public void clear() { map.clear(); }
public void clear() { map.clear(); }
@Override public synchronized void close() { volatileVertices.clear(); cache.destroy(); } }
@Override public synchronized void close() { volatileVertices.clear(); cache.destroy(); } }
void completeIteration() { for (VertexState<M> state : vertexStates.values()) state.completeIteration(); partitionVertices.clear(); previousScopes = currentScopes; }
void nextIteration(Set<MessageScope> scopes) { currentScopes = getIdMap(normalizeScopes(scopes)); partitionVertices.clear(); }
void completeIteration() { for (VertexState<M> state : vertexStates.values()) state.completeIteration(); partitionVertices.clear(); previousScopes = currentScopes; inExecute = false; }
void nextIteration(Set<MessageScope> scopes) { currentScopes = getIdMap(normalizeScopes(scopes)); partitionVertices.clear(); inExecute = true; }
/** * {@inheritDoc} */ @Override public void clearAll() { map.clear(); }
/** Empty the set. */ @Override public void clear() { _map.clear(); }
public void clear() { map.clear(); }
public void clear() { map.clear(); }
public void clear ( ) { NonBlockingHashMapLong.this.clear ( ); } public int size ( ) { return NonBlockingHashMapLong.this.size ( ); }
public void clear() { map.clear(); }
public void clear ( ) { NonBlockingHashMapLong.this.clear ( ); } public int size ( ) { return NonBlockingHashMapLong.this.size ( ); }
public void clear ( ) { NonBlockingHashMapLong.this.clear ( ); } public int size ( ) { return NonBlockingHashMapLong.this.size ( ); }
@Override public synchronized void close() { volatileVertices.clear(); cache.destroy(); } }
@Override public synchronized void close() { volatileVertices.clear(); cache.destroy(); } }
void completeIteration() { for (VertexState<M> state : vertexStates.values()) state.completeIteration(); partitionVertices.clear(); previousScopes = currentScopes; }
void nextIteration(Set<MessageScope> scopes) { currentScopes = getIdMap(normalizeScopes(scopes)); partitionVertices.clear(); }