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// **********************************************************************
//
// Copyright (c) 2003-2014 ZeroC, Inc. All rights reserved.
//
// This copy of Ice is licensed to you under the terms described in the
// ICE_LICENSE file included in this distribution.
//
// **********************************************************************
#include <Ice/FactoryTable.h>
#include <Ice/UserExceptionFactory.h>
//
// Add a factory to the exception factory table.
// If the factory is present already, increment its reference count.
//
void
IceInternal::FactoryTable::addExceptionFactory(const std::string& t, const IceInternal::UserExceptionFactoryPtr& f)
{
IceUtil::Mutex::Lock lock(_m);
assert(f);
EFTable::iterator i = _eft.find(t);
if(i == _eft.end())
{
_eft[t] = EFPair(f, 1);
}
else
{
i->second.second++;
}
}
//
// Return the exception factory for a given type ID
//
IceInternal::UserExceptionFactoryPtr
IceInternal::FactoryTable::getExceptionFactory(const std::string& t) const
{
IceUtil::Mutex::Lock lock(_m);
EFTable::const_iterator i = _eft.find(t);
return i != _eft.end() ? i->second.first : IceInternal::UserExceptionFactoryPtr();
}
//
// Remove a factory from the exception factory table. If the factory
// is not present, do nothing; otherwise, decrement the factory's
// reference count; if the count drops to zero, remove the factory's
// entry from the table.
//
void
IceInternal::FactoryTable::removeExceptionFactory(const std::string& t)
{
IceUtil::Mutex::Lock lock(_m);
EFTable::iterator i = _eft.find(t);
if(i != _eft.end())
{
if(--i->second.second == 0)
{
_eft.erase(i);
}
}
}
//
// Add a factory to the object factory table.
//
void
IceInternal::FactoryTable::addObjectFactory(const std::string& t, const Ice::ObjectFactoryPtr& f)
{
IceUtil::Mutex::Lock lock(_m);
assert(f);
OFTable::iterator i = _oft.find(t);
if(i == _oft.end())
{
_oft[t] = OFPair(f, 1);
}
else
{
i->second.second++;
}
}
//
// Return the object factory for a given type ID
//
Ice::ObjectFactoryPtr
IceInternal::FactoryTable::getObjectFactory(const std::string& t) const
{
IceUtil::Mutex::Lock lock(_m);
OFTable::const_iterator i = _oft.find(t);
return i != _oft.end() ? i->second.first : Ice::ObjectFactoryPtr();
}
//
// Remove a factory from the object factory table. If the factory
// is not present, do nothing; otherwise, decrement the factory's
// reference count if the count drops to zero, remove the factory's
// entry from the table.
//
void
IceInternal::FactoryTable::removeObjectFactory(const std::string& t)
{
IceUtil::Mutex::Lock lock(_m);
OFTable::iterator i = _oft.find(t);
if(i != _oft.end())
{
if(--i->second.second == 0)
{
_oft.erase(i);
}
}
}
//
// Add a factory to the object factory table.
//
void
IceInternal::FactoryTable::addTypeId(int compactId, const std::string& typeId)
{
IceUtil::Mutex::Lock lock(_m);
assert(!typeId.empty() && compactId >= 0);
TypeIdTable::iterator i = _typeIdTable.find(compactId);
if(i == _typeIdTable.end())
{
_typeIdTable[compactId] = TypeIdPair(typeId, 1);
}
else
{
i->second.second++;
}
}
//
// Return the type ID for the given compact ID
//
std::string
IceInternal::FactoryTable::getTypeId(int compactId) const
{
IceUtil::Mutex::Lock lock(_m);
TypeIdTable::const_iterator i = _typeIdTable.find(compactId);
return i != _typeIdTable.end() ? i->second.first : std::string();
}
void
IceInternal::FactoryTable::removeTypeId(int compactId)
{
IceUtil::Mutex::Lock lock(_m);
TypeIdTable::iterator i = _typeIdTable.find(compactId);
if(i != _typeIdTable.end())
{
if(--i->second.second == 0)
{
_typeIdTable.erase(i);
}
}
}
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