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 <a name="Reverse-Execution"></a>
 <div class="header">
 <p>
 Next: <a href="Process-Record-and-Replay.html#Process-Record-and-Replay" accesskey="n" rel="next">Process Record and Replay</a>, Previous: <a href="Stopping.html#Stopping" accesskey="p" rel="prev">Stopping</a>, Up: <a href="index.html#Top" accesskey="u" rel="up">Top</a> &nbsp; [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html#Concept-Index" title="Index" rel="index">Index</a>]</p>
 </div>
 <hr>
 <a name="Running-programs-backward"></a>
 <h2 class="chapter">6 Running programs backward</h2>
 <a name="index-reverse-execution"></a>
 <a name="index-running-programs-backward"></a>

 <p>When you are debugging a program, it is not unusual to realize that
 you have gone too far, and some event of interest has already happened.
 If the target environment supports it, <small>GDB</small> can allow you to
 &ldquo;rewind&rdquo; the program by running it backward.
 </p>
 <p>A target environment that supports reverse execution should be able
 to &ldquo;undo&rdquo; the changes in machine state that have taken place as the
 program was executing normally.  Variables, registers etc. should
 revert to their previous values.  Obviously this requires a great
 deal of sophistication on the part of the target environment; not
 all target environments can support reverse execution.
 </p>
 <p>When a program is executed in reverse, the instructions that
 have most recently been executed are &ldquo;un-executed&rdquo;, in reverse
 order.  The program counter runs backward, following the previous
 thread of execution in reverse.  As each instruction is &ldquo;un-executed&rdquo;,
 the values of memory and/or registers that were changed by that
 instruction are reverted to their previous states.  After executing
 a piece of source code in reverse, all side effects of that code
 should be &ldquo;undone&rdquo;, and all variables should be returned to their
 prior values<a name="DOCF6" href="#FOOT6"><sup>6</sup></a>.
 </p>
 <p>If you are debugging in a target environment that supports
 reverse execution, <small>GDB</small> provides the following commands.
 </p>
 <dl compact="compact">
 <dd><a name="index-reverse_002dcontinue"></a>
 <a name="index-rc-_0028reverse_002dcontinue_0029"></a>
 </dd>
 <dt><code>reverse-continue <span class="roman">[</span><var>ignore-count</var><span class="roman">]</span></code></dt>
 <dt><code>rc <span class="roman">[</span><var>ignore-count</var><span class="roman">]</span></code></dt>
 <dd><p>Beginning at the point where your program last stopped, start executing
 in reverse.  Reverse execution will stop for breakpoints and synchronous
 exceptions (signals), just like normal execution.  Behavior of
 asynchronous signals depends on the target environment.
 </p>
 <a name="index-reverse_002dstep"></a>
 <a name="index-rs-_0028step_0029"></a>
 </dd>
 <dt><code>reverse-step <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
 <dd><p>Run the program backward until control reaches the start of a
 different source line; then stop it, and return control to <small>GDB</small>.
 </p>
 <p>Like the <code>step</code> command, <code>reverse-step</code> will only stop
 at the beginning of a source line.  It &ldquo;un-executes&rdquo; the previously
 executed source line.  If the previous source line included calls to
 debuggable functions, <code>reverse-step</code> will step (backward) into
 the called function, stopping at the beginning of the <em>last</em>
 statement in the called function (typically a return statement).
 </p>
 <p>Also, as with the <code>step</code> command, if non-debuggable functions are
 called, <code>reverse-step</code> will run thru them backward without stopping.
 </p>
 <a name="index-reverse_002dstepi"></a>
 <a name="index-rsi-_0028reverse_002dstepi_0029"></a>
 </dd>
 <dt><code>reverse-stepi <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
 <dd><p>Reverse-execute one machine instruction.  Note that the instruction
 to be reverse-executed is <em>not</em> the one pointed to by the program
 counter, but the instruction executed prior to that one.  For instance,
 if the last instruction was a jump, <code>reverse-stepi</code> will take you
 back from the destination of the jump to the jump instruction itself.
 </p>
 <a name="index-reverse_002dnext"></a>
 <a name="index-rn-_0028reverse_002dnext_0029"></a>
 </dd>
 <dt><code>reverse-next <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
 <dd><p>Run backward to the beginning of the previous line executed in
 the current (innermost) stack frame.  If the line contains function
 calls, they will be &ldquo;un-executed&rdquo; without stopping.  Starting from
 the first line of a function, <code>reverse-next</code> will take you back
 to the caller of that function, <em>before</em> the function was called,
 just as the normal <code>next</code> command would take you from the last
 line of a function back to its return to its caller
 <a name="DOCF7" href="#FOOT7"><sup>7</sup></a>.
 </p>
 <a name="index-reverse_002dnexti"></a>
 <a name="index-rni-_0028reverse_002dnexti_0029"></a>
 </dd>
 <dt><code>reverse-nexti <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
 <dd><p>Like <code>nexti</code>, <code>reverse-nexti</code> executes a single instruction
 in reverse, except that called functions are &ldquo;un-executed&rdquo; atomically.
 That is, if the previously executed instruction was a return from
 another function, <code>reverse-nexti</code> will continue to execute
 in reverse until the call to that function (from the current stack
 frame) is reached.
 </p>
 <a name="index-reverse_002dfinish"></a>
 </dd>
 <dt><code>reverse-finish</code></dt>
 <dd><p>Just as the <code>finish</code> command takes you to the point where the
 current function returns, <code>reverse-finish</code> takes you to the point
 where it was called.  Instead of ending up at the end of the current
 function invocation, you end up at the beginning.
 </p>
 <a name="index-set-exec_002ddirection"></a>
 </dd>
 <dt><code>set exec-direction</code></dt>
 <dd><p>Set the direction of target execution.
 </p></dd>
 <dt><code>set exec-direction reverse</code></dt>
 <dd><a name="index-execute-forward-or-backward-in-time"></a>
 <p><small>GDB</small> will perform all execution commands in reverse, until the
 exec-direction mode is changed to &ldquo;forward&rdquo;.  Affected commands include
 <code>step, stepi, next, nexti, continue, and finish</code>.  The <code>return</code>
 command cannot be used in reverse mode.
 </p></dd>
 <dt><code>set exec-direction forward</code></dt>
 <dd><p><small>GDB</small> will perform all execution commands in the normal fashion.
 This is the default.
 </p></dd>
 </dl>


 <div class="footnote">
 <hr>
 <h4 class="footnotes-heading">Footnotes</h4>

 <h3><a name="FOOT6" href="#DOCF6">(6)</a></h3>
 <p>Note that some side effects are easier to undo than others.  For instance,
 memory and registers are relatively easy, but device I/O is hard.  Some
 targets may be able undo things like device I/O, and some may not.
 </p>
 <p>The contract between <small>GDB</small> and the reverse executing target
 requires only that the target do something reasonable when
 <small>GDB</small> tells it to execute backwards, and then report the
 results back to <small>GDB</small>.  Whatever the target reports back to
 <small>GDB</small>, <small>GDB</small> will report back to the user.  <small>GDB</small>
 assumes that the memory and registers that the target reports are in a
 consistant state, but <small>GDB</small> accepts whatever it is given.
 </p>
 <h3><a name="FOOT7" href="#DOCF7">(7)</a></h3>
 <p>Unless the code is too heavily optimized.</p>
 </div>
 <hr>
 <div class="header">
 <p>
 Next: <a href="Process-Record-and-Replay.html#Process-Record-and-Replay" accesskey="n" rel="next">Process Record and Replay</a>, Previous: <a href="Stopping.html#Stopping" accesskey="p" rel="prev">Stopping</a>, Up: <a href="index.html#Top" accesskey="u" rel="up">Top</a> &nbsp; [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html#Concept-Index" title="Index" rel="index">Index</a>]</p>
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	<a name="Reverse-Execution"></a>
	<div class="header">
	<p>
	Next: <a href="Process-Record-and-Replay.html#Process-Record-and-Replay" accesskey="n" rel="next">Process Record and Replay</a>, Previous: <a href="Stopping.html#Stopping" accesskey="p" rel="prev">Stopping</a>, Up: <a href="index.html#Top" accesskey="u" rel="up">Top</a>   [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html#Concept-Index" title="Index" rel="index">Index</a>]</p>
	</div>
	<hr>
	<a name="Running-programs-backward"></a>
	<h2 class="chapter">6 Running programs backward</h2>
	<a name="index-reverse-execution"></a>
	<a name="index-running-programs-backward"></a>

	<p>When you are debugging a program, it is not unusual to realize that
	you have gone too far, and some event of interest has already happened.
	If the target environment supports it, <small>GDB</small> can allow you to
	“rewind” the program by running it backward.
	</p>
	<p>A target environment that supports reverse execution should be able
	to “undo” the changes in machine state that have taken place as the
	program was executing normally. Variables, registers etc. should
	revert to their previous values. Obviously this requires a great
	deal of sophistication on the part of the target environment; not
	all target environments can support reverse execution.
	</p>
	<p>When a program is executed in reverse, the instructions that
	have most recently been executed are “un-executed”, in reverse
	order. The program counter runs backward, following the previous
	thread of execution in reverse. As each instruction is “un-executed”,
	the values of memory and/or registers that were changed by that
	instruction are reverted to their previous states. After executing
	a piece of source code in reverse, all side effects of that code
	should be “undone”, and all variables should be returned to their
	prior values<a name="DOCF6" href="#FOOT6"><sup>6</sup></a>.
	</p>
	<p>If you are debugging in a target environment that supports
	reverse execution, <small>GDB</small> provides the following commands.
	</p>
	<dl compact="compact">
	<dd><a name="index-reverse_002dcontinue"></a>
	<a name="index-rc-_0028reverse_002dcontinue_0029"></a>
	</dd>
	<dt><code>reverse-continue <span class="roman">[</span><var>ignore-count</var><span class="roman">]</span></code></dt>
	<dt><code>rc <span class="roman">[</span><var>ignore-count</var><span class="roman">]</span></code></dt>
	<dd><p>Beginning at the point where your program last stopped, start executing
	in reverse. Reverse execution will stop for breakpoints and synchronous
	exceptions (signals), just like normal execution. Behavior of
	asynchronous signals depends on the target environment.
	</p>
	<a name="index-reverse_002dstep"></a>
	<a name="index-rs-_0028step_0029"></a>
	</dd>
	<dt><code>reverse-step <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
	<dd><p>Run the program backward until control reaches the start of a
	different source line; then stop it, and return control to <small>GDB</small>.
	</p>
	<p>Like the <code>step</code> command, <code>reverse-step</code> will only stop
	at the beginning of a source line. It “un-executes” the previously
	executed source line. If the previous source line included calls to
	debuggable functions, <code>reverse-step</code> will step (backward) into
	the called function, stopping at the beginning of the <em>last</em>
	statement in the called function (typically a return statement).
	</p>
	<p>Also, as with the <code>step</code> command, if non-debuggable functions are
	called, <code>reverse-step</code> will run thru them backward without stopping.
	</p>
	<a name="index-reverse_002dstepi"></a>
	<a name="index-rsi-_0028reverse_002dstepi_0029"></a>
	</dd>
	<dt><code>reverse-stepi <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
	<dd><p>Reverse-execute one machine instruction. Note that the instruction
	to be reverse-executed is <em>not</em> the one pointed to by the program
	counter, but the instruction executed prior to that one. For instance,
	if the last instruction was a jump, <code>reverse-stepi</code> will take you
	back from the destination of the jump to the jump instruction itself.
	</p>
	<a name="index-reverse_002dnext"></a>
	<a name="index-rn-_0028reverse_002dnext_0029"></a>
	</dd>
	<dt><code>reverse-next <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
	<dd><p>Run backward to the beginning of the previous line executed in
	the current (innermost) stack frame. If the line contains function
	calls, they will be “un-executed” without stopping. Starting from
	the first line of a function, <code>reverse-next</code> will take you back
	to the caller of that function, <em>before</em> the function was called,
	just as the normal <code>next</code> command would take you from the last
	line of a function back to its return to its caller
	<a name="DOCF7" href="#FOOT7"><sup>7</sup></a>.
	</p>
	<a name="index-reverse_002dnexti"></a>
	<a name="index-rni-_0028reverse_002dnexti_0029"></a>
	</dd>
	<dt><code>reverse-nexti <span class="roman">[</span><var>count</var><span class="roman">]</span></code></dt>
	<dd><p>Like <code>nexti</code>, <code>reverse-nexti</code> executes a single instruction
	in reverse, except that called functions are “un-executed” atomically.
	That is, if the previously executed instruction was a return from
	another function, <code>reverse-nexti</code> will continue to execute
	in reverse until the call to that function (from the current stack
	frame) is reached.
	</p>
	<a name="index-reverse_002dfinish"></a>
	</dd>
	<dt><code>reverse-finish</code></dt>
	<dd><p>Just as the <code>finish</code> command takes you to the point where the
	current function returns, <code>reverse-finish</code> takes you to the point
	where it was called. Instead of ending up at the end of the current
	function invocation, you end up at the beginning.
	</p>
	<a name="index-set-exec_002ddirection"></a>
	</dd>
	<dt><code>set exec-direction</code></dt>
	<dd><p>Set the direction of target execution.
	</p></dd>
	<dt><code>set exec-direction reverse</code></dt>
	<dd><a name="index-execute-forward-or-backward-in-time"></a>
	<p><small>GDB</small> will perform all execution commands in reverse, until the
	exec-direction mode is changed to “forward”. Affected commands include
	<code>step, stepi, next, nexti, continue, and finish</code>. The <code>return</code>
	command cannot be used in reverse mode.
	</p></dd>
	<dt><code>set exec-direction forward</code></dt>
	<dd><p><small>GDB</small> will perform all execution commands in the normal fashion.
	This is the default.
	</p></dd>
	</dl>


	<div class="footnote">
	<hr>
	<h4 class="footnotes-heading">Footnotes</h4>

	<h3><a name="FOOT6" href="#DOCF6">(6)</a></h3>
	<p>Note that some side effects are easier to undo than others. For instance,
	memory and registers are relatively easy, but device I/O is hard. Some
	targets may be able undo things like device I/O, and some may not.
	</p>
	<p>The contract between <small>GDB</small> and the reverse executing target
	requires only that the target do something reasonable when
	<small>GDB</small> tells it to execute backwards, and then report the
	results back to <small>GDB</small>. Whatever the target reports back to
	<small>GDB</small>, <small>GDB</small> will report back to the user. <small>GDB</small>
	assumes that the memory and registers that the target reports are in a
	consistant state, but <small>GDB</small> accepts whatever it is given.
	</p>
	<h3><a name="FOOT7" href="#DOCF7">(7)</a></h3>
	<p>Unless the code is too heavily optimized.</p>
	</div>
	<hr>
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	Next: <a href="Process-Record-and-Replay.html#Process-Record-and-Replay" accesskey="n" rel="next">Process Record and Replay</a>, Previous: <a href="Stopping.html#Stopping" accesskey="p" rel="prev">Stopping</a>, Up: <a href="index.html#Top" accesskey="u" rel="up">Top</a>   [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html#Concept-Index" title="Index" rel="index">Index</a>]</p>
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