//===- unittest/Tooling/RangeSelectorTest.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 "clang/Tooling/Transformer/RangeSelector.h" #include "clang/ASTMatchers/ASTMatchers.h" #include "clang/Frontend/ASTUnit.h" #include "clang/Tooling/Tooling.h" #include "clang/Tooling/Transformer/Parsing.h" #include "clang/Tooling/Transformer/SourceCode.h" #include "llvm/Support/Error.h" #include "llvm/Testing/Support/Error.h" #include "gmock/gmock.h" #include "gtest/gtest.h" using namespace clang; using namespace transformer; using namespace ast_matchers; namespace { using ::llvm::Expected; using ::llvm::Failed; using ::llvm::HasValue; using ::llvm::StringError; using ::testing::AllOf; using ::testing::HasSubstr; using ::testing::Property; using MatchResult = MatchFinder::MatchResult; struct TestMatch { // The AST unit from which `result` is built. We bundle it because it backs // the result. Users are not expected to access it. std::unique_ptr ASTUnit; // The result to use in the test. References `ast_unit`. MatchResult Result; }; template TestMatch matchCode(StringRef Code, M Matcher) { auto ASTUnit = tooling::buildASTFromCode(Code); assert(ASTUnit != nullptr && "AST construction failed"); ASTContext &Context = ASTUnit->getASTContext(); assert(!Context.getDiagnostics().hasErrorOccurred() && "Compilation error"); TraversalKindScope RAII(Context, ast_type_traits::TK_AsIs); auto Matches = ast_matchers::match(Matcher, Context); // We expect a single, exact match. assert(Matches.size() != 0 && "no matches found"); assert(Matches.size() == 1 && "too many matches"); return TestMatch{std::move(ASTUnit), MatchResult(Matches[0], &Context)}; } // Applies \p Selector to \p Match and, on success, returns the selected source. Expected select(RangeSelector Selector, const TestMatch &Match) { Expected Range = Selector(Match.Result); if (!Range) return Range.takeError(); return tooling::getText(*Range, *Match.Result.Context); } // Applies \p Selector to a trivial match with only a single bound node with id // "bound_node_id". For use in testing unbound-node errors. Expected selectFromTrivial(const RangeSelector &Selector) { // We need to bind the result to something, or the match will fail. Use a // binding that is not used in the unbound node tests. TestMatch Match = matchCode("static int x = 0;", varDecl().bind("bound_node_id")); return Selector(Match.Result); } // Matches the message expected for unbound-node failures. testing::Matcher withUnboundNodeMessage() { return testing::Property( &StringError::getMessage, AllOf(HasSubstr("unbound_id"), HasSubstr("not bound"))); } // Applies \p Selector to code containing assorted node types, where the match // binds each one: a statement ("stmt"), a (non-member) ctor-initializer // ("init"), an expression ("expr") and a (nameless) declaration ("decl"). Used // to test failures caused by applying selectors to nodes of the wrong type. Expected selectFromAssorted(RangeSelector Selector) { StringRef Code = R"cc( struct A {}; class F : public A { public: F(int) {} }; void g() { F f(1); } )cc"; auto Matcher = compoundStmt( hasDescendant( cxxConstructExpr( hasDeclaration( decl(hasDescendant(cxxCtorInitializer(isBaseInitializer()) .bind("init"))) .bind("decl"))) .bind("expr"))) .bind("stmt"); return Selector(matchCode(Code, Matcher).Result); } // Matches the message expected for type-error failures. testing::Matcher withTypeErrorMessage(const std::string &NodeID) { return testing::Property( &StringError::getMessage, AllOf(HasSubstr(NodeID), HasSubstr("mismatched type"))); } TEST(RangeSelectorTest, UnboundNode) { EXPECT_THAT_EXPECTED(selectFromTrivial(node("unbound_id")), Failed(withUnboundNodeMessage())); } MATCHER_P(EqualsCharSourceRange, Range, "") { return Range.getAsRange() == arg.getAsRange() && Range.isTokenRange() == arg.isTokenRange(); } // FIXME: here and elsewhere: use llvm::Annotations library to explicitly mark // points and ranges of interest, enabling more readable tests. TEST(RangeSelectorTest, BeforeOp) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; StringRef CallID = "call"; ast_matchers::internal::Matcher M = callExpr().bind(CallID); RangeSelector R = before(node(CallID.str())); TestMatch Match = matchCode(Code, M); const auto *E = Match.Result.Nodes.getNodeAs(CallID); assert(E != nullptr); auto ExprBegin = E->getSourceRange().getBegin(); EXPECT_THAT_EXPECTED( R(Match.Result), HasValue(EqualsCharSourceRange( CharSourceRange::getCharRange(ExprBegin, ExprBegin)))); } TEST(RangeSelectorTest, BeforeOpParsed) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; StringRef CallID = "call"; ast_matchers::internal::Matcher M = callExpr().bind(CallID); auto R = parseRangeSelector(R"rs(before(node("call")))rs"); ASSERT_THAT_EXPECTED(R, llvm::Succeeded()); TestMatch Match = matchCode(Code, M); const auto *E = Match.Result.Nodes.getNodeAs(CallID); assert(E != nullptr); auto ExprBegin = E->getSourceRange().getBegin(); EXPECT_THAT_EXPECTED( (*R)(Match.Result), HasValue(EqualsCharSourceRange( CharSourceRange::getCharRange(ExprBegin, ExprBegin)))); } TEST(RangeSelectorTest, AfterOp) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; StringRef Call = "call"; TestMatch Match = matchCode(Code, callExpr().bind(Call)); const auto* E = Match.Result.Nodes.getNodeAs(Call); assert(E != nullptr); const SourceRange Range = E->getSourceRange(); // The end token, a right paren, is one character wide, so advance by one, // bringing us to the semicolon. const SourceLocation SemiLoc = Range.getEnd().getLocWithOffset(1); const auto ExpectedAfter = CharSourceRange::getCharRange(SemiLoc, SemiLoc); // Test with a char range. auto CharRange = CharSourceRange::getCharRange(Range.getBegin(), SemiLoc); EXPECT_THAT_EXPECTED(after(charRange(CharRange))(Match.Result), HasValue(EqualsCharSourceRange(ExpectedAfter))); // Test with a token range. auto TokenRange = CharSourceRange::getTokenRange(Range); EXPECT_THAT_EXPECTED(after(charRange(TokenRange))(Match.Result), HasValue(EqualsCharSourceRange(ExpectedAfter))); } // Gets the spelling location `Length` characters after the start of AST node // `Id`. static SourceLocation getSpellingLocAfter(const MatchResult &Result, StringRef Id, int Length) { const auto *E = Result.Nodes.getNodeAs(Id); assert(E != nullptr); return Result.SourceManager->getSpellingLoc(E->getBeginLoc()) .getLocWithOffset(Length); } // Test with a range that is the entire macro arg, but does not end the // expansion itself. TEST(RangeSelectorTest, AfterOpInMacroArg) { StringRef Code = R"cc( #define ISNULL(x) x == nullptr bool g() { int* y; return ISNULL(y); } )cc"; TestMatch Match = matchCode(Code, declRefExpr(to(namedDecl(hasName("y")))).bind("yvar")); int YVarLen = 1; SourceLocation After = getSpellingLocAfter(Match.Result, "yvar", YVarLen); CharSourceRange Expected = CharSourceRange::getCharRange(After, After); EXPECT_THAT_EXPECTED(after(node("yvar"))(Match.Result), HasValue(EqualsCharSourceRange(Expected))); } // Test with a range that is the entire macro arg and ends the expansion itself. TEST(RangeSelectorTest, AfterOpInMacroArgEndsExpansion) { StringRef Code = R"cc( #define ISNULL(x) nullptr == x bool g() { int* y; return ISNULL(y); } )cc"; TestMatch Match = matchCode(Code, declRefExpr(to(namedDecl(hasName("y")))).bind("yvar")); int YVarLen = 1; SourceLocation After = getSpellingLocAfter(Match.Result, "yvar", YVarLen); CharSourceRange Expected = CharSourceRange::getCharRange(After, After); EXPECT_THAT_EXPECTED(after(node("yvar"))(Match.Result), HasValue(EqualsCharSourceRange(Expected))); } TEST(RangeSelectorTest, AfterOpInPartOfMacroArg) { StringRef Code = R"cc( #define ISNULL(x) x == nullptr int* f(int*); bool g() { int* y; return ISNULL(f(y)); } )cc"; TestMatch Match = matchCode(Code, declRefExpr(to(namedDecl(hasName("y")))).bind("yvar")); int YVarLen = 1; SourceLocation After = getSpellingLocAfter(Match.Result, "yvar", YVarLen); CharSourceRange Expected = CharSourceRange::getCharRange(After, After); EXPECT_THAT_EXPECTED(after(node("yvar"))(Match.Result), HasValue(EqualsCharSourceRange(Expected))); } TEST(RangeSelectorTest, BetweenOp) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(3, /* comment */ 7 /* comment */, 9); } )cc"; auto Matcher = callExpr(hasArgument(0, expr().bind("a0")), hasArgument(1, expr().bind("a1"))); RangeSelector R = between(node("a0"), node("a1")); TestMatch Match = matchCode(Code, Matcher); EXPECT_THAT_EXPECTED(select(R, Match), HasValue(", /* comment */ ")); } TEST(RangeSelectorTest, BetweenOpParsed) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(3, /* comment */ 7 /* comment */, 9); } )cc"; auto Matcher = callExpr(hasArgument(0, expr().bind("a0")), hasArgument(1, expr().bind("a1"))); auto R = parseRangeSelector(R"rs(between(node("a0"), node("a1")))rs"); ASSERT_THAT_EXPECTED(R, llvm::Succeeded()); TestMatch Match = matchCode(Code, Matcher); EXPECT_THAT_EXPECTED(select(*R, Match), HasValue(", /* comment */ ")); } // Node-id specific version. TEST(RangeSelectorTest, EncloseOpNodes) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; auto Matcher = callExpr(hasArgument(0, expr().bind("a0")), hasArgument(1, expr().bind("a1"))); RangeSelector R = encloseNodes("a0", "a1"); TestMatch Match = matchCode(Code, Matcher); EXPECT_THAT_EXPECTED(select(R, Match), HasValue("3, 7")); } TEST(RangeSelectorTest, EncloseOpGeneral) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; auto Matcher = callExpr(hasArgument(0, expr().bind("a0")), hasArgument(1, expr().bind("a1"))); RangeSelector R = enclose(node("a0"), node("a1")); TestMatch Match = matchCode(Code, Matcher); EXPECT_THAT_EXPECTED(select(R, Match), HasValue("3, 7")); } TEST(RangeSelectorTest, EncloseOpNodesParsed) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; auto Matcher = callExpr(hasArgument(0, expr().bind("a0")), hasArgument(1, expr().bind("a1"))); auto R = parseRangeSelector(R"rs(encloseNodes("a0", "a1"))rs"); ASSERT_THAT_EXPECTED(R, llvm::Succeeded()); TestMatch Match = matchCode(Code, Matcher); EXPECT_THAT_EXPECTED(select(*R, Match), HasValue("3, 7")); } TEST(RangeSelectorTest, EncloseOpGeneralParsed) { StringRef Code = R"cc( int f(int x, int y, int z) { return 3; } int g() { return f(/* comment */ 3, 7 /* comment */, 9); } )cc"; auto Matcher = callExpr(hasArgument(0, expr().bind("a0")), hasArgument(1, expr().bind("a1"))); auto R = parseRangeSelector(R"rs(encloseNodes("a0", "a1"))rs"); ASSERT_THAT_EXPECTED(R, llvm::Succeeded()); TestMatch Match = matchCode(Code, Matcher); EXPECT_THAT_EXPECTED(select(*R, Match), HasValue("3, 7")); } TEST(RangeSelectorTest, NodeOpStatement) { StringRef Code = "int f() { return 3; }"; TestMatch Match = matchCode(Code, returnStmt().bind("id")); EXPECT_THAT_EXPECTED(select(node("id"), Match), HasValue("return 3;")); } TEST(RangeSelectorTest, NodeOpExpression) { StringRef Code = "int f() { return 3; }"; TestMatch Match = matchCode(Code, expr().bind("id")); EXPECT_THAT_EXPECTED(select(node("id"), Match), HasValue("3")); } TEST(RangeSelectorTest, StatementOp) { StringRef Code = "int f() { return 3; }"; TestMatch Match = matchCode(Code, expr().bind("id")); RangeSelector R = statement("id"); EXPECT_THAT_EXPECTED(select(R, Match), HasValue("3;")); } TEST(RangeSelectorTest, StatementOpParsed) { StringRef Code = "int f() { return 3; }"; TestMatch Match = matchCode(Code, expr().bind("id")); auto R = parseRangeSelector(R"rs(statement("id"))rs"); ASSERT_THAT_EXPECTED(R, llvm::Succeeded()); EXPECT_THAT_EXPECTED(select(*R, Match), HasValue("3;")); } TEST(RangeSelectorTest, MemberOp) { StringRef Code = R"cc( struct S { int member; }; int g() { S s; return s.member; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, memberExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(member(ID), Match), HasValue("member")); } // Tests that member does not select any qualifiers on the member name. TEST(RangeSelectorTest, MemberOpQualified) { StringRef Code = R"cc( struct S { int member; }; struct T : public S { int field; }; int g() { T t; return t.S::member; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, memberExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(member(ID), Match), HasValue("member")); } TEST(RangeSelectorTest, MemberOpTemplate) { StringRef Code = R"cc( struct S { template T foo(T t); }; int f(int x) { S s; return s.template foo(3); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, memberExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(member(ID), Match), HasValue("foo")); } TEST(RangeSelectorTest, MemberOpOperator) { StringRef Code = R"cc( struct S { int operator*(); }; int f(int x) { S s; return s.operator *(); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, memberExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(member(ID), Match), HasValue("operator *")); } TEST(RangeSelectorTest, NameOpNamedDecl) { StringRef Code = R"cc( int myfun() { return 3; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, functionDecl().bind(ID)); EXPECT_THAT_EXPECTED(select(name(ID), Match), HasValue("myfun")); } TEST(RangeSelectorTest, NameOpDeclRef) { StringRef Code = R"cc( int foo(int x) { return x; } int g(int x) { return foo(x) * x; } )cc"; const char *Ref = "ref"; TestMatch Match = matchCode(Code, declRefExpr(to(functionDecl())).bind(Ref)); EXPECT_THAT_EXPECTED(select(name(Ref), Match), HasValue("foo")); } TEST(RangeSelectorTest, NameOpCtorInitializer) { StringRef Code = R"cc( class C { public: C() : field(3) {} int field; }; )cc"; const char *Init = "init"; TestMatch Match = matchCode(Code, cxxCtorInitializer().bind(Init)); EXPECT_THAT_EXPECTED(select(name(Init), Match), HasValue("field")); } TEST(RangeSelectorTest, NameOpErrors) { EXPECT_THAT_EXPECTED(selectFromTrivial(name("unbound_id")), Failed(withUnboundNodeMessage())); EXPECT_THAT_EXPECTED(selectFromAssorted(name("stmt")), Failed(withTypeErrorMessage("stmt"))); } TEST(RangeSelectorTest, NameOpDeclRefError) { StringRef Code = R"cc( struct S { int operator*(); }; int f(int x) { S s; return *s + x; } )cc"; const char *Ref = "ref"; TestMatch Match = matchCode(Code, declRefExpr(to(functionDecl())).bind(Ref)); EXPECT_THAT_EXPECTED( name(Ref)(Match.Result), Failed(testing::Property( &StringError::getMessage, AllOf(HasSubstr(Ref), HasSubstr("requires property 'identifier'"))))); } TEST(RangeSelectorTest, CallArgsOp) { const StringRef Code = R"cc( struct C { int bar(int, int); }; int f() { C x; return x.bar(3, 4); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue("3, 4")); } TEST(RangeSelectorTest, CallArgsOpNoArgs) { const StringRef Code = R"cc( struct C { int bar(); }; int f() { C x; return x.bar(); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue("")); } TEST(RangeSelectorTest, CallArgsOpNoArgsWithComments) { const StringRef Code = R"cc( struct C { int bar(); }; int f() { C x; return x.bar(/*empty*/); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue("/*empty*/")); } // Tests that arguments are extracted correctly when a temporary (with parens) // is used. TEST(RangeSelectorTest, CallArgsOpWithParens) { const StringRef Code = R"cc( struct C { int bar(int, int) { return 3; } }; int f() { C x; return C().bar(3, 4); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr(callee(functionDecl(hasName("bar")))).bind(ID)); EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue("3, 4")); } TEST(RangeSelectorTest, CallArgsOpLeadingComments) { const StringRef Code = R"cc( struct C { int bar(int, int) { return 3; } }; int f() { C x; return x.bar(/*leading*/ 3, 4); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue("/*leading*/ 3, 4")); } TEST(RangeSelectorTest, CallArgsOpTrailingComments) { const StringRef Code = R"cc( struct C { int bar(int, int) { return 3; } }; int f() { C x; return x.bar(3 /*trailing*/, 4); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue("3 /*trailing*/, 4")); } TEST(RangeSelectorTest, CallArgsOpEolComments) { const StringRef Code = R"cc( struct C { int bar(int, int) { return 3; } }; int f() { C x; return x.bar( // Header 1, // foo 2 // bar ); } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, callExpr().bind(ID)); std::string ExpectedString = R"( // Header 1, // foo 2 // bar )"; EXPECT_THAT_EXPECTED(select(callArgs(ID), Match), HasValue(ExpectedString)); } TEST(RangeSelectorTest, CallArgsErrors) { EXPECT_THAT_EXPECTED(selectFromTrivial(callArgs("unbound_id")), Failed(withUnboundNodeMessage())); EXPECT_THAT_EXPECTED(selectFromAssorted(callArgs("stmt")), Failed(withTypeErrorMessage("stmt"))); } TEST(RangeSelectorTest, StatementsOp) { StringRef Code = R"cc( void g(); void f() { /* comment */ g(); /* comment */ g(); /* comment */ } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, compoundStmt().bind(ID)); EXPECT_THAT_EXPECTED( select(statements(ID), Match), HasValue(" /* comment */ g(); /* comment */ g(); /* comment */ ")); } TEST(RangeSelectorTest, StatementsOpEmptyList) { StringRef Code = "void f() {}"; const char *ID = "id"; TestMatch Match = matchCode(Code, compoundStmt().bind(ID)); EXPECT_THAT_EXPECTED(select(statements(ID), Match), HasValue("")); } TEST(RangeSelectorTest, StatementsOpErrors) { EXPECT_THAT_EXPECTED(selectFromTrivial(statements("unbound_id")), Failed(withUnboundNodeMessage())); EXPECT_THAT_EXPECTED(selectFromAssorted(statements("decl")), Failed(withTypeErrorMessage("decl"))); } TEST(RangeSelectorTest, ElementsOp) { StringRef Code = R"cc( void f() { int v[] = {/* comment */ 3, /* comment*/ 4 /* comment */}; (void)v; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, initListExpr().bind(ID)); EXPECT_THAT_EXPECTED( select(initListElements(ID), Match), HasValue("/* comment */ 3, /* comment*/ 4 /* comment */")); } TEST(RangeSelectorTest, ElementsOpEmptyList) { StringRef Code = R"cc( void f() { int v[] = {}; (void)v; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, initListExpr().bind(ID)); EXPECT_THAT_EXPECTED(select(initListElements(ID), Match), HasValue("")); } TEST(RangeSelectorTest, ElementsOpErrors) { EXPECT_THAT_EXPECTED(selectFromTrivial(initListElements("unbound_id")), Failed(withUnboundNodeMessage())); EXPECT_THAT_EXPECTED(selectFromAssorted(initListElements("stmt")), Failed(withTypeErrorMessage("stmt"))); } TEST(RangeSelectorTest, ElseBranchOpSingleStatement) { StringRef Code = R"cc( int f() { int x = 0; if (true) x = 3; else x = 4; return x + 5; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, ifStmt().bind(ID)); EXPECT_THAT_EXPECTED(select(elseBranch(ID), Match), HasValue("else x = 4;")); } TEST(RangeSelectorTest, ElseBranchOpCompoundStatement) { StringRef Code = R"cc( int f() { int x = 0; if (true) x = 3; else { x = 4; } return x + 5; } )cc"; const char *ID = "id"; TestMatch Match = matchCode(Code, ifStmt().bind(ID)); EXPECT_THAT_EXPECTED(select(elseBranch(ID), Match), HasValue("else { x = 4; }")); } // Tests case where the matched node is the complete expanded text. TEST(RangeSelectorTest, ExpansionOp) { StringRef Code = R"cc( #define BADDECL(E) int bad(int x) { return E; } BADDECL(x * x) )cc"; const char *Fun = "Fun"; TestMatch Match = matchCode(Code, functionDecl(hasName("bad")).bind(Fun)); EXPECT_THAT_EXPECTED(select(expansion(node(Fun)), Match), HasValue("BADDECL(x * x)")); } // Tests case where the matched node is (only) part of the expanded text. TEST(RangeSelectorTest, ExpansionOpPartial) { StringRef Code = R"cc( #define BADDECL(E) int bad(int x) { return E; } BADDECL(x * x) )cc"; const char *Ret = "Ret"; TestMatch Match = matchCode(Code, returnStmt().bind(Ret)); EXPECT_THAT_EXPECTED(select(expansion(node(Ret)), Match), HasValue("BADDECL(x * x)")); } TEST(RangeSelectorTest, IfBoundOpBound) { StringRef Code = R"cc( int f() { return 3 + 5; } )cc"; const char *ID = "id", *Op = "op"; TestMatch Match = matchCode(Code, binaryOperator(hasLHS(expr().bind(ID))).bind(Op)); EXPECT_THAT_EXPECTED(select(ifBound(ID, node(ID), node(Op)), Match), HasValue("3")); } TEST(RangeSelectorTest, IfBoundOpUnbound) { StringRef Code = R"cc( int f() { return 3 + 5; } )cc"; const char *ID = "id", *Op = "op"; TestMatch Match = matchCode(Code, binaryOperator().bind(Op)); EXPECT_THAT_EXPECTED(select(ifBound(ID, node(ID), node(Op)), Match), HasValue("3 + 5")); } } // namespace