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- <title>Cycles (GNU gprof)</title>
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- <a name="Cycles"></a>
- <div class="header">
- <p>
- Previous: <a href="Subroutines.html#Subroutines" accesskey="p" rel="prev">Subroutines</a>, Up: <a href="Call-Graph.html#Call-Graph" accesskey="u" rel="up">Call Graph</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>]</p>
- </div>
- <hr>
- <a name="How-Mutually-Recursive-Functions-Are-Described"></a>
- <h4 class="subsection">5.2.4 How Mutually Recursive Functions Are Described</h4>
- <a name="index-cycle"></a>
- <a name="index-recursion-cycle"></a>
-
- <p>The graph may be complicated by the presence of <em>cycles of
- recursion</em> in the call graph. A cycle exists if a function calls
- another function that (directly or indirectly) calls (or appears to
- call) the original function. For example: if <code>a</code> calls <code>b</code>,
- and <code>b</code> calls <code>a</code>, then <code>a</code> and <code>b</code> form a cycle.
- </p>
- <p>Whenever there are call paths both ways between a pair of functions, they
- belong to the same cycle. If <code>a</code> and <code>b</code> call each other and
- <code>b</code> and <code>c</code> call each other, all three make one cycle. Note that
- even if <code>b</code> only calls <code>a</code> if it was not called from <code>a</code>,
- <code>gprof</code> cannot determine this, so <code>a</code> and <code>b</code> are still
- considered a cycle.
- </p>
- <p>The cycles are numbered with consecutive integers. When a function
- belongs to a cycle, each time the function name appears in the call graph
- it is followed by ‘<samp><cycle <var>number</var>></samp>’.
- </p>
- <p>The reason cycles matter is that they make the time values in the call
- graph paradoxical. The “time spent in children” of <code>a</code> should
- include the time spent in its subroutine <code>b</code> and in <code>b</code>’s
- subroutines—but one of <code>b</code>’s subroutines is <code>a</code>! How much of
- <code>a</code>’s time should be included in the children of <code>a</code>, when
- <code>a</code> is indirectly recursive?
- </p>
- <p>The way <code>gprof</code> resolves this paradox is by creating a single entry
- for the cycle as a whole. The primary line of this entry describes the
- total time spent directly in the functions of the cycle. The
- “subroutines” of the cycle are the individual functions of the cycle, and
- all other functions that were called directly by them. The “callers” of
- the cycle are the functions, outside the cycle, that called functions in
- the cycle.
- </p>
- <p>Here is an example portion of a call graph which shows a cycle containing
- functions <code>a</code> and <code>b</code>. The cycle was entered by a call to
- <code>a</code> from <code>main</code>; both <code>a</code> and <code>b</code> called <code>c</code>.
- </p>
- <div class="smallexample">
- <pre class="smallexample">index % time self children called name
- ----------------------------------------
- 1.77 0 1/1 main [2]
- [3] 91.71 1.77 0 1+5 <cycle 1 as a whole> [3]
- 1.02 0 3 b <cycle 1> [4]
- 0.75 0 2 a <cycle 1> [5]
- ----------------------------------------
- 3 a <cycle 1> [5]
- [4] 52.85 1.02 0 0 b <cycle 1> [4]
- 2 a <cycle 1> [5]
- 0 0 3/6 c [6]
- ----------------------------------------
- 1.77 0 1/1 main [2]
- 2 b <cycle 1> [4]
- [5] 38.86 0.75 0 1 a <cycle 1> [5]
- 3 b <cycle 1> [4]
- 0 0 3/6 c [6]
- ----------------------------------------
- </pre></div>
-
- <p>(The entire call graph for this program contains in addition an entry for
- <code>main</code>, which calls <code>a</code>, and an entry for <code>c</code>, with callers
- <code>a</code> and <code>b</code>.)
- </p>
- <div class="smallexample">
- <pre class="smallexample">index % time self children called name
- <spontaneous>
- [1] 100.00 0 1.93 0 start [1]
- 0.16 1.77 1/1 main [2]
- ----------------------------------------
- 0.16 1.77 1/1 start [1]
- [2] 100.00 0.16 1.77 1 main [2]
- 1.77 0 1/1 a <cycle 1> [5]
- ----------------------------------------
- 1.77 0 1/1 main [2]
- [3] 91.71 1.77 0 1+5 <cycle 1 as a whole> [3]
- 1.02 0 3 b <cycle 1> [4]
- 0.75 0 2 a <cycle 1> [5]
- 0 0 6/6 c [6]
- ----------------------------------------
- 3 a <cycle 1> [5]
- [4] 52.85 1.02 0 0 b <cycle 1> [4]
- 2 a <cycle 1> [5]
- 0 0 3/6 c [6]
- ----------------------------------------
- 1.77 0 1/1 main [2]
- 2 b <cycle 1> [4]
- [5] 38.86 0.75 0 1 a <cycle 1> [5]
- 3 b <cycle 1> [4]
- 0 0 3/6 c [6]
- ----------------------------------------
- 0 0 3/6 b <cycle 1> [4]
- 0 0 3/6 a <cycle 1> [5]
- [6] 0.00 0 0 6 c [6]
- ----------------------------------------
- </pre></div>
-
- <p>The <code>self</code> field of the cycle’s primary line is the total time
- spent in all the functions of the cycle. It equals the sum of the
- <code>self</code> fields for the individual functions in the cycle, found
- in the entry in the subroutine lines for these functions.
- </p>
- <p>The <code>children</code> fields of the cycle’s primary line and subroutine lines
- count only subroutines outside the cycle. Even though <code>a</code> calls
- <code>b</code>, the time spent in those calls to <code>b</code> is not counted in
- <code>a</code>’s <code>children</code> time. Thus, we do not encounter the problem of
- what to do when the time in those calls to <code>b</code> includes indirect
- recursive calls back to <code>a</code>.
- </p>
- <p>The <code>children</code> field of a caller-line in the cycle’s entry estimates
- the amount of time spent <em>in the whole cycle</em>, and its other
- subroutines, on the times when that caller called a function in the cycle.
- </p>
- <p>The <code>called</code> field in the primary line for the cycle has two numbers:
- first, the number of times functions in the cycle were called by functions
- outside the cycle; second, the number of times they were called by
- functions in the cycle (including times when a function in the cycle calls
- itself). This is a generalization of the usual split into non-recursive and
- recursive calls.
- </p>
- <p>The <code>called</code> field of a subroutine-line for a cycle member in the
- cycle’s entry says how many time that function was called from functions in
- the cycle. The total of all these is the second number in the primary line’s
- <code>called</code> field.
- </p>
- <p>In the individual entry for a function in a cycle, the other functions in
- the same cycle can appear as subroutines and as callers. These lines show
- how many times each function in the cycle called or was called from each other
- function in the cycle. The <code>self</code> and <code>children</code> fields in these
- lines are blank because of the difficulty of defining meanings for them
- when recursion is going on.
- </p>
- <hr>
- <div class="header">
- <p>
- Previous: <a href="Subroutines.html#Subroutines" accesskey="p" rel="prev">Subroutines</a>, Up: <a href="Call-Graph.html#Call-Graph" accesskey="u" rel="up">Call Graph</a> [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>]</p>
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