/usr/include/root/Reflex/internal/ScopeBase.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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// 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_ScopeBase
#define Reflex_ScopeBase
// Include files
#include "Reflex/Kernel.h"
#ifndef Reflex_Scope
#include "Reflex/Scope.h"
#endif
#include "Reflex/internal/OwnedPropertyList.h"
#include "Reflex/internal/BuilderContainer.h"
#include <vector>
#ifdef _WIN32
# pragma warning( push )
# pragma warning( disable : 4251 )
#endif
namespace Reflex {
// forward declarations
class Scope;
class ScopeName;
class Namespace;
class Class;
class Member;
class OwnedMember;
class TypeTemplate;
class MemberTemplate;
class OwnedMemberTemplate;
class Type;
class DictionaryGenerator;
class OnDemandBuilder;
/**
* @class ScopeBase ScopeBase.h Reflex/ScopeBase.h
* @author Stefan Roiser
* @date 24/11/2003
* @ingroup Ref
*/
class RFLX_API ScopeBase {
public:
enum EBuilderKind {
kBuildDataMembers,
kBuildFunctionMembers,
kNumBuilderKinds
};
/** constructor within a At*/
ScopeBase(const char* scope,
TYPE scopeType);
/** destructor */
virtual ~ScopeBase();
/**
* operator Scope will return the corresponding Scope object
* @return Scope corresponding to this ScopeBase
*/
operator Scope() const;
/**
* the operator Type will return a corresponding Type object to the At if
* applicable (i.e. if the Scope is also a Type e.g. Class, Union, Enum)
*/
operator Type() const;
/**
* nthBase will return the nth BaseAt class information
* @param nth nth BaseAt class
* @return pointer to BaseAt class information
*/
virtual Base BaseAt(size_t nth) const;
/**
* BaseSize will return the number of BaseAt classes
* @return number of BaseAt classes
*/
virtual size_t BaseSize() const;
virtual Base_Iterator Base_Begin() const;
virtual Base_Iterator Base_End() const;
virtual Reverse_Base_Iterator Base_RBegin() const;
virtual Reverse_Base_Iterator Base_REnd() const;
/**
* nthDataMember will return the nth data MemberAt of the At
* @param nth data MemberAt
* @return pointer to data MemberAt
*/
virtual Member DataMemberAt(size_t nth,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* DataMemberByName will return the MemberAt with Name
* @param Name of data MemberAt
* @return data MemberAt
*/
virtual Member DataMemberByName(const std::string& nam,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* DataMemberSize will return the number of data members of this At
* @return number of data members
*/
virtual size_t DataMemberSize(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Member_Iterator DataMember_Begin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Member_Iterator DataMember_End(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Reverse_Member_Iterator DataMember_RBegin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Reverse_Member_Iterator DataMember_REnd(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* DeclaringScope will return a pointer to the At of this one
* @return pointer to declaring At
*/
virtual Scope DeclaringScope() const;
/**
* nthFunctionMember will return the nth function MemberAt of the At
* @param nth function MemberAt
* @return pointer to function MemberAt
*/
virtual Member FunctionMemberAt(size_t nth,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* FunctionMemberByName will return the MemberAt with the Name,
* optionally the signature of the function may be given
* @param Name of function MemberAt
* @param signature of the MemberAt function
* @modifiers_mask When matching, do not compare the listed modifiers
* @return function MemberAt
*/
virtual Member FunctionMemberByName(const std::string& name,
const Type& signature,
unsigned int modifiers_mask = 0,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT,
EDELAYEDLOADSETTING allowDelayedLoad = DELAYEDLOAD_ON) const;
/**
* FunctionMemberByNameAndSignature will return the MemberAt with the Name,
* optionally the signature of the function may be given
* @param Name of function MemberAt
* @param signature of the MemberAt function
* @modifiers_mask When matching, do not compare the listed modifiers
* @return function MemberAt
*/
virtual Member FunctionMemberByNameAndSignature(const std::string& name,
const Type& signature,
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
*/
virtual size_t FunctionMemberSize(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Member_Iterator FunctionMember_Begin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Member_Iterator FunctionMember_End(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Reverse_Member_Iterator FunctionMember_RBegin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Reverse_Member_Iterator FunctionMember_REnd(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* GenerateDict will produce the dictionary information of this type
* @param generator a reference to the dictionary generator instance
*/
virtual void GenerateDict(DictionaryGenerator& generator) const;
/**
* GetBasePosition will return fBasePosition
* @return The position where the unscoped Name starts in the typename
*/
size_t GetBasePosition() const;
/**
* GlobalScope will return the global scope representation\
* @return global scope
*/
static Scope GlobalScope();
/**
* 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)
*/
virtual bool HasBase(const Type& cl) const;
/**
* IsClass returns true if the At represents a Class
* @return true if At represents a Class
*/
bool IsClass() const;
/**
* IsEnum returns true if the At represents a Enum
* @return true if At represents a Enum
*/
bool IsEnum() const;
/**
* IsNamespace returns true if the At represents a Namespace
* @return true if At represents a Namespace
*/
bool IsNamespace() const;
/**
* IsTemplateInstance returns true if the At represents a
* ClassTemplateInstance
* @return true if At represents a InstantiatedTemplateClass
*/
bool IsTemplateInstance() const;
/**
* IsTopScope will return true if the current At is the top
* (Empty) namespace
* @return true if current sope is top namespace
*/
bool IsTopScope() const;
/**
* IsUnion returns true if the At represents a Union
* @return true if At represents a
*/
bool IsUnion() const;
/**
* LookupMember will lookup a member in the current scope
* @param nam the string representation of the member to lookup
* @param current the current scope
* @return if a matching member is found return it, otherwise return empty member
*/
Member LookupMember(const std::string& nam,
const Scope& current) const;
/**
* LookupType will lookup a type in the current scope
* @param nam the string representation of the type to lookup
* @param current the current scope
* @return if a matching type is found return it, otherwise return empty type
*/
Type LookupType(const std::string& nam,
const Scope& current) const;
/**
* LookupType will lookup a scope in the current scope
* @param nam the string representation of the scope to lookup
* @param current the current scope
* @return if a matching scope is found return it, otherwise return empty scope
*/
Scope LookupScope(const std::string& nam,
const Scope& current) const;
/**
* MemberByName will return the first MemberAt with a given Name
* @param Name MemberAt Name
* @return pointer to MemberAt
*/
virtual Member MemberByName(const std::string& name,
const Type& signature,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* MemberAt will return the nth MemberAt of the At
* @param nth MemberAt
* @return pointer to nth MemberAt
*/
virtual Member MemberAt(size_t nth,
EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Member_Iterator Member_Begin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Member_Iterator Member_End(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Reverse_Member_Iterator Member_RBegin(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
virtual Reverse_Member_Iterator Member_REnd(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* MemberSize will return the number of members
* @return number of members
*/
virtual size_t MemberSize(EMEMBERQUERY inh = INHERITEDMEMBERS_DEFAULT) const;
/**
* MemberTemplateAt will return the nth MemberAt template of this At
* @param nth MemberAt template
* @return nth MemberAt template
*/
MemberTemplate MemberTemplateAt(size_t nth) const;
/**
* MemberTemplateSize will return the number of MemberAt templates in this socpe
* @return number of defined MemberAt templates
*/
size_t MemberTemplateSize() const;
/**
* MemberTemplateByName will return the member template representation in this
* scope
* @param string representing the member template to look for
* @return member template representation of the looked up member
*/
MemberTemplate MemberTemplateByName(const std::string& nam) const;
MemberTemplate_Iterator MemberTemplate_Begin() const;
MemberTemplate_Iterator MemberTemplate_End() const;
Reverse_MemberTemplate_Iterator MemberTemplate_RBegin() const;
Reverse_MemberTemplate_Iterator MemberTemplate_REnd() const;
/**
* Name will return the Name of the At
* @return Name of At
*/
virtual std::string Name(unsigned int mod = 0) const;
/**
* SimpleName returns the name of the type as a reference. It provides a
* simplified but faster generation of a type name. Attention currently it
* is not guaranteed that Name() and SimpleName() return the same character
* layout of a name (ie. spacing, commas, etc. )
* @param pos will indicate where in the returned reference the requested name starts
* @param mod The only 'mod' support is SCOPED
* @return name of type
*/
virtual const char* SimpleName(size_t& pos,
unsigned int mod = 0) const;
/**
* Properties will return a pointer to the PropertyNth list attached
* to this item
* @return pointer to PropertyNth list
*/
virtual PropertyList Properties() const;
/**
* At will return the At Object of this ScopeBase
* @return corresponding Scope
*/
Scope ThisScope() const;
/**
* ScopeType will return which kind of At is represented
* @return At of At
*/
TYPE ScopeType() const;
/**
* ScopeTypeAsString will return the string representation of the enum
* representing the current Scope (e.g. "CLASS")
* @return string representation of enum for Scope
*/
std::string ScopeTypeAsString() const;
/**
* SubScopeAt will return a pointer to a sub-scopes
* @param nth sub-At
* @return pointer to nth sub-At
*/
Scope SubScopeAt(size_t nth) const;
/**
* SubScopeLevel will return the number of declaring scopes
* this scope lives in.
* @return number of declaring scopes above this scope.
*/
size_t SubScopeLevel() const;
/**
* ScopeSize will return the number of sub-scopes
* @return number of sub-scopes
*/
size_t SubScopeSize() const;
/**
* SubScopeByName will return a sub scope representing the unscoped name passed
* as argument
* @param unscoped name of the sub scope to look for
* @return Scope representation of the sub scope
*/
Scope SubScopeByName(const std::string& nam) const;
Scope_Iterator SubScope_Begin() const;
Scope_Iterator SubScope_End() const;
Reverse_Scope_Iterator SubScope_RBegin() const;
Reverse_Scope_Iterator SubScope_REnd() const;
/**
* At will return a pointer to the nth sub-At
* @param nth sub-At
* @return pointer to nth sub-At
*/
Type SubTypeAt(size_t nth) const;
/**
* TypeSize will returnt he number of sub-types
* @return number of sub-types
*/
size_t SubTypeSize() const;
/**
* SubTypeByName will return the Type representing the sub type
* @param string of the unscoped sub type to look for
* @return Type representation of the sub type
*/
Type SubTypeByName(const std::string& nam) const;
Type_Iterator SubType_Begin() const;
Type_Iterator SubType_End() const;
Reverse_Type_Iterator SubType_RBegin() const;
Reverse_Type_Iterator SubType_REnd() const;
/**
* SubTypeTemplateAt will return the nth At template of this At
* @param nth sub type template
* @return nth sub type template
*/
TypeTemplate SubTypeTemplateAt(size_t nth) const;
/**
* SubTypeTemplateSize will return the number of At templates in this socpe
* @return number of defined sub type templates
*/
size_t SubTypeTemplateSize() const;
/**
* SubTypeTemplateByName will return a type template defined in this scope looked up by
* it's unscoped name
* @param unscoped name of the type template to look for
* @return TypeTemplate representation of the sub type template
*/
TypeTemplate SubTypeTemplateByName(const std::string& nam) const;
TypeTemplate_Iterator SubTypeTemplate_Begin() const;
TypeTemplate_Iterator SubTypeTemplate_End() const;
Reverse_TypeTemplate_Iterator SubTypeTemplate_RBegin() const;
Reverse_TypeTemplate_Iterator SubTypeTemplate_REnd() const;
/**
* UsingDirectiveAt will return the nth using directive
* @param nth using directive
* @return nth using directive
*/
Scope UsingDirectiveAt(size_t nth) const;
/**
* UsingDirectiveSize will return the number of using directives of this scope
* @return number of using directives declared in this scope
*/
size_t UsingDirectiveSize() const;
Scope_Iterator UsingDirective_Begin() const;
Scope_Iterator UsingDirective_End() const;
Reverse_Scope_Iterator UsingDirective_RBegin() const;
Reverse_Scope_Iterator UsingDirective_REnd() const;
protected:
/** protected constructor for initialisation of the global namespace */
ScopeBase();
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
*/
virtual 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
*/
virtual void AddBase(const Base& b) const;
/**
* AddDataMember will add the information about a data MemberAt
* @param dm pointer to data MemberAt
*/
virtual void AddDataMember(const Member& dm) const;
virtual Member AddDataMember(const char* name,
const Type& type,
size_t offset,
unsigned int modifiers = 0,
char* interpreterOffset = 0) const;
/**
* AddFunctionMember will add the information about a function MemberAt
* @param fm pointer to function MemberAt
*/
virtual void AddFunctionMember(const Member& fm) const;
virtual Member AddFunctionMember(const char* name,
const Type& type,
StubFunction stubFP,
void* stubCtx = 0,
const char* params = 0,
unsigned int modifiers = 0) const;
virtual void AddMemberTemplate(const MemberTemplate& mt) const;
/**
* AddSubScope will add a sub-At to this one
* @param sc pointer to Scope
*/
virtual void AddSubScope(const Scope& sc) const;
virtual void AddSubScope(const char* scope,
TYPE scopeType) const;
/**
* AddSubType will add a sub-At to this At
* @param sc pointer to Type
*/
virtual void AddSubType(const Type& ty) const;
virtual void AddSubType(const char* type,
size_t size,
TYPE typeType,
const std::type_info& ti,
unsigned int modifiers = 0) const;
void AddSubTypeTemplate(const TypeTemplate& tt) const;
void AddUsingDirective(const Scope& ud) const;
/**
* RemoveDataMember will remove the information about a data MemberAt
* @param dm pointer to data MemberAt
*/
virtual void RemoveDataMember(const Member& dm) const;
/**
* RemoveFunctionMember will remove the information about a function MemberAt
* @param fm pointer to function MemberAt
*/
virtual void RemoveFunctionMember(const Member& fm) const;
virtual void RemoveMemberTemplate(const MemberTemplate& mt) const;
/**
* RemoveSubScope will remove a sub-At to this one
* @param sc pointer to Scope
*/
virtual void RemoveSubScope(const Scope& sc) const;
/**
* RemoveSubType will remove a sub-At to this At
* @param sc pointer to Type
*/
virtual void RemoveSubType(const Type& ty) const;
virtual void RemoveSubTypeTemplate(const TypeTemplate& tt) const;
void RemoveUsingDirective(const Scope& ud) const;
/**
* Hide this scope from any lookup by appending the string " @HIDDEN@" to its name.
*/
virtual void HideName() const;
/**
* Un-Hide this scope from any lookup by removing the string " @HIDDEN@" to its name.
*/
virtual void UnhideName() const;
/** Initialize the vector of inherited members.
Returns false if one of the bases is not complete. */
virtual bool UpdateMembers() const;
void RegisterOnDemandBuilder(OnDemandBuilder* builder,
EBuilderKind kind);
protected:
/** The MemberByName work-horse: find a member called name in members,
if signature also compare its signature, and if matchReturnType
also compare the signature's return types. */
Member MemberByName2(const std::vector<Member>& members,
const std::string& name,
const Type* signature = 0,
unsigned int modifiers_mask = 0,
bool matchReturnType = true) const;
void ExecuteFunctionMemberDelayLoad() const {
if (!fOnDemandBuilder[kBuildFunctionMembers].Empty())
fOnDemandBuilder[kBuildFunctionMembers].BuildAll();
}
void ExecuteDataMemberDelayLoad() const {
if (!fOnDemandBuilder[kBuildDataMembers].Empty())
fOnDemandBuilder[kBuildDataMembers].BuildAll();
}
private:
/* no copying */
ScopeBase(const ScopeBase &);
/* no assignment */
ScopeBase& operator =(const ScopeBase&);
protected:
/** container for all members of the Scope */
typedef std::vector<Member> Members;
typedef std::vector<OwnedMember> OMembers;
/**
* pointers to members
* @label scope members
* @link aggregationByValue
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<OwnedMember> fMembers;
/**
* container with pointers to all data members in this scope
* @label scope datamembers
* @link aggregation
* @clientCardinality 1
* @supplierCardinality 0..*
*/
mutable
std::vector<Member> fDataMembers;
/**
* container with pointers to all function members in this scope
* @label scope functionmembers
* @link aggregation
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<Member> fFunctionMembers;
private:
/**
* pointer to the Scope Name
* @label scope name
* @link aggregation
* @clientCardinality 1
* @supplierCardinality 1
*/
ScopeName* fScopeName;
/**
* Type of the scope
* @link aggregation
* @label scope type
* @clientCardinality 1
* @supplierCardinality 1
*/
TYPE fScopeType;
/**
* pointer to declaring Scope
* @label declaring scope
* @link aggregation
* @clientCardinality 1
* @supplierCardinality 1
*/
Scope fDeclaringScope;
/**
* pointers to sub-scopes
* @label sub scopes
* @link aggregation
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<Scope> fSubScopes;
/**
* pointer to types
* @label sub types
* @link aggregation
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<Type> fSubTypes;
/**
* container for type templates defined in this scope
* @label type templates
* @link aggregation
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<TypeTemplate> fTypeTemplates;
/**
* container for member templates defined in this scope
* @label member templates
* @link aggregation
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<OwnedMemberTemplate> fMemberTemplates;
/**
* container for using directives of this scope
* @label using directives
* @linkScope aggregation
* @supplierCardinality 0..*
* @clientCardinality 1
*/
mutable
std::vector<Scope> fUsingDirectives;
/**
* The position where the unscoped Name starts in the scopename
*/
size_t fBasePosition;
/**
* Containers for on-demand builders of function and data members.
*/
mutable
BuilderContainer fOnDemandBuilder[kNumBuilderKinds];
}; // class ScopeBase
} //namespace Reflex
//-------------------------------------------------------------------------------
inline size_t
Reflex::ScopeBase::BaseSize() const {
//-------------------------------------------------------------------------------
return 0;
}
//-------------------------------------------------------------------------------
inline Reflex::Base_Iterator
Reflex::ScopeBase::Base_Begin() const {
//-------------------------------------------------------------------------------
return Dummy::BaseCont().begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Base_Iterator
Reflex::ScopeBase::Base_End() const {
//-------------------------------------------------------------------------------
return Dummy::BaseCont().end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Base_Iterator
Reflex::ScopeBase::Base_RBegin() const {
//-------------------------------------------------------------------------------
return Dummy::BaseCont().rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Base_Iterator
Reflex::ScopeBase::Base_REnd() const {
//-------------------------------------------------------------------------------
return Dummy::BaseCont().rend();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope
Reflex::ScopeBase::DeclaringScope() const {
//-------------------------------------------------------------------------------
return fDeclaringScope;
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::ScopeBase::DataMember_Begin(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteDataMemberDelayLoad();
return fDataMembers.begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::ScopeBase::DataMember_End(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteDataMemberDelayLoad();
return fDataMembers.end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::ScopeBase::DataMember_RBegin(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteDataMemberDelayLoad();
return ((const std::vector<Member> &)fDataMembers).rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::ScopeBase::DataMember_REnd(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteDataMemberDelayLoad();
return ((const std::vector<Member> &)fDataMembers).rend();
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::ScopeBase::FunctionMember_Begin(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteFunctionMemberDelayLoad();
return fFunctionMembers.begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Member_Iterator
Reflex::ScopeBase::FunctionMember_End(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteFunctionMemberDelayLoad();
return fFunctionMembers.end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::ScopeBase::FunctionMember_RBegin(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteFunctionMemberDelayLoad();
return ((const std::vector<Member> &)fFunctionMembers).rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Member_Iterator
Reflex::ScopeBase::FunctionMember_REnd(EMEMBERQUERY) const {
//-------------------------------------------------------------------------------
ExecuteFunctionMemberDelayLoad();
return ((const std::vector<Member> &)fFunctionMembers).rend();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::ScopeBase::GetBasePosition() const {
//-------------------------------------------------------------------------------
return fBasePosition;
}
//-------------------------------------------------------------------------------
inline Reflex::Scope_Iterator
Reflex::ScopeBase::SubScope_Begin() const {
//-------------------------------------------------------------------------------
return fSubScopes.begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope_Iterator
Reflex::ScopeBase::SubScope_End() const {
//-------------------------------------------------------------------------------
return fSubScopes.end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Scope_Iterator
Reflex::ScopeBase::SubScope_RBegin() const {
//-------------------------------------------------------------------------------
return ((const std::vector<Scope> &)fSubScopes).rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Scope_Iterator
Reflex::ScopeBase::SubScope_REnd() const {
//-------------------------------------------------------------------------------
return ((const std::vector<Scope> &)fSubScopes).rend();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::ScopeBase::SubType_Begin() const {
//-------------------------------------------------------------------------------
return fSubTypes.begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Type_Iterator
Reflex::ScopeBase::SubType_End() const {
//-------------------------------------------------------------------------------
return fSubTypes.end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::ScopeBase::SubType_RBegin() const {
//-------------------------------------------------------------------------------
return ((const std::vector<Type> &)fSubTypes).rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Type_Iterator
Reflex::ScopeBase::SubType_REnd() const {
//-------------------------------------------------------------------------------
return ((const std::vector<Type> &)fSubTypes).rend();
}
//-------------------------------------------------------------------------------
inline Reflex::TypeTemplate_Iterator
Reflex::ScopeBase::SubTypeTemplate_Begin() const {
//-------------------------------------------------------------------------------
return fTypeTemplates.begin();
}
//-------------------------------------------------------------------------------
inline Reflex::TypeTemplate_Iterator
Reflex::ScopeBase::SubTypeTemplate_End() const {
//-------------------------------------------------------------------------------
return fTypeTemplates.end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_TypeTemplate_Iterator
Reflex::ScopeBase::SubTypeTemplate_RBegin() const {
//-------------------------------------------------------------------------------
return ((const std::vector<TypeTemplate> &)fTypeTemplates).rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_TypeTemplate_Iterator
Reflex::ScopeBase::SubTypeTemplate_REnd() const {
//-------------------------------------------------------------------------------
return ((const std::vector<TypeTemplate> &)fTypeTemplates).rend();
}
//-------------------------------------------------------------------------------
inline
bool
Reflex::ScopeBase::HasBase(const Type&) const {
//-------------------------------------------------------------------------------
return false;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::ScopeBase::UpdateMembers() const {
//-------------------------------------------------------------------------------
// Initialize the vector of inherited members.
// Return false if one of the bases is not complete.
return true;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::ScopeBase::IsClass() const {
//-------------------------------------------------------------------------------
return fScopeType == CLASS ||
fScopeType == TYPETEMPLATEINSTANCE ||
fScopeType == STRUCT;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::ScopeBase::IsEnum() const {
//-------------------------------------------------------------------------------
return fScopeType == ENUM;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::ScopeBase::IsNamespace() const {
//-------------------------------------------------------------------------------
return fScopeType == NAMESPACE;
}
inline bool
ROOT::Reflex::ScopeBase::IsTemplateInstance() const {
//-------------------------------------------------------------------------------
return fScopeType == TYPETEMPLATEINSTANCE;
}
//-------------------------------------------------------------------------------
inline bool
Reflex::ScopeBase::IsUnion() const {
//-------------------------------------------------------------------------------
return fScopeType == UNION;
}
//-------------------------------------------------------------------------------
inline Reflex::TYPE
Reflex::ScopeBase::ScopeType() const {
//-------------------------------------------------------------------------------
return fScopeType;
}
//-------------------------------------------------------------------------------
inline Reflex::Scope
Reflex::ScopeBase::SubScopeAt(size_t nth) const {
//-------------------------------------------------------------------------------
if (nth < fSubScopes.size()) {
return fSubScopes[nth];
}
return Dummy::Scope();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::ScopeBase::SubScopeSize() const {
//-------------------------------------------------------------------------------
return fSubScopes.size();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope
Reflex::ScopeBase::UsingDirectiveAt(size_t nth) const {
//-------------------------------------------------------------------------------
if (nth < fUsingDirectives.size()) {
return fUsingDirectives[nth];
}
return Dummy::Scope();
}
//-------------------------------------------------------------------------------
inline size_t
Reflex::ScopeBase::UsingDirectiveSize() const {
//-------------------------------------------------------------------------------
return fUsingDirectives.size();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope_Iterator
Reflex::ScopeBase::UsingDirective_Begin() const {
//-------------------------------------------------------------------------------
return fUsingDirectives.begin();
}
//-------------------------------------------------------------------------------
inline Reflex::Scope_Iterator
Reflex::ScopeBase::UsingDirective_End() const {
//-------------------------------------------------------------------------------
return fUsingDirectives.end();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Scope_Iterator
Reflex::ScopeBase::UsingDirective_RBegin() const {
//-------------------------------------------------------------------------------
return ((const std::vector<Scope> &)fUsingDirectives).rbegin();
}
//-------------------------------------------------------------------------------
inline Reflex::Reverse_Scope_Iterator
Reflex::ScopeBase::UsingDirective_REnd() const {
//-------------------------------------------------------------------------------
return ((const std::vector<Scope> &)fUsingDirectives).rend();
}
#ifdef _WIN32
# pragma warning( pop )
#endif
#endif // Reflex_ScopeBase
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