clang-r445002/include/lldb/Expression/UtilityFunction.h - platform/prebuilts/clang/host/darwin-x86 - Git at Google

 //===-- UtilityFunction.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 LLDB_EXPRESSION_UTILITYFUNCTION_H
 #define LLDB_EXPRESSION_UTILITYFUNCTION_H

 #include <memory>
 #include <string>

 #include "lldb/Expression/Expression.h"
 #include "lldb/lldb-forward.h"
 #include "lldb/lldb-private.h"

 namespace lldb_private {

 /// \class UtilityFunction UtilityFunction.h
 /// "lldb/Expression/UtilityFunction.h" Encapsulates a bit of source code that
 /// provides a function that is callable
 ///
 /// LLDB uses expressions for various purposes, notably to call functions
 /// and as a backend for the expr command.  UtilityFunction encapsulates a
 /// self-contained function meant to be used from other code.  Utility
 /// functions can perform error-checking for ClangUserExpressions,
 class UtilityFunction : public Expression {
   // LLVM RTTI support
   static char ID;

 public:
   bool isA(const void *ClassID) const override { return ClassID == &ID; }
   static bool classof(const Expression *obj) { return obj->isA(&ID); }

   /// Constructor
   ///
   /// \param[in] text
   ///     The text of the function.  Must be a full translation unit.
   ///
   /// \param[in] name
   ///     The name of the function, as used in the text.
   ///
   /// \param[in] enable_debugging
   ///     Enable debugging of this function.
   UtilityFunction(ExecutionContextScope &exe_scope, std::string text,
                   std::string name, bool enable_debugging);

   ~UtilityFunction() override;

   /// Install the utility function into a process
   ///
   /// \param[in] diagnostic_manager
   ///     A diagnostic manager to print parse errors and warnings to.
   ///
   /// \param[in] exe_ctx
   ///     The execution context to install the utility function to.
   ///
   /// \return
   ///     True on success (no errors); false otherwise.
   virtual bool Install(DiagnosticManager &diagnostic_manager,
                        ExecutionContext &exe_ctx) = 0;

   /// Check whether the given address is inside the function
   ///
   /// Especially useful if the function dereferences nullptr to indicate a
   /// failed assert.
   ///
   /// \param[in] address
   ///     The address to check.
   ///
   /// \return
   ///     True if the address falls within the function's bounds;
   ///     false if not (or the function is not JIT compiled)
   bool ContainsAddress(lldb::addr_t address) {
     // nothing is both >= LLDB_INVALID_ADDRESS and < LLDB_INVALID_ADDRESS, so
     // this always returns false if the function is not JIT compiled yet
     return (address >= m_jit_start_addr && address < m_jit_end_addr);
   }

   /// Return the string that the parser should parse.  Must be a full
   /// translation unit.
   const char *Text() override { return m_function_text.c_str(); }

   /// Return the function name that should be used for executing the
   /// expression.  Text() should contain the definition of this function.
   const char *FunctionName() override { return m_function_name.c_str(); }

   /// Return the object that the parser should use when registering local
   /// variables. May be nullptr if the Expression doesn't care.
   ExpressionVariableList *LocalVariables() { return nullptr; }

   /// Return true if validation code should be inserted into the expression.
   bool NeedsValidation() override { return false; }

   /// Return true if external variables in the expression should be resolved.
   bool NeedsVariableResolution() override { return false; }

   // This makes the function caller function. Pass in the ThreadSP if you have
   // one available, compilation can end up calling code (e.g. to look up
   // indirect functions) and we don't want this to wander onto another thread.
   FunctionCaller *MakeFunctionCaller(const CompilerType &return_type,
                                      const ValueList &arg_value_list,
                                      lldb::ThreadSP compilation_thread,
                                      Status &error);

   // This one retrieves the function caller that is already made.  If you
   // haven't made it yet, this returns nullptr
   FunctionCaller *GetFunctionCaller() { return m_caller_up.get(); }

 protected:
   std::shared_ptr<IRExecutionUnit> m_execution_unit_sp;
   lldb::ModuleWP m_jit_module_wp;
   /// The text of the function.  Must be a well-formed translation unit.
   std::string m_function_text;
   /// The name of the function.
   std::string m_function_name;
   std::unique_ptr<FunctionCaller> m_caller_up;
 };

 } // namespace lldb_private

 #endif // LLDB_EXPRESSION_UTILITYFUNCTION_H
	//===-- UtilityFunction.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 LLDB_EXPRESSION_UTILITYFUNCTION_H
	#define LLDB_EXPRESSION_UTILITYFUNCTION_H

	#include <memory>
	#include <string>

	#include "lldb/Expression/Expression.h"
	#include "lldb/lldb-forward.h"
	#include "lldb/lldb-private.h"

	namespace lldb_private {

	/// \class UtilityFunction UtilityFunction.h
	/// "lldb/Expression/UtilityFunction.h" Encapsulates a bit of source code that
	/// provides a function that is callable
	///
	/// LLDB uses expressions for various purposes, notably to call functions
	/// and as a backend for the expr command. UtilityFunction encapsulates a
	/// self-contained function meant to be used from other code. Utility
	/// functions can perform error-checking for ClangUserExpressions,
	class UtilityFunction : public Expression {
	// LLVM RTTI support
	static char ID;

	public:
	bool isA(const void *ClassID) const override { return ClassID == &ID; }
	static bool classof(const Expression *obj) { return obj->isA(&ID); }

	/// Constructor
	///
	/// \param[in] text
	/// The text of the function. Must be a full translation unit.
	///
	/// \param[in] name
	/// The name of the function, as used in the text.
	///
	/// \param[in] enable_debugging
	/// Enable debugging of this function.
	UtilityFunction(ExecutionContextScope &exe_scope, std::string text,
	std::string name, bool enable_debugging);

	~UtilityFunction() override;

	/// Install the utility function into a process
	///
	/// \param[in] diagnostic_manager
	/// A diagnostic manager to print parse errors and warnings to.
	///
	/// \param[in] exe_ctx
	/// The execution context to install the utility function to.
	///
	/// \return
	/// True on success (no errors); false otherwise.
	virtual bool Install(DiagnosticManager &diagnostic_manager,
	ExecutionContext &exe_ctx) = 0;

	/// Check whether the given address is inside the function
	///
	/// Especially useful if the function dereferences nullptr to indicate a
	/// failed assert.
	///
	/// \param[in] address
	/// The address to check.
	///
	/// \return
	/// True if the address falls within the function's bounds;
	/// false if not (or the function is not JIT compiled)
	bool ContainsAddress(lldb::addr_t address) {
	// nothing is both >= LLDB_INVALID_ADDRESS and < LLDB_INVALID_ADDRESS, so
	// this always returns false if the function is not JIT compiled yet
	return (address >= m_jit_start_addr && address < m_jit_end_addr);
	}

	/// Return the string that the parser should parse. Must be a full
	/// translation unit.
	const char *Text() override { return m_function_text.c_str(); }

	/// Return the function name that should be used for executing the
	/// expression. Text() should contain the definition of this function.
	const char *FunctionName() override { return m_function_name.c_str(); }

	/// Return the object that the parser should use when registering local
	/// variables. May be nullptr if the Expression doesn't care.
	ExpressionVariableList *LocalVariables() { return nullptr; }

	/// Return true if validation code should be inserted into the expression.
	bool NeedsValidation() override { return false; }

	/// Return true if external variables in the expression should be resolved.
	bool NeedsVariableResolution() override { return false; }

	// This makes the function caller function. Pass in the ThreadSP if you have
	// one available, compilation can end up calling code (e.g. to look up
	// indirect functions) and we don't want this to wander onto another thread.
	FunctionCaller *MakeFunctionCaller(const CompilerType &return_type,
	const ValueList &arg_value_list,
	lldb::ThreadSP compilation_thread,
	Status &error);

	// This one retrieves the function caller that is already made. If you
	// haven't made it yet, this returns nullptr
	FunctionCaller *GetFunctionCaller() { return m_caller_up.get(); }

	protected:
	std::shared_ptr<IRExecutionUnit> m_execution_unit_sp;
	lldb::ModuleWP m_jit_module_wp;
	/// The text of the function. Must be a well-formed translation unit.
	std::string m_function_text;
	/// The name of the function.
	std::string m_function_name;
	std::unique_ptr<FunctionCaller> m_caller_up;
	};

	} // namespace lldb_private

	#endif // LLDB_EXPRESSION_UTILITYFUNCTION_H