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   <title>FreeType 2 Internals - I/O Frames</title>
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<h1>
FreeType 2.0 I/O Frames</h1></center>

<center>
<h3>
&copy; 2000 David Turner (<a href="mailto:[email protected]">[email protected]</a>)<br>
&copy; 2000 The FreeType Development Team (<a href="http://www.freetype.org">www.freetype.org</a>)</h3></center>

<p><br>
<hr WIDTH="100%">
<br>&nbsp;
<h2>Introduction:</h2>
<ul>
  This document explains the concept of i/o <b>frames</b> as used in the
  FreeType 2 source code. It also enumerates the various functions and macros
  that can be used to read them.
  <p>
  It is targetted to FreeType hackers, or more simply to developers who would
  like a better understanding of the library's source code.
</ul>

<p><hr><p>

<h2>I. What frames are:</h2>
<ul>
  Simply speaking, a frame is an array of bytes in a font file that is
  "preloaded" into memory in order to be rapidly parsed. Frames are useful to
  ensure that every "load" is checked against end-of-file overruns, and
  provides nice functions to extract data in a variety of distinct formats.
  <p>
  But an example is certainly more meaningful than anything else.
  The following code:
  <p>
     <font color="blue"><pre>
     error = read_short(stream, &str.value1);
     if (error) goto ...

     error = read_ulong(stream, &str.value2);
     if (error) goto ...

     error = read_ulong(stream, &str.value3);
     if (error) goto ...
     </pre></font>
  can easily be replaced with:
  <p>
     <font color="blue"><pre>
     error = FT_Access_Frame(stream, 2+4+4);
     if (error) goto ...

     str.value1 = FT_Get_Short(stream);
     str.value2 = FT_Get_ULong(stream);
     str.value3 = FT_Get_ULong(stream);

     FT_Forget_Frame(stream);
     </pre></font>
  <p>
  Here, the call to <tt>FT_Access_Frame</tt> will:<p>
  <ul>
	  <li>Ensure that there are at least 2+4+4=10 bytes left in the stream.
	  <li>"Preload" (for disk-based streams) 10 bytes from the current
          stream position.
	  <li>Set the frame "cursor" to the first byte in the frame;
  </ul>
  <p>
  Each <tt>FT_Get_Short</tt> or <tt>FT_Get_ULong</tt> call will read a
  big-endian integer from the stream (2 bytes for <tt>FT_Get_Short</tt>,
  4 bytes for <tt>FT_Get_ULong</tt>) and advance the frame cursor accordingly.
  <p>
  <tt>FT_Forget_Frame</tt> "releases" the frame from memory
  <p>
  There are several advantages to using frames :<p>
  <ul>
	  <li>single-check when loading tables
	  <li><em>making code clearer</em> by providing simple parsing functions
             <em>while keeping code safe</em> from file over-runs and invalid
             offsets.
  </ul>
  <p>
</ul>

<p><hr><p>

<h2>II. Accessing and reading a frame with macros:</h2>
<ul>
	By convention in the FreeType source code, macros are able to use two implicit
	variables named "<tt>error</tt>" and "<tt>stream</tt>". This is useful because
	these two variables are extremely used in the library, and doing this only
	reduces our typing requirements and make the source code much clearer.
	<p>
	Note that <tt>error</tt> must be a local variable of type <tt>FT_Error</tt>,<br>
	while <tt>stream</tt> must be a local variable or argument of type <tt>FT_Stream</tt>;
	<p>
	The macro used to access a frame is
    <font color="purple"><tt><b>ACCESS_Frame(_size_)</b></tt></font>, it will
	translate to:<p>
	<ul><font color="blue">
		<tt>(error=FT_Access_Frame(stream,_size_)) != FT_Err_Ok</tt>.
	</font></ul>
	<p>
	Similarly, the macro
    <font color="purple"><b><tt>FORGET_Frame()</tt></b></font>
    translates to:<p>
	<ul><font color="blue">
		<tt>FT_Forget_Frame(stream)</tt>
	</font></ul>
	<p>
	Extracting integers can be performed with the <tt>GET_xxx</tt> macros, like:<p>
	<ul>
		<table>
			<tr>
                <td><b>Macro name</b>    <td>Translation  <td>Description

            <tr><td><font color="purple"><tt><b>
                GET_Byte()
                </b></tt></font><td><font color="blue"><tt>
                (FT_Get_Byte(stream))
                </tt></font><td>
                reads an 8-bit unsigned byte

            <tr><td><font color="purple"><tt><b>
                GET_Char()
                </b></tt></font><td><font color="blue"><tt>
                ((FT_Char)FT_Get_Byte(stream))
                </tt></font><td>
                reads an 8-bit <em>signed</em> byte

            <tr><td><font color="purple"><tt><b>
                GET_Short()
                </b></tt></font><td><font color="blue"><tt>
                (FT_Get_Short(stream))
                </tt></font><td>
                reads a 16-bit signed big-endian integer

            <tr><td><font color="purple"><tt><b>
                GET_UShort()
                </b></tt></font><td><font color="blue"><tt>
                ((FT_UShort)FT_Get_Short(stream))
                </tt></font><td>
                reads a 16-bit unsigned big-endian integer

            <tr><td><font color="purple"><tt><b>
                GET_Offset()
                </b></tt></font><td><font color="blue"><tt>
                (FT_Get_Offset(stream))
                </tt></font><td>
                reads a 24-bit signed big-endian integer

            <tr><td><font color="purple"><tt><b>
                GET_UOffset()
                </b></tt></font><td><font color="blue"><tt>
                ((FT_UOffset)FT_Get_Offset(stream))
                </tt></font><td>
                reads a 24-bit unsigned big-endian integer

            <tr><td><font color="purple"><tt><b>
                GET_Long()
                </b></tt></font><td><font color="blue"><tt>
                (FT_Get_Long(stream))
                </tt></font><td>
                reads a 32-bit signed big-endian integer

            <tr><td><font color="purple"><tt><b>
                GET_ULong()
                </b></tt></font><td><font color="blue"><tt>
                ((FT_ULong)FT_Get_Long(stream))
                </tt></font><td>
                reads a 32-bit unsigned big-endian integer

		</table>
	</ul>
	<p>
	(Note that an <b>Offset</b> is an integer stored with 3 bytes on the file).
    <p>
	All this means that the following code:<p>
	<font color="blue"><pre>
      error = FT_Access_Frame(stream, 2+4+4);
      if (error) goto ...

      str.value1 = FT_Get_Short(stream);
      str.value2 = FT_Get_ULong(stream);
      str.value3 = FT_Get_ULong(stream);

      FT_Forget_Frame(stream);<br>
	</pre></font>
	<p>
	Can be replaced with macros by:<p>
	<font color="blue"><pre>
      if ( ACCESS_Frame( 2+4+4 ) ) goto ...

      str.value1 = GET_Short();
      str.value2 = GET_ULong();
      str.value3 = GET_ULong();

      FORGET_Frame();
	</pre></font>
	<p>
	Which is clearer. Notice that <b>error</b> and <b>stream</b> must be defined
	locally though for this code to work.. !!
</ul>

<p><hr><p>

<h2>III. Alternatives:</h2>
<ul>
  It is sometimes useful to read small integers from a font file without using
  a frame. Some functions have been introduced in FreeType 2 to do just that,
  and they are of the form <font color="blue"><tt>FT_Read_xxxx</tt></font>.
  <p>
  For example,
  <font color="blue"><tt>FT_Read_Short( stream, &error )</tt></font> reads and
  returns a 2-byte big-endian integer from a <tt>stream</tt>, and place an
  error code in the <tt>error</tt> variable.
  <p>
  Thus, reading a single big-endian integer is shorter than using a frame
  for it.
  <p>
  Note that there is also the macros
  <font color="purple"><tt>READ_xxx()</tt></font> which translate to:<p>
  <font color="blue"><pre>
    <tt>( FT_Read_xxx(stream,&error), error != FT_Err_Ok )
  </pre></font>
  <p>
  and can be used as in:<p>
  <font color="blue"><pre>
    if ( READ_UShort(variable1) || READ_ULong (variable2) ) goto Fail;
  </pre></font>
  <p>
  when <b>error</b> and <b>stream</b> are already defined locally..
</ul>