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- <a name="Profile-information"></a>
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- <p>
- Next: <a href="Maintaining-the-CFG.html#Maintaining-the-CFG" accesskey="n" rel="next">Maintaining the CFG</a>, Previous: <a href="Edges.html#Edges" accesskey="p" rel="prev">Edges</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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- <a name="Profile-information-1"></a>
- <h3 class="section">15.3 Profile information</h3>
-
- <a name="index-profile-representation"></a>
- <p>In many cases a compiler must make a choice whether to trade speed in
- one part of code for speed in another, or to trade code size for code
- speed. In such cases it is useful to know information about how often
- some given block will be executed. That is the purpose for
- maintaining profile within the flow graph.
- GCC can handle profile information obtained through <em>profile
- feedback</em>, but it can also estimate branch probabilities based on
- statics and heuristics.
- </p>
- <a name="index-profile-feedback"></a>
- <p>The feedback based profile is produced by compiling the program with
- instrumentation, executing it on a train run and reading the numbers
- of executions of basic blocks and edges back to the compiler while
- re-compiling the program to produce the final executable. This method
- provides very accurate information about where a program spends most
- of its time on the train run. Whether it matches the average run of
- course depends on the choice of train data set, but several studies
- have shown that the behavior of a program usually changes just
- marginally over different data sets.
- </p>
- <a name="index-Static-profile-estimation"></a>
- <a name="index-branch-prediction"></a>
- <a name="index-predict_002edef"></a>
- <p>When profile feedback is not available, the compiler may be asked to
- attempt to predict the behavior of each branch in the program using a
- set of heuristics (see <samp>predict.def</samp> for details) and compute
- estimated frequencies of each basic block by propagating the
- probabilities over the graph.
- </p>
- <a name="index-frequency_002c-count_002c-BB_005fFREQ_005fBASE"></a>
- <p>Each <code>basic_block</code> contains two integer fields to represent
- profile information: <code>frequency</code> and <code>count</code>. The
- <code>frequency</code> is an estimation how often is basic block executed
- within a function. It is represented as an integer scaled in the
- range from 0 to <code>BB_FREQ_BASE</code>. The most frequently executed
- basic block in function is initially set to <code>BB_FREQ_BASE</code> and
- the rest of frequencies are scaled accordingly. During optimization,
- the frequency of the most frequent basic block can both decrease (for
- instance by loop unrolling) or grow (for instance by cross-jumping
- optimization), so scaling sometimes has to be performed multiple
- times.
- </p>
- <a name="index-gcov_005ftype"></a>
- <p>The <code>count</code> contains hard-counted numbers of execution measured
- during training runs and is nonzero only when profile feedback is
- available. This value is represented as the host’s widest integer
- (typically a 64 bit integer) of the special type <code>gcov_type</code>.
- </p>
- <p>Most optimization passes can use only the frequency information of a
- basic block, but a few passes may want to know hard execution counts.
- The frequencies should always match the counts after scaling, however
- during updating of the profile information numerical error may
- accumulate into quite large errors.
- </p>
- <a name="index-REG_005fBR_005fPROB_005fBASE_002c-EDGE_005fFREQUENCY"></a>
- <p>Each edge also contains a branch probability field: an integer in the
- range from 0 to <code>REG_BR_PROB_BASE</code>. It represents probability of
- passing control from the end of the <code>src</code> basic block to the
- <code>dest</code> basic block, i.e. the probability that control will flow
- along this edge. The <code>EDGE_FREQUENCY</code> macro is available to
- compute how frequently a given edge is taken. There is a <code>count</code>
- field for each edge as well, representing same information as for a
- basic block.
- </p>
- <p>The basic block frequencies are not represented in the instruction
- stream, but in the RTL representation the edge frequencies are
- represented for conditional jumps (via the <code>REG_BR_PROB</code>
- macro) since they are used when instructions are output to the
- assembly file and the flow graph is no longer maintained.
- </p>
- <a name="index-reverse-probability"></a>
- <p>The probability that control flow arrives via a given edge to its
- destination basic block is called <em>reverse probability</em> and is not
- directly represented, but it may be easily computed from frequencies
- of basic blocks.
- </p>
- <a name="index-redirect_005fedge_005fand_005fbranch"></a>
- <p>Updating profile information is a delicate task that can unfortunately
- not be easily integrated with the CFG manipulation API. Many of the
- functions and hooks to modify the CFG, such as
- <code>redirect_edge_and_branch</code>, do not have enough information to
- easily update the profile, so updating it is in the majority of cases
- left up to the caller. It is difficult to uncover bugs in the profile
- updating code, because they manifest themselves only by producing
- worse code, and checking profile consistency is not possible because
- of numeric error accumulation. Hence special attention needs to be
- given to this issue in each pass that modifies the CFG.
- </p>
- <a name="index-REG_005fBR_005fPROB_005fBASE_002c-BB_005fFREQ_005fBASE_002c-count"></a>
- <p>It is important to point out that <code>REG_BR_PROB_BASE</code> and
- <code>BB_FREQ_BASE</code> are both set low enough to be possible to compute
- second power of any frequency or probability in the flow graph, it is
- not possible to even square the <code>count</code> field, as modern CPUs are
- fast enough to execute $2^32$ operations quickly.
- </p>
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- Next: <a href="Maintaining-the-CFG.html#Maintaining-the-CFG" accesskey="n" rel="next">Maintaining the CFG</a>, Previous: <a href="Edges.html#Edges" accesskey="p" rel="prev">Edges</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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