/usr/include/root/Reflex/Type.h is in libroot-core-dev 5.34.19+dfsg-1.2.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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2422 2423 | // @(#)root/reflex:$Id$
// Author: Stefan Roiser 2004
// Copyright CERN, CH-1211 Geneva 23, 2004-2010, All rights reserved.
//
// Permission to use, copy, modify, and distribute this software for any
// purpose is hereby granted without fee, provided that this copyright and
// permissions notice appear in all copies and derivatives.
//
// This software is provided "as is" without express or implied warranty.
#ifndef Reflex_Type
#define Reflex_Type
// Include files
#include "Reflex/Kernel.h"
#include <vector>
#include <string>
#include <typeinfo>
#include <utility>
namespace Reflex {
// forward declarations
class Base;
class Member;
class Object;
class PropertyList;
class Scope;
class TypeBase;
class TypeName;
class MemberTemplate;
class TypeTemplate;
class DictionaryGenerator;
/**
* @class Type Type.h Reflex/Type.h
* @author Stefan Roiser
* @date 05/11/2004
* @ingroup Ref
*/
class RFLX_API Type {
public:
enum TYPE_MODIFICATION {
REPLACE = 0,
APPEND = 1,
MASK = 2
};
/** default constructor */
Type(const TypeName * typName = 0,
unsigned int modifiers = 0);
/** copy constructor */
Type(const Type &rh);
/**
* copy constructor applying qualification
* @param rh the right hand type
* @param modifiers to be applied
* @param operation, the default is to replace the modifiers, you can also APPEND or MASK them. MASK removes the modifiers specified in the 2nd argument
*/
Type(const Type &rh,
unsigned int modifiers,
TYPE_MODIFICATION operation = REPLACE);
/** destructor */
~Type();
/**
* assignment operator
*/
Type& operator =(const Type& rh);
/**
* equal operator
*/
bool operator ==(const Type& rh) const;
/**
* not equal operator
*/
bool operator !=(const Type& rh) const;
/**
* lesser than operator
*/
bool operator <(const Type& rh) const;
/**
* operator Scope will return the corresponding scope of this type if
* applicable (i.e. if the Type is also a Scope e.g. Class, Union, Enum)
*/
operator Scope() const;
/**
* the bool operator returns true if the Type is resolved (implemented)
* @return true if Type is implemented
*/
operator bool() const;
#if defined(REFLEX_CINT_MERGE)
// To prevent any un-authorized use as the old type
bool
operator !() const { return !operator bool(); }
bool
operator &&(bool right) const { return operator bool() && right; }
bool
operator &&(int right) const { return operator bool() && right; }
bool
operator &&(long right) const { return operator bool() && right; }
bool
operator &&(void* right) const { return operator bool() && right; }
bool operator &&(const Scope& right) const;
bool operator &&(const Type& right) const;
bool operator &&(const Member& right) const;
bool
operator ||(bool right) const { return operator bool() || right; }
bool
operator ||(int right) const { return operator bool() || right; }
bool
operator ||(long right) const { return operator bool() || right; }
bool
operator ||(void* right) const { return operator bool() || right; }
bool operator ||(const Scope& right) const;
bool operator ||(const Type& right) const;
bool operator ||(const Member& right) const;
private:
operator int() const;
public:
#endif
/**
* Allocate will reserve memory for the size of the object
* @return pointer to allocated memory
*/
void* Allocate() const;
/**
* ArrayLength returns the size of the array (if the type represents one)
* @return size of array
*/
size_t ArrayLength() const;
/**
* BaseAt will return the nth base class information
* @param nth base class
* @return pointer to base class information
*/
Base BaseAt(size_t nth) const;
/**
* BaseSize will return the number of base classes
* @return number of base classes
*/
size_t BaseSize() const;
/**
* Base_Begin returns the begin of the container of bases
* @return begin of container of bases
*/
Base_Iterator Base_Begin() const;
/**
* Base_End returns the end of the container of bases
* @return end of container of bases
*/
Base_Iterator Base_End() const;
/**
* Base_RBegin returns the reverse begin of the container of bases
* @return reverse begin of container of bases
*/
Reverse_Base_Iterator Base_RBegin() const;
/**
* Base_REnd returns the reverse end of the container of bases
* @return reverse end of container of bases
*/
Reverse_Base_Iterator Base_REnd() const;
/**
* ByName will look for a type given as a string and return it's
* reflection type information
* @param key fully qualified name of the type as string
* @return reflection type information
*/
static Type ByName(const std::string& key);
/**
* ByTypeInfo will look for a type given as a
* std::type_info and return its reflection information
* @param tid std::type_info to look for
* @return reflection information of type
*/
static Type ByTypeInfo(const std::type_info& tid);
/**
* CastObject an object from this class type to another one
* @param to is the class type to cast into
* @param obj the memory address of the object to be casted
*/
Object CastObject(const Type& to,
const Object& obj) const;
/**
* Construct will call the constructor of a given type and allocate
* the memory for it
* @param signature of the constructor
* @param values for parameters of the constructor
* @param mem place in memory for implicit construction
* @return new object
*/
/*
Object Construct( const Type & signature,
const std::vector < Object > & values,
void * mem = 0 ) const;
*/
Object Construct(const Type& signature = Type(0, 0),
const std::vector<void*>& values = std::vector<void*>(),
void* mem = 0) const;
/**
* DataMemberAt will return the nth data member of the type
* @param nth the nth data member
* @return nth data member
*/
Member DataMemberAt(size_t nth,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* DataMemberByName will lookup a data member by name
* @param name of data member
* @return data member
*/
Member DataMemberByName(const std::string& nam,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* DataMemberSize will return the number of data members of this type
* @return number of data members
*/
size_t DataMemberSize(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_Begin returns the begin of the container of members
* @return begin of container of members
*/
Member_Iterator DataMember_Begin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_End returns the end of the container of members
* @return end of container of members
*/
Member_Iterator DataMember_End(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_RBegin returns the reverse begin of the container of members
* @return reverse begin of container of members
*/
Reverse_Member_Iterator DataMember_RBegin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_REnd returns the reverse end of the container of members
* @return reverse end of container of members
*/
Reverse_Member_Iterator DataMember_REnd(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Deallocate will deallocate the memory for a given object
* @param instance of the type in memory
*/
void Deallocate(void* instance) const;
/**
* DeclaringScope will return the declaring socpe of this type
* @return declaring scope of this type
*/
Scope DeclaringScope() const;
/**
* Destruct will call the destructor of a type and remove its memory
* allocation if desired
* @param instance of the type in memory
* @param dealloc for also deallacoting the memory
*/
void Destruct(void* instance,
bool dealloc = true) const;
/**
* DynamicType is used to discover the dynamic type (useful in
* case of polymorphism)
* @param mem is the memory address of the object to checked
* @return the actual class of the object
*/
Type DynamicType(const Object& obj) const;
/**
* FinalType will return the type without typedefs
* @return type with all typedef info removed
*/
Type FinalType() const;
/**
* FunctionMemberAt will return the nth function member of the type
* @param nth function member
* @return reflection information of nth function member
*/
Member FunctionMemberAt(size_t nth,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionMemberByName will return the member with the name,
* optionally the signature of the function may be given as a type
* @param name of function member
* @param signature of the member function
* @return reflection information of the function member
*/
Member FunctionMemberByName(const std::string& nam,
const Type& signature = Type(0, 0),
unsigned int modifiers_mask = 0,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT,
EDELAYEDLOADSETTING allowDelayedLoad = DELAYEDLOAD_ON) const;
/**
* FunctionMemberSize will return the number of function members of
* this type
* @return number of function members
*/
size_t FunctionMemberSize(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionMember_Begin returns the begin of the container of function members
* @return begin of container of function members
*/
Member_Iterator FunctionMember_Begin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionMember_End returns the end of the container of function members
* @return end of container of function members
*/
Member_Iterator FunctionMember_End(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionMember_RBegin returns the reverse begin of the container of function members
* @return reverse begin of container of function members
*/
Reverse_Member_Iterator FunctionMember_RBegin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionMember_REnd returns the reverse end of the container of function members
* @return reverse end of container of function members
*/
Reverse_Member_Iterator FunctionMember_REnd(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionParameterAt returns the nth function parameter
* @param nth function parameter
* @return reflection information of nth function parameter
*/
Type FunctionParameterAt(size_t nth) const;
/**
* FunctionParameterSize will return the number of parameters of this function
* @return number of parameters
*/
size_t FunctionParameterSize() const;
/**
* FunctionParameter_Begin returns the begin of the container of function parameters
* @return begin of container of function parameters
*/
Type_Iterator FunctionParameter_Begin() const;
/**
* FunctionParameter_End returns the end of the container of function parameters
* @return end of container of function parameters
*/
Type_Iterator FunctionParameter_End() const;
/**
* FunctionParameter_RBegin returns the reverse begin of the container of function parameters
* @return reverse begin of container of function parameters
*/
Reverse_Type_Iterator FunctionParameter_RBegin() const;
/**
* FunctionParameter_REnd returns the reverse end of the container of function parameters
* @return reverse end of container of function parameters
*/
Reverse_Type_Iterator FunctionParameter_REnd() const;
/**
* GenerateDict will produce the dictionary information of this type
* @param generator a reference to the dictionary generator instance
*/
void GenerateDict(DictionaryGenerator& generator) const;
/**
* HasBase will check whether this class has a base class given
* as argument
* @param cl the base-class to check for
* @return the Base info if it is found, an empty base otherwise (can be tested for bool)
*/
bool HasBase(const Type& cl) const;
/**
* Id returns a unique identifier of the type in the system
* @return unique identifier
*/
void* Id() const;
/**
* IsAbstract will return true if the the class is abstract
* @return true if the class is abstract
*/
bool IsAbstract() const;
/**
* IsArray returns true if the type represents a array
* @return true if type represents a array
*/
bool IsArray() const;
/**
* IsClass returns true if the type represents a class
* @return true if type represents a class
*/
bool IsClass() const;
/**
* IsComplete will return true if all classes and base classes of this
* class are resolved and fully known in the system
*/
bool IsComplete() const;
/**
* IsConst returns true if the type represents a const type
* @return true if type represents a const type
*/
bool IsConst() const;
/**
* IsConstVolatile returns true if the type represents a const volatile type
* @return true if type represents a const volatile type
*/
bool IsConstVolatile() const;
/**
* IsEnum returns true if the type represents a enum
* @return true if type represents a enum
*/
bool IsEnum() const;
/**
* IsEquivalentTo returns true if the two types are equivalent
* @param type to compare to
* @modifiers_mask do not compare the listed modifiers
* @return true if two types are equivalent
*/
bool IsEquivalentTo(const Type& typ,
unsigned int modifiers_mask = 0) const;
/**
* IsSignatureEquivalentTo returns true if the two types are equivalent,
* ignoring the return type for functions
* @param type to compare to
* @modifiers_mask do not compare the listed modifiers
* @return true if two types are equivalent
*/
bool IsSignatureEquivalentTo(const Type& typ,
unsigned int modifiers_mask = 0) const;
/**
* IsFunction returns true if the type represents a function
* @return true if type represents a function
*/
bool IsFunction() const;
/**
* IsFundamental returns true if the type represents a fundamental
* @return true if type represents a fundamental
*/
bool IsFundamental() const;
/**
* IsPrivate will check if the scope access is private
* @return true if scope access is private
*/
bool IsPrivate() const;
/**
* IsProtected will check if the scope access is protected
* @return true if scope access is protected
*/
bool IsProtected() const;
/**
* IsPublic will check if the scope access is public
* @return true if scope access is public
*/
bool IsPublic() const;
/**
* IsPointer returns true if the type represents a pointer
* @return true if type represents a pointer
*/
bool IsPointer() const;
/**
* IsPointerToMember returns true if the type represents a pointer to member
* @return true if type represents a pointer to member
*/
bool IsPointerToMember() const;
/**
* IsReference returns true if the type represents a reference
* @return true if type represents a reference
*/
bool IsReference() const;
/**
* IsStruct will return true if the type represents a struct (not a class)
* @return true if type represents a struct
*/
bool IsStruct() const;
/**
* IsTemplateInstance will return true if the the class is templated
* @return true if the class is templated
*/
bool IsTemplateInstance() const;
/**
* IsTypedef returns true if the type represents a typedef
* @return true if type represents a typedef
*/
bool IsTypedef() const;
/**
* IsUnion returns true if the type represents a union
* @return true if type represents a union
*/
bool IsUnion() const;
/**
* IsUnqualified returns true if the type represents an unqualified type
* @return true if type represents an unqualified type
*/
bool IsUnqualified() const;
/**
* IsVirtual will return true if the class contains a virtual table
* @return true if the class contains a virtual table
*/
bool IsVirtual() const;
/**
* IsVolatile returns true if the type represents a volatile type
* @return true if type represents a volatile type
*/
bool IsVolatile() const;
/**
* MemberAt will return the nth member of the type
* @param nth member
* @return reflection information nth member
*/
Member MemberAt(size_t nth,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* MemberByName will return the first member with a given Name
* @param member name
* @param signature of the (function) member
* @return reflection information of the member
*/
Member MemberByName(const std::string& nam,
const Type& signature = Type(0, 0),
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* MemberSize will return the number of members
* @return number of members
*/
size_t MemberSize(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_Begin returns the begin of the container of members
* @return begin of container of members
*/
Member_Iterator Member_Begin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_End returns the end of the container of members
* @return end of container of members
*/
Member_Iterator Member_End(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_RBegin returns the reverse begin of the container of members
* @return reverse begin of container of members
*/
Reverse_Member_Iterator Member_RBegin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* Member_REnd returns the reverse end of the container of members
* @return reverse end of container of members
*/
Reverse_Member_Iterator Member_REnd(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* MemberTemplateAt will return the nth member template of this type
* @param nth member template
* @return nth member template
*/
MemberTemplate MemberTemplateAt(size_t nth) const;
/**
* MemberTemplateSize will return the number of member templates in this scope
* @return number of defined member templates
*/
size_t MemberTemplateSize() const;
/**
* MemberTemplate_Begin returns the begin of the container of member templates
* @return begin of container of member templates
*/
MemberTemplate_Iterator MemberTemplate_Begin() const;
/**
* MemberTemplate_End returns the end of the container of member templates
* @return end of container of member templates
*/
MemberTemplate_Iterator MemberTemplate_End() const;
/**
* MemberTemplate_RBegin returns the reverse begin of the container of member templates
* @return reverse begin of container of member templates
*/
Reverse_MemberTemplate_Iterator MemberTemplate_RBegin() const;
/**
* MemberTemplate_REnd returns the reverse end of the container of member templates
* @return reverse end of container of member templates
*/
Reverse_MemberTemplate_Iterator MemberTemplate_REnd() const;
/**
* Name returns the name of the type
* @param mod qualifiers can be or'ed
* FINAL - resolve typedefs
* SCOPED - fully scoped name
* QUALIFIED - cv, reference qualification
* @return name of the type
*/
std::string Name(unsigned int mod = 0) const;
/**
* Name_c_str returns a char* pointer to the unqualified type name
* @return c string to unqualified type name
*/
const char* Name_c_str() const;
/**
* PointerToMemberScope will return the scope of the pointer to member type
* @return scope of the pointer to member type
*/
Scope PointerToMemberScope() const;
/**
* Properties will return a PropertyList attached to this item
* @return PropertyList of this type
*/
PropertyList Properties() const;
/**
* RawType will return the underlying type of a type removing all information
* of pointers, arrays, typedefs
* @return the raw type representation
*/
Type RawType() const;
/**
* ReturnType will return the type of the return type
* @return reflection information of the return type
*/
Type ReturnType() const;
/**
* sizeof will return the size of the type
* @return size of the type as int
*/
size_t SizeOf() const;
/**
* SubScopeAt will return a pointer to a sub scopes
* @param nth sub scope
* @return reflection information of nth sub scope
*/
Scope SubScopeAt(size_t nth) const;
/**
* SubScopeSize will return the number of sub scopes
* @return number of sub scopes
*/
size_t SubScopeSize() const;
/**
* SubScope_Begin returns the begin of the container of sub scopes
* @return begin of container of sub scopes
*/
Scope_Iterator SubScope_Begin() const;
/**
* SubScope_End returns the end of the container of sub scopes
* @return end of container of sub scopes
*/
Scope_Iterator SubScope_End() const;
/**
* SubScope_RBegin returns the reverse begin of the container of sub scopes
* @return reverse begin of container of sub scopes
*/
Reverse_Scope_Iterator SubScope_RBegin() const;
/**
* SubScope_REnd returns the reverse end of the container of sub scopes
* @return reverse end of container of sub scopes
*/
Reverse_Scope_Iterator SubScope_REnd() const;
/**
* SubTypeAt will return the nth sub type
* @param nth sub type
* @return reflection information of nth sub type
*/
Type SubTypeAt(size_t nth) const;
/**
* SubTypeSize will return he number of sub types
* @return number of sub types
*/
size_t SubTypeSize() const;
/**
* SubType_Begin returns the begin of the container of sub types
* @return begin of container of sub types
*/
Type_Iterator SubType_Begin() const;
/**
* SubType_End returns the end of the container of sub types
* @return end of container of sub types
*/
Type_Iterator SubType_End() const;
/**
* SubType_RBegin returns the reverse begin of the container of sub types
* @return reverse begin of container of sub types
*/
Reverse_Type_Iterator SubType_RBegin() const;
/**
* SubType_REnd returns the reverse end of the container of sub types
* @return reverse end of container of sub types
*/
Reverse_Type_Iterator SubType_REnd() const;
/**
* SubTypeTemplateAt will return the nth type template of this type
* @param nth type template
* @return nth type template
*/
TypeTemplate SubTypeTemplateAt(size_t nth) const;
/**
* SubTypeTemplateSize will return the number of type templates in this scope
* @return number of defined type templates
*/
size_t SubTypeTemplateSize() const;
/**
* SubTypeTemplate_Begin returns the begin of the container of sub type templates
* @return begin of container of sub type templates
*/
TypeTemplate_Iterator SubTypeTemplate_Begin() const;
/**
* SubTypeTemplate_End returns the end of the container of sub type templates
* @return end of container of sub type templates
*/
TypeTemplate_Iterator SubTypeTemplate_End() const;
/**
* SubTypeTemplate_RBegin returns the reverse begin of the container of sub type templates
* @return reverse begin of container of sub type templates
*/
Reverse_TypeTemplate_Iterator SubTypeTemplate_RBegin() const;
/**
* SubTypeTemplate_REnd returns the reverse end of the container of sub type templates
* @return reverse end of container of sub type templates
*/
Reverse_TypeTemplate_Iterator SubTypeTemplate_REnd() const;
/**
* TemplateArgumentAt will return a pointer to the nth template argument
* @param nth nth template argument
* @return reflection information of nth template argument
*/
Type TemplateArgumentAt(size_t nth) const;
/**
* TemplateArgumentSize will return the number of template arguments
* @return number of template arguments
*/
size_t TemplateArgumentSize() const;
/**
* TemplateArgument_Begin returns the begin of the container of template arguments
* @return begin of container of template arguments
*/
Type_Iterator TemplateArgument_Begin() const;
/**
* TemplateArgument_End returns the end of the container of template arguments
* @return end of container of template arguments
*/
Type_Iterator TemplateArgument_End() const;
/**
* TemplateArgument_RBegin returns the reverse begin of the container of template arguments
* @return reverse begin of container of template arguments
*/
Reverse_Type_Iterator TemplateArgument_RBegin() const;
/**
* TemplateArgument_REnd returns the reverse end of the container of template arguments
* @return reverse end of container of template arguments
*/
Reverse_Type_Iterator TemplateArgument_REnd() const;
/**
* TemplateFamily returns the corresponding TypeTemplate if any
* @return corresponding TypeTemplate
*/
TypeTemplate TemplateFamily() const;
/**
* ToType will return an underlying type if possible (e.g. typedef, pointer..)
* @return reflection information of underlying type
*/
Type ToType() const;
/**
* TypeAt will return the nth Type in the system
* @param nth number of type to return
* @return reflection information of nth type in the system
*/
static Type TypeAt(size_t nth);
/**
* TypeSize will return the number of currently defined types in
* the system
* @return number of currently defined types
*/
static size_t TypeSize();
/**
* Type_Begin returns the begin of the container of types in the system
* @return begin of container of types in the system
*/
static Type_Iterator Type_Begin();
/**
* Type_End returns the end of the container of types in the system
* @return end of container of types in the system
*/
static Type_Iterator Type_End();
/**
* Type_RBegin returns the reverse begin of the container of types in the system
* @return reverse begin of container of types in the system
*/
static Reverse_Type_Iterator Type_RBegin();
/**
* Type_REnd returns the reverse end of the container of types in the system
* @return reverse end of container of types in the system
*/
static Reverse_Type_Iterator Type_REnd();
/**
* TypeInfo will return the c++ type_info object of this type
* @return type_info object of this type
*/
const std::type_info& TypeInfo() const;
/**
* TypeType will return the enum information about this type
* @return enum information of this type
*/
TYPE TypeType() const;
/**
* TypeTypeAsString will return the string representation of the ENUM
* representing the real type of the Type (e.g. "CLASS")
* @return string representation of the TYPE enum of the Type
*/
std::string TypeTypeAsString() const;
/**
* Unload will unload the dictionary information of a type from the system
*/
void Unload() const;
/**
* UpdateMembers will update the list of Function/Data/Members with all
* members of base classes currently availabe in the system
*/
void UpdateMembers() const;
public:
/**
* AddBase will add information about a Base class
* @param base type of the base class
* @param offsFP pointer to a function stub for calculating the base class offset
* @param modifiers the modifiers of the base class
*/
void AddBase(const Type& bas,
OffsetFunction offsFP,
unsigned int modifiers = 0) const;
/**
* AddBase will add the information about a Base class
* @param b pointer to the base class
*/
void AddBase(const Base& b) const;
/**
* AddDataMember will add the information about a data member
* @param dm data member to add
*/
void AddDataMember(const Member& dm) const;
/**
* AddDataMember will add the information about a data member
* @param nam the name of the data member
* @param typ the type of the data member
* @param offs the offset of the data member relative to the beginning of the scope
* @param modifiers of the data member
*/
Member AddDataMember(const char* nam,
const Type& typ,
size_t offs,
unsigned int modifiers = 0,
char* interpreterOffset = 0) const;
/**
* AddFunctionMember will add the information about a function member
* @param fm function member to add
*/
void AddFunctionMember(const Member& fm) const;
/**
* AddFunctionMember will add the information about a function member
* @param nam the name of the function member
* @param typ the type of the function member
* @param stubFP a pointer to the stub function
* @param stubCtx a pointer to the context of the function member
* @param params a semi colon separated list of parameters
* @param modifiers of the function member
*/
Member AddFunctionMember(const char* nam,
const Type& typ,
StubFunction stubFP,
void* stubCtx = 0,
const char* params = 0,
unsigned int modifiers = 0) const;
/**
* AddSubScope will add a sub scope to this one
* @param sc sub scope to add
*/
void AddSubScope(const Scope& sc) const;
/**
* AddSubScope will add a sub scope to this one
* @param scop the name of the sub scope
* @param scopeType enum value of the scope type
*/
void AddSubScope(const char* scop,
TYPE scopeTyp = NAMESPACE) const;
/**
* AddSubType will add a sub type to this type
* @param ty sub type to add
*/
void AddSubType(const Type& ty) const;
/**
* AddSubType will add a sub type to this type
* @param typ the name of the sub type
* @param size the sizeof of the sub type
* @param typeType the enum specifying the sub type
* @param ti the type_info of the sub type
* @param modifiers of the sub type
*/
void AddSubType(const char* typ,
size_t size,
TYPE typeTyp,
const std::type_info& ti,
unsigned int modifiers = 0) const;
/**
* RemoveDataMember will remove the information about a data member
* @param dm data member to remove
*/
void RemoveDataMember(const Member& dm) const;
/**
* RemoveFunctionMember will remove the information about a function member
* @param fm function member to remove
*/
void RemoveFunctionMember(const Member& fm) const;
/**
* RemoveSubScope will remove a sub scope from this type
* @param sc sub scope to remove
*/
void RemoveSubScope(const Scope& sc) const;
/**
* RemoveSubType will remove a sub type from this type
* @param sc sub type to remove
*/
void RemoveSubType(const Type& ty) const;
/**
* SetSize will set the size of the type. This function shall
* be used with care. It will change the reflection information
* of this type.
*/
void SetSize(size_t s) const;
/**
* SetTypeInfo will set the type_info object of this type.
* Attention: This will change the reflection information
* of this type.
*/
void SetTypeInfo(const std::type_info& ti) const;
/** */
const TypeBase* ToTypeBase() const;
REPRESTYPE RepresType() const;
private:
/**
* pointer to the TypeName
* @link aggregation
* @supplierCardinality 1
* @clientCardinality 1..
**/
const TypeName* fTypeName;
/** modifiers */
unsigned int fModifiers;
}; // class Type
} //namespace Reflex
#include "Reflex/internal/TypeName.h"
#include "Reflex/internal/TypeBase.h"
#include "Reflex/PropertyList.h"
inline Reflex::REPRESTYPE
Reflex::Type::RepresType() const {
if (*this) {
return fTypeName->fTypeBase->RepresType();
}
return REPRES_NOTYPE;
}
//-------------------------------------------------------------------------------
inline Reflex::Type&
Reflex::Type::operator =(const Type& rh) {
//-------------------------------------------------------------------------------
if (&rh != this) {
fTypeName = rh.fTypeName;
fModifiers = rh.fModifiers;
}
return *this;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::operator ==(const Type& rh) const {
//-------------------------------------------------------------------------------
return fTypeName == rh.fTypeName && fModifiers == rh.fModifiers;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::operator !=(const Type& rh) const {
//-------------------------------------------------------------------------------
return fTypeName != rh.fTypeName || fModifiers != rh.fModifiers;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::operator <(const Type& rh) const {
//-------------------------------------------------------------------------------
return Id() < rh.Id();
}
//-------------------------------------------------------------------------------
inline
Reflex::Type::operator bool() const {
//-------------------------------------------------------------------------------
if (this->fTypeName && this->fTypeName->fTypeBase) {
return true;
}
//throw RuntimeError("Type is not implemented");
return false;
}
//-------------------------------------------------------------------------------
inline Reflex::Type::Type(const TypeName* typName,
unsigned int modifiers)
//-------------------------------------------------------------------------------
: fTypeName(typName),
fModifiers(modifiers) {
}
//-------------------------------------------------------------------------------
inline Reflex::Type::Type(const Type& rh)
//-------------------------------------------------------------------------------
: fTypeName(rh.fTypeName),
fModifiers(rh.fModifiers) {
}
//-------------------------------------------------------------------------------
inline Reflex::Type::Type(const Type& rh,
unsigned int modifiers,
TYPE_MODIFICATION operation)
//-------------------------------------------------------------------------------
: fTypeName(rh.fTypeName),
fModifiers(operation == APPEND ? rh.fModifiers | modifiers:
(operation == MASK ? rh.fModifiers & (~modifiers): modifiers)) {
}
//-------------------------------------------------------------------------------
inline Reflex::Type::~Type() {
//-------------------------------------------------------------------------------
}
//-------------------------------------------------------------------------------
inline void*
Reflex::Type::Allocate() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->Allocate();
}
return 0;
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::BaseSize() const {
//-------------------------------------------------------------------------------
return operator Scope().BaseSize();
}
//-------------------------------------------------------------------------------
inline Reflex::Base_Iterator
Reflex::Type::Base_Begin() const {
//-------------------------------------------------------------------------------
return operator Scope().Base_Begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Base_Iterator
Reflex::Type::Base_End() const {
//-------------------------------------------------------------------------------
return operator Scope().Base_End();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Base_Iterator
Reflex::Type::Base_RBegin() const {
//-------------------------------------------------------------------------------
return operator Scope().Base_RBegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Base_Iterator
Reflex::Type::Base_REnd() const {
//-------------------------------------------------------------------------------
return operator Scope().Base_REnd();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::DataMemberSize(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().DataMemberSize(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::Type::DataMember_Begin(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().DataMember_Begin(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::Type::DataMember_End(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().DataMember_End(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::Type::DataMember_RBegin(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().DataMember_RBegin(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::Type::DataMember_REnd(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().DataMember_REnd(inh);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::Deallocate(void* instance) const {
//-------------------------------------------------------------------------------
if (*this) {
fTypeName->fTypeBase->Deallocate(instance);
}
}
//-------------------------------------------------------------------------------
inline Reflex::Scope
Reflex::Type::DeclaringScope() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->DeclaringScope();
}
return Dummy::Scope();
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::Destruct(void* instance,
bool dealloc) const {
//-------------------------------------------------------------------------------
if (*this) {
fTypeName->fTypeBase->Destruct(instance, dealloc);
}
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::FunctionMemberSize(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().FunctionMemberSize(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::Type::FunctionMember_Begin(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().FunctionMember_Begin(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::Type::FunctionMember_End(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().FunctionMember_End(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::Type::FunctionMember_RBegin(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().FunctionMember_RBegin(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::Type::FunctionMember_REnd(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().FunctionMember_REnd(inh);
}
//-------------------------------------------------------------------------------
inline void*
Reflex::Type::Id() const {
//-------------------------------------------------------------------------------
return (void*) fTypeName;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsAbstract() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsAbstract();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsArray() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsArray();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsClass() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsClass();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsComplete() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsComplete();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsConst() const {
//-------------------------------------------------------------------------------
return 0 != (fModifiers & CONST);
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsConstVolatile() const {
//-------------------------------------------------------------------------------
return (fModifiers & CONST) && (fModifiers & VOLATILE);
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsEnum() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsEnum();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsFunction() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsFunction();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsFundamental() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsFundamental();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsPointer() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsPointer();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsPointerToMember() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsPointerToMember();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsPrivate() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsPrivate();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsProtected() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsProtected();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsPublic() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsPublic();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsReference() const {
//-------------------------------------------------------------------------------
return 0 != (fModifiers & REFERENCE);
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsStruct() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsStruct();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsTemplateInstance() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsTemplateInstance();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsTypedef() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsTypedef();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsUnion() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsUnion();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsUnqualified() const {
//-------------------------------------------------------------------------------
return 0 == fModifiers;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsVirtual() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->IsVirtual();
}
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::Type::IsVolatile() const {
//-------------------------------------------------------------------------------
return 0 != (fModifiers & VOLATILE);
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::ArrayLength() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->ArrayLength();
}
return 0;
}
//-------------------------------------------------------------------------------
inline Reflex::Type
Reflex::Type::FinalType() const {
//-------------------------------------------------------------------------------
if (*this) {
return Reflex::Type(fTypeName->fTypeBase->FinalType(), fModifiers, APPEND);
}
return *this;
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::MemberTemplateSize() const {
//-------------------------------------------------------------------------------
return operator Scope().MemberTemplateSize();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::MemberSize(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().MemberSize(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::Type::Member_Begin(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().Member_Begin(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::Type::Member_End(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().Member_End(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::Type::Member_RBegin(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().Member_RBegin(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::Type::Member_REnd(EMEMBERQUERY inh) const {
//-------------------------------------------------------------------------------
return operator Scope().Member_REnd(inh);
}
//-------------------------------------------------------------------------------
inline Reflex::MemberTemplate_Iterator
Reflex::Type::MemberTemplate_Begin() const {
//-------------------------------------------------------------------------------
return operator Scope().MemberTemplate_Begin();
}
//-------------------------------------------------------------------------------
inline Reflex::MemberTemplate_Iterator
Reflex::Type::MemberTemplate_End() const {
//-------------------------------------------------------------------------------
return operator Scope().MemberTemplate_End();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_MemberTemplate_Iterator
Reflex::Type::MemberTemplate_RBegin() const {
//-------------------------------------------------------------------------------
return operator Scope().MemberTemplate_RBegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_MemberTemplate_Iterator
Reflex::Type::MemberTemplate_REnd() const {
//-------------------------------------------------------------------------------
return operator Scope().MemberTemplate_REnd();
}
//-------------------------------------------------------------------------------
inline const char*
Reflex::Type::Name_c_str() const {
//-------------------------------------------------------------------------------
if (fTypeName) {
return fTypeName->Name();
}
return "";
}
//-------------------------------------------------------------------------------
inline Reflex::Type
Reflex::Type::FunctionParameterAt(size_t nth) const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->FunctionParameterAt(nth);
}
return Dummy::Type();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::FunctionParameterSize() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->FunctionParameterSize();
}
return 0;
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::FunctionParameter_Begin() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->FunctionParameter_Begin();
}
return Dummy::TypeCont().begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::FunctionParameter_End() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->FunctionParameter_End();
}
return Dummy::TypeCont().end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::FunctionParameter_RBegin() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->FunctionParameter_RBegin();
}
return Dummy::TypeCont().rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::FunctionParameter_REnd() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->FunctionParameter_REnd();
}
return Dummy::TypeCont().rend();
}
//-------------------------------------------------------------------------------
inline Reflex::PropertyList
Reflex::Type::Properties() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->Properties();
}
return Dummy::PropertyList();
}
//-------------------------------------------------------------------------------
inline Reflex::Type
Reflex::Type::RawType() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->RawType();
}
return Dummy::Type();
}
//-------------------------------------------------------------------------------
inline Reflex::Type
Reflex::Type::ReturnType() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->ReturnType();
}
return Dummy::Type();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope_Iterator
Reflex::Type::SubScope_Begin() const {
//-------------------------------------------------------------------------------
return operator Scope().SubScope_Begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope_Iterator
Reflex::Type::SubScope_End() const {
//-------------------------------------------------------------------------------
return operator Scope().SubScope_End();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Scope_Iterator
Reflex::Type::SubScope_RBegin() const {
//-------------------------------------------------------------------------------
return operator Scope().SubScope_RBegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Scope_Iterator
Reflex::Type::SubScope_REnd() const {
//-------------------------------------------------------------------------------
return operator Scope().SubScope_REnd();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::SizeOf() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->SizeOf();
}
return 0;
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::SubScopeSize() const {
//-------------------------------------------------------------------------------
return operator Scope().SubScopeSize();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::SubTypeSize() const {
//-------------------------------------------------------------------------------
return operator Scope().SubTypeSize();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::SubType_Begin() const {
//-------------------------------------------------------------------------------
return operator Scope().SubType_Begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::SubType_End() const {
//-------------------------------------------------------------------------------
return operator Scope().SubType_End();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::SubType_RBegin() const {
//-------------------------------------------------------------------------------
return operator Scope().SubType_RBegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::SubType_REnd() const {
//-------------------------------------------------------------------------------
return operator Scope().SubType_REnd();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::TemplateArgument_Begin() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateArgument_Begin();
}
return Dummy::TypeCont().begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::TemplateArgument_End() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateArgument_End();
}
return Dummy::TypeCont().end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::TemplateArgument_RBegin() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateArgument_RBegin();
}
return Dummy::TypeCont().rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::TemplateArgument_REnd() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateArgument_REnd();
}
return Dummy::TypeCont().rend();
}
//-------------------------------------------------------------------------------
inline Reflex::Type
Reflex::Type::ToType() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->ToType();
}
return Dummy::Type();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::Type_Begin() {
//-------------------------------------------------------------------------------
return TypeName::Type_Begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::Type::Type_End() {
//-------------------------------------------------------------------------------
return TypeName::Type_End();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::Type_RBegin() {
//-------------------------------------------------------------------------------
return TypeName::Type_RBegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::Type::Type_REnd() {
//-------------------------------------------------------------------------------
return TypeName::Type_REnd();
}
//-------------------------------------------------------------------------------
inline const std::type_info&
Reflex::Type::TypeInfo() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TypeInfo();
}
return typeid(void);
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::SubTypeTemplateSize() const {
//-------------------------------------------------------------------------------
return operator Scope().SubTypeTemplateSize();
}
//-------------------------------------------------------------------------------
inline Reflex::TypeTemplate_Iterator
Reflex::Type::SubTypeTemplate_Begin() const {
//-------------------------------------------------------------------------------
return operator Scope().SubTypeTemplate_Begin();
}
//-------------------------------------------------------------------------------
inline Reflex::TypeTemplate_Iterator
Reflex::Type::SubTypeTemplate_End() const {
//-------------------------------------------------------------------------------
return operator Scope().SubTypeTemplate_End();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_TypeTemplate_Iterator
Reflex::Type::SubTypeTemplate_RBegin() const {
//-------------------------------------------------------------------------------
return operator Scope().SubTypeTemplate_RBegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_TypeTemplate_Iterator
Reflex::Type::SubTypeTemplate_REnd() const {
//-------------------------------------------------------------------------------
return operator Scope().SubTypeTemplate_REnd();
}
//-------------------------------------------------------------------------------
inline Reflex::TYPE
Reflex::Type::TypeType() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TypeType();
}
return UNRESOLVED;
}
//-------------------------------------------------------------------------------
inline std::string
Reflex::Type::TypeTypeAsString() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TypeTypeAsString();
}
return "UNRESOLVED";
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::UpdateMembers() const {
//-------------------------------------------------------------------------------
operator Scope().UpdateMembers();
}
//-------------------------------------------------------------------------------
inline Reflex::Type
Reflex::Type::TemplateArgumentAt(size_t nth) const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateArgumentAt(nth);
}
return Dummy::Type();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::Type::TemplateArgumentSize() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateArgumentSize();
}
return 0;
}
//-------------------------------------------------------------------------------
inline Reflex::TypeTemplate
Reflex::Type::TemplateFamily() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase->TemplateFamily();
}
return Dummy::TypeTemplate();
}
//-------------------------------------------------------------------------------
inline const Reflex::TypeBase*
Reflex::Type::ToTypeBase() const {
//-------------------------------------------------------------------------------
if (*this) {
return fTypeName->fTypeBase;
}
return 0;
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddBase(const Type& bas,
OffsetFunction offsFP,
unsigned int modifiers /* = 0 */) const {
//-------------------------------------------------------------------------------
operator Scope().AddBase(bas, offsFP, modifiers);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddBase(const Base& b) const {
//-------------------------------------------------------------------------------
operator Scope().AddBase(b);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddDataMember(const Member& dm) const {
//-------------------------------------------------------------------------------
operator Scope().AddDataMember(dm);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddFunctionMember(const Member& fm) const {
//-------------------------------------------------------------------------------
operator Scope().AddFunctionMember(fm);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddSubScope(const Scope& sc) const {
//-------------------------------------------------------------------------------
return operator Scope().AddSubScope(sc);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddSubScope(const char* scop,
TYPE scopeTyp) const {
//-------------------------------------------------------------------------------
return operator Scope().AddSubScope(scop, scopeTyp);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddSubType(const Type& ty) const {
//-------------------------------------------------------------------------------
return operator Scope().AddSubType(ty);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::AddSubType(const char* typ,
size_t size,
TYPE typeTyp,
const std::type_info& ti,
unsigned int modifiers) const {
//-------------------------------------------------------------------------------
return operator Scope().AddSubType(typ, size, typeTyp, ti, modifiers);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::RemoveDataMember(const Member& dm) const {
//-------------------------------------------------------------------------------
return operator Scope().RemoveDataMember(dm);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::RemoveFunctionMember(const Member& fm) const {
//-------------------------------------------------------------------------------
return operator Scope().RemoveFunctionMember(fm);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::RemoveSubScope(const Scope& sc) const {
//-------------------------------------------------------------------------------
return operator Scope().RemoveSubScope(sc);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::RemoveSubType(const Type& ty) const {
//-------------------------------------------------------------------------------
return operator Scope().RemoveSubType(ty);
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::SetSize(size_t s) const {
//-------------------------------------------------------------------------------
if (*this) {
fTypeName->fTypeBase->SetSize(s);
}
}
//-------------------------------------------------------------------------------
inline void
Reflex::Type::SetTypeInfo(const std::type_info& ti) const {
//-------------------------------------------------------------------------------
if (*this) {
fTypeName->fTypeBase->SetTypeInfo(ti);
}
}
#ifdef REFLEX_CINT_MERGE
inline bool
operator &&(bool b,
const Reflex::Type& rh) {
return b && rh.operator bool();
}
inline bool
operator &&(int i,
const Reflex::Type& rh) {
return i && rh.operator bool();
}
inline bool
operator ||(bool b,
const Reflex::Type& rh) {
return b || rh.operator bool();
}
inline bool
operator ||(int i,
const Reflex::Type& rh) {
return i || rh.operator bool();
}
inline bool
operator &&(const char* c,
const Reflex::Type& rh) {
return c && rh.operator bool();
}
inline bool
operator ||(const char* c,
const Reflex::Type& rh) {
return c || rh.operator bool();
}
inline bool
operator &&(char* c,
const Reflex::Type& rh) {
return c && rh.operator bool();
}
inline bool
operator ||(char* c,
const Reflex::Type& rh) {
return c || rh.operator bool();
}
#endif
#endif // Reflex_Type
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