/* { dg-final { check-function-bodies "**" "" "-DCHECK_ASM" } } */ #include "test_sve_acle.h" /* ** mulx_f32_m_tied1: ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_m_tied1, svfloat32_t, z0 = svmulx_f32_m (p0, z0, z1), z0 = svmulx_m (p0, z0, z1)) /* ** mulx_f32_m_tied2: ** mov (z[0-9]+)\.d, z0\.d ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, \1\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_m_tied2, svfloat32_t, z0 = svmulx_f32_m (p0, z1, z0), z0 = svmulx_m (p0, z1, z0)) /* ** mulx_f32_m_untied: ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, z2\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_m_untied, svfloat32_t, z0 = svmulx_f32_m (p0, z1, z2), z0 = svmulx_m (p0, z1, z2)) /* ** mulx_s4_f32_m_tied1: ** mov (z[0-9]+\.s), s4 ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_ZD (mulx_s4_f32_m_tied1, svfloat32_t, float, z0 = svmulx_n_f32_m (p0, z0, d4), z0 = svmulx_m (p0, z0, d4)) /* ** mulx_s4_f32_m_untied: ** mov (z[0-9]+\.s), s4 ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_ZD (mulx_s4_f32_m_untied, svfloat32_t, float, z0 = svmulx_n_f32_m (p0, z1, d4), z0 = svmulx_m (p0, z1, d4)) /* ** mulx_1_f32_m_tied1: ** fmov (z[0-9]+\.s), #1\.0(?:e\+0)? ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_1_f32_m_tied1, svfloat32_t, z0 = svmulx_n_f32_m (p0, z0, 1), z0 = svmulx_m (p0, z0, 1)) /* ** mulx_1_f32_m_untied: { xfail *-*-* } ** fmov (z[0-9]+\.s), #1\.0(?:e\+0)? ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_1_f32_m_untied, svfloat32_t, z0 = svmulx_n_f32_m (p0, z1, 1), z0 = svmulx_m (p0, z1, 1)) /* ** mulx_0p5_f32_m_tied1: ** fmov (z[0-9]+\.s), #(?:0\.5|5\.0e-1) ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_0p5_f32_m_tied1, svfloat32_t, z0 = svmulx_n_f32_m (p0, z0, 0.5), z0 = svmulx_m (p0, z0, 0.5)) /* ** mulx_0p5_f32_m_untied: { xfail *-*-* } ** fmov (z[0-9]+\.s), #(?:0\.5|5\.0e-1) ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_0p5_f32_m_untied, svfloat32_t, z0 = svmulx_n_f32_m (p0, z1, 0.5), z0 = svmulx_m (p0, z1, 0.5)) /* ** mulx_2_f32_m_tied1: ** fmov (z[0-9]+\.s), #2\.0(?:e\+0)? ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_2_f32_m_tied1, svfloat32_t, z0 = svmulx_n_f32_m (p0, z0, 2), z0 = svmulx_m (p0, z0, 2)) /* ** mulx_2_f32_m_untied: { xfail *-*-* } ** fmov (z[0-9]+\.s), #2\.0(?:e\+0)? ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_2_f32_m_untied, svfloat32_t, z0 = svmulx_n_f32_m (p0, z1, 2), z0 = svmulx_m (p0, z1, 2)) /* ** mulx_f32_z_tied1: ** movprfx z0\.s, p0/z, z0\.s ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_z_tied1, svfloat32_t, z0 = svmulx_f32_z (p0, z0, z1), z0 = svmulx_z (p0, z0, z1)) /* ** mulx_f32_z_tied2: ** movprfx z0\.s, p0/z, z0\.s ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_z_tied2, svfloat32_t, z0 = svmulx_f32_z (p0, z1, z0), z0 = svmulx_z (p0, z1, z0)) /* ** mulx_f32_z_untied: ** ( ** movprfx z0\.s, p0/z, z1\.s ** fmulx z0\.s, p0/m, z0\.s, z2\.s ** | ** movprfx z0\.s, p0/z, z2\.s ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ) ** ret */ TEST_UNIFORM_Z (mulx_f32_z_untied, svfloat32_t, z0 = svmulx_f32_z (p0, z1, z2), z0 = svmulx_z (p0, z1, z2)) /* ** mulx_s4_f32_z_tied1: ** mov (z[0-9]+\.s), s4 ** movprfx z0\.s, p0/z, z0\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_ZD (mulx_s4_f32_z_tied1, svfloat32_t, float, z0 = svmulx_n_f32_z (p0, z0, d4), z0 = svmulx_z (p0, z0, d4)) /* ** mulx_s4_f32_z_untied: ** mov (z[0-9]+\.s), s4 ** ( ** movprfx z0\.s, p0/z, z1\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** | ** movprfx z0\.s, p0/z, \1 ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ) ** ret */ TEST_UNIFORM_ZD (mulx_s4_f32_z_untied, svfloat32_t, float, z0 = svmulx_n_f32_z (p0, z1, d4), z0 = svmulx_z (p0, z1, d4)) /* ** mulx_1_f32_z_tied1: ** fmov (z[0-9]+\.s), #1\.0(?:e\+0)? ** movprfx z0\.s, p0/z, z0\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_1_f32_z_tied1, svfloat32_t, z0 = svmulx_n_f32_z (p0, z0, 1), z0 = svmulx_z (p0, z0, 1)) /* ** mulx_1_f32_z_untied: ** fmov (z[0-9]+\.s), #1\.0(?:e\+0)? ** ( ** movprfx z0\.s, p0/z, z1\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** | ** movprfx z0\.s, p0/z, \1 ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ) ** ret */ TEST_UNIFORM_Z (mulx_1_f32_z_untied, svfloat32_t, z0 = svmulx_n_f32_z (p0, z1, 1), z0 = svmulx_z (p0, z1, 1)) /* ** mulx_0p5_f32_z_tied1: ** fmov (z[0-9]+\.s), #(?:0\.5|5\.0e-1) ** movprfx z0\.s, p0/z, z0\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_0p5_f32_z_tied1, svfloat32_t, z0 = svmulx_n_f32_z (p0, z0, 0.5), z0 = svmulx_z (p0, z0, 0.5)) /* ** mulx_0p5_f32_z_untied: ** fmov (z[0-9]+\.s), #(?:0\.5|5\.0e-1) ** ( ** movprfx z0\.s, p0/z, z1\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** | ** movprfx z0\.s, p0/z, \1 ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ) ** ret */ TEST_UNIFORM_Z (mulx_0p5_f32_z_untied, svfloat32_t, z0 = svmulx_n_f32_z (p0, z1, 0.5), z0 = svmulx_z (p0, z1, 0.5)) /* ** mulx_2_f32_z_tied1: ** fmov (z[0-9]+\.s), #2\.0(?:e\+0)? ** movprfx z0\.s, p0/z, z0\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_2_f32_z_tied1, svfloat32_t, z0 = svmulx_n_f32_z (p0, z0, 2), z0 = svmulx_z (p0, z0, 2)) /* ** mulx_2_f32_z_untied: ** fmov (z[0-9]+\.s), #2\.0(?:e\+0)? ** ( ** movprfx z0\.s, p0/z, z1\.s ** fmulx z0\.s, p0/m, z0\.s, \1 ** | ** movprfx z0\.s, p0/z, \1 ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ) ** ret */ TEST_UNIFORM_Z (mulx_2_f32_z_untied, svfloat32_t, z0 = svmulx_n_f32_z (p0, z1, 2), z0 = svmulx_z (p0, z1, 2)) /* ** mulx_f32_x_tied1: ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_x_tied1, svfloat32_t, z0 = svmulx_f32_x (p0, z0, z1), z0 = svmulx_x (p0, z0, z1)) /* ** mulx_f32_x_tied2: ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_f32_x_tied2, svfloat32_t, z0 = svmulx_f32_x (p0, z1, z0), z0 = svmulx_x (p0, z1, z0)) /* ** mulx_f32_x_untied: ** ( ** movprfx z0, z1 ** fmulx z0\.s, p0/m, z0\.s, z2\.s ** | ** movprfx z0, z2 ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ) ** ret */ TEST_UNIFORM_Z (mulx_f32_x_untied, svfloat32_t, z0 = svmulx_f32_x (p0, z1, z2), z0 = svmulx_x (p0, z1, z2)) /* ** mulx_s4_f32_x_tied1: ** mov (z[0-9]+\.s), s4 ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_ZD (mulx_s4_f32_x_tied1, svfloat32_t, float, z0 = svmulx_n_f32_x (p0, z0, d4), z0 = svmulx_x (p0, z0, d4)) /* ** mulx_s4_f32_x_untied: ** mov z0\.s, s4 ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_ZD (mulx_s4_f32_x_untied, svfloat32_t, float, z0 = svmulx_n_f32_x (p0, z1, d4), z0 = svmulx_x (p0, z1, d4)) /* ** mulx_1_f32_x_tied1: ** fmov (z[0-9]+\.s), #1\.0(?:e\+0)? ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_1_f32_x_tied1, svfloat32_t, z0 = svmulx_n_f32_x (p0, z0, 1), z0 = svmulx_x (p0, z0, 1)) /* ** mulx_1_f32_x_untied: ** fmov z0\.s, #1\.0(?:e\+0)? ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_1_f32_x_untied, svfloat32_t, z0 = svmulx_n_f32_x (p0, z1, 1), z0 = svmulx_x (p0, z1, 1)) /* ** mulx_0p5_f32_x_tied1: ** fmov (z[0-9]+\.s), #(?:0\.5|5\.0e-1) ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_0p5_f32_x_tied1, svfloat32_t, z0 = svmulx_n_f32_x (p0, z0, 0.5), z0 = svmulx_x (p0, z0, 0.5)) /* ** mulx_0p5_f32_x_untied: ** fmov z0\.s, #(?:0\.5|5\.0e-1) ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_0p5_f32_x_untied, svfloat32_t, z0 = svmulx_n_f32_x (p0, z1, 0.5), z0 = svmulx_x (p0, z1, 0.5)) /* ** mulx_2_f32_x_tied1: ** fmov (z[0-9]+\.s), #2\.0(?:e\+0)? ** fmulx z0\.s, p0/m, z0\.s, \1 ** ret */ TEST_UNIFORM_Z (mulx_2_f32_x_tied1, svfloat32_t, z0 = svmulx_n_f32_x (p0, z0, 2), z0 = svmulx_x (p0, z0, 2)) /* ** mulx_2_f32_x_untied: ** fmov z0\.s, #2\.0(?:e\+0)? ** fmulx z0\.s, p0/m, z0\.s, z1\.s ** ret */ TEST_UNIFORM_Z (mulx_2_f32_x_untied, svfloat32_t, z0 = svmulx_n_f32_x (p0, z1, 2), z0 = svmulx_x (p0, z1, 2)) /* ** ptrue_mulx_f32_x_tied1: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_f32_x_tied1, svfloat32_t, z0 = svmulx_f32_x (svptrue_b32 (), z0, z1), z0 = svmulx_x (svptrue_b32 (), z0, z1)) /* ** ptrue_mulx_f32_x_tied2: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_f32_x_tied2, svfloat32_t, z0 = svmulx_f32_x (svptrue_b32 (), z1, z0), z0 = svmulx_x (svptrue_b32 (), z1, z0)) /* ** ptrue_mulx_f32_x_untied: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_f32_x_untied, svfloat32_t, z0 = svmulx_f32_x (svptrue_b32 (), z1, z2), z0 = svmulx_x (svptrue_b32 (), z1, z2)) /* ** ptrue_mulx_1_f32_x_tied1: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_1_f32_x_tied1, svfloat32_t, z0 = svmulx_n_f32_x (svptrue_b32 (), z0, 1), z0 = svmulx_x (svptrue_b32 (), z0, 1)) /* ** ptrue_mulx_1_f32_x_untied: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_1_f32_x_untied, svfloat32_t, z0 = svmulx_n_f32_x (svptrue_b32 (), z1, 1), z0 = svmulx_x (svptrue_b32 (), z1, 1)) /* ** ptrue_mulx_0p5_f32_x_tied1: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_0p5_f32_x_tied1, svfloat32_t, z0 = svmulx_n_f32_x (svptrue_b32 (), z0, 0.5), z0 = svmulx_x (svptrue_b32 (), z0, 0.5)) /* ** ptrue_mulx_0p5_f32_x_untied: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_0p5_f32_x_untied, svfloat32_t, z0 = svmulx_n_f32_x (svptrue_b32 (), z1, 0.5), z0 = svmulx_x (svptrue_b32 (), z1, 0.5)) /* ** ptrue_mulx_2_f32_x_tied1: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_2_f32_x_tied1, svfloat32_t, z0 = svmulx_n_f32_x (svptrue_b32 (), z0, 2), z0 = svmulx_x (svptrue_b32 (), z0, 2)) /* ** ptrue_mulx_2_f32_x_untied: ** ... ** ptrue p[0-9]+\.b[^\n]* ** ... ** ret */ TEST_UNIFORM_Z (ptrue_mulx_2_f32_x_untied, svfloat32_t, z0 = svmulx_n_f32_x (svptrue_b32 (), z1, 2), z0 = svmulx_x (svptrue_b32 (), z1, 2))