347 lines
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347 lines
14 KiB
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<title>GNU Compiler Collection (GCC) Internals: Edges</title>
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<link href="Option-Index.html#Option-Index" rel="index" title="Option Index">
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<link href="index.html#SEC_Contents" rel="contents" title="Table of Contents">
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<link href="Control-Flow.html#Control-Flow" rel="up" title="Control Flow">
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<body lang="en" bgcolor="#FFFFFF" text="#000000" link="#0000FF" vlink="#800080" alink="#FF0000">
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<a name="Edges"></a>
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<div class="header">
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<p>
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Next: <a href="Profile-information.html#Profile-information" accesskey="n" rel="next">Profile information</a>, Previous: <a href="Basic-Blocks.html#Basic-Blocks" accesskey="p" rel="prev">Basic Blocks</a>, Up: <a href="Control-Flow.html#Control-Flow" accesskey="u" rel="up">Control Flow</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
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</div>
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<hr>
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<a name="Edges-1"></a>
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<h3 class="section">14.2 Edges</h3>
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<a name="index-edge-in-the-flow-graph"></a>
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<a name="index-edge"></a>
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<p>Edges represent possible control flow transfers from the end of some
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basic block A to the head of another basic block B. We say that A is
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a predecessor of B, and B is a successor of A. Edges are represented
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in GCC with the <code>edge</code> data type. Each <code>edge</code> acts as a
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link between two basic blocks: The <code>src</code> member of an edge
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points to the predecessor basic block of the <code>dest</code> basic block.
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The members <code>preds</code> and <code>succs</code> of the <code>basic_block</code> data
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type point to type-safe vectors of edges to the predecessors and
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successors of the block.
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</p>
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<a name="index-edge-iterators"></a>
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<p>When walking the edges in an edge vector, <em>edge iterators</em> should
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be used. Edge iterators are constructed using the
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<code>edge_iterator</code> data structure and several methods are available
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to operate on them:
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</p>
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<dl compact="compact">
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<dt><code>ei_start</code>
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<a name="index-ei_005fstart"></a>
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</dt>
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<dd><p>This function initializes an <code>edge_iterator</code> that points to the
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first edge in a vector of edges.
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</p>
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</dd>
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<dt><code>ei_last</code>
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<a name="index-ei_005flast"></a>
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</dt>
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<dd><p>This function initializes an <code>edge_iterator</code> that points to the
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last edge in a vector of edges.
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</p>
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</dd>
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<dt><code>ei_end_p</code>
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<a name="index-ei_005fend_005fp"></a>
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</dt>
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<dd><p>This predicate is <code>true</code> if an <code>edge_iterator</code> represents
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the last edge in an edge vector.
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</p>
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</dd>
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<dt><code>ei_one_before_end_p</code>
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<a name="index-ei_005fone_005fbefore_005fend_005fp"></a>
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</dt>
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<dd><p>This predicate is <code>true</code> if an <code>edge_iterator</code> represents
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the second last edge in an edge vector.
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</p>
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</dd>
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<dt><code>ei_next</code>
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<a name="index-ei_005fnext"></a>
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</dt>
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<dd><p>This function takes a pointer to an <code>edge_iterator</code> and makes it
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point to the next edge in the sequence.
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</p>
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</dd>
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<dt><code>ei_prev</code>
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<a name="index-ei_005fprev"></a>
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</dt>
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<dd><p>This function takes a pointer to an <code>edge_iterator</code> and makes it
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point to the previous edge in the sequence.
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</p>
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</dd>
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<dt><code>ei_edge</code>
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<a name="index-ei_005fedge"></a>
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</dt>
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<dd><p>This function returns the <code>edge</code> currently pointed to by an
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<code>edge_iterator</code>.
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</p>
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</dd>
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<dt><code>ei_safe_safe</code>
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<a name="index-ei_005fsafe_005fsafe"></a>
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</dt>
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<dd><p>This function returns the <code>edge</code> currently pointed to by an
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<code>edge_iterator</code>, but returns <code>NULL</code> if the iterator is
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pointing at the end of the sequence. This function has been provided
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for existing code makes the assumption that a <code>NULL</code> edge
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indicates the end of the sequence.
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</p>
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</dd>
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</dl>
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<p>The convenience macro <code>FOR_EACH_EDGE</code> can be used to visit all of
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the edges in a sequence of predecessor or successor edges. It must
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not be used when an element might be removed during the traversal,
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otherwise elements will be missed. Here is an example of how to use
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the macro:
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</p>
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<div class="smallexample">
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<pre class="smallexample">edge e;
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edge_iterator ei;
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FOR_EACH_EDGE (e, ei, bb->succs)
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{
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if (e->flags & EDGE_FALLTHRU)
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break;
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}
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</pre></div>
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<a name="index-fall_002dthru"></a>
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<p>There are various reasons why control flow may transfer from one block
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to another. One possibility is that some instruction, for example a
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<code>CODE_LABEL</code>, in a linearized instruction stream just always
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starts a new basic block. In this case a <em>fall-thru</em> edge links
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the basic block to the first following basic block. But there are
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several other reasons why edges may be created. The <code>flags</code>
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field of the <code>edge</code> data type is used to store information
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about the type of edge we are dealing with. Each edge is of one of
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the following types:
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</p>
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<dl compact="compact">
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<dt><em>jump</em></dt>
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<dd><p>No type flags are set for edges corresponding to jump instructions.
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These edges are used for unconditional or conditional jumps and in
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RTL also for table jumps. They are the easiest to manipulate as they
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may be freely redirected when the flow graph is not in SSA form.
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</p>
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</dd>
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<dt><em>fall-thru</em></dt>
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<dd><a name="index-EDGE_005fFALLTHRU_002c-force_005fnonfallthru"></a>
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<p>Fall-thru edges are present in case where the basic block may continue
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execution to the following one without branching. These edges have
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the <code>EDGE_FALLTHRU</code> flag set. Unlike other types of edges, these
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edges must come into the basic block immediately following in the
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instruction stream. The function <code>force_nonfallthru</code> is
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available to insert an unconditional jump in the case that redirection
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is needed. Note that this may require creation of a new basic block.
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</p>
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</dd>
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<dt><em>exception handling</em></dt>
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<dd><a name="index-exception-handling"></a>
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<a name="index-EDGE_005fABNORMAL_002c-EDGE_005fEH"></a>
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<p>Exception handling edges represent possible control transfers from a
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trapping instruction to an exception handler. The definition of
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“trapping” varies. In C++, only function calls can throw, but for
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Java and Ada, exceptions like division by zero or segmentation fault are
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defined and thus each instruction possibly throwing this kind of
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exception needs to be handled as control flow instruction. Exception
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edges have the <code>EDGE_ABNORMAL</code> and <code>EDGE_EH</code> flags set.
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</p>
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<a name="index-purge_005fdead_005fedges"></a>
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<p>When updating the instruction stream it is easy to change possibly
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trapping instruction to non-trapping, by simply removing the exception
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edge. The opposite conversion is difficult, but should not happen
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anyway. The edges can be eliminated via <code>purge_dead_edges</code> call.
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</p>
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<a name="index-REG_005fEH_005fREGION_002c-EDGE_005fABNORMAL_005fCALL"></a>
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<p>In the RTL representation, the destination of an exception edge is
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specified by <code>REG_EH_REGION</code> note attached to the insn.
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In case of a trapping call the <code>EDGE_ABNORMAL_CALL</code> flag is set
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too. In the <code>GIMPLE</code> representation, this extra flag is not set.
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</p>
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<a name="index-may_005ftrap_005fp_002c-tree_005fcould_005ftrap_005fp"></a>
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<p>In the RTL representation, the predicate <code>may_trap_p</code> may be used
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to check whether instruction still may trap or not. For the tree
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representation, the <code>tree_could_trap_p</code> predicate is available,
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but this predicate only checks for possible memory traps, as in
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dereferencing an invalid pointer location.
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</p>
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</dd>
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<dt><em>sibling calls</em></dt>
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<dd><a name="index-sibling-call"></a>
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<a name="index-EDGE_005fABNORMAL_002c-EDGE_005fSIBCALL"></a>
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<p>Sibling calls or tail calls terminate the function in a non-standard
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way and thus an edge to the exit must be present.
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<code>EDGE_SIBCALL</code> and <code>EDGE_ABNORMAL</code> are set in such case.
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These edges only exist in the RTL representation.
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</p>
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</dd>
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<dt><em>computed jumps</em></dt>
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<dd><a name="index-computed-jump"></a>
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<a name="index-EDGE_005fABNORMAL"></a>
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<p>Computed jumps contain edges to all labels in the function referenced
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from the code. All those edges have <code>EDGE_ABNORMAL</code> flag set.
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The edges used to represent computed jumps often cause compile time
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performance problems, since functions consisting of many taken labels
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and many computed jumps may have <em>very</em> dense flow graphs, so
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these edges need to be handled with special care. During the earlier
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stages of the compilation process, GCC tries to avoid such dense flow
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graphs by factoring computed jumps. For example, given the following
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series of jumps,
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</p>
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<div class="smallexample">
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<pre class="smallexample"> goto *x;
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[ … ]
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goto *x;
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[ … ]
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goto *x;
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[ … ]
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</pre></div>
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<p>factoring the computed jumps results in the following code sequence
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which has a much simpler flow graph:
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</p>
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<div class="smallexample">
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<pre class="smallexample"> goto y;
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[ … ]
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goto y;
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[ … ]
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goto y;
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[ … ]
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y:
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goto *x;
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</pre></div>
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<a name="index-pass_005fduplicate_005fcomputed_005fgotos"></a>
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<p>However, the classic problem with this transformation is that it has a
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runtime cost in there resulting code: An extra jump. Therefore, the
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computed jumps are un-factored in the later passes of the compiler
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(in the pass called <code>pass_duplicate_computed_gotos</code>).
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Be aware of that when you work on passes in that area. There have
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been numerous examples already where the compile time for code with
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unfactored computed jumps caused some serious headaches.
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</p>
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</dd>
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<dt><em>nonlocal goto handlers</em></dt>
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<dd><a name="index-nonlocal-goto-handler"></a>
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<a name="index-EDGE_005fABNORMAL_002c-EDGE_005fABNORMAL_005fCALL"></a>
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<p>GCC allows nested functions to return into caller using a <code>goto</code>
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to a label passed to as an argument to the callee. The labels passed
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to nested functions contain special code to cleanup after function
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call. Such sections of code are referred to as “nonlocal goto
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receivers”. If a function contains such nonlocal goto receivers, an
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edge from the call to the label is created with the
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<code>EDGE_ABNORMAL</code> and <code>EDGE_ABNORMAL_CALL</code> flags set.
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</p>
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</dd>
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<dt><em>function entry points</em></dt>
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<dd><a name="index-function-entry-point_002c-alternate-function-entry-point"></a>
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<a name="index-LABEL_005fALTERNATE_005fNAME"></a>
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<p>By definition, execution of function starts at basic block 0, so there
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is always an edge from the <code>ENTRY_BLOCK_PTR</code> to basic block 0.
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There is no <code>GIMPLE</code> representation for alternate entry points at
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this moment. In RTL, alternate entry points are specified by
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<code>CODE_LABEL</code> with <code>LABEL_ALTERNATE_NAME</code> defined. This
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feature is currently used for multiple entry point prologues and is
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limited to post-reload passes only. This can be used by back-ends to
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emit alternate prologues for functions called from different contexts.
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In future full support for multiple entry functions defined by Fortran
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90 needs to be implemented.
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</p>
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</dd>
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<dt><em>function exits</em></dt>
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<dd><p>In the pre-reload representation a function terminates after the last
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instruction in the insn chain and no explicit return instructions are
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used. This corresponds to the fall-thru edge into exit block. After
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reload, optimal RTL epilogues are used that use explicit (conditional)
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return instructions that are represented by edges with no flags set.
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</p>
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</dd>
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</dl>
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<hr>
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<div class="header">
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<p>
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Next: <a href="Profile-information.html#Profile-information" accesskey="n" rel="next">Profile information</a>, Previous: <a href="Basic-Blocks.html#Basic-Blocks" accesskey="p" rel="prev">Basic Blocks</a>, Up: <a href="Control-Flow.html#Control-Flow" accesskey="u" rel="up">Control Flow</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Option-Index.html#Option-Index" title="Index" rel="index">Index</a>]</p>
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</div>
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</body>
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</html>
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