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/* { dg-final { check-function-bodies "**" "" "-DCHECK_ASM" { target { ! ilp32 } } } } */
#include "test_sve_acle.h"
/*
** ld3_s32_base:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_s32_base, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0),
z0 = svld3 (p0, x0))
/*
** ld3_s32_index:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, x1, lsl 2\]
** ret
*/
TEST_LOAD (ld3_s32_index, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 + x1),
z0 = svld3 (p0, x0 + x1))
/* Moving the constant into a register would also be OK. */
/*
** ld3_s32_1:
** incb x0
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_s32_1, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 + svcntw ()),
z0 = svld3 (p0, x0 + svcntw ()))
/* Moving the constant into a register would also be OK. */
/*
** ld3_s32_2:
** incb x0, all, mul #2
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_s32_2, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 + svcntw () * 2),
z0 = svld3 (p0, x0 + svcntw () * 2))
/*
** ld3_s32_3:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #3, mul vl\]
** ret
*/
TEST_LOAD (ld3_s32_3, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 + svcntw () * 3),
z0 = svld3 (p0, x0 + svcntw () * 3))
/*
** ld3_s32_21:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #21, mul vl\]
** ret
*/
TEST_LOAD (ld3_s32_21, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 + svcntw () * 21),
z0 = svld3 (p0, x0 + svcntw () * 21))
/*
** ld3_s32_24:
** addvl (x[0-9]+), x0, #24
** ld3w {z0\.s - z2\.s}, p0/z, \[\1\]
** ret
*/
TEST_LOAD (ld3_s32_24, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 + svcntw () * 24),
z0 = svld3 (p0, x0 + svcntw () * 24))
/* Moving the constant into a register would also be OK. */
/*
** ld3_s32_m1:
** decb x0
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_s32_m1, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 - svcntw ()),
z0 = svld3 (p0, x0 - svcntw ()))
/* Moving the constant into a register would also be OK. */
/*
** ld3_s32_m2:
** decb x0, all, mul #2
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_s32_m2, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 - svcntw () * 2),
z0 = svld3 (p0, x0 - svcntw () * 2))
/*
** ld3_s32_m3:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #-3, mul vl\]
** ret
*/
TEST_LOAD (ld3_s32_m3, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 - svcntw () * 3),
z0 = svld3 (p0, x0 - svcntw () * 3))
/*
** ld3_s32_m24:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #-24, mul vl\]
** ret
*/
TEST_LOAD (ld3_s32_m24, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 - svcntw () * 24),
z0 = svld3 (p0, x0 - svcntw () * 24))
/*
** ld3_s32_m27:
** addvl (x[0-9]+), x0, #-27
** ld3w {z0\.s - z2\.s}, p0/z, \[\1\]
** ret
*/
TEST_LOAD (ld3_s32_m27, svint32x3_t, int32_t,
z0 = svld3_s32 (p0, x0 - svcntw () * 27),
z0 = svld3 (p0, x0 - svcntw () * 27))
/*
** ld3_vnum_s32_0:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_0, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, 0),
z0 = svld3_vnum (p0, x0, 0))
/* Moving the constant into a register would also be OK. */
/*
** ld3_vnum_s32_1:
** incb x0
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_1, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, 1),
z0 = svld3_vnum (p0, x0, 1))
/* Moving the constant into a register would also be OK. */
/*
** ld3_vnum_s32_2:
** incb x0, all, mul #2
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_2, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, 2),
z0 = svld3_vnum (p0, x0, 2))
/*
** ld3_vnum_s32_3:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #3, mul vl\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_3, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, 3),
z0 = svld3_vnum (p0, x0, 3))
/*
** ld3_vnum_s32_21:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #21, mul vl\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_21, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, 21),
z0 = svld3_vnum (p0, x0, 21))
/*
** ld3_vnum_s32_24:
** addvl (x[0-9]+), x0, #24
** ld3w {z0\.s - z2\.s}, p0/z, \[\1\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_24, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, 24),
z0 = svld3_vnum (p0, x0, 24))
/* Moving the constant into a register would also be OK. */
/*
** ld3_vnum_s32_m1:
** decb x0
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_m1, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, -1),
z0 = svld3_vnum (p0, x0, -1))
/* Moving the constant into a register would also be OK. */
/*
** ld3_vnum_s32_m2:
** decb x0, all, mul #2
** ld3w {z0\.s - z2\.s}, p0/z, \[x0\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_m2, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, -2),
z0 = svld3_vnum (p0, x0, -2))
/*
** ld3_vnum_s32_m3:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #-3, mul vl\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_m3, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, -3),
z0 = svld3_vnum (p0, x0, -3))
/*
** ld3_vnum_s32_m24:
** ld3w {z0\.s - z2\.s}, p0/z, \[x0, #-24, mul vl\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_m24, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, -24),
z0 = svld3_vnum (p0, x0, -24))
/*
** ld3_vnum_s32_m27:
** addvl (x[0-9]+), x0, #-27
** ld3w {z0\.s - z2\.s}, p0/z, \[\1\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_m27, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, -27),
z0 = svld3_vnum (p0, x0, -27))
/* Using MUL to calculate an index would also be OK. */
/*
** ld3_vnum_s32_x1:
** cntb (x[0-9]+)
** madd (x[0-9]+), (x1, \1|\1, x1), x0
** ld3w {z0\.s - z2\.s}, p0/z, \[\2\]
** ret
*/
TEST_LOAD (ld3_vnum_s32_x1, svint32x3_t, int32_t,
z0 = svld3_vnum_s32 (p0, x0, x1),
z0 = svld3_vnum (p0, x0, x1))
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