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<h5 class="subsubsection">6.58.14.3 MIPS-3D Built-in Functions</h5>
<p>The MIPS-3D Application-Specific Extension (ASE) includes additional
paired-single instructions that are designed to improve the performance
of 3D graphics operations. Support for these instructions is controlled
by the <samp><span class="option">-mips3d</span></samp> command-line option.
<p>The functions listed below map directly to a particular MIPS-3D
instruction. Please refer to the architecture specification for
more details on what each instruction does.
<dl>
<dt><code>v2sf __builtin_mips_addr_ps (v2sf, v2sf)</code><dd>Reduction add (<code>addr.ps</code>).
<br><dt><code>v2sf __builtin_mips_mulr_ps (v2sf, v2sf)</code><dd>Reduction multiply (<code>mulr.ps</code>).
<br><dt><code>v2sf __builtin_mips_cvt_pw_ps (v2sf)</code><dd>Convert paired single to paired word (<code>cvt.pw.ps</code>).
<br><dt><code>v2sf __builtin_mips_cvt_ps_pw (v2sf)</code><dd>Convert paired word to paired single (<code>cvt.ps.pw</code>).
<br><dt><code>float __builtin_mips_recip1_s (float)</code><dt><code>double __builtin_mips_recip1_d (double)</code><dt><code>v2sf __builtin_mips_recip1_ps (v2sf)</code><dd>Reduced-precision reciprocal (sequence step 1) (<code>recip1.</code><var>fmt</var>).
<br><dt><code>float __builtin_mips_recip2_s (float, float)</code><dt><code>double __builtin_mips_recip2_d (double, double)</code><dt><code>v2sf __builtin_mips_recip2_ps (v2sf, v2sf)</code><dd>Reduced-precision reciprocal (sequence step 2) (<code>recip2.</code><var>fmt</var>).
<br><dt><code>float __builtin_mips_rsqrt1_s (float)</code><dt><code>double __builtin_mips_rsqrt1_d (double)</code><dt><code>v2sf __builtin_mips_rsqrt1_ps (v2sf)</code><dd>Reduced-precision reciprocal square root (sequence step 1)
(<code>rsqrt1.</code><var>fmt</var>).
<br><dt><code>float __builtin_mips_rsqrt2_s (float, float)</code><dt><code>double __builtin_mips_rsqrt2_d (double, double)</code><dt><code>v2sf __builtin_mips_rsqrt2_ps (v2sf, v2sf)</code><dd>Reduced-precision reciprocal square root (sequence step 2)
(<code>rsqrt2.</code><var>fmt</var>).
</dl>
<p>The following multi-instruction functions are also available.
In each case, <var>cond</var> can be any of the 16 floating-point conditions:
<code>f</code>, <code>un</code>, <code>eq</code>, <code>ueq</code>, <code>olt</code>, <code>ult</code>,
<code>ole</code>, <code>ule</code>, <code>sf</code>, <code>ngle</code>, <code>seq</code>,
<code>ngl</code>, <code>lt</code>, <code>nge</code>, <code>le</code> or <code>ngt</code>.
<dl>
<dt><code>int __builtin_mips_cabs_</code><var>cond</var><code>_s (float </code><var>a</var><code>, float </code><var>b</var><code>)</code><dt><code>int __builtin_mips_cabs_</code><var>cond</var><code>_d (double </code><var>a</var><code>, double </code><var>b</var><code>)</code><dd>Absolute comparison of two scalar values (<code>cabs.</code><var>cond</var><code>.</code><var>fmt</var>,
<code>bc1t</code>/<code>bc1f</code>).
<p>These functions compare <var>a</var> and <var>b</var> using <code>cabs.</code><var>cond</var><code>.s</code>
or <code>cabs.</code><var>cond</var><code>.d</code> and return the result as a boolean value.
For example:
<pre class="smallexample"> float a, b;
if (__builtin_mips_cabs_eq_s (a, b))
true ();
else
false ();
</pre>
<br><dt><code>int __builtin_mips_upper_cabs_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>)</code><dt><code>int __builtin_mips_lower_cabs_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>)</code><dd>Absolute comparison of two paired-single values (<code>cabs.</code><var>cond</var><code>.ps</code>,
<code>bc1t</code>/<code>bc1f</code>).
<p>These functions compare <var>a</var> and <var>b</var> using <code>cabs.</code><var>cond</var><code>.ps</code>
and return either the upper or lower half of the result. For example:
<pre class="smallexample"> v2sf a, b;
if (__builtin_mips_upper_cabs_eq_ps (a, b))
upper_halves_are_equal ();
else
upper_halves_are_unequal ();
if (__builtin_mips_lower_cabs_eq_ps (a, b))
lower_halves_are_equal ();
else
lower_halves_are_unequal ();
</pre>
<br><dt><code>v2sf __builtin_mips_movt_cabs_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>, v2sf </code><var>c</var><code>, v2sf </code><var>d</var><code>)</code><dt><code>v2sf __builtin_mips_movf_cabs_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>, v2sf </code><var>c</var><code>, v2sf </code><var>d</var><code>)</code><dd>Conditional move based on absolute comparison (<code>cabs.</code><var>cond</var><code>.ps</code>,
<code>movt.ps</code>/<code>movf.ps</code>).
<p>The <code>movt</code> functions return the value <var>x</var> computed by:
<pre class="smallexample"> cabs.<var>cond</var>.ps <var>cc</var>,<var>a</var>,<var>b</var>
mov.ps <var>x</var>,<var>c</var>
movt.ps <var>x</var>,<var>d</var>,<var>cc</var>
</pre>
<p>The <code>movf</code> functions are similar but use <code>movf.ps</code> instead
of <code>movt.ps</code>.
<br><dt><code>int __builtin_mips_any_c_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>)</code><dt><code>int __builtin_mips_all_c_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>)</code><dt><code>int __builtin_mips_any_cabs_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>)</code><dt><code>int __builtin_mips_all_cabs_</code><var>cond</var><code>_ps (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>)</code><dd>Comparison of two paired-single values
(<code>c.</code><var>cond</var><code>.ps</code>/<code>cabs.</code><var>cond</var><code>.ps</code>,
<code>bc1any2t</code>/<code>bc1any2f</code>).
<p>These functions compare <var>a</var> and <var>b</var> using <code>c.</code><var>cond</var><code>.ps</code>
or <code>cabs.</code><var>cond</var><code>.ps</code>. The <code>any</code> forms return true if either
result is true and the <code>all</code> forms return true if both results are true.
For example:
<pre class="smallexample"> v2sf a, b;
if (__builtin_mips_any_c_eq_ps (a, b))
one_is_true ();
else
both_are_false ();
if (__builtin_mips_all_c_eq_ps (a, b))
both_are_true ();
else
one_is_false ();
</pre>
<br><dt><code>int __builtin_mips_any_c_</code><var>cond</var><code>_4s (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>, v2sf </code><var>c</var><code>, v2sf </code><var>d</var><code>)</code><dt><code>int __builtin_mips_all_c_</code><var>cond</var><code>_4s (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>, v2sf </code><var>c</var><code>, v2sf </code><var>d</var><code>)</code><dt><code>int __builtin_mips_any_cabs_</code><var>cond</var><code>_4s (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>, v2sf </code><var>c</var><code>, v2sf </code><var>d</var><code>)</code><dt><code>int __builtin_mips_all_cabs_</code><var>cond</var><code>_4s (v2sf </code><var>a</var><code>, v2sf </code><var>b</var><code>, v2sf </code><var>c</var><code>, v2sf </code><var>d</var><code>)</code><dd>Comparison of four paired-single values
(<code>c.</code><var>cond</var><code>.ps</code>/<code>cabs.</code><var>cond</var><code>.ps</code>,
<code>bc1any4t</code>/<code>bc1any4f</code>).
<p>These functions use <code>c.</code><var>cond</var><code>.ps</code> or <code>cabs.</code><var>cond</var><code>.ps</code>
to compare <var>a</var> with <var>b</var> and to compare <var>c</var> with <var>d</var>.
The <code>any</code> forms return true if any of the four results are true
and the <code>all</code> forms return true if all four results are true.
For example:
<pre class="smallexample"> v2sf a, b, c, d;
if (__builtin_mips_any_c_eq_4s (a, b, c, d))
some_are_true ();
else
all_are_false ();
if (__builtin_mips_all_c_eq_4s (a, b, c, d))
all_are_true ();
else
some_are_false ();
</pre>
</dl>
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