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<h1>Getting Started: Building and Running Clang</h1>


<p>This page gives you the shortest path to checking out clang and demos a few
options.  This should get you up and running with the minimum of muss and fuss.
If you like what you see, please consider <a href="get_involved.html">getting
involved</a> with the clang community.</p>


<h2>A word of warning</h2>

<p>While this work aims to provide a fully functional C/C++/ObjC front-end, it
is <em>still early work</em> and is under heavy development. In particular,
there is no real C++ support yet (this is obviously a big project), and C/ObjC
support is still missing some minor features. Some of the more notable missing 
pieces of C support are:</p>

<ol>
  <li>The semantic analyzer does not produce all of the warnings it should.</li>
  <li>We don't consider the API to be stable yet, and reserve the right to
      change fundamental things.</li>
  <li>The driver is currently implemented in python and is "really slow".</li>
</ol>

<p>At this point, C and Objective-C are generally usable for X86-32 and X86-64 
targets.  If you run into problems, please file bugs in <a 
href="http://llvm.org/bugs/">LLVM Bugzilla</a> or bring up the issue on the 
<a href="http://lists.cs.uiuc.edu/mailman/listinfo/cfe-dev">Clang development 
mailing list</a>.</p>

<h2 id="build">Building clang / working with the code</h2>

<p>If you would like to check out and build the project, the current scheme
is:</p>

<ol>
  <li><a href="http://www.llvm.org/docs/GettingStarted.html#checkout">Checkout
   and build LLVM</a> from SVN head:</li>

  <ul>
    <li><tt>svn co http://llvm.org/svn/llvm-project/llvm/trunk llvm</tt></li>
    <li><tt>cd llvm</tt></li>
    <li><tt>./configure; make</tt></li>
  </ul>
  <li>Checkout clang:</li>
  <ul>
     <li>From within the <tt>llvm</tt> directory (where you
     built llvm):</li>
     <li><tt>cd tools</tt>
     <li><tt>svn co http://llvm.org/svn/llvm-project/cfe/trunk clang</tt></li>

  </ul>
  <li>If you intend to work on clang C++ support, you may need to tell it how
      to find your C++ standard library headers.  If clang can't find your 
      system libstdc++ headers, please follow these instructions:</li>

  <ul>
    <li>'<tt>touch empty.cpp; gcc -v empty.cpp -fsyntax-only</tt>' to get the
    path.</li>
    <li>Look for the comment "FIXME: temporary hack:
    hard-coded paths" in <tt>clang/lib/Frontend/InitHeaderSearch.cpp</tt> and
    change the lines below to include that path.</li>
  </ul>

  <li>Build clang:</li>
  <ul>
    <li><tt>cd clang</tt> (assuming that you are in <tt>llvm/tools</tt>)</li>
    <li><tt>make</tt> (this will give you a debug build)</li>
  </ul>

  <li>Try it out (assuming you add llvm/Debug/bin to your path):</li>
  <ul>
    <li><tt>clang --help</tt></li>
    <li><tt>clang file.c -fsyntax-only</tt> (check for correctness)</li>
    <li><tt>clang file.c -ast-dump</tt> (internal debug dump of ast)</li>
    <li><tt>clang file.c -ast-view</tt> (<a
    href="http://llvm.org/docs/ProgrammersManual.html#ViewGraph">set up graphviz
     and rebuild llvm first</a>)</li>
    <li><tt>clang file.c -emit-llvm</tt> (print out unoptimized llvm code)</li>
    <li><tt>clang file.c -emit-llvm -o - | llvm-as | opt -std-compile-opts |
         llvm-dis</tt> (print out optimized llvm code)</li>
    <li><tt>clang file.c -emit-llvm -o - | llvm-as | opt -std-compile-opts | llc
         &gt; file.s</tt> (output native machine code)</li>
  </ul>
</ol>

<p>Note that the C front-end uses LLVM, but does not depend on
  llvm-gcc.  If you encounter problems with building clang, make
  sure you have the latest SVN version of LLVM.  LLVM contains
  support libraries for clang that will be updated as well as
  development on clang progresses.</p>
  
<h3>Building clang while building llvm:</h3>
   <p>Since you've checked out clang into the llvm source tree you can
   build them all at once with a simple Makefile change. This moves
   Step 1 above to Step 4.</p>
  <ul>
    <li><tt>cd llvm/tools</tt></li>
    <li>then edit <tt>Makefile</tt> to have a clang target in <tt>PARALLEL_DIRS</tt>
        just like <tt>llvm-config</tt></li>
    <li>then just build llvm normally as above and clang will build at
        the same time</li>
    <li><em>Note:</em> you can update your toplevel project and all (possibly unrelated)
        projects inside it with <tt><b>make update</b></tt>. This will run
	<tt>svn update</tt> on all subdirectories related to subversion.</li>
  </ul>

<h2>Examples of using clang</h2>

<p>The clang driver takes a lot of GCC compatible options, which you can see
with 'clang --help'. Here are a few examples:</p>
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<pre class="code">
$ <b>cat ~/t.c</b>
typedef float V __attribute__((vector_size(16)));
V foo(V a, V b) { return a+b*a; }
</pre>


<h3>Preprocessing:</h3>

<pre class="code">
$ <b>clang ~/t.c -E</b>
# 1 "/Users/sabre/t.c" 1

typedef float V __attribute__((vector_size(16)));

V foo(V a, V b) { return a+b*a; }
</pre>


<h3>Type checking:</h3>

<pre class="code">
$ <b>clang -fsyntax-only ~/t.c</b>
</pre>


<h3>GCC options:</h3>

<pre class="code">
$ <b>clang -fsyntax-only ~/t.c -pedantic</b>
/Users/sabre/t.c:2:17: warning: extension used
typedef float V __attribute__((vector_size(16)));
                ^
1 diagnostic generated.
</pre>


<h3>Pretty printing from the AST:</h3>

<pre class="code">
$ <b>clang ~/t.c -ast-print</b>
typedef float V __attribute__(( vector_size(16) ));
V foo(V a, V b) {
   return a + b * a;
}
</pre>


<h3>Code generation with LLVM:</h3>

<pre class="code">
$ <b>clang ~/t.c -emit-llvm -o - | llvm-as | opt -std-compile-opts | llvm-dis</b>
define &lt;4 x float&gt; @foo(&lt;4 x float&gt; %a, &lt;4 x float&gt; %b) {
entry:
         %mul = mul &lt;4 x float&gt; %b, %a
         %add = add &lt;4 x float&gt; %mul, %a
         ret &lt;4 x float&gt; %add
}
$ <b>clang ~/t.c -emit-llvm -o - | llvm-as | opt -std-compile-opts | llc -march=ppc32 -mcpu=g5</b>
..
_foo:
         vmaddfp v2, v3, v2, v2
         blr
$ <b>clang ~/t.c -emit-llvm -o - | llvm-as | opt -std-compile-opts | llc -march=x86 -mcpu=yonah</b>
..
_foo:
         mulps %xmm0, %xmm1
         addps %xmm0, %xmm1
         movaps %xmm1, %xmm0
         ret
</pre>

<a name="ccc"><h3>GCC "Emulation" Driver</h3></a>

<p>While the <tt>clang</tt> executable is a compiler driver that can perform
code generation, program analysis, and other actions, it is not designed to be a
drop-in replacement for GCC's <tt>cc</tt>. There is interest in developing such
a driver for clang, but in the interim the clang source tree includes a Python
script <tt>ccc</tt> in the <tt>utils</tt> subdirectory that provides some of
this functionality (the script is intended to be used where GCC's <tt>cc</tt>
could be used). It is currently a work in progress, and eventually will likely
be replaced by a more complete driver.</p>

<p>Example use:</p>

<pre class="code">
$ <b>ccc t.c</b>
clang -emit-llvm-bc -o t.o -U__GNUC__ t.c
llvm-ld -native -o a.out t.o
$ <b>ls</b>
a.out a.out.bc t.c t.o
</pre>




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