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/*
* Copyright (c) 2009 University of Washington
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation;
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*/
#ifndef OBJECT_NAMES_H
#define OBJECT_NAMES_H
#include "ptr.h"
#include "object.h"
/**
* \file
* \ingroup config
* Declaration of class ns3::Names.
*/
namespace ns3 {
/**
* \ingroup config
* \brief A directory of name and Ptr<Object> associations that allows
* us to give any ns3 Object a name.
*/
class Names
{
public:
/**
* \brief Add the association between the string "name" and the
* Ptr<Object> obj.
*
* The name may begin either with "/Names" to explicitly call out
* the fact that the name provided is installed under the root of
* the name space, or it may begin with the name of the first object
* in the path. For example, Names::Add ("/Names/client", obj) and
* Names::Add ("client", obj) accomplish exactly the same thing. A
* name at a given level in the name space path must be unique. In
* the case of the example above, it would be illegal to try and
* associate a different object with the same name: "client" at the
* same level ("/Names") in the path.
*
* As well as specifying a name at the root of the "/Names"
* namespace, the name parameter can contain a path that fully
* qualifies the name to be added. For example, if you previously
* have named an object "client" in the root namespace as above, you
* could name an object "under" that name by making a call like
* Names::Add ("/Names/client/eth0", obj). This will define the
* name "eth0" and make it reachable using the path specified. Note
* that Names::Add ("client/eth0", obj) would accomplish exactly the
* same thing.
*
* Duplicate names are not allowed at the same level in a path,
* however you may associate similar names with different paths.
* For example, if you define "/Names/Client", you may not define
* another "/Names/Client" just as you may not have two files with
* the same name in a classical filesystem. However, you may have
* "/Names/Client/eth0" and "/Names/Server/eth0" defined at the same
* time just as you might have different files of the same name
* under different directories.
*
* \param [in] name The name of the object you want to associate; which may be
* prepended with a path to that object.
* \param [in] object A smart pointer to the object itself.
*/
static void Add (std::string name, Ptr<Object> object);
/**
* \brief An intermediate form of Names::Add allowing you to provide
* a path to the parent object (under which you want this name to be
* defined) in the form of a name path string.
*
* In some cases, it is desirable to break up the path used to
* describe an item in the names namespace into a path and a name.
* This is analogous to a file system operation in which you provide
* a directory name and a file name.
*
* For example, consider a situation where you have previously named
* an object "/Names/server". If you further want to create an
* association for between a Ptr<Object> object that you want to
* live "under" the server in the name space -- perhaps "eth0" --
* you could do this in two ways, depending on which was more
* convenient: Names::Add ("/Names/server/eth0", object) or, using
* the split path and name approach, Names::Add ("/Names/server",
* "eth0", object).
*
* Duplicate names are not allowed at the same level in a path,
* however you may associate similar names with different paths.
* For example, if you define "/Names/Client", you may not define
* another "/Names/Client" just as you may not have two files with
* the same name in a classical filesystem. However, you may have
* "/Names/Client/eth0" and "/Names/Server/eth0" defined at the same
* time just as you might have different files of the same name
* under different directories.
*
* \param [in] path A path name describing a previously named object
* under which you want this new name to be defined.
* \param [in] name The name of the object you want to associate.
* \param [in] object A smart pointer to the object itself.
*
* \see Names::Add (Ptr<Object>,std::string,Ptr<Object>);
*/
static void Add (std::string path, std::string name, Ptr<Object> object);
/**
* \brief A low-level form of Names::Add allowing you to specify the
* path to the parent object (under which you want this name to be
* defined) in the form of a previously named object.
*
* In some use cases, it is desirable to break up the path in the
* names name space into a path and a name. This is analogous to a
* file system operation in which you provide a directory name and a
* file name. Recall that the path string actually refers to a
* previously named object, "under" which you want to accomplish
* some naming action.
*
* However, the path is sometimes not available, and you only have
* the object that is represented by the path in the names name
* space. To support this use-case in a reasonably high-performance
* way, the path string is can be replaced by the object pointer to
* which that path would refer. In the spirit of the Config code
* where this use-case is most prominent, we refer to this object as
* the "context" for the names operation.
*
* You can think of the context roughly as the inode number of a
* directory file in Unix. The inode number can be used to look up
* the directory file which contains the list of file names defined
* at that directory level. Similarly the context is used to look
* up an internal name service entry which contains the names
* defined for that context.
*
* For example, consider a situation where you have previously named
* an object "/Names/server". If you further want to create an
* association for between a Ptr<Object> object that you want to
* live "under" the server in the name space -- perhaps "eth0" --
* you could do this by providing a complete path to the new name:
* Names::Add ("/Names/server/eth0", object). If, however,
* somewhere in your code you only had a pointer to the server, say
* Ptr<Node> node, and not a handy path string, you could also
* accomplish this by Names::Add (node, "eth0", object).
*
* Duplicate names are not allowed at the same level in a path. In
* the case of this method, the context object gives the same
* information as a path string. You may associate similar names
* with different paths. For example, if you define"/Names/Client",
* you may not define another "/Names/Client" just as you may not
* have two files with the same name in a classical filesystem.
* However, you may have "/Names/Client/eth0" and
* "/Names/Server/eth0" defined at the same time just as you might
* have different files of the same name under different
* directories.
*
* \param [in] context A smart pointer to an object that is used
* in place of the path under which you want this new
* name to be defined.
* \param [in] name The name of the object you want to associate.
* \param [in] object A smart pointer to the object itself.
*/
static void Add (Ptr<Object> context, std::string name, Ptr<Object> object);
/**
* \brief Rename a previously associated name.
*
* The name may begin either with "/Names" to explicitly call out
* the fact that the name provided is installed under the root of
* the name space, or it may begin with the name of the first object
* in the path. For example, Names::Rename ("/Names/client",
* "server") and Names::Rename ("client", "server") accomplish
* exactly the same thing. Names at a given level in the name space
* path must be unique. In the case of the example above, it would
* be illegal to try and rename a different object to the same name:
* "server" at the same level ("/Names") in the path.
*
* As well as specifying a name at the root of the "/Names"
* namespace, the name parameter can contain a path that fully
* qualifies the name to be changed. For example, if you previously
* have (re)named an object "server" in the root namespace as above,
* you could then rename an object "under" that name by making a
* call like Names::Rename ("/Names/server/csma", "eth0"). This
* will rename the object previously associated with
* "/Names/server/csma" to "eth0" and make leave it reachable using
* the path "/Names/server/eth0". Note that Names::Rename
* ("server/csma", "eth0") would accomplish exactly the same thing.
*
* \param [in] oldpath The current path name to the object you want
* to change.
* \param [in] newname The new name of the object you want to change.
*
* \see Names::Add (std::string name, Ptr<Object> obj)
*/
static void Rename (std::string oldpath, std::string newname);
/**
* \brief An intermediate form of Names::Rename allowing you to
* provide a path to the parent object (under which you want this
* name to be changed) in the form of a name path string.
*
* In some cases, it is desirable to break up the path used to
* describe an item in the names namespace into a path and a name.
* This is analogous to a file system operation in which you provide
* a directory name and a file name.
*
* For example, consider a situation where you have previously named
* an object "/Names/server/csma". If you want to change the name
* "csma" to "eth0", you could do this in two ways, depending on
* which was more convenient: Names::Rename ("/Names/server/csma",
* "eth0") or, using the split path and name approach, Names::Rename
* ("/Names/server", "csma", "eth0").
*
* \param [in] path A path name describing a previously named object
* under which you want this name change to occur
* (cf. directory).
* \param [in] oldname The currently defined name of the object.
* \param [in] newname The new name you want the object to have.
*/
static void Rename (std::string path, std::string oldname, std::string newname);
/**
* \brief A low-level form of Names::Rename allowing you to specify
* the path to the parent object (under which you want this name to
* be changed) in the form of a previously named object.
*
* In some use cases, it is desirable to break up the path in the
* names name space into a path and a name. This is analogous to a
* file system operation in which you provide a directory name and a
* file name. Recall that the path string actually refers to a
* previously named object, "under" which you want to accomplish
* some naming action.
*
* However, the path is sometimes not available, and you only have
* the object that is represented by the path in the names name
* space. To support this use-case in a reasonably high-performance
* way, the path string is can be replaced by the object pointer to
* which that path would refer. In the spirit of the Config code
* where this use-case is most prominent, we refer to this object as
* the "context" for the names operation.
*
* You can think of the context roughly as the inode number of a
* directory file in Unix. The inode number can be used to look up
* the directory file which contains the list of file names defined
* at that directory level. Similarly the context is used to look
* up an internal name service entry which contains the names
* defined for that context.
*
* For example, consider a situation where you have previously named
* an object "/Names/server/csma". If you later decide to rename
* the csma object to say "eth0" -- you could do this by providing a
* complete path as in Names::Rename ("/Names/server/csma", "eth0").
* If, however, somewhere in your code you only had a pointer to the
* server, and not a handy path string, say Ptr<Node> node, you
* could also accomplish this by Names::Rename (node, "csma",
* "eth0").
*
* \param [in] context A smart pointer to an object that is used
* in place of the path under which you want this
* new name to be defined.
* \param [in] oldname The current shortname of the object you want
* to change.
* \param [in] newname The new shortname of the object you want
* to change.
*/
static void Rename (Ptr<Object> context, std::string oldname, std::string newname);
/**
* \brief Given a pointer to an object, look to see if that object
* has a name associated with it and, if so, return the name of the
* object otherwise return an empty string.
*
* An object can be referred to in two ways. Either you can talk
* about it using its fully qualified path name, for example,
* "/Names/client/eth0" or you can refer to it by its name, in this
* case "eth0".
*
* This method returns the name of the object, e.g., "eth0".
*
* \param [in] object A smart pointer to an object for which you want
* to find its name.
*
* \returns A string containing the name of the object if found,
* otherwise the empty string.
*/
static std::string FindName (Ptr<Object> object);
/**
* \brief Given a pointer to an object, look to see if that object
* has a name associated with it and return the fully qualified name
* path of the object otherwise return an empty string.
*
* An object can be referred to in two ways. Either you can talk
* about it using its fully qualified path name, for example,
* "/Names/client/eth0" or you can refer to it by its name, in this
* case "eth0".
*
* This method returns the name path of the object, e.g.,
* "Names/client/eth0".
*
* \param [in] object A smart pointer to an object for which you
* want to find its fullname.
*
* \returns A string containing the name path of the object,
* otherwise the empty string.
*/
static std::string FindPath (Ptr<Object> object);
/**
* \brief Clear the list of objects associated with names.
*/
static void Clear (void);
/**
* \brief Given a name path string, look to see if there's an object
* in the system with that associated to it. If there is, do a
* GetObject on the resulting object to convert it to the requested
* typename and return it.
*
* An object can be referred to in two ways. Either you can talk
* about it using its fully qualified path name, for example,
* "/Names/client/eth0" or you can refer to it by its name, in this
* case "eth0".
*
* This method requires that the name path of the object be
* provided, e.g., "Names/client/eth0".
*
* \param [in] path A string containing a name space path used
* to locate the object.
*
* \returns A smart pointer to the named object converted to
* the requested type.
*/
template <typename T>
static Ptr<T> Find (std::string path);
/**
* \brief Given a path to an object and an object name, look through
* the names defined under the path to see if there's an object
* there with the given name.
*
* In some cases, it is desirable to break up the path used to
* describe an item in the names namespace into a path and a name.
* This is analogous to a file system operation in which you provide
* a directory name and a file name.
*
* For example, consider a situation where you have previously named
* an object "/Names/server/eth0". If you want to discover the
* object which you associated with this path, you could do this in
* two ways, depending on which was more convenient: Names::Find
* ("/Names/server/eth0") or, using the split path and name
* approach, Names::Find ("/Names/server", "eth0").
*
* \param [in] path A path name describing a previously named object
* under which you want to look for the specified name.
* \param [in] name A string containing a name to search for.
*
* \returns A smart pointer to the named object converted to
* the requested type.
*/
template <typename T>
static Ptr<T> Find (std::string path, std::string name);
/**
* \brief Given a path to an object and an object name, look through
* the names defined under the path to see if there's an object
* there with the given name.
*
* In some cases, it is desirable to break up the path used to
* describe an item in the names namespace into a path and a name.
* This is analogous to a file system operation in which you provide
* a directory name and a file name.
*
* For example, consider a situation where you have previously named
* an object "/Names/server/eth0". If you want to discover the
* object which you associated with this path, you could do this in
* two ways, depending on which was more convenient: Names::Find
* ("/Names/server/eth0") or, using the split path and name
* approach, Names::Find ("/Names/server", "eth0").
*
* However, the path is sometimes not available, and you only have
* the object that is represented by the path in the names name
* space. To support this use-case in a reasonably high-performance
* way, the path string is can be replaced by the object pointer to
* which that path would refer. In the spirit of the Config code
* where this use-case is most prominent, we refer to this object as
* the "context" for the names operation.
*
* You can think of the context roughly as the inode number of a
* directory file in Unix. The inode number can be used to look up
* the directory file which contains the list of file names defined
* at that directory level. Similarly the context is used to look
* up an internal name service entry which contains the names
* defined for that context.
*
* \param [in] context A smart pointer to an object that is used
* in place of the path under which you want this
* new name to be defined.
* \param [in] name A string containing a name to search for.
*
* \returns A smart pointer to the named object converted to
* the requested type.
*/
template <typename T>
static Ptr<T> Find (Ptr<Object> context, std::string name);
private:
/**
* \brief Non-templated internal version of Names::Find
*
* \param [in] path A string containing the path of the object
* to look for.
*
* \returns A smart pointer to the named object.
*/
static Ptr<Object> FindInternal (std::string path);
/**
* \brief Non-templated internal version of Names::Find
*
* \param [in] path A string containing the path to search
* for the object in.
* \param [in] name A string containing the name of the object
* to look for.
*
* \returns A smart pointer to the named object.
*/
static Ptr<Object> FindInternal (std::string path, std::string name);
/**
* \brief Non-templated internal version of Names::Find
*
* \param [in] context A smart pointer to an object under which
* you want to look for the provided name.
* \param [in] name A string containing the name to look for.
*
* \returns A smart pointer to the named object.
*/
static Ptr<Object> FindInternal (Ptr<Object> context, std::string name);
};
template <typename T>
/* static */
Ptr<T>
Names::Find (std::string path)
{
Ptr<Object> obj = FindInternal (path);
if (obj)
{
return obj->GetObject<T> ();
}
else
{
return 0;
}
}
template <typename T>
/* static */
Ptr<T>
Names::Find (std::string path, std::string name)
{
Ptr<Object> obj = FindInternal (path, name);
if (obj)
{
return obj->GetObject<T> ();
}
else
{
return 0;
}
}
template <typename T>
/* static */
Ptr<T>
Names::Find (Ptr<Object> context, std::string name)
{
Ptr<Object> obj = FindInternal (context, name);
if (obj)
{
return obj->GetObject<T> ();
}
else
{
return 0;
}
}
} // namespace ns3
#endif /* OBJECT_NAMES_H */
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