//===-- X86InstrFoldTables.cpp - X86 Instruction Folding Tables -----------===// // // 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 contains the X86 memory folding tables. // //===----------------------------------------------------------------------===// #include "X86InstrFoldTables.h" #include "X86InstrInfo.h" #include "llvm/ADT/STLExtras.h" #include #include using namespace llvm; // These tables are sorted by their RegOp value allowing them to be binary // searched at runtime without the need for additional storage. The enum values // are currently emitted in X86GenInstrInfo.inc in alphabetical order. Which // makes sorting these tables a simple matter of alphabetizing the table. #include "X86GenFoldTables.inc" static const X86MemoryFoldTableEntry BroadcastFoldTable2[] = { { X86::VADDPDZ128rr, X86::VADDPDZ128rmb, TB_BCAST_SD }, { X86::VADDPDZ256rr, X86::VADDPDZ256rmb, TB_BCAST_SD }, { X86::VADDPDZrr, X86::VADDPDZrmb, TB_BCAST_SD }, { X86::VADDPSZ128rr, X86::VADDPSZ128rmb, TB_BCAST_SS }, { X86::VADDPSZ256rr, X86::VADDPSZ256rmb, TB_BCAST_SS }, { X86::VADDPSZrr, X86::VADDPSZrmb, TB_BCAST_SS }, { X86::VANDNPDZ128rr, X86::VANDNPDZ128rmb, TB_BCAST_SD }, { X86::VANDNPDZ256rr, X86::VANDNPDZ256rmb, TB_BCAST_SD }, { X86::VANDNPDZrr, X86::VANDNPDZrmb, TB_BCAST_SD }, { X86::VANDNPSZ128rr, X86::VANDNPSZ128rmb, TB_BCAST_SS }, { X86::VANDNPSZ256rr, X86::VANDNPSZ256rmb, TB_BCAST_SS }, { X86::VANDNPSZrr, X86::VANDNPSZrmb, TB_BCAST_SS }, { X86::VANDPDZ128rr, X86::VANDPDZ128rmb, TB_BCAST_SD }, { X86::VANDPDZ256rr, X86::VANDPDZ256rmb, TB_BCAST_SD }, { X86::VANDPDZrr, X86::VANDPDZrmb, TB_BCAST_SD }, { X86::VANDPSZ128rr, X86::VANDPSZ128rmb, TB_BCAST_SS }, { X86::VANDPSZ256rr, X86::VANDPSZ256rmb, TB_BCAST_SS }, { X86::VANDPSZrr, X86::VANDPSZrmb, TB_BCAST_SS }, { X86::VCMPPDZ128rri, X86::VCMPPDZ128rmbi, TB_BCAST_SD }, { X86::VCMPPDZ256rri, X86::VCMPPDZ256rmbi, TB_BCAST_SD }, { X86::VCMPPDZrri, X86::VCMPPDZrmbi, TB_BCAST_SD }, { X86::VCMPPSZ128rri, X86::VCMPPSZ128rmbi, TB_BCAST_SS }, { X86::VCMPPSZ256rri, X86::VCMPPSZ256rmbi, TB_BCAST_SS }, { X86::VCMPPSZrri, X86::VCMPPSZrmbi, TB_BCAST_SS }, { X86::VDIVPDZ128rr, X86::VDIVPDZ128rmb, TB_BCAST_SD }, { X86::VDIVPDZ256rr, X86::VDIVPDZ256rmb, TB_BCAST_SD }, { X86::VDIVPDZrr, X86::VDIVPDZrmb, TB_BCAST_SD }, { X86::VDIVPSZ128rr, X86::VDIVPSZ128rmb, TB_BCAST_SS }, { X86::VDIVPSZ256rr, X86::VDIVPSZ256rmb, TB_BCAST_SS }, { X86::VDIVPSZrr, X86::VDIVPSZrmb, TB_BCAST_SS }, { X86::VMAXCPDZ128rr, X86::VMAXCPDZ128rmb, TB_BCAST_SD }, { X86::VMAXCPDZ256rr, X86::VMAXCPDZ256rmb, TB_BCAST_SD }, { X86::VMAXCPDZrr, X86::VMAXCPDZrmb, TB_BCAST_SD }, { X86::VMAXCPSZ128rr, X86::VMAXCPSZ128rmb, TB_BCAST_SS }, { X86::VMAXCPSZ256rr, X86::VMAXCPSZ256rmb, TB_BCAST_SS }, { X86::VMAXCPSZrr, X86::VMAXCPSZrmb, TB_BCAST_SS }, { X86::VMAXPDZ128rr, X86::VMAXPDZ128rmb, TB_BCAST_SD }, { X86::VMAXPDZ256rr, X86::VMAXPDZ256rmb, TB_BCAST_SD }, { X86::VMAXPDZrr, X86::VMAXPDZrmb, TB_BCAST_SD }, { X86::VMAXPSZ128rr, X86::VMAXPSZ128rmb, TB_BCAST_SS }, { X86::VMAXPSZ256rr, X86::VMAXPSZ256rmb, TB_BCAST_SS }, { X86::VMAXPSZrr, X86::VMAXPSZrmb, TB_BCAST_SS }, { X86::VMINCPDZ128rr, X86::VMINCPDZ128rmb, TB_BCAST_SD }, { X86::VMINCPDZ256rr, X86::VMINCPDZ256rmb, TB_BCAST_SD }, { X86::VMINCPDZrr, X86::VMINCPDZrmb, TB_BCAST_SD }, { X86::VMINCPSZ128rr, X86::VMINCPSZ128rmb, TB_BCAST_SS }, { X86::VMINCPSZ256rr, X86::VMINCPSZ256rmb, TB_BCAST_SS }, { X86::VMINCPSZrr, X86::VMINCPSZrmb, TB_BCAST_SS }, { X86::VMINPDZ128rr, X86::VMINPDZ128rmb, TB_BCAST_SD }, { X86::VMINPDZ256rr, X86::VMINPDZ256rmb, TB_BCAST_SD }, { X86::VMINPDZrr, X86::VMINPDZrmb, TB_BCAST_SD }, { X86::VMINPSZ128rr, X86::VMINPSZ128rmb, TB_BCAST_SS }, { X86::VMINPSZ256rr, X86::VMINPSZ256rmb, TB_BCAST_SS }, { X86::VMINPSZrr, X86::VMINPSZrmb, TB_BCAST_SS }, { X86::VMULPDZ128rr, X86::VMULPDZ128rmb, TB_BCAST_SD }, { X86::VMULPDZ256rr, X86::VMULPDZ256rmb, TB_BCAST_SD }, { X86::VMULPDZrr, X86::VMULPDZrmb, TB_BCAST_SD }, { X86::VMULPSZ128rr, X86::VMULPSZ128rmb, TB_BCAST_SS }, { X86::VMULPSZ256rr, X86::VMULPSZ256rmb, TB_BCAST_SS }, { X86::VMULPSZrr, X86::VMULPSZrmb, TB_BCAST_SS }, { X86::VORPDZ128rr, X86::VORPDZ128rmb, TB_BCAST_SD }, { X86::VORPDZ256rr, X86::VORPDZ256rmb, TB_BCAST_SD }, { X86::VORPDZrr, X86::VORPDZrmb, TB_BCAST_SD }, { X86::VORPSZ128rr, X86::VORPSZ128rmb, TB_BCAST_SS }, { X86::VORPSZ256rr, X86::VORPSZ256rmb, TB_BCAST_SS }, { X86::VORPSZrr, X86::VORPSZrmb, TB_BCAST_SS }, { X86::VPADDDZ128rr, X86::VPADDDZ128rmb, TB_BCAST_D }, { X86::VPADDDZ256rr, X86::VPADDDZ256rmb, TB_BCAST_D }, { X86::VPADDDZrr, X86::VPADDDZrmb, TB_BCAST_D }, { X86::VPADDQZ128rr, X86::VPADDQZ128rmb, TB_BCAST_Q }, { X86::VPADDQZ256rr, X86::VPADDQZ256rmb, TB_BCAST_Q }, { X86::VPADDQZrr, X86::VPADDQZrmb, TB_BCAST_Q }, { X86::VPANDDZ128rr, X86::VPANDDZ128rmb, TB_BCAST_D }, { X86::VPANDDZ256rr, X86::VPANDDZ256rmb, TB_BCAST_D }, { X86::VPANDDZrr, X86::VPANDDZrmb, TB_BCAST_D }, { X86::VPANDNDZ128rr, X86::VPANDNDZ128rmb, TB_BCAST_D }, { X86::VPANDNDZ256rr, X86::VPANDNDZ256rmb, TB_BCAST_D }, { X86::VPANDNDZrr, X86::VPANDNDZrmb, TB_BCAST_D }, { X86::VPANDNQZ128rr, X86::VPANDNQZ128rmb, TB_BCAST_Q }, { X86::VPANDNQZ256rr, X86::VPANDNQZ256rmb, TB_BCAST_Q }, { X86::VPANDNQZrr, X86::VPANDNQZrmb, TB_BCAST_Q }, { X86::VPANDQZ128rr, X86::VPANDQZ128rmb, TB_BCAST_Q }, { X86::VPANDQZ256rr, X86::VPANDQZ256rmb, TB_BCAST_Q }, { X86::VPANDQZrr, X86::VPANDQZrmb, TB_BCAST_Q }, { X86::VPCMPDZ128rri, X86::VPCMPDZ128rmib, TB_BCAST_D }, { X86::VPCMPDZ256rri, X86::VPCMPDZ256rmib, TB_BCAST_D }, { X86::VPCMPDZrri, X86::VPCMPDZrmib, TB_BCAST_D }, { X86::VPCMPEQDZ128rr, X86::VPCMPEQDZ128rmb, TB_BCAST_D }, { X86::VPCMPEQDZ256rr, X86::VPCMPEQDZ256rmb, TB_BCAST_D }, { X86::VPCMPEQDZrr, X86::VPCMPEQDZrmb, TB_BCAST_D }, { X86::VPCMPEQQZ128rr, X86::VPCMPEQQZ128rmb, TB_BCAST_Q }, { X86::VPCMPEQQZ256rr, X86::VPCMPEQQZ256rmb, TB_BCAST_Q }, { X86::VPCMPEQQZrr, X86::VPCMPEQQZrmb, TB_BCAST_Q }, { X86::VPCMPGTDZ128rr, X86::VPCMPGTDZ128rmb, TB_BCAST_D }, { X86::VPCMPGTDZ256rr, X86::VPCMPGTDZ256rmb, TB_BCAST_D }, { X86::VPCMPGTDZrr, X86::VPCMPGTDZrmb, TB_BCAST_D }, { X86::VPCMPGTQZ128rr, X86::VPCMPGTQZ128rmb, TB_BCAST_Q }, { X86::VPCMPGTQZ256rr, X86::VPCMPGTQZ256rmb, TB_BCAST_Q }, { X86::VPCMPGTQZrr, X86::VPCMPGTQZrmb, TB_BCAST_Q }, { X86::VPCMPQZ128rri, X86::VPCMPQZ128rmib, TB_BCAST_Q }, { X86::VPCMPQZ256rri, X86::VPCMPQZ256rmib, TB_BCAST_Q }, { X86::VPCMPQZrri, X86::VPCMPQZrmib, TB_BCAST_Q }, { X86::VPCMPUDZ128rri, X86::VPCMPUDZ128rmib, TB_BCAST_D }, { X86::VPCMPUDZ256rri, X86::VPCMPUDZ256rmib, TB_BCAST_D }, { X86::VPCMPUDZrri, X86::VPCMPUDZrmib, TB_BCAST_D }, { X86::VPCMPUQZ128rri, X86::VPCMPUQZ128rmib, TB_BCAST_Q }, { X86::VPCMPUQZ256rri, X86::VPCMPUQZ256rmib, TB_BCAST_Q }, { X86::VPCMPUQZrri, X86::VPCMPUQZrmib, TB_BCAST_Q }, { X86::VPMAXSDZ128rr, X86::VPMAXSDZ128rmb, TB_BCAST_D }, { X86::VPMAXSDZ256rr, X86::VPMAXSDZ256rmb, TB_BCAST_D }, { X86::VPMAXSDZrr, X86::VPMAXSDZrmb, TB_BCAST_D }, { X86::VPMAXSQZ128rr, X86::VPMAXSQZ128rmb, TB_BCAST_Q }, { X86::VPMAXSQZ256rr, X86::VPMAXSQZ256rmb, TB_BCAST_Q }, { X86::VPMAXSQZrr, X86::VPMAXSQZrmb, TB_BCAST_Q }, { X86::VPMAXUDZ128rr, X86::VPMAXUDZ128rmb, TB_BCAST_D }, { X86::VPMAXUDZ256rr, X86::VPMAXUDZ256rmb, TB_BCAST_D }, { X86::VPMAXUDZrr, X86::VPMAXUDZrmb, TB_BCAST_D }, { X86::VPMAXUQZ128rr, X86::VPMAXUQZ128rmb, TB_BCAST_Q }, { X86::VPMAXUQZ256rr, X86::VPMAXUQZ256rmb, TB_BCAST_Q }, { X86::VPMAXUQZrr, X86::VPMAXUQZrmb, TB_BCAST_Q }, { X86::VPMINSDZ128rr, X86::VPMINSDZ128rmb, TB_BCAST_D }, { X86::VPMINSDZ256rr, X86::VPMINSDZ256rmb, TB_BCAST_D }, { X86::VPMINSDZrr, X86::VPMINSDZrmb, TB_BCAST_D }, { X86::VPMINSQZ128rr, X86::VPMINSQZ128rmb, TB_BCAST_Q }, { X86::VPMINSQZ256rr, X86::VPMINSQZ256rmb, TB_BCAST_Q }, { X86::VPMINSQZrr, X86::VPMINSQZrmb, TB_BCAST_Q }, { X86::VPMINUDZ128rr, X86::VPMINUDZ128rmb, TB_BCAST_D }, { X86::VPMINUDZ256rr, X86::VPMINUDZ256rmb, TB_BCAST_D }, { X86::VPMINUDZrr, X86::VPMINUDZrmb, TB_BCAST_D }, { X86::VPMINUQZ128rr, X86::VPMINUQZ128rmb, TB_BCAST_Q }, { X86::VPMINUQZ256rr, X86::VPMINUQZ256rmb, TB_BCAST_Q }, { X86::VPMINUQZrr, X86::VPMINUQZrmb, TB_BCAST_Q }, { X86::VPMULLDZ128rr, X86::VPMULLDZ128rmb, TB_BCAST_D }, { X86::VPMULLDZ256rr, X86::VPMULLDZ256rmb, TB_BCAST_D }, { X86::VPMULLDZrr, X86::VPMULLDZrmb, TB_BCAST_D }, { X86::VPMULLQZ128rr, X86::VPMULLQZ128rmb, TB_BCAST_Q }, { X86::VPMULLQZ256rr, X86::VPMULLQZ256rmb, TB_BCAST_Q }, { X86::VPMULLQZrr, X86::VPMULLQZrmb, TB_BCAST_Q }, { X86::VPORDZ128rr, X86::VPORDZ128rmb, TB_BCAST_D }, { X86::VPORDZ256rr, X86::VPORDZ256rmb, TB_BCAST_D }, { X86::VPORDZrr, X86::VPORDZrmb, TB_BCAST_D }, { X86::VPORQZ128rr, X86::VPORQZ128rmb, TB_BCAST_Q }, { X86::VPORQZ256rr, X86::VPORQZ256rmb, TB_BCAST_Q }, { X86::VPORQZrr, X86::VPORQZrmb, TB_BCAST_Q }, { X86::VPTESTMDZ128rr, X86::VPTESTMDZ128rmb, TB_BCAST_D }, { X86::VPTESTMDZ256rr, X86::VPTESTMDZ256rmb, TB_BCAST_D }, { X86::VPTESTMDZrr, X86::VPTESTMDZrmb, TB_BCAST_D }, { X86::VPTESTMQZ128rr, X86::VPTESTMQZ128rmb, TB_BCAST_Q }, { X86::VPTESTMQZ256rr, X86::VPTESTMQZ256rmb, TB_BCAST_Q }, { X86::VPTESTMQZrr, X86::VPTESTMQZrmb, TB_BCAST_Q }, { X86::VPTESTNMDZ128rr,X86::VPTESTNMDZ128rmb,TB_BCAST_D }, { X86::VPTESTNMDZ256rr,X86::VPTESTNMDZ256rmb,TB_BCAST_D }, { X86::VPTESTNMDZrr, X86::VPTESTNMDZrmb, TB_BCAST_D }, { X86::VPTESTNMQZ128rr,X86::VPTESTNMQZ128rmb,TB_BCAST_Q }, { X86::VPTESTNMQZ256rr,X86::VPTESTNMQZ256rmb,TB_BCAST_Q }, { X86::VPTESTNMQZrr, X86::VPTESTNMQZrmb, TB_BCAST_Q }, { X86::VPXORDZ128rr, X86::VPXORDZ128rmb, TB_BCAST_D }, { X86::VPXORDZ256rr, X86::VPXORDZ256rmb, TB_BCAST_D }, { X86::VPXORDZrr, X86::VPXORDZrmb, TB_BCAST_D }, { X86::VPXORQZ128rr, X86::VPXORQZ128rmb, TB_BCAST_Q }, { X86::VPXORQZ256rr, X86::VPXORQZ256rmb, TB_BCAST_Q }, { X86::VPXORQZrr, X86::VPXORQZrmb, TB_BCAST_Q }, { X86::VSUBPDZ128rr, X86::VSUBPDZ128rmb, TB_BCAST_SD }, { X86::VSUBPDZ256rr, X86::VSUBPDZ256rmb, TB_BCAST_SD }, { X86::VSUBPDZrr, X86::VSUBPDZrmb, TB_BCAST_SD }, { X86::VSUBPSZ128rr, X86::VSUBPSZ128rmb, TB_BCAST_SS }, { X86::VSUBPSZ256rr, X86::VSUBPSZ256rmb, TB_BCAST_SS }, { X86::VSUBPSZrr, X86::VSUBPSZrmb, TB_BCAST_SS }, { X86::VXORPDZ128rr, X86::VXORPDZ128rmb, TB_BCAST_SD }, { X86::VXORPDZ256rr, X86::VXORPDZ256rmb, TB_BCAST_SD }, { X86::VXORPDZrr, X86::VXORPDZrmb, TB_BCAST_SD }, { X86::VXORPSZ128rr, X86::VXORPSZ128rmb, TB_BCAST_SS }, { X86::VXORPSZ256rr, X86::VXORPSZ256rmb, TB_BCAST_SS }, { X86::VXORPSZrr, X86::VXORPSZrmb, TB_BCAST_SS }, }; static const X86MemoryFoldTableEntry BroadcastFoldTable3[] = { { X86::VFMADD132PDZ128r, X86::VFMADD132PDZ128mb, TB_BCAST_SD }, { X86::VFMADD132PDZ256r, X86::VFMADD132PDZ256mb, TB_BCAST_SD }, { X86::VFMADD132PDZr, X86::VFMADD132PDZmb, TB_BCAST_SD }, { X86::VFMADD132PSZ128r, X86::VFMADD132PSZ128mb, TB_BCAST_SS }, { X86::VFMADD132PSZ256r, X86::VFMADD132PSZ256mb, TB_BCAST_SS }, { X86::VFMADD132PSZr, X86::VFMADD132PSZmb, TB_BCAST_SS }, { X86::VFMADD213PDZ128r, X86::VFMADD213PDZ128mb, TB_BCAST_SD }, { X86::VFMADD213PDZ256r, X86::VFMADD213PDZ256mb, TB_BCAST_SD }, { X86::VFMADD213PDZr, X86::VFMADD213PDZmb, TB_BCAST_SD }, { X86::VFMADD213PSZ128r, X86::VFMADD213PSZ128mb, TB_BCAST_SS }, { X86::VFMADD213PSZ256r, X86::VFMADD213PSZ256mb, TB_BCAST_SS }, { X86::VFMADD213PSZr, X86::VFMADD213PSZmb, TB_BCAST_SS }, { X86::VFMADD231PDZ128r, X86::VFMADD231PDZ128mb, TB_BCAST_SD }, { X86::VFMADD231PDZ256r, X86::VFMADD231PDZ256mb, TB_BCAST_SD }, { X86::VFMADD231PDZr, X86::VFMADD231PDZmb, TB_BCAST_SD }, { X86::VFMADD231PSZ128r, X86::VFMADD231PSZ128mb, TB_BCAST_SS }, { X86::VFMADD231PSZ256r, X86::VFMADD231PSZ256mb, TB_BCAST_SS }, { X86::VFMADD231PSZr, X86::VFMADD231PSZmb, TB_BCAST_SS }, { X86::VFMADDSUB132PDZ128r, X86::VFMADDSUB132PDZ128mb, TB_BCAST_SD }, { X86::VFMADDSUB132PDZ256r, X86::VFMADDSUB132PDZ256mb, TB_BCAST_SD }, { X86::VFMADDSUB132PDZr, X86::VFMADDSUB132PDZmb, TB_BCAST_SD }, { X86::VFMADDSUB132PSZ128r, X86::VFMADDSUB132PSZ128mb, TB_BCAST_SS }, { X86::VFMADDSUB132PSZ256r, X86::VFMADDSUB132PSZ256mb, TB_BCAST_SS }, { X86::VFMADDSUB132PSZr, X86::VFMADDSUB132PSZmb, TB_BCAST_SS }, { X86::VFMADDSUB213PDZ128r, X86::VFMADDSUB213PDZ128mb, TB_BCAST_SD }, { X86::VFMADDSUB213PDZ256r, X86::VFMADDSUB213PDZ256mb, TB_BCAST_SD }, { X86::VFMADDSUB213PDZr, X86::VFMADDSUB213PDZmb, TB_BCAST_SD }, { X86::VFMADDSUB213PSZ128r, X86::VFMADDSUB213PSZ128mb, TB_BCAST_SS }, { X86::VFMADDSUB213PSZ256r, X86::VFMADDSUB213PSZ256mb, TB_BCAST_SS }, { X86::VFMADDSUB213PSZr, X86::VFMADDSUB213PSZmb, TB_BCAST_SS }, { X86::VFMADDSUB231PDZ128r, X86::VFMADDSUB231PDZ128mb, TB_BCAST_SD }, { X86::VFMADDSUB231PDZ256r, X86::VFMADDSUB231PDZ256mb, TB_BCAST_SD }, { X86::VFMADDSUB231PDZr, X86::VFMADDSUB231PDZmb, TB_BCAST_SD }, { X86::VFMADDSUB231PSZ128r, X86::VFMADDSUB231PSZ128mb, TB_BCAST_SS }, { X86::VFMADDSUB231PSZ256r, X86::VFMADDSUB231PSZ256mb, TB_BCAST_SS }, { X86::VFMADDSUB231PSZr, X86::VFMADDSUB231PSZmb, TB_BCAST_SS }, { X86::VFMSUB132PDZ128r, X86::VFMSUB132PDZ128mb, TB_BCAST_SD }, { X86::VFMSUB132PDZ256r, X86::VFMSUB132PDZ256mb, TB_BCAST_SD }, { X86::VFMSUB132PDZr, X86::VFMSUB132PDZmb, TB_BCAST_SD }, { X86::VFMSUB132PSZ128r, X86::VFMSUB132PSZ128mb, TB_BCAST_SS }, { X86::VFMSUB132PSZ256r, X86::VFMSUB132PSZ256mb, TB_BCAST_SS }, { X86::VFMSUB132PSZr, X86::VFMSUB132PSZmb, TB_BCAST_SS }, { X86::VFMSUB213PDZ128r, X86::VFMSUB213PDZ128mb, TB_BCAST_SD }, { X86::VFMSUB213PDZ256r, X86::VFMSUB213PDZ256mb, TB_BCAST_SD }, { X86::VFMSUB213PDZr, X86::VFMSUB213PDZmb, TB_BCAST_SD }, { X86::VFMSUB213PSZ128r, X86::VFMSUB213PSZ128mb, TB_BCAST_SS }, { X86::VFMSUB213PSZ256r, X86::VFMSUB213PSZ256mb, TB_BCAST_SS }, { X86::VFMSUB213PSZr, X86::VFMSUB213PSZmb, TB_BCAST_SS }, { X86::VFMSUB231PDZ128r, X86::VFMSUB231PDZ128mb, TB_BCAST_SD }, { X86::VFMSUB231PDZ256r, X86::VFMSUB231PDZ256mb, TB_BCAST_SD }, { X86::VFMSUB231PDZr, X86::VFMSUB231PDZmb, TB_BCAST_SD }, { X86::VFMSUB231PSZ128r, X86::VFMSUB231PSZ128mb, TB_BCAST_SS }, { X86::VFMSUB231PSZ256r, X86::VFMSUB231PSZ256mb, TB_BCAST_SS }, { X86::VFMSUB231PSZr, X86::VFMSUB231PSZmb, TB_BCAST_SS }, { X86::VFMSUBADD132PDZ128r, X86::VFMSUBADD132PDZ128mb, TB_BCAST_SD }, { X86::VFMSUBADD132PDZ256r, X86::VFMSUBADD132PDZ256mb, TB_BCAST_SD }, { X86::VFMSUBADD132PDZr, X86::VFMSUBADD132PDZmb, TB_BCAST_SD }, { X86::VFMSUBADD132PSZ128r, X86::VFMSUBADD132PSZ128mb, TB_BCAST_SS }, { X86::VFMSUBADD132PSZ256r, X86::VFMSUBADD132PSZ256mb, TB_BCAST_SS }, { X86::VFMSUBADD132PSZr, X86::VFMSUBADD132PSZmb, TB_BCAST_SS }, { X86::VFMSUBADD213PDZ128r, X86::VFMSUBADD213PDZ128mb, TB_BCAST_SD }, { X86::VFMSUBADD213PDZ256r, X86::VFMSUBADD213PDZ256mb, TB_BCAST_SD }, { X86::VFMSUBADD213PDZr, X86::VFMSUBADD213PDZmb, TB_BCAST_SD }, { X86::VFMSUBADD213PSZ128r, X86::VFMSUBADD213PSZ128mb, TB_BCAST_SS }, { X86::VFMSUBADD213PSZ256r, X86::VFMSUBADD213PSZ256mb, TB_BCAST_SS }, { X86::VFMSUBADD213PSZr, X86::VFMSUBADD213PSZmb, TB_BCAST_SS }, { X86::VFMSUBADD231PDZ128r, X86::VFMSUBADD231PDZ128mb, TB_BCAST_SD }, { X86::VFMSUBADD231PDZ256r, X86::VFMSUBADD231PDZ256mb, TB_BCAST_SD }, { X86::VFMSUBADD231PDZr, X86::VFMSUBADD231PDZmb, TB_BCAST_SD }, { X86::VFMSUBADD231PSZ128r, X86::VFMSUBADD231PSZ128mb, TB_BCAST_SS }, { X86::VFMSUBADD231PSZ256r, X86::VFMSUBADD231PSZ256mb, TB_BCAST_SS }, { X86::VFMSUBADD231PSZr, X86::VFMSUBADD231PSZmb, TB_BCAST_SS }, { X86::VFNMADD132PDZ128r, X86::VFNMADD132PDZ128mb, TB_BCAST_SD }, { X86::VFNMADD132PDZ256r, X86::VFNMADD132PDZ256mb, TB_BCAST_SD }, { X86::VFNMADD132PDZr, X86::VFNMADD132PDZmb, TB_BCAST_SD }, { X86::VFNMADD132PSZ128r, X86::VFNMADD132PSZ128mb, TB_BCAST_SS }, { X86::VFNMADD132PSZ256r, X86::VFNMADD132PSZ256mb, TB_BCAST_SS }, { X86::VFNMADD132PSZr, X86::VFNMADD132PSZmb, TB_BCAST_SS }, { X86::VFNMADD213PDZ128r, X86::VFNMADD213PDZ128mb, TB_BCAST_SD }, { X86::VFNMADD213PDZ256r, X86::VFNMADD213PDZ256mb, TB_BCAST_SD }, { X86::VFNMADD213PDZr, X86::VFNMADD213PDZmb, TB_BCAST_SD }, { X86::VFNMADD213PSZ128r, X86::VFNMADD213PSZ128mb, TB_BCAST_SS }, { X86::VFNMADD213PSZ256r, X86::VFNMADD213PSZ256mb, TB_BCAST_SS }, { X86::VFNMADD213PSZr, X86::VFNMADD213PSZmb, TB_BCAST_SS }, { X86::VFNMADD231PDZ128r, X86::VFNMADD231PDZ128mb, TB_BCAST_SD }, { X86::VFNMADD231PDZ256r, X86::VFNMADD231PDZ256mb, TB_BCAST_SD }, { X86::VFNMADD231PDZr, X86::VFNMADD231PDZmb, TB_BCAST_SD }, { X86::VFNMADD231PSZ128r, X86::VFNMADD231PSZ128mb, TB_BCAST_SS }, { X86::VFNMADD231PSZ256r, X86::VFNMADD231PSZ256mb, TB_BCAST_SS }, { X86::VFNMADD231PSZr, X86::VFNMADD231PSZmb, TB_BCAST_SS }, { X86::VFNMSUB132PDZ128r, X86::VFNMSUB132PDZ128mb, TB_BCAST_SD }, { X86::VFNMSUB132PDZ256r, X86::VFNMSUB132PDZ256mb, TB_BCAST_SD }, { X86::VFNMSUB132PDZr, X86::VFNMSUB132PDZmb, TB_BCAST_SD }, { X86::VFNMSUB132PSZ128r, X86::VFNMSUB132PSZ128mb, TB_BCAST_SS }, { X86::VFNMSUB132PSZ256r, X86::VFNMSUB132PSZ256mb, TB_BCAST_SS }, { X86::VFNMSUB132PSZr, X86::VFNMSUB132PSZmb, TB_BCAST_SS }, { X86::VFNMSUB213PDZ128r, X86::VFNMSUB213PDZ128mb, TB_BCAST_SD }, { X86::VFNMSUB213PDZ256r, X86::VFNMSUB213PDZ256mb, TB_BCAST_SD }, { X86::VFNMSUB213PDZr, X86::VFNMSUB213PDZmb, TB_BCAST_SD }, { X86::VFNMSUB213PSZ128r, X86::VFNMSUB213PSZ128mb, TB_BCAST_SS }, { X86::VFNMSUB213PSZ256r, X86::VFNMSUB213PSZ256mb, TB_BCAST_SS }, { X86::VFNMSUB213PSZr, X86::VFNMSUB213PSZmb, TB_BCAST_SS }, { X86::VFNMSUB231PDZ128r, X86::VFNMSUB231PDZ128mb, TB_BCAST_SD }, { X86::VFNMSUB231PDZ256r, X86::VFNMSUB231PDZ256mb, TB_BCAST_SD }, { X86::VFNMSUB231PDZr, X86::VFNMSUB231PDZmb, TB_BCAST_SD }, { X86::VFNMSUB231PSZ128r, X86::VFNMSUB231PSZ128mb, TB_BCAST_SS }, { X86::VFNMSUB231PSZ256r, X86::VFNMSUB231PSZ256mb, TB_BCAST_SS }, { X86::VFNMSUB231PSZr, X86::VFNMSUB231PSZmb, TB_BCAST_SS }, { X86::VPTERNLOGDZ128rri, X86::VPTERNLOGDZ128rmbi, TB_BCAST_D }, { X86::VPTERNLOGDZ256rri, X86::VPTERNLOGDZ256rmbi, TB_BCAST_D }, { X86::VPTERNLOGDZrri, X86::VPTERNLOGDZrmbi, TB_BCAST_D }, { X86::VPTERNLOGQZ128rri, X86::VPTERNLOGQZ128rmbi, TB_BCAST_Q }, { X86::VPTERNLOGQZ256rri, X86::VPTERNLOGQZ256rmbi, TB_BCAST_Q }, { X86::VPTERNLOGQZrri, X86::VPTERNLOGQZrmbi, TB_BCAST_Q }, }; // Table to map instructions safe to broadcast using a different width from the // element width. static const X86MemoryFoldTableEntry BroadcastSizeFoldTable2[] = { { X86::VANDNPDZ128rr, X86::VANDNPSZ128rmb, TB_BCAST_SS }, { X86::VANDNPDZ256rr, X86::VANDNPSZ256rmb, TB_BCAST_SS }, { X86::VANDNPDZrr, X86::VANDNPSZrmb, TB_BCAST_SS }, { X86::VANDNPSZ128rr, X86::VANDNPDZ128rmb, TB_BCAST_SD }, { X86::VANDNPSZ256rr, X86::VANDNPDZ256rmb, TB_BCAST_SD }, { X86::VANDNPSZrr, X86::VANDNPDZrmb, TB_BCAST_SD }, { X86::VANDPDZ128rr, X86::VANDPSZ128rmb, TB_BCAST_SS }, { X86::VANDPDZ256rr, X86::VANDPSZ256rmb, TB_BCAST_SS }, { X86::VANDPDZrr, X86::VANDPSZrmb, TB_BCAST_SS }, { X86::VANDPSZ128rr, X86::VANDPDZ128rmb, TB_BCAST_SD }, { X86::VANDPSZ256rr, X86::VANDPDZ256rmb, TB_BCAST_SD }, { X86::VANDPSZrr, X86::VANDPDZrmb, TB_BCAST_SD }, { X86::VORPDZ128rr, X86::VORPSZ128rmb, TB_BCAST_SS }, { X86::VORPDZ256rr, X86::VORPSZ256rmb, TB_BCAST_SS }, { X86::VORPDZrr, X86::VORPSZrmb, TB_BCAST_SS }, { X86::VORPSZ128rr, X86::VORPDZ128rmb, TB_BCAST_SD }, { X86::VORPSZ256rr, X86::VORPDZ256rmb, TB_BCAST_SD }, { X86::VORPSZrr, X86::VORPDZrmb, TB_BCAST_SD }, { X86::VPANDDZ128rr, X86::VPANDQZ128rmb, TB_BCAST_Q }, { X86::VPANDDZ256rr, X86::VPANDQZ256rmb, TB_BCAST_Q }, { X86::VPANDDZrr, X86::VPANDQZrmb, TB_BCAST_Q }, { X86::VPANDNDZ128rr, X86::VPANDNQZ128rmb, TB_BCAST_Q }, { X86::VPANDNDZ256rr, X86::VPANDNQZ256rmb, TB_BCAST_Q }, { X86::VPANDNDZrr, X86::VPANDNQZrmb, TB_BCAST_Q }, { X86::VPANDNQZ128rr, X86::VPANDNDZ128rmb, TB_BCAST_D }, { X86::VPANDNQZ256rr, X86::VPANDNDZ256rmb, TB_BCAST_D }, { X86::VPANDNQZrr, X86::VPANDNDZrmb, TB_BCAST_D }, { X86::VPANDQZ128rr, X86::VPANDDZ128rmb, TB_BCAST_D }, { X86::VPANDQZ256rr, X86::VPANDDZ256rmb, TB_BCAST_D }, { X86::VPANDQZrr, X86::VPANDDZrmb, TB_BCAST_D }, { X86::VPORDZ128rr, X86::VPORQZ128rmb, TB_BCAST_Q }, { X86::VPORDZ256rr, X86::VPORQZ256rmb, TB_BCAST_Q }, { X86::VPORDZrr, X86::VPORQZrmb, TB_BCAST_Q }, { X86::VPORQZ128rr, X86::VPORDZ128rmb, TB_BCAST_D }, { X86::VPORQZ256rr, X86::VPORDZ256rmb, TB_BCAST_D }, { X86::VPORQZrr, X86::VPORDZrmb, TB_BCAST_D }, { X86::VPXORDZ128rr, X86::VPXORQZ128rmb, TB_BCAST_Q }, { X86::VPXORDZ256rr, X86::VPXORQZ256rmb, TB_BCAST_Q }, { X86::VPXORDZrr, X86::VPXORQZrmb, TB_BCAST_Q }, { X86::VPXORQZ128rr, X86::VPXORDZ128rmb, TB_BCAST_D }, { X86::VPXORQZ256rr, X86::VPXORDZ256rmb, TB_BCAST_D }, { X86::VPXORQZrr, X86::VPXORDZrmb, TB_BCAST_D }, { X86::VXORPDZ128rr, X86::VXORPSZ128rmb, TB_BCAST_SS }, { X86::VXORPDZ256rr, X86::VXORPSZ256rmb, TB_BCAST_SS }, { X86::VXORPDZrr, X86::VXORPSZrmb, TB_BCAST_SS }, { X86::VXORPSZ128rr, X86::VXORPDZ128rmb, TB_BCAST_SD }, { X86::VXORPSZ256rr, X86::VXORPDZ256rmb, TB_BCAST_SD }, { X86::VXORPSZrr, X86::VXORPDZrmb, TB_BCAST_SD }, }; static const X86MemoryFoldTableEntry BroadcastSizeFoldTable3[] = { { X86::VPTERNLOGDZ128rri, X86::VPTERNLOGQZ128rmbi, TB_BCAST_Q }, { X86::VPTERNLOGDZ256rri, X86::VPTERNLOGQZ256rmbi, TB_BCAST_Q }, { X86::VPTERNLOGDZrri, X86::VPTERNLOGQZrmbi, TB_BCAST_Q }, { X86::VPTERNLOGQZ128rri, X86::VPTERNLOGDZ128rmbi, TB_BCAST_D }, { X86::VPTERNLOGQZ256rri, X86::VPTERNLOGDZ256rmbi, TB_BCAST_D }, { X86::VPTERNLOGQZrri, X86::VPTERNLOGDZrmbi, TB_BCAST_D }, }; static const X86MemoryFoldTableEntry * lookupFoldTableImpl(ArrayRef Table, unsigned RegOp) { #ifndef NDEBUG // Make sure the tables are sorted. static std::atomic FoldTablesChecked(false); if (!FoldTablesChecked.load(std::memory_order_relaxed)) { assert(llvm::is_sorted(MemoryFoldTable2Addr) && std::adjacent_find(std::begin(MemoryFoldTable2Addr), std::end(MemoryFoldTable2Addr)) == std::end(MemoryFoldTable2Addr) && "MemoryFoldTable2Addr is not sorted and unique!"); assert(llvm::is_sorted(MemoryFoldTable0) && std::adjacent_find(std::begin(MemoryFoldTable0), std::end(MemoryFoldTable0)) == std::end(MemoryFoldTable0) && "MemoryFoldTable0 is not sorted and unique!"); assert(llvm::is_sorted(MemoryFoldTable1) && std::adjacent_find(std::begin(MemoryFoldTable1), std::end(MemoryFoldTable1)) == std::end(MemoryFoldTable1) && "MemoryFoldTable1 is not sorted and unique!"); assert(llvm::is_sorted(MemoryFoldTable2) && std::adjacent_find(std::begin(MemoryFoldTable2), std::end(MemoryFoldTable2)) == std::end(MemoryFoldTable2) && "MemoryFoldTable2 is not sorted and unique!"); assert(llvm::is_sorted(MemoryFoldTable3) && std::adjacent_find(std::begin(MemoryFoldTable3), std::end(MemoryFoldTable3)) == std::end(MemoryFoldTable3) && "MemoryFoldTable3 is not sorted and unique!"); assert(llvm::is_sorted(MemoryFoldTable4) && std::adjacent_find(std::begin(MemoryFoldTable4), std::end(MemoryFoldTable4)) == std::end(MemoryFoldTable4) && "MemoryFoldTable4 is not sorted and unique!"); assert(llvm::is_sorted(BroadcastFoldTable2) && std::adjacent_find(std::begin(BroadcastFoldTable2), std::end(BroadcastFoldTable2)) == std::end(BroadcastFoldTable2) && "BroadcastFoldTable2 is not sorted and unique!"); assert(llvm::is_sorted(BroadcastFoldTable3) && std::adjacent_find(std::begin(BroadcastFoldTable3), std::end(BroadcastFoldTable3)) == std::end(BroadcastFoldTable3) && "BroadcastFoldTable3 is not sorted and unique!"); assert(llvm::is_sorted(BroadcastSizeFoldTable2) && std::adjacent_find(std::begin(BroadcastSizeFoldTable2), std::end(BroadcastSizeFoldTable2)) == std::end(BroadcastSizeFoldTable2) && "BroadcastSizeFoldTable2 is not sorted and unique!"); assert(llvm::is_sorted(BroadcastSizeFoldTable3) && std::adjacent_find(std::begin(BroadcastSizeFoldTable3), std::end(BroadcastSizeFoldTable3)) == std::end(BroadcastSizeFoldTable3) && "BroadcastSizeFoldTable3 is not sorted and unique!"); FoldTablesChecked.store(true, std::memory_order_relaxed); } #endif const X86MemoryFoldTableEntry *Data = llvm::lower_bound(Table, RegOp); if (Data != Table.end() && Data->KeyOp == RegOp && !(Data->Flags & TB_NO_FORWARD)) return Data; return nullptr; } const X86MemoryFoldTableEntry * llvm::lookupTwoAddrFoldTable(unsigned RegOp) { return lookupFoldTableImpl(MemoryFoldTable2Addr, RegOp); } const X86MemoryFoldTableEntry * llvm::lookupFoldTable(unsigned RegOp, unsigned OpNum) { ArrayRef FoldTable; if (OpNum == 0) FoldTable = ArrayRef(MemoryFoldTable0); else if (OpNum == 1) FoldTable = ArrayRef(MemoryFoldTable1); else if (OpNum == 2) FoldTable = ArrayRef(MemoryFoldTable2); else if (OpNum == 3) FoldTable = ArrayRef(MemoryFoldTable3); else if (OpNum == 4) FoldTable = ArrayRef(MemoryFoldTable4); else return nullptr; return lookupFoldTableImpl(FoldTable, RegOp); } namespace { // This class stores the memory unfolding tables. It is instantiated as a // function scope static variable to lazily init the unfolding table. struct X86MemUnfoldTable { // Stores memory unfolding tables entries sorted by opcode. std::vector Table; X86MemUnfoldTable() { for (const X86MemoryFoldTableEntry &Entry : MemoryFoldTable2Addr) // Index 0, folded load and store, no alignment requirement. addTableEntry(Entry, TB_INDEX_0 | TB_FOLDED_LOAD | TB_FOLDED_STORE); for (const X86MemoryFoldTableEntry &Entry : MemoryFoldTable0) // Index 0, mix of loads and stores. addTableEntry(Entry, TB_INDEX_0); for (const X86MemoryFoldTableEntry &Entry : MemoryFoldTable1) // Index 1, folded load addTableEntry(Entry, TB_INDEX_1 | TB_FOLDED_LOAD); for (const X86MemoryFoldTableEntry &Entry : MemoryFoldTable2) // Index 2, folded load addTableEntry(Entry, TB_INDEX_2 | TB_FOLDED_LOAD); for (const X86MemoryFoldTableEntry &Entry : MemoryFoldTable3) // Index 3, folded load addTableEntry(Entry, TB_INDEX_3 | TB_FOLDED_LOAD); for (const X86MemoryFoldTableEntry &Entry : MemoryFoldTable4) // Index 4, folded load addTableEntry(Entry, TB_INDEX_4 | TB_FOLDED_LOAD); // Broadcast tables. for (const X86MemoryFoldTableEntry &Entry : BroadcastFoldTable2) // Index 2, folded broadcast addTableEntry(Entry, TB_INDEX_2 | TB_FOLDED_LOAD | TB_FOLDED_BCAST); for (const X86MemoryFoldTableEntry &Entry : BroadcastFoldTable3) // Index 3, folded broadcast addTableEntry(Entry, TB_INDEX_3 | TB_FOLDED_LOAD | TB_FOLDED_BCAST); // Sort the memory->reg unfold table. array_pod_sort(Table.begin(), Table.end()); // Now that it's sorted, ensure its unique. assert(std::adjacent_find(Table.begin(), Table.end()) == Table.end() && "Memory unfolding table is not unique!"); } void addTableEntry(const X86MemoryFoldTableEntry &Entry, uint16_t ExtraFlags) { // NOTE: This swaps the KeyOp and DstOp in the table so we can sort it. if ((Entry.Flags & TB_NO_REVERSE) == 0) Table.push_back({Entry.DstOp, Entry.KeyOp, static_cast(Entry.Flags | ExtraFlags) }); } }; } const X86MemoryFoldTableEntry * llvm::lookupUnfoldTable(unsigned MemOp) { static X86MemUnfoldTable MemUnfoldTable; auto &Table = MemUnfoldTable.Table; auto I = llvm::lower_bound(Table, MemOp); if (I != Table.end() && I->KeyOp == MemOp) return &*I; return nullptr; } namespace { // This class stores the memory -> broadcast folding tables. It is instantiated // as a function scope static variable to lazily init the folding table. struct X86MemBroadcastFoldTable { // Stores memory broadcast folding tables entries sorted by opcode. std::vector Table; X86MemBroadcastFoldTable() { // Broadcast tables. for (const X86MemoryFoldTableEntry &Reg2Bcst : BroadcastFoldTable2) { unsigned RegOp = Reg2Bcst.KeyOp; unsigned BcstOp = Reg2Bcst.DstOp; if (const X86MemoryFoldTableEntry *Reg2Mem = lookupFoldTable(RegOp, 2)) { unsigned MemOp = Reg2Mem->DstOp; uint16_t Flags = Reg2Mem->Flags | Reg2Bcst.Flags | TB_INDEX_2 | TB_FOLDED_LOAD | TB_FOLDED_BCAST; Table.push_back({MemOp, BcstOp, Flags}); } } for (const X86MemoryFoldTableEntry &Reg2Bcst : BroadcastSizeFoldTable2) { unsigned RegOp = Reg2Bcst.KeyOp; unsigned BcstOp = Reg2Bcst.DstOp; if (const X86MemoryFoldTableEntry *Reg2Mem = lookupFoldTable(RegOp, 2)) { unsigned MemOp = Reg2Mem->DstOp; uint16_t Flags = Reg2Mem->Flags | Reg2Bcst.Flags | TB_INDEX_2 | TB_FOLDED_LOAD | TB_FOLDED_BCAST; Table.push_back({MemOp, BcstOp, Flags}); } } for (const X86MemoryFoldTableEntry &Reg2Bcst : BroadcastFoldTable3) { unsigned RegOp = Reg2Bcst.KeyOp; unsigned BcstOp = Reg2Bcst.DstOp; if (const X86MemoryFoldTableEntry *Reg2Mem = lookupFoldTable(RegOp, 3)) { unsigned MemOp = Reg2Mem->DstOp; uint16_t Flags = Reg2Mem->Flags | Reg2Bcst.Flags | TB_INDEX_3 | TB_FOLDED_LOAD | TB_FOLDED_BCAST; Table.push_back({MemOp, BcstOp, Flags}); } } for (const X86MemoryFoldTableEntry &Reg2Bcst : BroadcastSizeFoldTable3) { unsigned RegOp = Reg2Bcst.KeyOp; unsigned BcstOp = Reg2Bcst.DstOp; if (const X86MemoryFoldTableEntry *Reg2Mem = lookupFoldTable(RegOp, 3)) { unsigned MemOp = Reg2Mem->DstOp; uint16_t Flags = Reg2Mem->Flags | Reg2Bcst.Flags | TB_INDEX_3 | TB_FOLDED_LOAD | TB_FOLDED_BCAST; Table.push_back({MemOp, BcstOp, Flags}); } } // Sort the memory->broadcast fold table. array_pod_sort(Table.begin(), Table.end()); } }; } // namespace static bool matchBroadcastSize(const X86MemoryFoldTableEntry &Entry, unsigned BroadcastBits) { switch (Entry.Flags & TB_BCAST_MASK) { case TB_BCAST_SD: case TB_BCAST_Q: return BroadcastBits == 64; case TB_BCAST_SS: case TB_BCAST_D: return BroadcastBits == 32; } return false; } const X86MemoryFoldTableEntry * llvm::lookupBroadcastFoldTable(unsigned MemOp, unsigned BroadcastBits) { static X86MemBroadcastFoldTable MemBroadcastFoldTable; auto &Table = MemBroadcastFoldTable.Table; for (auto I = llvm::lower_bound(Table, MemOp); I != Table.end() && I->KeyOp == MemOp; ++I) { if (matchBroadcastSize(*I, BroadcastBits)) return &*I; } return nullptr; }