bindings/interface/SBType.i - llvm-project/lldb - Git at Google

 //===-- SWIG Interface for SBType -------------------------------*- 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
 //
 //===----------------------------------------------------------------------===//

 namespace lldb {

     %feature("docstring",
 "Represents a member of a type.") SBTypeMember;

 class SBTypeMember
 {
 public:
     SBTypeMember ();

     SBTypeMember (const lldb::SBTypeMember& rhs);

     ~SBTypeMember();

     bool
     IsValid() const;

     explicit operator bool() const;

     const char *
     GetName ();

     lldb::SBType
     GetType ();

     uint64_t
     GetOffsetInBytes();

     uint64_t
     GetOffsetInBits();

     bool
     IsBitfield();

     uint32_t
     GetBitfieldSizeInBits();

     STRING_EXTENSION_LEVEL(SBTypeMember, lldb::eDescriptionLevelBrief)

 #ifdef SWIGPYTHON
     %pythoncode %{
         name = property(GetName, None, doc='''A read only property that returns the name for this member as a string.''')
         type = property(GetType, None, doc='''A read only property that returns an lldb object that represents the type (lldb.SBType) for this member.''')
         byte_offset = property(GetOffsetInBytes, None, doc='''A read only property that returns offset in bytes for this member as an integer.''')
         bit_offset = property(GetOffsetInBits, None, doc='''A read only property that returns offset in bits for this member as an integer.''')
         is_bitfield = property(IsBitfield, None, doc='''A read only property that returns true if this member is a bitfield.''')
         bitfield_bit_size = property(GetBitfieldSizeInBits, None, doc='''A read only property that returns the bitfield size in bits for this member as an integer, or zero if this member is not a bitfield.''')
     %}
 #endif

 protected:
     std::unique_ptr<lldb_private::TypeMemberImpl> m_opaque_ap;
 };

 %feature("docstring",
 "Represents a member function of a type."
 ) SBTypeMemberFunction;
 class SBTypeMemberFunction
 {
 public:
     SBTypeMemberFunction ();

     SBTypeMemberFunction (const lldb::SBTypeMemberFunction& rhs);

     ~SBTypeMemberFunction();

     bool
     IsValid() const;

     explicit operator bool() const;

     const char *
     GetName ();

     const char *
     GetDemangledName ();

     const char *
     GetMangledName ();

     lldb::SBType
     GetType ();

     lldb::SBType
     GetReturnType ();

     uint32_t
     GetNumberOfArguments ();

     lldb::SBType
     GetArgumentTypeAtIndex (uint32_t);

     lldb::MemberFunctionKind
     GetKind();

     bool
     GetDescription (lldb::SBStream &description,
                     lldb::DescriptionLevel description_level);

     STRING_EXTENSION_LEVEL(SBTypeMemberFunction, lldb::eDescriptionLevelBrief)
 protected:
     lldb::TypeMemberFunctionImplSP m_opaque_sp;
 };

 %feature("docstring",
 "Represents a data type in lldb.  The FindFirstType() method of SBTarget/SBModule
 returns a SBType.

 SBType supports the eq/ne operator. For example,::

     //main.cpp:

     class Task {
     public:
         int id;
         Task *next;
         Task(int i, Task *n):
             id(i),
             next(n)
         {}
     };

     int main (int argc, char const *argv[])
     {
         Task *task_head = new Task(-1, NULL);
         Task *task1 = new Task(1, NULL);
         Task *task2 = new Task(2, NULL);
         Task *task3 = new Task(3, NULL); // Orphaned.
         Task *task4 = new Task(4, NULL);
         Task *task5 = new Task(5, NULL);

         task_head->next = task1;
         task1->next = task2;
         task2->next = task4;
         task4->next = task5;

         int total = 0;
         Task *t = task_head;
         while (t != NULL) {
             if (t->id >= 0)
                 ++total;
             t = t->next;
         }
         printf('We have a total number of %d tasks\\n', total);

         // This corresponds to an empty task list.
         Task *empty_task_head = new Task(-1, NULL);

         return 0; // Break at this line
     }

     # find_type.py:

             # Get the type 'Task'.
             task_type = target.FindFirstType('Task')
             self.assertTrue(task_type)

             # Get the variable 'task_head'.
             frame0.FindVariable('task_head')
             task_head_type = task_head.GetType()
             self.assertTrue(task_head_type.IsPointerType())

             # task_head_type is 'Task *'.
             task_pointer_type = task_type.GetPointerType()
             self.assertTrue(task_head_type == task_pointer_type)

             # Get the child mmember 'id' from 'task_head'.
             id = task_head.GetChildMemberWithName('id')
             id_type = id.GetType()

             # SBType.GetBasicType() takes an enum 'BasicType' (lldb-enumerations.h).
             int_type = id_type.GetBasicType(lldb.eBasicTypeInt)
             # id_type and int_type should be the same type!
             self.assertTrue(id_type == int_type)

 ...") SBType;
 class SBType
 {
 public:
     SBType ();

     SBType (const lldb::SBType &rhs);

     ~SBType ();

     bool
     IsValid();

     explicit operator bool() const;

     uint64_t
     GetByteSize();

     bool
     IsPointerType();

     bool
     IsReferenceType();

     bool
     IsFunctionType ();

     bool
     IsPolymorphicClass ();

     bool
     IsArrayType ();

     bool
     IsVectorType ();

     bool
     IsTypedefType ();

     bool
     IsAnonymousType ();

     bool
     IsScopedEnumerationType ();

     lldb::SBType
     GetPointerType();

     lldb::SBType
     GetPointeeType();

     lldb::SBType
     GetReferenceType();

     lldb::SBType
     SBType::GetTypedefedType();

     lldb::SBType
     GetDereferencedType();

     lldb::SBType
     GetUnqualifiedType();

     lldb::SBType
     GetCanonicalType();

     lldb::SBType
     GetEnumerationIntegerType();

     lldb::SBType
     GetArrayElementType ();

     lldb::SBType
     GetArrayType (uint64_t size);

     lldb::SBType
     GetVectorElementType ();

     lldb::BasicType
     GetBasicType();

     lldb::SBType
     GetBasicType (lldb::BasicType type);

     uint32_t
     GetNumberOfFields ();

     uint32_t
     GetNumberOfDirectBaseClasses ();

     uint32_t
     GetNumberOfVirtualBaseClasses ();

     lldb::SBTypeMember
     GetFieldAtIndex (uint32_t idx);

     lldb::SBTypeMember
     GetDirectBaseClassAtIndex (uint32_t idx);

     lldb::SBTypeMember
     GetVirtualBaseClassAtIndex (uint32_t idx);

     lldb::SBTypeEnumMemberList
     GetEnumMembers();

     lldb::SBModule
     GetModule();

     const char*
     GetName();

     const char *
     GetDisplayTypeName ();

     lldb::TypeClass
     GetTypeClass ();

     uint32_t
     GetNumberOfTemplateArguments ();

     lldb::SBType
     GetTemplateArgumentType (uint32_t idx);

     lldb::TemplateArgumentKind
     GetTemplateArgumentKind (uint32_t idx);

     lldb::SBType
     GetFunctionReturnType ();

     lldb::SBTypeList
     GetFunctionArgumentTypes ();

     uint32_t
     GetNumberOfMemberFunctions ();

     lldb::SBTypeMemberFunction
     GetMemberFunctionAtIndex (uint32_t idx);

     bool
     IsTypeComplete ();

     uint32_t
     GetTypeFlags ();

     bool operator==(lldb::SBType &rhs);

     bool operator!=(lldb::SBType &rhs);

     STRING_EXTENSION_LEVEL(SBType, lldb::eDescriptionLevelBrief)

 #ifdef SWIGPYTHON
     %pythoncode %{
         def template_arg_array(self):
             num_args = self.num_template_args
             if num_args:
                 template_args = []
                 for i in range(num_args):
                     template_args.append(self.GetTemplateArgumentType(i))
                 return template_args
             return None

         module = property(GetModule, None, doc='''A read only property that returns the module in which type is defined.''')
         name = property(GetName, None, doc='''A read only property that returns the name for this type as a string.''')
         size = property(GetByteSize, None, doc='''A read only property that returns size in bytes for this type as an integer.''')
         is_pointer = property(IsPointerType, None, doc='''A read only property that returns a boolean value that indicates if this type is a pointer type.''')
         is_reference = property(IsReferenceType, None, doc='''A read only property that returns a boolean value that indicates if this type is a reference type.''')
         is_reference = property(IsReferenceType, None, doc='''A read only property that returns a boolean value that indicates if this type is a function type.''')
         num_fields = property(GetNumberOfFields, None, doc='''A read only property that returns number of fields in this type as an integer.''')
         num_bases = property(GetNumberOfDirectBaseClasses, None, doc='''A read only property that returns number of direct base classes in this type as an integer.''')
         num_vbases = property(GetNumberOfVirtualBaseClasses, None, doc='''A read only property that returns number of virtual base classes in this type as an integer.''')
         num_template_args = property(GetNumberOfTemplateArguments, None, doc='''A read only property that returns number of template arguments in this type as an integer.''')
         template_args = property(template_arg_array, None, doc='''A read only property that returns a list() of lldb.SBType objects that represent all template arguments in this type.''')
         type = property(GetTypeClass, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eTypeClass") that represents a classification for this type.''')
         is_complete = property(IsTypeComplete, None, doc='''A read only property that returns a boolean value that indicates if this type is a complete type (True) or a forward declaration (False).''')

         def get_bases_array(self):
             '''An accessor function that returns a list() that contains all direct base classes in a lldb.SBType object.'''
             bases = []
             for idx in range(self.GetNumberOfDirectBaseClasses()):
                 bases.append(self.GetDirectBaseClassAtIndex(idx))
             return bases

         def get_vbases_array(self):
             '''An accessor function that returns a list() that contains all fields in a lldb.SBType object.'''
             vbases = []
             for idx in range(self.GetNumberOfVirtualBaseClasses()):
                 vbases.append(self.GetVirtualBaseClassAtIndex(idx))
             return vbases

         def get_fields_array(self):
             '''An accessor function that returns a list() that contains all fields in a lldb.SBType object.'''
             fields = []
             for idx in range(self.GetNumberOfFields()):
                 fields.append(self.GetFieldAtIndex(idx))
             return fields

         def get_members_array(self):
             '''An accessor function that returns a list() that contains all members (base classes and fields) in a lldb.SBType object in ascending bit offset order.'''
             members = []
             bases = self.get_bases_array()
             fields = self.get_fields_array()
             vbases = self.get_vbases_array()
             for base in bases:
                 bit_offset = base.bit_offset
                 added = False
                 for idx, member in enumerate(members):
                     if member.bit_offset > bit_offset:
                         members.insert(idx, base)
                         added = True
                         break
                 if not added:
                     members.append(base)
             for vbase in vbases:
                 bit_offset = vbase.bit_offset
                 added = False
                 for idx, member in enumerate(members):
                     if member.bit_offset > bit_offset:
                         members.insert(idx, vbase)
                         added = True
                         break
                 if not added:
                     members.append(vbase)
             for field in fields:
                 bit_offset = field.bit_offset
                 added = False
                 for idx, member in enumerate(members):
                     if member.bit_offset > bit_offset:
                         members.insert(idx, field)
                         added = True
                         break
                 if not added:
                     members.append(field)
             return members

         def get_enum_members_array(self):
             '''An accessor function that returns a list() that contains all enum members in an lldb.SBType object.'''
             enum_members_list = []
             sb_enum_members = self.GetEnumMembers()
             for idx in range(sb_enum_members.GetSize()):
                 enum_members_list.append(sb_enum_members.GetTypeEnumMemberAtIndex(idx))
             return enum_members_list

         bases = property(get_bases_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the direct base classes for this type.''')
         vbases = property(get_vbases_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the virtual base classes for this type.''')
         fields = property(get_fields_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the fields for this type.''')
         members = property(get_members_array, None, doc='''A read only property that returns a list() of all lldb.SBTypeMember objects that represent all of the base classes, virtual base classes and fields for this type in ascending bit offset order.''')
         enum_members = property(get_enum_members_array, None, doc='''A read only property that returns a list() of all lldb.SBTypeEnumMember objects that represent the enum members for this type.''')
         %}
 #endif

 };

 %feature("docstring",
 "Represents a list of :py:class:`SBType` s.

 The FindTypes() method of :py:class:`SBTarget`/:py:class:`SBModule` returns a SBTypeList.

 SBTypeList supports :py:class:`SBType` iteration. For example,

 .. code-block:: cpp

     // main.cpp:

     class Task {
     public:
         int id;
         Task *next;
         Task(int i, Task *n):
             id(i),
             next(n)
         {}
     };

 .. code-block:: python

     # find_type.py:

     # Get the type 'Task'.
     type_list = target.FindTypes('Task')
     self.assertTrue(len(type_list) == 1)
     # To illustrate the SBType iteration.
     for type in type_list:
         # do something with type

 ") SBTypeList;
 class SBTypeList
 {
 public:
     SBTypeList();

     bool
     IsValid();

     explicit operator bool() const;

     void
     Append (lldb::SBType type);

     lldb::SBType
     GetTypeAtIndex (uint32_t index);

     uint32_t
     GetSize();

     ~SBTypeList();

 #ifdef SWIGPYTHON
     %pythoncode%{
     def __iter__(self):
         '''Iterate over all types in a lldb.SBTypeList object.'''
         return lldb_iter(self, 'GetSize', 'GetTypeAtIndex')

     def __len__(self):
         '''Return the number of types in a lldb.SBTypeList object.'''
         return self.GetSize()
     %}
 #endif
 };

 } // namespace lldb
	//===-- SWIG Interface for SBType -------------------------------- 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
	//
	//===----------------------------------------------------------------------===//

	namespace lldb {

	%feature("docstring",
	"Represents a member of a type.") SBTypeMember;

	class SBTypeMember
	{
	public:
	SBTypeMember ();

	SBTypeMember (const lldb::SBTypeMember& rhs);

	~SBTypeMember();

	bool
	IsValid() const;

	explicit operator bool() const;

	const char *
	GetName ();

	lldb::SBType
	GetType ();

	uint64_t
	GetOffsetInBytes();

	uint64_t
	GetOffsetInBits();

	bool
	IsBitfield();

	uint32_t
	GetBitfieldSizeInBits();

	STRING_EXTENSION_LEVEL(SBTypeMember, lldb::eDescriptionLevelBrief)

	#ifdef SWIGPYTHON
	%pythoncode %{
	name = property(GetName, None, doc='''A read only property that returns the name for this member as a string.''')
	type = property(GetType, None, doc='''A read only property that returns an lldb object that represents the type (lldb.SBType) for this member.''')
	byte_offset = property(GetOffsetInBytes, None, doc='''A read only property that returns offset in bytes for this member as an integer.''')
	bit_offset = property(GetOffsetInBits, None, doc='''A read only property that returns offset in bits for this member as an integer.''')
	is_bitfield = property(IsBitfield, None, doc='''A read only property that returns true if this member is a bitfield.''')
	bitfield_bit_size = property(GetBitfieldSizeInBits, None, doc='''A read only property that returns the bitfield size in bits for this member as an integer, or zero if this member is not a bitfield.''')
	%}
	#endif

	protected:
	std::unique_ptr<lldb_private::TypeMemberImpl> m_opaque_ap;
	};

	%feature("docstring",
	"Represents a member function of a type."
	) SBTypeMemberFunction;
	class SBTypeMemberFunction
	{
	public:
	SBTypeMemberFunction ();

	SBTypeMemberFunction (const lldb::SBTypeMemberFunction& rhs);

	~SBTypeMemberFunction();

	bool
	IsValid() const;

	explicit operator bool() const;

	const char *
	GetName ();

	const char *
	GetDemangledName ();

	const char *
	GetMangledName ();

	lldb::SBType
	GetType ();

	lldb::SBType
	GetReturnType ();

	uint32_t
	GetNumberOfArguments ();

	lldb::SBType
	GetArgumentTypeAtIndex (uint32_t);

	lldb::MemberFunctionKind
	GetKind();

	bool
	GetDescription (lldb::SBStream &description,
	lldb::DescriptionLevel description_level);

	STRING_EXTENSION_LEVEL(SBTypeMemberFunction, lldb::eDescriptionLevelBrief)
	protected:
	lldb::TypeMemberFunctionImplSP m_opaque_sp;
	};

	%feature("docstring",
	"Represents a data type in lldb. The FindFirstType() method of SBTarget/SBModule
	returns a SBType.

	SBType supports the eq/ne operator. For example,::

	//main.cpp:

	class Task {
	public:
	int id;
	Task *next;
	Task(int i, Task *n):
	id(i),
	next(n)
	{}
	};

	int main (int argc, char const *argv[])
	{
	Task *task_head = new Task(-1, NULL);
	Task *task1 = new Task(1, NULL);
	Task *task2 = new Task(2, NULL);
	Task *task3 = new Task(3, NULL); // Orphaned.
	Task *task4 = new Task(4, NULL);
	Task *task5 = new Task(5, NULL);

	task_head->next = task1;
	task1->next = task2;
	task2->next = task4;
	task4->next = task5;

	int total = 0;
	Task *t = task_head;
	while (t != NULL) {
	if (t->id >= 0)
	++total;
	t = t->next;
	}
	printf('We have a total number of %d tasks\\n', total);

	// This corresponds to an empty task list.
	Task *empty_task_head = new Task(-1, NULL);

	return 0; // Break at this line
	}

	# find_type.py:

	# Get the type 'Task'.
	task_type = target.FindFirstType('Task')
	self.assertTrue(task_type)

	# Get the variable 'task_head'.
	frame0.FindVariable('task_head')
	task_head_type = task_head.GetType()
	self.assertTrue(task_head_type.IsPointerType())

	# task_head_type is 'Task *'.
	task_pointer_type = task_type.GetPointerType()
	self.assertTrue(task_head_type == task_pointer_type)

	# Get the child mmember 'id' from 'task_head'.
	id = task_head.GetChildMemberWithName('id')
	id_type = id.GetType()

	# SBType.GetBasicType() takes an enum 'BasicType' (lldb-enumerations.h).
	int_type = id_type.GetBasicType(lldb.eBasicTypeInt)
	# id_type and int_type should be the same type!
	self.assertTrue(id_type == int_type)

	...") SBType;
	class SBType
	{
	public:
	SBType ();

	SBType (const lldb::SBType &rhs);

	~SBType ();

	bool
	IsValid();

	explicit operator bool() const;

	uint64_t
	GetByteSize();

	bool
	IsPointerType();

	bool
	IsReferenceType();

	bool
	IsFunctionType ();

	bool
	IsPolymorphicClass ();

	bool
	IsArrayType ();

	bool
	IsVectorType ();

	bool
	IsTypedefType ();

	bool
	IsAnonymousType ();

	bool
	IsScopedEnumerationType ();

	lldb::SBType
	GetPointerType();

	lldb::SBType
	GetPointeeType();

	lldb::SBType
	GetReferenceType();

	lldb::SBType
	SBType::GetTypedefedType();

	lldb::SBType
	GetDereferencedType();

	lldb::SBType
	GetUnqualifiedType();

	lldb::SBType
	GetCanonicalType();

	lldb::SBType
	GetEnumerationIntegerType();

	lldb::SBType
	GetArrayElementType ();

	lldb::SBType
	GetArrayType (uint64_t size);

	lldb::SBType
	GetVectorElementType ();

	lldb::BasicType
	GetBasicType();

	lldb::SBType
	GetBasicType (lldb::BasicType type);

	uint32_t
	GetNumberOfFields ();

	uint32_t
	GetNumberOfDirectBaseClasses ();

	uint32_t
	GetNumberOfVirtualBaseClasses ();

	lldb::SBTypeMember
	GetFieldAtIndex (uint32_t idx);

	lldb::SBTypeMember
	GetDirectBaseClassAtIndex (uint32_t idx);

	lldb::SBTypeMember
	GetVirtualBaseClassAtIndex (uint32_t idx);

	lldb::SBTypeEnumMemberList
	GetEnumMembers();

	lldb::SBModule
	GetModule();

	const char*
	GetName();

	const char *
	GetDisplayTypeName ();

	lldb::TypeClass
	GetTypeClass ();

	uint32_t
	GetNumberOfTemplateArguments ();

	lldb::SBType
	GetTemplateArgumentType (uint32_t idx);

	lldb::TemplateArgumentKind
	GetTemplateArgumentKind (uint32_t idx);

	lldb::SBType
	GetFunctionReturnType ();

	lldb::SBTypeList
	GetFunctionArgumentTypes ();

	uint32_t
	GetNumberOfMemberFunctions ();

	lldb::SBTypeMemberFunction
	GetMemberFunctionAtIndex (uint32_t idx);

	bool
	IsTypeComplete ();

	uint32_t
	GetTypeFlags ();

	bool operator==(lldb::SBType &rhs);

	bool operator!=(lldb::SBType &rhs);

	STRING_EXTENSION_LEVEL(SBType, lldb::eDescriptionLevelBrief)

	#ifdef SWIGPYTHON
	%pythoncode %{
	def template_arg_array(self):
	num_args = self.num_template_args
	if num_args:
	template_args = []
	for i in range(num_args):
	template_args.append(self.GetTemplateArgumentType(i))
	return template_args
	return None

	module = property(GetModule, None, doc='''A read only property that returns the module in which type is defined.''')
	name = property(GetName, None, doc='''A read only property that returns the name for this type as a string.''')
	size = property(GetByteSize, None, doc='''A read only property that returns size in bytes for this type as an integer.''')
	is_pointer = property(IsPointerType, None, doc='''A read only property that returns a boolean value that indicates if this type is a pointer type.''')
	is_reference = property(IsReferenceType, None, doc='''A read only property that returns a boolean value that indicates if this type is a reference type.''')
	is_reference = property(IsReferenceType, None, doc='''A read only property that returns a boolean value that indicates if this type is a function type.''')
	num_fields = property(GetNumberOfFields, None, doc='''A read only property that returns number of fields in this type as an integer.''')
	num_bases = property(GetNumberOfDirectBaseClasses, None, doc='''A read only property that returns number of direct base classes in this type as an integer.''')
	num_vbases = property(GetNumberOfVirtualBaseClasses, None, doc='''A read only property that returns number of virtual base classes in this type as an integer.''')
	num_template_args = property(GetNumberOfTemplateArguments, None, doc='''A read only property that returns number of template arguments in this type as an integer.''')
	template_args = property(template_arg_array, None, doc='''A read only property that returns a list() of lldb.SBType objects that represent all template arguments in this type.''')
	type = property(GetTypeClass, None, doc='''A read only property that returns an lldb enumeration value (see enumerations that start with "lldb.eTypeClass") that represents a classification for this type.''')
	is_complete = property(IsTypeComplete, None, doc='''A read only property that returns a boolean value that indicates if this type is a complete type (True) or a forward declaration (False).''')

	def get_bases_array(self):
	'''An accessor function that returns a list() that contains all direct base classes in a lldb.SBType object.'''
	bases = []
	for idx in range(self.GetNumberOfDirectBaseClasses()):
	bases.append(self.GetDirectBaseClassAtIndex(idx))
	return bases

	def get_vbases_array(self):
	'''An accessor function that returns a list() that contains all fields in a lldb.SBType object.'''
	vbases = []
	for idx in range(self.GetNumberOfVirtualBaseClasses()):
	vbases.append(self.GetVirtualBaseClassAtIndex(idx))
	return vbases

	def get_fields_array(self):
	'''An accessor function that returns a list() that contains all fields in a lldb.SBType object.'''
	fields = []
	for idx in range(self.GetNumberOfFields()):
	fields.append(self.GetFieldAtIndex(idx))
	return fields

	def get_members_array(self):
	'''An accessor function that returns a list() that contains all members (base classes and fields) in a lldb.SBType object in ascending bit offset order.'''
	members = []
	bases = self.get_bases_array()
	fields = self.get_fields_array()
	vbases = self.get_vbases_array()
	for base in bases:
	bit_offset = base.bit_offset
	added = False
	for idx, member in enumerate(members):
	if member.bit_offset > bit_offset:
	members.insert(idx, base)
	added = True
	break
	if not added:
	members.append(base)
	for vbase in vbases:
	bit_offset = vbase.bit_offset
	added = False
	for idx, member in enumerate(members):
	if member.bit_offset > bit_offset:
	members.insert(idx, vbase)
	added = True
	break
	if not added:
	members.append(vbase)
	for field in fields:
	bit_offset = field.bit_offset
	added = False
	for idx, member in enumerate(members):
	if member.bit_offset > bit_offset:
	members.insert(idx, field)
	added = True
	break
	if not added:
	members.append(field)
	return members

	def get_enum_members_array(self):
	'''An accessor function that returns a list() that contains all enum members in an lldb.SBType object.'''
	enum_members_list = []
	sb_enum_members = self.GetEnumMembers()
	for idx in range(sb_enum_members.GetSize()):
	enum_members_list.append(sb_enum_members.GetTypeEnumMemberAtIndex(idx))
	return enum_members_list

	bases = property(get_bases_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the direct base classes for this type.''')
	vbases = property(get_vbases_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the virtual base classes for this type.''')
	fields = property(get_fields_array, None, doc='''A read only property that returns a list() of lldb.SBTypeMember objects that represent all of the fields for this type.''')
	members = property(get_members_array, None, doc='''A read only property that returns a list() of all lldb.SBTypeMember objects that represent all of the base classes, virtual base classes and fields for this type in ascending bit offset order.''')
	enum_members = property(get_enum_members_array, None, doc='''A read only property that returns a list() of all lldb.SBTypeEnumMember objects that represent the enum members for this type.''')
	%}
	#endif

	};

	%feature("docstring",
	"Represents a list of :py:class:`SBType` s.

	The FindTypes() method of :py:class:`SBTarget`/:py:class:`SBModule` returns a SBTypeList.

	SBTypeList supports :py:class:`SBType` iteration. For example,

	.. code-block:: cpp

	// main.cpp:

	class Task {
	public:
	int id;
	Task *next;
	Task(int i, Task *n):
	id(i),
	next(n)
	{}
	};

	.. code-block:: python

	# find_type.py:

	# Get the type 'Task'.
	type_list = target.FindTypes('Task')
	self.assertTrue(len(type_list) == 1)
	# To illustrate the SBType iteration.
	for type in type_list:
	# do something with type

	") SBTypeList;
	class SBTypeList
	{
	public:
	SBTypeList();

	bool
	IsValid();

	explicit operator bool() const;

	void
	Append (lldb::SBType type);

	lldb::SBType
	GetTypeAtIndex (uint32_t index);

	uint32_t
	GetSize();

	~SBTypeList();

	#ifdef SWIGPYTHON
	%pythoncode%{
	def __iter__(self):
	'''Iterate over all types in a lldb.SBTypeList object.'''
	return lldb_iter(self, 'GetSize', 'GetTypeAtIndex')

	def __len__(self):
	'''Return the number of types in a lldb.SBTypeList object.'''
	return self.GetSize()
	%}
	#endif
	};

	} // namespace lldb