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[Date Prev][Date Next][Thread Prev][Thread Next][Date Index][Thread Index] [Xen-devel] [PATCH v3 16/34] x86emul/test: introduce eq()
In preparation for sensible to-boolean conversion on AVX512, wrap
another abstraction function around the present to_bool(<x> == <y>), to
get rid of the open-coded == (which will get in the way of using
built-in functions instead). For the future AVX512 use scalar operands
can't be used then anymore: Use (vec_t){} when the operand is zero,
and broadcast (if available) otherwise (assume pre-AVX512 when broadcast
is not available, in which case a plain scalar is still fine).
Signed-off-by: Jan Beulich <jbeulich@xxxxxxxx>
---
v3: New.
--- a/tools/tests/x86_emulator/simd.c
+++ b/tools/tests/x86_emulator/simd.c
@@ -46,6 +46,10 @@ static inline bool _to_bool(byte_vec_t b
# define to_bool(cmp) _to_bool((byte_vec_t)(cmp))
#endif
+#ifndef eq
+# define eq(x, y) to_bool((x) == (y))
+#endif
+
#if VEC_SIZE == FLOAT_SIZE
# define to_int(x) ((vec_t){ (int)(x)[0] })
#elif VEC_SIZE == 8 && FLOAT_SIZE == 4 && defined(__3dNOW__)
@@ -605,18 +609,18 @@ int simd_test(void)
touch(src);
x = src;
touch(x);
- if ( !to_bool(x == src) ) return __LINE__;
+ if ( !eq(x, src) ) return __LINE__;
touch(src);
y = x + src;
touch(src);
touch(y);
- if ( !to_bool(y == 2 * src) ) return __LINE__;
+ if ( !eq(y, 2 * src) ) return __LINE__;
touch(src);
z = y -= src;
touch(z);
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
#if defined(UINT_SIZE)
@@ -628,7 +632,7 @@ int simd_test(void)
z ^= inv;
touch(inv);
touch(x);
- if ( !to_bool((x & ~y) == z) ) return __LINE__;
+ if ( !eq(x & ~y, z) ) return __LINE__;
#elif ELEM_SIZE > 1 || VEC_SIZE <= 8
@@ -639,7 +643,7 @@ int simd_test(void)
z = src + inv;
touch(inv);
z *= (src - inv);
- if ( !to_bool(x - y == z) ) return __LINE__;
+ if ( !eq(x - y, z) ) return __LINE__;
#endif
@@ -648,10 +652,10 @@ int simd_test(void)
x = src * alt;
touch(alt);
y = src / alt;
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
touch(alt);
touch(src);
- if ( !to_bool(x * -alt == -src) ) return __LINE__;
+ if ( !eq(x * -alt, -src) ) return __LINE__;
# if defined(recip) && defined(to_int)
@@ -659,16 +663,16 @@ int simd_test(void)
x = recip(src);
touch(src);
touch(x);
- if ( !to_bool(to_int(recip(x)) == src) ) return __LINE__;
+ if ( !eq(to_int(recip(x)), src) ) return __LINE__;
# ifdef rsqrt
x = src * src;
touch(x);
y = rsqrt(x);
touch(y);
- if ( !to_bool(to_int(recip(y)) == src) ) return __LINE__;
+ if ( !eq(to_int(recip(y)), src) ) return __LINE__;
touch(src);
- if ( !to_bool(to_int(y) == to_int(recip(src))) ) return __LINE__;
+ if ( !eq(to_int(y), to_int(recip(src))) ) return __LINE__;
# endif
# endif
@@ -676,7 +680,7 @@ int simd_test(void)
# ifdef sqrt
x = src * src;
touch(x);
- if ( !to_bool(sqrt(x) == src) ) return __LINE__;
+ if ( !eq(sqrt(x), src) ) return __LINE__;
# endif
# ifdef trunc
@@ -684,20 +688,20 @@ int simd_test(void)
y = (vec_t){ 1 };
touch(x);
z = trunc(x);
- if ( !to_bool(y == z) ) return __LINE__;
+ if ( !eq(y, z) ) return __LINE__;
# endif
# ifdef frac
touch(src);
x = frac(src);
touch(src);
- if ( !to_bool(x == 0) ) return __LINE__;
+ if ( !eq(x, (vec_t){}) ) return __LINE__;
x = 1 / (src + 1);
touch(x);
y = frac(x);
touch(x);
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
# endif
# if defined(trunc) && defined(frac)
@@ -707,7 +711,7 @@ int simd_test(void)
touch(x);
z = frac(x);
touch(x);
- if ( !to_bool(x == y + z) ) return __LINE__;
+ if ( !eq(x, y + z) ) return __LINE__;
# endif
#else
@@ -720,16 +724,16 @@ int simd_test(void)
y[ELEM_COUNT - 1] = y[0] = j = ELEM_COUNT;
for ( i = 1; i < ELEM_COUNT / 2; ++i )
y[ELEM_COUNT - i - 1] = y[i] = y[i - 1] + (j -= 2);
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
# ifdef mul_hi
touch(alt);
x = mul_hi(src, alt);
touch(alt);
# ifdef INT_SIZE
- if ( !to_bool(x == (alt < 0)) ) return __LINE__;
+ if ( !eq(x, alt < 0) ) return __LINE__;
# else
- if ( !to_bool(x == (src & alt) + alt) ) return __LINE__;
+ if ( !eq(x, (src & alt) + alt) ) return __LINE__;
# endif
# endif
@@ -745,7 +749,7 @@ int simd_test(void)
z[i] = res;
z[i + 1] = res >> (ELEM_SIZE << 3);
}
- if ( !to_bool(y == z) ) return __LINE__;
+ if ( !eq(y, z) ) return __LINE__;
# endif
z = src;
@@ -757,12 +761,12 @@ int simd_test(void)
touch(z);
y = z << 2;
touch(z);
- if ( !to_bool(x == y + y) ) return __LINE__;
+ if ( !eq(x, y + y) ) return __LINE__;
touch(x);
z = x >> 2;
touch(x);
- if ( !to_bool(y == z + z) ) return __LINE__;
+ if ( !eq(y, z + z) ) return __LINE__;
z = src;
# ifdef INT_SIZE
@@ -781,11 +785,11 @@ int simd_test(void)
touch(j);
y = z << j;
touch(j);
- if ( !to_bool(x == y + y) ) return __LINE__;
+ if ( !eq(x, y + y) ) return __LINE__;
z = x >> j;
touch(j);
- if ( !to_bool(y == z + z) ) return __LINE__;
+ if ( !eq(y, z + z) ) return __LINE__;
# endif
@@ -809,12 +813,12 @@ int simd_test(void)
--sh;
touch(sh);
y = z << sh;
- if ( !to_bool(x == y + y) ) return __LINE__;
+ if ( !eq(x, y + y) ) return __LINE__;
# if (defined(__AVX2__) && ELEM_SIZE >= 4) || defined(__XOP__)
touch(sh);
x = y >> sh;
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
# endif
# endif
@@ -828,7 +832,7 @@ int simd_test(void)
touch(inv);
y = max(src, inv);
touch(inv);
- if ( !to_bool(x + y == src + inv) ) return __LINE__;
+ if ( !eq(x + y, src + inv) ) return __LINE__;
# else
x = src * alt;
y = inv * alt;
@@ -837,33 +841,33 @@ int simd_test(void)
touch(y);
y = min(x, y);
touch(y);
- if ( !to_bool((y + z) * alt == src + inv) ) return __LINE__;
+ if ( !eq((y + z) * alt, src + inv) ) return __LINE__;
# endif
#endif
#ifdef abs
x = src * alt;
touch(x);
- if ( !to_bool(abs(x) == src) ) return __LINE__;
+ if ( !eq(abs(x), src) ) return __LINE__;
#endif
#ifdef copysignz
touch(alt);
- if ( !to_bool(copysignz((vec_t){} + 1, alt) == alt) ) return __LINE__;
+ if ( !eq(copysignz((vec_t){} + 1, alt), alt) ) return __LINE__;
#endif
#ifdef swap
touch(src);
- if ( !to_bool(swap(src) == inv) ) return __LINE__;
+ if ( !eq(swap(src), inv) ) return __LINE__;
#endif
#ifdef swap2
touch(src);
- if ( !to_bool(swap2(src) == inv) ) return __LINE__;
+ if ( !eq(swap2(src), inv) ) return __LINE__;
#endif
#if defined(broadcast)
- if ( !to_bool(broadcast(ELEM_COUNT + 1) == src + inv) ) return __LINE__;
+ if ( !eq(broadcast(ELEM_COUNT + 1), src + inv) ) return __LINE__;
#endif
#if defined(interleave_lo) && defined(interleave_hi)
@@ -877,7 +881,11 @@ int simd_test(void)
# else
z = (x - y) * alt;
# endif
- if ( !to_bool(z == ELEM_COUNT / 2) ) return __LINE__;
+# ifdef broadcast
+ if ( !eq(z, broadcast(ELEM_COUNT / 2)) ) return __LINE__;
+# else
+ if ( !eq(z, ELEM_COUNT / 2) ) return __LINE__;
+# endif
#endif
#if defined(INT_SIZE) && defined(widen1) && defined(interleave_lo)
@@ -887,7 +895,7 @@ int simd_test(void)
touch(x);
z = widen1(x);
touch(x);
- if ( !to_bool(z == y) ) return __LINE__;
+ if ( !eq(z, y) ) return __LINE__;
# ifdef widen2
y = interleave_lo(alt < 0, alt < 0);
@@ -895,7 +903,7 @@ int simd_test(void)
touch(x);
z = widen2(x);
touch(x);
- if ( !to_bool(z == y) ) return __LINE__;
+ if ( !eq(z, y) ) return __LINE__;
# ifdef widen3
y = interleave_lo(alt < 0, alt < 0);
@@ -904,7 +912,7 @@ int simd_test(void)
touch(x);
z = widen3(x);
touch(x);
- if ( !to_bool(z == y) ) return __LINE__;
+ if ( !eq(z, y) ) return __LINE__;
# endif
# endif
@@ -919,21 +927,21 @@ int simd_test(void)
touch(src);
x = widen1(src);
touch(src);
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
# endif
# ifdef widen2
touch(src);
x = widen2(src);
touch(src);
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
# endif
# ifdef widen3
touch(src);
x = widen3(src);
touch(src);
- if ( !to_bool(x == interleave_lo(z, (vec_t){})) ) return __LINE__;
+ if ( !eq(x, interleave_lo(z, (vec_t){})) ) return __LINE__;
# endif
#endif
@@ -942,14 +950,14 @@ int simd_test(void)
touch(src);
x = dup_lo(src);
touch(src);
- if ( !to_bool(x - src == (alt - 1) / 2) ) return __LINE__;
+ if ( !eq(x - src, (alt - 1) / 2) ) return __LINE__;
#endif
#ifdef dup_hi
touch(src);
x = dup_hi(src);
touch(src);
- if ( !to_bool(x - src == (alt + 1) / 2) ) return __LINE__;
+ if ( !eq(x - src, (alt + 1) / 2) ) return __LINE__;
#endif
for ( i = 0; i < ELEM_COUNT; ++i )
@@ -961,7 +969,7 @@ int simd_test(void)
# else
select(&z, src, inv, alt > 0);
# endif
- if ( !to_bool(z == y) ) return __LINE__;
+ if ( !eq(z, y) ) return __LINE__;
#endif
#ifdef select2
@@ -970,14 +978,14 @@ int simd_test(void)
# else
select2(&z, src, inv, alt > 0);
# endif
- if ( !to_bool(z == y) ) return __LINE__;
+ if ( !eq(z, y) ) return __LINE__;
#endif
#ifdef mix
touch(src);
touch(inv);
x = mix(src, inv);
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
# ifdef addsub
touch(src);
@@ -986,22 +994,22 @@ int simd_test(void)
touch(src);
touch(inv);
y = mix(src - inv, src + inv);
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
# endif
#endif
#ifdef rotr
x = rotr(src, 1);
y = (src & (ELEM_COUNT - 1)) + 1;
- if ( !to_bool(x == y) ) return __LINE__;
+ if ( !eq(x, y) ) return __LINE__;
#endif
#ifdef dot_product
touch(src);
touch(inv);
x = dot_product(src, inv);
- if ( !to_bool(x == (vec_t){ (ELEM_COUNT * (ELEM_COUNT + 1) *
- (ELEM_COUNT + 2)) / 6 }) ) return __LINE__;
+ if ( !eq(x, (vec_t){ (ELEM_COUNT * (ELEM_COUNT + 1) *
+ (ELEM_COUNT + 2)) / 6 }) ) return __LINE__;
#endif
#ifdef hadd
@@ -1022,7 +1030,7 @@ int simd_test(void)
x = hsub(src, inv);
for ( i = ELEM_COUNT; i >>= 1; )
x = hadd(x, (vec_t){});
- if ( !to_bool(x == 0) ) return __LINE__;
+ if ( !eq(x, (vec_t){}) ) return __LINE__;
# endif
#endif
--- a/tools/tests/x86_emulator/simd-fma.c
+++ b/tools/tests/x86_emulator/simd-fma.c
@@ -20,6 +20,10 @@ ENTRY(fma_test);
# endif
#endif
+#ifndef eq
+# define eq(x, y) to_bool((x) == (y))
+#endif
+
#if VEC_SIZE == 16
# if FLOAT_SIZE == 4
# define addsub(x, y) __builtin_ia32_addsubps(x, y)
@@ -62,38 +66,38 @@ int fma_test(void)
y = (src - one) * inv;
touch(src);
z = inv * src + inv;
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
touch(src);
z = -inv * src - inv;
- if ( !to_bool(-x == z) ) return __LINE__;
+ if ( !eq(-x, z) ) return __LINE__;
touch(src);
z = inv * src - inv;
- if ( !to_bool(y == z) ) return __LINE__;
+ if ( !eq(y, z) ) return __LINE__;
touch(src);
z = -inv * src + inv;
- if ( !to_bool(-y == z) ) return __LINE__;
+ if ( !eq(-y, z) ) return __LINE__;
touch(src);
x = src + inv;
y = src - inv;
touch(inv);
z = src * one + inv;
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
touch(inv);
z = -src * one - inv;
- if ( !to_bool(-x == z) ) return __LINE__;
+ if ( !eq(-x, z) ) return __LINE__;
touch(inv);
z = src * one - inv;
- if ( !to_bool(y == z) ) return __LINE__;
+ if ( !eq(y, z) ) return __LINE__;
touch(inv);
z = -src * one + inv;
- if ( !to_bool(-y == z) ) return __LINE__;
+ if ( !eq(-y, z) ) return __LINE__;
touch(inv);
#if defined(addsub) && defined(fmaddsub)
@@ -101,21 +105,21 @@ int fma_test(void)
y = addsub(src * inv, -one);
touch(one);
z = fmaddsub(src, inv, one);
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
touch(one);
z = fmaddsub(src, inv, -one);
- if ( !to_bool(y == z) ) return __LINE__;
+ if ( !eq(y, z) ) return __LINE__;
touch(one);
x = addsub(src * inv, one);
touch(inv);
z = fmaddsub(src, inv, one);
- if ( !to_bool(x == z) ) return __LINE__;
+ if ( !eq(x, z) ) return __LINE__;
touch(inv);
z = fmaddsub(src, inv, -one);
- if ( !to_bool(y == z) ) return __LINE__;
+ if ( !eq(y, z) ) return __LINE__;
touch(inv);
#endif
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