//===--- arm_fp16.td - ARM FP16 compiler interface ------------------------===// // // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. // See https://llvm.org/LICENSE.txt for license information. // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception // //===----------------------------------------------------------------------===// // // This file defines the TableGen definitions from which the ARM FP16 header // file will be generated. // //===----------------------------------------------------------------------===// include "arm_neon_incl.td" // ARMv8.2-A FP16 intrinsics. let ArchGuard = "defined(__ARM_FEATURE_FP16_SCALAR_ARITHMETIC) && defined(__aarch64__)" in { // Negate def VNEGSH : SInst<"vneg", "11", "Sh">; // Reciprocal/Sqrt def SCALAR_FRECPSH : IInst<"vrecps", "111", "Sh">; def FSQRTSH : SInst<"vsqrt", "11", "Sh">; def SCALAR_FRSQRTSH : IInst<"vrsqrts", "111", "Sh">; // Reciprocal Estimate def SCALAR_FRECPEH : IInst<"vrecpe", "11", "Sh">; // Reciprocal Exponent def SCALAR_FRECPXH : IInst<"vrecpx", "11", "Sh">; // Reciprocal Square Root Estimate def SCALAR_FRSQRTEH : IInst<"vrsqrte", "11", "Sh">; // Rounding def FRINTZ_S64H : SInst<"vrnd", "11", "Sh">; def FRINTA_S64H : SInst<"vrnda", "11", "Sh">; def FRINTI_S64H : SInst<"vrndi", "11", "Sh">; def FRINTM_S64H : SInst<"vrndm", "11", "Sh">; def FRINTN_S64H : SInst<"vrndn", "11", "Sh">; def FRINTP_S64H : SInst<"vrndp", "11", "Sh">; def FRINTX_S64H : SInst<"vrndx", "11", "Sh">; // Conversion def SCALAR_SCVTFSH : SInst<"vcvth_f16", "(1F)(1!)", "sUs">; def SCALAR_SCVTFSH1 : SInst<"vcvth_f16", "(1F<)(1!)", "iUi">; def SCALAR_SCVTFSH2 : SInst<"vcvth_f16", "(1F<<)(1!)", "lUl">; def SCALAR_FCVTZSH : SInst<"vcvt_s16", "(1S)1", "Sh">; def SCALAR_FCVTZSH1 : SInst<"vcvt_s32", "(1S>)1", "Sh">; def SCALAR_FCVTZSH2 : SInst<"vcvt_s64", "(1S>>)1", "Sh">; def SCALAR_FCVTZUH : SInst<"vcvt_u16", "(1U)1", "Sh">; def SCALAR_FCVTZUH1 : SInst<"vcvt_u32", "(1U>)1", "Sh">; def SCALAR_FCVTZUH2 : SInst<"vcvt_u64", "(1U>>)1", "Sh">; def SCALAR_FCVTASH : SInst<"vcvta_s16", "(1S)1", "Sh">; def SCALAR_FCVTASH1 : SInst<"vcvta_s32", "(1S>)1", "Sh">; def SCALAR_FCVTASH2 : SInst<"vcvta_s64", "(1S>>)1", "Sh">; def SCALAR_FCVTAUH : SInst<"vcvta_u16", "(1U)1", "Sh">; def SCALAR_FCVTAUH1 : SInst<"vcvta_u32", "(1U>)1", "Sh">; def SCALAR_FCVTAUH2 : SInst<"vcvta_u64", "(1U>>)1", "Sh">; def SCALAR_FCVTMSH : SInst<"vcvtm_s16", "(1S)1", "Sh">; def SCALAR_FCVTMSH1 : SInst<"vcvtm_s32", "(1S>)1", "Sh">; def SCALAR_FCVTMSH2 : SInst<"vcvtm_s64", "(1S>>)1", "Sh">; def SCALAR_FCVTMUH : SInst<"vcvtm_u16", "(1U)1", "Sh">; def SCALAR_FCVTMUH1 : SInst<"vcvtm_u32", "(1U>)1", "Sh">; def SCALAR_FCVTMUH2 : SInst<"vcvtm_u64", "(1U>>)1", "Sh">; def SCALAR_FCVTNSH : SInst<"vcvtn_s16", "(1S)1", "Sh">; def SCALAR_FCVTNSH1 : SInst<"vcvtn_s32", "(1S>)1", "Sh">; def SCALAR_FCVTNSH2 : SInst<"vcvtn_s64", "(1S>>)1", "Sh">; def SCALAR_FCVTNUH : SInst<"vcvtn_u16", "(1U)1", "Sh">; def SCALAR_FCVTNUH1 : SInst<"vcvtn_u32", "(1U>)1", "Sh">; def SCALAR_FCVTNUH2 : SInst<"vcvtn_u64", "(1U>>)1", "Sh">; def SCALAR_FCVTPSH : SInst<"vcvtp_s16", "(1S)1", "Sh">; def SCALAR_FCVTPSH1 : SInst<"vcvtp_s32", "(1S>)1", "Sh">; def SCALAR_FCVTPSH2 : SInst<"vcvtp_s64", "(1S>>)1", "Sh">; def SCALAR_FCVTPUH : SInst<"vcvtp_u16", "(1U)1", "Sh">; def SCALAR_FCVTPUH1 : SInst<"vcvtp_u32", "(1U>)1", "Sh">; def SCALAR_FCVTPUH2 : SInst<"vcvtp_u64", "(1U>>)1", "Sh">; let isVCVT_N = 1 in { def SCALAR_SCVTFSHO : SInst<"vcvth_n_f16", "(1F)(1!)I", "sUs">; def SCALAR_SCVTFSH1O: SInst<"vcvth_n_f16", "(1F<)(1!)I", "iUi">; def SCALAR_SCVTFSH2O: SInst<"vcvth_n_f16", "(1F<<)(1!)I", "lUl">; def SCALAR_FCVTZSHO : SInst<"vcvt_n_s16", "(1S)1I", "Sh">; def SCALAR_FCVTZSH1O: SInst<"vcvt_n_s32", "(1S>)1I", "Sh">; def SCALAR_FCVTZSH2O: SInst<"vcvt_n_s64", "(1S>>)1I", "Sh">; def SCALAR_FCVTZUHO : SInst<"vcvt_n_u16", "(1U)1I", "Sh">; def SCALAR_FCVTZUH1O: SInst<"vcvt_n_u32", "(1U>)1I", "Sh">; def SCALAR_FCVTZUH2O: SInst<"vcvt_n_u64", "(1U>>)1I", "Sh">; } // Comparison def SCALAR_CMEQRH : SInst<"vceq", "(1U)11", "Sh">; def SCALAR_CMEQZH : SInst<"vceqz", "(1U)1", "Sh">; def SCALAR_CMGERH : SInst<"vcge", "(1U)11", "Sh">; def SCALAR_CMGEZH : SInst<"vcgez", "(1U)1", "Sh">; def SCALAR_CMGTRH : SInst<"vcgt", "(1U)11", "Sh">; def SCALAR_CMGTZH : SInst<"vcgtz", "(1U)1", "Sh">; def SCALAR_CMLERH : SInst<"vcle", "(1U)11", "Sh">; def SCALAR_CMLEZH : SInst<"vclez", "(1U)1", "Sh">; def SCALAR_CMLTH : SInst<"vclt", "(1U)11", "Sh">; def SCALAR_CMLTZH : SInst<"vcltz", "(1U)1", "Sh">; // Absolute Compare Mask Greater Than Or Equal def SCALAR_FACGEH : IInst<"vcage", "(1U)11", "Sh">; def SCALAR_FACLEH : IInst<"vcale", "(1U)11", "Sh">; // Absolute Compare Mask Greater Than def SCALAR_FACGT : IInst<"vcagt", "(1U)11", "Sh">; def SCALAR_FACLT : IInst<"vcalt", "(1U)11", "Sh">; // Scalar Absolute Value def SCALAR_ABSH : SInst<"vabs", "11", "Sh">; // Scalar Absolute Difference def SCALAR_ABDH: IInst<"vabd", "111", "Sh">; // Add/Sub def VADDSH : SInst<"vadd", "111", "Sh">; def VSUBHS : SInst<"vsub", "111", "Sh">; // Max/Min def VMAXHS : SInst<"vmax", "111", "Sh">; def VMINHS : SInst<"vmin", "111", "Sh">; def FMAXNMHS : SInst<"vmaxnm", "111", "Sh">; def FMINNMHS : SInst<"vminnm", "111", "Sh">; // Multiplication/Division def VMULHS : SInst<"vmul", "111", "Sh">; def MULXHS : SInst<"vmulx", "111", "Sh">; def FDIVHS : SInst<"vdiv", "111", "Sh">; // Vector fused multiply-add operations def VFMAHS : SInst<"vfma", "1111", "Sh">; def VFMSHS : SInst<"vfms", "1111", "Sh">; }