Beispiel #1
0
func CreateXmlIONodePosHint(n bh.NodeIf, path string) (xmln *backend.XmlNodePosHint) {
	if len(path) == 0 {
		xmln = backend.XmlNodePosHintNew(n.Name())
	} else {
		xmln = backend.XmlNodePosHintNew(fmt.Sprintf("%s/%s", path, n.Name()))
	}
	empty := image.Point{}
	for _, p := range n.PathList() {
		for _, m := range gr.ValidModes {
			xmlp := string(gr.CreatePathMode(p, m))
			pos := n.PathModePosition(p, m)
			if pos != empty {
				xmln.Entry = append(xmln.Entry, *backend.XmlModeHintEntryNew(xmlp, pos.X, pos.Y))
			}
		}
	}
	for _, p := range n.InPorts() {
		xmlp := backend.XmlPortPosHintNew(p.Name())
		xmlp.Entry = freesp.CreateXmlModePosition(p).Entry
		xmln.InPorts = append(xmln.InPorts, *xmlp)
	}
	for _, p := range n.OutPorts() {
		xmlp := backend.XmlPortPosHintNew(p.Name())
		xmlp.Entry = freesp.CreateXmlModePosition(p).Entry
		xmln.OutPorts = append(xmln.OutPorts, *xmlp)
	}
	return
}
Beispiel #2
0
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
}
Beispiel #3
0
func IsProcessingNode(n bh.NodeIf) bool {
	if len(n.InPorts()) == 0 {
		return false
	}
	if len(n.OutPorts()) == 0 {
		return false
	}
	return true
}
Beispiel #4
0
func CreateXmlProcessingNode(n bh.NodeIf) *backend.XmlProcessingNode {
	ret := backend.XmlProcessingNodeNew(n.Name(), n.ItsType().TypeName())
	for _, p := range n.InPorts() {
		ret.InPort = append(ret.InPort, *CreateXmlInPort(p))
	}
	for _, p := range n.OutPorts() {
		ret.OutPort = append(ret.OutPort, *CreateXmlOutPort(p))
	}
	return ret
}
Beispiel #5
0
func mapelemNew(n bh.NodeIf, nId bh.NodeIdIf, p pf.ProcessIf, mapping mp.MappingIf) (m *mapelem) {
	m = &mapelem{*gr.ModePositionerObjectNew(), n, nId, p, mapping, false,
		make([]gr.ModePositionerObject, len(n.InPorts())),
		make([]gr.ModePositionerObject, len(n.OutPorts()))}
	for i := 0; i < len(m.inports); i++ {
		m.inports[i] = *gr.ModePositionerObjectNew()
	}
	for i := 0; i < len(m.outports); i++ {
		m.outports[i] = *gr.ModePositionerObjectNew()
	}
	return
}
Beispiel #6
0
func CreateXmlInputNode(n bh.NodeIf) *backend.XmlInputNode {
	tName := n.ItsType().TypeName()
	if strings.HasPrefix(tName, "autoInputNodeType-") {
		tName = ""
	}
	ret := backend.XmlInputNodeNew(n.Name(), tName)
	if n.(*node).portlink != nil {
		ret.NPort = n.(*node).portlink.Name()
	}
	for _, p := range n.OutPorts() {
		ret.OutPort = append(ret.OutPort, *CreateXmlOutPort(p))
	}
	return ret
}
Beispiel #7
0
func (t *signalGraphType) addNode(n bh.NodeIf) error {
	if len(n.InPorts()) > 0 {
		if len(n.OutPorts()) > 0 {
			t.processingNodes = append(t.processingNodes, n.(*node))
		} else {
			t.outputNodes = append(t.outputNodes, n.(*node))
		}
	} else {
		if len(n.OutPorts()) > 0 {
			t.inputNodes = append(t.inputNodes, n.(*node))
		} else {
			return fmt.Errorf("signalGraphType.AddNode error: node has no ports")
		}
	}
	t.nodes.Append(n.(*node))
	return nil
}
Beispiel #8
0
func NodeNew(getPositioner GetPositioner, n bh.NodeIf, nId bh.NodeIdIf) (ret *Node) {
	positioner := getPositioner(nId)
	pos := positioner.Position()
	dy := NumericOption(PortDY)
	box := image.Rect(pos.X, pos.Y, pos.X+global.nodeWidth, pos.Y+global.nodeHeight+numPorts(n)*dy)
	config := DrawConfig{ColorInit(ColorOption(NodeNormal)),
		ColorInit(ColorOption(NodeHighlight)),
		ColorInit(ColorOption(NodeSelected)),
		ColorInit(ColorOption(BoxFrame)),
		ColorInit(ColorOption(Text)),
		image.Point{global.padX, global.padY}}
	ret = &Node{NamedBoxObjectInit(box, config, n), n, positioner, nil, -1}
	ret.RegisterOnHighlight(func(hit bool, pos image.Point) bool {
		return ret.onHighlight(hit, pos)
	})
	ret.RegisterOnSelect(func() bool {
		return ret.onSelect()
	}, func() bool {
		return ret.onDeselect()
	})
	portBox := image.Rect(0, 0, global.portW, global.portH)
	portBox = portBox.Add(box.Min)
	shiftIn := image.Point{global.padX + global.portX0, global.padY + global.portY0}
	shiftOut := image.Point{box.Size().X - global.padX - global.portW - global.portX0, global.padY + global.portY0}
	b := portBox.Add(shiftIn)
	for _, p := range n.InPorts() {
		p := PortNew(b, p)
		ret.ports = append(ret.ports, p)
		b = b.Add(image.Point{0, global.portDY})
	}
	b = portBox.Add(shiftOut)
	for _, p := range n.OutPorts() {
		p := PortNew(b, p)
		ret.ports = append(ret.ports, p)
		b = b.Add(image.Point{0, global.portDY})
	}
	return
}
Beispiel #9
0
func (t *nodeType) treeRemoveObject(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:
		impl := obj.(bh.ImplementationIf)
		if impl.ImplementationType() == bh.NodeTypeGraph {
			// TODO: This is redundant with implementation.go
			// Simply remove all nodes? Do not traverse a modifying list...
			// Removed Input- and Output nodes are NOT stored (they are
			// created automatically when adding the implementation graph).
			// Return all removed edges ...
			for _, n := range impl.Graph().Nodes() {
				nCursor := tree.Cursor(n)
				for _, p := range n.OutPorts() {
					pCursor := tree.CursorAt(nCursor, p)
					for index, c := range p.Connections() {
						conn := p.Connection(c)
						removed = append(removed, tr.IdWithObject{pCursor.Path, index, conn})
					}
				}
			}
			// ... and processing nodes
			for _, n := range impl.Graph().ProcessingNodes() {
				nCursor := tree.Cursor(n)
				gCursor := tree.Parent(nCursor)
				nIndex := gCursor.Position
				removed = append(removed, tr.IdWithObject{nCursor.Path, nIndex, n})
			}
		}

	case bh.PortTypeIf:
		nt := obj.(bh.PortTypeIf)
		for _, impl := range t.Implementation() {
			if impl.ImplementationType() == bh.NodeTypeGraph {
				// Remove and store all edges connected to the nodes linked to the outer ports
				g := impl.Graph().(*signalGraphType)
				var n bh.NodeIf
				if nt.Direction() == gr.InPort {
					n = g.findInputNodeFromPortType(nt)
				} else {
					n = g.findOutputNodeFromPortType(nt)
				}
				if n == nil {
					log.Fatalf("nodeType.RemoveObject error: invalid implementation...\n")
				}
				nCursor := tree.CursorAt(parentId, n)
				for _, p := range n.InPorts() {
					pCursor := tree.CursorAt(nCursor, p)
					for _, c := range p.Connections() {
						conn := p.Connection(c)
						removed = append(removed, tr.IdWithObject{pCursor.Path, -1, conn})
					}
				}
				for _, p := range n.OutPorts() {
					pCursor := tree.CursorAt(nCursor, p)
					for _, c := range p.Connections() {
						conn := p.Connection(c)
						removed = append(removed, tr.IdWithObject{pCursor.Path, -1, conn})
					}
				}
				// Remove (but dont store) the nodes linked to the outer ports:
				tree.Remove(nCursor)
			}
		}

	default:
		log.Fatalf("nodeType.RemoveObject error: invalid type %T\n", obj)
	}
	return
}
Beispiel #10
0
func (j *NewElementJob) CreateObject(fts *models.FilesTreeStore) (ret tr.TreeElementIf, err error) {
	var parentObject tr.TreeElementIf
	parentObject, err = fts.GetObjectById(j.parentId)
	if err != nil {
		log.Fatal("NewElementJob.CreateObject error: referenced parentObject run away...")
	}
	switch j.elemType {
	case eNode, eInputNode, eOutputNode:
		var context bh.SignalGraphTypeIf
		switch parentObject.(type) {
		case bh.NodeIf:
			context = parentObject.(bh.NodeIf).Context()
			j.parentId = getParentId(j.parentId)
		case bh.SignalGraphIf:
			context = parentObject.(bh.SignalGraphIf).ItsType()
		case bh.SignalGraphTypeIf:
			context = parentObject.(bh.SignalGraphTypeIf)
		case bh.ImplementationIf:
			if parentObject.(bh.ImplementationIf).ImplementationType() == bh.NodeTypeGraph {
				context = parentObject.(bh.ImplementationIf).Graph()
			} else {
				log.Fatal("NewElementJob.CreateObject(eNode) error: parent implementation is no graph...")
			}
		default:
			log.Fatal("NewElementJob.CreateObject(eNode) error: referenced parentObject wrong type...")
		}
		if j.elemType == eNode {
			ntype, ok := freesp.GetNodeTypeByName(j.input[iNodeTypeSelect])
			if !ok {
				log.Fatal("NewElementJob.CreateObject(eNode) error: referenced parentObject type wrong...")
			}
			ret, err = behaviour.NodeNew(j.input[iNodeName], ntype, context)
		} else if j.elemType == eInputNode {
			ret, err = behaviour.InputNodeNew(j.input[iInputNodeName], j.input[iInputTypeSelect], context)
		} else {
			ret, err = behaviour.OutputNodeNew(j.input[iOutputNodeName], j.input[iOutputTypeSelect], context)
		}
		if len(j.extra) > 0 {
			coords := strings.Split(j.extra, "|")
			var x, y int
			fmt.Sscanf(coords[0], "%d", &x)
			fmt.Sscanf(coords[1], "%d", &y)
			//pos := image.Point{x, y}
			//log.Printf("NewElementJob.CreateObject(eNode) setting position %s: %v\n", j.extra, pos)
			//ret.(bh.NodeIf).SetPosition(pos)
			// TODO: SetModePosition...
		}

	case eNodeType:
		var context string
		switch parentObject.(type) {
		case bh.NodeTypeIf:
			context = parentObject.(bh.NodeTypeIf).DefinedAt()
			j.parentId = getParentId(j.parentId)
		case bh.SignalTypeIf:
			j.parentId = getParentId(j.parentId)
			parentObject, err = fts.GetObjectById(j.parentId)
			context = parentObject.(bh.LibraryIf).Filename()
		case bh.LibraryIf:
			context = parentObject.(bh.LibraryIf).Filename()
		default:
			log.Fatal("NewElementJob.CreateObject(eNodeType) error: referenced parentObject wrong type...")
		}
		ret = behaviour.NodeTypeNew(j.input[iTypeName], context)

	case eConnection:
		switch parentObject.(type) {
		case bh.PortIf:
		case bh.SignalGraphTypeIf:
			fromTo := strings.Split(j.extra, "/")
			var n bh.NodeIf
			for _, n = range parentObject.(bh.SignalGraphTypeIf).Nodes() {
				if n.Name() == fromTo[0] {
					for _, parentObject = range n.OutPorts() {
						if parentObject.(bh.PortIf).Name() == fromTo[1] {
							break
						}
					}
					break
				}
			}
			if parentObject == nil {
				log.Fatalf("NewElementJob.CreateObject(eNodeType) error: no valid FROM port for edge job %v\n", j)
			}
			_ = parentObject.(bh.PortIf)
		case bh.ImplementationIf:
			fromTo := strings.Split(j.extra, "/")
			var n bh.NodeIf
			for _, n = range parentObject.(bh.ImplementationIf).Graph().Nodes() {
				if n.Name() == fromTo[0] {
					for _, parentObject = range n.OutPorts() {
						if parentObject.(bh.PortIf).Name() == fromTo[1] {
							break
						}
					}
					break
				}
			}
			if parentObject == nil {
				log.Fatalf("NewElementJob.CreateObject(eNodeType) error: no valid FROM port for edge job %v\n", j)
			}
			_ = parentObject.(bh.PortIf)
		default:
			log.Fatalf("NewElementJob.CreateObject(eConnection) error: referenced parentObject wrong type %T\n", parentObject)
		}
		ports := getMatchingPorts(fts, parentObject)
		for _, p := range ports {
			s := fmt.Sprintf("%s/%s", p.Node().Name(), p.Name())
			if j.input[iPortSelect] == s {
				var from, to bh.PortIf
				if p.Direction() == gr.InPort {
					from = parentObject.(bh.PortIf)
					to = p
				} else {
					from = p
					to = parentObject.(bh.PortIf)
				}
				ret = behaviour.ConnectionNew(from, to)
				break
			}
		}

	case ePortType:
		switch parentObject.(type) {
		case bh.PortTypeIf:
			j.parentId = getParentId(j.parentId)
		case bh.NodeTypeIf:
		default:
			log.Fatal("NewElementJob.CreateObject(ePortType) error: referenced parentObject wrong type...")
		}
		_, ok := freesp.GetSignalTypeByName(j.input[iSignalTypeSelect])
		if !ok {
			err = fmt.Errorf("NewElementJob.CreateObject(ePortType) error: referenced signal type wrong...")
			return
		}
		ret = behaviour.PortTypeNew(j.input[iPortName], j.input[iSignalTypeSelect], string2direction[j.input[iDirection]])

	case eSignalType:
		switch parentObject.(type) {
		case bh.SignalTypeIf:
			j.parentId = getParentId(j.parentId)
		case bh.NodeTypeIf:
			j.parentId = getParentId(j.parentId)
		case bh.LibraryIf:
		default:
			log.Fatalf("NewElementJob.CreateObject(eSignalType) error: referenced parentObject wrong type %T\n", parentObject)
		}
		parentObject, err = fts.GetObjectById(j.parentId)
		if err != nil {
			log.Fatalf("NewElementJob.CreateObject(eSignalType) error: parent library object not found\n")
		}
		name := j.input[iSignalTypeName]
		cType := j.input[iCType]
		channelId := j.input[iChannelId]
		scope := string2scope[j.input[iScope]]
		mode := string2mode[j.input[iSignalMode]]
		ret, err = behaviour.SignalTypeNew(name, cType, channelId, scope, mode, parentObject.(bh.LibraryIf).Filename())
		if err != nil {
			log.Printf("NewElementJob.CreateObject(eSignalType) error: SignalTypeNew failed: %s\n", err)
			return
		}

	case eImplementation:
		switch parentObject.(type) {
		case bh.ImplementationIf:
			j.parentId = getParentId(j.parentId)
		case bh.NodeTypeIf:
		default:
			log.Fatalf("NewElementJob.CreateObject(eSignalType) error: referenced parentObject wrong type %T\n", parentObject)
		}
		implType := string2implType[j.input[iImplementationType]]
		ret = behaviour.ImplementationNew(j.input[iImplName], implType, &global)

	case eArch:
		switch parentObject.(type) {
		case pf.ArchIf:
			j.parentId = getParentId(j.parentId)
			parentObject = parentObject.(pf.ArchIf).Platform()
		case pf.PlatformIf:
		default:
			log.Fatalf("NewElementJob.CreateObject(eArch) error: referenced parentObject wrong type %T\n", parentObject)
		}
		ret = platform.ArchNew(j.input[iArchName], parentObject.(pf.PlatformIf))

	case eIOType:
		var p pf.PlatformIf
		switch parentObject.(type) {
		case pf.IOTypeIf:
			j.parentId = getParentId(j.parentId)
			p = parentObject.(pf.IOTypeIf).Platform()
		case pf.ArchIf:
			p = parentObject.(pf.ArchIf).Platform()
		default:
			log.Fatalf("NewElementJob.CreateObject(eIOType) error: referenced parentObject wrong type %T\n", parentObject)
		}
		ret, err = platform.IOTypeNew(j.input[iIOTypeName], gr.IOMode(j.input[iIOModeSelect]), p)

	case eProcess:
		switch parentObject.(type) {
		case pf.ProcessIf:
			j.parentId = getParentId(j.parentId)
			parentObject = parentObject.(pf.ProcessIf).Arch()
		case pf.ArchIf:
		default:
			log.Fatalf("NewElementJob.CreateObject(eProcess) error: referenced parentObject wrong type %T\n", parentObject)
		}
		ret = platform.ProcessNew(j.input[iProcessName], parentObject.(pf.ArchIf))

	case eChannel:
		switch parentObject.(type) {
		case pf.ChannelIf:
			j.parentId = getParentId(j.parentId)
			parentObject = parentObject.(pf.ChannelIf).Process()
		case pf.ProcessIf:
		default:
			log.Fatalf("NewElementJob.CreateObject(eChannel) error: referenced parentObject wrong type %T\n", parentObject)
		}
		processes := getOtherProcesses(fts, parentObject)
		var p pf.ProcessIf
		for _, p = range processes {
			s := fmt.Sprintf("%s/%s", p.Arch().Name(), p.Name())
			if s == j.input[iChannelLinkSelect] {
				break
			}
		}
		if p == nil {
			log.Fatalf("NewElementJob.CreateObject(eChannel) error: can't find chosen process\n", j.input[iChannelLinkSelect])
		}
		ioType, ok := freesp.GetIOTypeByName(j.input[iIOTypeSelect])
		if !ok {
			log.Fatalf("NewElementJob.CreateObject(eChannel) error: can't find chosen ioType\n", j.input[iIOTypeSelect])
		}
		ret = platform.ChannelNew(string2direction[j.input[iChannelDirection]], ioType, parentObject.(pf.ProcessIf), j.input[iChannelLinkSelect])

	default:
		log.Fatal("NewElementJob.CreateObject error: invalid elemType ", j.elemType)
	}
	return
}
Beispiel #11
0
func ExpandedNodeNew(getPositioner GetPositioner, userObj bh.NodeIf, nId bh.NodeIdIf) (ret *ExpandedNode) {
	positioner := getPositioner(nId)
	pos := positioner.Position()
	path := nId.String()
	config := DrawConfig{ColorInit(ColorOption(NormalExpandedNode)),
		ColorInit(ColorOption(HighlightExpandedNode)),
		ColorInit(ColorOption(SelectExpandedNode)),
		ColorInit(ColorOption(BoxFrame)),
		ColorInit(ColorOption(Text)),
		image.Point{global.padX, global.padY}}
	cconfig := ContainerConfig{expandedPortWidth, expandedPortHeight, 120, 80}
	// Add children
	var g bh.SignalGraphTypeIf
	nt := userObj.ItsType()
	for _, impl := range nt.Implementation() {
		if impl.ImplementationType() == bh.NodeTypeGraph {
			g = impl.Graph()
			break
		}
	}
	var children []ContainerChild
	if g != nil {
		empty := image.Point{}
		first := image.Point{16, 32}
		shift := image.Point{16, 16}
		for i, n := range g.ProcessingNodes() {
			var ch ContainerChild
			var mode gr.PositionMode
			if n.Expanded() {
				mode = gr.PositionModeExpanded
			} else {
				mode = gr.PositionModeNormal
			}
			proxy := gr.PathModePositionerProxyNew(n)
			proxy.SetActivePath(path)
			proxy.SetActiveMode(mode)
			log.Printf("ExpandedNodeNew TODO: position of child nodes. path=%s, mode=%v\n", path, mode)
			chpos := proxy.Position()
			if chpos == empty {
				chpos = pos.Add(first.Add(shift.Mul(i)))
				proxy.SetPosition(chpos)
			}
			id := freesp.NodeIdNew(nId, n.Name())
			if n.Expanded() {
				ch = ExpandedNodeNew(getPositioner, n, id)
			} else {
				ch = NodeNew(getPositioner, n, id)
			}
			children = append(children, ch)
		}
	}
	ret = &ExpandedNode{ContainerInit(children, config, userObj, cconfig),
		userObj, positioner, nil, nil}
	ret.ContainerInit()
	empty := image.Point{}
	config = DrawConfig{ColorInit(ColorOption(InputPort)),
		ColorInit(ColorOption(HighlightInPort)),
		ColorInit(ColorOption(SelectInPort)),
		ColorInit(ColorOption(BoxFrame)),
		Color{},
		image.Point{}}
	for i, p := range userObj.InPorts() {
		pos := p.ModePosition(gr.PositionModeExpanded)
		if pos == empty {
			pos = ret.CalcInPortPos(i)
		}
		positioner := gr.ModePositionerProxyNew(p, gr.PositionModeExpanded)
		ret.AddPort(config, p, positioner)
	}
	config = DrawConfig{ColorInit(ColorOption(OutputPort)),
		ColorInit(ColorOption(HighlightOutPort)),
		ColorInit(ColorOption(SelectOutPort)),
		ColorInit(ColorOption(BoxFrame)),
		Color{},
		image.Point{}}
	for i, p := range userObj.OutPorts() {
		pos := p.ModePosition(gr.PositionModeExpanded)
		if pos == empty {
			pos = ret.CalcOutPortPos(i)
		}
		positioner := gr.ModePositionerProxyNew(p, gr.PositionModeExpanded)
		ret.AddPort(config, p, positioner)
	}
	for _, n := range g.ProcessingNodes() {
		from, ok := ret.ChildByName(n.Name())
		if !ok {
			log.Printf("ExpandedNodeNew error: node %s not found\n", n.Name())
			continue
		}
		for _, p := range n.OutPorts() {
			fromId := from.OutPortIndex(p.Name())
			for _, c := range p.Connections() {
				to, ok := ret.ChildByName(c.Node().Name())
				if ok {
					toId := to.InPortIndex(c.Name())
					ret.connections = append(ret.connections, ConnectionNew(from, to, fromId, toId))
				} else {
					portname, ok := c.Node().PortLink()
					if !ok {
						log.Printf("ExpandedNodeNew error: output node %s not linked\n", c.Node().Name())
						continue
					}
					ownPort, ok := ret.OutPortByName(portname)
					if !ok {
						log.Printf("ExpandedNodeNew error: linked port %s of output node %s not found\n", portname, c.Node().Name())
						continue
					}
					nodePort, ok := from.OutPortByName(p.Name())
					if !ok {
						log.Printf("ExpandedNodeNew error: port %s of output node %s not found\n", p.Name(), from.Name())
						continue
					}
					ret.portconn = append(ret.portconn, PortConnectorNew(nodePort, ownPort))
				}
			}
		}
	}
	for _, n := range g.InputNodes() {
		for _, p := range n.OutPorts() {
			fromlink, ok := p.Node().PortLink()
			if !ok {
				log.Printf("ExpandedNodeNew error: input node %s not linked\n", p.Node().Name())
				continue
			}
			fromPort, ok := ret.InPortByName(fromlink)
			if !ok {
				log.Printf("ExpandedNodeNew error: linked port %s of input node %s not found\n", fromlink, n.Name())
				continue
			}
			for _, c := range p.Connections() {
				to, ok := ret.ChildByName(c.Node().Name())
				if ok {
					// TODO: connect with node
					toPort, ok := to.InPortByName(c.Name())
					if !ok {
						log.Printf("ExpandedNodeNew error: port %s of node %s not found\n", c.Name(), to.Name())
						continue
					}
					ret.portconn = append(ret.portconn, PortConnectorNew(fromPort, toPort))
				} else {
					tolink, ok := c.Node().PortLink()
					if !ok {
						log.Printf("ExpandedNodeNew error: output node %s not linked\n", c.Node().Name())
						continue
					}
					toPort, ok := ret.OutPortByName(tolink)
					if !ok {
						log.Printf("ExpandedNodeNew error: linked port %s of output node %s not found\n", tolink, c.Node().Name())
						continue
					}
					ret.portconn = append(ret.portconn, PortConnectorNew(fromPort, toPort))
				}
			}
		}
	}
	ret.RegisterOnDraw(func(ctxt interface{}) {
		expandedNodeOnDraw(ret, ctxt)
	})
	return
}