//==- SemanticHighlightingTests.cpp - SemanticHighlighting tests-*- C++ -* -==// // // 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 "Annotations.h" #include "Config.h" #include "Protocol.h" #include "SemanticHighlighting.h" #include "SourceCode.h" #include "TestTU.h" #include "llvm/ADT/ArrayRef.h" #include "llvm/ADT/STLExtras.h" #include "llvm/ADT/StringRef.h" #include "llvm/Support/Error.h" #include "llvm/Support/ScopedPrinter.h" #include "llvm/Support/raw_ostream.h" #include "gmock/gmock.h" #include namespace clang { namespace clangd { namespace { using testing::IsEmpty; using testing::SizeIs; /// Annotates the input code with provided semantic highlightings. Results look /// something like: /// class $Class[[X]] { /// $Primitive[[int]] $Field[[a]] = 0; /// }; std::string annotate(llvm::StringRef Input, llvm::ArrayRef Tokens) { assert(llvm::is_sorted( Tokens, [](const HighlightingToken &L, const HighlightingToken &R) { return L.R.start < R.R.start; })); std::string Buf; llvm::raw_string_ostream OS(Buf); unsigned NextChar = 0; for (auto &T : Tokens) { unsigned StartOffset = llvm::cantFail(positionToOffset(Input, T.R.start)); unsigned EndOffset = llvm::cantFail(positionToOffset(Input, T.R.end)); assert(StartOffset <= EndOffset); assert(NextChar <= StartOffset); bool hasDef = T.Modifiers & (1 << uint32_t(HighlightingModifier::Definition)); bool hasDecl = T.Modifiers & (1 << uint32_t(HighlightingModifier::Declaration)); EXPECT_TRUE(!hasDef || hasDecl); OS << Input.substr(NextChar, StartOffset - NextChar); OS << '$' << T.Kind; for (unsigned I = 0; I <= static_cast(HighlightingModifier::LastModifier); ++I) { if (T.Modifiers & (1 << I)) { // _decl_def is common and redundant, just print _def instead. if (I != uint32_t(HighlightingModifier::Declaration) || !hasDef) OS << '_' << static_cast(I); } } OS << "[[" << Input.substr(StartOffset, EndOffset - StartOffset) << "]]"; NextChar = EndOffset; } OS << Input.substr(NextChar); return std::move(OS.str()); } void checkHighlightings(llvm::StringRef Code, std::vector> AdditionalFiles = {}, uint32_t ModifierMask = -1, std::vector AdditionalArgs = {}) { Annotations Test(Code); TestTU TU; TU.Code = std::string(Test.code()); TU.ExtraArgs.push_back("-std=c++20"); TU.ExtraArgs.push_back("-xobjective-c++"); TU.ExtraArgs.insert(std::end(TU.ExtraArgs), std::begin(AdditionalArgs), std::end(AdditionalArgs)); for (auto File : AdditionalFiles) TU.AdditionalFiles.insert({File.first, std::string(File.second)}); auto AST = TU.build(); auto Actual = getSemanticHighlightings(AST, /*IncludeInactiveRegionTokens=*/true); for (auto &Token : Actual) Token.Modifiers &= ModifierMask; EXPECT_EQ(Code, annotate(Test.code(), Actual)); } constexpr static uint32_t ScopeModifierMask = 1 << unsigned(HighlightingModifier::FunctionScope) | 1 << unsigned(HighlightingModifier::ClassScope) | 1 << unsigned(HighlightingModifier::FileScope) | 1 << unsigned(HighlightingModifier::GlobalScope); TEST(SemanticHighlighting, GetsCorrectTokens) { const char *TestCases[] = { R"cpp( struct $Class_def[[AS]] { double $Field_decl[[SomeMember]]; }; struct { } $Variable_def[[S]]; void $Function_def[[foo]](int $Parameter_def[[A]], $Class[[AS]] $Parameter_def[[As]]) { $Primitive_deduced_defaultLibrary[[auto]] $LocalVariable_def[[VeryLongVariableName]] = 12312; $Class[[AS]] $LocalVariable_def[[AA]]; $Primitive_deduced_defaultLibrary[[auto]] $LocalVariable_def[[L]] = $LocalVariable[[AA]].$Field[[SomeMember]] $Operator[[+]] $Parameter[[A]]; auto $LocalVariable_def[[FN]] = [ $LocalVariable[[AA]]](int $Parameter_def[[A]]) -> void {}; $LocalVariable[[FN]]$Operator_userDefined[[(]]12312$Operator_userDefined[[)]]; } )cpp", R"cpp( void $Function_decl[[foo]](int); void $Function_decl[[Gah]](); void $Function_def[[foo]]() { auto $LocalVariable_def[[Bou]] = $Function[[Gah]]; } struct $Class_def[[A]] { void $Method_decl[[abc]](); }; )cpp", R"cpp( namespace $Namespace_decl[[abc]] { template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[A]] { $TemplateParameter[[T]] $Field_decl[[t]]; }; } template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[C]] : $Namespace[[abc]]::$Class[[A]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] { typename $TemplateParameter[[T]]::$Type_dependentName[[A]]* $Field_decl[[D]]; }; $Namespace[[abc]]::$Class[[A]]$Bracket[[<]]int$Bracket[[>]] $Variable_def[[AA]]; typedef $Namespace[[abc]]::$Class[[A]]$Bracket[[<]]int$Bracket[[>]] $Class_decl[[AAA]]; struct $Class_def[[B]] { $Class_decl_constrDestr[[B]](); ~$Class_decl_constrDestr[[B]](); void operator$Operator_decl[[<<]]($Class[[B]]); $Class[[AAA]] $Field_decl[[AA]]; }; $Class[[B]]::$Class_def_constrDestr[[B]]() {} $Class[[B]]::~$Class_def_constrDestr[[B]]() {} void $Function_def[[f]] () { $Class[[B]] $LocalVariable_def[[BB]] = $Class[[B]](); $LocalVariable[[BB]].~$Class_constrDestr[[B]](); $Class[[B]](); } )cpp", R"cpp( enum class $Enum_decl[[E]] { $EnumConstant_decl_readonly[[A]], $EnumConstant_decl_readonly[[B]], }; enum $Enum_decl[[EE]] { $EnumConstant_decl_readonly[[Hi]], }; struct $Class_def[[A]] { $Enum[[E]] $Field_decl[[EEE]]; $Enum[[EE]] $Field_decl[[EEEE]]; }; int $Variable_def[[I]] = $EnumConstant_readonly[[Hi]]; $Enum[[E]] $Variable_def[[L]] = $Enum[[E]]::$EnumConstant_readonly[[B]]; )cpp", R"cpp( namespace $Namespace_decl[[abc]] { namespace {} namespace $Namespace_decl[[bcd]] { struct $Class_def[[A]] {}; namespace $Namespace_decl[[cde]] { struct $Class_def[[A]] { enum class $Enum_decl[[B]] { $EnumConstant_decl_readonly[[Hi]], }; }; } } } using namespace $Namespace[[abc]]::$Namespace[[bcd]]; namespace $Namespace_decl[[vwz]] = $Namespace[[abc]]::$Namespace[[bcd]]::$Namespace[[cde]]; $Namespace[[abc]]::$Namespace[[bcd]]::$Class[[A]] $Variable_def[[AA]]; $Namespace[[vwz]]::$Class[[A]]::$Enum[[B]] $Variable_def[[AAA]] = $Namespace[[vwz]]::$Class[[A]]::$Enum[[B]]::$EnumConstant_readonly[[Hi]]; ::$Namespace[[vwz]]::$Class[[A]] $Variable_def[[B]]; ::$Namespace[[abc]]::$Namespace[[bcd]]::$Class[[A]] $Variable_def[[BB]]; )cpp", R"cpp( struct $Class_def[[D]] { double $Field_decl[[C]]; }; struct $Class_def[[A]] { double $Field_decl[[B]]; $Class[[D]] $Field_decl[[E]]; static double $StaticField_decl_static[[S]]; static void $StaticMethod_def_static[[bar]]() {} void $Method_def[[foo]]() { $Field[[B]] $Operator[[=]] 123; this->$Field[[B]] $Operator[[=]] 156; this->$Method[[foo]](); $Method[[foo]](); $StaticMethod_static[[bar]](); $StaticField_static[[S]] $Operator[[=]] 90.1; } }; void $Function_def[[foo]]() { $Class[[A]] $LocalVariable_def[[AA]]; $LocalVariable[[AA]].$Field[[B]] $Operator[[+=]] 2; $LocalVariable[[AA]].$Method[[foo]](); $LocalVariable[[AA]].$Field[[E]].$Field[[C]]; $Class[[A]]::$StaticField_static[[S]] $Operator[[=]] 90; } )cpp", R"cpp( struct $Class_def[[AA]] { int $Field_decl[[A]]; }; int $Variable_def[[B]]; $Class[[AA]] $Variable_def[[A]]{$Variable[[B]]}; )cpp", R"cpp( namespace $Namespace_decl[[a]] { struct $Class_def[[A]] {}; typedef char $Primitive_decl[[C]]; } typedef $Namespace[[a]]::$Class[[A]] $Class_decl[[B]]; using $Class_decl[[BB]] = $Namespace[[a]]::$Class[[A]]; enum class $Enum_decl[[E]] {}; typedef $Enum[[E]] $Enum_decl[[C]]; typedef $Enum[[C]] $Enum_decl[[CC]]; using $Enum_decl[[CD]] = $Enum[[CC]]; $Enum[[CC]] $Function_decl[[f]]($Class[[B]]); $Enum[[CD]] $Function_decl[[f]]($Class[[BB]]); typedef $Namespace[[a]]::$Primitive[[C]] $Primitive_decl[[PC]]; typedef float $Primitive_decl[[F]]; )cpp", R"cpp( template$Bracket[[<]]typename $TemplateParameter_def[[T]], typename = void$Bracket[[>]] class $Class_def[[A]] { $TemplateParameter[[T]] $Field_decl[[AA]]; $TemplateParameter[[T]] $Method_decl[[foo]](); }; template$Bracket[[<]]class $TemplateParameter_def[[TT]]$Bracket[[>]] class $Class_def[[B]] { $Class[[A]]$Bracket[[<]]$TemplateParameter[[TT]]$Bracket[[>]] $Field_decl[[AA]]; }; template$Bracket[[<]]class $TemplateParameter_def[[TT]], class $TemplateParameter_def[[GG]]$Bracket[[>]] class $Class_def[[BB]] {}; template$Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[BB]]$Bracket[[<]]$TemplateParameter[[T]], int$Bracket[[>]] {}; template$Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[BB]]$Bracket[[<]]$TemplateParameter[[T]], $TemplateParameter[[T]]*$Bracket[[>]] {}; template$Bracket[[<]]template$Bracket[[<]]class$Bracket[[>]] class $TemplateParameter_def[[T]], class $TemplateParameter_def[[C]]$Bracket[[>]] $TemplateParameter[[T]]$Bracket[[<]]$TemplateParameter[[C]]$Bracket[[>]] $Function_decl[[f]](); template$Bracket[[<]]typename$Bracket[[>]] class $Class_def[[Foo]] {}; template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_decl[[foo]]($TemplateParameter[[T]] ...); )cpp", R"cpp( template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[Tmpl]] {$TemplateParameter[[T]] $Field_decl[[x]] = 0;}; extern template struct $Class_def[[Tmpl]]$Bracket[[<]]float$Bracket[[>]]; template struct $Class_def[[Tmpl]]$Bracket[[<]]double$Bracket[[>]]; )cpp", // This test is to guard against highlightings disappearing when using // conversion operators as their behaviour in the clang AST differ from // other CXXMethodDecls. R"cpp( class $Class_def[[Foo]] {}; struct $Class_def[[Bar]] { explicit operator $Class[[Foo]]*() const; explicit operator int() const; operator $Class[[Foo]](); }; void $Function_def[[f]]() { $Class[[Bar]] $LocalVariable_def[[B]]; $Class[[Foo]] $LocalVariable_def[[F]] = $LocalVariable[[B]]; $Class[[Foo]] *$LocalVariable_def[[FP]] = ($Class[[Foo]]*)$LocalVariable[[B]]; int $LocalVariable_def[[I]] = (int)$LocalVariable[[B]]; } )cpp", R"cpp( struct $Class_def[[B]] {}; struct $Class_def[[A]] { $Class[[B]] $Field_decl[[BB]]; $Class[[A]] &operator$Operator_decl[[=]]($Class[[A]] &&$Parameter_def[[O]]); }; $Class[[A]] &$Class[[A]]::operator$Operator_def[[=]]($Class[[A]] &&$Parameter_def[[O]]) = default; )cpp", R"cpp( enum $Enum_decl[[En]] { $EnumConstant_decl_readonly[[EC]], }; class $Class_def[[Foo]] {}; class $Class_def[[Bar]] { public: $Class[[Foo]] $Field_decl[[Fo]]; $Enum[[En]] $Field_decl[[E]]; int $Field_decl[[I]]; $Class_def_constrDestr[[Bar]] ($Class[[Foo]] $Parameter_def[[F]], $Enum[[En]] $Parameter_def[[E]]) : $Field[[Fo]] ($Parameter[[F]]), $Field[[E]] ($Parameter[[E]]), $Field[[I]] (123) {} }; class $Class_def[[Bar2]] : public $Class[[Bar]] { $Class_def_constrDestr[[Bar2]]() : $Class[[Bar]]($Class[[Foo]](), $EnumConstant_readonly[[EC]]) {} }; )cpp", R"cpp( enum $Enum_decl[[E]] { $EnumConstant_decl_readonly[[E]], }; class $Class_def[[Foo]] {}; $Enum_deduced[[auto]] $Variable_def[[AE]] = $Enum[[E]]::$EnumConstant_readonly[[E]]; $Class_deduced[[auto]] $Variable_def[[AF]] = $Class[[Foo]](); $Class_deduced[[decltype]](auto) $Variable_def[[AF2]] = $Class[[Foo]](); $Class_deduced[[auto]] *$Variable_def[[AFP]] = $Operator[[&]]$Variable[[AF]]; $Enum_deduced[[auto]] &$Variable_def[[AER]] = $Variable[[AE]]; $Primitive_deduced_defaultLibrary[[auto]] $Variable_def[[Form]] = 10.2 $Operator[[+]] 2 $Operator[[*]] 4; $Primitive_deduced_defaultLibrary[[decltype]]($Variable[[Form]]) $Variable_def[[F]] = 10; auto $Variable_def[[Fun]] = []()->void{}; )cpp", R"cpp( class $Class_def[[G]] {}; template$Bracket[[<]]$Class[[G]] *$TemplateParameter_def_readonly[[U]]$Bracket[[>]] class $Class_def[[GP]] {}; template$Bracket[[<]]$Class[[G]] &$TemplateParameter_def_readonly[[U]]$Bracket[[>]] class $Class_def[[GR]] {}; template$Bracket[[<]]int *$TemplateParameter_def_readonly[[U]]$Bracket[[>]] class $Class_def[[IP]] { void $Method_def[[f]]() { $Operator[[*]]$TemplateParameter_readonly[[U]] $Operator[[+=]] 5; } }; template$Bracket[[<]]unsigned $TemplateParameter_def_readonly[[U]] = 2$Bracket[[>]] class $Class_def[[Foo]] { void $Method_def[[f]]() { for(int $LocalVariable_def[[I]] = 0; $LocalVariable[[I]] $Operator[[<]] $TemplateParameter_readonly[[U]];) {} } }; $Class[[G]] $Variable_def[[L]]; void $Function_def[[f]]() { $Class[[Foo]]$Bracket[[<]]123$Bracket[[>]] $LocalVariable_def[[F]]; $Class[[GP]]$Bracket[[<]]$Operator[[&]]$Variable[[L]]$Bracket[[>]] $LocalVariable_def[[LL]]; $Class[[GR]]$Bracket[[<]]$Variable[[L]]$Bracket[[>]] $LocalVariable_def[[LLL]]; } )cpp", R"cpp( template$Bracket[[<]]typename $TemplateParameter_def[[T]], void ($TemplateParameter[[T]]::*$TemplateParameter_def_readonly[[method]])(int)$Bracket[[>]] struct $Class_def[[G]] { void $Method_def[[foo]]( $TemplateParameter[[T]] *$Parameter_def[[O]]) { ($Parameter[[O]]$Operator_userDefined[[->*]]$TemplateParameter_readonly[[method]])(10); } }; struct $Class_def[[F]] { void $Method_decl[[f]](int); }; template$Bracket[[<]]void (*$TemplateParameter_def_readonly[[Func]])()$Bracket[[>]] struct $Class_def[[A]] { void $Method_def[[f]]() { ($Operator[[*]]$TemplateParameter_readonly[[Func]])(); } }; void $Function_def[[foo]]() { $Class[[F]] $LocalVariable_def[[FF]]; $Class[[G]]$Bracket[[<]]$Class[[F]], $Operator[[&]]$Class[[F]]::$Method[[f]]$Bracket[[>]] $LocalVariable_def[[GG]]; $LocalVariable[[GG]].$Method[[foo]]($Operator[[&]]$LocalVariable_usedAsMutablePointer[[FF]]); $Class[[A]]$Bracket[[<]]$Function[[foo]]$Bracket[[>]] $LocalVariable_def[[AA]]; } )cpp", // Tokens that share a source range but have conflicting Kinds are not // highlighted. R"cpp( #define $Macro_decl[[DEF_MULTIPLE]](X) namespace X { class X { int X; }; } #define $Macro_decl[[DEF_CLASS]](T) class T {}; // Preamble ends. $Macro[[DEF_MULTIPLE]](XYZ); $Macro[[DEF_MULTIPLE]](XYZW); $Macro[[DEF_CLASS]]($Class_def[[A]]) #define $Macro_decl[[MACRO_CONCAT]](X, V, T) T foo##X = V #define $Macro_decl[[DEF_VAR]](X, V) int X = V #define $Macro_decl[[DEF_VAR_T]](T, X, V) T X = V #define $Macro_decl[[DEF_VAR_REV]](V, X) $Macro[[DEF_VAR]](X, V) #define $Macro_decl[[CPY]](X) X #define $Macro_decl[[DEF_VAR_TYPE]](X, Y) X Y #define $Macro_decl[[SOME_NAME]] variable #define $Macro_decl[[SOME_NAME_SET]] variable2 = 123 #define $Macro_decl[[INC_VAR]](X) X += 2 void $Function_def[[foo]]() { $Macro[[DEF_VAR]]($LocalVariable_def[[X]], 123); $Macro[[DEF_VAR_REV]](908, $LocalVariable_def[[XY]]); int $Macro[[CPY]]( $LocalVariable_def[[XX]] ); $Macro[[DEF_VAR_TYPE]]($Class[[A]], $LocalVariable_def[[AA]]); double $Macro[[SOME_NAME]]; int $Macro[[SOME_NAME_SET]]; $LocalVariable[[variable]] $Operator[[=]] 20.1; $Macro[[MACRO_CONCAT]](var, 2, float); $Macro[[DEF_VAR_T]]($Class[[A]], $Macro[[CPY]]( $Macro[[CPY]]($LocalVariable_def[[Nested]])), $Macro[[CPY]]($Class[[A]]())); $Macro[[INC_VAR]]($LocalVariable[[variable]]); } void $Macro[[SOME_NAME]](); $Macro[[DEF_VAR]]($Variable_def[[MMMMM]], 567); $Macro[[DEF_VAR_REV]](756, $Variable_def[[AB]]); #define $Macro_decl[[CALL_FN]](F) F(); #define $Macro_decl[[DEF_FN]](F) void F () $Macro[[DEF_FN]]($Function_def[[g]]) { $Macro[[CALL_FN]]($Function[[foo]]); } )cpp", R"cpp( #define $Macro_decl[[fail]](expr) expr #define $Macro_decl[[assert]](COND) if (!(COND)) { $Macro[[fail]]("assertion failed" #COND); } // Preamble ends. int $Variable_def[[x]]; int $Variable_def[[y]]; int $Function_decl[[f]](); void $Function_def[[foo]]() { $Macro[[assert]]($Variable[[x]] $Operator[[!=]] $Variable[[y]]); $Macro[[assert]]($Variable[[x]] $Operator[[!=]] $Function[[f]]()); } )cpp", // highlighting all macro references R"cpp( #ifndef $Macro[[name]] #define $Macro_decl[[name]] #endif #define $Macro_decl[[test]] #undef $Macro[[test]] #ifdef $Macro[[test]] #endif #if defined($Macro[[test]]) #endif )cpp", R"cpp( struct $Class_def[[S]] { float $Field_decl[[Value]]; $Class[[S]] *$Field_decl[[Next]]; }; $Class[[S]] $Variable_def[[Global]][2] = {$Class[[S]](), $Class[[S]]()}; auto [$Variable_decl[[G1]], $Variable_decl[[G2]]] = $Variable[[Global]]; void $Function_def[[f]]($Class[[S]] $Parameter_def[[P]]) { int $LocalVariable_def[[A]][2] = {1,2}; auto [$LocalVariable_decl[[B1]], $LocalVariable_decl[[B2]]] = $LocalVariable[[A]]; auto [$LocalVariable_decl[[G1]], $LocalVariable_decl[[G2]]] = $Variable[[Global]]; $Class_deduced[[auto]] [$LocalVariable_decl[[P1]], $LocalVariable_decl[[P2]]] = $Parameter[[P]]; // Highlights references to BindingDecls. $LocalVariable[[B1]]$Operator[[++]]; } )cpp", R"cpp( template$Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[A]] { using $TemplateParameter_decl[[TemplateParam1]] = $TemplateParameter[[T]]; typedef $TemplateParameter[[T]] $TemplateParameter_decl[[TemplateParam2]]; using $Primitive_decl[[IntType]] = int; using $Typedef_decl[[Pointer]] = $TemplateParameter[[T]] *; using $Typedef_decl[[LVReference]] = $TemplateParameter[[T]] &; using $Typedef_decl[[RVReference]] = $TemplateParameter[[T]]&&; using $Typedef_decl[[Array]] = $TemplateParameter[[T]]*[3]; using $Typedef_decl[[MemberPointer]] = int ($Class[[A]]::*)(int); // Use various previously defined typedefs in a function type. void $Method_decl[[func]]( $Typedef[[Pointer]], $Typedef[[LVReference]], $Typedef[[RVReference]], $Typedef[[Array]], $Typedef[[MemberPointer]]); }; )cpp", R"cpp( template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_decl[[phase1]]($TemplateParameter[[T]]); template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_def[[foo]]($TemplateParameter[[T]] $Parameter_def[[P]]) { $Function[[phase1]]($Parameter[[P]]); $Unknown_dependentName[[phase2]]($Parameter[[P]]); } )cpp", R"cpp( class $Class_def[[A]] { template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] void $Method_decl[[bar]]($TemplateParameter[[T]]); }; template $Bracket[[<]]class $TemplateParameter_def[[U]]$Bracket[[>]] void $Function_def[[foo]]($TemplateParameter[[U]] $Parameter_def[[P]]) { $Class[[A]]().$Method[[bar]]($Parameter[[P]]); } )cpp", R"cpp( struct $Class_def[[A]] { template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] static void $StaticMethod_decl_static[[foo]]($TemplateParameter[[T]]); }; template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[B]] { void $Method_def[[bar]]() { $Class[[A]]::$StaticMethod_static[[foo]]($TemplateParameter[[T]]()); } }; )cpp", R"cpp( template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_decl[[foo]](typename $TemplateParameter[[T]]::$Type_dependentName[[Type]] = $TemplateParameter[[T]]::$Unknown_dependentName[[val]]); )cpp", R"cpp( template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_def[[foo]]($TemplateParameter[[T]] $Parameter_def[[P]]) { $Parameter[[P]].$Unknown_dependentName[[Field]]; } )cpp", R"cpp( template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[A]] { int $Method_def[[foo]]() { return $TemplateParameter[[T]]::$Unknown_dependentName[[Field]]; } }; )cpp", // Highlighting the using decl as the underlying using shadow decl. R"cpp( void $Function_decl[[foo]](); using ::$Function[[foo]]; )cpp", // Highlighting of template template arguments. R"cpp( template $Bracket[[<]]template $Bracket[[<]]class$Bracket[[>]] class $TemplateParameter_def[[TT]], template $Bracket[[<]]class$Bracket[[>]] class ...$TemplateParameter_def[[TTs]]$Bracket[[>]] struct $Class_def[[Foo]] { $Class[[Foo]]$Bracket[[<]]$TemplateParameter[[TT]], $TemplateParameter[[TTs]]...$Bracket[[>]] *$Field_decl[[t]]; }; )cpp", // Inactive code highlighting R"cpp( // Code in the preamble. // Inactive lines get an empty InactiveCode token at the beginning. #ifdef $Macro[[test]] $InactiveCode[[int Inactive1;]] #endif // A declaration to cause the preamble to end. int $Variable_def[[EndPreamble]]; // Code after the preamble. // Code inside inactive blocks does not get regular highlightings // because it's not part of the AST. #define $Macro_decl[[test2]] #if defined($Macro[[test]]) $InactiveCode[[int Inactive2;]] #elif defined($Macro[[test2]]) int $Variable_def[[Active1]]; #else $InactiveCode[[int Inactive3;]] #endif #ifndef $Macro[[test]] int $Variable_def[[Active2]]; #endif #ifdef $Macro[[test]] $InactiveCode[[int Inactive4;]] #else int $Variable_def[[Active3]]; #endif )cpp", // Argument to 'sizeof...' R"cpp( template $Bracket[[<]]typename... $TemplateParameter_def[[Elements]]$Bracket[[>]] struct $Class_def[[TupleSize]] { static const int $StaticField_decl_readonly_static[[size]] = sizeof...($TemplateParameter[[Elements]]); }; )cpp", // More dependent types R"cpp( template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[Waldo]] { using $Typedef_decl[[Location1]] = typename $TemplateParameter[[T]] ::$Type_dependentName[[Resolver]]::$Type_dependentName[[Location]]; using $Typedef_decl[[Location2]] = typename $TemplateParameter[[T]] ::template $Type_dependentName[[Resolver]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] ::$Type_dependentName[[Location]]; using $Typedef_decl[[Location3]] = typename $TemplateParameter[[T]] ::$Type_dependentName[[Resolver]] ::template $Type_dependentName[[Location]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]]; static const int $StaticField_decl_readonly_static[[Value]] = $TemplateParameter[[T]] ::$Type_dependentName[[Resolver]]::$Unknown_dependentName[[Value]]; }; )cpp", // Dependent name with heuristic target R"cpp( template $Bracket[[<]]typename$Bracket[[>]] struct $Class_def[[Foo]] { int $Field_decl[[Waldo]]; void $Method_def[[bar]]() { $Class[[Foo]]().$Field_dependentName[[Waldo]]; } template $Bracket[[<]]typename $TemplateParameter_def[[U]]$Bracket[[>]] void $Method_def[[bar1]]() { $Class[[Foo]]$Bracket[[<]]$TemplateParameter[[U]]$Bracket[[>]]().$Field_dependentName[[Waldo]]; } void $Method_decl[[Overload]](); void $Method_decl_readonly[[Overload]]() const; }; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_def[[baz]]($Class[[Foo]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] $Parameter_def[[o]]) { $Parameter[[o]].$Method_readonly_dependentName[[Overload]](); } )cpp", // Concepts R"cpp( template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] concept $Concept_decl[[Fooable]] = requires($TemplateParameter[[T]] $Parameter_def[[F]]) { $Parameter[[F]].$Unknown_dependentName[[foo]](); }; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] requires $Concept[[Fooable]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] void $Function_def[[bar]]($TemplateParameter[[T]] $Parameter_def[[F]]) { $Parameter[[F]].$Unknown_dependentName[[foo]](); } struct $Class_def[[F]] { void $Method_def[[foo]]() {}; }; $Concept[[Fooable]] $Class_deduced[[auto]] $Variable_def[[f]] = $Class[[F]](); void $Function_def[[Bar]]($Concept[[Fooable]] $TemplateParameter[[auto]] $Parameter_def[[x]]) {} template$Bracket[[<]]$Concept[[Fooable]] auto $TemplateParameter_def_readonly[[x]]$Bracket[[>]] void $Function_def[[Boo]]() {} bool $Variable_def[[b]] = $Concept[[Fooable]]$Bracket[[<]]int$Bracket[[>]]; )cpp", // Dependent template name R"cpp( template $Bracket[[<]]template $Bracket[[<]]typename$Bracket[[>]] class$Bracket[[>]] struct $Class_def[[A]] {}; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] using $Typedef_decl[[W]] = $Class[[A]]$Bracket[[<]] $TemplateParameter[[T]]::template $Class_dependentName[[Waldo]] $Bracket[[>]]; )cpp", R"cpp( class $Class_def_abstract[[Abstract]] { public: virtual void $Method_decl_abstract_virtual[[pure]]() = 0; virtual void $Method_decl_virtual[[impl]](); }; void $Function_def[[foo]]($Class_abstract[[Abstract]]* $Parameter_def[[A]]) { $Parameter[[A]]->$Method_abstract_virtual[[pure]](); $Parameter[[A]]->$Method_virtual[[impl]](); } )cpp", R"cpp( <:[deprecated]:> int $Variable_def_deprecated[[x]]; )cpp", R"cpp( // ObjC: Classes and methods @class $Class_decl[[Forward]]; @interface $Class_def[[Foo]] @end @interface $Class_def[[Bar]] : $Class[[Foo]] -(id) $Method_decl[[x]]:(int)$Parameter_def[[a]] $Method_decl[[y]]:(int)$Parameter_def[[b]]; +(instancetype)$StaticMethod_decl_static[[sharedInstance]]; +(void) $StaticMethod_decl_static[[explode]]; @end @implementation $Class_def[[Bar]] -(id) $Method_def[[x]]:(int)$Parameter_def[[a]] $Method_def[[y]]:(int)$Parameter_def[[b]] { return self; } +(instancetype)$StaticMethod_def_static[[sharedInstance]] { return 0; } +(void) $StaticMethod_def_static[[explode]] {} @end void $Function_def[[m]]($Class[[Bar]] *$Parameter_def[[b]]) { [$Parameter[[b]] $Method[[x]]:1 $Method[[y]]:2]; [$Class[[Bar]] $StaticMethod_static[[explode]]]; } )cpp", R"cpp( // ObjC: Protocols @protocol $Interface_def[[Protocol]] @end @protocol $Interface_def[[Protocol2]] <$Interface[[Protocol]]> @end @interface $Class_def[[Klass]] <$Interface[[Protocol]]> @end id<$Interface[[Protocol]]> $Variable_def[[x]]; )cpp", R"cpp( // ObjC: Categories @interface $Class_def[[Foo]] @end @interface $Class[[Foo]]($Namespace_def[[Bar]]) @end @implementation $Class[[Foo]]($Namespace_def[[Bar]]) @end )cpp", R"cpp( // ObjC: Properties and Ivars. @interface $Class_def[[Foo]] { int $Field_decl[[_someProperty]]; } @property(nonatomic, assign) int $Field_decl[[someProperty]]; @property(readonly, class) $Class[[Foo]] *$Field_decl_readonly_static[[sharedInstance]]; @end @implementation $Class_def[[Foo]] @synthesize someProperty = _someProperty; - (int)$Method_def[[otherMethod]] { return 0; } - (int)$Method_def[[doSomething]] { $Class[[Foo]].$Field_static[[sharedInstance]].$Field[[someProperty]] $Operator[[=]] 1; self.$Field[[someProperty]] $Operator[[=]] self.$Field[[someProperty]] $Operator[[+]] self.$Field[[otherMethod]] $Operator[[+]] 1; self->$Field[[_someProperty]] $Operator[[=]] $Field[[_someProperty]] $Operator[[+]] 1; } @end )cpp", // Member imported from dependent base R"cpp( template $Bracket[[<]]typename$Bracket[[>]] struct $Class_def[[Base]] { int $Field_decl[[member]]; }; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[Derived]] : $Class[[Base]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] { using $Class[[Base]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]]::$Field_dependentName[[member]]; void $Method_def[[method]]() { (void)$Field_dependentName[[member]]; } }; )cpp", // Modifier for variables passed as non-const references R"cpp( struct $Class_def[[ClassWithOp]] { void operator$Operator_decl[[(]]$Operator_decl[[)]](int); void operator$Operator_decl[[(]]$Operator_decl[[)]](int, int &); void operator$Operator_decl[[(]]$Operator_decl[[)]](int, int, const int &); int &operator$Operator_decl[[[]]$Operator_decl[[]]](int &); int operator$Operator_decl[[[]]$Operator_decl[[]]](int) const; }; struct $Class_def[[ClassWithStaticMember]] { static inline int $StaticField_def_static[[j]] = 0; }; struct $Class_def[[ClassWithRefMembers]] { $Class_def_constrDestr[[ClassWithRefMembers]](int $Parameter_def[[i]]) : $Field[[i1]]($Parameter[[i]]), $Field_readonly[[i2]]($Parameter[[i]]), $Field[[i3]]($Parameter_usedAsMutableReference[[i]]), $Field_readonly[[i4]]($Class[[ClassWithStaticMember]]::$StaticField_static[[j]]), $Field[[i5]]($Class[[ClassWithStaticMember]]::$StaticField_static_usedAsMutableReference[[j]]) {} int $Field_decl[[i1]]; const int &$Field_decl_readonly[[i2]]; int &$Field_decl[[i3]]; const int &$Field_decl_readonly[[i4]]; int &$Field_decl[[i5]]; }; void $Function_def[[fun]](int, const int, int*, const int*, int&, const int&, int*&, const int*&, const int* const &, int**, int**&, int** const &, int = 123) { int $LocalVariable_def[[val]]; int* $LocalVariable_def[[ptr]]; const int* $LocalVariable_def_readonly[[constPtr]]; int** $LocalVariable_def[[array]]; $Function[[fun]]($LocalVariable[[val]], $LocalVariable[[val]], $LocalVariable_usedAsMutablePointer[[ptr]], $LocalVariable_readonly[[constPtr]], $LocalVariable_usedAsMutableReference[[val]], $LocalVariable[[val]], $LocalVariable_usedAsMutableReference[[ptr]], $LocalVariable_readonly_usedAsMutableReference[[constPtr]], $LocalVariable_readonly[[constPtr]], $LocalVariable_usedAsMutablePointer[[array]], $LocalVariable_usedAsMutableReference[[array]], $LocalVariable[[array]] ); [](int){}$Operator_userDefined[[(]]$LocalVariable[[val]]$Operator_userDefined[[)]]; [](int&){}$Operator_userDefined[[(]]$LocalVariable_usedAsMutableReference[[val]]$Operator_userDefined[[)]]; [](const int&){}$Operator_userDefined[[(]]$LocalVariable[[val]]$Operator_userDefined[[)]]; $Class[[ClassWithOp]] $LocalVariable_def[[c]]; const $Class[[ClassWithOp]] $LocalVariable_def_readonly[[c2]]; $LocalVariable[[c]]$Operator_userDefined[[(]]$LocalVariable[[val]]$Operator_userDefined[[)]]; $LocalVariable[[c]]$Operator_userDefined[[(]]0, $LocalVariable_usedAsMutableReference[[val]]$Operator_userDefined[[)]]; $LocalVariable[[c]]$Operator_userDefined[[(]]0, 0, $LocalVariable[[val]]$Operator_userDefined[[)]]; $LocalVariable[[c]]$Operator_userDefined[[[]]$LocalVariable_usedAsMutableReference[[val]]$Operator_userDefined[[]]]; $LocalVariable_readonly[[c2]]$Operator_userDefined[[[]]$LocalVariable[[val]]$Operator_userDefined[[]]]; } struct $Class_def[[S]] { $Class_def_constrDestr[[S]](int&) { $Class[[S]] $LocalVariable_def[[s1]]($Field_usedAsMutableReference[[field]]); $Class[[S]] $LocalVariable_def[[s2]]($LocalVariable[[s1]].$Field_usedAsMutableReference[[field]]); $Class[[S]] $LocalVariable_def[[s3]]($StaticField_static_usedAsMutableReference[[staticField]]); $Class[[S]] $LocalVariable_def[[s4]]($Class[[S]]::$StaticField_static_usedAsMutableReference[[staticField]]); } int $Field_decl[[field]]; static int $StaticField_decl_static[[staticField]]; }; template $Bracket[[<]]typename $TemplateParameter_def[[X]]$Bracket[[>]] void $Function_def[[foo]]($TemplateParameter[[X]]& $Parameter_def[[x]]) { // We do not support dependent types, so this one should *not* get the modifier. $Function[[foo]]($Parameter[[x]]); } )cpp", // init-captures R"cpp( void $Function_def[[foo]]() { int $LocalVariable_def[[a]], $LocalVariable_def[[b]]; [ $LocalVariable_def[[c]] = $LocalVariable[[a]], $LocalVariable_def[[d]]($LocalVariable[[b]]) ]() {}$Operator_userDefined[[(]]$Operator_userDefined[[)]]; } )cpp", // Enum base specifier R"cpp( using $Primitive_decl[[MyTypedef]] = int; enum $Enum_decl[[MyEnum]] : $Primitive[[MyTypedef]] {}; )cpp", // Enum base specifier R"cpp( typedef int $Primitive_decl[[MyTypedef]]; enum $Enum_decl[[MyEnum]] : $Primitive[[MyTypedef]] {}; )cpp", // Using enum R"cpp( enum class $Enum_decl[[Color]] { $EnumConstant_decl_readonly[[Black]] }; namespace $Namespace_decl[[ns]] { using enum $Enum[[Color]]; $Enum[[Color]] $Variable_def[[ModelT]] = $EnumConstant[[Black]]; } )cpp", // Issue 1096 R"cpp( void $Function_decl[[Foo]](); // Use <: :> digraphs for deprecated attribute to avoid conflict with annotation syntax <:<:deprecated:>:> void $Function_decl_deprecated[[Foo]](int* $Parameter_def[[x]]); void $Function_decl[[Foo]](int $Parameter_def[[x]]); template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_def[[Bar]]($TemplateParameter[[T]] $Parameter_def[[x]]) { $Function_deprecated[[Foo]]($Parameter[[x]]); $Function_deprecated[[Foo]]($Parameter[[x]]); $Function_deprecated[[Foo]]($Parameter[[x]]); } )cpp", // Predefined identifiers R"cpp( void $Function_def[[Foo]]() { const char *$LocalVariable_def_readonly[[s]] = $LocalVariable_readonly_static[[__func__]]; } )cpp", // override and final R"cpp( class $Class_def_abstract[[Base]] { virtual void $Method_decl_abstract_virtual[[m]]() = 0; }; class $Class_def[[override]] : public $Class_abstract[[Base]] { void $Method_decl_virtual[[m]]() $Modifier[[override]]; }; class $Class_def[[final]] : public $Class[[override]] { void $Method_decl_virtual[[m]]() $Modifier[[override]] $Modifier[[final]]; }; )cpp", // Issue 1222: readonly modifier for generic parameter R"cpp( template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] auto $Function_def[[foo]](const $TemplateParameter[[T]] $Parameter_def_readonly[[template_type]], const $TemplateParameter[[auto]] $Parameter_def_readonly[[auto_type]], const int $Parameter_def_readonly[[explicit_type]]) { return $Parameter_readonly[[template_type]] $Operator_userDefined[[+]] $Parameter_readonly[[auto_type]] $Operator_userDefined[[+]] $Parameter_readonly[[explicit_type]]; } )cpp", // Explicit template specialization R"cpp( struct $Class_def[[Base]]{}; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[S]] : public $Class[[Base]] {}; template $Bracket[[<]]$Bracket[[>]] struct $Class_def[[S]]$Bracket[[<]]void$Bracket[[>]] : public $Class[[Base]] {}; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] $TemplateParameter[[T]] $Variable_def[[x]] = {}; template $Bracket[[<]]$Bracket[[>]] int $Variable_def[[x]]$Bracket[[<]]int$Bracket[[>]] = (int)sizeof($Class[[Base]]); )cpp", // operator calls in template R"cpp( template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[C]] { bool $Method_def[[compare]]($TemplateParameter[[T]] $Parameter_def[[t1]], $TemplateParameter[[T]] $Parameter_def[[t2]]) { return $Parameter[[t1]] $Operator_userDefined[[==]] $Parameter[[t2]]; } $TemplateParameter[[T]] $Method_def[[deref]]($TemplateParameter[[T]] *$Parameter_def[[t]]) { return $Operator_userDefined[[*]]$Parameter[[t]]; } }; )cpp", // new and delete R"cpp( struct $Class_def[[S]] { int *$Field_decl[[a]]; }; void $Function_def[[f]]() { $Class[[S]] *$LocalVariable_def[[s]] = $Operator[[new]] $Class[[S]]; $LocalVariable[[s]]->$Field[[a]] $Operator[[=]] $Operator[[new]] int[10]; $Operator[[delete]][] $LocalVariable[[s]]->$Field[[a]]; $Operator[[delete]] $LocalVariable[[s]]; } )cpp", // explicit operator invocation R"cpp( struct $Class_def[[S]] { $Class[[S]] operator$Operator_decl[[+]](const $Class[[S]] &$Parameter_def_readonly[[other]]); }; void $Function_def[[f]]() { $Class[[S]] $LocalVariable_def[[s]]; $Class[[S]] $LocalVariable_def[[s2]] = $LocalVariable[[s]].operator$Operator_userDefined[[+]]($LocalVariable[[s]]); } )cpp", R"cpp( // Brackets support: C++ casts void $Function_def[[f]]() { struct $Class_def[[B]] { virtual ~$Class_decl_constrDestr[[B]](); }; struct $Class_def[[D]] : public $Class[[B]] {}; $Class[[B]] $LocalVariable_def[[b]]; int $LocalVariable_def[[i]] = static_cast$Bracket[[<]]int$Bracket[[>]](3.5); void *$LocalVariable_def[[p]] = reinterpret_cast$Bracket[[<]]void *$Bracket[[>]](0); $Class[[D]] &$LocalVariable_def[[d]] = dynamic_cast$Bracket[[<]]$Class[[D]] &$Bracket[[>]]($LocalVariable[[b]]); } )cpp", // Brackets support: Nested template instantiations. R"cpp( template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[S]] {}; void $Function_def[[f]]() { $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]$Bracket[[>]] $LocalVariable_def[[s1]]; $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]\ $Bracket[[>]] $LocalVariable_def[[s2]]; $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]$Bracket[[>]]$Bracket[[>]] $LocalVariable_def[[s3]]; $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]\ $Bracket[[>]]$Bracket[[>]] $LocalVariable_def[[s4]]; $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]\ $Bracket[[>]]$Bracket[[>]] $LocalVariable_def[[s5]]; $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]\ $Bracket[[>]]$Bracket[[>]] $LocalVariable_def[[s6]]; $Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]$Class[[S]]$Bracket[[<]]int$Bracket[[>]]$Bracket[[>]]\ $Bracket[[>]] $LocalVariable_def[[s7]]; } )cpp", // Brackets support: One of the brackets is a macro. R"cpp( #define $Macro_decl[[LESS]] < template $Macro[[LESS]] typename $TemplateParameter_def[[T]] > class $Class_def[[A]] {}; )cpp", // Brackets support: Specializations R"cpp( template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[S]] { public: template $Bracket[[<]]typename $TemplateParameter_def[[U]]$Bracket[[>]] class $Class_decl[[Nested]]; }; template $Bracket[[<]]$Bracket[[>]] class $Class_def[[S]]$Bracket[[<]]int$Bracket[[>]] {}; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[S]]$Bracket[[<]]$TemplateParameter[[T]]*$Bracket[[>]] {}; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] template $Bracket[[<]]typename $TemplateParameter_def[[U]]$Bracket[[>]] class $Class[[S]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]]::$Class_def[[Nested]] {}; template $Bracket[[<]]$Bracket[[>]] template $Bracket[[<]]$Bracket[[>]] class $Class[[S]]$Bracket[[<]]float$Bracket[[>]]::$Class_def[[Nested]]$Bracket[[<]]float$Bracket[[>]] {}; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_decl[[foo]](); void $Function_def[[bar]]() { $Function[[foo]]$Bracket[[<]]int$Bracket[[>]](); } template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] constexpr int $Variable_def_readonly[[V]] = 42; constexpr int $Variable_def_readonly[[Y]] = $Variable_readonly[[V]]$Bracket[[<]]char$Bracket[[>]]; template $Bracket[[<]]$Bracket[[>]] constexpr int $Variable_def_readonly[[V]]$Bracket[[<]]int$Bracket[[>]] = 5; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] constexpr int $Variable_def_readonly[[V]]$Bracket[[<]]$TemplateParameter[[T]]*$Bracket[[>]] = 6; template $Bracket[[<]]typename$Bracket[[>]] class $Class_def[[A]] { enum class $Enum_decl[[E]]; }; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] enum class $Class[[A]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]]::$Enum_decl[[E]] {$EnumConstant_decl_readonly[[X]], $EnumConstant_decl_readonly[[Y]], $EnumConstant_decl_readonly[[Z]]}; template $Bracket[[<]]class $TemplateParameter_def[[T]]$Bracket[[>]] class $Class_def[[B]] { template $Bracket[[<]]class $TemplateParameter_def[[U]]$Bracket[[>]] void $Method_def[[foo]]($TemplateParameter[[U]]) { } template$Bracket[[<]]$Bracket[[>]] void $Method_def[[foo]]$Bracket[[<]]int$Bracket[[>]](int) { } friend void $Function_decl[[foo]]$Bracket[[<]]$Bracket[[>]]($TemplateParameter[[T]]); }; )cpp", // Brackets support: Function calls R"cpp( template $Bracket[[<]]typename$Bracket[[>]] void $Function_decl[[free]](); template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] struct $Class_def[[A]] { template $Bracket[[<]]typename$Bracket[[>]] void $Method_decl[[mem]](); }; void $Function_def[[foo]]() { $Class[[A]]$Bracket[[<]]int$Bracket[[>]] $LocalVariable_def[[a]]; $LocalVariable[[a]].$Method[[mem]]$Bracket[[<]]int$Bracket[[>]](); } template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_def[[bar]]() { $Function[[free]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]](); $Class[[A]]$Bracket[[<]]int$Bracket[[>]] $LocalVariable_def[[a]]; $LocalVariable[[a]].$Method[[mem]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]](); $Class[[A]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] $LocalVariable_def[[b]]; $LocalVariable[[b]].template $Method_dependentName[[mem]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]](); } )cpp", // Brackets support: Concepts R"cpp( template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] concept $Concept_decl[[C]] = true; template $Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] requires $Concept[[C]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]] class $Class_def[[Z]] {}; template $Bracket[[<]]typename, typename$Bracket[[>]] concept $Concept_decl[[C2]] = true; template $Bracket[[<]]$Concept[[C2]]$Bracket[[<]]int$Bracket[[>]] $TemplateParameter_def[[A]]$Bracket[[>]] class $Class_def[[B]] {}; )cpp", // Labels R"cpp( bool $Function_def[[funcWithGoto]](bool $Parameter_def[[b]]) { if ($Parameter[[b]]) goto $Label[[return_true]]; return false; $Label_decl[[return_true]]: return true; } )cpp", // no crash R"cpp( struct $Class_def[[Foo]] { void $Method_decl[[foo]](); }; void $Function_def[[s]]($Class[[Foo]] $Parameter_def[[f]]) { auto $LocalVariable_def[[k]] = $Operator[[&]]$Class[[Foo]]::$Method[[foo]]; ($Parameter[[f]]$Operator[[.*]]$LocalVariable[[k]])(); // no crash on VisitCXXMemberCallExpr } )cpp", R"cpp( template$Bracket[[<]]typename$Bracket[[>]] class $Class_def[[Foo]] {}; template$Bracket[[<]]typename $TemplateParameter_def[[T]]$Bracket[[>]] void $Function_def[[k]]() { auto $LocalVariable_def[[s]] = $Operator[[new]] $Class[[Foo]]$Bracket[[<]]$TemplateParameter[[T]]$Bracket[[>]](); $Operator[[delete]] $LocalVariable[[s]]; } )cpp", // Recursive UsingValueDecl R"cpp( template $Bracket[[<]]int$Bracket[[>]] class $Class_def[[X]] { template $Bracket[[<]]int$Bracket[[>]] class $Class_def[[Y]] { using $Class[[Y]]$Bracket[[<]]0$Bracket[[>]]::$Unknown_dependentName[[xxx]]; }; }; )cpp"}; for (const auto &TestCase : TestCases) // Mask off scope modifiers to keep the tests manageable. // They're tested separately. checkHighlightings(TestCase, {}, ~ScopeModifierMask); checkHighlightings(R"cpp( class $Class_def[[A]] { #include "imp.h" }; )cpp", {{"imp.h", R"cpp( int someMethod(); void otherMethod(); )cpp"}}, ~ScopeModifierMask); // A separate test for macros in headers. checkHighlightings(R"cpp( #include "imp.h" $Macro[[DEFINE_Y]] $Macro[[DXYZ_Y]](A); )cpp", {{"imp.h", R"cpp( #define DXYZ(X) class X {}; #define DXYZ_Y(Y) DXYZ(x##Y) #define DEFINE(X) int X; #define DEFINE_Y DEFINE(Y) )cpp"}}, ~ScopeModifierMask); checkHighlightings(R"cpp( #include "SYSObject.h" @interface $Class_defaultLibrary[[SYSObject]] ($Namespace_def[[UserCategory]]) @property(nonatomic, readonly) int $Field_decl_readonly[[user_property]]; @end int $Function_def[[somethingUsingSystemSymbols]]() { $Class_defaultLibrary[[SYSObject]] *$LocalVariable_def[[obj]] = [$Class_defaultLibrary[[SYSObject]] $StaticMethod_static_defaultLibrary[[new]]]; return $LocalVariable[[obj]].$Field_defaultLibrary[[value]] $Operator[[+]] $LocalVariable[[obj]].$Field_readonly[[user_property]]; } )cpp", {{"SystemSDK/SYSObject.h", R"cpp( @interface SYSObject @property(nonatomic, assign) int value; + (instancetype)new; @end )cpp"}}, ~ScopeModifierMask, {"-isystemSystemSDK/"}); } TEST(SemanticHighlighting, ScopeModifiers) { const char *TestCases[] = { R"cpp( static int $Variable_fileScope[[x]]; namespace $Namespace_globalScope[[ns]] { class $Class_globalScope[[x]]; } namespace { void $Function_fileScope[[foo]](); } )cpp", R"cpp( void $Function_globalScope[[foo]](int $Parameter_functionScope[[y]]) { int $LocalVariable_functionScope[[z]]; } )cpp", R"cpp( // Lambdas are considered functions, not classes. auto $Variable_fileScope[[x]] = [$LocalVariable_functionScope[[m]](42)] { return $LocalVariable_functionScope[[m]]; }; )cpp", R"cpp( // Classes in functions are classes. void $Function_globalScope[[foo]]() { class $Class_functionScope[[X]] { int $Field_classScope[[x]]; }; }; )cpp", R"cpp( template $Bracket[[<]]int $TemplateParameter_classScope[[T]]$Bracket[[>]] class $Class_globalScope[[X]] { }; )cpp", R"cpp( // No useful scope for template parameters of variable templates. template $Bracket[[<]]typename $TemplateParameter[[A]]$Bracket[[>]] unsigned $Variable_globalScope[[X]] = $TemplateParameter[[A]]::$Unknown_classScope[[x]]; )cpp", R"cpp( #define $Macro_globalScope[[X]] 1 int $Variable_globalScope[[Y]] = $Macro_globalScope[[X]]; )cpp", }; for (const char *Test : TestCases) checkHighlightings(Test, {}, ScopeModifierMask); } // Ranges are highlighted as variables, unless highlighted as $Function etc. std::vector tokens(llvm::StringRef MarkedText) { Annotations A(MarkedText); std::vector Results; for (const Range& R : A.ranges()) Results.push_back({HighlightingKind::Variable, 0, R}); for (unsigned I = 0; I < static_cast(HighlightingKind::LastKind); ++I) { HighlightingKind Kind = static_cast(I); for (const Range& R : A.ranges(llvm::to_string(Kind))) Results.push_back({Kind, 0, R}); } llvm::sort(Results); return Results; } TEST(SemanticHighlighting, toSemanticTokens) { auto Tokens = tokens(R"( [[blah]] $Function[[big]] [[bang]] )"); Tokens.front().Modifiers |= unsigned(HighlightingModifier::Declaration); Tokens.front().Modifiers |= unsigned(HighlightingModifier::Readonly); auto Results = toSemanticTokens(Tokens, /*Code=*/""); ASSERT_THAT(Results, SizeIs(3)); EXPECT_EQ(Results[0].tokenType, unsigned(HighlightingKind::Variable)); EXPECT_EQ(Results[0].tokenModifiers, unsigned(HighlightingModifier::Declaration) | unsigned(HighlightingModifier::Readonly)); EXPECT_EQ(Results[0].deltaLine, 1u); EXPECT_EQ(Results[0].deltaStart, 1u); EXPECT_EQ(Results[0].length, 4u); EXPECT_EQ(Results[1].tokenType, unsigned(HighlightingKind::Function)); EXPECT_EQ(Results[1].tokenModifiers, 0u); EXPECT_EQ(Results[1].deltaLine, 2u); EXPECT_EQ(Results[1].deltaStart, 4u); EXPECT_EQ(Results[1].length, 3u); EXPECT_EQ(Results[2].tokenType, unsigned(HighlightingKind::Variable)); EXPECT_EQ(Results[1].tokenModifiers, 0u); EXPECT_EQ(Results[2].deltaLine, 0u); EXPECT_EQ(Results[2].deltaStart, 4u); EXPECT_EQ(Results[2].length, 4u); } TEST(SemanticHighlighting, diffSemanticTokens) { auto Before = toSemanticTokens(tokens(R"( [[foo]] [[bar]] [[baz]] [[one]] [[two]] [[three]] )"), /*Code=*/""); EXPECT_THAT(diffTokens(Before, Before), IsEmpty()); auto After = toSemanticTokens(tokens(R"( [[foo]] [[hello]] [[world]] [[baz]] [[one]] [[two]] [[three]] )"), /*Code=*/""); // Replace [bar, baz] with [hello, world, baz] auto Diff = diffTokens(Before, After); ASSERT_THAT(Diff, SizeIs(1)); EXPECT_EQ(1u, Diff.front().startToken); EXPECT_EQ(2u, Diff.front().deleteTokens); ASSERT_THAT(Diff.front().tokens, SizeIs(3)); // hello EXPECT_EQ(0u, Diff.front().tokens[0].deltaLine); EXPECT_EQ(4u, Diff.front().tokens[0].deltaStart); EXPECT_EQ(5u, Diff.front().tokens[0].length); // world EXPECT_EQ(0u, Diff.front().tokens[1].deltaLine); EXPECT_EQ(6u, Diff.front().tokens[1].deltaStart); EXPECT_EQ(5u, Diff.front().tokens[1].length); // baz EXPECT_EQ(0u, Diff.front().tokens[2].deltaLine); EXPECT_EQ(6u, Diff.front().tokens[2].deltaStart); EXPECT_EQ(3u, Diff.front().tokens[2].length); } TEST(SemanticHighlighting, MultilineTokens) { llvm::StringRef AnnotatedCode = R"cpp( [[fo o o]] [[bar]])cpp"; auto Toks = toSemanticTokens(tokens(AnnotatedCode), Annotations(AnnotatedCode).code()); ASSERT_THAT(Toks, SizeIs(4)); // foo EXPECT_EQ(Toks[0].deltaLine, 1u); EXPECT_EQ(Toks[0].deltaStart, 2u); EXPECT_EQ(Toks[0].length, 2u); EXPECT_EQ(Toks[1].deltaLine, 1u); EXPECT_EQ(Toks[1].deltaStart, 0u); EXPECT_EQ(Toks[1].length, 1u); EXPECT_EQ(Toks[2].deltaLine, 1u); EXPECT_EQ(Toks[2].deltaStart, 0u); EXPECT_EQ(Toks[2].length, 1u); // bar EXPECT_EQ(Toks[3].deltaLine, 0u); EXPECT_EQ(Toks[3].deltaStart, 2u); EXPECT_EQ(Toks[3].length, 3u); } TEST(SemanticHighlighting, WithHighlightingFilter) { llvm::StringRef AnnotatedCode = R"cpp( int *$Variable[[x]] = new int; )cpp"; Config Cfg; Cfg.SemanticTokens.DisabledKinds = {"Operator"}; Cfg.SemanticTokens.DisabledModifiers = {"Declaration", "Definition"}; WithContextValue WithCfg(Config::Key, std::move(Cfg)); checkHighlightings(AnnotatedCode, {}, ~ScopeModifierMask); } } // namespace } // namespace clangd } // namespace clang