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290 lines
11 KiB
C++
290 lines
11 KiB
C++
//===- VPIntrinsicTest.cpp - VPIntrinsic unit tests ---------===//
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//
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// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
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// See https://llvm.org/LICENSE.txt for license information.
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// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
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//
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//===----------------------------------------------------------------------===//
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#include "llvm/ADT/SmallVector.h"
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#include "llvm/AsmParser/Parser.h"
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#include "llvm/CodeGen/ISDOpcodes.h"
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#include "llvm/IR/Constants.h"
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#include "llvm/IR/IRBuilder.h"
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#include "llvm/IR/IntrinsicInst.h"
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#include "llvm/IR/LLVMContext.h"
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#include "llvm/IR/Module.h"
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#include "llvm/IR/Verifier.h"
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#include "llvm/Support/SourceMgr.h"
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#include "gtest/gtest.h"
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#include <sstream>
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using namespace llvm;
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namespace {
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class VPIntrinsicTest : public testing::Test {
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protected:
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LLVMContext Context;
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VPIntrinsicTest() : Context() {}
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LLVMContext C;
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SMDiagnostic Err;
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std::unique_ptr<Module> createVPDeclarationModule() {
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const char *BinaryIntOpcodes[] = {"add", "sub", "mul", "sdiv", "srem",
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"udiv", "urem", "and", "xor", "or",
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"ashr", "lshr", "shl"};
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std::stringstream Str;
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for (const char *BinaryIntOpcode : BinaryIntOpcodes)
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Str << " declare <8 x i32> @llvm.vp." << BinaryIntOpcode
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<< ".v8i32(<8 x i32>, <8 x i32>, <8 x i1>, i32) ";
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const char *BinaryFPOpcodes[] = {"fadd", "fsub", "fmul", "fdiv", "frem"};
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for (const char *BinaryFPOpcode : BinaryFPOpcodes)
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Str << " declare <8 x float> @llvm.vp." << BinaryFPOpcode
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<< ".v8f32(<8 x float>, <8 x float>, <8 x i1>, i32) ";
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Str << " declare void @llvm.vp.store.v8i32.p0v8i32(<8 x i32>, <8 x i32>*, "
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"<8 x i1>, i32) ";
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Str << " declare void @llvm.vp.scatter.v8i32.v8p0i32(<8 x i32>, <8 x "
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"i32*>, <8 x i1>, i32) ";
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Str << " declare <8 x i32> @llvm.vp.load.v8i32.p0v8i32(<8 x i32>*, <8 x "
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"i1>, i32) ";
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Str << " declare <8 x i32> @llvm.vp.gather.v8i32.v8p0i32(<8 x i32*>, <8 x "
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"i1>, i32) ";
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return parseAssemblyString(Str.str(), Err, C);
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}
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};
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/// Check that the property scopes include/llvm/IR/VPIntrinsics.def are closed.
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TEST_F(VPIntrinsicTest, VPIntrinsicsDefScopes) {
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Optional<Intrinsic::ID> ScopeVPID;
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#define BEGIN_REGISTER_VP_INTRINSIC(VPID, ...) \
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ASSERT_FALSE(ScopeVPID.hasValue()); \
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ScopeVPID = Intrinsic::VPID;
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#define END_REGISTER_VP_INTRINSIC(VPID) \
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ASSERT_TRUE(ScopeVPID.hasValue()); \
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ASSERT_EQ(ScopeVPID.getValue(), Intrinsic::VPID); \
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ScopeVPID = None;
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Optional<ISD::NodeType> ScopeOPC;
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#define BEGIN_REGISTER_VP_SDNODE(SDOPC, ...) \
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ASSERT_FALSE(ScopeOPC.hasValue()); \
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ScopeOPC = ISD::SDOPC;
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#define END_REGISTER_VP_SDNODE(SDOPC) \
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ASSERT_TRUE(ScopeOPC.hasValue()); \
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ASSERT_EQ(ScopeOPC.getValue(), ISD::SDOPC); \
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ScopeOPC = None;
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#include "llvm/IR/VPIntrinsics.def"
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ASSERT_FALSE(ScopeVPID.hasValue());
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ASSERT_FALSE(ScopeOPC.hasValue());
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}
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/// Check that every VP intrinsic in the test module is recognized as a VP
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/// intrinsic.
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TEST_F(VPIntrinsicTest, VPModuleComplete) {
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std::unique_ptr<Module> M = createVPDeclarationModule();
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assert(M);
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// Check that all @llvm.vp.* functions in the module are recognized vp
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// intrinsics.
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std::set<Intrinsic::ID> SeenIDs;
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for (const auto &VPDecl : *M) {
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ASSERT_TRUE(VPDecl.isIntrinsic());
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ASSERT_TRUE(VPIntrinsic::isVPIntrinsic(VPDecl.getIntrinsicID()));
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SeenIDs.insert(VPDecl.getIntrinsicID());
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}
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// Check that every registered VP intrinsic has an instance in the test
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// module.
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#define BEGIN_REGISTER_VP_INTRINSIC(VPID, ...) \
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ASSERT_TRUE(SeenIDs.count(Intrinsic::VPID));
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#include "llvm/IR/VPIntrinsics.def"
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}
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/// Check that VPIntrinsic:canIgnoreVectorLengthParam() returns true
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/// if the vector length parameter does not mask off any lanes.
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TEST_F(VPIntrinsicTest, CanIgnoreVectorLength) {
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LLVMContext C;
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SMDiagnostic Err;
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std::unique_ptr<Module> M =
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parseAssemblyString(
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"declare <256 x i64> @llvm.vp.mul.v256i64(<256 x i64>, <256 x i64>, <256 x i1>, i32)"
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"declare <vscale x 2 x i64> @llvm.vp.mul.nxv2i64(<vscale x 2 x i64>, <vscale x 2 x i64>, <vscale x 2 x i1>, i32)"
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"declare <vscale x 1 x i64> @llvm.vp.mul.nxv1i64(<vscale x 1 x i64>, <vscale x 1 x i64>, <vscale x 1 x i1>, i32)"
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"declare i32 @llvm.vscale.i32()"
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"define void @test_static_vlen( "
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" <256 x i64> %i0, <vscale x 2 x i64> %si0x2, <vscale x 1 x i64> %si0x1,"
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" <256 x i64> %i1, <vscale x 2 x i64> %si1x2, <vscale x 1 x i64> %si1x1,"
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" <256 x i1> %m, <vscale x 2 x i1> %smx2, <vscale x 1 x i1> %smx1, i32 %vl) { "
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" %r0 = call <256 x i64> @llvm.vp.mul.v256i64(<256 x i64> %i0, <256 x i64> %i1, <256 x i1> %m, i32 %vl)"
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" %r1 = call <256 x i64> @llvm.vp.mul.v256i64(<256 x i64> %i0, <256 x i64> %i1, <256 x i1> %m, i32 256)"
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" %r2 = call <256 x i64> @llvm.vp.mul.v256i64(<256 x i64> %i0, <256 x i64> %i1, <256 x i1> %m, i32 0)"
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" %r3 = call <256 x i64> @llvm.vp.mul.v256i64(<256 x i64> %i0, <256 x i64> %i1, <256 x i1> %m, i32 7)"
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" %r4 = call <256 x i64> @llvm.vp.mul.v256i64(<256 x i64> %i0, <256 x i64> %i1, <256 x i1> %m, i32 123)"
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" %vs = call i32 @llvm.vscale.i32()"
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" %vs.x2 = mul i32 %vs, 2"
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" %r5 = call <vscale x 2 x i64> @llvm.vp.mul.nxv2i64(<vscale x 2 x i64> %si0x2, <vscale x 2 x i64> %si1x2, <vscale x 2 x i1> %smx2, i32 %vs.x2)"
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" %r6 = call <vscale x 2 x i64> @llvm.vp.mul.nxv2i64(<vscale x 2 x i64> %si0x2, <vscale x 2 x i64> %si1x2, <vscale x 2 x i1> %smx2, i32 %vs)"
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" %r7 = call <vscale x 2 x i64> @llvm.vp.mul.nxv2i64(<vscale x 2 x i64> %si0x2, <vscale x 2 x i64> %si1x2, <vscale x 2 x i1> %smx2, i32 99999)"
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" %r8 = call <vscale x 1 x i64> @llvm.vp.mul.nxv1i64(<vscale x 1 x i64> %si0x1, <vscale x 1 x i64> %si1x1, <vscale x 1 x i1> %smx1, i32 %vs)"
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" %r9 = call <vscale x 1 x i64> @llvm.vp.mul.nxv1i64(<vscale x 1 x i64> %si0x1, <vscale x 1 x i64> %si1x1, <vscale x 1 x i1> %smx1, i32 1)"
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" %r10 = call <vscale x 1 x i64> @llvm.vp.mul.nxv1i64(<vscale x 1 x i64> %si0x1, <vscale x 1 x i64> %si1x1, <vscale x 1 x i1> %smx1, i32 %vs.x2)"
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" %vs.wat = add i32 %vs, 2"
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" %r11 = call <vscale x 2 x i64> @llvm.vp.mul.nxv2i64(<vscale x 2 x i64> %si0x2, <vscale x 2 x i64> %si1x2, <vscale x 2 x i1> %smx2, i32 %vs.wat)"
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" ret void "
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"}",
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Err, C);
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auto *F = M->getFunction("test_static_vlen");
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assert(F);
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const bool Expected[] = {false, true, false, false, false, true,
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false, false, true, false, true, false};
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const auto *ExpectedIt = std::begin(Expected);
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for (auto &I : F->getEntryBlock()) {
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VPIntrinsic *VPI = dyn_cast<VPIntrinsic>(&I);
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if (!VPI)
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continue;
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ASSERT_NE(ExpectedIt, std::end(Expected));
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ASSERT_EQ(*ExpectedIt, VPI->canIgnoreVectorLengthParam());
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++ExpectedIt;
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}
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}
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/// Check that the argument returned by
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/// VPIntrinsic::get<X>ParamPos(Intrinsic::ID) has the expected type.
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TEST_F(VPIntrinsicTest, GetParamPos) {
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std::unique_ptr<Module> M = createVPDeclarationModule();
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assert(M);
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for (Function &F : *M) {
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ASSERT_TRUE(F.isIntrinsic());
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Optional<unsigned> MaskParamPos =
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VPIntrinsic::getMaskParamPos(F.getIntrinsicID());
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if (MaskParamPos.hasValue()) {
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Type *MaskParamType = F.getArg(MaskParamPos.getValue())->getType();
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ASSERT_TRUE(MaskParamType->isVectorTy());
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ASSERT_TRUE(
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cast<VectorType>(MaskParamType)->getElementType()->isIntegerTy(1));
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}
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Optional<unsigned> VecLenParamPos =
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VPIntrinsic::getVectorLengthParamPos(F.getIntrinsicID());
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if (VecLenParamPos.hasValue()) {
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Type *VecLenParamType = F.getArg(VecLenParamPos.getValue())->getType();
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ASSERT_TRUE(VecLenParamType->isIntegerTy(32));
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}
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}
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}
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/// Check that going from Opcode to VP intrinsic and back results in the same
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/// Opcode.
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TEST_F(VPIntrinsicTest, OpcodeRoundTrip) {
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std::vector<unsigned> Opcodes;
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Opcodes.reserve(100);
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{
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#define HANDLE_INST(OCNum, OCName, Class) Opcodes.push_back(OCNum);
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#include "llvm/IR/Instruction.def"
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}
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unsigned FullTripCounts = 0;
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for (unsigned OC : Opcodes) {
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Intrinsic::ID VPID = VPIntrinsic::getForOpcode(OC);
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// No equivalent VP intrinsic available.
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if (VPID == Intrinsic::not_intrinsic)
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continue;
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Optional<unsigned> RoundTripOC =
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VPIntrinsic::getFunctionalOpcodeForVP(VPID);
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// No equivalent Opcode available.
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if (!RoundTripOC)
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continue;
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ASSERT_EQ(*RoundTripOC, OC);
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++FullTripCounts;
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}
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ASSERT_NE(FullTripCounts, 0u);
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}
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/// Check that going from VP intrinsic to Opcode and back results in the same
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/// intrinsic id.
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TEST_F(VPIntrinsicTest, IntrinsicIDRoundTrip) {
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std::unique_ptr<Module> M = createVPDeclarationModule();
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assert(M);
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unsigned FullTripCounts = 0;
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for (const auto &VPDecl : *M) {
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auto VPID = VPDecl.getIntrinsicID();
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Optional<unsigned> OC = VPIntrinsic::getFunctionalOpcodeForVP(VPID);
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// no equivalent Opcode available
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if (!OC)
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continue;
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Intrinsic::ID RoundTripVPID = VPIntrinsic::getForOpcode(*OC);
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ASSERT_EQ(RoundTripVPID, VPID);
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++FullTripCounts;
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}
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ASSERT_NE(FullTripCounts, 0u);
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}
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/// Check that VPIntrinsic::getDeclarationForParams works.
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TEST_F(VPIntrinsicTest, VPIntrinsicDeclarationForParams) {
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std::unique_ptr<Module> M = createVPDeclarationModule();
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assert(M);
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auto OutM = std::make_unique<Module>("", M->getContext());
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for (auto &F : *M) {
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auto *FuncTy = F.getFunctionType();
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// Declare intrinsic anew with explicit types.
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std::vector<Value *> Values;
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for (auto *ParamTy : FuncTy->params())
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Values.push_back(UndefValue::get(ParamTy));
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ASSERT_NE(F.getIntrinsicID(), Intrinsic::not_intrinsic);
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auto *NewDecl = VPIntrinsic::getDeclarationForParams(
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OutM.get(), F.getIntrinsicID(), Values);
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ASSERT_TRUE(NewDecl);
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// Check that 'old decl' == 'new decl'.
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ASSERT_EQ(F.getIntrinsicID(), NewDecl->getIntrinsicID());
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FunctionType::param_iterator ItNewParams =
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NewDecl->getFunctionType()->param_begin();
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FunctionType::param_iterator EndItNewParams =
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NewDecl->getFunctionType()->param_end();
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for (auto *ParamTy : FuncTy->params()) {
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ASSERT_NE(ItNewParams, EndItNewParams);
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ASSERT_EQ(*ItNewParams, ParamTy);
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++ItNewParams;
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}
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}
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}
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/// Check that the HANDLE_VP_TO_CONSTRAINEDFP maps to an existing intrinsic with
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/// the right amount of metadata args.
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TEST_F(VPIntrinsicTest, HandleToConstrainedFP) {
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#define HANDLE_VP_TO_CONSTRAINEDFP(HASROUND, HASEXCEPT, CFPID) \
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{ \
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SmallVector<Intrinsic::IITDescriptor, 5> T; \
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Intrinsic::getIntrinsicInfoTableEntries(Intrinsic::CFPID, T); \
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unsigned NumMetadataArgs = 0; \
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for (auto TD : T) \
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NumMetadataArgs += (TD.Kind == Intrinsic::IITDescriptor::Metadata); \
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ASSERT_EQ(NumMetadataArgs, (unsigned)(HASROUND + HASEXCEPT)); \
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}
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#include "llvm/IR/VPIntrinsics.def"
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}
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} // end anonymous namespace
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