// RUN: llvm-tblgen -gen-register-info -I %p/../../include %s 2>&1 | FileCheck %s // // CHECK-NOT: warning: SubRegIndex Test::subreg_h64 and Test::subreg_h32 compose ambiguously as Test::subreg_hh32 or Test::subreg_h32 // CHECK: warning: SubRegIndex Test::subreg_l64 and Test::subreg_l32 compose ambiguously as Test::subreg_ll32 or Test::subreg_l32 include "llvm/Target/Target.td" def TestInstrInfo : InstrInfo { } def Test : Target { let InstructionSet = TestInstrInfo; } let Namespace = "Test" in { def subreg_l32 : SubRegIndex<32, 0>; def subreg_h32 : SubRegIndex<32, 32>; def subreg_h64 : SubRegIndex<64, 64>; def subreg_l64 : SubRegIndex<64, 0>; def subreg_hh32 : ComposedSubRegIndex<subreg_h64, subreg_h32>; def subreg_ll32 : ComposedSubRegIndex<subreg_l64, subreg_l32>; } class TestReg<string n, list<Register> s> : RegisterWithSubRegs<n, s> { let Namespace = "Test"; } // -------------------------------------------------------------------- // A situation that previously caused the warning about ambiguous // composition. // // The actual subregister actions are: // subreg_h64: { F0Q->F0D V0Q->F0D } // subreg_h32: { F0D->F0S F0Q->F2S V0Q->F0S } // composition: { F0Q->F0S V0Q->F0S } (this is the same as subreg_hh32) // // For the register V0Q, subreg_hh32(V0Q) = subreg_h32(V0Q) = F0S, which // would be enough to trigger the warning about ambiguous composition. // However, for F0Q, subreg_hh32(F0Q) = F0S, while subreg_h32(F0Q) = F2S, // which shows that there two subregister indices are different. // Make sure that the warning is not emitted in this case. class FPR32<string n> : TestReg<n, []> { } class FPR64<string n, FPR32 high> : TestReg<n, [high]> { let SubRegIndices = [subreg_h32]; } class FPR128<string n, FPR64 high, FPR32 low> : TestReg<n, [high, low]> { let SubRegIndices = [subreg_h64, subreg_h32]; } class VPR128<string n, FPR64 high> : TestReg<n, [high]> { let SubRegIndices = [subreg_h64]; } def F0S : FPR32<"f0s">; def F1S : FPR32<"f1s">; def F2S : FPR32<"f2s">; def F0D : FPR64<"f0d", F0S>; def F0Q : FPR128<"f0q", F0D, F2S>; def V0Q : VPR128<"v0q", F0D>; def FP32 : RegisterClass<"FP32", [f32], 32, (add F0S)>; def FP64 : RegisterClass<"FP64", [f64], 64, (add F0D)>; def FP128 : RegisterClass<"FP128", [v2f64], 128, (add F0Q)>; def VP128 : RegisterClass<"VP128", [v2f64], 128, (add V0Q)>; // -------------------------------------------------------------------- // A situation where the warning is legitimate. // Make sure that the warning is still displayed. class GPR32<string n> : TestReg<n, []> { } class GPR64<string n, GPR32 low> : TestReg<n, [low]> { let SubRegIndices = [subreg_l32]; } class GPR128<string n, GPR64 low> : TestReg<n, [low]> { let SubRegIndices = [subreg_l64]; } def G0S : GPR32<"g0s">; def G0D : GPR64<"g0d", G0S>; def G0Q : GPR128<"g0q", G0D>; def GP32 : RegisterClass<"GP32", [i32], 32, (add G0S)>; def GP64 : RegisterClass<"GP64", [i64], 64, (add G0D)>; def GP128 : RegisterClass<"GP128", [v2i64], 128, (add G0Q)>;