1 //===-- ClangUserExpression.h -----------------------------------*- C++ -*-===// 2 // 3 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions. 4 // See https://llvm.org/LICENSE.txt for license information. 5 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception 6 // 7 //===----------------------------------------------------------------------===// 8 9 #ifndef LLDB_SOURCE_PLUGINS_EXPRESSIONPARSER_CLANG_CLANGUSEREXPRESSION_H 10 #define LLDB_SOURCE_PLUGINS_EXPRESSIONPARSER_CLANG_CLANGUSEREXPRESSION_H 11 12 #include <vector> 13 14 #include "ASTResultSynthesizer.h" 15 #include "ASTStructExtractor.h" 16 #include "ClangExpressionDeclMap.h" 17 #include "ClangExpressionHelper.h" 18 #include "ClangExpressionSourceCode.h" 19 #include "ClangExpressionVariable.h" 20 #include "IRForTarget.h" 21 22 #include "lldb/Core/Address.h" 23 #include "lldb/Expression/LLVMUserExpression.h" 24 #include "lldb/Expression/Materializer.h" 25 #include "lldb/Target/ExecutionContext.h" 26 #include "lldb/lldb-forward.h" 27 #include "lldb/lldb-private.h" 28 29 namespace lldb_private { 30 31 /// \class ClangUserExpression ClangUserExpression.h 32 /// "lldb/Expression/ClangUserExpression.h" Encapsulates a single expression 33 /// for use with Clang 34 /// 35 /// LLDB uses expressions for various purposes, notably to call functions 36 /// and as a backend for the expr command. ClangUserExpression encapsulates 37 /// the objects needed to parse and interpret or JIT an expression. It uses 38 /// the Clang parser to produce LLVM IR from the expression. 39 class ClangUserExpression : public LLVMUserExpression { 40 // LLVM RTTI support 41 static char ID; 42 43 public: isA(const void * ClassID)44 bool isA(const void *ClassID) const override { 45 return ClassID == &ID || LLVMUserExpression::isA(ClassID); 46 } classof(const Expression * obj)47 static bool classof(const Expression *obj) { return obj->isA(&ID); } 48 49 enum { kDefaultTimeout = 500000u }; 50 51 class ClangUserExpressionHelper : public ClangExpressionHelper { 52 public: ClangUserExpressionHelper(Target & target,bool top_level)53 ClangUserExpressionHelper(Target &target, bool top_level) 54 : m_target(target), m_top_level(top_level) {} 55 56 ~ClangUserExpressionHelper() override = default; 57 58 /// Return the object that the parser should use when resolving external 59 /// values. May be NULL if everything should be self-contained. DeclMap()60 ClangExpressionDeclMap *DeclMap() override { 61 return m_expr_decl_map_up.get(); 62 } 63 ResetDeclMap()64 void ResetDeclMap() { m_expr_decl_map_up.reset(); } 65 66 void ResetDeclMap(ExecutionContext &exe_ctx, 67 Materializer::PersistentVariableDelegate &result_delegate, 68 bool keep_result_in_memory, 69 ValueObject *ctx_obj); 70 71 /// Return the object that the parser should allow to access ASTs. May be 72 /// NULL if the ASTs do not need to be transformed. 73 /// 74 /// \param[in] passthrough 75 /// The ASTConsumer that the returned transformer should send 76 /// the ASTs to after transformation. 77 clang::ASTConsumer * 78 ASTTransformer(clang::ASTConsumer *passthrough) override; 79 80 void CommitPersistentDecls() override; 81 82 private: 83 Target &m_target; 84 std::unique_ptr<ClangExpressionDeclMap> m_expr_decl_map_up; 85 std::unique_ptr<ASTStructExtractor> m_struct_extractor_up; ///< The class 86 ///that generates 87 ///the argument 88 ///struct layout. 89 std::unique_ptr<ASTResultSynthesizer> m_result_synthesizer_up; 90 bool m_top_level; 91 }; 92 93 /// Constructor 94 /// 95 /// \param[in] expr 96 /// The expression to parse. 97 /// 98 /// \param[in] prefix 99 /// If non-NULL, a C string containing translation-unit level 100 /// definitions to be included when the expression is parsed. 101 /// 102 /// \param[in] language 103 /// If not eLanguageTypeUnknown, a language to use when parsing 104 /// the expression. Currently restricted to those languages 105 /// supported by Clang. 106 /// 107 /// \param[in] desired_type 108 /// If not eResultTypeAny, the type to use for the expression 109 /// result. 110 /// 111 /// \param[in] options 112 /// Additional options for the expression. 113 /// 114 /// \param[in] ctx_obj 115 /// The object (if any) in which context the expression 116 /// must be evaluated. For details see the comment to 117 /// `UserExpression::Evaluate`. 118 ClangUserExpression(ExecutionContextScope &exe_scope, llvm::StringRef expr, 119 llvm::StringRef prefix, lldb::LanguageType language, 120 ResultType desired_type, 121 const EvaluateExpressionOptions &options, 122 ValueObject *ctx_obj); 123 124 ~ClangUserExpression() override; 125 126 /// Parse the expression 127 /// 128 /// \param[in] diagnostic_manager 129 /// A diagnostic manager to report parse errors and warnings to. 130 /// 131 /// \param[in] exe_ctx 132 /// The execution context to use when looking up entities that 133 /// are needed for parsing (locations of functions, types of 134 /// variables, persistent variables, etc.) 135 /// 136 /// \param[in] execution_policy 137 /// Determines whether interpretation is possible or mandatory. 138 /// 139 /// \param[in] keep_result_in_memory 140 /// True if the resulting persistent variable should reside in 141 /// target memory, if applicable. 142 /// 143 /// \return 144 /// True on success (no errors); false otherwise. 145 bool Parse(DiagnosticManager &diagnostic_manager, ExecutionContext &exe_ctx, 146 lldb_private::ExecutionPolicy execution_policy, 147 bool keep_result_in_memory, bool generate_debug_info) override; 148 149 bool Complete(ExecutionContext &exe_ctx, CompletionRequest &request, 150 unsigned complete_pos) override; 151 GetTypeSystemHelper()152 ExpressionTypeSystemHelper *GetTypeSystemHelper() override { 153 return &m_type_system_helper; 154 } 155 DeclMap()156 ClangExpressionDeclMap *DeclMap() { return m_type_system_helper.DeclMap(); } 157 ResetDeclMap()158 void ResetDeclMap() { m_type_system_helper.ResetDeclMap(); } 159 ResetDeclMap(ExecutionContext & exe_ctx,Materializer::PersistentVariableDelegate & result_delegate,bool keep_result_in_memory)160 void ResetDeclMap(ExecutionContext &exe_ctx, 161 Materializer::PersistentVariableDelegate &result_delegate, 162 bool keep_result_in_memory) { 163 m_type_system_helper.ResetDeclMap(exe_ctx, result_delegate, 164 keep_result_in_memory, 165 m_ctx_obj); 166 } 167 168 lldb::ExpressionVariableSP 169 GetResultAfterDematerialization(ExecutionContextScope *exe_scope) override; 170 DidImportCxxModules()171 bool DidImportCxxModules() const { return m_imported_cpp_modules; } 172 173 private: 174 /// Populate m_in_cplusplus_method and m_in_objectivec_method based on the 175 /// environment. 176 177 void ScanContext(ExecutionContext &exe_ctx, 178 lldb_private::Status &err) override; 179 180 bool AddArguments(ExecutionContext &exe_ctx, std::vector<lldb::addr_t> &args, 181 lldb::addr_t struct_address, 182 DiagnosticManager &diagnostic_manager) override; 183 184 void CreateSourceCode(DiagnosticManager &diagnostic_manager, 185 ExecutionContext &exe_ctx, 186 std::vector<std::string> modules_to_import, 187 bool for_completion); 188 /// Defines how the current expression should be wrapped. 189 ClangExpressionSourceCode::WrapKind GetWrapKind() const; 190 bool SetupPersistentState(DiagnosticManager &diagnostic_manager, 191 ExecutionContext &exe_ctx); 192 bool PrepareForParsing(DiagnosticManager &diagnostic_manager, 193 ExecutionContext &exe_ctx, bool for_completion); 194 195 ClangUserExpressionHelper m_type_system_helper; 196 197 class ResultDelegate : public Materializer::PersistentVariableDelegate { 198 public: ResultDelegate(lldb::TargetSP target)199 ResultDelegate(lldb::TargetSP target) : m_target_sp(target) {} 200 ConstString GetName() override; 201 void DidDematerialize(lldb::ExpressionVariableSP &variable) override; 202 203 void RegisterPersistentState(PersistentExpressionState *persistent_state); 204 lldb::ExpressionVariableSP &GetVariable(); 205 206 private: 207 PersistentExpressionState *m_persistent_state; 208 lldb::ExpressionVariableSP m_variable; 209 lldb::TargetSP m_target_sp; 210 }; 211 212 /// The include directories that should be used when parsing the expression. 213 std::vector<std::string> m_include_directories; 214 215 /// The absolute character position in the transformed source code where the 216 /// user code (as typed by the user) starts. If the variable is empty, then we 217 /// were not able to calculate this position. 218 llvm::Optional<size_t> m_user_expression_start_pos; 219 ResultDelegate m_result_delegate; 220 ClangPersistentVariables *m_clang_state; 221 std::unique_ptr<ClangExpressionSourceCode> m_source_code; 222 /// File name used for the expression. 223 std::string m_filename; 224 225 /// The object (if any) in which context the expression is evaluated. 226 /// See the comment to `UserExpression::Evaluate` for details. 227 ValueObject *m_ctx_obj; 228 229 /// True iff this expression explicitly imported C++ modules. 230 bool m_imported_cpp_modules = false; 231 232 /// True if the expression parser should enforce the presence of a valid class 233 /// pointer in order to generate the expression as a method. 234 bool m_enforce_valid_object = true; 235 /// True if the expression is compiled as a C++ member function (true if it 236 /// was parsed when exe_ctx was in a C++ method). 237 bool m_in_cplusplus_method = false; 238 /// True if the expression is compiled as an Objective-C method (true if it 239 /// was parsed when exe_ctx was in an Objective-C method). 240 bool m_in_objectivec_method = false; 241 /// True if the expression is compiled as a static (or class) method 242 /// (currently true if it was parsed when exe_ctx was in an Objective-C class 243 /// method). 244 bool m_in_static_method = false; 245 /// True if "this" or "self" must be looked up and passed in. False if the 246 /// expression doesn't really use them and they can be NULL. 247 bool m_needs_object_ptr = false; 248 }; 249 250 } // namespace lldb_private 251 252 #endif // LLDB_SOURCE_PLUGINS_EXPRESSIONPARSER_CLANG_CLANGUSEREXPRESSION_H 253