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// **********************************************************************
//
// Copyright (c) 2003-2009 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.
//
// **********************************************************************
final class EndpointI extends IceInternal.EndpointI
{
final static short TYPE_BASE = 100;
public
EndpointI(IceInternal.EndpointI endpoint)
{
_endpoint = endpoint;
_configuration = Configuration.getInstance();
}
//
// Marshal the endpoint
//
public void
streamWrite(IceInternal.BasicStream s)
{
s.writeShort(type());
_endpoint.streamWrite(s);
}
//
// Convert the endpoint to its string form
//
public String
_toString()
{
return "test-" + _endpoint.toString();
}
//
// Return the endpoint type
//
public short
type()
{
return (short)(TYPE_BASE + _endpoint.type());
}
//
// Return the timeout for the endpoint in milliseconds. 0 means
// non-blocking, -1 means no timeout.
//
public int
timeout()
{
return _endpoint.timeout();
}
//
// Return a new endpoint with a different timeout value, provided
// that timeouts are supported by the endpoint. Otherwise the same
// endpoint is returned.
//
public IceInternal.EndpointI
timeout(int timeout)
{
IceInternal.EndpointI endpoint = _endpoint.timeout(timeout);
if(endpoint == _endpoint)
{
return this;
}
else
{
return new EndpointI(endpoint);
}
}
//
// Return a new endpoint with a different connection id.
//
public IceInternal.EndpointI
connectionId(String connectionId)
{
IceInternal.EndpointI endpoint = _endpoint.connectionId(connectionId);
if(endpoint == _endpoint)
{
return this;
}
else
{
return new EndpointI(endpoint);
}
}
//
// Return true if the endpoints support bzip2 compress, or false
// otherwise.
//
public boolean
compress()
{
return _endpoint.compress();
}
//
// Return a new endpoint with a different compression value,
// provided that compression is supported by the
// endpoint. Otherwise the same endpoint is returned.
//
public IceInternal.EndpointI
compress(boolean compress)
{
IceInternal.EndpointI endpoint = _endpoint.compress(compress);
if(endpoint == _endpoint)
{
return this;
}
else
{
return new EndpointI(endpoint);
}
}
//
// Return true if the endpoint is datagram-based.
//
public boolean
datagram()
{
return _endpoint.datagram();
}
//
// Return true if the endpoint is secure.
//
public boolean
secure()
{
return _endpoint.secure();
}
//
// Return true if the endpoint type is unknown.
//
public boolean
unknown()
{
return _endpoint.unknown();
}
//
// Return a server side transceiver for this endpoint, or null if a
// transceiver can only be created by an acceptor. In case a
// transceiver is created, this operation also returns a new
// "effective" endpoint, which might differ from this endpoint,
// for example, if a dynamic port number is assigned.
//
public IceInternal.Transceiver
transceiver(IceInternal.EndpointIHolder endpoint)
{
IceInternal.Transceiver transceiver = _endpoint.transceiver(endpoint);
if(endpoint.value == _endpoint)
{
endpoint.value = this;
}
else
{
endpoint.value = new EndpointI(endpoint.value);
}
if(transceiver != null)
{
return new Transceiver(transceiver);
}
else
{
return null;
}
}
//
// Return connectors for this endpoint, or empty list if no connector
// is available.
//
public java.util.List<IceInternal.Connector>
connectors()
{
_configuration.checkConnectorsException();
java.util.List<IceInternal.Connector> connectors = new java.util.ArrayList<IceInternal.Connector>();
java.util.Iterator<IceInternal.Connector> p = _endpoint.connectors().iterator();
while(p.hasNext())
{
connectors.add(new Connector(p.next()));
}
return connectors;
}
public void
connectors_async(final IceInternal.EndpointI_connectors cb)
{
class Callback implements IceInternal.EndpointI_connectors
{
public void
connectors(java.util.List<IceInternal.Connector> cons)
{
java.util.List<IceInternal.Connector> connectors = new java.util.ArrayList<IceInternal.Connector>();
java.util.Iterator<IceInternal.Connector> p = cons.iterator();
while(p.hasNext())
{
connectors.add(new Connector(p.next()));
}
cb.connectors(connectors);
}
public void
exception(Ice.LocalException exception)
{
cb.exception(exception);
}
}
try
{
_configuration.checkConnectorsException();
_endpoint.connectors_async(new Callback());
}
catch(Ice.LocalException ex)
{
cb.exception(ex);
}
}
public IceInternal.Acceptor
acceptor(IceInternal.EndpointIHolder endpoint, String adapterName)
{
Acceptor p = new Acceptor(_endpoint.acceptor(endpoint, adapterName));
endpoint.value = new EndpointI(endpoint.value);
return p;
}
public java.util.List<IceInternal.EndpointI>
expand()
{
java.util.List<IceInternal.EndpointI> endps = new java.util.ArrayList<IceInternal.EndpointI>();
java.util.Iterator<IceInternal.EndpointI> iter = _endpoint.expand().iterator();
while(iter.hasNext())
{
IceInternal.EndpointI endpt = iter.next();
endps.add(endpt == _endpoint ? this : new EndpointI(endpt));
}
return endps;
}
public boolean
equivalent(IceInternal.EndpointI endpoint)
{
EndpointI testEndpoint = null;
try
{
testEndpoint = (EndpointI)endpoint;
}
catch(ClassCastException ex)
{
return false;
}
return testEndpoint._endpoint.equivalent(_endpoint);
}
public int
hashCode()
{
return _endpoint.hashCode();
}
//
// Compare endpoints for sorting purposes
//
public boolean
equals(java.lang.Object obj)
{
try
{
return compareTo((IceInternal.EndpointI)obj) == 0;
}
catch(ClassCastException ee)
{
assert(false);
return false;
}
}
public int
compareTo(IceInternal.EndpointI obj) // From java.lang.Comparable
{
EndpointI p = null;
try
{
p = (EndpointI)obj;
}
catch(ClassCastException ex)
{
return type() < obj.type() ? -1 : 1;
}
if(this == p)
{
return 0;
}
return _endpoint.compareTo(p._endpoint);
}
private IceInternal.EndpointI _endpoint;
private Configuration _configuration;
}
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