rename things
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filifa
parent
6cc1de4d05
commit
27a7ce31e9
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@ -19,35 +19,35 @@ package dot
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import (
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"math"
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"scm.dairydemon.net/filifa/gv2adj/cmd/internal/markov"
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igraph "scm.dairydemon.net/filifa/gv2adj/cmd/internal/graph"
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"gonum.org/v1/gonum/graph"
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"gonum.org/v1/gonum/graph/multi"
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)
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// DOTMarkovChain is a graph representing an absorbing Markov chain.
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type DOTMarkovChain struct {
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*markov.AbsorbingMarkovChain
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// DOTDirectedGraph is a graph representing an absorbing Markov chain.
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type DOTDirectedGraph struct {
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*igraph.DirectedGraph
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}
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// NewDOTMarkovChain returns an absorbing Markov chain with no nodes or
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// NewDOTDirectedGraph returns an absorbing Markov chain with no nodes or
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// edges.
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func NewDOTMarkovChain() *DOTMarkovChain {
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return &DOTMarkovChain{AbsorbingMarkovChain: markov.NewAbsorbingMarkovChain()}
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func NewDOTDirectedGraph() *DOTDirectedGraph {
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return &DOTDirectedGraph{DirectedGraph: igraph.NewDirectedGraph()}
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}
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// NewLine returns a DOT-aware weighted line.
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func (g *DOTMarkovChain) NewLine(from, to graph.Node) graph.Line {
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e := g.AbsorbingMarkovChain.NewWeightedLine(from, to, math.NaN()).(multi.WeightedLine)
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func (g *DOTDirectedGraph) NewLine(from, to graph.Node) graph.Line {
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e := g.DirectedGraph.NewWeightedLine(from, to, math.NaN()).(multi.WeightedLine)
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return &weightedLine{WeightedLine: e}
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}
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// NewNode returns a DOT-aware Node.
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func (g *DOTMarkovChain) NewNode() graph.Node {
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return &Node{Node: g.AbsorbingMarkovChain.NewNode()}
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func (g *DOTDirectedGraph) NewNode() graph.Node {
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return &Node{Node: g.DirectedGraph.NewNode()}
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}
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// SetLine adds a DOT-aware weighted line to the Markov chain.
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func (g *DOTMarkovChain) SetLine(e graph.Line) {
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g.AbsorbingMarkovChain.SetWeightedLine(e.(*weightedLine))
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func (g *DOTDirectedGraph) SetLine(e graph.Line) {
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g.DirectedGraph.SetWeightedLine(e.(*weightedLine))
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}
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@ -14,7 +14,7 @@ GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with this program. If not, see <http://www.gnu.org/licenses/>.
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*/
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package markov
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package graph
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import (
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"gonum.org/v1/gonum/graph"
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@ -23,22 +23,20 @@ import (
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"gonum.org/v1/gonum/mat"
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)
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// AbsorbingMarkovChain is a graph representing an absorbing Markov chain. This
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// embeds a multi.WeightedDirectedGraph (as opposed to
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// DirectedGraph embeds a multi.WeightedDirectedGraph (as opposed to
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// simple.WeightedDirectedGraph) to handle self loops.
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type AbsorbingMarkovChain struct {
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type DirectedGraph struct {
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*multi.WeightedDirectedGraph
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}
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// NewAbsorbingMarkovChain returns an absorbing Markov chain with no nodes or
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// edges.
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func NewAbsorbingMarkovChain() *AbsorbingMarkovChain {
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return &AbsorbingMarkovChain{WeightedDirectedGraph: multi.NewWeightedDirectedGraph()}
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// NewDirectedGraph returns a graph with no nodes or edges.
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func NewDirectedGraph() *DirectedGraph {
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return &DirectedGraph{WeightedDirectedGraph: multi.NewWeightedDirectedGraph()}
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}
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// AbsorbingNodes returns all the nodes in the Markov chain identified as
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// absorbing nodes.
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func (g *AbsorbingMarkovChain) AbsorbingNodes() []graph.Node {
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func (g *DirectedGraph) AbsorbingNodes() []graph.Node {
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absorbingNodes := make([]graph.Node, 0)
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for nodes := g.Nodes(); nodes.Next(); {
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u := nodes.Node()
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@ -58,7 +56,7 @@ func (g *AbsorbingMarkovChain) AbsorbingNodes() []graph.Node {
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}
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// AdjacencyMatrix returns the graph's adjacency matrix.
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func (g *AbsorbingMarkovChain) AdjacencyMatrix() *mat.Dense {
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func (g *DirectedGraph) AdjacencyMatrix() *mat.Dense {
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adj := simple.NewDirectedMatrix(g.Nodes().Len(), 0, 0, 0)
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for edges := g.WeightedEdges(); edges.Next(); {
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e := edges.WeightedEdge()
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@ -21,7 +21,7 @@ import (
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"fmt"
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"os"
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markovDOT "scm.dairydemon.net/filifa/gv2adj/cmd/internal/markov/dot"
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idot "scm.dairydemon.net/filifa/gv2adj/cmd/internal/graph/dot"
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"github.com/spf13/cobra"
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"gonum.org/v1/gonum/graph/encoding/dot"
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@ -58,7 +58,7 @@ func parse(cmd *cobra.Command, args []string) {
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panic(err)
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}
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graph := markovDOT.NewDOTMarkovChain()
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graph := idot.NewDOTDirectedGraph()
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err = dot.UnmarshalMulti(data, graph)
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if err != nil {
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panic(err)
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@ -72,7 +72,7 @@ func parse(cmd *cobra.Command, args []string) {
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outputMatrix(matrix)
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}
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func orderedAdjMatrix(g *markovDOT.DOTMarkovChain) (*mat.Dense, error) {
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func orderedAdjMatrix(g *idot.DOTDirectedGraph) (*mat.Dense, error) {
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matrix := g.AdjacencyMatrix()
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if len(nodeOrder) == 0 {
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return matrix, nil
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@ -86,7 +86,7 @@ func orderedAdjMatrix(g *markovDOT.DOTMarkovChain) (*mat.Dense, error) {
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nodes := g.Nodes()
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newOrder := make([]int, nodes.Len())
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for nodes.Next() {
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node := nodes.Node().(*markovDOT.Node)
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node := nodes.Node().(*idot.Node)
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id := node.DOTID()
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var ok bool
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