func (p *port) Connection(c bh.PortIf) bh.ConnectionIf { _, ok, index := p.connected.Find(c.Node().Name(), c.Name()) if !ok { log.Fatalf("port.bh.ConnectionIf error: port %v not in connected list of port %v\n", c, p) } return p.conn[index] }
func (t *signalGraphType) AddNewObject(tree tr.TreeIf, cursor tr.Cursor, obj tr.TreeElementIf) (newCursor tr.Cursor, err error) { switch obj.(type) { case bh.NodeIf: // TODO: Check if IO node and exists: copy position only and return n := obj.(bh.NodeIf) err = t.AddNode(n) if err != nil { err = fmt.Errorf("signalGraphType.AddNewObject error: %s", err) nt := n.ItsType().(*nodeType) if nt != nil { ok, _ := nt.instances.Find(n) if ok { nt.instances.Remove(n) } } return } newCursor = t.treeAddNewObject(tree, cursor, n) parent := tree.Object(cursor) switch parent.(type) { case bh.SignalGraphIf: case bh.ImplementationIf: // propagate new node to all instances of embracing type pCursor := tree.Parent(cursor) nt := tree.Object(pCursor) for _, nn := range nt.(bh.NodeTypeIf).Instances() { nCursor := tree.Cursor(nn) tCursor := tree.CursorAt(nCursor, parent) tCursor.Position = cursor.Position t.treeAddNewObject(tree, tCursor, n) } default: log.Fatalf("signalGraphType.AddNewObject error: wrong parent type %T: %v\n", parent, parent) } case bh.ConnectionIf: conn := obj.(bh.ConnectionIf) var n bh.NodeIf var p bh.PortIf for _, n = range t.Nodes() { if n.Name() == conn.From().Node().Name() { nCursor := tree.CursorAt(cursor, n) for _, p = range n.OutPorts() { if conn.From().Name() == p.Name() { pCursor := tree.CursorAt(nCursor, p) return p.AddNewObject(tree, pCursor, obj) } } } } default: log.Fatalf("signalGraphType.AddNewObject error: wrong type %t: %v\n", obj, obj) } return }
func (p *port) RemoveConnection(c bh.PortIf) { _, ok, index := p.connected.Find(c.Node().Name(), c.Name()) if !ok { log.Fatalf("port.bh.ConnectionIf error: port %v not in connected list of port %v\n", c, p) } p.connected.Remove(c) for index++; index < len(p.conn); index++ { p.conn[index-1] = p.conn[index] } p.conn = p.conn[:len(p.conn)-1] }
// Remove object mirrored in all instance node type func (t *nodeType) treeRemoveInstObject(tree tr.TreeIf, cursor tr.Cursor) (removed []tr.IdWithObject) { parentId := tree.Parent(cursor) if t != tree.Object(parentId) { log.Fatal("nodeType.RemoveObject error: not removing child of mine.") } obj := tree.Object(cursor) switch obj.(type) { case bh.ImplementationIf: for _, n := range t.Instances() { nCursor := tree.Cursor(n) tCursor := tree.CursorAt(nCursor, t) iCursor := tree.CursorAt(tCursor, obj) iCursor.Position = cursor.Position tree.Remove(iCursor) } case bh.PortTypeIf: nt := obj.(bh.PortTypeIf) for _, n := range t.Instances() { var p bh.PortIf var list []bh.PortIf nCursor := tree.Cursor(n) if nt.Direction() == gr.InPort { list = n.InPorts() } else { list = n.OutPorts() } for _, p = range list { if p.Name() == nt.Name() { break } } _ = p.(*port) pCursor := tree.CursorAt(nCursor, p) prefix, index := tree.Remove(pCursor) removed = append(removed, tr.IdWithObject{prefix, index, p}) tCursor := tree.CursorAt(nCursor, obj) del := t.treeRemoveObject(tree, tCursor) for _, d := range del { removed = append(removed, d) } tree.Remove(tCursor) } default: log.Fatalf("nodeType.RemoveObject error: invalid type %T\n", obj) } return }
func (l *portList) Remove(p bh.PortIf) { var i int for i = range l.ports { if p.Node().Name() == l.ports[i].Node().Name() && p.Name() == l.ports[i].Name() { break } } if i >= len(l.ports) { for _, v := range l.ports { log.Printf("portList.RemovePort have bh.PortIf %v\n", v) } log.Fatalf("portList.RemovePort error: bh.PortIf %v not in this list\n", p) } for i++; i < len(l.ports); i++ { l.ports[i-1] = l.ports[i] } l.ports = l.ports[:len(l.ports)-1] }
func (n *Node) SelectPort(port bh.PortIf) { var index int if port.Direction() == gr.InPort { index = n.InPortIndex(port.Name()) } else { index = n.OutPortIndex(port.Name()) if index >= 0 { index += n.NumInPorts() } } for i, p := range n.ports { if i == index { p.Select() } else { p.Deselect() } } n.selectedPort = index }
func CreateXmlOutPort(p bh.PortIf) (xmlp *backend.XmlOutPort) { xmlp = backend.XmlOutPortNew(p.Name(), p.SignalType().TypeName()) xmlp.Entry = freesp.CreateXmlModePosition(p).Entry return }