//===- MipsEVAInstrInfo.td - EVA ASE instructions -*- tablegen ------------*-=// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// // // This file describes Mips EVA ASE instructions. // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // // Instruction encodings // //===----------------------------------------------------------------------===// // Memory Load/Store EVA encodings class LBE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class LBuE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class LHE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class LHuE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class LWE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class SBE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class SHE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class SWE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; // load/store left/right EVA encodings class LWLE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class LWRE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class SWLE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class SWRE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; // Load-linked EVA, Store-conditional EVA encodings class LLE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class SCE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class TLBINV_ENC : TLB_FM; class TLBINVF_ENC : TLB_FM; class CACHEE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; class PREFE_ENC : SPECIAL3_EVA_LOAD_STORE_FM; //===----------------------------------------------------------------------===// // // Instruction descriptions // //===----------------------------------------------------------------------===// // Memory Load/Store EVA descriptions class LOAD_EVA_DESC_BASE { dag OutOperandList = (outs GPROpnd:$rt); dag InOperandList = (ins mem_simm9:$addr); string AsmString = !strconcat(instr_asm, "\t$rt, $addr"); list Pattern = []; string DecoderMethod = "DecodeMemEVA"; bit canFoldAsLoad = 1; string BaseOpcode = instr_asm; bit mayLoad = 1; InstrItinClass Itinerary = itin; } class LBE_DESC : LOAD_EVA_DESC_BASE<"lbe", GPR32Opnd, II_LBE>; class LBuE_DESC : LOAD_EVA_DESC_BASE<"lbue", GPR32Opnd, II_LBUE>; class LHE_DESC : LOAD_EVA_DESC_BASE<"lhe", GPR32Opnd, II_LHE>; class LHuE_DESC : LOAD_EVA_DESC_BASE<"lhue", GPR32Opnd, II_LHUE>; class LWE_DESC : LOAD_EVA_DESC_BASE<"lwe", GPR32Opnd, II_LWE>; class STORE_EVA_DESC_BASE { dag OutOperandList = (outs); dag InOperandList = (ins GPROpnd:$rt, mem_simm9:$addr); string AsmString = !strconcat(instr_asm, "\t$rt, $addr"); list Pattern = []; string DecoderMethod = "DecodeMemEVA"; string BaseOpcode = instr_asm; bit mayStore = 1; InstrItinClass Itinerary = itin; } class SBE_DESC : STORE_EVA_DESC_BASE<"sbe", GPR32Opnd, null_frag, II_SBE>; class SHE_DESC : STORE_EVA_DESC_BASE<"she", GPR32Opnd, null_frag, II_SHE>; class SWE_DESC : STORE_EVA_DESC_BASE<"swe", GPR32Opnd, null_frag, II_SWE>; // Load/Store Left/Right EVA descriptions class LOAD_LEFT_RIGHT_EVA_DESC_BASE { dag OutOperandList = (outs GPROpnd:$rt); dag InOperandList = (ins mem_simm9:$addr, GPROpnd:$src); string AsmString = !strconcat(instr_asm, "\t$rt, $addr"); list Pattern = []; string DecoderMethod = "DecodeMemEVA"; string BaseOpcode = instr_asm; string Constraints = "$src = $rt"; bit canFoldAsLoad = 1; InstrItinClass Itinerary = itin; bit mayLoad = 1; bit mayStore = 0; } class LWLE_DESC : LOAD_LEFT_RIGHT_EVA_DESC_BASE<"lwle", GPR32Opnd, II_LWLE>; class LWRE_DESC : LOAD_LEFT_RIGHT_EVA_DESC_BASE<"lwre", GPR32Opnd, II_LWRE>; class STORE_LEFT_RIGHT_EVA_DESC_BASE { dag OutOperandList = (outs); dag InOperandList = (ins GPROpnd:$rt, mem_simm9:$addr); string AsmString = !strconcat(instr_asm, "\t$rt, $addr"); list Pattern = []; string DecoderMethod = "DecodeMemEVA"; string BaseOpcode = instr_asm; InstrItinClass Itinerary = itin; bit mayLoad = 0; bit mayStore = 1; } class SWLE_DESC : STORE_LEFT_RIGHT_EVA_DESC_BASE<"swle", GPR32Opnd, II_SWLE>; class SWRE_DESC : STORE_LEFT_RIGHT_EVA_DESC_BASE<"swre", GPR32Opnd, II_SWRE>; // Load-linked EVA, Store-conditional EVA descriptions class LLE_DESC_BASE { dag OutOperandList = (outs GPROpnd:$rt); dag InOperandList = (ins mem_simm9:$addr); string AsmString = !strconcat(instr_asm, "\t$rt, $addr"); list Pattern = []; string BaseOpcode = instr_asm; bit mayLoad = 1; string DecoderMethod = "DecodeMemEVA"; InstrItinClass Itinerary = itin; } class LLE_DESC : LLE_DESC_BASE<"lle", GPR32Opnd, II_LLE>; class SCE_DESC_BASE { dag OutOperandList = (outs GPROpnd:$dst); dag InOperandList = (ins GPROpnd:$rt, mem_simm9:$addr); string AsmString = !strconcat(instr_asm, "\t$rt, $addr"); list Pattern = []; string BaseOpcode = instr_asm; bit mayStore = 1; string Constraints = "$rt = $dst"; string DecoderMethod = "DecodeMemEVA"; InstrItinClass Itinerary = itin; } class SCE_DESC : SCE_DESC_BASE<"sce", GPR32Opnd, II_SCE>; class TLB_DESC_BASE { dag OutOperandList = (outs); dag InOperandList = (ins); string AsmString = instr_asm; list Pattern = []; InstrItinClass Itinerary = itin; } class TLBINV_DESC : TLB_DESC_BASE<"tlbinv", II_TLBINV>; class TLBINVF_DESC : TLB_DESC_BASE<"tlbinvf", II_TLBINVF>; class CACHEE_DESC_BASE { dag OutOperandList = (outs); dag InOperandList = (ins MemOpnd:$addr, uimm5:$hint); string AsmString = !strconcat(instr_asm, "\t$hint, $addr"); list Pattern = []; string BaseOpcode = instr_asm; string DecoderMethod = "DecodeCacheeOp_CacheOpR6"; InstrItinClass Itinerary = itin; } class CACHEE_DESC : CACHEE_DESC_BASE<"cachee", mem_simm9, II_CACHEE>; class PREFE_DESC : CACHEE_DESC_BASE<"prefe", mem_simm9, II_PREFE>; //===----------------------------------------------------------------------===// // // Instruction definitions // //===----------------------------------------------------------------------===// let AdditionalPredicates = [NotInMicroMips] in { /// Load and Store EVA Instructions def LBE : MMRel, LBE_ENC, LBE_DESC, ISA_MIPS32R2, ASE_EVA; def LBuE : MMRel, LBuE_ENC, LBuE_DESC, ISA_MIPS32R2, ASE_EVA; def LHE : MMRel, LHE_ENC, LHE_DESC, ISA_MIPS32R2, ASE_EVA; def LHuE : MMRel, LHuE_ENC, LHuE_DESC, ISA_MIPS32R2, ASE_EVA; def LWE : MMRel, LWE_ENC, LWE_DESC, ISA_MIPS32R2, ASE_EVA; def SBE : MMRel, SBE_ENC, SBE_DESC, ISA_MIPS32R2, ASE_EVA; def SHE : MMRel, SHE_ENC, SHE_DESC, ISA_MIPS32R2, ASE_EVA; def SWE : MMRel, SWE_ENC, SWE_DESC, ISA_MIPS32R2, ASE_EVA; /// load/store left/right EVA def LWLE : MMRel, LWLE_ENC, LWLE_DESC, ISA_MIPS32R2_NOT_32R6_64R6, ASE_EVA; def LWRE : MMRel, LWRE_ENC, LWRE_DESC, ISA_MIPS32R2_NOT_32R6_64R6, ASE_EVA; def SWLE : MMRel, SWLE_ENC, SWLE_DESC, ISA_MIPS32R2_NOT_32R6_64R6, ASE_EVA; def SWRE : MMRel, SWRE_ENC, SWRE_DESC, ISA_MIPS32R2_NOT_32R6_64R6, ASE_EVA; /// Load-linked EVA, Store-conditional EVA def LLE : MMRel, LLE_ENC, LLE_DESC, ISA_MIPS32R2, ASE_EVA; def SCE : MMRel, SCE_ENC, SCE_DESC, ISA_MIPS32R2, ASE_EVA; /// TLB invalidate instructions def TLBINV : TLBINV_ENC, TLBINV_DESC, ISA_MIPS32R2, ASE_EVA; def TLBINVF : TLBINVF_ENC, TLBINVF_DESC, ISA_MIPS32R2, ASE_EVA; /// EVA versions of cache and pref def CACHEE : MMRel, CACHEE_ENC, CACHEE_DESC, ISA_MIPS32R2, ASE_EVA; def PREFE : MMRel, PREFE_ENC, PREFE_DESC, ISA_MIPS32R2, ASE_EVA; }