $pVal ) ) {
foreach(
$pVal as $pSubKey=>$pSubVal ) {
if( !empty(
$pSubVal ) ) array_push( $coords, $pSubVal ) ;
}
}
}
return
$coords ;
}
$values = _makeFiveSidedStar( 100, 100, 50, 'star' ) ;
// Put values into imagepolygon function. You need to define the $image and $color, and flush it out to an image type.?>
up
-2
Arnapou
16 years ago
I discovered that the GD imagefilledpolygon function is incorrect for some drawing with transparent color (for example red 50% : RGBA = 255, 0, 0, 64).

I tried to draw a complex form with lots of points really near (1 pixel of distance) and a transparent red.

The problem was : some border pixels were not drawn by the imagefilledpolygon but were drawn with imagepolygon !?!?

So I wrote my own imagefilledpolygon function which work very well in all case I tested.

<?php
// $points should be an array of coordinates like that :
$points = array(
array(
0, 0),
array(
100, 50),
array(
90, 100),
array(
50, 50),
array(
70, 30),
array(
10, 10),
);
?>

<?php
function myimagefilledpolygon(& $img, $points, $color) {
$scanline = 99999;
// compute edges
$all_edges = array();
$n = count($points);
for(
$i=0; $i<$n; $i++) {
$p1 = $points[$i];
if (
$i == $n-1) { $p2 = $points[0]; } else { $p2 = $points[$i+1]; }
$x1 = $p1[0]; $y1 = $p1[1];
$x2 = $p2[0]; $y2 = $p2[1];
if (
$y1 != $y2) {
$invslope = ($x2 - $x1)/($y2 - $y1);
if (
$y1 < $y2 ) {
$ymin = $y1;
$xval = $x1;
$ymax = $y2;
} else {
$ymin = $y2;
$xval = $x2;
$ymax = $y1;
}
$all_edges[] = array($ymin, $ymax, $xval, $invslope);
if (
$ymin < $scanline) { $scanline = $ymin; }
} else {
if (
$y1 < $scanline) { $scanline = $y1; }
if (
$y2 < $scanline) { $scanline = $y2; }
}
}
// draw
$active = array();
do {
// add edges to active array
$tmp = array();
$n = count($all_edges);
for(
$i=0; $i<$n; $i++) {
if (
$all_edges[$i][0] == $scanline) {
$active[] = $all_edges[$i];
} else {
$tmp[] = $all_edges[$i];
}
}
$all_edges = $tmp;
// remove previous edges from active array
$tmp = array();
$n = count($active);
for(
$i=0; $i<$n; $i++) {
if (
$active[$i][1] > $scanline) {
$tmp[] = $active[$i];
}
}
$active = $tmp;
// sort active tab
$n = count($active);
for(
$i=0; $i<$n-1; $i++) {
$min = $i;
for(
$k=$i+1; $k<$n; $k++) {
if (
$active[$k][2] < $active[$min][2]) { $min = $k; }
}
if (
$i != $min) {
$tmp = $active[$i];
$active[$i] = $active[$min];
$active[$min] = $tmp;
}
}
// draw
$n = count($active);
for(
$i=0; $i<$n; $i+=2) {
if (
$i+1 < $n) {
if (
$tmp[$i][2] == $active[$i+1][2]) {
imagesetpixel($img, round($active[$i][2]), $scanline, $color);
} else {
imageline($img, round($active[$i][2]), $scanline, round($active[$i+1][2]), $scanline, $color);
}
}
}
// increment x values
$n = count($active);
for(
$i=0; $i<$n; $i++) { $active[$i][2] += $active[$i][3]; }
$scanline++;
} while (
count($all_edges) + count($active) > 0);
}
?>
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