(in-package #:metabang.graph)
-;;; ---------------------------------------------------------------------------
;;; classes
-;;; ---------------------------------------------------------------------------
(defcondition graph-error (error)
((graph nil ir))
(:export-slots-p t)
(:documentation "This is the root condition for errors that occur while running code in CL-Graph."))
-;;; ---------------------------------------------------------------------------
(defcondition edge-error (graph-error)
((edge nil ir "The `edge` that is implicated in the condition."))
(:export-slots-p t)
(:documentation "This is the root condition for graph errors that have to do with edges."))
-;;; ---------------------------------------------------------------------------
(defcondition graph-vertex-not-found-error (graph-error)
((vertex nil ir "The vertex or value that could not be found in the graph."))
(:export-slots-p t)
(:documentation "This condition is signaled when a vertex can not be found in a graph."))
-;;; ---------------------------------------------------------------------------
(defcondition graph-vertex-not-found-in-edge-error (edge-error)
((vertex nil ir))
(:export-p t)
(:documentation "This condition is signaled when a vertex can not be found in an edge."))
-;;; ---------------------------------------------------------------------------
(defcondition graph-edge-not-found-error (graph-error)
((vertex-1 nil ir "One of the vertexes for which no connecting edge could be found.")
(vertex-2 nil ir "One of the vertexes for which no connecting edge could be found."))
(:report (lambda (c s)
- (format s "Edge between ~S and ~S not found in ~A"
+ (format s "Edge between ~S and ~S not found in ~A"
(vertex-1 c) (vertex-2 c) (graph c))))
(:export-p t)
(:export-slots-p t)
(:documentation "This condition is signaled when an edge cannot be found in a graph."))
-;;; ---------------------------------------------------------------------------
-(defclass* basic-vertex (container-node-mixin)
+(defclass* basic-vertex (container-node-mixin)
((depth-level 0 ia :type number "`Depth-level` is used by some algorithms for bookkeeping. [?? Should be in a mixin]")
(vertex-id 0 ir "`Vertex-id` is used internally to keep track of vertexes.")
(element :unbound ia :accessor value "The `element` is the value that this vertex represents.")
(:make-load-form-p t)
(:documentation "This is the root class for all vertexes in CL-Graph."))
-;;; ---------------------------------------------------------------------------
(defmethod initialize-instance :after ((object basic-vertex) &key graph vertex-id)
(when (and graph (not vertex-id))
(setf (slot-value object 'vertex-id)
(largest-vertex-id graph))
- (incf (slot-value graph 'largest-vertex-id))))
+ (incf (slot-value graph 'largest-vertex-id))))
-;;; ---------------------------------------------------------------------------
(defmethod print-object ((vertex basic-vertex) stream)
(print-unreadable-object (vertex stream :identity nil)
- (format stream "~A"
+ (format stream "~A"
(if (and (slot-exists-p vertex 'element) (slot-boundp vertex 'element))
(element vertex) "#unbound#"))))
-;;; ---------------------------------------------------------------------------
-
+
(defclass* basic-edge ()
((edge-id 0 ia "The `edge-id` is used internally by CL-Graph for bookkeeping.")
(element nil ia :accessor value :initarg :value)
(:make-load-form-p t)
(:documentation "This is the root class for all edges in CL-Graph."))
-;;; ---------------------------------------------------------------------------
(defmethod initialize-instance :after ((object basic-edge) &key graph edge-id)
(when (and graph (not edge-id))
(largest-edge-id graph))
(incf (slot-value graph 'largest-edge-id))))
-;;; ---------------------------------------------------------------------------
(defmethod print-object ((object basic-edge) stream)
- (print-unreadable-object (object stream :type t)
+ (print-unreadable-object (object stream :type t)
(format stream "<~A ~A>" (vertex-1 object) (vertex-2 object))))
-;;; ---------------------------------------------------------------------------
(defclass* directed-edge-mixin () ()
(:export-p t)
(:documentation "This mixin class is used to indicate that an edge is directed."))
-;;; ---------------------------------------------------------------------------
(defclass* weighted-edge-mixin ()
((weight 1d0 ia "The value of the weight of this edge. Defaults to 1.0d0"))
(:export-p t)
(:documentation "This mixin class adds a `weight` slot to an edge."))
-;;; ---------------------------------------------------------------------------
(defmethod weight ((edge basic-edge)) (values 1.0))
-;;; ---------------------------------------------------------------------------
(defclass* basic-graph ()
((graph-vertexes :unbound ir)
"The class used to create directed edges in the graph. This must extend the base-class for edges of the graph type and directed-edge-mixin. E.g., the directed-edge-class of a graph-container must extend graph-container-edge and directed-edge-mixin.")
(undirected-edge-class 'basic-edge ir
"The class used to create undirected edges in the graph. This must extend the base-class for edges of the graph type. E.g., all edges of a graph-container must extend graph-container-edge")
- (contains-directed-edge-p nil ar
+ (contains-directed-edge-p nil ar
"Returns true if graph contains at least one directed edge. [?? Not sure if this is really keep up-to-date.]")
(contains-undirected-edge-p nil ar
"Returns true if graph contains at least one undirected edge. [?? Not sure if this is really keep up-to-date.]")
:initial-size 25)
(:documentation "This is the root class for all graphs in CL-Graph."))
-;;; ---------------------------------------------------------------------------
(defmethod initialize-instance :after ((object basic-graph) &key initial-size
&allow-other-keys)
- (setf (slot-value object 'graph-vertexes)
+ (setf (slot-value object 'graph-vertexes)
(make-vertex-container object initial-size))
- (setf (slot-value object 'graph-edges)
+ (setf (slot-value object 'graph-edges)
(make-edge-container object initial-size)))
-;;; ---------------------------------------------------------------------------
(defmethod print-object ((graph basic-graph) stream)
(print-unreadable-object (graph stream :type t :identity t)
(format stream "[~A,~A]" (size graph) (edge-count graph))))
-;;; ---------------------------------------------------------------------------
-;;; internals
-;;; ---------------------------------------------------------------------------
+;;; internals
(defmethod add-vertex
((graph basic-graph) (value basic-vertex) &key if-duplicate-do)
(declare (ignore if-duplicate-do))
(values value))
-;;; ---------------------------------------------------------------------------
-(defmethod make-vertex-for-graph ((graph basic-graph) &rest args &key
- (vertex-class (vertex-class graph))
+(defmethod make-vertex-for-graph ((graph basic-graph) &rest args &key
+ (vertex-class (vertex-class graph))
&allow-other-keys)
(remf args :vertex-class)
(assert (subtypep vertex-class (vertex-class graph)) nil
"Vertex class '~A' must be a subtype of ~A" vertex-class (vertex-class graph))
(apply #'make-instance vertex-class :graph graph args))
-;;; ---------------------------------------------------------------------------
-(defmethod make-edge-for-graph ((graph basic-graph)
+(defmethod make-edge-for-graph ((graph basic-graph)
(vertex-1 basic-vertex) (vertex-2 basic-vertex)
&rest args &key
(edge-type (default-edge-type graph))
(eq edge-type :directed)
(eq edge-type :undirected)) nil
"Edge-type must be nil, :directed or :undirected.")
-
+
(assert (or (null edge-class)
(subtypep edge-class (directed-edge-class graph))
(subtypep edge-class (undirected-edge-class graph))) nil
"Edge-class must be nil or a subtype of ~A or ~A"
(undirected-edge-class graph)
(directed-edge-class graph))
-
+
(apply #'make-instance
(or edge-class
(ecase edge-type
:graph graph
:vertex-1 vertex-1 :vertex-2 vertex-2 args))
-;;; ---------------------------------------------------------------------------
(defmethod make-graph ((graph-type symbol) &rest args &key &allow-other-keys)
(apply #'make-instance graph-type args))
-;;; ---------------------------------------------------------------------------
-;;; generic implementation
-;;; ---------------------------------------------------------------------------
+;;; generic implementation
(defmethod undirected-edge-p ((edge basic-edge))
(not (directed-edge-p edge)))
-;;; ---------------------------------------------------------------------------
(defmethod directed-edge-p ((edge basic-edge))
(typep edge 'directed-edge-mixin))
-;;; ---------------------------------------------------------------------------
(defmethod tagged-edge-p ((edge basic-edge))
(tag edge))
-;;; ---------------------------------------------------------------------------
(defmethod untagged-edge-p ((edge basic-edge))
(null (tag edge)))
-;;; ---------------------------------------------------------------------------
(defmethod tag-all-edges ((graph basic-graph))
(iterate-edges
(lambda (e)
(setf (tag e) t))))
-;;; ---------------------------------------------------------------------------
(defmethod tag-all-edges ((vertex basic-vertex))
(iterate-edges
(lambda (e)
(setf (tag e) t))))
-;;; ---------------------------------------------------------------------------
(defmethod untag-all-edges ((graph basic-graph))
(iterate-edges
(lambda (e)
(setf (tag e) nil))))
-;;; ---------------------------------------------------------------------------
(defmethod untag-all-edges ((vertex basic-vertex))
(iterate-edges
(lambda (e)
(setf (tag e) nil))))
-;;; ---------------------------------------------------------------------------
(defmethod untag-edges ((edges list))
(iterate-nodes
(lambda (e)
(setf (tag e) nil))))
-;;; ---------------------------------------------------------------------------
(defmethod tag-edges ((edges list))
(iterate-nodes
(setf (tag e) t))))
-;;; ---------------------------------------------------------------------------
(defmethod (setf element) :around ((value t) (vertex basic-vertex))
(with-changing-vertex (vertex)
(call-next-method)))
-;;; ---------------------------------------------------------------------------
;; :ignore, :force, :replace, <function>
-(defmethod add-vertex ((graph basic-graph) (value t) &rest args &key
+(defmethod add-vertex ((graph basic-graph) (value t) &rest args &key
(if-duplicate-do :ignore) &allow-other-keys)
(remf args :if-duplicate-do)
(let ((existing-vertex (find-vertex graph value nil)))
(if existing-vertex
(cond ((eq if-duplicate-do :ignore)
(values existing-vertex :ignore))
-
+
((eq if-duplicate-do :force)
(add-it :force))
-
+
((eq if-duplicate-do :replace)
(replace-vertex graph existing-vertex (make-it)))
-
+
((eq if-duplicate-do :replace-value)
(setf (element existing-vertex) value)
(values existing-vertex :replace-value))
-
+
+ ((eq if-duplicate-do :error)
+ (error "Attempting to insert a duplicate node in graph ~a" graph))
+
(t
(values (funcall if-duplicate-do existing-vertex)
:duplicate)))
-
+
;; not found, add
(add-it :new)))))
-;;; ---------------------------------------------------------------------------
(defmethod replace-vertex ((graph basic-graph) (old basic-vertex) (new basic-vertex))
;; we need the graph and the new vertex to reference each other
;; we need every edge of the old vertex to use the new-vertex
;; we need to remove the old vertex
- ;;
+ ;;
;; since I'm tired today, let's ignore trying to make this elegant
-
+
;; first, we connect the edges to the new vertex so that they don't get deleted
;; when we delete the old vertex
- (iterate-edges
+ (iterate-edges
old
(lambda (e)
- (if (eq (vertex-1 e) old)
+ (if (eq (vertex-1 e) old)
(setf (slot-value e 'vertex-1) new) (setf (slot-value e 'vertex-2) new))
(add-edge-to-vertex e new)))
-
+
(delete-vertex graph old)
(add-vertex graph new))
-;;; ---------------------------------------------------------------------------
(defmethod add-edge-between-vertexes ((graph basic-graph) (value-1 t) (value-2 t)
&rest args &key (if-duplicate-do :ignore)
(add-vertex graph value-2 :if-duplicate-do :replace))))
(apply #'add-edge-between-vertexes graph v1 v2 args)))
-;;; ---------------------------------------------------------------------------
;;; to-do - add-edge-between-vertexes needs to be able to grab the weight and
;;; color from edges that inherit from weight and color mixins
-;;; ---------------------------------------------------------------------------
-(defmethod add-edge-between-vertexes ((graph basic-graph)
+(defmethod add-edge-between-vertexes ((graph basic-graph)
(v-1 basic-vertex) (v-2 basic-vertex)
- &rest args &key
+ &rest args &key
(value nil) (if-duplicate-do :ignore)
&allow-other-keys)
(declare (dynamic-extent args))
(remf args :if-duplicate-do)
-
+
(let ((edge (find-edge-between-vertexes graph v-1 v-2 :error-if-not-found? nil)))
(flet ((add-it (why)
- (values (add-edge
- graph
+ (values (add-edge
+ graph
(apply #'make-edge-for-graph graph v-1 v-2 args))
why)))
(if edge
- (cond
+ (cond
((eq if-duplicate-do :ignore)
(values edge :ignore))
-
+
((eq if-duplicate-do :force)
(add-it :force))
-
+
((eq if-duplicate-do :force-if-different-value)
(if (equal (value edge) value)
(values :ignore)
(add-it :force)))
-
-
+
+
((eq if-duplicate-do :replace)
(warn "replace edges isn't really implemented, maybe you can use :replace-value")
(delete-edge graph edge)
(add-it :replace))
-
+
((eq if-duplicate-do :replace-value)
(setf (element edge) value)
(values edge :replace-value))
-
+
(t
(setf edge (funcall if-duplicate-do edge))
(values edge :duplicate)))
-
+
;; not found, add
(add-it :new)))))
-;;; ---------------------------------------------------------------------------
(defmethod add-edge-to-vertex ((edge basic-edge) (vertex basic-vertex))
(values))
-;;; ---------------------------------------------------------------------------
(defmethod find-edge-between-vertexes
((graph basic-graph) (value-1 t) (value-2 t)
(error 'graph-edge-not-found-error
:graph graph :vertex-1 v1 :vertex-2 v2)))))
-;;; ---------------------------------------------------------------------------
(defmethod delete-edge-between-vertexes ((graph basic-graph)
(value-or-vertex-1 t)
(when edge
(delete-edge graph edge))))
-;;; ---------------------------------------------------------------------------
(defmethod delete-edge :after ((graph basic-graph) (edge basic-edge))
(delete-item (graph-edges graph) edge)
(empty! (graph-edges graph))
graph)
-;;; ---------------------------------------------------------------------------
(defmethod delete-vertex ((graph basic-graph) value-or-vertex)
(delete-vertex graph (find-vertex graph value-or-vertex)))
-;;; ---------------------------------------------------------------------------
(defmethod delete-vertex ((graph basic-graph) (vertex basic-vertex))
(unless (eq graph (graph vertex))
(error 'graph-vertex-not-found-error
:graph graph :vertex vertex))
-
- (iterate-edges
+
+ (iterate-edges
vertex
(lambda (edge)
(delete-edge graph edge)))
-
+
(empty! (vertex-edges vertex))
(values vertex graph))
-;;; ---------------------------------------------------------------------------
-(defmethod delete-vertex :after ((graph basic-graph)
+(defmethod delete-vertex :after ((graph basic-graph)
(vertex basic-vertex))
(setf (slot-value vertex 'graph) nil)
(delete-item-at (graph-vertexes graph)
(funcall (vertex-key graph) (element vertex))))
-;;; ---------------------------------------------------------------------------
(defmethod insert-item ((graph basic-graph) value)
(add-vertex graph value))
-;;; ---------------------------------------------------------------------------
(defmethod source-edges ((vertex basic-vertex) &optional filter)
(collect-using #'iterate-source-edges filter vertex))
-;;; ---------------------------------------------------------------------------
(defmethod target-edges ((vertex basic-vertex) &optional filter)
(collect-using #'iterate-target-edges filter vertex))
-;;; ---------------------------------------------------------------------------
(defmethod child-vertexes (vertex &optional filter)
(collect-using #'iterate-children filter vertex))
-;;; ---------------------------------------------------------------------------
(defmethod parent-vertexes (vertex &optional filter)
(collect-using #'iterate-parents filter vertex))
-;;; ---------------------------------------------------------------------------
(defmethod neighbor-vertexes (vertex &optional filter)
(collect-using #'iterate-neighbors filter vertex))
-;;; ---------------------------------------------------------------------------
(defmethod adjacentp ((graph basic-graph) vertex-1 vertex-2)
(adjacentp graph (find-vertex graph vertex-1) (find-vertex graph vertex-2)))
-;;; ---------------------------------------------------------------------------
(defmethod adjacentp ((graph basic-graph) (vertex-1 basic-vertex) (vertex-2 basic-vertex))
- (iterate-neighbors
+ (iterate-neighbors
vertex-1
(lambda (vertex)
(when (eq vertex vertex-2)
(return-from adjacentp t))))
(values nil))
-;;; ---------------------------------------------------------------------------
(defmethod number-of-neighbors (vertex)
(count-using #'iterate-neighbors nil vertex))
-;;; ---------------------------------------------------------------------------
(defmethod in-cycle-p ((graph basic-graph) (vertex t))
(in-cycle-p graph (find-vertex graph vertex)))
-;;; ---------------------------------------------------------------------------
(defmethod renumber-vertexes ((graph basic-graph))
(let ((count 0))
(incf count)))
(setf (slot-value graph 'largest-vertex-id) count)))
-;;; ---------------------------------------------------------------------------
(defmethod renumber-edges ((graph basic-graph))
(let ((count 0))
(incf count)))
(setf (slot-value graph 'largest-edge-id) count)))
-;;; ---------------------------------------------------------------------------
(deprecated
(defmethod container->list ((graph basic-graph))
(collect-elements (graph-vertexes graph))))
-;;; ---------------------------------------------------------------------------
-(defmethod add-vertex :before ((graph basic-graph) (vertex basic-vertex)
+(defmethod add-vertex :before ((graph basic-graph) (vertex basic-vertex)
&key &allow-other-keys)
-
+
(assert (typep vertex (vertex-class graph)))
- (setf (item-at (graph-vertexes graph)
+ (setf (item-at (graph-vertexes graph)
(funcall (vertex-key graph) (element vertex))) vertex
(slot-value vertex 'graph) graph))
-;;; ---------------------------------------------------------------------------
(defmethod add-edge :before ((graph basic-graph) (edge basic-edge) &key force-new?)
(declare (ignore force-new?))
(progn (setf (contains-directed-edge-p graph) t))
(progn (setf (contains-undirected-edge-p graph) t))))
-;;; ---------------------------------------------------------------------------
(defmethod find-vertex ((graph basic-graph) (value t)
&optional (error-if-not-found? t))
(iterate-vertexes
edge
(lambda (vertex)
- (when (funcall (vertex-test (graph edge))
+ (when (funcall (vertex-test (graph edge))
(funcall (vertex-key (graph edge)) (element vertex)) value)
(return-from find-vertex vertex))))
(when error-if-not-found?
(error "~A not found in ~A" vertex graph))))
(defmethod iterate-elements ((graph basic-graph) fn)
- (iterate-elements (graph-vertexes graph)
+ (iterate-elements (graph-vertexes graph)
(lambda (vertex) (funcall fn (element vertex)))))
-;;; ---------------------------------------------------------------------------
(defmethod iterate-nodes ((graph basic-graph) fn)
(iterate-nodes (graph-vertexes graph) fn))
-;;; ---------------------------------------------------------------------------
(defmethod iterate-vertexes ((graph basic-graph) fn)
(iterate-nodes (graph-vertexes graph) fn))
-;;; ---------------------------------------------------------------------------
(defmethod iterate-vertexes ((edge basic-edge) fn)
(funcall fn (vertex-1 edge))
(funcall fn (vertex-2 edge)))
-;;; ---------------------------------------------------------------------------
(defmethod size ((graph basic-graph))
(size (graph-vertexes graph)))
-;;; ---------------------------------------------------------------------------
(defmethod edges ((graph basic-graph))
(collect-using #'iterate-edges nil graph))
-;;; ---------------------------------------------------------------------------
(defmethod edges ((vertex basic-vertex))
(collect-using #'iterate-edges nil vertex))
-;;; ---------------------------------------------------------------------------
(deprecated
"Use size instead"
(defmethod vertex-count ((graph basic-graph))
(size graph)))
-;;; ---------------------------------------------------------------------------
(defmethod vertexes ((graph basic-graph))
(collect-elements (graph-vertexes graph)))
-;;; ---------------------------------------------------------------------------
(defmethod source-edge-count ((vertex basic-vertex))
(count-using 'iterate-source-edges nil vertex))
-;;; ---------------------------------------------------------------------------
(defmethod target-edge-count ((vertex basic-vertex))
(count-using 'iterate-target-edges nil vertex))
-;;; ---------------------------------------------------------------------------
(defmethod graph-roots ((graph basic-graph))
(collect-elements (graph-vertexes graph) :filter #'rootp))
-;;; ---------------------------------------------------------------------------
(defmethod rootp ((vertex basic-vertex))
;;?? this is inefficient in the same way that (zerop (length <list>)) is...
- (zerop (source-edge-count vertex)))
+ (zerop (target-edge-count vertex)))
-;;; ---------------------------------------------------------------------------
(defmethod find-vertex-if ((graph basic-graph) fn &key key)
- (iterate-vertexes graph
+ (iterate-vertexes graph
(lambda (v)
- (when (funcall fn (if key (funcall key v) v))
+ (when (funcall fn (if key (funcall key v) v))
(return-from find-vertex-if v))))
(values nil))
-;;; ---------------------------------------------------------------------------
(defmethod find-vertex-if ((edge basic-edge) fn &key key)
(iterate-vertexes edge
(return-from find-vertex-if v))))
(values nil))
-;;; ---------------------------------------------------------------------------
(defmethod find-edge-if ((graph basic-graph) fn &key key)
(iterate-edges graph
(return-from find-edge-if e))))
(values nil))
-;;; ---------------------------------------------------------------------------
(defmethod find-edges-if ((graph basic-graph) fn)
(collect-using 'iterate-edges fn graph))
-;;; ---------------------------------------------------------------------------
(defmethod find-vertexes-if ((graph basic-graph) fn)
(collect-using 'iterate-vertexes fn graph))
-;;; ---------------------------------------------------------------------------
(defmethod empty! ((graph basic-graph))
(empty! (graph-edges graph))
(renumber-vertexes graph)
(values))
-;;; ---------------------------------------------------------------------------
(defun neighbors-to-children (new-graph root &optional visited-list)
(pushnew root visited-list)
root
(lambda (c)
(when (not (member c visited-list))
- (add-edge-between-vertexes
+ (add-edge-between-vertexes
new-graph (value root) (value c) :edge-type :directed)
(neighbors-to-children new-graph c visited-list)))))
-;;; ---------------------------------------------------------------------------
-
+
(defmethod generate-directed-free-tree ((graph basic-graph) root)
(generate-directed-free-tree graph (find-vertex graph root)))
-;;; ---------------------------------------------------------------------------
(defmethod force-undirected ((graph basic-graph))
- (iterate-edges
+ (iterate-edges
graph
(lambda (edge)
(change-class edge (undirected-edge-class graph)))))
-;;; ---------------------------------------------------------------------------
;;; traversal
-;;; ---------------------------------------------------------------------------
(defmethod traverse-elements ((thing basic-graph) (style symbol) fn)
(let ((marker (gensym)))
thing
(lambda (vertex)
(setf (tag vertex) marker)))
-
+
(iterate-elements
(graph-roots thing)
(lambda (vertex)
(traverse-elements-helper vertex style marker fn)))))
-;;; ---------------------------------------------------------------------------
(defmethod traverse-elements-helper ((thing basic-vertex) (style (eql :depth)) marker fn)
(when (eq (tag thing) marker)
thing
(lambda (vertex)
(traverse-elements-helper vertex style marker fn)))
-
+
(funcall fn thing)))
-;;; ---------------------------------------------------------------------------
(defmethod traverse-elements-helper ((thing basic-vertex) (style (eql :breadth)) marker fn)
(when (eq (tag thing) marker)
(setf (tag thing) nil)
(funcall fn thing))
-
+
(iterate-neighbors
thing
(lambda (vertex)
(when (eq (tag vertex) marker)
(funcall fn vertex))))
-
+
(iterate-neighbors
thing
(lambda (vertex)
(setf (tag vertex) nil)
(traverse-elements-helper vertex style marker fn)))))
-;;; ---------------------------------------------------------------------------
-
;; also in metatilites
(defun graph-search-for-cl-graph (states goal-p successors combiner
&key (state= #'eql) old-states
- (new-state-fn #'new-states))
+ (new-state-fn (error "argument required")))
"Find a state that satisfies goal-p. Start with states,
- and search according to successors and combiner.
+ and search according to successors and combiner.
Don't try the same state twice."
(cond ((null states) nil)
((funcall goal-p (first states)) (first states))
(defmethod in-cycle-p ((graph basic-graph) (start-vertex basic-vertex))
(let ((first-time? t))
(not (null
- (graph-search-for-cl-graph
+ (graph-search-for-cl-graph
(list start-vertex)
(lambda (v)
(if first-time?
(member state old-states :test state=))))
(funcall successors (first states)))))))))
-;;; ---------------------------------------------------------------------------
-(defmethod in-undirected-cycle-p
+(defmethod in-undirected-cycle-p
((graph basic-graph) (current basic-vertex)
&optional (marked (make-container 'simple-associative-container))
(previous nil))
(setf (item-at-1 marked current) t)
(iterate-children current
(lambda (child)
- (cond
+ (cond
((eq child previous) nil)
((item-at-1 marked child) (return-from do-it t))
(t
(in-undirected-cycle-p graph child marked current)))))))
-;;; ---------------------------------------------------------------------------
(defmethod any-undirected-cycle-p ((graph basic-graph))
(let ((marked (make-container 'simple-associative-container)))
(return-from any-undirected-cycle-p v)))))
(values nil)))
-;;; ---------------------------------------------------------------------------
(defun remove-list (original target)
"Removes all elements in original from target."
(member target-element original))
target))
-;;; ---------------------------------------------------------------------------
(defun get-nodelist-relatives (node-list)
"Collects set of unique relatives of nodes in node-list."
(let ((unique-relatives nil))
(dolist (node node-list)
- (setf unique-relatives
+ (setf unique-relatives
(append-unique (neighbor-vertexes node) unique-relatives)))
unique-relatives))
-;;; ---------------------------------------------------------------------------
(defun get-transitive-closure (vertex-list &optional (depth nil))
"Given a list of vertices, returns a combined list of all of the nodes
-in the transitive closure(s) of each of the vertices in the list
-(without duplicates). Optional DEPTH limits the depth (in _both_ the
-child and parent directions) to which the closure is gathered; default
+in the transitive closure(s) of each of the vertices in the list
+(without duplicates). Optional DEPTH limits the depth (in _both_ the
+child and parent directions) to which the closure is gathered; default
nil gathers the entire closure(s)."
(labels ((collect-transitive-closure (remaining visited depth)
- (if (and remaining
+ (if (and remaining
(typecase depth
(null t)
(fixnum (>= (decf depth) 0))))
-
+
(let* ((non-visited-relatives ;; list of relatives not yet visited
(remove-list visited
(get-nodelist-relatives remaining)))
(values visited))))
(collect-transitive-closure vertex-list vertex-list depth)))
-;;; ---------------------------------------------------------------------------
(defmethod edge-count ((graph basic-graph))
(count-using #'iterate-edges nil graph))
-;;; ---------------------------------------------------------------------------
(defmethod edge-count ((vertex basic-vertex))
(size (vertex-edges vertex)))
-;;; ---------------------------------------------------------------------------
(defmethod topological-sort ((graph basic-graph))
(assign-level graph 0)
(sort (collect-elements (graph-vertexes graph)) #'<
:key (lambda (x) (depth-level x))))
-;;; ---------------------------------------------------------------------------
(defmethod assign-level ((graph basic-graph) (level number))
(loop for node in (graph-roots graph)
do (assign-level node 0)))
-;;; ---------------------------------------------------------------------------
(defmethod assign-level ((node basic-vertex) (level number))
(if (or (not (depth-level node))
(setf (depth-level node) level))
(iterate-children node (lambda (x) (assign-level x (1+ level)))))
-;;; ---------------------------------------------------------------------------
(defmethod depth ((graph basic-graph))
(assign-level graph 0)
(setf depth (depth-level vertex)))))
depth))
-;;; ---------------------------------------------------------------------------
;;; mapping
-;;; ---------------------------------------------------------------------------
(defun map-paths (graph start-vertex length fn &key (filter (constantly t)))
- "Apply fn to each path that starts at start-vertex and is of exactly length
-length"
+ "Apply fn to each path that starts at start-vertex and is of exactly length
+length"
;; a sort of depth first search
(labels ((follow-path (next-vertex current-path length)
(when (zerop length)
(funcall fn (reverse current-path)))
; (format t "~%~A ~A ~A" current-path next-vertex length)
(when (plusp length)
- (iterate-neighbors
+ (iterate-neighbors
next-vertex
(lambda (v)
(when (funcall filter v)
(unless (find-item current-path v)
(let ((new-path (copy-list current-path)))
(follow-path v (push v new-path) (1- length))))))))))
- (iterate-neighbors
+ (iterate-neighbors
start-vertex
(lambda (v)
(when (funcall filter v)
(follow-path v (list v start-vertex) (1- length))))))
(values graph))
-;;; ---------------------------------------------------------------------------
(defun map-shortest-paths
(graph start-vertex depth fn &key (filter (constantly t)))
"Apply fn to each shortest path starting at `start-vertex` of depth `depth`. The `filter` predicate is used to remove vertexes from consideration."
- (bind ((visited (make-container 'simple-associative-container
+ (let ((visited (make-container 'simple-associative-container
:test #'equal)))
(labels ((visit (p)
(setf (item-at-1 visited p) t))
:filter filter))))
-;;; ---------------------------------------------------------------------------
;;; utilities
-;;; ---------------------------------------------------------------------------
(defun append-unique (list1 list2)
(remove-duplicates (append list1 list2)))
-;;; ---------------------------------------------------------------------------
;;; project-bipartite-graph
-;;; ---------------------------------------------------------------------------
-(defmethod project-bipartite-graph
+(defmethod project-bipartite-graph
((new-graph symbol) graph vertex-class vertex-classifier)
(project-bipartite-graph
(make-instance new-graph) graph vertex-class vertex-classifier))
-;;; ---------------------------------------------------------------------------
-(defmethod project-bipartite-graph
+(defmethod project-bipartite-graph
((new-graph basic-graph) graph vertex-class vertex-classifier)
(iterate-vertexes
graph
(lambda (v)
(when (eq (funcall vertex-classifier v) vertex-class)
(add-vertex new-graph (element v)))))
-
+
(iterate-vertexes
graph
(lambda (v)
(iterate-neighbors
v
(lambda (other-class-vertex)
- (iterate-neighbors
+ (iterate-neighbors
other-class-vertex
(lambda (this-class-vertex)
(when (< (vertex-id v) (vertex-id this-class-vertex))
- (add-edge-between-vertexes
+ (add-edge-between-vertexes
new-graph (element v) (element this-class-vertex)
:if-duplicate-do (lambda (e) (incf (weight e))))))))))))
-
+
new-graph)
-
+
#+Test
(pro:with-profiling
(setf (ds :g-5000-m-projection)
'undirected-graph-container
(ds :g-5000)
:m
- (lambda (v)
+ (lambda (v)
(let ((vertex-class (aref (symbol-name (element v)) 0)))
(cond ((member vertex-class '(#\a #\b) :test #'char-equal)
:m)
'undirected-graph-container
(ds :g-5000)
:h
- (lambda (v)
+ (lambda (v)
(let ((vertex-class (aref (symbol-name (element v)) 0)))
(cond ((member vertex-class '(#\a #\b) :test #'char-equal)
:m)
'undirected-graph-container
(ds :g-1000)
:m
- (lambda (v)
+ (lambda (v)
(let ((vertex-class (aref (symbol-name (element v)) 0)))
(cond ((member vertex-class '(#\x #\y) :test #'char-equal)
:m)