let isCodeGenOnly = 1, Predicates = [InMicroMips] in { def FADD_S_MM : MMRel, ADDS_FT<"add.s", FGR32Opnd, II_ADD_S, 1, fadd>, ADDS_FM_MM<0, 0x30>; def FDIV_S_MM : MMRel, ADDS_FT<"div.s", FGR32Opnd, II_DIV_S, 0, fdiv>, ADDS_FM_MM<0, 0xf0>; def FMUL_S_MM : MMRel, ADDS_FT<"mul.s", FGR32Opnd, II_MUL_S, 1, fmul>, ADDS_FM_MM<0, 0xb0>; def FSUB_S_MM : MMRel, ADDS_FT<"sub.s", FGR32Opnd, II_SUB_S, 0, fsub>, ADDS_FM_MM<0, 0x70>; def FADD_MM : MMRel, ADDS_FT<"add.d", AFGR64Opnd, II_ADD_D, 1, fadd>, ADDS_FM_MM<1, 0x30>; def FDIV_MM : MMRel, ADDS_FT<"div.d", AFGR64Opnd, II_DIV_D, 0, fdiv>, ADDS_FM_MM<1, 0xf0>; def FMUL_MM : MMRel, ADDS_FT<"mul.d", AFGR64Opnd, II_MUL_D, 1, fmul>, ADDS_FM_MM<1, 0xb0>; def FSUB_MM : MMRel, ADDS_FT<"sub.d", AFGR64Opnd, II_SUB_D, 0, fsub>, ADDS_FM_MM<1, 0x70>; def LWXC1_MM : MMRel, LWXC1_FT<"lwxc1", FGR32Opnd, II_LWXC1, load>, LWXC1_FM_MM<0x48>, INSN_MIPS4_32R2_NOT_32R6_64R6; def SWXC1_MM : MMRel, SWXC1_FT<"swxc1", FGR32Opnd, II_SWXC1, store>, SWXC1_FM_MM<0x88>, INSN_MIPS4_32R2_NOT_32R6_64R6; def LUXC1_MM : MMRel, LWXC1_FT<"luxc1", AFGR64Opnd, II_LUXC1>, LWXC1_FM_MM<0x148>, INSN_MIPS5_32R2_NOT_32R6_64R6; def SUXC1_MM : MMRel, SWXC1_FT<"suxc1", AFGR64Opnd, II_SUXC1>, SWXC1_FM_MM<0x188>, INSN_MIPS5_32R2_NOT_32R6_64R6; def FCMP_S32_MM : MMRel, CEQS_FT<"s", FGR32, II_C_CC_S, MipsFPCmp>, CEQS_FM_MM<0> { // FIXME: This is a required to work around the fact that these instructions // only use $fcc0. Ideally, MipsFPCmp nodes could be removed and the // fcc register set is used directly. bits<3> fcc = 0; } def FCMP_D32_MM : MMRel, CEQS_FT<"d", AFGR64, II_C_CC_D, MipsFPCmp>, CEQS_FM_MM<1> { // FIXME: This is a required to work around the fact that these instructions // only use $fcc0. Ideally, MipsFPCmp nodes could be removed and the // fcc register set is used directly. bits<3> fcc = 0; } def BC1F_MM : MMRel, BC1F_FT<"bc1f", brtarget_mm, II_BC1F, MIPS_BRANCH_F>, BC1F_FM_MM<0x1c>, ISA_MIPS1_NOT_32R6_64R6; def BC1T_MM : MMRel, BC1F_FT<"bc1t", brtarget_mm, II_BC1T, MIPS_BRANCH_T>, BC1F_FM_MM<0x1d>, ISA_MIPS1_NOT_32R6_64R6; def CVT_W_S_MM : MMRel, ABSS_FT<"cvt.w.s", FGR32Opnd, FGR32Opnd, II_CVT>, ROUND_W_FM_MM<0, 0x24>; def ROUND_W_S_MM : MMRel, StdMMR6Rel, ABSS_FT<"round.w.s", FGR32Opnd, FGR32Opnd, II_ROUND>, ROUND_W_FM_MM<0, 0xec>; def CEIL_W_MM : MMRel, ABSS_FT<"ceil.w.d", FGR32Opnd, AFGR64Opnd, II_CEIL>, ROUND_W_FM_MM<1, 0x6c>; def CVT_W_MM : MMRel, ABSS_FT<"cvt.w.d", FGR32Opnd, AFGR64Opnd, II_CVT>, ROUND_W_FM_MM<1, 0x24>; def FLOOR_W_MM : MMRel, ABSS_FT<"floor.w.d", FGR32Opnd, AFGR64Opnd, II_FLOOR>, ROUND_W_FM_MM<1, 0x2c>; def ROUND_W_MM : MMRel, StdMMR6Rel, ABSS_FT<"round.w.d", FGR32Opnd, AFGR64Opnd, II_ROUND>, ROUND_W_FM_MM<1, 0xec>; def TRUNC_W_MM : MMRel, ABSS_FT<"trunc.w.d", FGR32Opnd, AFGR64Opnd, II_TRUNC>, ROUND_W_FM_MM<1, 0xac>; def FSQRT_MM : MMRel, ABSS_FT<"sqrt.d", AFGR64Opnd, AFGR64Opnd, II_SQRT_D, fsqrt>, ROUND_W_FM_MM<1, 0x28>; def CVT_L_S_MM : MMRel, ABSS_FT<"cvt.l.s", FGR64Opnd, FGR32Opnd, II_CVT>, ROUND_W_FM_MM<0, 0x4>, INSN_MIPS3_32R2; def CVT_L_D64_MM : MMRel, ABSS_FT<"cvt.l.d", FGR64Opnd, FGR64Opnd, II_CVT>, ROUND_W_FM_MM<1, 0x4>, INSN_MIPS3_32R2; def FABS_S_MM : MMRel, ABSS_FT<"abs.s", FGR32Opnd, FGR32Opnd, II_ABS, fabs>, ABS_FM_MM<0, 0xd>; def FMOV_S_MM : MMRel, ABSS_FT<"mov.s", FGR32Opnd, FGR32Opnd, II_MOV_S>, ABS_FM_MM<0, 0x1>; def FNEG_S_MM : MMRel, ABSS_FT<"neg.s", FGR32Opnd, FGR32Opnd, II_NEG, fneg>, ABS_FM_MM<0, 0x2d>; def CVT_D_S_MM : MMRel, ABSS_FT<"cvt.d.s", AFGR64Opnd, FGR32Opnd, II_CVT>, ABS_FM_MM<0, 0x4d>; def CVT_D32_W_MM : MMRel, ABSS_FT<"cvt.d.w", AFGR64Opnd, FGR32Opnd, II_CVT>, ABS_FM_MM<1, 0x4d>; def CVT_S_D32_MM : MMRel, ABSS_FT<"cvt.s.d", FGR32Opnd, AFGR64Opnd, II_CVT>, ABS_FM_MM<0, 0x6d>; def CVT_S_W_MM : MMRel, ABSS_FT<"cvt.s.w", FGR32Opnd, FGR32Opnd, II_CVT>, ABS_FM_MM<1, 0x6d>; def FABS_MM : MMRel, ABSS_FT<"abs.d", AFGR64Opnd, AFGR64Opnd, II_ABS, fabs>, ABS_FM_MM<1, 0xd>; def FNEG_MM : MMRel, ABSS_FT<"neg.d", AFGR64Opnd, AFGR64Opnd, II_NEG, fneg>, ABS_FM_MM<1, 0x2d>; def FMOV_D32_MM : MMRel, ABSS_FT<"mov.d", AFGR64Opnd, AFGR64Opnd, II_MOV_D>, ABS_FM_MM<1, 0x1>, FGR_32; def MOVZ_I_S_MM : MMRel, CMov_I_F_FT<"movz.s", GPR32Opnd, FGR32Opnd, II_MOVZ_S>, CMov_I_F_FM_MM<0x78, 0>; def MOVN_I_S_MM : MMRel, CMov_I_F_FT<"movn.s", GPR32Opnd, FGR32Opnd, II_MOVN_S>, CMov_I_F_FM_MM<0x38, 0>; def MOVZ_I_D32_MM : MMRel, CMov_I_F_FT<"movz.d", GPR32Opnd, AFGR64Opnd, II_MOVZ_D>, CMov_I_F_FM_MM<0x78, 1>; def MOVN_I_D32_MM : MMRel, CMov_I_F_FT<"movn.d", GPR32Opnd, AFGR64Opnd, II_MOVN_D>, CMov_I_F_FM_MM<0x38, 1>; def MOVT_S_MM : MMRel, CMov_F_F_FT<"movt.s", FGR32Opnd, II_MOVT_S, MipsCMovFP_T>, CMov_F_F_FM_MM<0x60, 0>; def MOVF_S_MM : MMRel, CMov_F_F_FT<"movf.s", FGR32Opnd, II_MOVF_S, MipsCMovFP_F>, CMov_F_F_FM_MM<0x20, 0>; def MOVT_D32_MM : MMRel, CMov_F_F_FT<"movt.d", AFGR64Opnd, II_MOVT_D, MipsCMovFP_T>, CMov_F_F_FM_MM<0x60, 1>; def MOVF_D32_MM : MMRel, CMov_F_F_FT<"movf.d", AFGR64Opnd, II_MOVF_D, MipsCMovFP_F>, CMov_F_F_FM_MM<0x20, 1>; def MFC1_MM : MMRel, MFC1_FT<"mfc1", GPR32Opnd, FGR32Opnd, II_MFC1, bitconvert>, MFC1_FM_MM<0x80>; def MTC1_MM : MMRel, MTC1_FT<"mtc1", FGR32Opnd, GPR32Opnd, II_MTC1, bitconvert>, MFC1_FM_MM<0xa0>; def MADD_S_MM : MMRel, MADDS_FT<"madd.s", FGR32Opnd, II_MADD_S, fadd>, MADDS_FM_MM<0x1>; def MSUB_S_MM : MMRel, MADDS_FT<"msub.s", FGR32Opnd, II_MSUB_S, fsub>, MADDS_FM_MM<0x21>; def NMADD_S_MM : MMRel, NMADDS_FT<"nmadd.s", FGR32Opnd, II_NMADD_S, fadd>, MADDS_FM_MM<0x2>; def NMSUB_S_MM : MMRel, NMADDS_FT<"nmsub.s", FGR32Opnd, II_NMSUB_S, fsub>, MADDS_FM_MM<0x22>; def MADD_D32_MM : MMRel, MADDS_FT<"madd.d", AFGR64Opnd, II_MADD_D, fadd>, MADDS_FM_MM<0x9>; def MSUB_D32_MM : MMRel, MADDS_FT<"msub.d", AFGR64Opnd, II_MSUB_D, fsub>, MADDS_FM_MM<0x29>; def NMADD_D32_MM : MMRel, NMADDS_FT<"nmadd.d", AFGR64Opnd, II_NMADD_D, fadd>, MADDS_FM_MM<0xa>; def NMSUB_D32_MM : MMRel, NMADDS_FT<"nmsub.d", AFGR64Opnd, II_NMSUB_D, fsub>, MADDS_FM_MM<0x2a>; } let AdditionalPredicates = [InMicroMips] in { def FLOOR_W_S_MM : MMRel, ABSS_FT<"floor.w.s", FGR32Opnd, FGR32Opnd, II_FLOOR>, ROUND_W_FM_MM<0, 0x2c>; def TRUNC_W_S_MM : MMRel, StdMMR6Rel, ABSS_FT<"trunc.w.s", FGR32Opnd, FGR32Opnd, II_TRUNC>, ROUND_W_FM_MM<0, 0xac>; def CEIL_W_S_MM : MMRel, ABSS_FT<"ceil.w.s", FGR32Opnd, FGR32Opnd, II_CEIL>, ROUND_W_FM_MM<0, 0x6c>; def FSQRT_S_MM : MMRel, ABSS_FT<"sqrt.s", FGR32Opnd, FGR32Opnd, II_SQRT_S, fsqrt>, ROUND_W_FM_MM<0, 0x28>; def MTHC1_MM : MMRel, MTC1_64_FT<"mthc1", AFGR64Opnd, GPR32Opnd, II_MTHC1>, MFC1_FM_MM<0xe0>, ISA_MIPS32R2, FGR_32; def MFHC1_MM : MMRel, MFC1_FT<"mfhc1", GPR32Opnd, AFGR64Opnd, II_MFHC1>, MFC1_FM_MM<0xc0>, ISA_MIPS32R2, FGR_32; let DecoderNamespace = "MicroMips" in { def CFC1_MM : MMRel, MFC1_FT<"cfc1", GPR32Opnd, CCROpnd, II_CFC1>, MFC1_FM_MM<0x40>; def CTC1_MM : MMRel, MTC1_FT<"ctc1", CCROpnd, GPR32Opnd, II_CTC1>, MFC1_FM_MM<0x60>; def RECIP_S_MM : MMRel, ABSS_FT<"recip.s", FGR32Opnd, FGR32Opnd, II_RECIP_S>, ROUND_W_FM_MM<0b0, 0b01001000>; def RECIP_D_MM : MMRel, ABSS_FT<"recip.d", AFGR64Opnd, AFGR64Opnd, II_RECIP_D>, ROUND_W_FM_MM<0b1, 0b01001000>; def RSQRT_S_MM : MMRel, ABSS_FT<"rsqrt.s", FGR32Opnd, FGR32Opnd, II_RECIP_S>, ROUND_W_FM_MM<0b0, 0b00001000>; def RSQRT_D_MM : MMRel, ABSS_FT<"rsqrt.d", AFGR64Opnd, AFGR64Opnd, II_RECIP_D>, ROUND_W_FM_MM<0b1, 0b00001000>; } let DecoderNamespace = "MicroMips", DecoderMethod = "DecodeFMemMMR2" in { def LDC1_MM : MMRel, LW_FT<"ldc1", AFGR64Opnd, mem_mm_16, II_LDC1, load>, LW_FM_MM<0x2f>, FGR_32 { let BaseOpcode = "LDC132"; } def SDC1_MM : MMRel, SW_FT<"sdc1", AFGR64Opnd, mem_mm_16, II_SDC1, store>, LW_FM_MM<0x2e>, FGR_32; def LWC1_MM : MMRel, LW_FT<"lwc1", FGR32Opnd, mem_mm_16, II_LWC1, load>, LW_FM_MM<0x27>; def SWC1_MM : MMRel, SW_FT<"swc1", FGR32Opnd, mem_mm_16, II_SWC1, store>, LW_FM_MM<0x26>; } multiclass C_COND_MM fmt, InstrItinClass itin> { def C_F_#NAME#_MM : MMRel, C_COND_FT<"f", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.f."#NAME; let isCommutable = 1; } def C_UN_#NAME#_MM : MMRel, C_COND_FT<"un", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.un."#NAME; let isCommutable = 1; } def C_EQ_#NAME#_MM : MMRel, C_COND_FT<"eq", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.eq."#NAME; let isCommutable = 1; } def C_UEQ_#NAME#_MM : MMRel, C_COND_FT<"ueq", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ueq."#NAME; let isCommutable = 1; } def C_OLT_#NAME#_MM : MMRel, C_COND_FT<"olt", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.olt."#NAME; } def C_ULT_#NAME#_MM : MMRel, C_COND_FT<"ult", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ult."#NAME; } def C_OLE_#NAME#_MM : MMRel, C_COND_FT<"ole", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ole."#NAME; } def C_ULE_#NAME#_MM : MMRel, C_COND_FT<"ule", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ule."#NAME; } def C_SF_#NAME#_MM : MMRel, C_COND_FT<"sf", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.sf."#NAME; let isCommutable = 1; } def C_NGLE_#NAME#_MM : MMRel, C_COND_FT<"ngle", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ngle."#NAME; } def C_SEQ_#NAME#_MM : MMRel, C_COND_FT<"seq", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.seq."#NAME; let isCommutable = 1; } def C_NGL_#NAME#_MM : MMRel, C_COND_FT<"ngl", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ngl."#NAME; } def C_LT_#NAME#_MM : MMRel, C_COND_FT<"lt", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.lt."#NAME; } def C_NGE_#NAME#_MM : MMRel, C_COND_FT<"nge", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.nge."#NAME; } def C_LE_#NAME#_MM : MMRel, C_COND_FT<"le", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.le."#NAME; } def C_NGT_#NAME#_MM : MMRel, C_COND_FT<"ngt", TypeStr, RC, itin>, C_COND_FM_MM { let BaseOpcode = "c.ngt."#NAME; } } defm S : C_COND_MM<"s", FGR32Opnd, 0b00, II_C_CC_S>, ISA_MIPS1_NOT_32R6_64R6; defm D32 : C_COND_MM<"d", AFGR64Opnd, 0b01, II_C_CC_D>, ISA_MIPS1_NOT_32R6_64R6, FGR_32; let DecoderNamespace = "Mips64" in defm D64 : C_COND_MM<"d", FGR64Opnd, 0b01, II_C_CC_D>, ISA_MIPS1_NOT_32R6_64R6, FGR_64; defm S_MM : C_COND_ALIASES<"s", FGR32Opnd>, HARDFLOAT, ISA_MIPS1_NOT_32R6_64R6; defm D32_MM : C_COND_ALIASES<"d", AFGR64Opnd>, HARDFLOAT, ISA_MIPS1_NOT_32R6_64R6, FGR_32; defm D64_MM : C_COND_ALIASES<"d", FGR64Opnd>, HARDFLOAT, ISA_MIPS1_NOT_32R6_64R6, FGR_64; defm : BC1_ALIASES, ISA_MIPS1_NOT_32R6_64R6, HARDFLOAT; } //===----------------------------------------------------------------------===// // Floating Point Patterns //===----------------------------------------------------------------------===// let AdditionalPredicates = [InMicroMips] in { // Patterns for loads/stores with a reg+imm operand. let AddedComplexity = 40 in { def : LoadRegImmPat, FGR_32; def : StoreRegImmPat, FGR_32; def : LoadRegImmPat; def : StoreRegImmPat; } }