imagepolygon

(PHP 4, PHP 5)

imagepolygon — 画一个多边形

说明

bool imagepolygon ( resource $image , array $points , int $num_points , int $color )

imagepolygon() 在图像中创建一个多边形。points 是一个 PHP 数组，包含了多边形的各个顶点坐标，即 points[0] = x0，points[1] = y0，points[2] = x1，points[3] = y1，以此类推。num_points 是顶点的总数。

Example #1 imagepolygon() 例子


<?php
// create a blank image
$image = imagecreatetruecolor(400, 300);

// fill the background color
$bg = imagecolorallocate($image, 0, 0, 0);

// choose a color for the polygon
$col_poly = imagecolorallocate($image, 255, 255, 255);

// draw the polygon
imagepolygon($image,
             array (
                    0, 0,
                    100, 200,
                    300, 200
             ),
             3,
             $col_poly);

// output the picture
header("Content-type: image/png");
imagepng($image);

?>

参见 imagecreate() 和 imagecreatetruecolor()。

PHP手册 - N: 画一个多边形

用户评论:

tatlar at yahoo dot com (12-Sep-2006 12:48)

Function to get 5-sided polygon (pentagon) or star (pentagram) co-ords. <?php function _makeFiveSidedStar( $x, $y, $radius, $shape='polygon', $spiky=NULL ) { $point = array() ; // new 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 ; // degree of spikiness, 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' ) ; ?>

glowell at flash dot net (17-Nov-2005 11:43)

Something to be aware of, ImagePolygon appears to convert the array of points passed to it from whatever format they may have been in originally into integers. This means if you pass it an array of floats (after running a rotation routine for example) the floats will be changed to integers INSIDE THE ORIGINAL ARRAY. An extreme example: if for some reason you had an unit-sized polygon pt-array ( -1<x|y<1 for easy scaling purpose for instance) and for some reason your code calls imagepolygon on it (why? it'd only be a dot anyway) the array would be unusable after that (all either 1s, 0s or -1s). Scaling a unit-sized array, drawing it and then scaling it again will also may have a different result than expected. Obviously, if the array in its original state is important to your code, it should use a copy of the original array for this call. If your code draws the same polygon multiple times but resizes it for different cases, you should have each size be created off an original template rather than adjusting a single polygon array.

jsnell at networkninja dot com (18-Feb-2001 03:07)

Here are some handy routines for rotation and translation of polygons. Scaling could be added easily as well. <?php function translate_point(&$x,&$y,$angle,$about_x,$about_y,$shift_x,$shift_y) { $x -= $about_x; $y -= $about_y; $angle = ($angle / 180) * M_PI; /* math: [x2,y2] = [x, * [[cos(a),-sin(a)], y] [sin(a),cos(a)]] ==> x = x * cos(a) + y*sin(a) y = x*-sin(a) + y*cos(a) */ $new_x = $x * cos($angle) - $y * sin($angle); $new_y = $x * sin($angle) + $y * cos($angle); $x = $new_x+ $about_x + $shift_x ; $y = $new_y + $about_y + $shift_y; } function translate_poly($point_array, $angle, $about_x, $about_y,$shift_x,$shift_y) { $translated_poly = Array(); while(count($point_array) > 1) { $temp_x = array_shift($point_array); $temp_y = array_shift($point_array); translate_point($temp_x, $temp_y, $angle, $about_x, $about_y,$shift_x, $shift_y); array_push($translated_poly, $temp_x); array_push($translated_poly, $temp_y); } return $translated_poly; } ?>