Clean up function logging of core module.
/* -*- Mode:C++; c-file-style:"gnu"; indent-tabs-mode:nil; -*- */
/*
* 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
*/
#include <map>
#include "object.h"
#include "log.h"
#include "assert.h"
#include "abort.h"
#include "names.h"
namespace ns3 {
NS_LOG_COMPONENT_DEFINE ("Names");
class NameNode
{
public:
NameNode ();
NameNode (const NameNode &nameNode);
NameNode (NameNode *parent, std::string name, Ptr<Object> object);
NameNode &operator = (const NameNode &rhs);
~NameNode ();
NameNode *m_parent;
std::string m_name;
Ptr<Object> m_object;
std::map<std::string, NameNode *> m_nameMap;
};
NameNode::NameNode ()
: m_parent (0), m_name (""), m_object (0)
{
}
NameNode::NameNode (const NameNode &nameNode)
{
NS_LOG_FUNCTION (this << &nameNode);
m_parent = nameNode.m_parent;
m_name = nameNode.m_name;
m_object = nameNode.m_object;
m_nameMap = nameNode.m_nameMap;
}
NameNode &
NameNode::operator = (const NameNode &rhs)
{
NS_LOG_FUNCTION (this << &rhs);
m_parent = rhs.m_parent;
m_name = rhs.m_name;
m_object = rhs.m_object;
m_nameMap = rhs.m_nameMap;
return *this;
}
NameNode::NameNode (NameNode *parent, std::string name, Ptr<Object> object)
: m_parent (parent), m_name (name), m_object (object)
{
NS_LOG_FUNCTION (this << parent << name << object);
}
NameNode::~NameNode ()
{
NS_LOG_FUNCTION (this);
}
class NamesPriv
{
public:
NamesPriv ();
~NamesPriv ();
bool Add (std::string name, Ptr<Object> object);
bool Add (std::string path, std::string name, Ptr<Object> object);
bool Add (Ptr<Object> context, std::string name, Ptr<Object> object);
bool Rename (std::string oldpath, std::string newname);
bool Rename (std::string path, std::string oldname, std::string newname);
bool Rename (Ptr<Object> context, std::string oldname, std::string newname);
std::string FindName (Ptr<Object> object);
std::string FindPath (Ptr<Object> object);
void Clear (void);
Ptr<Object> Find (std::string name);
Ptr<Object> Find (std::string path, std::string name);
Ptr<Object> Find (Ptr<Object> context, std::string name);
private:
friend class Names;
static NamesPriv *Get (void);
NameNode *IsNamed (Ptr<Object>);
bool IsDuplicateName (NameNode *node, std::string name);
NameNode m_root;
std::map<Ptr<Object>, NameNode *> m_objectMap;
};
NamesPriv *
NamesPriv::Get (void)
{
NS_LOG_FUNCTION_NOARGS ();
static NamesPriv namesPriv;
return &namesPriv;
}
NamesPriv::NamesPriv ()
{
NS_LOG_FUNCTION (this);
m_root.m_parent = 0;
m_root.m_name = "Names";
m_root.m_object = 0;
}
NamesPriv::~NamesPriv ()
{
NS_LOG_FUNCTION (this);
Clear ();
m_root.m_name = "";
}
void
NamesPriv::Clear (void)
{
NS_LOG_FUNCTION (this);
//
// Every name is associated with an object in the object map, so freeing the
// NameNodes in this map will free all of the memory allocated for the NameNodes
//
for (std::map<Ptr<Object>, NameNode *>::iterator i = m_objectMap.begin (); i != m_objectMap.end (); ++i)
{
delete i->second;
i->second = 0;
}
m_objectMap.clear ();
m_root.m_parent = 0;
m_root.m_name = "Names";
m_root.m_object = 0;
m_root.m_nameMap.clear ();
}
bool
NamesPriv::Add (std::string name, Ptr<Object> object)
{
NS_LOG_FUNCTION (this << name << object);
//
// This is the simple, easy to use version of Add, so we want it to be flexible.
// We don't want to force a user to always type the fully qualified namespace
// name, so we allow the namespace name to be omitted. For example, calling
// Add ("Client/ath0", obj) should result in exactly the same behavior as
// Add ("/Names/Client/ath0", obj). Calling Add ("Client", obj) should have
// the same effect as Add ("Names/Client", obj)
//
// The first thing to do, then, is to "canonicalize" the input string to always
// be a fully qualified name.
//
// If we are given a name that begins with "/Names/" we assume that this is a
// fully qualified path name to the object we want to create. We split the name
// into a path string and and a final segment (name) and then call the "Real" Add.
//
std::string namespaceName = "/Names";
std::string::size_type offset = name.find (namespaceName);
if (offset != 0)
{
//
// This must be a name that has the "/Names" namespace prefix omitted.
// Do some reasonableness checking on the rest of the name.
//
offset = name.find ("/");
if (offset == 0)
{
NS_ASSERT_MSG (false, "NamesPriv::Add(): Name begins with '/' but not \"/Names\"");
return false;
}
name = "/Names/" + name;
}
//
// There must now be a fully qualified path in the string. All fully
// qualified names begin with "/Names". We have to split off the final
// segment which will become the name of the object. A '/' that
// separates the path from the final segment had better be there since
// we just made sure that at least the namespace name was there.
//
std::string::size_type i = name.rfind ("/");
NS_ASSERT_MSG (i != std::string::npos, "NamesPriv::Add(): Internal error. Can't find '/' in name");
//
// The slash we found cannot be the slash at the start of the namespaceName.
// This would indicate there is no name in the path at all. It can be
// any other index.
//
NS_ASSERT_MSG (i != 0, "NamesPriv::Add(): Can't find a name in the path string");
//
// We now know where the path string starts and ends, and where the
// name starts and ends. All we have to do is to call our available
// function for adding a name under a path string.
//
return Add (name.substr (0, i), name.substr (i + 1), object);
}
bool
NamesPriv::Add (std::string path, std::string name, Ptr<Object> object)
{
NS_LOG_FUNCTION (this << path << name << object);
if (path == "/Names")
{
return Add (Ptr<Object> (0, false), name, object);
}
return Add (Find (path), name, object);
}
bool
NamesPriv::Add (Ptr<Object> context, std::string name, Ptr<Object> object)
{
NS_LOG_FUNCTION (this << context << name << object);
if (IsNamed (object))
{
NS_LOG_LOGIC ("Object is already named");
return false;
}
NameNode *node = 0;
if (context)
{
node = IsNamed (context);
NS_ASSERT_MSG (node, "NamesPriv::Name(): context must point to a previously named node");
}
else
{
node = &m_root;
}
if (IsDuplicateName (node, name))
{
NS_LOG_LOGIC ("Name is already taken");
return false;
}
NameNode *newNode = new NameNode (node, name, object);
node->m_nameMap[name] = newNode;
m_objectMap[object] = newNode;
return true;
}
bool
NamesPriv::Rename (std::string oldpath, std::string newname)
{
NS_LOG_FUNCTION (this << oldpath << newname);
//
// This is the simple, easy to use version of Rename, so we want it to be
// flexible. We don't want to force a user to always type the fully
// qualified namespace name, so we allow the namespace name to be omitted.
// For example, calling Rename ("Client/ath0", "eth0") should result in
// exactly the same behavior as Rename ("/Names/Client/ath0", "eth0").
// Calling Rename ("Client", "Router") should have the same effect as
// Rename ("Names/Client", "Router")
//
// The first thing to do, then, is to "canonicalize" the input string to always
// be a fully qualified path.
//
// If we are given a name that begins with "/Names/" we assume that this is a
// fully qualified path to the object we want to change. We split the path into
// path string (cf directory) and and a final segment (cf filename) and then call
// the "Real" Rename.
//
std::string namespaceName = "/Names";
std::string::size_type offset = oldpath.find (namespaceName);
if (offset != 0)
{
//
// This must be a name that has the "/Names" namespace prefix omitted.
// Do some reasonableness checking on the rest of the name.
//
offset = oldpath.find ("/");
if (offset == 0)
{
NS_ASSERT_MSG (false, "NamesPriv::Add(): Name begins with '/' but not \"/Names\"");
return false;
}
oldpath = "/Names/" + oldpath;
}
//
// There must now be a fully qualified path in the oldpath string. All
// fully qualified names begin with "/Names". We have to split off the final
// segment which will become the name we want to rename. A '/' that
// separates the path from the final segment (name) had better be there since
// we just made sure that at least the namespace name was there.
//
std::string::size_type i = oldpath.rfind ("/");
NS_ASSERT_MSG (i != std::string::npos, "NamesPriv::Add(): Internal error. Can't find '/' in name");
//
// The slash we found cannot be the slash at the start of the namespaceName.
// This would indicate there is no name in the path at all. It can be
// any other index.
//
NS_ASSERT_MSG (i != 0, "NamesPriv::Add(): Can't find a name in the path string");
//
// We now know where the path part of the string starts and ends, and where the
// name part starts and ends. All we have to do is to call our available
// function for creating adding a name under a path string.
//
return Rename (oldpath.substr (0, i), oldpath.substr (i + 1), newname);
}
bool
NamesPriv::Rename (std::string path, std::string oldname, std::string newname)
{
NS_LOG_FUNCTION (this << path << oldname << newname);
if (path == "/Names")
{
return Rename (Ptr<Object> (0, false), oldname, newname);
}
return Rename (Find (path), oldname, newname);
}
bool
NamesPriv::Rename (Ptr<Object> context, std::string oldname, std::string newname)
{
NS_LOG_FUNCTION (this << context << oldname << newname);
NameNode *node = 0;
if (context)
{
node = IsNamed (context);
NS_ASSERT_MSG (node, "NamesPriv::Name(): context must point to a previously named node");
}
else
{
node = &m_root;
}
if (IsDuplicateName (node, newname))
{
NS_LOG_LOGIC ("New name is already taken");
return false;
}
std::map<std::string, NameNode *>::iterator i = node->m_nameMap.find (oldname);
if (i == node->m_nameMap.end ())
{
NS_LOG_LOGIC ("Old name does not exist in name map");
return false;
}
else
{
NS_LOG_LOGIC ("Old name exists in name map");
//
// The rename process consists of:
// 1. Geting the pointer to the name node from the map and remembering it;
// 2. Removing the map entry corresponding to oldname from the map;
// 3. Changing the name string in the name node;
// 4. Adding the name node back in the map under the newname.
//
NameNode *changeNode = i->second;
node->m_nameMap.erase (i);
changeNode->m_name = newname;
node->m_nameMap[newname] = changeNode;
return true;
}
}
std::string
NamesPriv::FindName (Ptr<Object> object)
{
NS_LOG_FUNCTION (this << object);
std::map<Ptr<Object>, NameNode *>::iterator i = m_objectMap.find (object);
if (i == m_objectMap.end ())
{
NS_LOG_LOGIC ("Object does not exist in object map");
return "";
}
else
{
NS_LOG_LOGIC ("Object exists in object map");
return i->second->m_name;
}
}
std::string
NamesPriv::FindPath (Ptr<Object> object)
{
NS_LOG_FUNCTION (this << object);
std::map<Ptr<Object>, NameNode *>::iterator i = m_objectMap.find (object);
if (i == m_objectMap.end ())
{
NS_LOG_LOGIC ("Object does not exist in object map");
return "";
}
NameNode *p = i->second;
NS_ASSERT_MSG (p, "NamesPriv::FindFullName(): Internal error: Invalid NameNode pointer from map");
std::string path;
do
{
path = "/" + p->m_name + path;
NS_LOG_LOGIC ("path is " << path);
}
while ((p = p->m_parent) != 0);
return path;
}
Ptr<Object>
NamesPriv::Find (std::string path)
{
//
// This is hooked in from simple, easy to use version of Find, so we want it
// to be flexible.
//
// If we are provided a path that doesn't begin with "/Names", we assume
// that the caller has simply given us a path starting with a name that
// is in the root namespace. This allows peole to omit the "/Names" prefix.
// and simply do a Find ("Client/eth0") instead of having to always do a
// Find ("/Names/Client/eth0");
//
// So, if we are given a name that begins with "/Names/" the upshot is that we
// just remove that prefix and treat the rest of the string as starting with a
// name in the root namespace.
//
NS_LOG_FUNCTION (this << path);
std::string namespaceName = "/Names/";
std::string remaining;
std::string::size_type offset = path.find (namespaceName);
if (offset == 0)
{
NS_LOG_LOGIC (path << " is a fully qualified name");
remaining = path.substr (namespaceName.size ());
}
else
{
NS_LOG_LOGIC (path << " begins with a relative name");
remaining = path;
}
NameNode *node = &m_root;
//
// The string <remaining> is now composed entirely of path segments in
// the /Names name space and we have eaten the leading slash. e.g.,
// remaining = "ClientNode/eth0"
//
// The start of the search is always at the root of the name space.
//
for (;;)
{
NS_LOG_LOGIC ("Looking for the object of name " << remaining);
offset = remaining.find ("/");
if (offset == std::string::npos)
{
//
// There are no remaining slashes so this is the last segment of the
// specified name. We're done when we find it
//
std::map<std::string, NameNode *>::iterator i = node->m_nameMap.find (remaining);
if (i == node->m_nameMap.end ())
{
NS_LOG_LOGIC ("Name does not exist in name map");
return 0;
}
else
{
NS_LOG_LOGIC ("Name parsed, found object");
return i->second->m_object;
}
}
else
{
//
// There are more slashes so this is an intermediate segment of the
// specified name. We need to "recurse" when we find this segment.
//
offset = remaining.find ("/");
std::string segment = remaining.substr (0, offset);
std::map<std::string, NameNode *>::iterator i = node->m_nameMap.find (segment);
if (i == node->m_nameMap.end ())
{
NS_LOG_LOGIC ("Name does not exist in name map");
return 0;
}
else
{
node = i->second;
remaining = remaining.substr (offset + 1);
NS_LOG_LOGIC ("Intermediate segment parsed");
continue;
}
}
}
NS_ASSERT_MSG (node, "NamesPriv::Find(): Internal error: this can't happen");
return 0;
}
Ptr<Object>
NamesPriv::Find (std::string path, std::string name)
{
NS_LOG_FUNCTION (this << path << name);
if (path == "/Names")
{
return Find (Ptr<Object> (0, false), name);
}
return Find (Find (path), name);
}
Ptr<Object>
NamesPriv::Find (Ptr<Object> context, std::string name)
{
NS_LOG_FUNCTION (this << context << name);
NameNode *node = 0;
if (context == 0)
{
NS_LOG_LOGIC ("Zero context implies root NameNode");
node = &m_root;
}
else
{
node = IsNamed (context);
if (node == 0)
{
NS_LOG_LOGIC ("Context does not point to a previously named node");
return 0;
}
}
std::map<std::string, NameNode *>::iterator i = node->m_nameMap.find (name);
if (i == node->m_nameMap.end ())
{
NS_LOG_LOGIC ("Name does not exist in name map");
return 0;
}
else
{
NS_LOG_LOGIC ("Name exists in name map");
return i->second->m_object;
}
}
NameNode *
NamesPriv::IsNamed (Ptr<Object> object)
{
NS_LOG_FUNCTION (this << object);
std::map<Ptr<Object>, NameNode *>::iterator i = m_objectMap.find (object);
if (i == m_objectMap.end ())
{
NS_LOG_LOGIC ("Object does not exist in object map, returning NameNode 0");
return 0;
}
else
{
NS_LOG_LOGIC ("Object exists in object map, returning NameNode " << &i->second);
return i->second;
}
}
bool
NamesPriv::IsDuplicateName (NameNode *node, std::string name)
{
NS_LOG_FUNCTION (this << node << name);
std::map<std::string, NameNode *>::iterator i = node->m_nameMap.find (name);
if (i == node->m_nameMap.end ())
{
NS_LOG_LOGIC ("Name does not exist in name map");
return false;
}
else
{
NS_LOG_LOGIC ("Name exists in name map");
return true;
}
}
void
Names::Add (std::string name, Ptr<Object> object)
{
NS_LOG_FUNCTION (name << object);
bool result = NamesPriv::Get ()->Add (name, object);
NS_ABORT_MSG_UNLESS (result, "Names::Add(): Error adding name " << name);
}
void
Names::Rename (std::string oldpath, std::string newname)
{
NS_LOG_FUNCTION (oldpath << newname);
bool result = NamesPriv::Get ()->Rename (oldpath, newname);
NS_ABORT_MSG_UNLESS (result, "Names::Rename(): Error renaming " << oldpath << " to " << newname);
}
void
Names::Add (std::string path, std::string name, Ptr<Object> object)
{
NS_LOG_FUNCTION (path << name << object);
bool result = NamesPriv::Get ()->Add (path, name, object);
NS_ABORT_MSG_UNLESS (result, "Names::Add(): Error adding " << path << " " << name);
}
void
Names::Rename (std::string path, std::string oldname, std::string newname)
{
NS_LOG_FUNCTION (path << oldname << newname);
bool result = NamesPriv::Get ()->Rename (path, oldname, newname);
NS_ABORT_MSG_UNLESS (result, "Names::Rename (): Error renaming " << path << " " << oldname << " to " << newname);
}
void
Names::Add (Ptr<Object> context, std::string name, Ptr<Object> object)
{
NS_LOG_FUNCTION (context << name << object);
bool result = NamesPriv::Get ()->Add (context, name, object);
NS_ABORT_MSG_UNLESS (result, "Names::Add(): Error adding name " << name << " under context " << &context);
}
void
Names::Rename (Ptr<Object> context, std::string oldname, std::string newname)
{
NS_LOG_FUNCTION (context << oldname << newname);
bool result = NamesPriv::Get ()->Rename (context, oldname, newname);
NS_ABORT_MSG_UNLESS (result, "Names::Rename (): Error renaming " << oldname << " to " << newname << " under context " <<
&context);
}
std::string
Names::FindName (Ptr<Object> object)
{
NS_LOG_FUNCTION (object);
return NamesPriv::Get ()->FindName (object);
}
std::string
Names::FindPath (Ptr<Object> object)
{
NS_LOG_FUNCTION (object);
return NamesPriv::Get ()->FindPath (object);
}
void
Names::Clear (void)
{
NS_LOG_FUNCTION_NOARGS ();
return NamesPriv::Get ()->Clear ();
}
Ptr<Object>
Names::FindInternal (std::string name)
{
NS_LOG_FUNCTION (name);
return NamesPriv::Get ()->Find (name);
}
Ptr<Object>
Names::FindInternal (std::string path, std::string name)
{
NS_LOG_FUNCTION (path << name);
return NamesPriv::Get ()->Find (path, name);
}
Ptr<Object>
Names::FindInternal (Ptr<Object> context, std::string name)
{
NS_LOG_FUNCTION (context << name);
return NamesPriv::Get ()->Find (context, name);
}
} // namespace ns3