1. /data/phpBB
  2. phpbb
  3. captcha
  4. char_cube3d.php
 
Code Coverage
 
Classes and Traits
Functions and Methods
Lines
Total
0.00% covered (danger)
0.00%
0 / 1
0.00% covered (danger)
0.00%
0 / 11
 CRAP
0.00% covered (danger)
0.00%
0 / 159
char_cube3d
0.00% covered (danger)
0.00%
0 / 1
0.00% covered (danger)
0.00%
0 / 11
 1056
0.00% covered (danger)
0.00%
0 / 159
 __construct
0.00% covered (danger)
0.00%
0 / 1
 72
0.00% covered (danger)
0.00%
0 / 57
 drawchar
0.00% covered (danger)
0.00%
0 / 1
 72
0.00% covered (danger)
0.00%
0 / 36
 range
0.00% covered (danger)
0.00%
0 / 1
 2
0.00% covered (danger)
0.00%
0 / 3
 vectorlen
0.00% covered (danger)
0.00%
0 / 1
 2
0.00% covered (danger)
0.00%
0 / 3
 normalize
0.00% covered (danger)
0.00%
0 / 1
 6
0.00% covered (danger)
0.00%
0 / 7
 cross_product
0.00% covered (danger)
0.00%
0 / 1
 2
0.00% covered (danger)
0.00%
0 / 7
 sum
0.00% covered (danger)
0.00%
0 / 1
 2
0.00% covered (danger)
0.00%
0 / 3
 sum2
0.00% covered (danger)
0.00%
0 / 1
 2
0.00% covered (danger)
0.00%
0 / 3
 scale
0.00% covered (danger)
0.00%
0 / 1
 6
0.00% covered (danger)
0.00%
0 / 7
 gen_poly
0.00% covered (danger)
0.00%
0 / 1
 2
0.00% covered (danger)
0.00%
0 / 12
 dimensions
0.00% covered (danger)
0.00%
0 / 1
 42
0.00% covered (danger)
0.00%
0 / 21
<?php
/**
*
* This file is part of the phpBB Forum Software package.
*
* @copyright (c) phpBB Limited <https://www.phpbb.com>
* @license GNU General Public License, version 2 (GPL-2.0)
*
* For full copyright and license information, please see
* the docs/CREDITS.txt file.
*
*/
namespace phpbb\captcha;
class char_cube3d
{
    var $bitmap;
    var $bitmap_width;
    var $bitmap_height;
    var $basis_matrix = array(array(1, 0, 0), array(0, 1, 0), array(0, 0, 1));
    var $abs_x = array(1, 0);
    var $abs_y = array(0, 1);
    var $x = 0;
    var $y = 1;
    var $z = 2;
    var $letter = '';
    /**
    */
    function __construct(&$bitmaps, $letter)
    {
        $this->bitmap            = $bitmaps['data'][$letter];
        $this->bitmap_width        = $bitmaps['width'];
        $this->bitmap_height    = $bitmaps['height'];
        $this->basis_matrix[0][0] = mt_rand(-600, 600);
        $this->basis_matrix[0][1] = mt_rand(-600, 600);
        $this->basis_matrix[0][2] = (mt_rand(0, 1) * 2000) - 1000;
        $this->basis_matrix[1][0] = mt_rand(-1000, 1000);
        $this->basis_matrix[1][1] = mt_rand(-1000, 1000);
        $this->basis_matrix[1][2] = mt_rand(-1000, 1000);
        $this->normalize($this->basis_matrix[0]);
        $this->normalize($this->basis_matrix[1]);
        $this->basis_matrix[2] = $this->cross_product($this->basis_matrix[0], $this->basis_matrix[1]);
        $this->normalize($this->basis_matrix[2]);
        // $this->basis_matrix[1] might not be (probably isn't) orthogonal to $basis_matrix[0]
        $this->basis_matrix[1] = $this->cross_product($this->basis_matrix[0], $this->basis_matrix[2]);
        $this->normalize($this->basis_matrix[1]);
        // Make sure our cube is facing into the canvas (assuming +z == in)
        for ($i = 0; $i < 3; ++$i)
        {
            if ($this->basis_matrix[$i][2] < 0)
            {
                $this->basis_matrix[$i][0] *= -1;
                $this->basis_matrix[$i][1] *= -1;
                $this->basis_matrix[$i][2] *= -1;
            }
        }
        // Force our "z" basis vector to be the one with greatest absolute z value
        $this->x = 0;
        $this->y = 1;
        $this->z = 2;
        // Swap "y" with "z"
        if ($this->basis_matrix[1][2] > $this->basis_matrix[2][2])
        {
            $this->z = 1;
            $this->y = 2;
        }
        // Swap "x" with "z"
        if ($this->basis_matrix[0][2] > $this->basis_matrix[$this->z][2])
        {
            $this->x = $this->z;
            $this->z = 0;
        }
        // Still need to determine which of $x,$y are which.
        // wrong orientation if y's y-component is less than it's x-component
        // likewise if x's x-component is less than it's y-component
        // if they disagree, go with the one with the greater weight difference.
        // rotate if positive
        $weight = (abs($this->basis_matrix[$this->x][1]) - abs($this->basis_matrix[$this->x][0])) + (abs($this->basis_matrix[$this->y][0]) - abs($this->basis_matrix[$this->y][1]));
        // Swap "x" with "y"
        if ($weight > 0)
        {
            list($this->x, $this->y) = array($this->y, $this->x);
        }
        $this->abs_x = array($this->basis_matrix[$this->x][0], $this->basis_matrix[$this->x][1]);
        $this->abs_y = array($this->basis_matrix[$this->y][0], $this->basis_matrix[$this->y][1]);
        if ($this->abs_x[0] < 0)
        {
            $this->abs_x[0] *= -1;
            $this->abs_x[1] *= -1;
        }
        if ($this->abs_y[1] > 0)
        {
            $this->abs_y[0] *= -1;
            $this->abs_y[1] *= -1;
        }
        $this->letter = $letter;
    }
    /**
    * Draw a character
    */
    function drawchar($scale, $xoff, $yoff, $img, $background, $colours)
    {
        $width    = $this->bitmap_width;
        $height    = $this->bitmap_height;
        $bitmap    = $this->bitmap;
        $colour1 = $colours[array_rand($colours)];
        $colour2 = $colours[array_rand($colours)];
        $swapx = ($this->basis_matrix[$this->x][0] > 0);
        $swapy = ($this->basis_matrix[$this->y][1] < 0);
        for ($y = 0; $y < $height; ++$y)
        {
            for ($x = 0; $x < $width; ++$x)
            {
                $xp = ($swapx) ? ($width - $x - 1) : $x;
                $yp = ($swapy) ? ($height - $y - 1) : $y;
                if ($bitmap[$height - $yp - 1][$xp])
                {
                    $dx = $this->scale($this->abs_x, ($xp - ($swapx ? ($width / 2) : ($width / 2) - 1)) * $scale);
                    $dy = $this->scale($this->abs_y, ($yp - ($swapy ? ($height / 2) : ($height / 2) - 1)) * $scale);
                    $xo = $xoff + $dx[0] + $dy[0];
                    $yo = $yoff + $dx[1] + $dy[1];
                    $origin = array(0, 0, 0);
                    $xvec = $this->scale($this->basis_matrix[$this->x], $scale);
                    $yvec = $this->scale($this->basis_matrix[$this->y], $scale);
                    $face_corner = $this->sum2($xvec, $yvec);
                    $zvec = $this->scale($this->basis_matrix[$this->z], $scale);
                    $x_corner = $this->sum2($xvec, $zvec);
                    $y_corner = $this->sum2($yvec, $zvec);
                    imagefilledpolygon($img, $this->gen_poly($xo, $yo, $origin, $xvec, $x_corner,$zvec), 4, $colour1);
                    imagefilledpolygon($img, $this->gen_poly($xo, $yo, $origin, $yvec, $y_corner,$zvec), 4, $colour2);
                    $face = $this->gen_poly($xo, $yo, $origin, $xvec, $face_corner, $yvec);
                    imagefilledpolygon($img, $face, 4, $background);
                    imagepolygon($img, $face, 4, $colour1);
                }
            }
        }
    }
    /*
    * return a roughly acceptable range of sizes for rendering with this texttype
    */
    function range()
    {
        return array(3, 4);
    }
    /**
    * Vector length
    */
    function vectorlen($vector)
    {
        return sqrt(pow($vector[0], 2) + pow($vector[1], 2) + pow($vector[2], 2));
    }
    /**
    * Normalize
    */
    function normalize(&$vector, $length = 1)
    {
        $length = (( $length < 1) ? 1 : $length);
        $length /= $this->vectorlen($vector);
        $vector[0] *= $length;
        $vector[1] *= $length;
        $vector[2] *= $length;
    }
    /**
    */
    function cross_product($vector1, $vector2)
    {
        $retval = array(0, 0, 0);
        $retval[0] =  (($vector1[1] * $vector2[2]) - ($vector1[2] * $vector2[1]));
        $retval[1] = -(($vector1[0] * $vector2[2]) - ($vector1[2] * $vector2[0]));
        $retval[2] =  (($vector1[0] * $vector2[1]) - ($vector1[1] * $vector2[0]));
        return $retval;
    }
    /**
    */
    function sum($vector1, $vector2)
    {
        return array($vector1[0] + $vector2[0], $vector1[1] + $vector2[1], $vector1[2] + $vector2[2]);
    }
    /**
    */
    function sum2($vector1, $vector2)
    {
        return array($vector1[0] + $vector2[0], $vector1[1] + $vector2[1]);
    }
    /**
    */
    function scale($vector, $length)
    {
        if (count($vector) == 2)
        {
            return array($vector[0] * $length, $vector[1] * $length);
        }
        return array($vector[0] * $length, $vector[1] * $length, $vector[2] * $length);
    }
    /**
    */
    function gen_poly($xoff, $yoff, &$vec1, &$vec2, &$vec3, &$vec4)
    {
        $poly = array();
        $poly[0] = $xoff + $vec1[0];
        $poly[1] = $yoff + $vec1[1];
        $poly[2] = $xoff + $vec2[0];
        $poly[3] = $yoff + $vec2[1];
        $poly[4] = $xoff + $vec3[0];
        $poly[5] = $yoff + $vec3[1];
        $poly[6] = $xoff + $vec4[0];
        $poly[7] = $yoff + $vec4[1];
        return $poly;
    }
    /**
    * dimensions
    */
    function dimensions($size)
    {
        $xn = $this->scale($this->basis_matrix[$this->x], -($this->bitmap_width / 2) * $size);
        $xp = $this->scale($this->basis_matrix[$this->x], ($this->bitmap_width / 2) * $size);
        $yn = $this->scale($this->basis_matrix[$this->y], -($this->bitmap_height / 2) * $size);
        $yp = $this->scale($this->basis_matrix[$this->y], ($this->bitmap_height / 2) * $size);
        $p = array();
        $p[0] = $this->sum2($xn, $yn);
        $p[1] = $this->sum2($xp, $yn);
        $p[2] = $this->sum2($xp, $yp);
        $p[3] = $this->sum2($xn, $yp);
        $min_x = $max_x = $p[0][0];
        $min_y = $max_y = $p[0][1];
        for ($i = 1; $i < 4; ++$i)
        {
            $min_x = ($min_x > $p[$i][0]) ? $p[$i][0] : $min_x;
            $min_y = ($min_y > $p[$i][1]) ? $p[$i][1] : $min_y;
            $max_x = ($max_x < $p[$i][0]) ? $p[$i][0] : $max_x;
            $max_y = ($max_y < $p[$i][1]) ? $p[$i][1] : $max_y;
        }
        return array($min_x, $min_y, $max_x, $max_y);
    }
}