//===- unittest/AST/ASTContextParentMapTest.cpp - AST parent map test -----===// // // 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 // //===----------------------------------------------------------------------===// // // Tests for the getParents(...) methods of ASTContext. // //===----------------------------------------------------------------------===// #include "clang/AST/ASTContext.h" #include "MatchVerifier.h" #include "clang/ASTMatchers/ASTMatchFinder.h" #include "clang/ASTMatchers/ASTMatchers.h" #include "clang/Tooling/Tooling.h" #include "gtest/gtest.h" #include "gmock/gmock.h" using testing::ElementsAre; namespace clang { namespace ast_matchers { TEST(GetParents, ReturnsParentForDecl) { MatchVerifier Verifier; EXPECT_TRUE( Verifier.match("class C { void f(); };", cxxMethodDecl(hasParent(recordDecl(hasName("C")))))); } TEST(GetParents, ReturnsParentForStmt) { MatchVerifier Verifier; EXPECT_TRUE(Verifier.match("class C { void f() { if (true) {} } };", ifStmt(hasParent(compoundStmt())))); } TEST(GetParents, ReturnsParentForTypeLoc) { MatchVerifier Verifier; EXPECT_TRUE( Verifier.match("namespace a { class b {}; } void f(a::b) {}", typeLoc(hasParent(typeLoc(hasParent(functionDecl())))))); } TEST(GetParents, ReturnsParentForNestedNameSpecifierLoc) { MatchVerifier Verifier; EXPECT_TRUE(Verifier.match("namespace a { class b {}; } void f(a::b) {}", nestedNameSpecifierLoc(hasParent(typeLoc())))); } TEST(GetParents, ReturnsParentInsideTemplateInstantiations) { MatchVerifier DeclVerifier; EXPECT_TRUE(DeclVerifier.match( "template struct C { void f() {} };" "void g() { C c; c.f(); }", cxxMethodDecl(hasName("f"), hasParent(cxxRecordDecl(isTemplateInstantiation()))))); EXPECT_TRUE(DeclVerifier.match( "template struct C { void f() {} };" "void g() { C c; c.f(); }", cxxMethodDecl(hasName("f"), hasParent(cxxRecordDecl(unless(isTemplateInstantiation())))))); EXPECT_FALSE(DeclVerifier.match( "template struct C { void f() {} };" "void g() { C c; c.f(); }", cxxMethodDecl( hasName("f"), allOf(hasParent(cxxRecordDecl(unless(isTemplateInstantiation()))), hasParent(cxxRecordDecl(isTemplateInstantiation())))))); } TEST(GetParents, ReturnsMultipleParentsInTemplateInstantiations) { MatchVerifier TemplateVerifier; EXPECT_TRUE(TemplateVerifier.match( "template struct C { void f() {} };" "void g() { C c; c.f(); }", compoundStmt(allOf( hasAncestor(cxxRecordDecl(isTemplateInstantiation())), hasAncestor(cxxRecordDecl(unless(isTemplateInstantiation()))))))); } TEST(GetParents, RespectsTraversalScope) { auto AST = tooling::buildASTFromCode("struct foo { int bar; };", "foo.cpp", std::make_shared()); auto &Ctx = AST->getASTContext(); auto &TU = *Ctx.getTranslationUnitDecl(); auto &Foo = *TU.lookup(&Ctx.Idents.get("foo")).front(); auto &Bar = *cast(Foo).lookup(&Ctx.Idents.get("bar")).front(); // Initially, scope is the whole TU. EXPECT_THAT(Ctx.getParents(Bar), ElementsAre(DynTypedNode::create(Foo))); EXPECT_THAT(Ctx.getParents(Foo), ElementsAre(DynTypedNode::create(TU))); // Restrict the scope, now some parents are gone. Ctx.setTraversalScope({&Foo}); EXPECT_THAT(Ctx.getParents(Bar), ElementsAre(DynTypedNode::create(Foo))); EXPECT_THAT(Ctx.getParents(Foo), ElementsAre()); // Reset the scope, we get back the original results. Ctx.setTraversalScope({&TU}); EXPECT_THAT(Ctx.getParents(Bar), ElementsAre(DynTypedNode::create(Foo))); EXPECT_THAT(Ctx.getParents(Foo), ElementsAre(DynTypedNode::create(TU))); } TEST(GetParents, ImplicitLambdaNodes) { MatchVerifier LambdaVerifier; EXPECT_TRUE(LambdaVerifier.match( "auto x = []{int y;};", varDecl(hasName("y"), hasAncestor(functionDecl( hasOverloadedOperatorName("()"), hasParent(cxxRecordDecl( isImplicit(), hasParent(lambdaExpr())))))), Lang_CXX11)); } } // end namespace ast_matchers } // end namespace clang