llvm-for-llvmta/tools/clang/unittests/Tooling/LexicallyOrderedRecursiveAS...

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//===- unittest/Tooling/LexicallyOrderedRecursiveASTVisitorTest.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 "TestVisitor.h"
#include "clang/AST/LexicallyOrderedRecursiveASTVisitor.h"
#include <stack>
using namespace clang;
namespace {
class DummyMatchVisitor;
class LexicallyOrderedDeclVisitor
: public LexicallyOrderedRecursiveASTVisitor<LexicallyOrderedDeclVisitor> {
public:
LexicallyOrderedDeclVisitor(DummyMatchVisitor &Matcher,
const SourceManager &SM, bool EmitDeclIndices,
bool EmitStmtIndices)
: LexicallyOrderedRecursiveASTVisitor(SM), Matcher(Matcher),
EmitDeclIndices(EmitDeclIndices), EmitStmtIndices(EmitStmtIndices) {}
bool TraverseDecl(Decl *D) {
TraversalStack.push_back(D);
LexicallyOrderedRecursiveASTVisitor::TraverseDecl(D);
TraversalStack.pop_back();
return true;
}
bool TraverseStmt(Stmt *S);
bool VisitNamedDecl(const NamedDecl *D);
bool VisitDeclRefExpr(const DeclRefExpr *D);
private:
DummyMatchVisitor &Matcher;
bool EmitDeclIndices, EmitStmtIndices;
unsigned Index = 0;
llvm::SmallVector<Decl *, 8> TraversalStack;
};
class DummyMatchVisitor : public ExpectedLocationVisitor<DummyMatchVisitor> {
bool EmitDeclIndices, EmitStmtIndices;
public:
DummyMatchVisitor(bool EmitDeclIndices = false, bool EmitStmtIndices = false)
: EmitDeclIndices(EmitDeclIndices), EmitStmtIndices(EmitStmtIndices) {}
bool VisitTranslationUnitDecl(TranslationUnitDecl *TU) {
const ASTContext &Context = TU->getASTContext();
const SourceManager &SM = Context.getSourceManager();
LexicallyOrderedDeclVisitor SubVisitor(*this, SM, EmitDeclIndices,
EmitStmtIndices);
SubVisitor.TraverseDecl(TU);
return false;
}
template <class T> void match(StringRef Path, const T *D) {
Match(Path, D->getBeginLoc());
}
};
bool LexicallyOrderedDeclVisitor::TraverseStmt(Stmt *S) {
Matcher.match("overridden TraverseStmt", S);
return LexicallyOrderedRecursiveASTVisitor::TraverseStmt(S);
}
bool LexicallyOrderedDeclVisitor::VisitNamedDecl(const NamedDecl *D) {
std::string Path;
llvm::raw_string_ostream OS(Path);
assert(TraversalStack.back() == D);
for (const Decl *D : TraversalStack) {
if (isa<TranslationUnitDecl>(D)) {
OS << "/";
continue;
}
if (const auto *ND = dyn_cast<NamedDecl>(D))
OS << ND->getNameAsString();
else
OS << "???";
if (isa<DeclContext>(D) || isa<TemplateDecl>(D))
OS << "/";
}
if (EmitDeclIndices)
OS << "@" << Index++;
Matcher.match(OS.str(), D);
return true;
}
bool LexicallyOrderedDeclVisitor::VisitDeclRefExpr(const DeclRefExpr *D) {
std::string Name = D->getFoundDecl()->getNameAsString();
llvm::raw_string_ostream OS(Name);
if (EmitStmtIndices)
OS << "@" << Index++;
Matcher.match(OS.str(), D);
return true;
}
TEST(LexicallyOrderedRecursiveASTVisitor, VisitDeclsInImplementation) {
StringRef Source = R"(
@interface I
@end
@implementation I
int nestedFunction() { }
- (void) method{ }
int anotherNestedFunction(int x) {
return x;
}
int innerVariable = 0;
@end
int outerVariable = 0;
@implementation I(Cat)
void catF() { }
@end
void outerFunction() { }
)";
DummyMatchVisitor Visitor;
Visitor.DisallowMatch("/nestedFunction/", 6, 1);
Visitor.ExpectMatch("/I/nestedFunction/", 6, 1);
Visitor.ExpectMatch("/I/method/", 8, 1);
Visitor.DisallowMatch("/anotherNestedFunction/", 10, 1);
Visitor.ExpectMatch("/I/anotherNestedFunction/", 10, 1);
Visitor.DisallowMatch("/innerVariable", 14, 1);
Visitor.ExpectMatch("/I/innerVariable", 14, 1);
Visitor.ExpectMatch("/outerVariable", 18, 1);
Visitor.DisallowMatch("/catF/", 22, 1);
Visitor.ExpectMatch("/Cat/catF/", 22, 1);
Visitor.ExpectMatch("/outerFunction/", 26, 1);
EXPECT_TRUE(Visitor.runOver(Source, DummyMatchVisitor::Lang_OBJC));
}
TEST(LexicallyOrderedRecursiveASTVisitor, VisitMacroDeclsInImplementation) {
StringRef Source = R"(
@interface I
@end
void outerFunction() { }
#define MACRO_F(x) void nestedFunction##x() { }
@implementation I
MACRO_F(1)
@end
MACRO_F(2)
)";
DummyMatchVisitor Visitor;
Visitor.ExpectMatch("/outerFunction/", 5, 1);
Visitor.ExpectMatch("/I/nestedFunction1/", 7, 20);
Visitor.ExpectMatch("/nestedFunction2/", 7, 20);
EXPECT_TRUE(Visitor.runOver(Source, DummyMatchVisitor::Lang_OBJC));
}
TEST(LexicallyOrderedRecursiveASTVisitor, VisitTemplateDecl) {
StringRef Source = R"(
template <class T> T f();
template <class U, class = void> class Class {};
)";
DummyMatchVisitor Visitor(/*EmitIndices=*/true);
Visitor.ExpectMatch("/f/T@1", 2, 11);
Visitor.ExpectMatch("/f/f/@2", 2, 20);
Visitor.ExpectMatch("/Class/U@4", 3, 11);
Visitor.ExpectMatch("/Class/@5", 3, 20);
Visitor.ExpectMatch("/Class/Class/@6", 3, 34);
EXPECT_TRUE(Visitor.runOver(Source));
}
TEST(LexicallyOrderedRecursiveASTVisitor, VisitCXXOperatorCallExpr) {
StringRef Source = R"(
struct S {
S &operator+(S&);
S *operator->();
S &operator++();
S operator++(int);
void operator()(int, int);
void operator[](int);
void f();
};
S a, b, c;
void test() {
a = b + c;
a->f();
a(1, 2);
b[0];
++a;
b++;
}
)";
DummyMatchVisitor Visitor(/*EmitDeclIndices=*/false,
/*EmitStmtIndices=*/true);
// There are two overloaded operators that start at this point
// This makes sure they are both traversed using the overridden
// TraverseStmt, as the traversal is implemented by us for
// CXXOperatorCallExpr.
Visitor.ExpectMatch("overridden TraverseStmt", 14, 3, 2);
Visitor.ExpectMatch("a@0", 14, 3);
Visitor.ExpectMatch("operator=@1", 14, 5);
Visitor.ExpectMatch("b@2", 14, 7);
Visitor.ExpectMatch("operator+@3", 14, 9);
Visitor.ExpectMatch("c@4", 14, 11);
Visitor.ExpectMatch("operator->@6", 15, 4);
Visitor.ExpectMatch("operator()@8", 16, 4);
Visitor.ExpectMatch("operator[]@10", 17, 4);
Visitor.ExpectMatch("operator++@11", 18, 3);
Visitor.ExpectMatch("operator++@14", 19, 4);
EXPECT_TRUE(Visitor.runOver(Source));
}
} // end anonymous namespace