<tt>/dev/null</tt>).</p>
<p>To see what happened to the other string you registered, try running
-<tt>opt</tt> with the <tt>--help</tt> option:</p>
+<tt>opt</tt> with the <tt>-help</tt> option:</p>
<div class="doc_code"><pre>
-$ opt -load ../../../Debug/lib/Hello.so --help
+$ opt -load ../../../Debug/lib/Hello.so -help
OVERVIEW: llvm .bc -> .bc modular optimizer
USAGE: opt [options] <input bitcode>
<div class="doc_text">
<div class="doc_code"><pre>
- <b>virtual bool</b> runOnSCC(const std::vector<CallGraphNode *> &SCCM) = 0;
+ <b>virtual bool</b> runOnSCC(CallGraphSCC &SCC) = 0;
</pre></div>
<p>The <tt>runOnSCC</tt> method performs the interesting work of the pass, and
<p>A <tt>MachineFunctionPass</tt> is a part of the LLVM code generator that
executes on the machine-dependent representation of each LLVM function in the
-program. A <tt>MachineFunctionPass</tt> is also a <tt>FunctionPass</tt>, so all
+program.</p>
+
+<p>Code generator passes are registered and initialized specially by
+<tt>TargetMachine::addPassesToEmitFile</tt> and similar routines, so they
+cannot generally be run from the <tt>opt</tt> or <tt>bugpoint</tt>
+commands.</p>
+
+<p>A <tt>MachineFunctionPass</tt> is also a <tt>FunctionPass</tt>, so all
the restrictions that apply to a <tt>FunctionPass</tt> also apply to it.
<tt>MachineFunctionPass</tt>es also have additional restrictions. In particular,
<tt>MachineFunctionPass</tt>es are not allowed to do any of the following:</p>
<ol>
-<li>Modify any LLVM Instructions, BasicBlocks or Functions.</li>
+<li>Modify or create any LLVM IR Instructions, BasicBlocks, Arguments,
+ Functions, GlobalVariables, GlobalAliases, or Modules.</li>
<li>Modify a MachineFunction other than the one currently being processed.</li>
-<li>Add or remove MachineFunctions from the current Module.</li>
-<li>Add or remove global variables from the current Module.</li>
<li>Maintain state across invocations of <a
href="#runOnMachineFunction"><tt>runOnMachineFunction</tt></a> (including global
data)</li>
parameters. The first parameter is the name of the pass that is to be used on
the command line to specify that the pass should be added to a program (for
example, with <tt>opt</tt> or <tt>bugpoint</tt>). The second argument is the
-name of the pass, which is to be used for the <tt>--help</tt> output of
+name of the pass, which is to be used for the <tt>-help</tt> output of
programs, as
well as for debug output generated by the <tt>--debug-pass</tt> option.</p>
options that is useful for debugging pass execution, seeing how things work, and
diagnosing when you should be preserving more analyses than you currently are
(To get information about all of the variants of the <tt>--debug-pass</tt>
-option, just type '<tt>opt --help-hidden</tt>').</p>
+option, just type '<tt>opt -help-hidden</tt>').</p>
<p>By using the <tt>--debug-pass=Structure</tt> option, for example, we can see
how our <a href="#basiccode">Hello World</a> pass interacts with other passes.
</pre></div>
<p>Note the two spaces prior to the help string produces a tidy result on the
---help query.</p>
+-help query.</p>
<div class="doc_code"><pre>
-$ llc --help
+$ llc -help
...
- -regalloc - Register allocator to use: (default = linearscan)
+ -regalloc - Register allocator to use (default=linearscan)
=linearscan - linear scan register allocator
=local - local register allocator
=simple - simple register allocator