1  /* { dg-final { check-function-bodies "**" "" "-DCHECK_ASM" } } */
       2  
       3  #include "test_sve_acle.h"
       4  
       5  /*
       6  ** cvtx_f32_f64_m_tied1:
       7  **	fcvtx	z0\.s, p0/m, z4\.d
       8  **	ret
       9  */
      10  TEST_DUAL_Z (cvtx_f32_f64_m_tied1, svfloat32_t, svfloat64_t,
      11  	     z0 = svcvtx_f32_f64_m (z0, p0, z4),
      12  	     z0 = svcvtx_f32_m (z0, p0, z4))
      13  
      14  /*
      15  ** cvtx_f32_f64_m_tied2:
      16  **	mov	(z[0-9]+\.d), z0\.d
      17  **	movprfx	z0, z4
      18  **	fcvtx	z0\.s, p0/m, \1
      19  **	ret
      20  */
      21  TEST_DUAL_Z_REV (cvtx_f32_f64_m_tied2, svfloat32_t, svfloat64_t,
      22  		 z0_res = svcvtx_f32_f64_m (z4, p0, z0),
      23  		 z0_res = svcvtx_f32_m (z4, p0, z0))
      24  
      25  /*
      26  ** cvtx_f32_f64_m_untied:
      27  **	movprfx	z0, z1
      28  **	fcvtx	z0\.s, p0/m, z4\.d
      29  **	ret
      30  */
      31  TEST_DUAL_Z (cvtx_f32_f64_m_untied, svfloat32_t, svfloat64_t,
      32  	     z0 = svcvtx_f32_f64_m (z1, p0, z4),
      33  	     z0 = svcvtx_f32_m (z1, p0, z4))
      34  
      35  /*
      36  ** cvtx_f32_f64_z_tied1:
      37  **	mov	(z[0-9]+\.d), z0\.d
      38  **	movprfx	z0\.d, p0/z, \1
      39  **	fcvtx	z0\.s, p0/m, \1
      40  **	ret
      41  */
      42  TEST_DUAL_Z_REV (cvtx_f32_f64_z_tied1, svfloat32_t, svfloat64_t,
      43  		 z0_res = svcvtx_f32_f64_z (p0, z0),
      44  		 z0_res = svcvtx_f32_z (p0, z0))
      45  
      46  /*
      47  ** cvtx_f32_f64_z_untied:
      48  **	movprfx	z0\.d, p0/z, z4\.d
      49  **	fcvtx	z0\.s, p0/m, z4\.d
      50  **	ret
      51  */
      52  TEST_DUAL_Z (cvtx_f32_f64_z_untied, svfloat32_t, svfloat64_t,
      53  	     z0 = svcvtx_f32_f64_z (p0, z4),
      54  	     z0 = svcvtx_f32_z (p0, z4))
      55  
      56  /*
      57  ** cvtx_f32_f64_x_tied1:
      58  **	fcvtx	z0\.s, p0/m, z0\.d
      59  **	ret
      60  */
      61  TEST_DUAL_Z_REV (cvtx_f32_f64_x_tied1, svfloat32_t, svfloat64_t,
      62  		 z0_res = svcvtx_f32_f64_x (p0, z0),
      63  		 z0_res = svcvtx_f32_x (p0, z0))
      64  
      65  /*
      66  ** cvtx_f32_f64_x_untied:
      67  **	movprfx	z0, z4
      68  **	fcvtx	z0\.s, p0/m, z4\.d
      69  **	ret
      70  */
      71  TEST_DUAL_Z (cvtx_f32_f64_x_untied, svfloat32_t, svfloat64_t,
      72  	     z0 = svcvtx_f32_f64_x (p0, z4),
      73  	     z0 = svcvtx_f32_x (p0, z4))
      74  
      75  /*
      76  ** ptrue_cvtx_f32_f64_x_tied1:
      77  **	...
      78  **	ptrue	p[0-9]+\.b[^\n]*
      79  **	...
      80  **	ret
      81  */
      82  TEST_DUAL_Z_REV (ptrue_cvtx_f32_f64_x_tied1, svfloat32_t, svfloat64_t,
      83  		 z0_res = svcvtx_f32_f64_x (svptrue_b64 (), z0),
      84  		 z0_res = svcvtx_f32_x (svptrue_b64 (), z0))
      85  
      86  /*
      87  ** ptrue_cvtx_f32_f64_x_untied:
      88  **	...
      89  **	ptrue	p[0-9]+\.b[^\n]*
      90  **	...
      91  **	ret
      92  */
      93  TEST_DUAL_Z (ptrue_cvtx_f32_f64_x_untied, svfloat32_t, svfloat64_t,
      94  	     z0 = svcvtx_f32_f64_x (svptrue_b64 (), z4),
      95  	     z0 = svcvtx_f32_x (svptrue_b64 (), z4))