//===-- SIRegisterInfo.td - SI Register defs ---------------*- tablegen -*-===// // // 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 // //===----------------------------------------------------------------------===// //===----------------------------------------------------------------------===// // Helpers //===----------------------------------------------------------------------===// class getSubRegs { list ret2 = [sub0, sub1]; list ret3 = [sub0, sub1, sub2]; list ret4 = [sub0, sub1, sub2, sub3]; list ret5 = [sub0, sub1, sub2, sub3, sub4]; list ret8 = [sub0, sub1, sub2, sub3, sub4, sub5, sub6, sub7]; list ret16 = [sub0, sub1, sub2, sub3, sub4, sub5, sub6, sub7, sub8, sub9, sub10, sub11, sub12, sub13, sub14, sub15]; list ret32 = [sub0, sub1, sub2, sub3, sub4, sub5, sub6, sub7, sub8, sub9, sub10, sub11, sub12, sub13, sub14, sub15, sub16, sub17, sub18, sub19, sub20, sub21, sub22, sub23, sub24, sub25, sub26, sub27, sub28, sub29, sub30, sub31]; list ret = !if(!eq(size, 2), ret2, !if(!eq(size, 3), ret3, !if(!eq(size, 4), ret4, !if(!eq(size, 5), ret5, !if(!eq(size, 8), ret8, !if(!eq(size, 16), ret16, ret32)))))); } let Namespace = "AMDGPU" in { defset list AllRegAltNameIndices = { def Reg32 : RegAltNameIndex; def Reg64 : RegAltNameIndex; def Reg96 : RegAltNameIndex; def Reg128 : RegAltNameIndex; def Reg160 : RegAltNameIndex; def Reg256 : RegAltNameIndex; def Reg512 : RegAltNameIndex; def Reg1024 : RegAltNameIndex; } } //===----------------------------------------------------------------------===// // Declarations that describe the SI registers //===----------------------------------------------------------------------===// class SIReg regIdx = 0, string prefix = "", int regNo = !cast(regIdx)> : Register, DwarfRegNum<[!cast(HWEncoding)]> { let Namespace = "AMDGPU"; let RegAltNameIndices = AllRegAltNameIndices; // This is the not yet the complete register encoding. An additional // bit is set for VGPRs. let HWEncoding = regIdx; } class SIRegisterWithSubRegs subregs> : RegisterWithSubRegs { let RegAltNameIndices = AllRegAltNameIndices; let AltNames = [ n, n, n, n, n, n, n, n ]; } // Special Registers def VCC_LO : SIReg<"vcc_lo", 106>; def VCC_HI : SIReg<"vcc_hi", 107>; // Pseudo-registers: Used as placeholders during isel and immediately // replaced, never seeing the verifier. def PRIVATE_RSRC_REG : SIReg<"private_rsrc", 0>; def FP_REG : SIReg<"fp", 0>; def SP_REG : SIReg<"sp", 0>; def SCRATCH_WAVE_OFFSET_REG : SIReg<"scratch_wave_offset", 0>; // VCC for 64-bit instructions def VCC : SIRegisterWithSubRegs<"vcc", [VCC_LO, VCC_HI]>, DwarfRegAlias { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1]; let HWEncoding = 106; } def EXEC_LO : SIReg<"exec_lo", 126>; def EXEC_HI : SIReg<"exec_hi", 127>; def EXEC : SIRegisterWithSubRegs<"exec", [EXEC_LO, EXEC_HI]>, DwarfRegAlias { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1]; let HWEncoding = 126; } // 32-bit real registers, for MC only. // May be used with both 32-bit and 64-bit operands. def SRC_VCCZ : SIReg<"src_vccz", 251>; def SRC_EXECZ : SIReg<"src_execz", 252>; def SRC_SCC : SIReg<"src_scc", 253>; // 1-bit pseudo register, for codegen only. // Should never be emitted. def SCC : SIReg<"scc">; def M0 : SIReg <"m0", 124>; def SGPR_NULL : SIReg<"null", 125>; def SRC_SHARED_BASE : SIReg<"src_shared_base", 235>; def SRC_SHARED_LIMIT : SIReg<"src_shared_limit", 236>; def SRC_PRIVATE_BASE : SIReg<"src_private_base", 237>; def SRC_PRIVATE_LIMIT : SIReg<"src_private_limit", 238>; def SRC_POPS_EXITING_WAVE_ID : SIReg<"src_pops_exiting_wave_id", 239>; def LDS_DIRECT : SIReg <"src_lds_direct", 254>; def XNACK_MASK_LO : SIReg<"xnack_mask_lo", 104>; def XNACK_MASK_HI : SIReg<"xnack_mask_hi", 105>; def XNACK_MASK : SIRegisterWithSubRegs<"xnack_mask", [XNACK_MASK_LO, XNACK_MASK_HI]>, DwarfRegAlias { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1]; let HWEncoding = 104; } // Trap handler registers def TBA_LO : SIReg<"tba_lo", 108>; def TBA_HI : SIReg<"tba_hi", 109>; def TBA : SIRegisterWithSubRegs<"tba", [TBA_LO, TBA_HI]>, DwarfRegAlias { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1]; let HWEncoding = 108; } def TMA_LO : SIReg<"tma_lo", 110>; def TMA_HI : SIReg<"tma_hi", 111>; def TMA : SIRegisterWithSubRegs<"tma", [TMA_LO, TMA_HI]>, DwarfRegAlias { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1]; let HWEncoding = 110; } foreach Index = 0-15 in { def TTMP#Index#_vi : SIReg<"ttmp"#Index, !add(112, Index)>; def TTMP#Index#_gfx9_gfx10 : SIReg<"ttmp"#Index, !add(108, Index)>; def TTMP#Index : SIReg<"ttmp"#Index, 0>; } multiclass FLAT_SCR_LOHI_m ci_e, bits<16> vi_e> { def _ci : SIReg; def _vi : SIReg; def "" : SIReg; } class FlatReg encoding> : SIRegisterWithSubRegs<"flat_scratch", [lo, hi]>, DwarfRegAlias { let Namespace = "AMDGPU"; let SubRegIndices = [sub0, sub1]; let HWEncoding = encoding; } defm FLAT_SCR_LO : FLAT_SCR_LOHI_m<"flat_scratch_lo", 104, 102>; // Offset in units of 256-bytes. defm FLAT_SCR_HI : FLAT_SCR_LOHI_m<"flat_scratch_hi", 105, 103>; // Size is the per-thread scratch size, in bytes. def FLAT_SCR_ci : FlatReg; def FLAT_SCR_vi : FlatReg; def FLAT_SCR : FlatReg; // SGPR registers foreach Index = 0-105 in { def SGPR#Index : SIReg <"SGPR"#Index, Index, "s">; } // VGPR registers foreach Index = 0-255 in { def VGPR#Index : SIReg <"VGPR"#Index, Index, "v"> { let HWEncoding{8} = 1; } } // AccVGPR registers foreach Index = 0-255 in { def AGPR#Index : SIReg <"AGPR"#Index, Index, "a"> { let HWEncoding{8} = 1; } } //===----------------------------------------------------------------------===// // Groupings using register classes and tuples //===----------------------------------------------------------------------===// def SCC_CLASS : RegisterClass<"AMDGPU", [i1], 1, (add SCC)> { let CopyCost = -1; let isAllocatable = 0; } def M0_CLASS : RegisterClass<"AMDGPU", [i32], 32, (add M0)> { let CopyCost = 1; let isAllocatable = 0; } // TODO: Do we need to set DwarfRegAlias on register tuples? // SGPR 32-bit registers def SGPR_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add (sequence "SGPR%u", 0, 105)), Reg32> { // Give all SGPR classes higher priority than VGPR classes, because // we want to spill SGPRs to VGPRs. let AllocationPriority = 9; } // SGPR 64-bit registers def SGPR_64Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 2)), (add (decimate (shl SGPR_32, 1), 2))]>; // SGPR 96-bit registers. No operations use these, but for symmetry with 96-bit VGPRs. def SGPR_96Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 3)), (add (decimate (shl SGPR_32, 1), 3)), (add (decimate (shl SGPR_32, 2), 3))]>; // SGPR 128-bit registers def SGPR_128Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 4)), (add (decimate (shl SGPR_32, 1), 4)), (add (decimate (shl SGPR_32, 2), 4)), (add (decimate (shl SGPR_32, 3), 4))]>; // SGPR 160-bit registers. No operations use these, but for symmetry with 160-bit VGPRs. def SGPR_160Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 4)), (add (decimate (shl SGPR_32, 1), 4)), (add (decimate (shl SGPR_32, 2), 4)), (add (decimate (shl SGPR_32, 3), 4)), (add (decimate (shl SGPR_32, 4), 4))]>; // SGPR 256-bit registers def SGPR_256Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 4)), (add (decimate (shl SGPR_32, 1), 4)), (add (decimate (shl SGPR_32, 2), 4)), (add (decimate (shl SGPR_32, 3), 4)), (add (decimate (shl SGPR_32, 4), 4)), (add (decimate (shl SGPR_32, 5), 4)), (add (decimate (shl SGPR_32, 6), 4)), (add (decimate (shl SGPR_32, 7), 4))]>; // SGPR 512-bit registers def SGPR_512Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 4)), (add (decimate (shl SGPR_32, 1), 4)), (add (decimate (shl SGPR_32, 2), 4)), (add (decimate (shl SGPR_32, 3), 4)), (add (decimate (shl SGPR_32, 4), 4)), (add (decimate (shl SGPR_32, 5), 4)), (add (decimate (shl SGPR_32, 6), 4)), (add (decimate (shl SGPR_32, 7), 4)), (add (decimate (shl SGPR_32, 8), 4)), (add (decimate (shl SGPR_32, 9), 4)), (add (decimate (shl SGPR_32, 10), 4)), (add (decimate (shl SGPR_32, 11), 4)), (add (decimate (shl SGPR_32, 12), 4)), (add (decimate (shl SGPR_32, 13), 4)), (add (decimate (shl SGPR_32, 14), 4)), (add (decimate (shl SGPR_32, 15), 4))]>; // SGPR 1024-bit registers def SGPR_1024Regs : RegisterTuples.ret, [(add (decimate SGPR_32, 4)), (add (decimate (shl SGPR_32, 1), 4)), (add (decimate (shl SGPR_32, 2), 4)), (add (decimate (shl SGPR_32, 3), 4)), (add (decimate (shl SGPR_32, 4), 4)), (add (decimate (shl SGPR_32, 5), 4)), (add (decimate (shl SGPR_32, 6), 4)), (add (decimate (shl SGPR_32, 7), 4)), (add (decimate (shl SGPR_32, 8), 4)), (add (decimate (shl SGPR_32, 9), 4)), (add (decimate (shl SGPR_32, 10), 4)), (add (decimate (shl SGPR_32, 11), 4)), (add (decimate (shl SGPR_32, 12), 4)), (add (decimate (shl SGPR_32, 13), 4)), (add (decimate (shl SGPR_32, 14), 4)), (add (decimate (shl SGPR_32, 15), 4)), (add (decimate (shl SGPR_32, 16), 4)), (add (decimate (shl SGPR_32, 17), 4)), (add (decimate (shl SGPR_32, 18), 4)), (add (decimate (shl SGPR_32, 19), 4)), (add (decimate (shl SGPR_32, 20), 4)), (add (decimate (shl SGPR_32, 21), 4)), (add (decimate (shl SGPR_32, 22), 4)), (add (decimate (shl SGPR_32, 23), 4)), (add (decimate (shl SGPR_32, 24), 4)), (add (decimate (shl SGPR_32, 25), 4)), (add (decimate (shl SGPR_32, 26), 4)), (add (decimate (shl SGPR_32, 27), 4)), (add (decimate (shl SGPR_32, 28), 4)), (add (decimate (shl SGPR_32, 29), 4)), (add (decimate (shl SGPR_32, 30), 4)), (add (decimate (shl SGPR_32, 31), 4))]>; // Trap handler TMP 32-bit registers def TTMP_32 : RegisterClass<"AMDGPU", [i32, f32, v2i16, v2f16], 32, (add (sequence "TTMP%u", 0, 15))> { let isAllocatable = 0; } // Trap handler TMP 64-bit registers def TTMP_64Regs : RegisterTuples.ret, [(add (decimate TTMP_32, 2)), (add (decimate (shl TTMP_32, 1), 2))]>; // Trap handler TMP 128-bit registers def TTMP_128Regs : RegisterTuples.ret, [(add (decimate TTMP_32, 4)), (add (decimate (shl TTMP_32, 1), 4)), (add (decimate (shl TTMP_32, 2), 4)), (add (decimate (shl TTMP_32, 3), 4))]>; def TTMP_256Regs : RegisterTuples.ret, [(add (decimate TTMP_32, 4)), (add (decimate (shl TTMP_32, 1), 4)), (add (decimate (shl TTMP_32, 2), 4)), (add (decimate (shl TTMP_32, 3), 4)), (add (decimate (shl TTMP_32, 4), 4)), (add (decimate (shl TTMP_32, 5), 4)), (add (decimate (shl TTMP_32, 6), 4)), (add (decimate (shl TTMP_32, 7), 4))]>; def TTMP_512Regs : RegisterTuples.ret, [(add (decimate TTMP_32, 4)), (add (decimate (shl TTMP_32, 1), 4)), (add (decimate (shl TTMP_32, 2), 4)), (add (decimate (shl TTMP_32, 3), 4)), (add (decimate (shl TTMP_32, 4), 4)), (add (decimate (shl TTMP_32, 5), 4)), (add (decimate (shl TTMP_32, 6), 4)), (add (decimate (shl TTMP_32, 7), 4)), (add (decimate (shl TTMP_32, 8), 4)), (add (decimate (shl TTMP_32, 9), 4)), (add (decimate (shl TTMP_32, 10), 4)), (add (decimate (shl TTMP_32, 11), 4)), (add (decimate (shl TTMP_32, 12), 4)), (add (decimate (shl TTMP_32, 13), 4)), (add (decimate (shl TTMP_32, 14), 4)), (add (decimate (shl TTMP_32, 15), 4))]>; class TmpRegTuplesBase subRegs, list indices = getSubRegs.ret, int index1 = !add(index, !add(size, -1)), string name = "ttmp["#index#":"#index1#"]"> : SIRegisterWithSubRegs { let HWEncoding = subRegs[0].HWEncoding; let SubRegIndices = indices; } class TmpRegTuples("TTMP"#index0#tgt), Register r1 = !cast("TTMP"#index1#tgt), Register r2 = !cast("TTMP"#index2#tgt), Register r3 = !cast("TTMP"#index3#tgt), Register r4 = !cast("TTMP"#index4#tgt), Register r5 = !cast("TTMP"#index5#tgt), Register r6 = !cast("TTMP"#index6#tgt), Register r7 = !cast("TTMP"#index7#tgt)> : TmpRegTuplesBase.ret>; foreach Index = {0, 2, 4, 6, 8, 10, 12, 14} in { def TTMP#Index#_TTMP#!add(Index,1)#_vi : TmpRegTuples<"_vi", 2, Index>; def TTMP#Index#_TTMP#!add(Index,1)#_gfx9_gfx10 : TmpRegTuples<"_gfx9_gfx10", 2, Index>; } foreach Index = {0, 4, 8, 12} in { def TTMP#Index#_TTMP#!add(Index,1)# _TTMP#!add(Index,2)# _TTMP#!add(Index,3)#_vi : TmpRegTuples<"_vi", 4, Index>; def TTMP#Index#_TTMP#!add(Index,1)# _TTMP#!add(Index,2)# _TTMP#!add(Index,3)#_gfx9_gfx10 : TmpRegTuples<"_gfx9_gfx10", 4, Index>; } foreach Index = {0, 4, 8} in { def TTMP#Index#_TTMP#!add(Index,1)# _TTMP#!add(Index,2)# _TTMP#!add(Index,3)# _TTMP#!add(Index,4)# _TTMP#!add(Index,5)# _TTMP#!add(Index,6)# _TTMP#!add(Index,7)#_vi : TmpRegTuples<"_vi", 8, Index>; def TTMP#Index#_TTMP#!add(Index,1)# _TTMP#!add(Index,2)# _TTMP#!add(Index,3)# _TTMP#!add(Index,4)# _TTMP#!add(Index,5)# _TTMP#!add(Index,6)# _TTMP#!add(Index,7)#_gfx9_gfx10 : TmpRegTuples<"_gfx9_gfx10", 8, Index>; } def TTMP0_TTMP1_TTMP2_TTMP3_TTMP4_TTMP5_TTMP6_TTMP7_TTMP8_TTMP9_TTMP10_TTMP11_TTMP12_TTMP13_TTMP14_TTMP15_vi : TmpRegTuplesBase<0, 16, [TTMP0_vi, TTMP1_vi, TTMP2_vi, TTMP3_vi, TTMP4_vi, TTMP5_vi, TTMP6_vi, TTMP7_vi, TTMP8_vi, TTMP9_vi, TTMP10_vi, TTMP11_vi, TTMP12_vi, TTMP13_vi, TTMP14_vi, TTMP15_vi]>; def TTMP0_TTMP1_TTMP2_TTMP3_TTMP4_TTMP5_TTMP6_TTMP7_TTMP8_TTMP9_TTMP10_TTMP11_TTMP12_TTMP13_TTMP14_TTMP15_gfx9_gfx10 : TmpRegTuplesBase<0, 16, [TTMP0_gfx9_gfx10, TTMP1_gfx9_gfx10, TTMP2_gfx9_gfx10, TTMP3_gfx9_gfx10, TTMP4_gfx9_gfx10, TTMP5_gfx9_gfx10, TTMP6_gfx9_gfx10, TTMP7_gfx9_gfx10, TTMP8_gfx9_gfx10, TTMP9_gfx9_gfx10, TTMP10_gfx9_gfx10, TTMP11_gfx9_gfx10, TTMP12_gfx9_gfx10, TTMP13_gfx9_gfx10, TTMP14_gfx9_gfx10, TTMP15_gfx9_gfx10]>; // VGPR 32-bit registers // i16/f16 only on VI+ def VGPR_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add (sequence "VGPR%u", 0, 255)), Reg32> { let AllocationPriority = 1; let Size = 32; } // VGPR 64-bit registers def VGPR_64 : RegisterTuples.ret, [(add (trunc VGPR_32, 255)), (add (shl VGPR_32, 1))]>; // VGPR 96-bit registers def VGPR_96 : RegisterTuples.ret, [(add (trunc VGPR_32, 254)), (add (shl VGPR_32, 1)), (add (shl VGPR_32, 2))]>; // VGPR 128-bit registers def VGPR_128 : RegisterTuples.ret, [(add (trunc VGPR_32, 253)), (add (shl VGPR_32, 1)), (add (shl VGPR_32, 2)), (add (shl VGPR_32, 3))]>; // VGPR 160-bit registers def VGPR_160 : RegisterTuples.ret, [(add (trunc VGPR_32, 252)), (add (shl VGPR_32, 1)), (add (shl VGPR_32, 2)), (add (shl VGPR_32, 3)), (add (shl VGPR_32, 4))]>; // VGPR 256-bit registers def VGPR_256 : RegisterTuples.ret, [(add (trunc VGPR_32, 249)), (add (shl VGPR_32, 1)), (add (shl VGPR_32, 2)), (add (shl VGPR_32, 3)), (add (shl VGPR_32, 4)), (add (shl VGPR_32, 5)), (add (shl VGPR_32, 6)), (add (shl VGPR_32, 7))]>; // VGPR 512-bit registers def VGPR_512 : RegisterTuples.ret, [(add (trunc VGPR_32, 241)), (add (shl VGPR_32, 1)), (add (shl VGPR_32, 2)), (add (shl VGPR_32, 3)), (add (shl VGPR_32, 4)), (add (shl VGPR_32, 5)), (add (shl VGPR_32, 6)), (add (shl VGPR_32, 7)), (add (shl VGPR_32, 8)), (add (shl VGPR_32, 9)), (add (shl VGPR_32, 10)), (add (shl VGPR_32, 11)), (add (shl VGPR_32, 12)), (add (shl VGPR_32, 13)), (add (shl VGPR_32, 14)), (add (shl VGPR_32, 15))]>; // VGPR 1024-bit registers def VGPR_1024 : RegisterTuples.ret, [(add (trunc VGPR_32, 225)), (add (shl VGPR_32, 1)), (add (shl VGPR_32, 2)), (add (shl VGPR_32, 3)), (add (shl VGPR_32, 4)), (add (shl VGPR_32, 5)), (add (shl VGPR_32, 6)), (add (shl VGPR_32, 7)), (add (shl VGPR_32, 8)), (add (shl VGPR_32, 9)), (add (shl VGPR_32, 10)), (add (shl VGPR_32, 11)), (add (shl VGPR_32, 12)), (add (shl VGPR_32, 13)), (add (shl VGPR_32, 14)), (add (shl VGPR_32, 15)), (add (shl VGPR_32, 16)), (add (shl VGPR_32, 17)), (add (shl VGPR_32, 18)), (add (shl VGPR_32, 19)), (add (shl VGPR_32, 20)), (add (shl VGPR_32, 21)), (add (shl VGPR_32, 22)), (add (shl VGPR_32, 23)), (add (shl VGPR_32, 24)), (add (shl VGPR_32, 25)), (add (shl VGPR_32, 26)), (add (shl VGPR_32, 27)), (add (shl VGPR_32, 28)), (add (shl VGPR_32, 29)), (add (shl VGPR_32, 30)), (add (shl VGPR_32, 31))]>; // AccVGPR 32-bit registers def AGPR_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add (sequence "AGPR%u", 0, 255)), Reg32> { let AllocationPriority = 1; let Size = 32; } // AGPR 64-bit registers def AGPR_64 : RegisterTuples.ret, [(add (trunc AGPR_32, 255)), (add (shl AGPR_32, 1))]>; // AGPR 128-bit registers def AGPR_128 : RegisterTuples.ret, [(add (trunc AGPR_32, 253)), (add (shl AGPR_32, 1)), (add (shl AGPR_32, 2)), (add (shl AGPR_32, 3))]>; // AGPR 512-bit registers def AGPR_512 : RegisterTuples.ret, [(add (trunc AGPR_32, 241)), (add (shl AGPR_32, 1)), (add (shl AGPR_32, 2)), (add (shl AGPR_32, 3)), (add (shl AGPR_32, 4)), (add (shl AGPR_32, 5)), (add (shl AGPR_32, 6)), (add (shl AGPR_32, 7)), (add (shl AGPR_32, 8)), (add (shl AGPR_32, 9)), (add (shl AGPR_32, 10)), (add (shl AGPR_32, 11)), (add (shl AGPR_32, 12)), (add (shl AGPR_32, 13)), (add (shl AGPR_32, 14)), (add (shl AGPR_32, 15))]>; // AGPR 1024-bit registers def AGPR_1024 : RegisterTuples.ret, [(add (trunc AGPR_32, 225)), (add (shl AGPR_32, 1)), (add (shl AGPR_32, 2)), (add (shl AGPR_32, 3)), (add (shl AGPR_32, 4)), (add (shl AGPR_32, 5)), (add (shl AGPR_32, 6)), (add (shl AGPR_32, 7)), (add (shl AGPR_32, 8)), (add (shl AGPR_32, 9)), (add (shl AGPR_32, 10)), (add (shl AGPR_32, 11)), (add (shl AGPR_32, 12)), (add (shl AGPR_32, 13)), (add (shl AGPR_32, 14)), (add (shl AGPR_32, 15)), (add (shl AGPR_32, 16)), (add (shl AGPR_32, 17)), (add (shl AGPR_32, 18)), (add (shl AGPR_32, 19)), (add (shl AGPR_32, 20)), (add (shl AGPR_32, 21)), (add (shl AGPR_32, 22)), (add (shl AGPR_32, 23)), (add (shl AGPR_32, 24)), (add (shl AGPR_32, 25)), (add (shl AGPR_32, 26)), (add (shl AGPR_32, 27)), (add (shl AGPR_32, 28)), (add (shl AGPR_32, 29)), (add (shl AGPR_32, 30)), (add (shl AGPR_32, 31))]>; //===----------------------------------------------------------------------===// // Register classes used as source and destination //===----------------------------------------------------------------------===// def Pseudo_SReg_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add FP_REG, SP_REG, SCRATCH_WAVE_OFFSET_REG), Reg32> { let isAllocatable = 0; let CopyCost = -1; } def Pseudo_SReg_128 : RegisterClass<"AMDGPU", [v4i32, v2i64, v2f64], 32, (add PRIVATE_RSRC_REG), Reg128> { let isAllocatable = 0; let CopyCost = -1; } def LDS_DIRECT_CLASS : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add LDS_DIRECT), Reg32> { let isAllocatable = 0; let CopyCost = -1; } // Subset of SReg_32 without M0 for SMRD instructions and alike. // See comments in SIInstructions.td for more info. def SReg_32_XM0_XEXEC : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16, i1], 32, (add SGPR_32, VCC_LO, VCC_HI, FLAT_SCR_LO, FLAT_SCR_HI, XNACK_MASK_LO, XNACK_MASK_HI, SGPR_NULL, TTMP_32, TMA_LO, TMA_HI, TBA_LO, TBA_HI, SRC_SHARED_BASE, SRC_SHARED_LIMIT, SRC_PRIVATE_BASE, SRC_PRIVATE_LIMIT, SRC_POPS_EXITING_WAVE_ID, SRC_VCCZ, SRC_EXECZ, SRC_SCC), Reg32> { let AllocationPriority = 10; } def SReg_32_XEXEC_HI : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16, i1], 32, (add SReg_32_XM0_XEXEC, EXEC_LO, M0_CLASS), Reg32> { let AllocationPriority = 10; } def SReg_32_XM0 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16, i1], 32, (add SReg_32_XM0_XEXEC, EXEC_LO, EXEC_HI), Reg32> { let AllocationPriority = 10; } // Register class for all scalar registers (SGPRs + Special Registers) def SReg_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16, i1], 32, (add SReg_32_XM0, M0_CLASS, EXEC_LO, EXEC_HI, SReg_32_XEXEC_HI), Reg32> { let AllocationPriority = 10; } def SRegOrLds_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16, i1], 32, (add SReg_32_XM0, M0_CLASS, EXEC_LO, EXEC_HI, SReg_32_XEXEC_HI, LDS_DIRECT_CLASS), Reg32> { let isAllocatable = 0; } def SGPR_64 : RegisterClass<"AMDGPU", [v2i32, i64, v2f32, f64, v4i16, v4f16], 32, (add SGPR_64Regs), Reg64> { let CopyCost = 1; let AllocationPriority = 11; } // CCR (call clobbered registers) SGPR 64-bit registers def CCR_SGPR_64 : RegisterClass<"AMDGPU", SGPR_64.RegTypes, 32, (add (trunc SGPR_64, 16)), Reg64> { let CopyCost = SGPR_64.CopyCost; let AllocationPriority = SGPR_64.AllocationPriority; } def TTMP_64 : RegisterClass<"AMDGPU", [v2i32, i64, f64, v4i16, v4f16], 32, (add TTMP_64Regs)> { let isAllocatable = 0; } def SReg_64_XEXEC : RegisterClass<"AMDGPU", [v2i32, i64, v2f32, f64, i1, v4i16, v4f16], 32, (add SGPR_64, VCC, FLAT_SCR, XNACK_MASK, TTMP_64, TBA, TMA), Reg64> { let CopyCost = 1; let AllocationPriority = 13; } def SReg_64 : RegisterClass<"AMDGPU", [v2i32, i64, v2f32, f64, i1, v4i16, v4f16], 32, (add SReg_64_XEXEC, EXEC), Reg64> { let CopyCost = 1; let AllocationPriority = 13; } def SReg_1_XEXEC : RegisterClass<"AMDGPU", [i1], 32, (add SReg_64_XEXEC, SReg_32_XM0_XEXEC)> { let CopyCost = 1; let isAllocatable = 0; } def SReg_1 : RegisterClass<"AMDGPU", [i1], 32, (add SReg_1_XEXEC, EXEC, EXEC_LO)> { let CopyCost = 1; let isAllocatable = 0; } // Requires 2 s_mov_b64 to copy let CopyCost = 2 in { // There are no 3-component scalar instructions, but this is needed // for symmetry with VGPRs. def SGPR_96 : RegisterClass<"AMDGPU", [v3i32, v3f32], 32, (add SGPR_96Regs), Reg96> { let AllocationPriority = 14; } def SReg_96 : RegisterClass<"AMDGPU", [v3i32, v3f32], 32, (add SGPR_96), Reg96> { let AllocationPriority = 14; } def SGPR_128 : RegisterClass<"AMDGPU", [v4i32, v4f32, v2i64], 32, (add SGPR_128Regs), Reg128> { let AllocationPriority = 15; } def TTMP_128 : RegisterClass<"AMDGPU", [v4i32, v4f32, v2i64], 32, (add TTMP_128Regs)> { let isAllocatable = 0; } def SReg_128 : RegisterClass<"AMDGPU", [v4i32, v4f32, v2i64, v2f64], 32, (add SGPR_128, TTMP_128), Reg128> { let AllocationPriority = 15; } } // End CopyCost = 2 // There are no 5-component scalar instructions, but this is needed // for symmetry with VGPRs. def SGPR_160 : RegisterClass<"AMDGPU", [v5i32, v5f32], 32, (add SGPR_160Regs), Reg160> { let AllocationPriority = 16; } def SReg_160 : RegisterClass<"AMDGPU", [v5i32, v5f32], 32, (add SGPR_160), Reg160> { let AllocationPriority = 16; } def SGPR_256 : RegisterClass<"AMDGPU", [v8i32, v8f32], 32, (add SGPR_256Regs), Reg256> { let AllocationPriority = 17; } def TTMP_256 : RegisterClass<"AMDGPU", [v8i32, v8f32], 32, (add TTMP_256Regs)> { let isAllocatable = 0; } def SReg_256 : RegisterClass<"AMDGPU", [v8i32, v8f32], 32, (add SGPR_256, TTMP_256), Reg256> { // Requires 4 s_mov_b64 to copy let CopyCost = 4; let AllocationPriority = 17; } def SGPR_512 : RegisterClass<"AMDGPU", [v16i32, v16f32], 32, (add SGPR_512Regs), Reg512> { let AllocationPriority = 18; } def TTMP_512 : RegisterClass<"AMDGPU", [v16i32, v16f32], 32, (add TTMP_512Regs)> { let isAllocatable = 0; } def SReg_512 : RegisterClass<"AMDGPU", [v16i32, v16f32], 32, (add SGPR_512, TTMP_512), Reg512> { // Requires 8 s_mov_b64 to copy let CopyCost = 8; let AllocationPriority = 18; } def VRegOrLds_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add VGPR_32, LDS_DIRECT_CLASS), Reg32> { let isAllocatable = 0; } def SGPR_1024 : RegisterClass<"AMDGPU", [v32i32, v32f32], 32, (add SGPR_1024Regs), Reg1024> { let AllocationPriority = 19; } def SReg_1024 : RegisterClass<"AMDGPU", [v32i32, v32f32], 32, (add SGPR_1024), Reg1024> { let CopyCost = 16; let AllocationPriority = 19; } // Register class for all vector registers (VGPRs + Interploation Registers) def VReg_64 : RegisterClass<"AMDGPU", [i64, f64, v2i32, v2f32, v4f16, v4i16], 32, (add VGPR_64), Reg64> { let Size = 64; // Requires 2 v_mov_b32 to copy let CopyCost = 2; let AllocationPriority = 2; } def VReg_96 : RegisterClass<"AMDGPU", [v3i32, v3f32], 32, (add VGPR_96), Reg96> { let Size = 96; // Requires 3 v_mov_b32 to copy let CopyCost = 3; let AllocationPriority = 3; } def VReg_128 : RegisterClass<"AMDGPU", [v4i32, v4f32, v2i64, v2f64], 32, (add VGPR_128), Reg128> { let Size = 128; // Requires 4 v_mov_b32 to copy let CopyCost = 4; let AllocationPriority = 4; } def VReg_160 : RegisterClass<"AMDGPU", [v5i32, v5f32], 32, (add VGPR_160), Reg160> { let Size = 160; // Requires 5 v_mov_b32 to copy let CopyCost = 5; let AllocationPriority = 5; } def VReg_256 : RegisterClass<"AMDGPU", [v8i32, v8f32], 32, (add VGPR_256), Reg256> { let Size = 256; let CopyCost = 8; let AllocationPriority = 6; } def VReg_512 : RegisterClass<"AMDGPU", [v16i32, v16f32], 32, (add VGPR_512), Reg512> { let Size = 512; let CopyCost = 16; let AllocationPriority = 7; } def VReg_1024 : RegisterClass<"AMDGPU", [v32i32, v32f32], 32, (add VGPR_1024), Reg1024> { let Size = 1024; let CopyCost = 32; let AllocationPriority = 8; } def AReg_64 : RegisterClass<"AMDGPU", [i64, f64, v2i32, v2f32, v4f16, v4i16], 32, (add AGPR_64), Reg64> { let Size = 64; let CopyCost = 5; let AllocationPriority = 2; } def AReg_128 : RegisterClass<"AMDGPU", [v4i32, v4f32, v2i64, v2f64], 32, (add AGPR_128), Reg128> { let Size = 128; // Requires 4 v_accvgpr_write and 4 v_accvgpr_read to copy + burn 1 vgpr let CopyCost = 9; let AllocationPriority = 4; } def AReg_512 : RegisterClass<"AMDGPU", [v16i32, v16f32], 32, (add AGPR_512), Reg512> { let Size = 512; let CopyCost = 33; let AllocationPriority = 7; } def AReg_1024 : RegisterClass<"AMDGPU", [v32i32, v32f32], 32, (add AGPR_1024), Reg1024> { let Size = 1024; let CopyCost = 65; let AllocationPriority = 8; } def VReg_1 : RegisterClass<"AMDGPU", [i1], 32, (add VGPR_32), Reg32> { let Size = 32; } def VS_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add VGPR_32, SReg_32, LDS_DIRECT_CLASS), Reg32> { let isAllocatable = 0; } def VS_64 : RegisterClass<"AMDGPU", [i64, f64], 32, (add VReg_64, SReg_64), Reg64> { let isAllocatable = 0; } def AV_32 : RegisterClass<"AMDGPU", [i32, f32, i16, f16, v2i16, v2f16], 32, (add AGPR_32, VGPR_32), Reg32> { let isAllocatable = 0; } def AV_64 : RegisterClass<"AMDGPU", [i64, f64, v4f16], 32, (add AReg_64, VReg_64), Reg64> { let isAllocatable = 0; } //===----------------------------------------------------------------------===// // Register operands //===----------------------------------------------------------------------===// class RegImmMatcher : AsmOperandClass { let Name = name; let RenderMethod = "addRegOrImmOperands"; } multiclass SIRegOperand32 { let OperandNamespace = "AMDGPU" in { def _b16 : RegisterOperand(rc#rc_suffix)> { let OperandType = opType#"_INT16"; let ParserMatchClass = RegImmMatcher; let DecoderMethod = "decodeOperand_VSrc16"; } def _f16 : RegisterOperand(rc#rc_suffix)> { let OperandType = opType#"_FP16"; let ParserMatchClass = RegImmMatcher; let DecoderMethod = "decodeOperand_" # rc # "_16"; } def _b32 : RegisterOperand(rc#rc_suffix)> { let OperandType = opType#"_INT32"; let ParserMatchClass = RegImmMatcher; let DecoderMethod = "decodeOperand_" # rc # rc_suffix; } def _f32 : RegisterOperand(rc#rc_suffix)> { let OperandType = opType#"_FP32"; let ParserMatchClass = RegImmMatcher; let DecoderMethod = "decodeOperand_" # rc # rc_suffix; } def _v2b16 : RegisterOperand(rc#rc_suffix)> { let OperandType = opType#"_V2INT16"; let ParserMatchClass = RegImmMatcher; let DecoderMethod = "decodeOperand_VSrcV216"; } def _v2f16 : RegisterOperand(rc#rc_suffix)> { let OperandType = opType#"_V2FP16"; let ParserMatchClass = RegImmMatcher; let DecoderMethod = "decodeOperand_VSrcV216"; } } } multiclass SIRegOperand : SIRegOperand32 { let OperandNamespace = "AMDGPU" in { def _b64 : RegisterOperand(rc#"_64")> { let OperandType = opType#"_INT64"; let ParserMatchClass = RegImmMatcher; } def _f64 : RegisterOperand(rc#"_64")> { let OperandType = opType#"_FP64"; let ParserMatchClass = RegImmMatcher; } } } // FIXME: 64-bit sources can sometimes use 32-bit constants. multiclass RegImmOperand : SIRegOperand; multiclass RegInlineOperand : SIRegOperand; multiclass RegInlineOperand32 : SIRegOperand32; multiclass RegInlineOperandAC : SIRegOperand32; //===----------------------------------------------------------------------===// // SSrc_* Operands with an SGPR or a 32-bit immediate //===----------------------------------------------------------------------===// defm SSrc : RegImmOperand<"SReg", "SSrc">; def SSrcOrLds_b32 : RegisterOperand { let OperandNamespace = "AMDGPU"; let OperandType = "OPERAND_REG_IMM_INT32"; let ParserMatchClass = RegImmMatcher<"SSrcOrLdsB32">; } //===----------------------------------------------------------------------===// // SCSrc_* Operands with an SGPR or a inline constant //===----------------------------------------------------------------------===// defm SCSrc : RegInlineOperand<"SReg", "SCSrc"> ; //===----------------------------------------------------------------------===// // VSrc_* Operands with an SGPR, VGPR or a 32-bit immediate //===----------------------------------------------------------------------===// defm VSrc : RegImmOperand<"VS", "VSrc">; def VSrc_128 : RegisterOperand { let DecoderMethod = "DecodeVS_128RegisterClass"; } //===----------------------------------------------------------------------===// // VSrc_* Operands with an VGPR //===----------------------------------------------------------------------===// // This is for operands with the enum(9), VSrc encoding restriction, // but only allows VGPRs. def VRegSrc_32 : RegisterOperand { //let ParserMatchClass = RegImmMatcher<"VRegSrc32">; let DecoderMethod = "DecodeVS_32RegisterClass"; } //===----------------------------------------------------------------------===// // ASrc_* Operands with an AccVGPR //===----------------------------------------------------------------------===// def ARegSrc_32 : RegisterOperand { let DecoderMethod = "DecodeAGPR_32RegisterClass"; let EncoderMethod = "getAVOperandEncoding"; } //===----------------------------------------------------------------------===// // VCSrc_* Operands with an SGPR, VGPR or an inline constant //===----------------------------------------------------------------------===// defm VCSrc : RegInlineOperand<"VS", "VCSrc">; //===----------------------------------------------------------------------===// // VISrc_* Operands with a VGPR or an inline constant //===----------------------------------------------------------------------===// defm VISrc : RegInlineOperand32<"VGPR", "VISrc">; //===----------------------------------------------------------------------===// // AVSrc_* Operands with an AGPR or VGPR //===----------------------------------------------------------------------===// def AVSrc_32 : RegisterOperand { let DecoderMethod = "DecodeAV_32RegisterClass"; let EncoderMethod = "getAVOperandEncoding"; } def AVSrc_64 : RegisterOperand { let DecoderMethod = "DecodeAV_64RegisterClass"; let EncoderMethod = "getAVOperandEncoding"; } //===----------------------------------------------------------------------===// // ACSrc_* Operands with an AGPR or an inline constant //===----------------------------------------------------------------------===// defm AISrc : RegInlineOperandAC<"AGPR", "AISrc">; defm AISrc_128 : RegInlineOperandAC<"AReg", "AISrc_128", "_128">; defm AISrc_512 : RegInlineOperandAC<"AReg", "AISrc_512", "_512">; defm AISrc_1024 : RegInlineOperandAC<"AReg", "AISrc_1024", "_1024">;