lldb/include/lldb/API/SBValue.h - llvm-project - Git at Google

 //===-- SBValue.h -----------------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #ifndef LLDB_SBValue_h_
 #define LLDB_SBValue_h_

 #include "lldb/API/SBData.h"
 #include "lldb/API/SBDefines.h"
 #include "lldb/API/SBType.h"


 namespace lldb {

 class SBValue
 {
 public:
     SBValue ();

     SBValue (const lldb::SBValue &rhs);

     lldb::SBValue &
     operator =(const lldb::SBValue &rhs);

     ~SBValue ();

     bool
     IsValid();

     void
     Clear();

     SBError
     GetError();

     lldb::user_id_t
     GetID ();

     const char *
     GetName();

     const char *
     GetTypeName ();

     size_t
     GetByteSize ();

     bool
     IsInScope ();

     lldb::Format
     GetFormat ();

     void
     SetFormat (lldb::Format format);

     const char *
     GetValue ();

     int64_t
     GetValueAsSigned (lldb::SBError& error, int64_t fail_value=0);

     uint64_t
     GetValueAsUnsigned (lldb::SBError& error, uint64_t fail_value=0);

     int64_t
     GetValueAsSigned(int64_t fail_value=0);

     uint64_t
     GetValueAsUnsigned(uint64_t fail_value=0);

     ValueType
     GetValueType ();

     bool
     GetValueDidChange ();

     const char *
     GetSummary ();

     const char *
     GetObjectDescription ();

     lldb::SBValue
     GetDynamicValue (lldb::DynamicValueType use_dynamic);

     lldb::SBValue
     GetStaticValue ();

     lldb::SBValue
     GetNonSyntheticValue ();

     bool
     IsDynamic();

     const char *
     GetLocation ();

     bool
     SetValueFromCString (const char *value_str);

     lldb::SBTypeFormat
     GetTypeFormat ();

 #ifndef LLDB_DISABLE_PYTHON
     lldb::SBTypeSummary
     GetTypeSummary ();
 #endif

     lldb::SBTypeFilter
     GetTypeFilter ();

 #ifndef LLDB_DISABLE_PYTHON
     lldb::SBTypeSynthetic
     GetTypeSynthetic ();
 #endif

     lldb::SBValue
     GetChildAtIndex (uint32_t idx);

     lldb::SBValue
     CreateChildAtOffset (const char *name, uint32_t offset, lldb::SBType type);

     lldb::SBValue
     Cast (lldb::SBType type);

     lldb::SBValue
     CreateValueFromExpression (const char *name, const char* expression);

     lldb::SBValue
     CreateValueFromAddress (const char* name,
                             lldb::addr_t address,
                             lldb::SBType type);

     // this has no address! GetAddress() and GetLoadAddress() as well as AddressOf()
     // on the return of this call all return invalid
     lldb::SBValue
     CreateValueFromData (const char* name,
                          lldb::SBData data,
                          lldb::SBType type);

     //------------------------------------------------------------------
     /// Get a child value by index from a value.
     ///
     /// Structs, unions, classes, arrays and and pointers have child
     /// values that can be access by index.
     ///
     /// Structs and unions access child members using a zero based index
     /// for each child member. For
     ///
     /// Classes reserve the first indexes for base classes that have
     /// members (empty base classes are omitted), and all members of the
     /// current class will then follow the base classes.
     ///
     /// Pointers differ depending on what they point to. If the pointer
     /// points to a simple type, the child at index zero
     /// is the only child value available, unless \a synthetic_allowed
     /// is \b true, in which case the pointer will be used as an array
     /// and can create 'synthetic' child values using positive or
     /// negative indexes. If the pointer points to an aggregate type
     /// (an array, class, union, struct), then the pointee is
     /// transparently skipped and any children are going to be the indexes
     /// of the child values within the aggregate type. For example if
     /// we have a 'Point' type and we have a SBValue that contains a
     /// pointer to a 'Point' type, then the child at index zero will be
     /// the 'x' member, and the child at index 1 will be the 'y' member
     /// (the child at index zero won't be a 'Point' instance).
     ///
     /// Arrays have a preset number of children that can be accessed by
     /// index and will returns invalid child values for indexes that are
     /// out of bounds unless the \a synthetic_allowed is \b true. In this
     /// case the array can create 'synthetic' child values for indexes
     /// that aren't in the array bounds using positive or negative
     /// indexes.
     ///
     /// @param[in] idx
     ///     The index of the child value to get
     ///
     /// @param[in] use_dynamic
     ///     An enumeration that specifies wether to get dynamic values,
     ///     and also if the target can be run to figure out the dynamic
     ///     type of the child value.
     ///
     /// @param[in] synthetic_allowed
     ///     If \b true, then allow child values to be created by index
     ///     for pointers and arrays for indexes that normally wouldn't
     ///     be allowed.
     ///
     /// @return
     ///     A new SBValue object that represents the child member value.
     //------------------------------------------------------------------
     lldb::SBValue
     GetChildAtIndex (uint32_t idx,
                      lldb::DynamicValueType use_dynamic,
                      bool can_create_synthetic);

     // Matches children of this object only and will match base classes and
     // member names if this is a clang typed object.
     uint32_t
     GetIndexOfChildWithName (const char *name);

     // Matches child members of this object and child members of any base
     // classes.
     lldb::SBValue
     GetChildMemberWithName (const char *name);

     // Matches child members of this object and child members of any base
     // classes.
     lldb::SBValue
     GetChildMemberWithName (const char *name, lldb::DynamicValueType use_dynamic);

     // Expands nested expressions like .a->b[0].c[1]->d
     lldb::SBValue
     GetValueForExpressionPath(const char* expr_path);

     lldb::SBValue
     AddressOf();

     lldb::addr_t
     GetLoadAddress();

     lldb::SBAddress
     GetAddress();

     //------------------------------------------------------------------
     /// Get an SBData wrapping what this SBValue points to.
     ///
     /// This method will dereference the current SBValue, if its
     /// data type is a T* or T[], and extract item_count elements
     /// of type T from it, copying their contents in an SBData.
     ///
     /// @param[in] item_idx
     ///     The index of the first item to retrieve. For an array
     ///     this is equivalent to array[item_idx], for a pointer
     ///     to *(pointer + item_idx). In either case, the measurement
     ///     unit for item_idx is the sizeof(T) rather than the byte
     ///
     /// @param[in] item_count
     ///     How many items should be copied into the output. By default
     ///     only one item is copied, but more can be asked for.
     ///
     /// @return
     ///     An SBData with the contents of the copied items, on success.
     ///     An empty SBData otherwise.
     //------------------------------------------------------------------
     lldb::SBData
     GetPointeeData (uint32_t item_idx = 0,
                     uint32_t item_count = 1);

     //------------------------------------------------------------------
     /// Get an SBData wrapping the contents of this SBValue.
     ///
     /// This method will read the contents of this object in memory
     /// and copy them into an SBData for future use.
     ///
     /// @return
     ///     An SBData with the contents of this SBValue, on success.
     ///     An empty SBData otherwise.
     //------------------------------------------------------------------
     lldb::SBData
     GetData ();

     uint32_t
     GetNumChildren ();

     void *
     GetOpaqueType();

     lldb::SBTarget
     GetTarget();

     lldb::SBProcess
     GetProcess();

     lldb::SBThread
     GetThread();

     lldb::SBFrame
     GetFrame();

     lldb::SBValue
     Dereference ();

     bool
     TypeIsPointerType ();

     lldb::SBType
     GetType();

     bool
     GetDescription (lldb::SBStream &description);

     bool
     GetExpressionPath (lldb::SBStream &description);

     bool
     GetExpressionPath (lldb::SBStream &description,
                        bool qualify_cxx_base_classes);

     SBValue (const lldb::ValueObjectSP &value_sp);

     //------------------------------------------------------------------
     /// Watch this value if it resides in memory.
     ///
     /// Sets a watchpoint on the value.
     ///
     /// @param[in] resolve_location
     ///     Resolve the location of this value once and watch its address.
     ///     This value must currently be set to \b true as watching all
     ///     locations of a variable or a variable path is not yet supported,
     ///     though we plan to support it in the future.
     ///
     /// @param[in] read
     ///     Stop when this value is accessed.
     ///
     /// @param[in] write
     ///     Stop when this value is modified
     ///
     /// @return
     ///     An SBWatchpoint object. This object might not be valid upon
     ///     return due to a value not being contained in memory, too
     ///     large, or watchpoint resources are not available or all in
     ///     use.
     //------------------------------------------------------------------
     lldb::SBWatchpoint
     Watch (bool resolve_location, bool read, bool write);

     //------------------------------------------------------------------
     /// Watch this value that this value points to in memory
     ///
     /// Sets a watchpoint on the value.
     ///
     /// @param[in] resolve_location
     ///     Resolve the location of this value once and watch its address.
     ///     This value must currently be set to \b true as watching all
     ///     locations of a variable or a variable path is not yet supported,
     ///     though we plan to support it in the future.
     ///
     /// @param[in] read
     ///     Stop when this value is accessed.
     ///
     /// @param[in] write
     ///     Stop when this value is modified
     ///
     /// @return
     ///     An SBWatchpoint object. This object might not be valid upon
     ///     return due to a value not being contained in memory, too
     ///     large, or watchpoint resources are not available or all in
     ///     use.
     //------------------------------------------------------------------
     lldb::SBWatchpoint
     WatchPointee (bool resolve_location, bool read, bool write);

     // this must be defined in the .h file because synthetic children as implemented in the core
     // currently rely on being able to extract the SharedPointer out of an SBValue. if the implementation
     // is deferred to the .cpp file instead of being inlined here, the platform will fail to link
     // correctly. however, this is temporary till a better general solution is found. FIXME
     lldb::ValueObjectSP&
     get_sp()
     {
         return m_opaque_sp;
     }

 protected:
     friend class SBValueList;
     friend class SBFrame;

     lldb::ValueObjectSP
     GetSP () const;

     // anyone who needs to set the value of the SP on this SBValue should rely on SetSP() exclusively
     // since this function contains logic to "do the right thing" with regard to providing to the user
     // a synthetic value when possible - in the future the same should automatically occur with
     // dynamic values
     void
     SetSP (const lldb::ValueObjectSP &sp);

 private:
     lldb::ValueObjectSP m_opaque_sp;
 };

 } // namespace lldb

 #endif  // LLDB_SBValue_h_
	//===-- SBValue.h ------------------------------------------------ C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#ifndef LLDB_SBValue_h_
	#define LLDB_SBValue_h_

	#include "lldb/API/SBData.h"
	#include "lldb/API/SBDefines.h"
	#include "lldb/API/SBType.h"


	namespace lldb {

	class SBValue
	{
	public:
	SBValue ();

	SBValue (const lldb::SBValue &rhs);

	lldb::SBValue &
	operator =(const lldb::SBValue &rhs);

	~SBValue ();

	bool
	IsValid();

	void
	Clear();

	SBError
	GetError();

	lldb::user_id_t
	GetID ();

	const char *
	GetName();

	const char *
	GetTypeName ();

	size_t
	GetByteSize ();

	bool
	IsInScope ();

	lldb::Format
	GetFormat ();

	void
	SetFormat (lldb::Format format);

	const char *
	GetValue ();

	int64_t
	GetValueAsSigned (lldb::SBError& error, int64_t fail_value=0);

	uint64_t
	GetValueAsUnsigned (lldb::SBError& error, uint64_t fail_value=0);

	int64_t
	GetValueAsSigned(int64_t fail_value=0);

	uint64_t
	GetValueAsUnsigned(uint64_t fail_value=0);

	ValueType
	GetValueType ();

	bool
	GetValueDidChange ();

	const char *
	GetSummary ();

	const char *
	GetObjectDescription ();

	lldb::SBValue
	GetDynamicValue (lldb::DynamicValueType use_dynamic);

	lldb::SBValue
	GetStaticValue ();

	lldb::SBValue
	GetNonSyntheticValue ();

	bool
	IsDynamic();

	const char *
	GetLocation ();

	bool
	SetValueFromCString (const char *value_str);

	lldb::SBTypeFormat
	GetTypeFormat ();

	#ifndef LLDB_DISABLE_PYTHON
	lldb::SBTypeSummary
	GetTypeSummary ();
	#endif

	lldb::SBTypeFilter
	GetTypeFilter ();

	#ifndef LLDB_DISABLE_PYTHON
	lldb::SBTypeSynthetic
	GetTypeSynthetic ();
	#endif

	lldb::SBValue
	GetChildAtIndex (uint32_t idx);

	lldb::SBValue
	CreateChildAtOffset (const char *name, uint32_t offset, lldb::SBType type);

	lldb::SBValue
	Cast (lldb::SBType type);

	lldb::SBValue
	CreateValueFromExpression (const char name, const char expression);

	lldb::SBValue
	CreateValueFromAddress (const char* name,
	lldb::addr_t address,
	lldb::SBType type);

	// this has no address! GetAddress() and GetLoadAddress() as well as AddressOf()
	// on the return of this call all return invalid
	lldb::SBValue
	CreateValueFromData (const char* name,
	lldb::SBData data,
	lldb::SBType type);

	//------------------------------------------------------------------
	/// Get a child value by index from a value.
	///
	/// Structs, unions, classes, arrays and and pointers have child
	/// values that can be access by index.
	///
	/// Structs and unions access child members using a zero based index
	/// for each child member. For
	///
	/// Classes reserve the first indexes for base classes that have
	/// members (empty base classes are omitted), and all members of the
	/// current class will then follow the base classes.
	///
	/// Pointers differ depending on what they point to. If the pointer
	/// points to a simple type, the child at index zero
	/// is the only child value available, unless \a synthetic_allowed
	/// is \b true, in which case the pointer will be used as an array
	/// and can create 'synthetic' child values using positive or
	/// negative indexes. If the pointer points to an aggregate type
	/// (an array, class, union, struct), then the pointee is
	/// transparently skipped and any children are going to be the indexes
	/// of the child values within the aggregate type. For example if
	/// we have a 'Point' type and we have a SBValue that contains a
	/// pointer to a 'Point' type, then the child at index zero will be
	/// the 'x' member, and the child at index 1 will be the 'y' member
	/// (the child at index zero won't be a 'Point' instance).
	///
	/// Arrays have a preset number of children that can be accessed by
	/// index and will returns invalid child values for indexes that are
	/// out of bounds unless the \a synthetic_allowed is \b true. In this
	/// case the array can create 'synthetic' child values for indexes
	/// that aren't in the array bounds using positive or negative
	/// indexes.
	///
	/// @param[in] idx
	/// The index of the child value to get
	///
	/// @param[in] use_dynamic
	/// An enumeration that specifies wether to get dynamic values,
	/// and also if the target can be run to figure out the dynamic
	/// type of the child value.
	///
	/// @param[in] synthetic_allowed
	/// If \b true, then allow child values to be created by index
	/// for pointers and arrays for indexes that normally wouldn't
	/// be allowed.
	///
	/// @return
	/// A new SBValue object that represents the child member value.
	//------------------------------------------------------------------
	lldb::SBValue
	GetChildAtIndex (uint32_t idx,
	lldb::DynamicValueType use_dynamic,
	bool can_create_synthetic);

	// Matches children of this object only and will match base classes and
	// member names if this is a clang typed object.
	uint32_t
	GetIndexOfChildWithName (const char *name);

	// Matches child members of this object and child members of any base
	// classes.
	lldb::SBValue
	GetChildMemberWithName (const char *name);

	// Matches child members of this object and child members of any base
	// classes.
	lldb::SBValue
	GetChildMemberWithName (const char *name, lldb::DynamicValueType use_dynamic);

	// Expands nested expressions like .a->b[0].c[1]->d
	lldb::SBValue
	GetValueForExpressionPath(const char* expr_path);

	lldb::SBValue
	AddressOf();

	lldb::addr_t
	GetLoadAddress();

	lldb::SBAddress
	GetAddress();

	//------------------------------------------------------------------
	/// Get an SBData wrapping what this SBValue points to.
	///
	/// This method will dereference the current SBValue, if its
	/// data type is a T* or T[], and extract item_count elements
	/// of type T from it, copying their contents in an SBData.
	///
	/// @param[in] item_idx
	/// The index of the first item to retrieve. For an array
	/// this is equivalent to array[item_idx], for a pointer
	/// to *(pointer + item_idx). In either case, the measurement
	/// unit for item_idx is the sizeof(T) rather than the byte
	///
	/// @param[in] item_count
	/// How many items should be copied into the output. By default
	/// only one item is copied, but more can be asked for.
	///
	/// @return
	/// An SBData with the contents of the copied items, on success.
	/// An empty SBData otherwise.
	//------------------------------------------------------------------
	lldb::SBData
	GetPointeeData (uint32_t item_idx = 0,
	uint32_t item_count = 1);

	//------------------------------------------------------------------
	/// Get an SBData wrapping the contents of this SBValue.
	///
	/// This method will read the contents of this object in memory
	/// and copy them into an SBData for future use.
	///
	/// @return
	/// An SBData with the contents of this SBValue, on success.
	/// An empty SBData otherwise.
	//------------------------------------------------------------------
	lldb::SBData
	GetData ();

	uint32_t
	GetNumChildren ();

	void *
	GetOpaqueType();

	lldb::SBTarget
	GetTarget();

	lldb::SBProcess
	GetProcess();

	lldb::SBThread
	GetThread();

	lldb::SBFrame
	GetFrame();

	lldb::SBValue
	Dereference ();

	bool
	TypeIsPointerType ();

	lldb::SBType
	GetType();

	bool
	GetDescription (lldb::SBStream &description);

	bool
	GetExpressionPath (lldb::SBStream &description);

	bool
	GetExpressionPath (lldb::SBStream &description,
	bool qualify_cxx_base_classes);

	SBValue (const lldb::ValueObjectSP &value_sp);

	//------------------------------------------------------------------
	/// Watch this value if it resides in memory.
	///
	/// Sets a watchpoint on the value.
	///
	/// @param[in] resolve_location
	/// Resolve the location of this value once and watch its address.
	/// This value must currently be set to \b true as watching all
	/// locations of a variable or a variable path is not yet supported,
	/// though we plan to support it in the future.
	///
	/// @param[in] read
	/// Stop when this value is accessed.
	///
	/// @param[in] write
	/// Stop when this value is modified
	///
	/// @return
	/// An SBWatchpoint object. This object might not be valid upon
	/// return due to a value not being contained in memory, too
	/// large, or watchpoint resources are not available or all in
	/// use.
	//------------------------------------------------------------------
	lldb::SBWatchpoint
	Watch (bool resolve_location, bool read, bool write);

	//------------------------------------------------------------------
	/// Watch this value that this value points to in memory
	///
	/// Sets a watchpoint on the value.
	///
	/// @param[in] resolve_location
	/// Resolve the location of this value once and watch its address.
	/// This value must currently be set to \b true as watching all
	/// locations of a variable or a variable path is not yet supported,
	/// though we plan to support it in the future.
	///
	/// @param[in] read
	/// Stop when this value is accessed.
	///
	/// @param[in] write
	/// Stop when this value is modified
	///
	/// @return
	/// An SBWatchpoint object. This object might not be valid upon
	/// return due to a value not being contained in memory, too
	/// large, or watchpoint resources are not available or all in
	/// use.
	//------------------------------------------------------------------
	lldb::SBWatchpoint
	WatchPointee (bool resolve_location, bool read, bool write);

	// this must be defined in the .h file because synthetic children as implemented in the core
	// currently rely on being able to extract the SharedPointer out of an SBValue. if the implementation
	// is deferred to the .cpp file instead of being inlined here, the platform will fail to link
	// correctly. however, this is temporary till a better general solution is found. FIXME
	lldb::ValueObjectSP&
	get_sp()
	{
	return m_opaque_sp;
	}

	protected:
	friend class SBValueList;
	friend class SBFrame;

	lldb::ValueObjectSP
	GetSP () const;

	// anyone who needs to set the value of the SP on this SBValue should rely on SetSP() exclusively
	// since this function contains logic to "do the right thing" with regard to providing to the user
	// a synthetic value when possible - in the future the same should automatically occur with
	// dynamic values
	void
	SetSP (const lldb::ValueObjectSP &sp);

	private:
	lldb::ValueObjectSP m_opaque_sp;
	};

	} // namespace lldb

	#endif // LLDB_SBValue_h_