| //===- unittest/Format/TokenAnnotatorTest.cpp - Formatting unit tests -----===// |
| // |
| // 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/Format/Format.h" |
| |
| #include "FormatTestUtils.h" |
| #include "TestLexer.h" |
| #include "gtest/gtest.h" |
| |
| namespace clang { |
| namespace format { |
| |
| // Not really the equality, but everything we need. |
| static bool operator==(const FormatToken &LHS, |
| const FormatToken &RHS) noexcept { |
| return LHS.Tok.getKind() == RHS.Tok.getKind() && |
| LHS.getType() == RHS.getType(); |
| } |
| |
| namespace { |
| |
| class TokenAnnotatorTest : public ::testing::Test { |
| protected: |
| TokenList annotate(llvm::StringRef Code, |
| const FormatStyle &Style = getLLVMStyle()) { |
| return TestLexer(Allocator, Buffers, Style).annotate(Code); |
| } |
| llvm::SpecificBumpPtrAllocator<FormatToken> Allocator; |
| std::vector<std::unique_ptr<llvm::MemoryBuffer>> Buffers; |
| }; |
| |
| #define EXPECT_TOKEN_KIND(FormatTok, Kind) \ |
| EXPECT_EQ((FormatTok)->Tok.getKind(), Kind) << *(FormatTok) |
| #define EXPECT_TOKEN_TYPE(FormatTok, Type) \ |
| EXPECT_EQ((FormatTok)->getType(), Type) << *(FormatTok) |
| #define EXPECT_TOKEN_PRECEDENCE(FormatTok, Prec) \ |
| EXPECT_EQ((FormatTok)->getPrecedence(), Prec) << *(FormatTok) |
| #define EXPECT_TOKEN(FormatTok, Kind, Type) \ |
| do { \ |
| EXPECT_TOKEN_KIND(FormatTok, Kind); \ |
| EXPECT_TOKEN_TYPE(FormatTok, Type); \ |
| } while (false) |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsUsesOfStarAndAmp) { |
| auto Tokens = annotate("auto x = [](const decltype(x) &ptr) {};"); |
| EXPECT_EQ(Tokens.size(), 18u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::kw_decltype, TT_Unknown); |
| EXPECT_TOKEN(Tokens[8], tok::l_paren, TT_TypeDeclarationParen); |
| EXPECT_TOKEN(Tokens[9], tok::identifier, TT_Unknown); |
| EXPECT_TOKEN(Tokens[10], tok::r_paren, TT_TypeDeclarationParen); |
| EXPECT_TOKEN(Tokens[11], tok::amp, TT_PointerOrReference); |
| |
| Tokens = annotate("auto x = [](const decltype(x) *ptr) {};"); |
| EXPECT_EQ(Tokens.size(), 18u) << Tokens; |
| EXPECT_TOKEN(Tokens[10], tok::r_paren, TT_TypeDeclarationParen); |
| EXPECT_TOKEN(Tokens[11], tok::star, TT_PointerOrReference); |
| |
| Tokens = annotate("#define lambda [](const decltype(x) &ptr) {}"); |
| EXPECT_EQ(Tokens.size(), 17u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::kw_decltype, TT_Unknown); |
| EXPECT_TOKEN(Tokens[8], tok::l_paren, TT_TypeDeclarationParen); |
| EXPECT_TOKEN(Tokens[9], tok::identifier, TT_Unknown); |
| EXPECT_TOKEN(Tokens[10], tok::r_paren, TT_TypeDeclarationParen); |
| EXPECT_TOKEN(Tokens[11], tok::amp, TT_PointerOrReference); |
| |
| Tokens = annotate("#define lambda [](const decltype(x) *ptr) {}"); |
| EXPECT_EQ(Tokens.size(), 17u) << Tokens; |
| EXPECT_TOKEN(Tokens[10], tok::r_paren, TT_TypeDeclarationParen); |
| EXPECT_TOKEN(Tokens[11], tok::star, TT_PointerOrReference); |
| |
| Tokens = annotate("void f() {\n" |
| " while (p < a && *p == 'a')\n" |
| " p++;\n" |
| "}"); |
| EXPECT_EQ(Tokens.size(), 21u) << Tokens; |
| EXPECT_TOKEN(Tokens[10], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[11], tok::star, TT_UnaryOperator); |
| |
| Tokens = annotate("case *x:"); |
| EXPECT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::star, TT_UnaryOperator); |
| Tokens = annotate("case &x:"); |
| EXPECT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::amp, TT_UnaryOperator); |
| |
| Tokens = annotate("struct {\n" |
| "} *ptr;"); |
| EXPECT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::star, TT_PointerOrReference); |
| Tokens = annotate("union {\n" |
| "} *ptr;"); |
| EXPECT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::star, TT_PointerOrReference); |
| Tokens = annotate("class {\n" |
| "} *ptr;"); |
| EXPECT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::star, TT_PointerOrReference); |
| |
| Tokens = annotate("struct {\n" |
| "} &&ptr = {};"); |
| EXPECT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::ampamp, TT_PointerOrReference); |
| Tokens = annotate("union {\n" |
| "} &&ptr = {};"); |
| EXPECT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::ampamp, TT_PointerOrReference); |
| Tokens = annotate("class {\n" |
| "} &&ptr = {};"); |
| EXPECT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::ampamp, TT_PointerOrReference); |
| Tokens = annotate("int i = int{42} * 2;"); |
| EXPECT_EQ(Tokens.size(), 11u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::star, TT_BinaryOperator); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsUsesOfPlusAndMinus) { |
| auto Tokens = annotate("x - 0"); |
| ASSERT_EQ(Tokens.size(), 4u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_BinaryOperator); |
| Tokens = annotate("0 + 0"); |
| ASSERT_EQ(Tokens.size(), 4u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_BinaryOperator); |
| Tokens = annotate("x + +0"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("x ? -0 : +0"); |
| ASSERT_EQ(Tokens.size(), 8u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::minus, TT_UnaryOperator); |
| EXPECT_TOKEN(Tokens[5], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("(-0)"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("0, -0"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("for (; -1;) {\n}"); |
| ASSERT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("x = -1;"); |
| ASSERT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("x[-1]"); |
| ASSERT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("x = {-1};"); |
| ASSERT_EQ(Tokens.size(), 8u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("case -x:"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("co_await -x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("co_return -x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("co_yield -x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("delete -x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("return -x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("throw -x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("sizeof -x"); |
| ASSERT_EQ(Tokens.size(), 4u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("co_await +x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("co_return +x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("co_yield +x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("delete +x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("return +x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("throw +x;"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("sizeof +x"); |
| ASSERT_EQ(Tokens.size(), 4u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| Tokens = annotate("(int)-x"); |
| ASSERT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("(-x)"); |
| ASSERT_EQ(Tokens.size(), 5u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::minus, TT_UnaryOperator); |
| Tokens = annotate("!+x"); |
| ASSERT_EQ(Tokens.size(), 4u) << Tokens; |
| EXPECT_TOKEN(Tokens[0], tok::exclaim, TT_UnaryOperator); |
| EXPECT_TOKEN(Tokens[1], tok::plus, TT_UnaryOperator); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsClasses) { |
| auto Tokens = annotate("class C {};"); |
| EXPECT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::l_brace, TT_ClassLBrace); |
| |
| Tokens = annotate("const class C {} c;"); |
| EXPECT_EQ(Tokens.size(), 8u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::l_brace, TT_ClassLBrace); |
| |
| Tokens = annotate("const class {} c;"); |
| EXPECT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::l_brace, TT_ClassLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsStructs) { |
| auto Tokens = annotate("struct S {};"); |
| EXPECT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::l_brace, TT_StructLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsUnions) { |
| auto Tokens = annotate("union U {};"); |
| EXPECT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::l_brace, TT_UnionLBrace); |
| |
| Tokens = annotate("union U { void f() { return; } };"); |
| EXPECT_EQ(Tokens.size(), 14u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::l_brace, TT_UnionLBrace); |
| EXPECT_TOKEN(Tokens[7], tok::l_brace, TT_FunctionLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsEnums) { |
| auto Tokens = annotate("enum E {};"); |
| EXPECT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::l_brace, TT_EnumLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsDefaultedAndDeletedFunctions) { |
| auto Tokens = annotate("auto operator<=>(const T &) const & = default;"); |
| EXPECT_EQ(Tokens.size(), 14u) << Tokens; |
| EXPECT_TOKEN(Tokens[9], tok::amp, TT_PointerOrReference); |
| |
| Tokens = annotate("template <typename T> void F(T) && = delete;"); |
| EXPECT_EQ(Tokens.size(), 15u) << Tokens; |
| EXPECT_TOKEN(Tokens[10], tok::ampamp, TT_PointerOrReference); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsVariables) { |
| auto Tokens = |
| annotate("inline bool var = is_integral_v<int> && is_signed_v<int>;"); |
| EXPECT_EQ(Tokens.size(), 15u) << Tokens; |
| EXPECT_TOKEN(Tokens[8], tok::ampamp, TT_BinaryOperator); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsVariableTemplates) { |
| auto Tokens = |
| annotate("template <typename T> " |
| "inline bool var = is_integral_v<int> && is_signed_v<int>;"); |
| EXPECT_EQ(Tokens.size(), 20u) << Tokens; |
| EXPECT_TOKEN(Tokens[13], tok::ampamp, TT_BinaryOperator); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsLBracesInMacroDefinition) { |
| auto Tokens = annotate("#define BEGIN NS {"); |
| EXPECT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::l_brace, TT_Unknown); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsDelete) { |
| auto Tokens = annotate("delete (void *)p;"); |
| EXPECT_EQ(Tokens.size(), 8u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::r_paren, TT_CastRParen); |
| |
| Tokens = annotate("delete[] (void *)p;"); |
| EXPECT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::r_paren, TT_CastRParen); |
| |
| Tokens = annotate("delete[] /*comment*/ (void *)p;"); |
| EXPECT_EQ(Tokens.size(), 11u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::r_paren, TT_CastRParen); |
| |
| Tokens = annotate("delete[/*comment*/] (void *)p;"); |
| EXPECT_EQ(Tokens.size(), 11u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::r_paren, TT_CastRParen); |
| |
| Tokens = annotate("delete/*comment*/[] (void *)p;"); |
| EXPECT_EQ(Tokens.size(), 11u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::r_paren, TT_CastRParen); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsFunctionRefQualifiers) { |
| auto Tokens = annotate("void f() &;"); |
| EXPECT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::amp, TT_PointerOrReference); |
| |
| Tokens = annotate("void operator=(T) &&;"); |
| EXPECT_EQ(Tokens.size(), 9u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::ampamp, TT_PointerOrReference); |
| |
| Tokens = annotate("template <typename T> void f() &;"); |
| EXPECT_EQ(Tokens.size(), 12u) << Tokens; |
| EXPECT_TOKEN(Tokens[9], tok::amp, TT_PointerOrReference); |
| |
| Tokens = annotate("template <typename T> void operator=(T) &;"); |
| EXPECT_EQ(Tokens.size(), 14u) << Tokens; |
| EXPECT_TOKEN(Tokens[11], tok::amp, TT_PointerOrReference); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsRequiresClausesAndConcepts) { |
| auto Tokens = annotate("template <typename T>\n" |
| "concept C = (Foo && Bar) && (Bar && Baz);"); |
| |
| ASSERT_EQ(Tokens.size(), 21u) << Tokens; |
| EXPECT_TOKEN(Tokens[10], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[13], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[16], tok::ampamp, TT_BinaryOperator); |
| |
| Tokens = annotate("template <typename T>\n" |
| "concept C = requires(T t) {\n" |
| " { t.foo() };\n" |
| "} && Bar<T> && Baz<T>;"); |
| ASSERT_EQ(Tokens.size(), 35u) << Tokens; |
| EXPECT_TOKEN(Tokens[8], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[9], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[13], tok::l_brace, TT_RequiresExpressionLBrace); |
| EXPECT_TOKEN(Tokens[23], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[28], tok::ampamp, TT_BinaryOperator); |
| |
| Tokens = annotate("template<typename T>\n" |
| "requires C1<T> && (C21<T> || C22<T> && C2e<T>) && C3<T>\n" |
| "struct Foo;"); |
| ASSERT_EQ(Tokens.size(), 36u) << Tokens; |
| EXPECT_TOKEN(Tokens[5], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[6], tok::identifier, TT_Unknown); |
| EXPECT_EQ(Tokens[6]->FakeLParens.size(), 1u); |
| EXPECT_TOKEN(Tokens[10], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[16], tok::pipepipe, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[21], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[27], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[31], tok::greater, TT_TemplateCloser); |
| EXPECT_EQ(Tokens[31]->FakeRParens, 1u); |
| EXPECT_TRUE(Tokens[31]->ClosesRequiresClause); |
| |
| Tokens = |
| annotate("template<typename T>\n" |
| "requires (C1<T> && (C21<T> || C22<T> && C2e<T>) && C3<T>)\n" |
| "struct Foo;"); |
| ASSERT_EQ(Tokens.size(), 38u) << Tokens; |
| EXPECT_TOKEN(Tokens[5], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[7], tok::identifier, TT_Unknown); |
| EXPECT_EQ(Tokens[7]->FakeLParens.size(), 1u); |
| EXPECT_TOKEN(Tokens[11], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[17], tok::pipepipe, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[22], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[28], tok::ampamp, TT_BinaryOperator); |
| EXPECT_TOKEN(Tokens[32], tok::greater, TT_TemplateCloser); |
| EXPECT_EQ(Tokens[32]->FakeRParens, 1u); |
| EXPECT_TOKEN(Tokens[33], tok::r_paren, TT_Unknown); |
| EXPECT_TRUE(Tokens[33]->ClosesRequiresClause); |
| |
| Tokens = annotate("template <typename T>\n" |
| "void foo(T) noexcept requires Bar<T>;"); |
| ASSERT_EQ(Tokens.size(), 18u) << Tokens; |
| EXPECT_TOKEN(Tokens[11], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("template <typename T>\n" |
| "struct S {\n" |
| " void foo() const requires Bar<T>;\n" |
| " void bar() const & requires Baz<T>;\n" |
| " void bar() && requires Baz2<T>;\n" |
| " void baz() const & noexcept requires Baz<T>;\n" |
| " void baz() && noexcept requires Baz2<T>;\n" |
| "};\n" |
| "\n" |
| "void S::bar() const & requires Baz<T> { }"); |
| ASSERT_EQ(Tokens.size(), 85u) << Tokens; |
| EXPECT_TOKEN(Tokens[13], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[25], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[36], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[49], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[61], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[77], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("void Class::member() && requires(Constant) {}"); |
| ASSERT_EQ(Tokens.size(), 14u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("void Class::member() && requires(Constant<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 17u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = |
| annotate("void Class::member() && requires(Namespace::Constant<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 19u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("void Class::member() && requires(typename " |
| "Namespace::Outer<T>::Inner::Constant) {}"); |
| ASSERT_EQ(Tokens.size(), 24u) << Tokens; |
| EXPECT_TOKEN(Tokens[7], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("struct [[nodiscard]] zero_t {\n" |
| " template<class T>\n" |
| " requires requires { number_zero_v<T>; }\n" |
| " [[nodiscard]] constexpr operator T() const { " |
| "return number_zero_v<T>; }\n" |
| "};"); |
| ASSERT_EQ(Tokens.size(), 44u); |
| EXPECT_TOKEN(Tokens[13], tok::kw_requires, TT_RequiresClause); |
| EXPECT_TOKEN(Tokens[14], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[15], tok::l_brace, TT_RequiresExpressionLBrace); |
| EXPECT_TOKEN(Tokens[21], tok::r_brace, TT_Unknown); |
| EXPECT_EQ(Tokens[21]->MatchingParen, Tokens[15]); |
| EXPECT_TRUE(Tokens[21]->ClosesRequiresClause); |
| |
| Tokens = |
| annotate("template <class A, class B> concept C =" |
| "std::same_as<std::iter_value_t<A>, std::iter_value_t<B>>;"); |
| ASSERT_EQ(Tokens.size(), 31u) << Tokens; |
| EXPECT_TOKEN(Tokens[8], tok::kw_concept, TT_Unknown); |
| EXPECT_TOKEN(Tokens[14], tok::less, TT_TemplateOpener); |
| EXPECT_TOKEN(Tokens[18], tok::less, TT_TemplateOpener); |
| EXPECT_TOKEN(Tokens[20], tok::greater, TT_TemplateCloser); |
| EXPECT_TOKEN(Tokens[25], tok::less, TT_TemplateOpener); |
| EXPECT_TOKEN(Tokens[27], tok::greater, TT_TemplateCloser); |
| EXPECT_TOKEN(Tokens[28], tok::greater, TT_TemplateCloser); |
| |
| Tokens = annotate("auto bar() -> int requires(is_integral_v<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 16u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("auto bar() -> void requires(is_integral_v<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 16u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = annotate("auto bar() -> MyType requires(is_integral_v<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 16u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = |
| annotate("auto bar() -> SOME_MACRO_TYPE requires(is_integral_v<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 16u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = |
| annotate("auto bar() -> qualified::type requires(is_integral_v<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 18u) << Tokens; |
| EXPECT_TOKEN(Tokens[8], tok::kw_requires, TT_RequiresClause); |
| |
| Tokens = |
| annotate("auto bar() -> Template<type> requires(is_integral_v<T>) {}"); |
| ASSERT_EQ(Tokens.size(), 19u) << Tokens; |
| EXPECT_TOKEN(Tokens[9], tok::kw_requires, TT_RequiresClause); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsRequiresExpressions) { |
| auto Tokens = annotate("bool b = requires(int i) { i + 5; };"); |
| ASSERT_EQ(Tokens.size(), 16u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[4], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[8], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("if (requires(int i) { i + 5; }) return;"); |
| ASSERT_EQ(Tokens.size(), 17u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[7], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("if (func() && requires(int i) { i + 5; }) return;"); |
| ASSERT_EQ(Tokens.size(), 21u) << Tokens; |
| EXPECT_TOKEN(Tokens[6], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[7], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[11], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("foo(requires(const T t) {});"); |
| ASSERT_EQ(Tokens.size(), 13u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[8], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("foo(requires(const int t) {});"); |
| ASSERT_EQ(Tokens.size(), 13u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[8], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("foo(requires(const T t) {});"); |
| ASSERT_EQ(Tokens.size(), 13u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[8], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("foo(requires(int const* volatile t) {});"); |
| ASSERT_EQ(Tokens.size(), 15u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[10], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("foo(requires(T const* volatile t) {});"); |
| ASSERT_EQ(Tokens.size(), 15u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[10], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = |
| annotate("foo(requires(const typename Outer<T>::Inner * const t) {});"); |
| ASSERT_EQ(Tokens.size(), 21u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[3], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[16], tok::l_brace, TT_RequiresExpressionLBrace); |
| |
| Tokens = annotate("template <typename T>\n" |
| "concept C = requires(T T) {\n" |
| " requires Bar<T> && Foo<T>;\n" |
| "};"); |
| ASSERT_EQ(Tokens.size(), 28u) << Tokens; |
| EXPECT_TOKEN(Tokens[8], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[9], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[13], tok::l_brace, TT_RequiresExpressionLBrace); |
| EXPECT_TOKEN(Tokens[14], tok::kw_requires, |
| TT_RequiresClauseInARequiresExpression); |
| |
| Tokens = annotate("template <typename T>\n" |
| "concept C = requires(T T) {\n" |
| " { t.func() } -> std::same_as<int>;" |
| " requires Bar<T> && Foo<T>;\n" |
| "};"); |
| ASSERT_EQ(Tokens.size(), 43u) << Tokens; |
| EXPECT_TOKEN(Tokens[8], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[9], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[13], tok::l_brace, TT_RequiresExpressionLBrace); |
| EXPECT_TOKEN(Tokens[29], tok::kw_requires, |
| TT_RequiresClauseInARequiresExpression); |
| |
| // Invalid Code, but we don't want to crash. See http://llvm.org/PR54350. |
| Tokens = annotate("bool r10 = requires (struct new_struct { int x; } s) { " |
| "requires true; };"); |
| ASSERT_EQ(Tokens.size(), 21u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::kw_requires, TT_RequiresExpression); |
| EXPECT_TOKEN(Tokens[4], tok::l_paren, TT_RequiresExpressionLParen); |
| EXPECT_TOKEN(Tokens[14], tok::l_brace, TT_RequiresExpressionLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, RequiresDoesNotChangeParsingOfTheRest) { |
| const char *BaseCode = nullptr; |
| const char *ConstrainedCode = nullptr; |
| auto BaseTokenCount = 0u; |
| auto RequiresTokenCount = 0u; |
| auto PrefixTokenCount = 0u; |
| |
| auto TestRequires = [&](int Line) { |
| const auto BaseTokens = annotate(BaseCode); |
| const auto ConstrainedTokens = annotate(ConstrainedCode); |
| |
| #define LINE " (Line " << Line << ')' |
| |
| ASSERT_EQ(BaseTokens.size(), BaseTokenCount) << BaseTokens << LINE; |
| ASSERT_EQ(ConstrainedTokens.size(), BaseTokenCount + RequiresTokenCount) |
| << LINE; |
| |
| for (auto I = 0u; I < BaseTokenCount; ++I) { |
| EXPECT_EQ( |
| *BaseTokens[I], |
| *ConstrainedTokens[I < PrefixTokenCount ? I : I + RequiresTokenCount]) |
| << I << LINE; |
| } |
| |
| #undef LINE |
| }; |
| |
| BaseCode = "template<typename T>\n" |
| "T Pi = 3.14;"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires Foo<T>\n" |
| "T Pi = 3.14;"; |
| BaseTokenCount = 11; |
| RequiresTokenCount = 5; |
| PrefixTokenCount = 5; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "struct Bar;"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires Foo<T>\n" |
| "struct Bar;"; |
| BaseTokenCount = 9; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "struct Bar {\n" |
| " T foo();\n" |
| " T bar();\n" |
| "};"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires Foo<T>\n" |
| "struct Bar {\n" |
| " T foo();\n" |
| " T bar();\n" |
| "};"; |
| BaseTokenCount = 21; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "Bar(T) -> Bar<T>;"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires Foo<T>\n" |
| "Bar(T) -> Bar<T>;"; |
| BaseTokenCount = 16; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "T foo();"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires Foo<T>\n" |
| "T foo();"; |
| BaseTokenCount = 11; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "T foo() {\n" |
| " auto bar = baz();\n" |
| " return bar + T{};\n" |
| "}"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires Foo<T>\n" |
| "T foo() {\n" |
| " auto bar = baz();\n" |
| " return bar + T{};\n" |
| "}"; |
| BaseTokenCount = 26; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "T foo();"; |
| ConstrainedCode = "template<typename T>\n" |
| "T foo() requires Foo<T>;"; |
| BaseTokenCount = 11; |
| PrefixTokenCount = 9; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "T foo() {\n" |
| " auto bar = baz();\n" |
| " return bar + T{};\n" |
| "}"; |
| ConstrainedCode = "template<typename T>\n" |
| "T foo() requires Foo<T> {\n" |
| " auto bar = baz();\n" |
| " return bar + T{};\n" |
| "}"; |
| BaseTokenCount = 26; |
| TestRequires(__LINE__); |
| |
| BaseCode = "template<typename T>\n" |
| "Bar(T) -> Bar<typename T::I>;"; |
| ConstrainedCode = "template<typename T>\n" |
| " requires requires(T &&t) {\n" |
| " typename T::I;\n" |
| " }\n" |
| "Bar(T) -> Bar<typename T::I>;"; |
| BaseTokenCount = 19; |
| RequiresTokenCount = 14; |
| PrefixTokenCount = 5; |
| TestRequires(__LINE__); |
| |
| BaseCode = "struct [[nodiscard]] zero_t {\n" |
| " template<class T>\n" |
| " [[nodiscard]] constexpr operator T() const { return v<T>; }\n" |
| "};"; |
| ConstrainedCode = |
| "struct [[nodiscard]] zero_t {\n" |
| " template<class T>\n" |
| " requires requires { v<T>; }\n" |
| " [[nodiscard]] constexpr operator T() const { return v<T>; }\n" |
| "};"; |
| BaseTokenCount = 35; |
| RequiresTokenCount = 9; |
| PrefixTokenCount = 13; |
| TestRequires(__LINE__); |
| |
| BaseCode = "constexpr Foo(Foo const &other)\n" |
| " : value{other.value} {\n" |
| " do_magic();\n" |
| " do_more_magic();\n" |
| "}"; |
| ConstrainedCode = "constexpr Foo(Foo const &other)\n" |
| " requires std::is_copy_constructible<T>\n" |
| " : value{other.value} {\n" |
| " do_magic();\n" |
| " do_more_magic();\n" |
| "}"; |
| BaseTokenCount = 26; |
| RequiresTokenCount = 7; |
| PrefixTokenCount = 8; |
| TestRequires(__LINE__); |
| |
| BaseCode = "constexpr Foo(Foo const &other)\n" |
| " : value{other.value} {\n" |
| " do_magic();\n" |
| " do_more_magic();\n" |
| "}"; |
| ConstrainedCode = "constexpr Foo(Foo const &other)\n" |
| " requires (std::is_copy_constructible<T>)\n" |
| " : value{other.value} {\n" |
| " do_magic();\n" |
| " do_more_magic();\n" |
| "}"; |
| RequiresTokenCount = 9; |
| TestRequires(__LINE__); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsAsm) { |
| auto Tokens = annotate("__asm{\n" |
| "a:\n" |
| "};"); |
| ASSERT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[0], tok::kw_asm, TT_Unknown); |
| EXPECT_TOKEN(Tokens[1], tok::l_brace, TT_InlineASMBrace); |
| EXPECT_TOKEN(Tokens[4], tok::r_brace, TT_InlineASMBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsObjCBlock) { |
| auto Tokens = annotate("int (^)() = ^ ()\n" |
| " external_source_symbol() { //\n" |
| " return 1;\n" |
| "};"); |
| ASSERT_EQ(Tokens.size(), 21u) << Tokens; |
| EXPECT_TOKEN(Tokens[1], tok::l_paren, TT_ObjCBlockLParen); |
| EXPECT_TOKEN(Tokens[13], tok::l_brace, TT_ObjCBlockLBrace); |
| |
| Tokens = annotate("int *p = ^int*(){ //\n" |
| " return nullptr;\n" |
| "}();"); |
| ASSERT_EQ(Tokens.size(), 19u) << Tokens; |
| EXPECT_TOKEN(Tokens[9], tok::l_brace, TT_ObjCBlockLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsLambdas) { |
| auto Tokens = annotate("[]() constexpr {}"); |
| ASSERT_EQ(Tokens.size(), 8u) << Tokens; |
| EXPECT_TOKEN(Tokens[0], tok::l_square, TT_LambdaLSquare); |
| EXPECT_TOKEN(Tokens[5], tok::l_brace, TT_LambdaLBrace); |
| |
| Tokens = annotate("[]() -> auto {}"); |
| ASSERT_EQ(Tokens.size(), 9u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::arrow, TT_LambdaArrow); |
| EXPECT_TOKEN(Tokens[6], tok::l_brace, TT_LambdaLBrace); |
| |
| Tokens = annotate("[]() -> auto & {}"); |
| ASSERT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::arrow, TT_LambdaArrow); |
| EXPECT_TOKEN(Tokens[7], tok::l_brace, TT_LambdaLBrace); |
| |
| Tokens = annotate("[]() -> auto * {}"); |
| ASSERT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::arrow, TT_LambdaArrow); |
| EXPECT_TOKEN(Tokens[7], tok::l_brace, TT_LambdaLBrace); |
| } |
| |
| TEST_F(TokenAnnotatorTest, UnderstandsVerilogOperators) { |
| auto Annotate = [this](llvm::StringRef Code) { |
| return annotate(Code, getLLVMStyle(FormatStyle::LK_Verilog)); |
| }; |
| // Test that unary operators get labeled as such and that operators like '++' |
| // don't get split. |
| tok::TokenKind Unary[] = {tok::plus, tok::minus, tok::exclaim, |
| tok::tilde, tok::amp, tok::pipe, |
| tok::caret, tok::plusplus, tok::minusminus}; |
| for (auto Kind : Unary) { |
| auto Tokens = |
| Annotate(std::string("x = ") + tok::getPunctuatorSpelling(Kind) + "x;"); |
| ASSERT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], Kind, TT_UnaryOperator); |
| } |
| // Operators formed by joining two operators like '^~'. For some of these |
| // joined operators, we don't have a separate type, so we only test for their |
| // precedence. |
| std::pair<prec::Level, std::string> JoinedBinary[] = { |
| {prec::Comma, "<->"}, {prec::Assignment, "+="}, |
| {prec::Assignment, "-="}, {prec::Assignment, "*="}, |
| {prec::Assignment, "/="}, {prec::Assignment, "%="}, |
| {prec::Assignment, "&="}, {prec::Assignment, "^="}, |
| {prec::Assignment, "<<="}, {prec::Assignment, ">>="}, |
| {prec::Assignment, "<<<="}, {prec::Assignment, ">>>="}, |
| {prec::LogicalOr, "||"}, {prec::LogicalAnd, "&&"}, |
| {prec::Equality, "=="}, {prec::Equality, "!="}, |
| {prec::Equality, "==="}, {prec::Equality, "!=="}, |
| {prec::Equality, "==?"}, {prec::Equality, "!=?"}, |
| {prec::ExclusiveOr, "~^"}, {prec::ExclusiveOr, "^~"}, |
| }; |
| for (auto Operator : JoinedBinary) { |
| auto Tokens = Annotate(std::string("x = x ") + Operator.second + " x;"); |
| ASSERT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN_TYPE(Tokens[3], TT_BinaryOperator); |
| EXPECT_TOKEN_PRECEDENCE(Tokens[3], Operator.first); |
| } |
| // '~^' and '^~' can be unary as well as binary operators. |
| auto Tokens = Annotate("x = ~^x;"); |
| ASSERT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN_TYPE(Tokens[2], TT_UnaryOperator); |
| Tokens = Annotate("x = ^~x;"); |
| ASSERT_EQ(Tokens.size(), 6u) << Tokens; |
| EXPECT_TOKEN_TYPE(Tokens[2], TT_UnaryOperator); |
| // The unary operators '~&' and '~|' can only be unary operators. The current |
| // implementation treats each of them as separate unary '~' and '&' or '|' |
| // operators, which is enough for formatting purposes. In FormatTestVerilog, |
| // there is a test that there is no space in between. And even if a new line |
| // is inserted between the '~' and '|', the semantic meaning is the same as |
| // the joined operator, so the CanBreakBefore property doesn't need to be |
| // false for the second operator. |
| Tokens = Annotate("x = ~&x;"); |
| ASSERT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::tilde, TT_UnaryOperator); |
| EXPECT_TOKEN(Tokens[3], tok::amp, TT_UnaryOperator); |
| Tokens = Annotate("x = ~|x;"); |
| ASSERT_EQ(Tokens.size(), 7u) << Tokens; |
| EXPECT_TOKEN(Tokens[2], tok::tilde, TT_UnaryOperator); |
| EXPECT_TOKEN(Tokens[3], tok::pipe, TT_UnaryOperator); |
| // Test for block label colons. |
| Tokens = Annotate("begin : x\n" |
| "end : x"); |
| ASSERT_EQ(Tokens.size(), 7u); |
| EXPECT_TOKEN(Tokens[1], tok::colon, TT_VerilogBlockLabelColon); |
| EXPECT_TOKEN(Tokens[4], tok::colon, TT_VerilogBlockLabelColon); |
| // Test that the dimension colon is annotated correctly. |
| Tokens = Annotate("var [1 : 0] x;"); |
| ASSERT_EQ(Tokens.size(), 9u) << Tokens; |
| EXPECT_TOKEN(Tokens[3], tok::colon, TT_BitFieldColon); |
| Tokens = Annotate("extern function [1 : 0] x;"); |
| ASSERT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[4], tok::colon, TT_BitFieldColon); |
| // Test case labels and ternary operators. |
| Tokens = Annotate("case (x)\n" |
| " x:\n" |
| " x;\n" |
| "endcase\n"); |
| ASSERT_EQ(Tokens.size(), 10u) << Tokens; |
| EXPECT_TOKEN(Tokens[5], tok::colon, TT_GotoLabelColon); |
| Tokens = Annotate("case (x)\n" |
| " x ? x : x:\n" |
| " x;\n" |
| "endcase\n"); |
| ASSERT_EQ(Tokens.size(), 14u) << Tokens; |
| EXPECT_TOKEN(Tokens[5], tok::question, TT_ConditionalExpr); |
| EXPECT_TOKEN(Tokens[7], tok::colon, TT_ConditionalExpr); |
| EXPECT_TOKEN(Tokens[9], tok::colon, TT_GotoLabelColon); |
| } |
| |
| } // namespace |
| } // namespace format |
| } // namespace clang |