func (n *node) removePort(pt bh.PortTypeIf) { var list *portList if pt.Direction() == gr.InPort { list = &n.inPort } else { list = &n.outPort } var i int for i = 0; i < len(list.Ports()); i++ { if list.Ports()[i].Name() == pt.Name() { break } } toRemove := list.Ports()[i] for _, c := range toRemove.Connections() { c.RemoveConnection(toRemove) } list.Remove(toRemove) }
func (t *nodeType) RemoveNamedPortType(p bh.PortTypeIf) { for _, impl := range t.implementation.Implementations() { if impl.ImplementationType() == bh.NodeTypeGraph { if p.Direction() == gr.InPort { impl.Graph().(*signalGraphType).removeInputNodeFromPortType(p) } else { impl.Graph().(*signalGraphType).removeOutputNodeFromPortType(p) } } } for _, n := range t.instances.Nodes() { n.(*node).removePort(p.(*portType)) } var list *portTypeList if p.Direction() == gr.InPort { list = &t.inPorts } else { list = &t.outPorts } list.Remove(p) }
func (t *nodeType) AddNamedPortType(p bh.PortTypeIf) { if p.Direction() == gr.InPort { t.inPorts.Append(p) } else { t.outPorts.Append(p) } for _, n := range t.instances.Nodes() { if p.Direction() == gr.InPort { n.(*node).addInPort(p) } else { n.(*node).addOutPort(p) } } for _, impl := range t.implementation.Implementations() { if impl.ImplementationType() == bh.NodeTypeGraph { if p.Direction() == gr.InPort { impl.Graph().(*signalGraphType).addInputNodeFromPortType(p) } else { impl.Graph().(*signalGraphType).addOutputNodeFromPortType(p) } } } }