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  • imagettfbbox()

    (PHP 4, PHP 5, PHP 7)

    取得使用 TrueType 字体的文本的范围

    说明

    imagettfbbox(float $size,float $angle,string $fontfile,string $text): array

    本函数计算并返回一个包围着 TrueType 文本范围的虚拟方框的像素大小。

    $size
    像素单位的字体大小。
    $angle
    $text将被度量的角度大小。
    $fontfile
    TrueType 字体文件的文件名(可以是 URL)。根据 PHP 所使用的 GD 库版本,可能尝试搜索那些不是以'/'开头的文件名并加上'.ttf'的后缀并搜索库定义的字体路径。
    $text
    要度量的字符串。
    imagettfbbox()返回一个含有 8 个单元的数组表示了文本外框的四个角:
    0左下角 X 位置
    1左下角 Y 位置
    2右下角 X 位置
    3右下角 Y 位置
    4右上角 X 位置
    5右上角 Y 位置
    6左上角 X 位置
    7左上角 Y 位置
    这些点是相对于文本的而和角度无关,因此“左上角”指的是以水平方向看文字时其左上角。

    本函数同时需要 GD 库和 FreeType 库。

    参见imagettftext()。

    I wrote a simple function that calculates the *exact* bounding box (single pixel precision).
    The function returns an associative array with these keys:
    left, top: coordinates you will pass to imagettftext 
    width, height: dimension of the image you have to create
    <?php
    function calculateTextBox($font_size, $font_angle, $font_file, $text) {
     $box  = imagettfbbox($font_size, $font_angle, $font_file, $text);
     if( !$box )
      return false;
     $min_x = min( array($box[0], $box[2], $box[4], $box[6]) );
     $max_x = max( array($box[0], $box[2], $box[4], $box[6]) );
     $min_y = min( array($box[1], $box[3], $box[5], $box[7]) );
     $max_y = max( array($box[1], $box[3], $box[5], $box[7]) );
     $width = ( $max_x - $min_x );
     $height = ( $max_y - $min_y );
     $left  = abs( $min_x ) + $width;
     $top  = abs( $min_y ) + $height;
     // to calculate the exact bounding box i write the text in a large image
     $img   = @imagecreatetruecolor( $width << 2, $height << 2 );
     $white  = imagecolorallocate( $img, 255, 255, 255 );
     $black  = imagecolorallocate( $img, 0, 0, 0 );
     imagefilledrectangle($img, 0, 0, imagesx($img), imagesy($img), $black);
     // for sure the text is completely in the image!
     imagettftext( $img, $font_size,
            $font_angle, $left, $top,
            $white, $font_file, $text);
     // start scanning (0=> black => empty)
     $rleft = $w4 = $width<<2;
     $rright = 0;
     $rbottom  = 0;
     $rtop = $h4 = $height<<2;
     for( $x = 0; $x < $w4; $x++ )
      for( $y = 0; $y < $h4; $y++ )
       if( imagecolorat( $img, $x, $y ) ){
        $rleft  = min( $rleft, $x );
        $rright = max( $rright, $x );
        $rtop  = min( $rtop, $y );
        $rbottom = max( $rbottom, $y );
       }
     // destroy img and serve the result
     imagedestroy( $img );
     return array( "left"  => $left - $rleft,
            "top"  => $top - $rtop,
            "width" => $rright - $rleft + 1,
            "height" => $rbottom - $rtop + 1 );
    }
    ?>
    
    As many of you know, this function is bugged in several versions of PHP. It should return the coordinates relative to the baseline of the font. So if your text includes characters like g and p then the bounding box should extend below zero on the Y axis, however it doesn't. This is a problem because imagettftext() positions text using the baseline, so all your text will be misaligned.
    My solution is to create an image of the desired font and font-size using all ascii characters with imagettfbbox() and imagettftext(). The height of this image is used as the height for the real image.
    I then analyse the image to get the vertical offset of the text (the background color should be $baseColor)
    <?php
    function getYOffset($image, $baseColor) {
      for($y = 0; $y < $this->height(); $y++)
        for($x = 0; $x < $this->width(); $x++)
          if (imagecolorat($image, $x, $y) !== $baseColor) 
            return $y; }
    ?>
    This offset can be used as the baseline for the font (for this font-size). You can use a similar trick for the horizontal offset, but that changes depending on the first character.
    Please note that as imageTTFBbox and imageTTFText functions return an array of coordinates which could be negative numbers care must be taken with height and width calculations.
    The rigth way to do that is to use the abs() function:
    for an horizontal text:
    $box = @imageTTFBbox($size,0,$font,$text);
    $width = abs($box[4] - $box[0]);
    $height = abs($box[5] - $box[1]);
    Then to center your text at ($x,$y) position the code should be like that:
    $x -= $width/2;
    $y += $heigth/2;
    imageTTFText($img,$size,0,$x,$y,$color,$font,$text);
    this because (0,0) page origin is topleft page corner and (0,0) text origin is lower-left readable text corner.
    Hope this help.
    It seems to be worth pointing out that the "points" unit GD2 is using corresponds to 96 dpi, as defined in gd.h:
    #define GD_RESOLUTION      96   /* pixels per inch */
    So if you want to translate the bbox back to font points, you need to multiply all coordinates by 72/96 = 3/4.
    Very CLEAR version of func., with example....
    <?php
    function calculateTextBox($text,$fontFile,$fontSize,$fontAngle) {
      /************
      simple function that calculates the *exact* bounding box (single pixel precision). 
      The function returns an associative array with these keys: 
      left, top: coordinates you will pass to imagettftext 
      width, height: dimension of the image you have to create 
      *************/
      $rect = imagettfbbox($fontSize,$fontAngle,$fontFile,$text);
      $minX = min(array($rect[0],$rect[2],$rect[4],$rect[6]));
      $maxX = max(array($rect[0],$rect[2],$rect[4],$rect[6]));
      $minY = min(array($rect[1],$rect[3],$rect[5],$rect[7]));
      $maxY = max(array($rect[1],$rect[3],$rect[5],$rect[7]));
      
      return array(
       "left"  => abs($minX) - 1,
       "top"  => abs($minY) - 1,
       "width" => $maxX - $minX,
       "height" => $maxY - $minY,
       "box"  => $rect
      );
    }
    // Example usage - gif image output
    $text_string  = "Hullo World";
    $font_ttf    = "./fonts/arial.ttf";
    $font_size    = 22;
    $text_angle    = 0;
    $text_padding  = 10; // Img padding - around text
    $the_box    = calculateTextBox($text_string, $font_ttf, $font_size, $text_angle);
    $imgWidth  = $the_box["width"] + $text_padding;
    $imgHeight  = $the_box["height"] + $text_padding; 
    $image = imagecreate($imgWidth,$imgHeight);
    imagefill($image, imagecolorallocate($image,200,200,200));
    $color = imagecolorallocate($image,0,0,0);
    imagettftext($image,
      $font_size,
      $text_angle,
      $the_box["left"] + ($imgWidth / 2) - ($the_box["width"] / 2),
      $the_box["top"] + ($imgHeight / 2) - ($the_box["height"] / 2),
      $color,
      $font_ttf,
      $text_string);
    header("Content-Type: image/gif");
    imagegif($image);
    imagedestroy($image);
    ?>
    [ remember: No spaces before or after the <?php ... ?> tag, because of header() call, you Roast! ]
    This is a function which reformats a text string into a text block of a given width.
    Usefull when you have a long single line string and want to fit it into a fixed width but don't care about it's height
    <?php
    function makeTextBlock($text, $fontfile, $fontsize, $width)
    {  
      $words = explode(' ', $text);
      $lines = array($words[0]);
      $currentLine = 0;
      for($i = 1; $i < count($words); $i++)
      {
        $lineSize = imagettfbbox($fontsize, 0, $fontfile, $lines[$currentLine] . ' ' . $words[$i]);
        if($lineSize[2] - $lineSize[0] < $width)
        {
          $lines[$currentLine] .= ' ' . $words[$i];
        }
        else
        {
          $currentLine++;
          $lines[$currentLine] = $words[$i];
        }
      }
      
      return implode("\n", $lines);
    }
    ?>
    
    Here is a function that lets you write a string with your own "font tracking" level (the amount of pixels separating each character). It uses imagettfbbox to determine the width of each character, so it doesn't discriminate against the skinnier of characters. For this example, let $t = the amount of distance in pixels you want to separate each character from its neighbors.
    <?php
    function ImageTTFTextWithTracking($im, $size, $angle, $t, $x, $y, $color, $font, $text) {
      $numchar = strlen($text);
      for($i = 0; $i < $numchar; $i++) {
        # Assign character
        $char[$i] = substr($text, $i, 1);
        # Write character
        imagettftext($im, $size, $angle, ($x + $w + ($i * $t)), $y, $color, $font, $char[$i]);
        
        # Get width of character
        $width = imagettfbbox($size, $angle, $font, $char[$i]);
        $w = $w + $width[2];
      }
    }
    ?>
    Be aware that it currently does not work for angles other than the 0 default (I have no need for that).
    Automatic line breaks: This simple function is able automatically create line breaks if you want to write a text on an image. All you have to specify is a maximum length.
    <?php
    function write_multiline_text($image, $font_size, $color, $font, $text, $start_x, $start_y, $max_width) 
    {
        //split the string
        //build new string word for word
        //check everytime you add a word if string still fits
        //otherwise, remove last word, post current string and start fresh on a new line
        $words = explode(" ", $text);
        $string = "";
        $tmp_string = "";
        
        for($i = 0; $i < count($words); $i++)
        {
          $tmp_string .= $words[$i]." ";
          
          //check size of string
          $dim = imagettfbbox($font_size, 0, $font, $tmp_string);
          
          if($dim[4] < $max_width)
          {
            $string = $tmp_string;
          } else {
            $i--;
            $tmp_string = "";
            imagettftext($image, 11, 0, $start_x, $start_y, $color, $font, $string);
            
            $string = "";
            $start_y += 22; //change this to adjust line-height. Additionally you could use the information from the "dim" array to automatically figure out how much you have to "move down"
          }
        }
                    
        imagettftext($image, 11, 0, $start_x, $start_y, $color, $font, $string); //"draws" the rest of the string
    ?>
    
    If you're looking for easy text alignment, you need to use the imagettfbbox() command. When given the correct parameters, it will return the boundaries of your to-be-made text field in an array, which will allow you to calculate the x and y coordinate that you need to use for centering or aligning your text.
    A horizontal centering example:
    <?php
    $tb = imagettfbbox(17, 0, 'airlock.ttf', 'Hello world!');
    ?>
    $tb would contain:
    Array
    (
      [0] => 0 // lower left X coordinate
      [1] => -1 // lower left Y coordinate
      [2] => 198 // lower right X coordinate
      [3] => -1 // lower right Y coordinate
      [4] => 198 // upper right X coordinate
      [5] => -20 // upper right Y coordinate
      [6] => 0 // upper left X coordinate
      [7] => -20 // upper left Y coordinate
    )
    For horizontal alignment, we need to substract the "text box's" width { $tb[2] or $tb[4] } from the image's width and then substract by two.
    Saying you have a 200px wide image, you could do something like this:
    <?php
    $x = ceil((200 - $tb[2]) / 2); // lower left X coordinate for text
    imagettftext($im, 17, 0, $x, $y, $tc, 'airlock.ttf', 'Hello world!'); // write text to image
    ?>
    This'll give you perfect horizontal center alignment for your text, give or take 1 pixel. Have fun!
    Please note that the 3rd argument is really a "path". 
    <?php
    imagettfbbox(10, 0, 'arial.ttf', 'Hello, World!'); // will result in "Warning: imagettfbbox(): Could not find/open font in ...php on line ..."
    ?>
    use instead something like this:
    <?php imagettfbbox(10, 0, './arial.ttf', 'Hello, World!'); ?>
    or
    <?php imagettfbbox(10, 0, getcwd().'/arial.ttf', 'Hello, World!'); ?>
    
    I have been testing this function for a while now and have come up with many of the same issues that other people have touched upon. Not being able to calculate the width of the text correctly. Or if a solution is found then it won't work with a hanging letter or a negative start letter like 'j'.
    Like Ralph I also wanted to draw a box around some text and this would require me being pixel perfect with the font. The trouble is I did not know which font would be used or which size. This led me to come up with a solution which I am sharing below.
    <?php
    function imagettfbboxextended($size, $angle, $fontfile, $text) {
      /*this function extends imagettfbbox and includes within the returned array
      the actual text width and height as well as the x and y coordinates the 
      text should be drawn from to render correctly. This currently only works
      for an angle of zero and corrects the issue of hanging letters e.g. jpqg*/
      $bbox = imagettfbbox($size, $angle, $fontfile, $text);
      //calculate x baseline
      if($bbox[0] >= -1) {
        $bbox['x'] = abs($bbox[0] + 1) * -1;
      } else {
        //$bbox['x'] = 0;
        $bbox['x'] = abs($bbox[0] + 2);
      }
      //calculate actual text width
      $bbox['width'] = abs($bbox[2] - $bbox[0]);
      if($bbox[0] < -1) {
        $bbox['width'] = abs($bbox[2]) + abs($bbox[0]) - 1;
      }
      //calculate y baseline
      $bbox['y'] = abs($bbox[5] + 1);
      //calculate actual text height
      $bbox['height'] = abs($bbox[7]) - abs($bbox[1]);
      if($bbox[3] > 0) {
        $bbox['height'] = abs($bbox[7] - $bbox[1]) - 1;
      }
      return $bbox;
    }
    ?>
    The function above gives the correct x and y coordinates that the text should be drawn from and also gives the actual image width and height. This has been tested with various fonts and sizes ranging from 6 up to 144 points. Some of the output will appear to be incorrect and have an extra pixel on the right, using verdana at size 144 and outputting the character 'Q' for example. This is not an error as this is part of the anti-aliasing of the font output.
    Example Usage:
    <?php
    $font = 'c:\windows\fonts\verdana.ttf';
    $font_size = 144;
    $text = 'jÜyZgQ';
    $bbox = imagettfbboxextended($font_size, 0, $font, $text);
    ?>
    Return Values:
    Array
    (
      [0] => -8
      [1] => 40
      [2] => 715
      [3] => 40
      [4] => 715
      [5] => -177
      [6] => -8
      [7] => -177
      [x] => 6
      [width] => 722
      [y] => 176
      [height] => 216
    )
    Further notes can be found here along with images of the output of the function http://mikeleigh.com/links/imagettfbbox
    measure bg image size, wrap text to fit image width
    <?php
    $mx = imagesx($main_img);
    $my = imagesy($main_img);
    //TEXT VARS/////////
    $main_text = ;
    $main_text_size = ;
    $main_text_x = ($mx/2);
    $main_text_color = imagecolorallocate($main_img, $main_text_red, $main_text_green, $main_text_blue);
    $words = explode(' ', $main_text);
    $lines = array($words[0]); 
    $currentLine = 0;
      for($i = 1; $i < count($words); $i++)
      {
        $lineSize = imagettfbbox($main_text_size, 0, $mt_f, $lines[$currentLine] . ' ' . $words[$i]);
        if($lineSize[2] - $lineSize[0] < $mx)
        {
          $lines[$currentLine] .= ' ' . $words[$i];
        }
        else
        {
          $currentLine++;
          $lines[$currentLine] = $words[$i];
        } 
      }
    $line_count = 1;
    // Loop through the lines and place them on the image
    foreach ($lines as $line)
    {
      $line_box = imagettfbbox($main_text_size, 0, $mt_f, "$line");
      $line_width = $line_box[0]+$line_box[2];
      $line_height = $line_box[1]-$line_box[7];
      $line_margin = ($mx-$line_width)/2;
      $line_y = (($line_height+12) * $line_count);
      imagettftext($main_img, $main_t_s, 0, $line_margin, $line_y, $main_text_color, $mt_f, $line);
      // Increment Y so the next line is below the previous line
      $line_count ++;
    }
    ?>
    
    For mixed text drawing on image, height given by this function is useless and leads to text's hip-hops over the baseline .
    I will use just this:
    <?php
    $size = 12;//font height
    $font = 'Arial';// your font
    $char = 'Test';
    $char = 'With W';
    $char = 'without w but with p and y and q';
      $rect = imagettfbbox($size, 0, $font, $char);
      $image_height =abs( $rect[7] );//do no respect bottom margin
      $imw = $rect[2] - $rect[0]; //as usual
      $bx = abs( $rect[ 0 ] ); // X offset 
      $by = $size * 1.25; // Y offset - we will use const LINEHEIGHT
    ?>
    
    I found the bounding boxes a bit tricky to use when trying to rotate AND align text boxes. I wrote this function allows you to set left, right or center aligned text and also rotate it.
    <?php
     /**
      * Renders rotate-able and align-able text of any font or colour
      * 
      * @param resource $img Image resource
      * @param string $text
      * @param int $x
      * @param int $y
      * @param int $fontSize
      * @param string $fontFile Full path to font file
      * @param array $color Red, green, blue values in either int (255) or hex (0xFF)
      * @param string $align Accept 'left', 'right', and defaults to center
      * @return void
      */
     function gd_text_aligned($img, $text, $x, $y, $fontSize, $fontFile, $color = [0, 0, 0], $align = 'left') {
       // Create colour Resource
       $textColor = imagecolorallocate($img, $color[0], $color[1], $color[2]);
       // Create bounding box co-ordinates
       $boundingBox = imagettfbbox($fontSize, $rotation, $fontFile, $text);
       $textBox = imagettfbbox($fontSize, 0, $fontFile, $text);
       // Bounding box array key meanings
       //
       // $bBox[0] = lower left X
       // $bBox[1] = lower left Y
       // $bBox[2] = lower right X
       // $bBox[3] = lower right Y
       // $bBox[4] = upper right X
       // $bBox[5] = upper right Y
       // $bBox[6] = upper left X
       // $bBox[7] = upper left Y
       //
       //   6,7   |   4,5
       //    -----+-----
       //   0,1   |   2,3
       //
       $boundingBoxWidth = $boundingBox[4] - $boundingBox[0];
       $boundingBoxHeight = $boundingBox[5] - $boundingBox[1];
       $flatHeight = $textBox[5] - $textBox[1]; 
       // Align left right or centred?
       if($align == 'left') {
         $drawX = $x - sin($rotation * M_PI / 180) * ($flatHeight / 2);
         $drawY = $y - cos($rotation * M_PI / 180) * ($flatHeight / 2);
       } else if($align == 'right') {
         $drawX = $x - $boundingBoxWidth + sin($rotation * M_PI / 180) * ($flatHeight / 2);
         $drawY = $y - $boundingBoxHeight + cos($rotation * M_PI / 180) * ($flatHeight / 2);
       } else {
         // no alignment (centred)
         $drawX = $x - $boundingBoxWidth / 2;
         $drawY = $y - $boundingBoxHeight / 2;
       }
       
       // draw text
       imagettftext(
         $img,
         $fontSize,
         $rotation, $drawX, $drawY,
         $textColor, $fontFile, $text
       );
       
      }
    You might save yourself a lot of time and headache if you remember that the bold version of a font is NOT necessarily the same height as the regular version of that font!
    (In fact, it can be shorter!)
    I want to output a bounding box of a text as an image straightly. I did like this:
    <?php
    $text = "<?php echo \"hello, world\"; ?>";
    $font = "./arial.ttf";
    $size = "60";
    $bbox = imagettfbbox($size, 0, $font, $text);
    $width = abs($bbox[2] - $bbox[0]);
    $height = abs($bbox[7] - $bbox[1]);
    $image = imagecreatetruecolor($width, $height);
    $bgcolor = imagecolorallocate($image, 255, 255, 255);
    $color = imagecolorallocate($image, 0, 0, 0);
    $x = $bbox[0] + ($width / 2) - ($bbox[4] / 2);
    $y = $bbox[1] + ($height / 2) - ($bbox[5] / 2);
    imagefilledrectangle($image, 0, 0, $width - 1, $height - 1, $bgcolor);
    imagettftext($image, $size, 0, $x, $y, $color, $font, $text);
    $last_pixel= imagecolorat($image, 0, 0);
    for ($j = 0; $j < $height; $j++)
    {
      for ($i = 0; $i < $width; $i++)
      {
        if (isset($blank_left) && $i >= $blank_left)
        {
          break;
        }
        if (imagecolorat($image, $i, $j) !== $last_pixel)
        {
          if (!isset($blank_top))
          {
            $blank_top = $j;
          }
          $blank_left = $i;
          break;
        }
        $last_pixel = imagecolorat($image, $i, $j);
      }
    }
    $x -= $blank_left;
    $y -= $blank_top;
    imagefilledrectangle($image, 0, 0, $width - 1, $height - 1, $bgcolor);
    imagettftext($image, $size, 0, $x, $y, $color, $font, $text);
    header('Content-type: image/png');
    imagepng($image);
    imagedestroy($image);
    ?>
    
    Apparently the bounding box returned by imagettftext and imagettfbbox is not the same, and it appears as though imagettftext does a better job at calculating the actual bounding box (maybe because it has to render every character and it then finds out really everywhere it rendered).
    So, you can create a dummy image render the text to it and get a better box. Here is an example function:
    <?php
    function better_imagettfbbox($size, $angle, $font, $text) {
     $dummy = imagecreate(1, 1);
     $black = imagecolorallocate($dummy, 0, 0, 0);
     $bbox = imagettftext($dummy, $size, $angle, 0, 0, $black, $font, $text);
     imagedestroy($dummy);
     return $bbox;
    }
    ?>
    If you use this a lot, it would be better to keep one dummy image instead of continually creating and destroying images.
    The returned array order is like this:
    -----------------------------
    | X:4 Y:5   | X:  Y:7    |
    -----------------------------
    | X:0 Y:1   | X:2 Y:3    |
    -----------------------------
    eg:
    4 for the upper left X 
    5 for the upper left Y and so on.
    I found a simple solution that was working for me:
     <?php
      if(!isset($_GET['size'])) $_GET['size'] = 44;
      if(!isset($_GET['text'])) $_GET['text'] = "Hello, world!";
      $size = imagettfbbox($_GET['size'], 0, "ARIAL", $_GET['text']);
      $xsize = abs($size[0]) + abs($size[2]);
      $ysize = abs($size[5]) + abs($size[1]);
      $image = imagecreate($xsize, $ysize);
      $blue = imagecolorallocate($image, 0, 0, 255);
      $white = ImageColorAllocate($image, 255,255,255);
      imagettftext($image, $_GET['size'], 0, abs($size[0]), abs($size[5]), $white, "ARIAL", $_GET['text']);
      header("content-type: image/png");
      imagepng($image);
      imagedestroy($image);
    ?> 
    Here is the link with a examples:
    http://www.tuxradar.com/practicalphp/11/2/6#null
    It should be noted that the bounding box coordinates returned by this function are inaccurate - bug reports about this have been open for 5 years, so expect this will likely never be fixed. 
    More information here:
    https://gist.github.com/mindplay-dk/4429153
    My solution to below-baseline characters is to simply apply a smaller angle and some padding when calculating your boundaries, so the function thinks your text goes below baseline. For example: 
    <?php
    // GET BOUNDS OF TEXT
    $bounds = imagettfbbox($size*1.05, $angle-3, $font, $text);
    ?>
    
    SIMPLE OVERLOADED FUNCTION: Adds TTF Center and Right Alignment to co ordintate points.
    Correctly demonstrates the use of the bouning box TTF function and the array of coordinates that it returns.
    After obtaining values and adjusting based on a set of values [L, C, R], it uses simple math based of the length of the text to move it from the origin (x = 0 )
    <?php
    function imagettftextalign($image, $size, $angle, $x, $y, $color, $font, $text, $alignment='L')
    {
      //check width of the text
      $bbox = imagettfbbox ($size, $angle, $font, $text);
      $textWidth = $bbox[2] - $bbox[0];
      switch ($alignment) {
        case "R":
          $x -= $textWidth;
          break;
        case "C":
          $x -= $textWidth / 2;
          break;
      }
      //write text
      imagettftext ($image, $size, $angle, $x, $y, $color, $font, $text);
    }
    ?>
    
    I was viewing the code for calculate the box of a text for a given font but I do not found one that works fine with different angles from zero, so I have made a function simpler than above:
    <?php
    function calculateTextBox($text,$fontFile,$fontSize,$fontAngle) {
     $rect = imagettfbbox($fontSize,$fontAngle,$fontFile,$text);
     
     $minX = min(array($rect[0],$rect[2],$rect[4],$rect[6]));
     $maxX = max(array($rect[0],$rect[2],$rect[4],$rect[6]));
     $minY = min(array($rect[1],$rect[3],$rect[5],$rect[7]));
     $maxY = max(array($rect[1],$rect[3],$rect[5],$rect[7]));
     return array(
      "left"  => abs($minX),
      "top"  => abs($minY),
      "width" => $maxX - $minX,
      "height" => $maxY - $minY,
      "box"  => $rect
     );
    }
    ?>
    With this function you can center an angled string in any image:
    <?php
     $mystring = "Hello world!";
     $imgWidth = 300;
     $imgHeight = 150; 
     $image = imagecreate($imgWidth,$imgHeight);
     imagefill($image,imagecolorallocate($image,200,200,200));
     $box = calculateTextBox($mystring,"./Verdana.ttf",15,45);
     $color = imagecolorallocate($image,0,0,0);
     imagettftext($image,
            15,
            45,
            $box["left"] + ($imgWidth / 2) - ($box["width"] / 2),
            $box["top"] + ($imgHeight / 2) - ($box["height"] / 2),
            $color,
            "./Verdana.ttf",
            $mystring);
     header("Content-Type: image/x-png");
     imagepng($im);
     imagedestroy($im);
    ?>
    
    I worked out a script that allows the transfer of alphanumeric data to be placed on an image. The HTML feature is img src and the php feature is imagettftext. This simple code will increment from 1 to 3 on images.
    code:
    <?php
    //ImageCall.php -- This script will call a script to produce the image.
    for($next = 1;$next < 4; $next++){
    print "Image $next:<br>";
    print "<img src = 'Image.php?\$text=$next'>";
    print "<br><br>";
    }
    ?>
    <?php
    //Image.php -- This script creates a square image and places the text on it.
    // image size and color
    $im = ImageCreate(77,77);
    $color1 = ImageColorAllocate($im,0x66,0xCC,0x00);
    $color2 = ImageColorAllocate($im,0x33,0x66,0x00);
    $color3 = ImageColorAllocate($im,0x00,0x99,0x00);
    $color4 = ImageColorAllocate($im,0x3D,0x3D,0x3D);
    // image creation
    ImageFilledRectangle($im,1,1,76,76,$color1);
    ImageFilledpolygon($im, array (76,1,1,76,76,76),3,$color2);
    ImageFilledRectangle($im,5,5,72,72,$color3);
    // determine numeric center of image
    $size = ImageTTFBBox(45,0,'impact',$_GET['$text']);
    $X = (77 - (abs($size[2]- $size[0])))/2;
    $Y = ((77 - (abs($size[5] - $size[3])))/2 + (abs($size[5] - $size[3])));
    //places numeric information on image
    ImageTTFText($im,45,0,($X-1),$Y,$color4,'impact',$_GET['$text']);
    //returns completed image to calling script
    Header('Content-Type: image/png');
    Imagepng($im);
    ?>
    
    To get the height for a line of text, I've found it useful to do:
    <?php
    $bbox = imagettfbbox($size, 0, $ttf, " \n "); // space, newline, space
    $height = $bbox[3] - $bbox[5];
    ?>
    I hope this helps. Before, I used the string "Tj", but that sometimes fell short, especially for crazy fonts.
    a little something to replace in blackbart tip :
    // start scanning (0=> black => empty) 
     $rleft = $w4 = $width<<2; 
     $rright = 0; 
     $rbottom  = 0; 
     $rtop = $h4 = $height<<2; 
     for( $x = 0; $x < $w4; $x++ ) 
      for( $y = 0; $y < $h4; $y++ ) 
       if( imagecolorat( $img, $x, $y ) ){ 
        $rleft  = min( $rleft, $x ); 
        $rright = max( $rright, $x ); 
        $rtop  = min( $rtop, $y ); 
        $rbottom = max( $rbottom, $y ); 
       } 
    with
    // start scanning (0=> black => empty) 
     $break = false;
     $rleft = $w4 = $width<<2; 
     $rright = 0; 
     $rbottom  = 0; 
     $rtop = $h4 = $height<<2; 
     // scanning from left to right, breaking when a pixel is found, to scan from the other side : avoid scanning all pixels !
     for($x=0; $x<$w4; $x++){
      for($y=0; $y<$h4; $y++)
       if(imagecolorat($img,$x,$y)){
        $rtop = min($rtop, $y); $rleft = min($rleft, $x);
        $break = true; break;
       }
      if($break) break;
     }
     // scanning from right to left, breaking when a pixel is found
     for($x=($w4-1); $x>$rleft; $x--){
      for($y=0; $y<$h4; $y++)
       if(imagecolorat($img,$x,$y)){
         $rright = max($rright, $x); $rbottom = max($rbottom, $y);
        $break = true; break;
       }
      if($break) break;
     }
    //... //
    it may be even better to check if the picture is portrait or landscape, to start the loops from left-right(landscape) or top-bottom (portrait)
    the imagettfbbox and imagettftext quirks are:
    1. imagettfbbox and imagettftext have the same return value and both of them are wrong for angle not equal to zero.
    2. imagettfbbox returns the correct bounding box when angle is zero.
    3. the bounding box has a coordinate system that the x gets bigger from left to right and y gets bigger from top to bottom.
    4. the "base point" used in imagettftext is the origin in the bounding box coordinate system.
    5. when the angle is other than 0, it is actually rotated in the coordinate system with respect to the base point. so if we know the bounding box coordinate when angle is zero, we can get the new bounding box coordinate by doing the rotation by math equations manually.
    6. to have pixel level accuracy, we should also be aware of another thing. suppose the axis is like this: |_|_|_|, the bounding box coordinate uses point on the vertical line while image function uses point on the horizontal line, so there is a 1 pixel difference you should take care of.
    The following snippet creates minimal images containing a letter of different font and rotation angle. This is especially useful in captcha scripts.
    <?php
    function create_font_image( $size, $angle, $font, $char )
    {
      $rect = imagettfbbox( $size, 0, $font, $char );
      if( 0 == $angle ) {
        $imh = $rect[1] - $rect[7];
        $imw = $rect[2] - $rect[0];
        $bx = -1 - $rect[0];
        $by = -1 - $rect[7];
      } else {
        $rad = deg2rad( $angle );
        $sin = sin( $rad );
        $cos = cos( $rad );
        if( $angle > 0 ) {
          $tmp = $rect[6] * $cos + $rect[7] * $sin;
          $bx = -1 - round( $tmp );
          $imw = round( $rect[2] * $cos + $rect[3] * $sin - $tmp );
          $tmp = $rect[5] * $cos - $rect[4] * $sin;
          $by = -1 - round( $tmp );
          $imh = round( $rect[1] * $cos - $rect[0] * $sin - $tmp );
        } else {
          $tmp = $rect[0] * $cos + $rect[1] * $sin;
          $bx = -1 - round( $tmp );
          $imw = round( $rect[4] * $cos + $rect[5] * $sin - $tmp );
          $tmp = $rect[7] * $cos - $rect[6] * $sin;
          $by = -1 - round( $tmp );
          $imh = round( $rect[3] * $cos - $rect[2] * $sin - $tmp );
        }
      }
      $im = imagecreatetruecolor( $imw, $imh );
      imagefill( $im, 0, 0, imagecolorallocate( $im, 255, 0, 255 ) );
      imagettftext( $im, $size, $angle, $bx, $by, imagecolorallocate( $im, 0, 0, 0 ), $font, $char );
      imagegif( $im, trim( $font, './' ) . ord( $char ) . $angle . '.gif' );
      imagedestroy( $im );
    }
    $chars = 'abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ1234567890';
    $angles = array( -30, -20, -10, 0, 10, 20, 30 );
    $fonts = array( './latinwide.ttf', './verdana.ttf', './times.ttf', './broadway.ttf' );
    foreach( $angles as $angle )
      foreach( $fonts as $font )
        for( $i = 0; $i < strlen( $chars ); ++$i )
          create_font_image( 100, $angle, $font, $chars[$i] );
    ?>
    
    I still got problems trying to rotate imagettftext using imagettfbbox.
    It's position calculation is mostly wrong. So i tried to rotate ttftext with IMAGEROTATE. 
    As a special the result is in black fontcolor and transparent background.
    Hope it helps sombody (thanks for function convertBoundingBox, reading below)
    <?
    function ImgText($text,$fontsize,$font,$angle){
    $im = '';
      if($text){
        if(!$fontsize || $fontsize < 1) $fontsize = 12;
        if(!$font) $font = "fonts/arial.ttf";
        $bbox = imagettfbbox($fontsize, 0, $font, $text);
        $size=convertBoundingBox($bbox);
        $im = ImageCreatetruecolor($size['width'],$size['height']);
        $white = ImageColorAllocate($im, 255, 255, 255);
        $black = ImageColorAllocate($im, 0,0,0);
        
        imagefill ($im, 0, 0, $white );
        imagettftext($im, $fontsize, 0, $size['xOffset'], $size['yOffset'], $black, $font, $text);
        $im = imagerotate( $im,$angle, $white);
        imagecolortransparent ($im,$white);
      }else{
        // No text
      }
    }
    ?>
    
    Several comments show that the output of this function is often not what is expected, especially when the text is rotated.
    For those of you who'd like a visual representation of what is happening to the bounding box as the text is rotated, take a look here:
    http://ruquay.com/sandbox/imagettf/
    An improvement to the convertBoundingBox function. The previous function was completely wrong. My confusion came from characters like "1" and "_" that are rendered to the right or below the basepoint (in the font I'm using). I ended up using mike at mikeleigh dot com's function with a fix for these characters, and a "belowBasepoint" value.
    <?php
    function convertBoundingBox ($bbox) {
      if ($bbox[0] >= -1)
        $xOffset = -abs($bbox[0] + 1);
      else
        $xOffset = abs($bbox[0] + 2);
      $width = abs($bbox[2] - $bbox[0]);
      if ($bbox[0] < -1) $width = abs($bbox[2]) + abs($bbox[0]) - 1;
      $yOffset = abs($bbox[5] + 1);
      if ($bbox[5] >= -1) $yOffset = -$yOffset; // Fixed characters below the baseline.
      $height = abs($bbox[7]) - abs($bbox[1]);
      if ($bbox[3] > 0) $height = abs($bbox[7] - $bbox[1]) - 1;
      return array(
        'width' => $width,
        'height' => $height,
        'xOffset' => $xOffset, // Using xCoord + xOffset with imagettftext puts the left most pixel of the text at xCoord.
        'yOffset' => $yOffset, // Using yCoord + yOffset with imagettftext puts the top most pixel of the text at yCoord.
        'belowBasepoint' => max(0, $bbox[1])
      );
    }
    ?>
    
    It took me some time to make full use of imagettfbbox. Hopefully the following function makes it much easier to use for others.
    <?php
    function convertBoundingBox ($bbox) {
      if ($bbox[0] >= -1)
        $leftOfBasepoint = -abs($bbox[0] + 1);
      else
        $leftOfBasepoint = abs($bbox[0] + 2);
      $rightOfBasepoint = abs($bbox[2] - $bbox[0]);
      if ($bbox[0] < -1) $rightOfBasepoint = abs($bbox[2]) + abs($bbox[0]) - 1;
      $aboveBasepoint = abs($bbox[5] + 1);
      $height = abs($bbox[7]) - abs($bbox[1]);
      if ($bbox[3] > 0) $height = abs($bbox[7] - $bbox[1]) - 1;
      $width = $leftOfBasepoint + $rightOfBasepoint;
      $belowBasepoint = $height - $aboveBasepoint;
      return array(
        'width' => $width,
        'height' => $height,
        'leftOfBasepoint' => $leftOfBasepoint,
        'rightOfBasepoint' => $rightOfBasepoint,
        'aboveBasepoint' => $aboveBasepoint,
        'belowBasepoint' => $belowBasepoint
      );
    }
    ?>
    Thanks goes to mike at mikeleigh dot com for providing the core of this function.
    Remember, the basepoint is the x, y coords you use to draw text with imagettftext. A useful thing to do is take a string like...
    ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz01234567890
    ...and use the "aboveBasepoint" value for the height of your font. Now you can draw lines and use "the height of your font * leading" as the distance between lines of text, where leading is a number like 1.45 (for 45% leading).
    This script shows you side by side the difference between a font rendered at a certain size and the same font rendered at some multiple of that size and then scaled down by the same multiple. It seems to help small sizes and affects large ones less. This script lets you see if it is worth implementing for your situation. Included is the great "imagettfbboxextended" function by mike at mikeleigh dot com below.
    $size = 30;
    $factor = 16;
    $smallSize = imagettfbboxextended($size, 0, "fonts/MPlantin.ttf", "The quick brown fox jumps over the lazy dog.");
    $smallWidth = $smallSize['width'];
    $smallHeight = $smallSize['height'];
    $canvas = imagecreatetruecolor($smallWidth + 20, $smallHeight * 2 + 20);
    imagefill($canvas, 0, 0, imagecolorallocate($canvas, 255, 255, 255));
    imagettftext($canvas, $size, 0, 10 + $smallSize['x'], 10 + $smallSize['y'], imagecolorallocate($canvas, 0, 0, 0), "fonts/MPlantin.ttf", "The quick brown fox jumps over the lazy dog.");
    $largeSize = imagettfbboxextended($size * $factor, 0, "fonts/MPlantin.ttf", "The quick brown fox jumps over the lazy dog.");
    $largeWidth = $largeSize['width'];
    $largeHeight = $largeSize['height'];
    $temp = imagecreatetruecolor($largeWidth, $largeHeight);
    imagefill($temp, 0, 0, imagecolorallocate($canvas, 255, 255, 255));
    imagettftext($temp, $size * $factor, 0, $largeSize['x'], $largeSize['y'], imagecolorallocate($temp, 0, 0, 0), "fonts/MPlantin.ttf", "The quick brown fox jumps over the lazy dog.");
    imagecopyresampled($canvas, $temp, 10 + $smallSize['x'], 10 + $smallSize['y'] + 10, 0, 0, $smallWidth, $smallHeight, $largeWidth, $largeHeight);
    imagepng($temp, "temp.png");
    imagepng($canvas, "test.png");
    function imagettfbboxextended($size, $angle, $fontfile, $text) {
      /*this function extends imagettfbbox and includes within the returned array
      the actual text width and height as well as the x and y coordinates the
      text should be drawn from to render correctly. This currently only works
      for an angle of zero and corrects the issue of hanging letters e.g. jpqg*/
      $bbox = imagettfbbox($size, $angle, $fontfile, $text);
      //calculate x baseline
      if($bbox[0] >= -1) {
        $bbox['x'] = abs($bbox[0] + 1) * -1;
      } else {
        //$bbox['x'] = 0;
        $bbox['x'] = abs($bbox[0] + 2);
      }
      //calculate actual text width
      $bbox['width'] = abs($bbox[2] - $bbox[0]);
      if($bbox[0] < -1) {
        $bbox['width'] = abs($bbox[2]) + abs($bbox[0]) - 1;
      }
      //calculate y baseline
      $bbox['y'] = abs($bbox[5] + 1);
      //calculate actual text height
      $bbox['height'] = abs($bbox[7]) - abs($bbox[1]);
      if($bbox[3] > 0) {
        $bbox['height'] = abs($bbox[7] - $bbox[1]) - 1;
      }
      return $bbox;
    }
    Ralph Bolton commented about the difference in calculating the bounding box size vs. aligning text base line. 
    The workaround for this issue is to calculate the difference in height between a character going below baseline and one above the baseline. This is likely going to vary from font to font, so I'd suggest something like this:
    <?php
    function fontBaselineOffset($font, $fontSize)
    {
    //this should be above baseline
    $test2="H";
    //some of these additional letters should go below it
    $test3="Hjgqp";
    //get the dimension for these two:
    $box2 = imageTTFBbox($fontSize,0,$font,$test2);
    $box3 = imageTTFBbox($fontSize,0,$font,$test3);
    //return the offset value
    return abs((abs($box2[5]) + abs($box2[1])) - (abs($box3[5]) + abs($box3[1])));
    }
    ?>
    This is not perfect yet. You should define a range of allowed characters that can go below baseline, compare them to the ones actually found in your string and use them instead of the string $test3 used in the example function above. This should avoid problems with letters that go further below baseline than the others (e.g. there could be a difference between 'g' and 'p')
    There's a bit of an annoyance with measuring font sizes and drawing boxes around text. When fonts are measured using ImageTTFbbox, the correct vertical height is returned. That is, the measurement of the phrase "Hanging" will be from the top of the "H" to the bottom of the "g".
    The problem is that functions like imageTTFtext align with the "line" of the text - that is, in the phrase "Hanging", the alignment is below the "H", not the bottom of the "g". That means that if you draw a rectangle behind your text, it'll be incorrectly aligned because the hanging "g" will be outside the box.
    For example, this doesn't work as you might expect (because the "g" hangs below the box):
    <?php
    // Get the size of the font box
    $textbox = imageTTFBbox($size, 0, $font, 'Hanging');
    $textwidth = abs($textbox[4] - $textbox[0]);
    $textheight = abs($textbox[5] - $textbox[1]);
    // Now draw a rectangle on the image
    $colour = ImageColorAllocate($im, 100, 100, 100);
    imagefilledrectangle($im, $x, $y - $textheight, $x + $textwidth, $y, $colour );
    // Now draw the text
    $black = ImageColorAllocate($im, 0, 0, 0);
    ImageTTFText($image['resource'], $size, 0, $x, $y, $black, $font, 'Hanging');
    ?>
    It also seems that the rectangle in the above example is located 1 pixel to the left of the text.
    I haven't found a way to resolve this problem correctly. Instead, I have enlarged the rectangle and then put the text into it. I don't think this will work absolutely correctly for all fonts, so it's not exactly a perfect solution. However, it's better than nothing! Here is a snippet of it:
    <?php
    $enlargex = $textwidth * 0.08;
    $enlargey = $textheight * 0.1;
    $enlargey2 = $textheight * 0.5;
    // Now draw a rectangle on the image
    $colour = ImageColorAllocate($im, 100, 100, 100);
    imagefilledrectangle($im, $x - $enlargex, $y - $textheight - $enlargey, $x + $textwidth + $enlargex, $y + $enlarge2, $colour );
    ?>
    
    Another function for centered text string.
    What it does: Generate a truecolor .png image of a text string. The image will be just large enough encompass the text and a 2 px border and the text will be centered in it.
    It is called from any other page like so...
    <img src="linkImg.php?text=php.net is great&border=out" /> // Text with #&+"'\<> will need to be escaped, but I've found spaces don't cause errors. I haven't tested this with any other languages.
    The following code is the file named linkImg.php
    The file was not designed to have anything else here with it, and the open and close php tags should the the very first and very last characters of the page respectively, as outside whitespace can be a little evil sometimes.
    <?php 
    //Obtain text and border via GET
    //Border can be out, in, or flat
    $text = $_GET['text'];
    $border = $_GET['border'];
     
     $font = "fontpath"; //(str) "fonts/sasquatchlives.ttf"
     $fontsize = font size; //(int) pixels in GD 1, or points in GD 2
    //Register box
    $box = imagettfbbox ($fontsize, 0, $font, $text);
    //Find out the width and height of the text box
    $textW = $box[2] - $box[0];
    $textH= $box[3]-$box[5];
    //Add padding
    $paddingx = 10;
    $paddingy = 10;
    //Set image dimentions
    $width = $textW+$paddingx;
    $height= $textH+$paddingy;
    //Bottom left corner of text
    $textx = $paddingx/2;
    $texty = $height - $paddingy/2;
    //Shadow offset (pixels)
    $shadoffx = 1;
    $shadoffy = 1;
    //Create the image
     $img = imagecreatetruecolor($width,$height);
    //Define some colors
     $white = imagecolorallocate($img,255,255,255);
     $black = imagecolorallocate($img,0,0,0);
     $lightgrey = imagecolorallocate($img,200,200,200);
     $grey = imagecolorallocate($img,100,100,100);
    //Define Text (fg) and background (bg) colors
     $bgcol = imagecolorallocate($img,192,213,196); //Celadon (light pastel green)
     $fgcol = imagecolorallocate($img,243,104,88); //Peach
    // Fill image with background color
     imagefill($img,0,0,$bgcol); 
    //Write Shadow
    imagettftext($img, $fontsize, 0, $textx+$shadoffx, $texty+$shadoffy, $grey, $font, $text);
    //Write Text
    imagettftext($img, $fontsize, 0, $textx, $texty, $fgcol, $font, $text);
    //Bordering
      //Embossed border (button-looking)
     if ($border == "out") 
     {
      imageline ($img,0,0,$width,0,$white);imageline ($img,0,0,0,$height,$white);
      imageline ($img,1,1,$width,1,$lightgrey);imageline ($img,1,1,1,$height-1,$lightgrey);
      imageline ($img,0,$height-1,$width-1,$height-1,$black);imageline ($img,$width-1,$height-1,$width-1,0,$black);
      imageline ($img,2,$height-2,$width-2,$height-2,$grey);imageline ($img,$width-2,$height-2,$width-2,2,$grey);
     }
      //Flat border
     if ($border == "flat") 
     {
      imageline ($img,0,0,$width,0,$white);imageline ($img,0,0,0,$height,$white);
      imageline ($img,1,1,$width,1,$grey);imageline ($img,1,1,1,$height-1,$grey);
      imageline ($img,0,$height-1,$width-1,$height-1,$white);imageline ($img,$width-1,$height-1,$width-1,0,$white);
      imageline ($img,2,$height-2,$width-2,$height-2,$grey);imageline ($img,$width-2,$height-2,$width-2,2,$grey);
     }
      //Engraved border (pushed button)
     if ($border == "in") 
     {
      imageline ($img,0,0,$width,0,$black);imageline ($img,0,0,0,$height,$black);
      imageline ($img,1,1,$width,1,$grey);imageline ($img,1,1,1,$height-1,$grey);
      imageline ($img,0,$height-1,$width-1,$height-1,$white);imageline ($img,$width-1,$height-1,$width-1,0,$white);
      imageline ($img,2,$height-2,$width-2,$height-2,$lightgrey);imageline ($img,$width-2,$height-2,$width-2,2,$lightgrey);
     }
    // Header info
     header("Content-type: image/png");
    //Sends the image
     imagepng($img);
     imagedestroy($img);
    ?>
    Hope this helps someone!
    -Patrick-