gonum/graph/multi/weighted_directed.go

// Copyright ©2014 The Gonum Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.

package multi

import (
	"fmt"

	"gonum.org/v1/gonum/graph"
	"gonum.org/v1/gonum/graph/internal/uid"
	"gonum.org/v1/gonum/graph/iterator"
)

var (
	wdg *WeightedDirectedGraph

	_ graph.Graph                      = wdg
	_ graph.Weighted                   = wdg
	_ graph.Directed                   = wdg
	_ graph.WeightedDirected           = wdg
	_ graph.Multigraph                 = wdg
	_ graph.DirectedMultigraph         = wdg
	_ graph.WeightedDirectedMultigraph = wdg
	_ graph.NodeAdder                  = wdg
	_ graph.NodeRemover                = wdg
	_ graph.WeightedLineAdder          = wdg
	_ graph.LineRemover                = wdg
)

// WeightedDirectedGraph implements a generalized directed graph.
type WeightedDirectedGraph struct {
	// EdgeWeightFunc is used to provide
	// the WeightFunc function for WeightedEdge
	// values returned by the graph.
	// WeightFunc must accept a nil input.
	EdgeWeightFunc func(graph.WeightedLines) float64

	nodes map[int64]graph.Node
	from  map[int64]map[int64]map[int64]graph.WeightedLine
	to    map[int64]map[int64]map[int64]graph.WeightedLine

	nodeIDs uid.Set
	lineIDs uid.Set
}

// NewWeightedDirectedGraph returns a WeightedDirectedGraph.
func NewWeightedDirectedGraph() *WeightedDirectedGraph {
	return &WeightedDirectedGraph{
		nodes: make(map[int64]graph.Node),
		from:  make(map[int64]map[int64]map[int64]graph.WeightedLine),
		to:    make(map[int64]map[int64]map[int64]graph.WeightedLine),

		nodeIDs: uid.NewSet(),
		lineIDs: uid.NewSet(),
	}
}

// AddNode adds n to the graph. It panics if the added node ID matches an existing node ID.
func (g *WeightedDirectedGraph) AddNode(n graph.Node) {
	if _, exists := g.nodes[n.ID()]; exists {
		panic(fmt.Sprintf("simple: node ID collision: %d", n.ID()))
	}
	g.nodes[n.ID()] = n
	g.from[n.ID()] = make(map[int64]map[int64]graph.WeightedLine)
	g.to[n.ID()] = make(map[int64]map[int64]graph.WeightedLine)
	g.nodeIDs.Use(n.ID())
}

// Edge returns the edge from u to v if such an edge exists and nil otherwise.
// The node v must be directly reachable from u as defined by the From method.
// The returned graph.Edge is a multi.WeightedEdge if an edge exists.
func (g *WeightedDirectedGraph) Edge(uid, vid int64) graph.Edge {
	return g.WeightedEdge(uid, vid)
}

// Edges returns all the edges in the graph. Each edge in the returned slice
// is a multi.WeightedEdge.
func (g *WeightedDirectedGraph) Edges() graph.Edges {
	if len(g.nodes) == 0 {
		return nil
	}
	var edges []graph.Edge
	for _, u := range g.nodes {
		for _, e := range g.from[u.ID()] {
			var lines []graph.WeightedLine
			for _, l := range e {
				lines = append(lines, l)
			}
			if len(lines) != 0 {
				edges = append(edges, WeightedEdge{
					F:             g.Node(u.ID()),
					T:             g.Node(lines[0].To().ID()),
					WeightedLines: iterator.NewOrderedWeightedLines(lines),
					WeightFunc:    g.EdgeWeightFunc,
				})
			}
		}
	}
	return iterator.NewOrderedEdges(edges)
}

// From returns all nodes in g that can be reached directly from n.
func (g *WeightedDirectedGraph) From(id int64) graph.Nodes {
	if _, ok := g.from[id]; !ok {
		return nil
	}

	from := make([]graph.Node, len(g.from[id]))
	i := 0
	for vid := range g.from[id] {
		from[i] = g.nodes[vid]
		i++
	}
	return iterator.NewOrderedNodes(from)
}

// HasEdgeBetween returns whether an edge exists between nodes x and y without
// considering direction.
func (g *WeightedDirectedGraph) HasEdgeBetween(xid, yid int64) bool {
	if _, ok := g.from[xid][yid]; ok {
		return true
	}
	_, ok := g.from[yid][xid]
	return ok
}

// HasEdgeFromTo returns whether an edge exists in the graph from u to v.
func (g *WeightedDirectedGraph) HasEdgeFromTo(uid, vid int64) bool {
	if _, ok := g.from[uid][vid]; !ok {
		return false
	}
	return true
}

// Lines returns the lines from u to v if such any such lines exists and nil otherwise.
// The node v must be directly reachable from u as defined by the From method.
func (g *WeightedDirectedGraph) Lines(uid, vid int64) graph.Lines {
	edge := g.from[uid][vid]
	if len(edge) == 0 {
		return nil
	}
	var lines []graph.Line
	for _, l := range edge {
		lines = append(lines, l)
	}
	return iterator.NewOrderedLines(lines)
}

// NewNode returns a new unique Node to be added to g. The Node's ID does
// not become valid in g until the Node is added to g.
func (g *WeightedDirectedGraph) NewNode() graph.Node {
	if len(g.nodes) == 0 {
		return Node(0)
	}
	if int64(len(g.nodes)) == uid.Max {
		panic("simple: cannot allocate node: no slot")
	}
	return Node(g.nodeIDs.NewID())
}

// NewWeightedLine returns a new WeightedLine from the source to the destination node.
// The returned WeightedLine will have a graph-unique ID.
// The Line's ID does not become valid in g until the Line is added to g.
func (g *WeightedDirectedGraph) NewWeightedLine(from, to graph.Node, weight float64) graph.WeightedLine {
	return &WeightedLine{F: from, T: to, W: weight, UID: g.lineIDs.NewID()}
}

// Node returns the node with the given ID if it exists in the graph,
// and nil otherwise.
func (g *WeightedDirectedGraph) Node(id int64) graph.Node {
	return g.nodes[id]
}

// Nodes returns all the nodes in the graph.
func (g *WeightedDirectedGraph) Nodes() graph.Nodes {
	if len(g.nodes) == 0 {
		return nil
	}
	nodes := make([]graph.Node, len(g.nodes))
	i := 0
	for _, n := range g.nodes {
		nodes[i] = n
		i++
	}

	return iterator.NewOrderedNodes(nodes)
}

// RemoveLine removes the line with the given end point and line IDs from the graph,
// leaving the terminal nodes. If the line does not exist it is a no-op.
func (g *WeightedDirectedGraph) RemoveLine(fid, tid, id int64) {
	if _, ok := g.nodes[fid]; !ok {
		return
	}
	if _, ok := g.nodes[tid]; !ok {
		return
	}

	delete(g.from[fid][tid], id)
	if len(g.from[fid][tid]) == 0 {
		delete(g.from[fid], tid)
	}
	delete(g.to[tid][fid], id)
	if len(g.to[tid][fid]) == 0 {
		delete(g.to[tid], fid)
	}
	g.lineIDs.Release(id)
}

// RemoveNode removes the node with the given ID from the graph, as well as any edges attached
// to it. If the node is not in the graph it is a no-op.
func (g *WeightedDirectedGraph) RemoveNode(id int64) {
	if _, ok := g.nodes[id]; !ok {
		return
	}
	delete(g.nodes, id)

	for from := range g.from[id] {
		delete(g.to[from], id)
	}
	delete(g.from, id)

	for to := range g.to[id] {
		delete(g.from[to], id)
	}
	delete(g.to, id)

	g.nodeIDs.Release(id)
}

// SetWeightedLine adds l, a line from one node to another. If the nodes do not exist, they are added
// and are set to the nodes of the line otherwise.
func (g *WeightedDirectedGraph) SetWeightedLine(l graph.WeightedLine) {
	var (
		from = l.From()
		fid  = from.ID()
		to   = l.To()
		tid  = to.ID()
		lid  = l.ID()
	)

	if _, ok := g.nodes[fid]; !ok {
		g.AddNode(from)
	} else {
		g.nodes[fid] = from
	}
	if g.from[fid][tid] == nil {
		g.from[fid][tid] = make(map[int64]graph.WeightedLine)
	}
	if _, ok := g.nodes[tid]; !ok {
		g.AddNode(to)
	} else {
		g.nodes[tid] = to
	}
	if g.to[tid][fid] == nil {
		g.to[tid][fid] = make(map[int64]graph.WeightedLine)
	}

	g.from[fid][tid][lid] = l
	g.to[tid][fid][lid] = l
	g.lineIDs.Use(l.ID())
}

// To returns all nodes in g that can reach directly to n.
func (g *WeightedDirectedGraph) To(id int64) graph.Nodes {
	if _, ok := g.from[id]; !ok {
		return nil
	}

	to := make([]graph.Node, len(g.to[id]))
	i := 0
	for uid := range g.to[id] {
		to[i] = g.nodes[uid]
		i++
	}
	return iterator.NewOrderedNodes(to)
}

// Weight returns the weight for the lines between x and y summarised by the receiver's
// EdgeWeightFunc. Weight returns true if an edge exists between x and y, false otherwise.
func (g *WeightedDirectedGraph) Weight(uid, vid int64) (w float64, ok bool) {
	lines := g.WeightedLines(uid, vid)
	return WeightedEdge{WeightedLines: lines, WeightFunc: g.EdgeWeightFunc}.Weight(), lines != nil
}

// WeightedEdge returns the weighted edge from u to v if such an edge exists and nil otherwise.
// The node v must be directly reachable from u as defined by the From method.
// The returned graph.WeightedEdge is a multi.WeightedEdge if an edge exists.
func (g *WeightedDirectedGraph) WeightedEdge(uid, vid int64) graph.WeightedEdge {
	lines := g.WeightedLines(uid, vid)
	if lines == nil {
		return nil
	}
	return WeightedEdge{
		F: g.Node(uid), T: g.Node(vid),
		WeightedLines: lines,
		WeightFunc:    g.EdgeWeightFunc,
	}
}

// WeightedEdges returns all the edges in the graph. Each edge in the returned slice
// is a multi.WeightedEdge.
func (g *WeightedDirectedGraph) WeightedEdges() graph.WeightedEdges {
	if len(g.nodes) == 0 {
		return nil
	}
	var edges []graph.WeightedEdge
	for _, u := range g.nodes {
		for _, e := range g.from[u.ID()] {
			var lines []graph.WeightedLine
			for _, l := range e {
				lines = append(lines, l)
			}
			if len(lines) != 0 {
				edges = append(edges, WeightedEdge{
					F:             g.Node(u.ID()),
					T:             g.Node(lines[0].To().ID()),
					WeightedLines: iterator.NewOrderedWeightedLines(lines),
					WeightFunc:    g.EdgeWeightFunc,
				})
			}
		}
	}
	return iterator.NewOrderedWeightedEdges(edges)
}

// WeightedLines returns the weighted lines from u to v if such any such lines exists
// and nil otherwise. The node v must be directly reachable from u as defined by the From method.
func (g *WeightedDirectedGraph) WeightedLines(uid, vid int64) graph.WeightedLines {
	edge := g.from[uid][vid]
	if len(edge) == 0 {
		return nil
	}
	var lines []graph.WeightedLine
	for _, l := range edge {
		lines = append(lines, l)
	}
	return iterator.NewOrderedWeightedLines(lines)
}