//===- KnownBitsTest.cpp -------------------------------------------===// // // 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 // //===----------------------------------------------------------------------===// #include "GISelMITest.h" #include "llvm/CodeGen/GlobalISel/GISelKnownBits.h" #include "llvm/CodeGen/GlobalISel/MachineIRBuilder.h" TEST_F(AArch64GISelMITest, TestKnownBitsBuildVector) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(s8) = G_LOAD %ptr(p0) :: (load (s8)) %mask0:_(s8) = G_CONSTANT i8 24 %mask1:_(s8) = G_CONSTANT i8 224 %tmp0:_(s8) = G_AND %unknown, %mask0 %val0:_(s8) = G_OR %tmp0, %mask1 %mask2:_(s8) = G_CONSTANT i8 146 %mask3:_(s8) = G_CONSTANT i8 36 %tmp1:_(s8) = G_AND %unknown, %mask2 %val1:_(s8) = G_OR %tmp1, %mask3 %vector:_(<2 x s8>) = G_BUILD_VECTOR %val0, %val1 %copy_vector:_(<2 x s8>) = COPY %vector )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); // BuildVector KnownBits takes common bits of all elements. // 111??000 // common ?01?01?0 // = ??1????0 EXPECT_EQ(0x20u, Res.One.getZExtValue()); EXPECT_EQ(0x01u, Res.Zero.getZExtValue()); } // Vector KnownBits track bits that are common for all vector scalar elements. // For tests below KnownBits analysis is same as for scalar/pointer types, tests // are mostly copied from KnownBitsTest.cpp using splat vectors and have the // same result. TEST_F(AArch64GISelMITest, TestKnownBitsVectorCstPHI) { StringRef MIRString = R"( bb.10: %10:_(s8) = G_CONSTANT i8 3 %11:_(<2 x s8>) = G_BUILD_VECTOR %10:_(s8), %10:_(s8) %12:_(s1) = G_IMPLICIT_DEF G_BRCOND %12(s1), %bb.11 G_BR %bb.12 bb.11: %13:_(s8) = G_CONSTANT i8 2 %14:_(<2 x s8>) = G_BUILD_VECTOR %13:_(s8), %13:_(s8) G_BR %bb.12 bb.12: %15:_(<2 x s8>) = PHI %11(<2 x s8>), %bb.10, %14(<2 x s8>), %bb.11 %16:_(<2 x s8>) = COPY %15 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); Register DstReg = FinalCopy->getOperand(0).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)2, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0xfc, Res.Zero.getZExtValue()); KnownBits Res2 = Info.getKnownBits(DstReg); EXPECT_EQ(Res.One.getZExtValue(), Res2.One.getZExtValue()); EXPECT_EQ(Res.Zero.getZExtValue(), Res2.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorCstPHIToNonGenericReg) { StringRef MIRString = R"( bb.10: %10:gpr32 = MOVi32imm 771 %11:_(s1) = G_IMPLICIT_DEF G_BRCOND %11(s1), %bb.11 G_BR %bb.12 bb.11: %12:_(s16) = G_CONSTANT i16 2 %13:_(<2 x s16>) = G_BUILD_VECTOR %12:_(s16), %12:_(s16) G_BR %bb.12 bb.12: %15:_(<2 x s16>) = PHI %10, %bb.10, %13(<2 x s16>), %bb.11 %16:_(<2 x s16>) = COPY %15 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); Register DstReg = FinalCopy->getOperand(0).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0, Res.Zero.getZExtValue()); KnownBits Res2 = Info.getKnownBits(DstReg); EXPECT_EQ(Res.One.getZExtValue(), Res2.One.getZExtValue()); EXPECT_EQ(Res.Zero.getZExtValue(), Res2.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorUnknownPHI) { StringRef MIRString = R"( bb.10: %10:_(<2 x s32>) = G_BITCAST %0 %11:_(s1) = G_IMPLICIT_DEF G_BRCOND %11(s1), %bb.11 G_BR %bb.12 bb.11: %12:_(s32) = G_CONSTANT i32 2 %13:_(<2 x s32>) = G_BUILD_VECTOR %12:_(s32), %12:_(s32) G_BR %bb.12 bb.12: %14:_(<2 x s32>) = PHI %10(<2 x s32>), %bb.10, %13(<2 x s32>), %bb.11 %15:_(<2 x s32>) = COPY %14 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); Register DstReg = FinalCopy->getOperand(0).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0, Res.Zero.getZExtValue()); KnownBits Res2 = Info.getKnownBits(DstReg); EXPECT_EQ(Res.One.getZExtValue(), Res2.One.getZExtValue()); EXPECT_EQ(Res.Zero.getZExtValue(), Res2.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorCstPHIWithLoop) { StringRef MIRString = R"( bb.10: %10:_(s8) = G_CONSTANT i8 3 %11:_(<2 x s8>) = G_BUILD_VECTOR %10:_(s8), %10:_(s8) %12:_(s1) = G_IMPLICIT_DEF G_BRCOND %12(s1), %bb.11 G_BR %bb.12 bb.11: %13:_(s8) = G_CONSTANT i8 2 %14:_(<2 x s8>) = G_BUILD_VECTOR %13:_(s8), %13:_(s8) G_BR %bb.12 bb.12: %15:_(<2 x s8>) = PHI %11(<2 x s8>), %bb.10, %14(<2 x s8>), %bb.11, %16(<2 x s8>), %bb.12 %16:_(<2 x s8>) = COPY %15 G_BR %bb.12 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); Register DstReg = FinalCopy->getOperand(0).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0, Res.Zero.getZExtValue()); KnownBits Res2 = Info.getKnownBits(DstReg); EXPECT_EQ(Res.One.getZExtValue(), Res2.One.getZExtValue()); EXPECT_EQ(Res.Zero.getZExtValue(), Res2.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorDecreasingCstPHIWithLoop) { StringRef MIRString = R"( bb.10: %10:_(s8) = G_CONSTANT i8 5 %11:_(<2 x s8>) = G_BUILD_VECTOR %10:_(s8), %10:_(s8) %12:_(s8) = G_CONSTANT i8 1 %16:_(<2 x s8>) = G_BUILD_VECTOR %12:_(s8), %12:_(s8) bb.12: %13:_(<2 x s8>) = PHI %11(<2 x s8>), %bb.10, %14(<2 x s8>), %bb.12 %14:_(<2 x s8>) = G_LSHR %13, %16 %15:_(<2 x s8>) = COPY %14 G_BR %bb.12 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); Register DstReg = FinalCopy->getOperand(0).getReg(); GISelKnownBits Info(*MF, /*MaxDepth=*/24); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0xC0, Res.Zero.getZExtValue()); KnownBits Res2 = Info.getKnownBits(DstReg); EXPECT_EQ(Res.One.getZExtValue(), Res2.One.getZExtValue()); EXPECT_EQ(Res.Zero.getZExtValue(), Res2.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorAND) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 52 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 10 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 32 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 24 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %and:_(<2 x s8>) = G_AND %val0, %val1 %copy_and:_(<2 x s8>) = COPY %and )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x08u, Res.One.getZExtValue()); EXPECT_EQ(0xC7u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorOR) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 52 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 10 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 32 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 24 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %or:_(<2 x s8>) = G_OR %val0, %val1 %copy_or:_(<2 x s8>) = COPY %or )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x1Au, Res.One.getZExtValue()); EXPECT_EQ(0xC1u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorXOR) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 52 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 10 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 32 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 24 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %xor:_(<2 x s8>) = G_XOR %val0, %val1 %copy_xor:_(<2 x s8>) = COPY %xor )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x02u, Res.One.getZExtValue()); EXPECT_EQ(0xC9u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorXORConstant) { StringRef MIRString = R"( %3:_(s8) = G_CONSTANT i8 4 %4:_(<2 x s8>) = G_BUILD_VECTOR %3:_(s8), %3:_(s8) %5:_(s8) = G_CONSTANT i8 7 %6:_(<2 x s8>) = G_BUILD_VECTOR %5:_(s8), %5:_(s8) %7:_(<2 x s8>) = G_XOR %4, %6 %8:_(<2 x s8>) = COPY %7 %9:_(s8) = G_CONSTANT i8 12 %10:_(<2 x s8>) = G_BUILD_VECTOR %3:_(s8), %9:_(s8) %11:_(<2 x s8>) = G_XOR %10, %6 %12:_(<2 x s8>) = COPY %11 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); GISelKnownBits Info(*MF); Register CopySplatReg = Copies[Copies.size() - 2]; MachineInstr *FinalSplatCopy = MRI->getVRegDef(CopySplatReg); Register SrcSplatReg = FinalSplatCopy->getOperand(1).getReg(); KnownBits ResNonSplat = Info.getKnownBits(SrcSplatReg); EXPECT_EQ(3u, ResNonSplat.One.getZExtValue()); EXPECT_EQ(252u, ResNonSplat.Zero.getZExtValue()); Register CopyNonSplatReg = Copies[Copies.size() - 1]; MachineInstr *FinalNonSplatCopy = MRI->getVRegDef(CopyNonSplatReg); Register SrcNonSplatReg = FinalNonSplatCopy->getOperand(1).getReg(); KnownBits ResSplat = Info.getKnownBits(SrcNonSplatReg); EXPECT_EQ(3u, ResSplat.One.getZExtValue()); EXPECT_EQ(244u, ResSplat.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorASHR) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 38 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 202 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %cst0:_(s8) = G_CONSTANT i8 2 %cst0_splat:_(<2 x s8>) = G_BUILD_VECTOR %cst0, %cst0 %ashr0:_(<2 x s8>) = G_ASHR %val0, %cst0_splat %copy_ashr0:_(<2 x s8>) = COPY %ashr0 %mask2:_(s8) = G_CONSTANT i8 204 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 18 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %ashr1:_(<2 x s8>) = G_ASHR %val1, %cst0_splat %copy_ashr1:_(<2 x s8>) = COPY %ashr1 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg0 = Copies[Copies.size() - 2]; MachineInstr *FinalCopy0 = MRI->getVRegDef(CopyReg0); Register SrcReg0 = FinalCopy0->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res0 = Info.getKnownBits(SrcReg0); EXPECT_EQ(0xF2u, Res0.One.getZExtValue()); EXPECT_EQ(0x04u, Res0.Zero.getZExtValue()); Register CopyReg1 = Copies[Copies.size() - 1]; MachineInstr *FinalCopy1 = MRI->getVRegDef(CopyReg1); Register SrcReg1 = FinalCopy1->getOperand(1).getReg(); KnownBits Res1 = Info.getKnownBits(SrcReg1); EXPECT_EQ(0x04u, Res1.One.getZExtValue()); EXPECT_EQ(0x08u, Res1.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorLSHR) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 38 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 202 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %cst0:_(s8) = G_CONSTANT i8 2 %cst0_splat:_(<2 x s8>) = G_BUILD_VECTOR %cst0, %cst0 %lshr0:_(<2 x s8>) = G_LSHR %val0, %cst0_splat %copy_lshr0:_(<2 x s8>) = COPY %lshr0 %mask2:_(s8) = G_CONSTANT i8 204 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 18 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %lshr1:_(<2 x s8>) = G_LSHR %val1, %cst0_splat %copy_lshr1:_(<2 x s8>) = COPY %lshr1 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg0 = Copies[Copies.size() - 2]; MachineInstr *FinalCopy0 = MRI->getVRegDef(CopyReg0); Register SrcReg0 = FinalCopy0->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res0 = Info.getKnownBits(SrcReg0); EXPECT_EQ(0x32u, Res0.One.getZExtValue()); EXPECT_EQ(0xC4u, Res0.Zero.getZExtValue()); Register CopyReg1 = Copies[Copies.size() - 1]; MachineInstr *FinalCopy1 = MRI->getVRegDef(CopyReg1); Register SrcReg1 = FinalCopy1->getOperand(1).getReg(); KnownBits Res1 = Info.getKnownBits(SrcReg1); EXPECT_EQ(0x04u, Res1.One.getZExtValue()); EXPECT_EQ(0xC8u, Res1.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorSHL) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 51 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 72 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val:_(<2 x s8>) = G_OR %tmp, %mask1_splat %cst:_(s8) = G_CONSTANT i8 3 %cst_splat:_(<2 x s8>) = G_BUILD_VECTOR %cst, %cst %shl:_(<2 x s8>) = G_SHL %val, %cst_splat %copy_shl:_(<2 x s8>) = COPY %shl )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x40u, Res.One.getZExtValue()); EXPECT_EQ(0x27u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorADD) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s16>) = G_LOAD %ptr(p0) :: (load (<2 x s16>)) %mask0:_(s16) = G_CONSTANT i16 4642 %mask0_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s16) = G_CONSTANT i16 9536 %mask1_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s16>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s16>) = G_OR %tmp0, %mask1_splat %mask2:_(s16) = G_CONSTANT i16 4096 %mask2_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s16) = G_CONSTANT i16 371 %mask3_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s16>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s16>) = G_OR %tmp1, %mask3_splat %add:_(<2 x s16>) = G_ADD %val0, %val1 %copy_add:_(<2 x s16>) = COPY %add )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x0091u, Res.One.getZExtValue()); EXPECT_EQ(0x8108u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorSUB) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s16>) = G_LOAD %ptr(p0) :: (load (<2 x s16>)) %mask0:_(s16) = G_CONSTANT i16 4642 %mask0_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s16) = G_CONSTANT i16 9536 %mask1_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s16>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s16>) = G_OR %tmp0, %mask1_splat %mask2:_(s16) = G_CONSTANT i16 4096 %mask2_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s16) = G_CONSTANT i16 371 %mask3_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s16>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s16>) = G_OR %tmp1, %mask3_splat %sub:_(<2 x s16>) = G_SUB %val0, %val1 %copy_sub:_(<2 x s16>) = COPY %sub )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x01CDu, Res.One.getZExtValue()); EXPECT_EQ(0xC810u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorMUL) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s16>) = G_LOAD %ptr(p0) :: (load (<2 x s16>)) %mask0:_(s16) = G_CONSTANT i16 4 %mask0_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s16) = G_CONSTANT i16 18 %mask1_splat:_(<2 x s16>) = G_BUILD_VECTOR %mask1, %mask1 %tmp:_(<2 x s16>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s16>) = G_OR %tmp, %mask1_splat %cst:_(s16) = G_CONSTANT i16 12 %cst_splat:_(<2 x s16>) = G_BUILD_VECTOR %cst, %cst %mul:_(<2 x s16>) = G_MUL %val0, %cst_splat %copy_mul:_(<2 x s16>) = COPY %mul )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x0008u, Res.One.getZExtValue()); EXPECT_EQ(0xFE07u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorSelect) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 24 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 224 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 146 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 36 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %cond:_(s1) = G_CONSTANT i1 false %cond_splat:_(<2 x s1>) = G_BUILD_VECTOR %cond, %cond %select:_(<2 x s8>) = G_SELECT %cond_splat, %val0, %val1 %copy_select:_(<2 x s8>) = COPY %select )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(SrcReg); EXPECT_EQ(0x20u, Res.One.getZExtValue()); EXPECT_EQ(0x01u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestVectorSignBitIsZero) { setUp(); if (!TM) GTEST_SKIP(); const LLT V2S32 = LLT::fixed_vector(2, 32); // Vector buildConstant makes splat G_BUILD_VECTOR instruction. auto SignBit = B.buildConstant(V2S32, 0x80000000); auto Zero = B.buildConstant(V2S32, 0); const LLT S32 = LLT::scalar(32); auto NonSplat = B.buildBuildVector(V2S32, {B.buildConstant(S32, 1).getReg(0), B.buildConstant(S32, 2).getReg(0)}); auto NonSplat2 = B.buildBuildVector(V2S32, {B.buildConstant(S32, 0x80000000).getReg(0), B.buildConstant(S32, 0x80000004).getReg(0)}); // signBitIsZero is true for elt 0 and false for elt 1 GISelKnownBits takes // common bits so this is false. auto NonSplat3 = B.buildBuildVector(V2S32, {B.buildConstant(S32, 0x80000000).getReg(0), B.buildConstant(S32, 0x8).getReg(0)}); GISelKnownBits KnownBits(*MF); EXPECT_TRUE(KnownBits.signBitIsZero(Zero.getReg(0))); EXPECT_FALSE(KnownBits.signBitIsZero(SignBit.getReg(0))); EXPECT_TRUE(KnownBits.signBitIsZero(NonSplat.getReg(0))); EXPECT_FALSE(KnownBits.signBitIsZero(NonSplat2.getReg(0))); EXPECT_FALSE(KnownBits.signBitIsZero(NonSplat3.getReg(0))); } TEST_F(AArch64GISelMITest, TestVectorNumSignBitsConstant) { StringRef MIRString = R"( %3:_(s8) = G_CONSTANT i8 1 %4:_(<2 x s8>) = G_BUILD_VECTOR %3:_(s8), %3:_(s8) %5:_(<2 x s8>) = COPY %4 %6:_(s8) = G_CONSTANT i8 -1 %7:_(<2 x s8>) = G_BUILD_VECTOR %6:_(s8), %6:_(s8) %8:_(<2 x s8>) = COPY %7 %9:_(s8) = G_CONSTANT i8 127 %10:_(<2 x s8>) = G_BUILD_VECTOR %9:_(s8), %9:_(s8) %11:_(<2 x s8>) = COPY %10 %12:_(s8) = G_CONSTANT i8 32 %13:_(<2 x s8>) = G_BUILD_VECTOR %12:_(s8), %12:_(s8) %14:_(<2 x s8>) = COPY %13 %15:_(s8) = G_CONSTANT i8 -32 %16:_(<2 x s8>) = G_BUILD_VECTOR %15:_(s8), %15:_(s8) %17:_(<2 x s8>) = COPY %16 %18:_(<2 x s8>) = G_BUILD_VECTOR %6:_(s8), %15:_(s8) %19:_(<2 x s8>) = COPY %18 %20:_(<2 x s8>) = G_BUILD_VECTOR %12:_(s8), %15:_(s8) %21:_(<2 x s8>) = COPY %20 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg1 = Copies[Copies.size() - 7]; Register CopyRegNeg1 = Copies[Copies.size() - 6]; Register CopyReg127 = Copies[Copies.size() - 5]; Register CopyReg32 = Copies[Copies.size() - 4]; Register CopyRegNeg32 = Copies[Copies.size() - 3]; Register NonSplatSameSign = Copies[Copies.size() - 2]; Register NonSplatDifferentSign = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); // If it is known that all elts have same sign looks at common bits and // effectively returns smallest NumSignBits of all the elts. Otherwise returns // default value 1. EXPECT_EQ(7u, Info.computeNumSignBits(CopyReg1)); EXPECT_EQ(8u, Info.computeNumSignBits(CopyRegNeg1)); EXPECT_EQ(1u, Info.computeNumSignBits(CopyReg127)); EXPECT_EQ(2u, Info.computeNumSignBits(CopyReg32)); EXPECT_EQ(3u, Info.computeNumSignBits(CopyRegNeg32)); EXPECT_EQ(3u, Info.computeNumSignBits(NonSplatSameSign)); EXPECT_EQ(1u, Info.computeNumSignBits(NonSplatDifferentSign)); } TEST_F(AArch64GISelMITest, TestVectorNumSignBitsSext) { StringRef MIRString = R"( %3:_(p0) = G_IMPLICIT_DEF %4:_(<2 x s8>) = G_LOAD %3 :: (load (<2 x s8>)) %5:_(<2 x s32>) = G_SEXT %4 %6:_(<2 x s32>) = COPY %5 %7:_(s8) = G_CONSTANT i8 -1 %8:_(<2 x s8>) = G_BUILD_VECTOR %7:_(s8), %7:_(s8) %9:_(<2 x s32>) = G_SEXT %8 %10:_(<2 x s32>) = COPY %9 %11:_(s8) = G_CONSTANT i8 -10 %12:_(<2 x s8>) = G_BUILD_VECTOR %7:_(s8), %11:_(s8) %13:_(<2 x s32>) = G_SEXT %12 %14:_(<2 x s32>) = COPY %13 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopySextLoad = Copies[Copies.size() - 3]; Register CopySextNeg1 = Copies[Copies.size() - 2]; Register CopySextNonSplat = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); EXPECT_EQ(25u, Info.computeNumSignBits(CopySextLoad)); EXPECT_EQ(32u, Info.computeNumSignBits(CopySextNeg1)); EXPECT_EQ(28u, Info.computeNumSignBits(CopySextNonSplat)); } TEST_F(AArch64GISelMITest, TestVectorNumSignBitsSextInReg) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %load2x4:_(<2 x s32>) = G_LOAD %ptr :: (load (<2 x s32>)) %inreg7:_(<2 x s32>) = G_SEXT_INREG %load2x4, 7 %copy_inreg7:_(<2 x s32>) = COPY %inreg7 %inreg8:_(<2 x s32>) = G_SEXT_INREG %load2x4, 8 %copy_inreg8:_(<2 x s32>) = COPY %inreg8 %inreg9:_(<2 x s32>) = G_SEXT_INREG %load2x4, 9 %copy_inreg9:_(<2 x s32>) = COPY %inreg9 %inreg31:_(<2 x s32>) = G_SEXT_INREG %load2x4, 31 %copy_inreg31:_(<2 x s32>) = COPY %inreg31 %load2x1:_(<2 x s8>) = G_LOAD %ptr :: (load (<2 x s8>)) %sext_load2x1:_(<2 x s32>) = G_SEXT %load2x1 %inreg6_sext:_(<2 x s32>) = G_SEXT_INREG %sext_load2x1, 6 %copy_inreg6_sext:_(<2 x s32>) = COPY %inreg6_sext %inreg7_sext:_(<2 x s32>) = G_SEXT_INREG %sext_load2x1, 7 %copy_inreg7_sext:_(<2 x s32>) = COPY %inreg7_sext %inreg8_sext:_(<2 x s32>) = G_SEXT_INREG %sext_load2x1, 8 %copy_inreg8_sext:_(<2 x s32>) = COPY %inreg8_sext %inreg9_sext:_(<2 x s32>) = G_SEXT_INREG %sext_load2x1, 9 %copy_inreg9_sext:_(<2 x s32>) = COPY %inreg9_sext %inreg31_sext:_(<2 x s32>) = G_SEXT_INREG %sext_load2x1, 31 %copy_inreg31_sext:_(<2 x s32>) = COPY %inreg31_sext )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyInReg7 = Copies[Copies.size() - 9]; Register CopyInReg8 = Copies[Copies.size() - 8]; Register CopyInReg9 = Copies[Copies.size() - 7]; Register CopyInReg31 = Copies[Copies.size() - 6]; Register CopyInReg6Sext = Copies[Copies.size() - 5]; Register CopyInReg7Sext = Copies[Copies.size() - 4]; Register CopyInReg8Sext = Copies[Copies.size() - 3]; Register CopyInReg9Sext = Copies[Copies.size() - 2]; Register CopyInReg31Sext = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); EXPECT_EQ(26u, Info.computeNumSignBits(CopyInReg7)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg8)); EXPECT_EQ(24u, Info.computeNumSignBits(CopyInReg9)); EXPECT_EQ(2u, Info.computeNumSignBits(CopyInReg31)); EXPECT_EQ(27u, Info.computeNumSignBits(CopyInReg6Sext)); EXPECT_EQ(26u, Info.computeNumSignBits(CopyInReg7Sext)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg8Sext)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg9Sext)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg31Sext)); } TEST_F(AArch64GISelMITest, TestNumSignBitsVectorAssertSext) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %load2x4:_(<2 x s32>) = G_LOAD %ptr :: (load (<2 x s32>)) %assert_sext1:_(<2 x s32>) = G_ASSERT_SEXT %load2x4, 1 %copy_assert_sext1:_(<2 x s32>) = COPY %assert_sext1 %assert_sext7:_(<2 x s32>) = G_ASSERT_SEXT %load2x4, 7 %copy_assert_sext7:_(<2 x s32>) = COPY %assert_sext7 %assert_sext8:_(<2 x s32>) = G_ASSERT_SEXT %load2x4, 8 %copy_assert_sext8:_(<2 x s32>) = COPY %assert_sext8 %assert_sext9:_(<2 x s32>) = G_ASSERT_SEXT %load2x4, 9 %copy_assert_sext9:_(<2 x s32>) = COPY %assert_sext9 %assert_sext31:_(<2 x s32>) = G_ASSERT_SEXT %load2x4, 31 %copy_assert_sext31:_(<2 x s32>) = COPY %assert_sext31 %load2x1:_(<2 x s8>) = G_LOAD %ptr :: (load (<2 x s8>)) %sext_load2x1:_(<2 x s32>) = G_SEXT %load2x1 %assert_sext6_sext:_(<2 x s32>) = G_ASSERT_SEXT %sext_load2x1, 6 %copy_assert_sext6_sext:_(<2 x s32>) = COPY %assert_sext6_sext %assert_sext7_sext:_(<2 x s32>) = G_ASSERT_SEXT %sext_load2x1, 7 %copy_assert_sext7_sext:_(<2 x s32>) = COPY %assert_sext7_sext %assert_sext8_sext:_(<2 x s32>) = G_ASSERT_SEXT %sext_load2x1, 8 %copy_assert_sext8_sext:_(<2 x s32>) = COPY %assert_sext8_sext %assert_sext9_sext:_(<2 x s32>) = G_ASSERT_SEXT %sext_load2x1, 9 %copy_assert_sext9_sext:_(<2 x s32>) = COPY %assert_sext9_sext %assert_sext31_sext:_(<2 x s32>) = G_ASSERT_SEXT %sext_load2x1, 31 %copy_assert_sext31_sext:_(<2 x s32>) = COPY %assert_sext31_sext )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyInReg1 = Copies[Copies.size() - 10]; Register CopyInReg7 = Copies[Copies.size() - 9]; Register CopyInReg8 = Copies[Copies.size() - 8]; Register CopyInReg9 = Copies[Copies.size() - 7]; Register CopyInReg31 = Copies[Copies.size() - 6]; Register CopyInReg6Sext = Copies[Copies.size() - 5]; Register CopyInReg7Sext = Copies[Copies.size() - 4]; Register CopyInReg8Sext = Copies[Copies.size() - 3]; Register CopyInReg9Sext = Copies[Copies.size() - 2]; Register CopyInReg31Sext = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); EXPECT_EQ(32u, Info.computeNumSignBits(CopyInReg1)); EXPECT_EQ(26u, Info.computeNumSignBits(CopyInReg7)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg8)); EXPECT_EQ(24u, Info.computeNumSignBits(CopyInReg9)); EXPECT_EQ(2u, Info.computeNumSignBits(CopyInReg31)); EXPECT_EQ(27u, Info.computeNumSignBits(CopyInReg6Sext)); EXPECT_EQ(26u, Info.computeNumSignBits(CopyInReg7Sext)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg8Sext)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg9Sext)); EXPECT_EQ(25u, Info.computeNumSignBits(CopyInReg31Sext)); } TEST_F(AArch64GISelMITest, TestVectorNumSignBitsTrunc) { StringRef MIRString = R"( %3:_(p0) = G_IMPLICIT_DEF %4:_(<2 x s32>) = G_LOAD %3 :: (load (<2 x s32>)) %5:_(<2 x s8>) = G_TRUNC %4 %6:_(<2 x s8>) = COPY %5 %7:_(s32) = G_CONSTANT i32 -1 %8:_(<2 x s32>) = G_BUILD_VECTOR %7:_(s32), %7:_(s32) %9:_(<2 x s8>) = G_TRUNC %8 %10:_(<2 x s8>) = COPY %9 %11:_(s32) = G_CONSTANT i32 7 %12:_(<2 x s32>) = G_BUILD_VECTOR %11:_(s32), %11:_(s32) %13:_(<2 x s8>) = G_TRUNC %12 %14:_(<2 x s8>) = COPY %13 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyTruncLoad = Copies[Copies.size() - 3]; Register CopyTruncNeg1 = Copies[Copies.size() - 2]; Register CopyTrunc7 = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); EXPECT_EQ(1u, Info.computeNumSignBits(CopyTruncLoad)); EXPECT_EQ(8u, Info.computeNumSignBits(CopyTruncNeg1)); EXPECT_EQ(5u, Info.computeNumSignBits(CopyTrunc7)); } TEST_F(AMDGPUGISelMITest, TestVectorIsKnownToBeAPowerOfTwo) { StringRef MIRString = R"( %zero:_(s32) = G_CONSTANT i32 0 %zero_splat:_(<2 x s32>) = G_BUILD_VECTOR %zero:_(s32), %zero:_(s32) %one:_(s32) = G_CONSTANT i32 1 %one_splat:_(<2 x s32>) = G_BUILD_VECTOR %one:_(s32), %one:_(s32) %two:_(s32) = G_CONSTANT i32 2 %two_splat:_(<2 x s32>) = G_BUILD_VECTOR %two:_(s32), %two:_(s32) %three:_(s32) = G_CONSTANT i32 3 %three_splat:_(<2 x s32>) = G_BUILD_VECTOR %three:_(s32), %three:_(s32) %five:_(s32) = G_CONSTANT i32 5 %five_splat:_(<2 x s32>) = G_BUILD_VECTOR %five:_(s32), %five:_(s32) %copy_zero_splat:_(<2 x s32>) = COPY %zero_splat %copy_one_splat:_(<2 x s32>) = COPY %one_splat %copy_two_splat:_(<2 x s32>) = COPY %two_splat %copy_three_splat:_(<2 x s32>) = COPY %three_splat %trunc_two_splat:_(<2 x s1>) = G_TRUNC %two_splat %trunc_three_splat:_(<2 x s1>) = G_TRUNC %three_splat %trunc_five_splat:_(<2 x s1>) = G_TRUNC %five_splat %copy_trunc_two_splat:_(<2 x s1>) = COPY %trunc_two_splat %copy_trunc_three_splat:_(<2 x s1>) = COPY %trunc_three_splat %copy_trunc_five_splat:_(<2 x s1>) = COPY %trunc_five_splat %ptr:_(p1) = G_IMPLICIT_DEF %shift_amt:_(<2 x s32>) = G_LOAD %ptr :: (load (<2 x s32>), addrspace 1) %shl_1:_(<2 x s32>) = G_SHL %one_splat, %shift_amt %copy_shl_1:_(<2 x s32>) = COPY %shl_1 %shl_2:_(<2 x s32>) = G_SHL %two_splat, %shift_amt %copy_shl_2:_(<2 x s32>) = COPY %shl_2 %not_sign_mask:_(<2 x s32>) = G_LOAD %ptr :: (load (<2 x s32>), addrspace 1) %sign_mask:_(s32) = G_CONSTANT i32 -2147483648 %sign_mask_splat:_(<2 x s32>) = G_BUILD_VECTOR %sign_mask:_(s32), %sign_mask:_(s32) %lshr_not_sign_mask:_(<2 x s32>) = G_LSHR %not_sign_mask, %shift_amt %copy_lshr_not_sign_mask:_(<2 x s32>) = COPY %lshr_not_sign_mask %lshr_sign_mask:_(<2 x s32>) = G_LSHR %sign_mask_splat, %shift_amt %copy_lshr_sign_mask:_(<2 x s32>) = COPY %lshr_sign_mask %or_pow2:_(<2 x s32>) = G_OR %zero_splat, %two_splat %copy_or_pow2:_(<2 x s32>) = COPY %or_pow2 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); GISelKnownBits KB(*MF); Register CopyZero = Copies[Copies.size() - 12]; Register CopyOne = Copies[Copies.size() - 11]; Register CopyTwo = Copies[Copies.size() - 10]; Register CopyThree = Copies[Copies.size() - 9]; Register CopyTruncTwo = Copies[Copies.size() - 8]; Register CopyTruncThree = Copies[Copies.size() - 7]; Register CopyTruncFive = Copies[Copies.size() - 6]; Register CopyShl1 = Copies[Copies.size() - 5]; Register CopyShl2 = Copies[Copies.size() - 4]; Register CopyLShrNotSignMask = Copies[Copies.size() - 3]; Register CopyLShrSignMask = Copies[Copies.size() - 2]; Register CopyOrPow2 = Copies[Copies.size() - 1]; EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyZero, *MRI, &KB)); EXPECT_TRUE(isKnownToBeAPowerOfTwo(CopyOne, *MRI, &KB)); EXPECT_TRUE(isKnownToBeAPowerOfTwo(CopyTwo, *MRI, &KB)); EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyThree, *MRI, &KB)); EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyTruncTwo, *MRI, &KB)); EXPECT_TRUE(isKnownToBeAPowerOfTwo(CopyTruncThree, *MRI, &KB)); EXPECT_TRUE(isKnownToBeAPowerOfTwo(CopyTruncFive, *MRI, &KB)); // TODO: check for vector(splat) shift amount. EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyShl1, *MRI, &KB)); EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyShl2, *MRI, &KB)); EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyLShrNotSignMask, *MRI, &KB)); EXPECT_FALSE(isKnownToBeAPowerOfTwo(CopyLShrSignMask, *MRI, &KB)); EXPECT_TRUE(isKnownToBeAPowerOfTwo(CopyOrPow2, *MRI, &KB)); } TEST_F(AArch64GISelMITest, TestVectorMetadata) { StringRef MIRString = R"( %imp:_(p0) = G_IMPLICIT_DEF %load:_(<2 x s8>) = G_LOAD %imp(p0) :: (load (<2 x s8>)) %ext:_(<2 x s32>) = G_ZEXT %load(<2 x s8>) %cst_elt:_(s32) = G_CONSTANT i32 1 %cst:_(<2 x s32>) = G_BUILD_VECTOR %cst_elt:_(s32), %cst_elt:_(s32) %and:_(<2 x s32>) = G_AND %ext, %cst %copy:_(<2 x s32>) = COPY %and(<2 x s32>) )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg = Copies[Copies.size() - 1]; MachineInstr *FinalCopy = MRI->getVRegDef(CopyReg); Register SrcReg = FinalCopy->getOperand(1).getReg(); MachineInstr *And = MRI->getVRegDef(SrcReg); MachineInstr *Ext = MRI->getVRegDef(And->getOperand(1).getReg()); MachineInstr *Load = MRI->getVRegDef(Ext->getOperand(1).getReg()); IntegerType *Int8Ty = Type::getInt8Ty(Context); Metadata *LowAndHigh[] = { ConstantAsMetadata::get(ConstantInt::get(Int8Ty, 0)), ConstantAsMetadata::get(ConstantInt::get(Int8Ty, 2))}; auto *NewMDNode = MDNode::get(Context, LowAndHigh); const MachineMemOperand *OldMMO = *Load->memoperands_begin(); MachineMemOperand NewMMO(OldMMO->getPointerInfo(), OldMMO->getFlags(), OldMMO->getSizeInBits(), OldMMO->getAlign(), OldMMO->getAAInfo(), NewMDNode); MachineIRBuilder MIB(*Load); MIB.buildLoad(Load->getOperand(0), Load->getOperand(1), NewMMO); Load->eraseFromParent(); GISelKnownBits Info(*MF); KnownBits Res = Info.getKnownBits(And->getOperand(1).getReg()); EXPECT_TRUE(Res.One.isZero()); APInt Mask(Res.getBitWidth(), 1); Mask.flipAllBits(); EXPECT_EQ(Mask.getZExtValue(), Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestVectorKnownBitsExt) { StringRef MIRString = R"( %c1:_(s16) = G_CONSTANT i16 1 %c1_splat:_(<2 x s16>) = G_BUILD_VECTOR %c1:_(s16), %c1:_(s16) %x:_(<2 x s16>) = G_IMPLICIT_DEF %y:_(<2 x s16>) = G_AND %x, %c1_splat %anyext:_(<2 x s32>) = G_ANYEXT %y(<2 x s16>) %r1:_(<2 x s32>) = COPY %anyext %zext:_(<2 x s32>) = G_ZEXT %y(<2 x s16>) %r2:_(<2 x s32>) = COPY %zext %sext:_(<2 x s32>) = G_SEXT %y(<2 x s16>) %r3:_(<2 x s32>) = COPY %sext )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyRegAny = Copies[Copies.size() - 3]; Register CopyRegZ = Copies[Copies.size() - 2]; Register CopyRegS = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); MachineInstr *Copy; Register SrcReg; KnownBits Res; Copy = MRI->getVRegDef(CopyRegAny); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)32, Res.getBitWidth()); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0x0000fffe, Res.Zero.getZExtValue()); Copy = MRI->getVRegDef(CopyRegZ); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)32, Res.getBitWidth()); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0xfffffffe, Res.Zero.getZExtValue()); Copy = MRI->getVRegDef(CopyRegS); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ((uint64_t)32, Res.getBitWidth()); EXPECT_EQ((uint64_t)0, Res.One.getZExtValue()); EXPECT_EQ((uint64_t)0xfffffffe, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorSextInReg) { StringRef MIRString = R"( ; 000...0001 %one:_(s32) = G_CONSTANT i32 1 %one_splat:_(<2 x s32>) = G_BUILD_VECTOR %one:_(s32), %one:_(s32) ; 000...0010 %two:_(s32) = G_CONSTANT i32 2 %two_splat:_(<2 x s32>) = G_BUILD_VECTOR %two:_(s32), %two:_(s32) ; 000...1010 %ten:_(s32) = G_CONSTANT i32 10 %ten_splat:_(<2 x s32>) = G_BUILD_VECTOR %ten:_(s32), %ten:_(s32) ; ???...???? %x0:_(<2 x s32>) = COPY $x0 ; ???...?1? %or:_(<2 x s32>) = G_OR %x0, %two_splat ; All bits are known. %inreg1:_(<2 x s32>) = G_SEXT_INREG %one_splat, 1 %copy_inreg1:_(<2 x s32>) = COPY %inreg1 ; All bits unknown %inreg2:_(<2 x s32>) = G_SEXT_INREG %or, 1 %copy_inreg2:_(<2 x s32>) = COPY %inreg2 ; Extending from the only (known) set bit ; 111...11? %inreg3:_(<2 x s32>) = G_SEXT_INREG %or, 2 %copy_inreg3:_(<2 x s32>) = COPY %inreg3 ; Extending from a known set bit, overwriting all of the high set bits. ; 111...1110 %inreg4:_(<2 x s32>) = G_SEXT_INREG %ten_splat, 2 %copy_inreg4:_(<2 x s32>) = COPY %inreg4 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); GISelKnownBits Info(*MF); KnownBits Res; auto GetKB = [&](unsigned Idx) { Register CopyReg = Copies[Idx]; auto *Copy = MRI->getVRegDef(CopyReg); return Info.getKnownBits(Copy->getOperand(1).getReg()); }; Res = GetKB(Copies.size() - 4); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_TRUE(Res.isAllOnes()); Res = GetKB(Copies.size() - 3); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_TRUE(Res.isUnknown()); Res = GetKB(Copies.size() - 2); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_EQ(0xFFFFFFFEu, Res.One.getZExtValue()); EXPECT_EQ(0u, Res.Zero.getZExtValue()); Res = GetKB(Copies.size() - 1); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_EQ(0xFFFFFFFEu, Res.One.getZExtValue()); EXPECT_EQ(1u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorAssertSext) { StringRef MIRString = R"( ; 000...0001 %one:_(s32) = G_CONSTANT i32 1 %one_splat:_(<2 x s32>) = G_BUILD_VECTOR %one, %one ; 000...0010 %two:_(s32) = G_CONSTANT i32 2 %two_splat:_(<2 x s32>) = G_BUILD_VECTOR %two, %two ; 000...1010 %ten:_(s32) = G_CONSTANT i32 10 %ten_splat:_(<2 x s32>) = G_BUILD_VECTOR %ten, %ten ; ???...???? %x0:_(<2 x s32>) = COPY $x0 ; ???...?1? %or:_(<2 x s32>) = G_OR %x0, %two_splat ; All bits are known. %assert_sext1:_(<2 x s32>) = G_ASSERT_SEXT %one_splat, 1 %copy_assert_sext1:_(<2 x s32>) = COPY %assert_sext1 ; All bits unknown %assert_sext2:_(<2 x s32>) = G_ASSERT_SEXT %or, 1 %copy_assert_sext2:_(<2 x s32>) = COPY %assert_sext2 ; Extending from the only (known) set bit ; 111...11? %assert_sext3:_(<2 x s32>) = G_ASSERT_SEXT %or, 2 %copy_assert_sext3:_(<2 x s32>) = COPY %assert_sext3 ; Extending from a known set bit, overwriting all of the high set bits. ; 111...1110 %assert_sext4:_(<2 x s32>) = G_ASSERT_SEXT %ten_splat, 2 %copy_assert_sext4:_(<2 x s32>) = COPY %assert_sext4 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); GISelKnownBits Info(*MF); KnownBits Res; auto GetKB = [&](unsigned Idx) { Register CopyReg = Copies[Idx]; auto *Copy = MRI->getVRegDef(CopyReg); return Info.getKnownBits(Copy->getOperand(1).getReg()); }; // Every bit is known to be a 1. Res = GetKB(Copies.size() - 4); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_TRUE(Res.isAllOnes()); // All bits are unknown Res = GetKB(Copies.size() - 3); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_TRUE(Res.isUnknown()); // Extending from the only known set bit // 111...11? Res = GetKB(Copies.size() - 2); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_EQ(0xFFFFFFFEu, Res.One.getZExtValue()); EXPECT_EQ(0u, Res.Zero.getZExtValue()); // Extending from a known set bit, overwriting all of the high set bits. // 111...1110 Res = GetKB(Copies.size() - 1); EXPECT_EQ(32u, Res.getBitWidth()); EXPECT_EQ(0xFFFFFFFEu, Res.One.getZExtValue()); EXPECT_EQ(1u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestVectorKnownBitsBSwapBitReverse) { StringRef MIRString = R"( %const:_(s32) = G_CONSTANT i32 287454020 %const_splat:_(<2 x s32>) = G_BUILD_VECTOR %const:_(s32), %const:_(s32) %bswap:_(<2 x s32>) = G_BSWAP %const_splat %bitreverse:_(<2 x s32>) = G_BITREVERSE %const_splat %copy_bswap:_(<2 x s32>) = COPY %bswap %copy_bitreverse:_(<2 x s32>) = COPY %bitreverse )"; setUp(MIRString); if (!TM) GTEST_SKIP(); const uint32_t ByteSwappedVal = 0x44332211; const uint32_t BitSwappedVal = 0x22cc4488; Register CopyBSwap = Copies[Copies.size() - 2]; Register CopyBitReverse = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); KnownBits BSwapKnown = Info.getKnownBits(CopyBSwap); EXPECT_EQ(32u, BSwapKnown.getBitWidth()); EXPECT_EQ(ByteSwappedVal, BSwapKnown.One.getZExtValue()); EXPECT_EQ(~ByteSwappedVal, BSwapKnown.Zero.getZExtValue()); KnownBits BitReverseKnown = Info.getKnownBits(CopyBitReverse); EXPECT_EQ(32u, BitReverseKnown.getBitWidth()); EXPECT_EQ(BitSwappedVal, BitReverseKnown.One.getZExtValue()); EXPECT_EQ(~BitSwappedVal, BitReverseKnown.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorUMAX) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 10 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 1 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 3 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 12 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %umax0:_(<2 x s8>) = G_UMAX %val0, %val1 %copy_umax0:_(<2 x s8>) = COPY %umax0 %mask4:_(s8) = G_CONSTANT i8 14 %mask4_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask4, %mask4 %mask5:_(s8) = G_CONSTANT i8 2 %mask5_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask5, %mask5 %tmp3:_(<2 x s8>) = G_AND %unknown, %mask4_splat %val3:_(<2 x s8>) = G_OR %tmp3, %mask5_splat %mask6:_(s8) = G_CONSTANT i8 4 %mask6_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask6, %mask6 %mask7:_(s8) = G_CONSTANT i8 11 %mask7_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask7, %mask7 %tmp4:_(<2 x s8>) = G_AND %unknown, %mask6_splat %val4:_(<2 x s8>) = G_OR %tmp4, %mask7_splat %umax1:_(<2 x s8>) = G_UMAX %val3, %val4 %copy_umax1:_(<2 x s8>) = COPY %umax1 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg0 = Copies[Copies.size() - 2]; MachineInstr *FinalCopy0 = MRI->getVRegDef(CopyReg0); Register SrcReg0 = FinalCopy0->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res0 = Info.getKnownBits(SrcReg0); EXPECT_EQ(0x0Cu, Res0.One.getZExtValue()); EXPECT_EQ(0xF0u, Res0.Zero.getZExtValue()); Register CopyReg1 = Copies[Copies.size() - 1]; MachineInstr *FinalCopy1 = MRI->getVRegDef(CopyReg1); Register SrcReg1 = FinalCopy1->getOperand(1).getReg(); KnownBits Res1 = Info.getKnownBits(SrcReg1); EXPECT_EQ(0x0Au, Res1.One.getZExtValue()); EXPECT_EQ(0xF0u, Res1.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestVectorKnownBitsUMax) { StringRef MIRString = R"( %val:_(<2 x s32>) = COPY $x0 %zext:_(<2 x s64>) = G_ZEXT %val %const:_(s64) = G_CONSTANT i64 -256 %const_splat:_(<2 x s64>) = G_BUILD_VECTOR %const:_(s64), %const:_(s64) %umax:_(<2 x s64>) = G_UMAX %zext, %const_splat %copy_umax:_(<2 x s64>) = COPY %umax )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyUMax = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); KnownBits KnownUmax = Info.getKnownBits(CopyUMax); EXPECT_EQ(64u, KnownUmax.getBitWidth()); EXPECT_EQ(0xffu, KnownUmax.Zero.getZExtValue()); EXPECT_EQ(0xffffffffffffff00, KnownUmax.One.getZExtValue()); EXPECT_EQ(0xffu, KnownUmax.Zero.getZExtValue()); EXPECT_EQ(0xffffffffffffff00, KnownUmax.One.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorUMIN) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 10 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 1 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 3 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 12 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %umin:_(<2 x s8>) = G_UMIN %val0, %val1 %copy_umin:_(<2 x s8>) = COPY %umin )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg0 = Copies[Copies.size() - 1]; MachineInstr *FinalCopy0 = MRI->getVRegDef(CopyReg0); Register SrcReg0 = FinalCopy0->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res0 = Info.getKnownBits(SrcReg0); EXPECT_EQ(0x01u, Res0.One.getZExtValue()); EXPECT_EQ(0xF4u, Res0.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorSMAX) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 128 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 64 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 1 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 128 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %smax:_(<2 x s8>) = G_SMAX %val0, %val1 %copy_smax:_(<2 x s8>) = COPY %smax )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg0 = Copies[Copies.size() - 1]; MachineInstr *FinalCopy0 = MRI->getVRegDef(CopyReg0); Register SrcReg0 = FinalCopy0->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res0 = Info.getKnownBits(SrcReg0); EXPECT_EQ(0x40u, Res0.One.getZExtValue()); EXPECT_EQ(0x3Fu, Res0.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorSMIN) { StringRef MIRString = R"( %ptr:_(p0) = G_IMPLICIT_DEF %unknown:_(<2 x s8>) = G_LOAD %ptr(p0) :: (load (<2 x s8>)) %mask0:_(s8) = G_CONSTANT i8 128 %mask0_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask0, %mask0 %mask1:_(s8) = G_CONSTANT i8 64 %mask1_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask1, %mask1 %tmp0:_(<2 x s8>) = G_AND %unknown, %mask0_splat %val0:_(<2 x s8>) = G_OR %tmp0, %mask1_splat %mask2:_(s8) = G_CONSTANT i8 1 %mask2_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask2, %mask2 %mask3:_(s8) = G_CONSTANT i8 128 %mask3_splat:_(<2 x s8>) = G_BUILD_VECTOR %mask3, %mask3 %tmp1:_(<2 x s8>) = G_AND %unknown, %mask2_splat %val1:_(<2 x s8>) = G_OR %tmp1, %mask3_splat %smin:_(<2 x s8>) = G_SMIN %val0, %val1 %copy_smin:_(<2 x s8>) = COPY %smin )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyReg0 = Copies[Copies.size() - 1]; MachineInstr *FinalCopy0 = MRI->getVRegDef(CopyReg0); Register SrcReg0 = FinalCopy0->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits Res0 = Info.getKnownBits(SrcReg0); EXPECT_EQ(0x80u, Res0.One.getZExtValue()); EXPECT_EQ(0x7Eu, Res0.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestVectorInvalidQueries) { StringRef MIRString = R"( %src:_(<2 x s32>) = COPY $x0 %thirty2:_(s32) = G_CONSTANT i32 32 %thirty2_splat:_(<2 x s32>) = G_BUILD_VECTOR %thirty2:_(s32), %thirty2:_(s32) %equalSized:_(<2 x s32>) = G_SHL %src, %thirty2_splat %copy1:_(<2 x s32>) = COPY %equalSized %thirty3:_(s32) = G_CONSTANT i32 33 %thirty3_splat:_(<2 x s32>) = G_BUILD_VECTOR %thirty3:_(s32), %thirty3:_(s32) %biggerSized:_(<2 x s32>) = G_SHL %src, %thirty3_splat %copy2:_(<2 x s32>) = COPY %biggerSized )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register EqSizedCopyReg = Copies[Copies.size() - 2]; MachineInstr *EqSizedCopy = MRI->getVRegDef(EqSizedCopyReg); Register EqSizedShl = EqSizedCopy->getOperand(1).getReg(); Register BiggerSizedCopyReg = Copies[Copies.size() - 1]; MachineInstr *BiggerSizedCopy = MRI->getVRegDef(BiggerSizedCopyReg); Register BiggerSizedShl = BiggerSizedCopy->getOperand(1).getReg(); GISelKnownBits Info(*MF); KnownBits EqSizeRes = Info.getKnownBits(EqSizedShl); KnownBits BiggerSizeRes = Info.getKnownBits(BiggerSizedShl); EXPECT_TRUE(EqSizeRes.One.isZero()); EXPECT_TRUE(EqSizeRes.Zero.isAllOnes()); EXPECT_TRUE(BiggerSizeRes.One.isZero()); EXPECT_TRUE(BiggerSizeRes.Zero.isAllOnes()); } TEST_F(AArch64GISelMITest, TestKnownBitsVectorAssertZext) { StringRef MIRString = R"( %copy_x0:_(s64) = COPY $x0 %copy_x1:_(s64) = COPY $x1 %x0_x1:_(<2 x s64>) = G_BUILD_VECTOR %copy_x0, %copy_x1 %assert8:_(<2 x s64>) = G_ASSERT_ZEXT %x0_x1, 8 %copy_assert8:_(<2 x s64>) = COPY %assert8 %assert1:_(<2 x s64>) = G_ASSERT_ZEXT %x0_x1, 1 %copy_assert1:_(<2 x s64>) = COPY %assert1 %assert63:_(<2 x s64>) = G_ASSERT_ZEXT %x0_x1, 63 %copy_assert63:_(<2 x s64>) = COPY %assert63 %assert3:_(<2 x s64>) = G_ASSERT_ZEXT %x0_x1, 3 %copy_assert3:_(<2 x s64>) = COPY %assert3 )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyAssert8 = Copies[Copies.size() - 4]; Register CopyAssert1 = Copies[Copies.size() - 3]; Register CopyAssert63 = Copies[Copies.size() - 2]; Register CopyAssert3 = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); MachineInstr *Copy; Register SrcReg; KnownBits Res; // Assert zero-extension from an 8-bit value. Copy = MRI->getVRegDef(CopyAssert8); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ(64u, Res.getBitWidth()); EXPECT_EQ(0u, Res.One.getZExtValue()); EXPECT_EQ(0xFFFFFFFFFFFFFF00u, Res.Zero.getZExtValue()); // Assert zero-extension from a 1-bit value. Copy = MRI->getVRegDef(CopyAssert1); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ(64u, Res.getBitWidth()); EXPECT_EQ(0u, Res.One.getZExtValue()); EXPECT_EQ(0xFFFFFFFFFFFFFFFE, Res.Zero.getZExtValue()); // Assert zero-extension from a 63-bit value. Copy = MRI->getVRegDef(CopyAssert63); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ(64u, Res.getBitWidth()); EXPECT_EQ(0u, Res.One.getZExtValue()); EXPECT_EQ(0x8000000000000000u, Res.Zero.getZExtValue()); // Assert zero-extension from a 3-bit value. Copy = MRI->getVRegDef(CopyAssert3); SrcReg = Copy->getOperand(1).getReg(); Res = Info.getKnownBits(SrcReg); EXPECT_EQ(64u, Res.getBitWidth()); EXPECT_EQ(0u, Res.One.getZExtValue()); EXPECT_EQ(0xFFFFFFFFFFFFFFF8u, Res.Zero.getZExtValue()); } TEST_F(AArch64GISelMITest, TestNumSignBitsUAddoOverflow) { StringRef MIRString = R"( %copy_x0:_(s64) = COPY $x0 %copy_x1:_(s64) = COPY $x1 %x0_x1:_(<2 x s64>) = G_BUILD_VECTOR %copy_x0, %copy_x1 %uaddo:_(<2 x s64>), %overflow:_(<2 x s32>) = G_UADDO %x0_x1, %x0_x1 %result:_(<2 x s32>) = COPY %overflow )"; setUp(MIRString); if (!TM) GTEST_SKIP(); Register CopyOverflow = Copies[Copies.size() - 1]; GISelKnownBits Info(*MF); // Assert sign-extension from vector boolean EXPECT_EQ(32u, Info.computeNumSignBits(CopyOverflow)); }