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llvm-mirror/test/MC/AArch64/neon-scalar-recip.s
Oliver Stannard 421ddae8b6 [AArch64] Add ARMv8.2-A FP16 vector instructions
ARMv8.2-A adds 16-bit floating point versions of all existing SIMD
floating-point instructions. This is an optional extension, so all of
these instructions require the FeatureFullFP16 subtarget feature.

Note that VFP without SIMD is not a valid combination for any version of
ARMv8-A, but I have ensured that these instructions all depend on both
FeatureNEON and FeatureFullFP16 for consistency.

The ".2h" vector type specifier is now legal (for the scalar pairwise
reduction instructions), so some unrelated tests have been modified as
different error messages are emitted. This is not a problem as the
invalid operands are still caught.

llvm-svn: 255010
2015-12-08 12:16:10 +00:00

64 lines
2.5 KiB
ArmAsm

// RUN: llvm-mc -triple aarch64-none-linux-gnu -mattr=+neon,+fullfp16 -show-encoding < %s | FileCheck %s
// Check that the assembler can handle the documented syntax for AArch64
//----------------------------------------------------------------------
// Floating-point Reciprocal Step
//----------------------------------------------------------------------
frecps h21, h16, h13
frecps s21, s16, s13
frecps d22, d30, d21
// CHECK: frecps h21, h16, h13 // encoding: [0x15,0x3e,0x4d,0x5e]
// CHECK: frecps s21, s16, s13 // encoding: [0x15,0xfe,0x2d,0x5e]
// CHECK: frecps d22, d30, d21 // encoding: [0xd6,0xff,0x75,0x5e]
//----------------------------------------------------------------------
// Floating-point Reciprocal Square Root Step
//----------------------------------------------------------------------
frsqrts h21, h5, h12
frsqrts s21, s5, s12
frsqrts d8, d22, d18
// CHECK: frsqrts h21, h5, h12 // encoding: [0xb5,0x3c,0xcc,0x5e]
// CHECK: frsqrts s21, s5, s12 // encoding: [0xb5,0xfc,0xac,0x5e]
// CHECK: frsqrts d8, d22, d18 // encoding: [0xc8,0xfe,0xf2,0x5e]
//----------------------------------------------------------------------
// Scalar Floating-point Reciprocal Estimate
//----------------------------------------------------------------------
frecpe h19, h14
frecpe s19, s14
frecpe d13, d13
// CHECK: frecpe h19, h14 // encoding: [0xd3,0xd9,0xf9,0x5e]
// CHECK: frecpe s19, s14 // encoding: [0xd3,0xd9,0xa1,0x5e]
// CHECK: frecpe d13, d13 // encoding: [0xad,0xd9,0xe1,0x5e]
//----------------------------------------------------------------------
// Scalar Floating-point Reciprocal Exponent
//----------------------------------------------------------------------
frecpx h18, h10
frecpx s18, s10
frecpx d16, d19
// CHECK: frecpx h18, h10 // encoding: [0x52,0xf9,0xf9,0x5e]
// CHECK: frecpx s18, s10 // encoding: [0x52,0xf9,0xa1,0x5e]
// CHECK: frecpx d16, d19 // encoding: [0x70,0xfa,0xe1,0x5e]
//----------------------------------------------------------------------
// Scalar Floating-point Reciprocal Square Root Estimate
//----------------------------------------------------------------------
frsqrte h22, h13
frsqrte s22, s13
frsqrte d21, d12
// CHECK: frsqrte h22, h13 // encoding: [0xb6,0xd9,0xf9,0x7e]
// CHECK: frsqrte s22, s13 // encoding: [0xb6,0xd9,0xa1,0x7e]
// CHECK: frsqrte d21, d12 // encoding: [0x95,0xd9,0xe1,0x7e]