ClangUserExpression.h
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//===-- ClangUserExpression.h -----------------------------------*- 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
//
//===----------------------------------------------------------------------===//
#ifndef liblldb_ClangUserExpression_h_
#define liblldb_ClangUserExpression_h_
#include <vector>
#include "ASTResultSynthesizer.h"
#include "ASTStructExtractor.h"
#include "ClangExpressionDeclMap.h"
#include "ClangExpressionHelper.h"
#include "ClangExpressionSourceCode.h"
#include "ClangExpressionVariable.h"
#include "IRForTarget.h"
#include "lldb/Core/Address.h"
#include "lldb/Core/ClangForward.h"
#include "lldb/Expression/LLVMUserExpression.h"
#include "lldb/Expression/Materializer.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/lldb-forward.h"
#include "lldb/lldb-private.h"
namespace lldb_private {
/// \class ClangUserExpression ClangUserExpression.h
/// "lldb/Expression/ClangUserExpression.h" Encapsulates a single expression
/// for use with Clang
///
/// LLDB uses expressions for various purposes, notably to call functions
/// and as a backend for the expr command. ClangUserExpression encapsulates
/// the objects needed to parse and interpret or JIT an expression. It uses
/// the Clang parser to produce LLVM IR from the expression.
class ClangUserExpression : public LLVMUserExpression {
// LLVM RTTI support
static char ID;
public:
bool isA(const void *ClassID) const override {
return ClassID == &ID || LLVMUserExpression::isA(ClassID);
}
static bool classof(const Expression *obj) { return obj->isA(&ID); }
enum { kDefaultTimeout = 500000u };
class ClangUserExpressionHelper : public ClangExpressionHelper {
public:
ClangUserExpressionHelper(Target &target, bool top_level)
: m_target(target), m_top_level(top_level) {}
~ClangUserExpressionHelper() override = default;
/// Return the object that the parser should use when resolving external
/// values. May be NULL if everything should be self-contained.
ClangExpressionDeclMap *DeclMap() override {
return m_expr_decl_map_up.get();
}
void ResetDeclMap() { m_expr_decl_map_up.reset(); }
void ResetDeclMap(ExecutionContext &exe_ctx,
Materializer::PersistentVariableDelegate &result_delegate,
bool keep_result_in_memory,
ValueObject *ctx_obj);
/// Return the object that the parser should allow to access ASTs. May be
/// NULL if the ASTs do not need to be transformed.
///
/// \param[in] passthrough
/// The ASTConsumer that the returned transformer should send
/// the ASTs to after transformation.
clang::ASTConsumer *
ASTTransformer(clang::ASTConsumer *passthrough) override;
void CommitPersistentDecls() override;
private:
Target &m_target;
std::unique_ptr<ClangExpressionDeclMap> m_expr_decl_map_up;
std::unique_ptr<ASTStructExtractor> m_struct_extractor_up; ///< The class
///that generates
///the argument
///struct layout.
std::unique_ptr<ASTResultSynthesizer> m_result_synthesizer_up;
bool m_top_level;
};
/// Constructor
///
/// \param[in] expr
/// The expression to parse.
///
/// \param[in] prefix
/// If non-NULL, a C string containing translation-unit level
/// definitions to be included when the expression is parsed.
///
/// \param[in] language
/// If not eLanguageTypeUnknown, a language to use when parsing
/// the expression. Currently restricted to those languages
/// supported by Clang.
///
/// \param[in] desired_type
/// If not eResultTypeAny, the type to use for the expression
/// result.
///
/// \param[in] options
/// Additional options for the expression.
///
/// \param[in] ctx_obj
/// The object (if any) in which context the expression
/// must be evaluated. For details see the comment to
/// `UserExpression::Evaluate`.
ClangUserExpression(ExecutionContextScope &exe_scope, llvm::StringRef expr,
llvm::StringRef prefix, lldb::LanguageType language,
ResultType desired_type,
const EvaluateExpressionOptions &options,
ValueObject *ctx_obj);
~ClangUserExpression() override;
/// Parse the expression
///
/// \param[in] diagnostic_manager
/// A diagnostic manager to report parse errors and warnings to.
///
/// \param[in] exe_ctx
/// The execution context to use when looking up entities that
/// are needed for parsing (locations of functions, types of
/// variables, persistent variables, etc.)
///
/// \param[in] execution_policy
/// Determines whether interpretation is possible or mandatory.
///
/// \param[in] keep_result_in_memory
/// True if the resulting persistent variable should reside in
/// target memory, if applicable.
///
/// \return
/// True on success (no errors); false otherwise.
bool Parse(DiagnosticManager &diagnostic_manager, ExecutionContext &exe_ctx,
lldb_private::ExecutionPolicy execution_policy,
bool keep_result_in_memory, bool generate_debug_info) override;
bool Complete(ExecutionContext &exe_ctx, CompletionRequest &request,
unsigned complete_pos) override;
ExpressionTypeSystemHelper *GetTypeSystemHelper() override {
return &m_type_system_helper;
}
ClangExpressionDeclMap *DeclMap() { return m_type_system_helper.DeclMap(); }
void ResetDeclMap() { m_type_system_helper.ResetDeclMap(); }
void ResetDeclMap(ExecutionContext &exe_ctx,
Materializer::PersistentVariableDelegate &result_delegate,
bool keep_result_in_memory) {
m_type_system_helper.ResetDeclMap(exe_ctx, result_delegate,
keep_result_in_memory,
m_ctx_obj);
}
lldb::ExpressionVariableSP
GetResultAfterDematerialization(ExecutionContextScope *exe_scope) override;
bool DidImportCxxModules() const { return m_imported_cpp_modules; }
private:
/// Populate m_in_cplusplus_method and m_in_objectivec_method based on the
/// environment.
void ScanContext(ExecutionContext &exe_ctx,
lldb_private::Status &err) override;
bool AddArguments(ExecutionContext &exe_ctx, std::vector<lldb::addr_t> &args,
lldb::addr_t struct_address,
DiagnosticManager &diagnostic_manager) override;
void CreateSourceCode(DiagnosticManager &diagnostic_manager,
ExecutionContext &exe_ctx,
std::vector<std::string> modules_to_import,
bool for_completion);
void UpdateLanguageForExpr();
bool SetupPersistentState(DiagnosticManager &diagnostic_manager,
ExecutionContext &exe_ctx);
bool PrepareForParsing(DiagnosticManager &diagnostic_manager,
ExecutionContext &exe_ctx, bool for_completion);
ClangUserExpressionHelper m_type_system_helper;
class ResultDelegate : public Materializer::PersistentVariableDelegate {
public:
ResultDelegate(lldb::TargetSP target) : m_target_sp(target) {}
ConstString GetName() override;
void DidDematerialize(lldb::ExpressionVariableSP &variable) override;
void RegisterPersistentState(PersistentExpressionState *persistent_state);
lldb::ExpressionVariableSP &GetVariable();
private:
PersistentExpressionState *m_persistent_state;
lldb::ExpressionVariableSP m_variable;
lldb::TargetSP m_target_sp;
};
/// The language type of the current expression.
lldb::LanguageType m_expr_lang = lldb::eLanguageTypeUnknown;
/// The include directories that should be used when parsing the expression.
std::vector<std::string> m_include_directories;
/// The absolute character position in the transformed source code where the
/// user code (as typed by the user) starts. If the variable is empty, then we
/// were not able to calculate this position.
llvm::Optional<size_t> m_user_expression_start_pos;
ResultDelegate m_result_delegate;
ClangPersistentVariables *m_clang_state;
std::unique_ptr<ClangExpressionSourceCode> m_source_code;
/// File name used for the expression.
std::string m_filename;
/// The object (if any) in which context the expression is evaluated.
/// See the comment to `UserExpression::Evaluate` for details.
ValueObject *m_ctx_obj;
/// True iff this expression explicitly imported C++ modules.
bool m_imported_cpp_modules = false;
/// True if the expression parser should enforce the presence of a valid class
/// pointer in order to generate the expression as a method.
bool m_enforce_valid_object = true;
/// True if the expression is compiled as a C++ member function (true if it
/// was parsed when exe_ctx was in a C++ method).
bool m_in_cplusplus_method = false;
/// True if the expression is compiled as an Objective-C method (true if it
/// was parsed when exe_ctx was in an Objective-C method).
bool m_in_objectivec_method = false;
/// True if the expression is compiled as a static (or class) method
/// (currently true if it was parsed when exe_ctx was in an Objective-C class
/// method).
bool m_in_static_method = false;
/// True if "this" or "self" must be looked up and passed in. False if the
/// expression doesn't really use them and they can be NULL.
bool m_needs_object_ptr = false;
};
} // namespace lldb_private
#endif // liblldb_ClangUserExpression_h_