/* { dg-final { check-function-bodies "**" "" "-DCHECK_ASM" { target { ! ilp32 } } } } */ #include "test_sve_acle.h" /* ** ldnt1_s32_base: ** ldnt1w z0\.s, p0/z, \[x0\] ** ret */ TEST_LOAD (ldnt1_s32_base, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0), z0 = svldnt1 (p0, x0)) /* ** ldnt1_s32_index: ** ldnt1w z0\.s, p0/z, \[x0, x1, lsl 2\] ** ret */ TEST_LOAD (ldnt1_s32_index, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 + x1), z0 = svldnt1 (p0, x0 + x1)) /* ** ldnt1_s32_1: ** ldnt1w z0\.s, p0/z, \[x0, #1, mul vl\] ** ret */ TEST_LOAD (ldnt1_s32_1, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 + svcntw ()), z0 = svldnt1 (p0, x0 + svcntw ())) /* ** ldnt1_s32_7: ** ldnt1w z0\.s, p0/z, \[x0, #7, mul vl\] ** ret */ TEST_LOAD (ldnt1_s32_7, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 + svcntw () * 7), z0 = svldnt1 (p0, x0 + svcntw () * 7)) /* Moving the constant into a register would also be OK. */ /* ** ldnt1_s32_8: ** incb x0, all, mul #8 ** ldnt1w z0\.s, p0/z, \[x0\] ** ret */ TEST_LOAD (ldnt1_s32_8, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 + svcntw () * 8), z0 = svldnt1 (p0, x0 + svcntw () * 8)) /* ** ldnt1_s32_m1: ** ldnt1w z0\.s, p0/z, \[x0, #-1, mul vl\] ** ret */ TEST_LOAD (ldnt1_s32_m1, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 - svcntw ()), z0 = svldnt1 (p0, x0 - svcntw ())) /* ** ldnt1_s32_m8: ** ldnt1w z0\.s, p0/z, \[x0, #-8, mul vl\] ** ret */ TEST_LOAD (ldnt1_s32_m8, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 - svcntw () * 8), z0 = svldnt1 (p0, x0 - svcntw () * 8)) /* Moving the constant into a register would also be OK. */ /* ** ldnt1_s32_m9: ** decb x0, all, mul #9 ** ldnt1w z0\.s, p0/z, \[x0\] ** ret */ TEST_LOAD (ldnt1_s32_m9, svint32_t, int32_t, z0 = svldnt1_s32 (p0, x0 - svcntw () * 9), z0 = svldnt1 (p0, x0 - svcntw () * 9)) /* ** ldnt1_vnum_s32_0: ** ldnt1w z0\.s, p0/z, \[x0\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_0, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, 0), z0 = svldnt1_vnum (p0, x0, 0)) /* ** ldnt1_vnum_s32_1: ** ldnt1w z0\.s, p0/z, \[x0, #1, mul vl\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_1, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, 1), z0 = svldnt1_vnum (p0, x0, 1)) /* ** ldnt1_vnum_s32_7: ** ldnt1w z0\.s, p0/z, \[x0, #7, mul vl\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_7, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, 7), z0 = svldnt1_vnum (p0, x0, 7)) /* Moving the constant into a register would also be OK. */ /* ** ldnt1_vnum_s32_8: ** incb x0, all, mul #8 ** ldnt1w z0\.s, p0/z, \[x0\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_8, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, 8), z0 = svldnt1_vnum (p0, x0, 8)) /* ** ldnt1_vnum_s32_m1: ** ldnt1w z0\.s, p0/z, \[x0, #-1, mul vl\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_m1, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, -1), z0 = svldnt1_vnum (p0, x0, -1)) /* ** ldnt1_vnum_s32_m8: ** ldnt1w z0\.s, p0/z, \[x0, #-8, mul vl\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_m8, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, -8), z0 = svldnt1_vnum (p0, x0, -8)) /* Moving the constant into a register would also be OK. */ /* ** ldnt1_vnum_s32_m9: ** decb x0, all, mul #9 ** ldnt1w z0\.s, p0/z, \[x0\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_m9, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, -9), z0 = svldnt1_vnum (p0, x0, -9)) /* Using MUL to calculate an index would also be OK. */ /* ** ldnt1_vnum_s32_x1: ** cntb (x[0-9]+) ** madd (x[0-9]+), (x1, \1|\1, x1), x0 ** ldnt1w z0\.s, p0/z, \[\2\] ** ret */ TEST_LOAD (ldnt1_vnum_s32_x1, svint32_t, int32_t, z0 = svldnt1_vnum_s32 (p0, x0, x1), z0 = svldnt1_vnum (p0, x0, x1))