StoreTest.cpp
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//===- unittests/StaticAnalyzer/StoreTest.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 "Reusables.h"
#include "clang/Tooling/Tooling.h"
#include "gtest/gtest.h"
namespace clang {
namespace ento {
namespace {
class StoreTestConsumer : public ExprEngineConsumer {
public:
StoreTestConsumer(CompilerInstance &C) : ExprEngineConsumer(C) {}
bool HandleTopLevelDecl(DeclGroupRef DG) override {
for (const auto *D : DG)
performTest(D);
return true;
}
private:
virtual void performTest(const Decl *D) = 0;
};
template <class ConsumerTy> class TestAction : public ASTFrontendAction {
public:
std::unique_ptr<ASTConsumer> CreateASTConsumer(CompilerInstance &Compiler,
StringRef File) override {
return std::make_unique<ConsumerTy>(Compiler);
}
};
// Test that we can put a value into an int-type variable and load it
// back from that variable. Test what happens if default bindings are used.
class VariableBindConsumer : public StoreTestConsumer {
void performTest(const Decl *D) override {
StoreManager &SManager = Eng.getStoreManager();
SValBuilder &Builder = Eng.getSValBuilder();
MemRegionManager &MRManager = SManager.getRegionManager();
const ASTContext &ASTCtxt = Eng.getContext();
const auto *VDX0 = findDeclByName<VarDecl>(D, "x0");
const auto *VDY0 = findDeclByName<VarDecl>(D, "y0");
const auto *VDZ0 = findDeclByName<VarDecl>(D, "z0");
const auto *VDX1 = findDeclByName<VarDecl>(D, "x1");
const auto *VDY1 = findDeclByName<VarDecl>(D, "y1");
ASSERT_TRUE(VDX0 && VDY0 && VDZ0 && VDX1 && VDY1);
const StackFrameContext *SFC =
Eng.getAnalysisDeclContextManager().getStackFrame(D);
Loc LX0 = loc::MemRegionVal(MRManager.getVarRegion(VDX0, SFC));
Loc LY0 = loc::MemRegionVal(MRManager.getVarRegion(VDY0, SFC));
Loc LZ0 = loc::MemRegionVal(MRManager.getVarRegion(VDZ0, SFC));
Loc LX1 = loc::MemRegionVal(MRManager.getVarRegion(VDX1, SFC));
Loc LY1 = loc::MemRegionVal(MRManager.getVarRegion(VDY1, SFC));
Store StInit = SManager.getInitialStore(SFC).getStore();
SVal Zero = Builder.makeZeroVal(ASTCtxt.IntTy);
SVal One = Builder.makeIntVal(1, ASTCtxt.IntTy);
SVal NarrowZero = Builder.makeZeroVal(ASTCtxt.CharTy);
// Bind(Zero)
Store StX0 = SManager.Bind(StInit, LX0, Zero).getStore();
EXPECT_EQ(Zero, SManager.getBinding(StX0, LX0, ASTCtxt.IntTy));
// BindDefaultInitial(Zero)
Store StY0 =
SManager.BindDefaultInitial(StInit, LY0.getAsRegion(), Zero).getStore();
EXPECT_EQ(Zero, SManager.getBinding(StY0, LY0, ASTCtxt.IntTy));
EXPECT_EQ(Zero, *SManager.getDefaultBinding(StY0, LY0.getAsRegion()));
// BindDefaultZero()
Store StZ0 = SManager.BindDefaultZero(StInit, LZ0.getAsRegion()).getStore();
// BindDefaultZero wipes the region with '0 S8b', not with out Zero.
// Direct load, however, does give us back the object of the type
// that we specify for loading.
EXPECT_EQ(Zero, SManager.getBinding(StZ0, LZ0, ASTCtxt.IntTy));
EXPECT_EQ(NarrowZero, *SManager.getDefaultBinding(StZ0, LZ0.getAsRegion()));
// Bind(One)
Store StX1 = SManager.Bind(StInit, LX1, One).getStore();
EXPECT_EQ(One, SManager.getBinding(StX1, LX1, ASTCtxt.IntTy));
// BindDefaultInitial(One)
Store StY1 =
SManager.BindDefaultInitial(StInit, LY1.getAsRegion(), One).getStore();
EXPECT_EQ(One, SManager.getBinding(StY1, LY1, ASTCtxt.IntTy));
EXPECT_EQ(One, *SManager.getDefaultBinding(StY1, LY1.getAsRegion()));
}
public:
using StoreTestConsumer::StoreTestConsumer;
};
TEST(Store, VariableBind) {
EXPECT_TRUE(tooling::runToolOnCode(
std::make_unique<TestAction<VariableBindConsumer>>(),
"void foo() { int x0, y0, z0, x1, y1; }"));
}
class LiteralCompoundConsumer : public StoreTestConsumer {
void performTest(const Decl *D) override {
StoreManager &SManager = Eng.getStoreManager();
SValBuilder &Builder = Eng.getSValBuilder();
MemRegionManager &MRManager = SManager.getRegionManager();
ASTContext &ASTCtxt = Eng.getContext();
using namespace ast_matchers;
const auto *CL = findNode<CompoundLiteralExpr>(D, compoundLiteralExpr());
const StackFrameContext *SFC =
Eng.getAnalysisDeclContextManager().getStackFrame(D);
QualType Int = ASTCtxt.IntTy;
// Get region for 'test'
const SubRegion *CLRegion = MRManager.getCompoundLiteralRegion(CL, SFC);
// Get value for 'test[0]'
NonLoc Zero = Builder.makeIntVal(0, false);
loc::MemRegionVal ZeroElement(
MRManager.getElementRegion(ASTCtxt.IntTy, Zero, CLRegion, ASTCtxt));
Store StInit = SManager.getInitialStore(SFC).getStore();
// Let's bind constant 1 to 'test[0]'
SVal One = Builder.makeIntVal(1, Int);
Store StX = SManager.Bind(StInit, ZeroElement, One).getStore();
// And make sure that we can read this binding back as it was
EXPECT_EQ(One, SManager.getBinding(StX, ZeroElement, Int));
}
public:
using StoreTestConsumer::StoreTestConsumer;
};
TEST(Store, LiteralCompound) {
EXPECT_TRUE(tooling::runToolOnCode(
std::make_unique<TestAction<LiteralCompoundConsumer>>(),
"void foo() { int *test = (int[]){ 1, 2, 3 }; }", "input.c"));
}
} // namespace
} // namespace ento
} // namespace clang