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 <a name="Looping-Patterns"></a>
 <div class="header">
 <p>
 Next: <a href="Insn-Canonicalizations.html#Insn-Canonicalizations" accesskey="n" rel="next">Insn Canonicalizations</a>, Previous: <a href="Jump-Patterns.html#Jump-Patterns" accesskey="p" rel="prev">Jump Patterns</a>, Up: <a href="Machine-Desc.html#Machine-Desc" accesskey="u" rel="up">Machine Desc</a> &nbsp; [<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>
 </div>
 <hr>
 <a name="Defining-Looping-Instruction-Patterns"></a>
 <h3 class="section">16.13 Defining Looping Instruction Patterns</h3>
 <a name="index-looping-instruction-patterns"></a>
 <a name="index-defining-looping-instruction-patterns"></a>

 <p>Some machines have special jump instructions that can be utilized to
 make loops more efficient.  A common example is the 68000 &lsquo;<samp>dbra</samp>&rsquo;
 instruction which performs a decrement of a register and a branch if the
 result was greater than zero.  Other machines, in particular digital
 signal processors (DSPs), have special block repeat instructions to
 provide low-overhead loop support.  For example, the TI TMS320C3x/C4x
 DSPs have a block repeat instruction that loads special registers to
 mark the top and end of a loop and to count the number of loop
 iterations.  This avoids the need for fetching and executing a
 &lsquo;<samp>dbra</samp>&rsquo;-like instruction and avoids pipeline stalls associated with
 the jump.
 </p>
 <p>GCC has three special named patterns to support low overhead looping.
 They are &lsquo;<samp>decrement_and_branch_until_zero</samp>&rsquo;, &lsquo;<samp>doloop_begin</samp>&rsquo;,
 and &lsquo;<samp>doloop_end</samp>&rsquo;.  The first pattern,
 &lsquo;<samp>decrement_and_branch_until_zero</samp>&rsquo;, is not emitted during RTL
 generation but may be emitted during the instruction combination phase.
 This requires the assistance of the loop optimizer, using information
 collected during strength reduction, to reverse a loop to count down to
 zero.  Some targets also require the loop optimizer to add a
 <code>REG_NONNEG</code> note to indicate that the iteration count is always
 positive.  This is needed if the target performs a signed loop
 termination test.  For example, the 68000 uses a pattern similar to the
 following for its <code>dbra</code> instruction:
 </p>
 <div class="smallexample">
 <pre class="smallexample">(define_insn &quot;decrement_and_branch_until_zero&quot;
   [(set (pc)
         (if_then_else
           (ge (plus:SI (match_operand:SI 0 &quot;general_operand&quot; &quot;+d*am&quot;)
                        (const_int -1))
               (const_int 0))
           (label_ref (match_operand 1 &quot;&quot; &quot;&quot;))
           (pc)))
    (set (match_dup 0)
         (plus:SI (match_dup 0)
                  (const_int -1)))]
   &quot;find_reg_note (insn, REG_NONNEG, 0)&quot;
   &quot;&hellip;&quot;)
 </pre></div>

 <p>Note that since the insn is both a jump insn and has an output, it must
 deal with its own reloads, hence the &lsquo;m&rsquo; constraints.  Also note that
 since this insn is generated by the instruction combination phase
 combining two sequential insns together into an implicit parallel insn,
 the iteration counter needs to be biased by the same amount as the
 decrement operation, in this case -1.  Note that the following similar
 pattern will not be matched by the combiner.
 </p>
 <div class="smallexample">
 <pre class="smallexample">(define_insn &quot;decrement_and_branch_until_zero&quot;
   [(set (pc)
         (if_then_else
           (ge (match_operand:SI 0 &quot;general_operand&quot; &quot;+d*am&quot;)
               (const_int 1))
           (label_ref (match_operand 1 &quot;&quot; &quot;&quot;))
           (pc)))
    (set (match_dup 0)
         (plus:SI (match_dup 0)
                  (const_int -1)))]
   &quot;find_reg_note (insn, REG_NONNEG, 0)&quot;
   &quot;&hellip;&quot;)
 </pre></div>

 <p>The other two special looping patterns, &lsquo;<samp>doloop_begin</samp>&rsquo; and
 &lsquo;<samp>doloop_end</samp>&rsquo;, are emitted by the loop optimizer for certain
 well-behaved loops with a finite number of loop iterations using
 information collected during strength reduction.
 </p>
 <p>The &lsquo;<samp>doloop_end</samp>&rsquo; pattern describes the actual looping instruction
 (or the implicit looping operation) and the &lsquo;<samp>doloop_begin</samp>&rsquo; pattern
 is an optional companion pattern that can be used for initialization
 needed for some low-overhead looping instructions.
 </p>
 <p>Note that some machines require the actual looping instruction to be
 emitted at the top of the loop (e.g., the TMS320C3x/C4x DSPs).  Emitting
 the true RTL for a looping instruction at the top of the loop can cause
 problems with flow analysis.  So instead, a dummy <code>doloop</code> insn is
 emitted at the end of the loop.  The machine dependent reorg pass checks
 for the presence of this <code>doloop</code> insn and then searches back to
 the top of the loop, where it inserts the true looping insn (provided
 there are no instructions in the loop which would cause problems).  Any
 additional labels can be emitted at this point.  In addition, if the
 desired special iteration counter register was not allocated, this
 machine dependent reorg pass could emit a traditional compare and jump
 instruction pair.
 </p>
 <p>The essential difference between the
 &lsquo;<samp>decrement_and_branch_until_zero</samp>&rsquo; and the &lsquo;<samp>doloop_end</samp>&rsquo;
 patterns is that the loop optimizer allocates an additional pseudo
 register for the latter as an iteration counter.  This pseudo register
 cannot be used within the loop (i.e., general induction variables cannot
 be derived from it), however, in many cases the loop induction variable
 may become redundant and removed by the flow pass.
 </p>

 <hr>
 <div class="header">
 <p>
 Next: <a href="Insn-Canonicalizations.html#Insn-Canonicalizations" accesskey="n" rel="next">Insn Canonicalizations</a>, Previous: <a href="Jump-Patterns.html#Jump-Patterns" accesskey="p" rel="prev">Jump Patterns</a>, Up: <a href="Machine-Desc.html#Machine-Desc" accesskey="u" rel="up">Machine Desc</a> &nbsp; [<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="Looping-Patterns"></a>
	<div class="header">
	<p>
	Next: <a href="Insn-Canonicalizations.html#Insn-Canonicalizations" accesskey="n" rel="next">Insn Canonicalizations</a>, Previous: <a href="Jump-Patterns.html#Jump-Patterns" accesskey="p" rel="prev">Jump Patterns</a>, Up: <a href="Machine-Desc.html#Machine-Desc" accesskey="u" rel="up">Machine Desc</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>
	</div>
	<hr>
	<a name="Defining-Looping-Instruction-Patterns"></a>
	<h3 class="section">16.13 Defining Looping Instruction Patterns</h3>
	<a name="index-looping-instruction-patterns"></a>
	<a name="index-defining-looping-instruction-patterns"></a>

	<p>Some machines have special jump instructions that can be utilized to
	make loops more efficient. A common example is the 68000 ‘<samp>dbra</samp>’
	instruction which performs a decrement of a register and a branch if the
	result was greater than zero. Other machines, in particular digital
	signal processors (DSPs), have special block repeat instructions to
	provide low-overhead loop support. For example, the TI TMS320C3x/C4x
	DSPs have a block repeat instruction that loads special registers to
	mark the top and end of a loop and to count the number of loop
	iterations. This avoids the need for fetching and executing a
	‘<samp>dbra</samp>’-like instruction and avoids pipeline stalls associated with
	the jump.
	</p>
	<p>GCC has three special named patterns to support low overhead looping.
	They are ‘<samp>decrement_and_branch_until_zero</samp>’, ‘<samp>doloop_begin</samp>’,
	and ‘<samp>doloop_end</samp>’. The first pattern,
	‘<samp>decrement_and_branch_until_zero</samp>’, is not emitted during RTL
	generation but may be emitted during the instruction combination phase.
	This requires the assistance of the loop optimizer, using information
	collected during strength reduction, to reverse a loop to count down to
	zero. Some targets also require the loop optimizer to add a
	<code>REG_NONNEG</code> note to indicate that the iteration count is always
	positive. This is needed if the target performs a signed loop
	termination test. For example, the 68000 uses a pattern similar to the
	following for its <code>dbra</code> instruction:
	</p>
	<div class="smallexample">
	<pre class="smallexample">(define_insn "decrement_and_branch_until_zero"
	[(set (pc)
	(if_then_else
	(ge (plus:SI (match_operand:SI 0 "general_operand" "+d*am")
	(const_int -1))
	(const_int 0))
	(label_ref (match_operand 1 "" ""))
	(pc)))
	(set (match_dup 0)
	(plus:SI (match_dup 0)
	(const_int -1)))]
	"find_reg_note (insn, REG_NONNEG, 0)"
	"…")
	</pre></div>

	<p>Note that since the insn is both a jump insn and has an output, it must
	deal with its own reloads, hence the ‘m’ constraints. Also note that
	since this insn is generated by the instruction combination phase
	combining two sequential insns together into an implicit parallel insn,
	the iteration counter needs to be biased by the same amount as the
	decrement operation, in this case -1. Note that the following similar
	pattern will not be matched by the combiner.
	</p>
	<div class="smallexample">
	<pre class="smallexample">(define_insn "decrement_and_branch_until_zero"
	[(set (pc)
	(if_then_else
	(ge (match_operand:SI 0 "general_operand" "+d*am")
	(const_int 1))
	(label_ref (match_operand 1 "" ""))
	(pc)))
	(set (match_dup 0)
	(plus:SI (match_dup 0)
	(const_int -1)))]
	"find_reg_note (insn, REG_NONNEG, 0)"
	"…")
	</pre></div>

	<p>The other two special looping patterns, ‘<samp>doloop_begin</samp>’ and
	‘<samp>doloop_end</samp>’, are emitted by the loop optimizer for certain
	well-behaved loops with a finite number of loop iterations using
	information collected during strength reduction.
	</p>
	<p>The ‘<samp>doloop_end</samp>’ pattern describes the actual looping instruction
	(or the implicit looping operation) and the ‘<samp>doloop_begin</samp>’ pattern
	is an optional companion pattern that can be used for initialization
	needed for some low-overhead looping instructions.
	</p>
	<p>Note that some machines require the actual looping instruction to be
	emitted at the top of the loop (e.g., the TMS320C3x/C4x DSPs). Emitting
	the true RTL for a looping instruction at the top of the loop can cause
	problems with flow analysis. So instead, a dummy <code>doloop</code> insn is
	emitted at the end of the loop. The machine dependent reorg pass checks
	for the presence of this <code>doloop</code> insn and then searches back to
	the top of the loop, where it inserts the true looping insn (provided
	there are no instructions in the loop which would cause problems). Any
	additional labels can be emitted at this point. In addition, if the
	desired special iteration counter register was not allocated, this
	machine dependent reorg pass could emit a traditional compare and jump
	instruction pair.
	</p>
	<p>The essential difference between the
	‘<samp>decrement_and_branch_until_zero</samp>’ and the ‘<samp>doloop_end</samp>’
	patterns is that the loop optimizer allocates an additional pseudo
	register for the latter as an iteration counter. This pseudo register
	cannot be used within the loop (i.e., general induction variables cannot
	be derived from it), however, in many cases the loop induction variable
	may become redundant and removed by the flow pass.
	</p>

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	<div class="header">
	<p>
	Next: <a href="Insn-Canonicalizations.html#Insn-Canonicalizations" accesskey="n" rel="next">Insn Canonicalizations</a>, Previous: <a href="Jump-Patterns.html#Jump-Patterns" accesskey="p" rel="prev">Jump Patterns</a>, Up: <a href="Machine-Desc.html#Machine-Desc" accesskey="u" rel="up">Machine Desc</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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