src/directed-graph.lisp @ 3b7144885d7e
Make the test scaffolding actually work
author |
Steve Losh <steve@stevelosh.com> |
date |
Sun, 06 Nov 2016 12:35:34 +0000 |
parents |
96febb435c83 |
children |
8a0ab75bd0df |
(in-package :digraph)
;;;; Utils --------------------------------------------------------------------
(defun make-hash-table-portably (&key size test hash-function)
;; Only try to pass :hash-function if we were given it, so we don't explode in
;; implementations that don't support it.
;;
;; Also, use `apply` instead of a simple `if` because we don't want spurious
;; compiler warnings... This is ugly.
(apply #'make-hash-table :test test :size size
(if hash-function
(list :hash-function hash-function)
'())))
;;;; Data ---------------------------------------------------------------------
(defclass digraph ()
((nodes :initarg :nodes :accessor digraph-nodes)
(test :initarg :test :accessor digraph-test)
(hash-function :initarg :hash-function :accessor digraph-hash-function)))
(defun make-digraph (&key initial-vertices
(test #'eql)
(hash-function nil))
(let ((digraph (make-instance 'digraph
:nodes (make-hash-table-portably
:test test
:size (length initial-vertices)
:hash-function hash-function)
:test test
:hash-function hash-function)))
(mapc (curry #'insert-vertex digraph) initial-vertices)
digraph))
(defmethod print-object ((d digraph) stream)
(print-unreadable-object (d stream :type t :identity t)
(format stream "~:S" (hash-table-keys (digraph-nodes d)))))
(defmacro pred (digraph object)
`(car (gethash ,object (digraph-nodes ,digraph))))
(defmacro succ (digraph object)
`(cdr (gethash ,object (digraph-nodes ,digraph))))
;;;; Basic API ----------------------------------------------------------------
(defun vertices (digraph)
(hash-table-keys (digraph-nodes digraph)))
(defun predecessors (digraph object)
(pred digraph object))
(defun successors (digraph object)
(succ digraph object))
(defun neighbors (digraph object)
(union (predecessors digraph object)
(predecessors digraph object)
:test (digraph-test digraph)))
(defun contains-vertex-p (digraph object)
(nth-value 1 (gethash object (digraph-nodes digraph))))
(defun contains-edge-p (digraph predecessor successor)
(ensure-boolean (member successor (succ digraph predecessor)
:test (digraph-test digraph))))
(defun insert-vertex (digraph object)
(nth-value 1 (ensure-gethash object (digraph-nodes digraph)
(cons nil nil))))
(defun insert-edge (digraph predecessor successor)
(assert (contains-vertex-p digraph predecessor) (predecessor)
"Cannot add edge with predecessor ~S because it is not in the graph"
predecessor)
(assert (contains-vertex-p digraph successor) (successor)
"Cannot add edge with successor ~S because it is not in the graph"
successor)
(pushnew predecessor (pred digraph successor) :test (digraph-test digraph))
(pushnew successor (succ digraph predecessor) :test (digraph-test digraph))
(values))
(defun remove-edge (digraph predecessor successor)
(removef (succ digraph predecessor) successor :test (digraph-test digraph))
(removef (pred digraph successor) predecessor :test (digraph-test digraph))
(values))
(defun remove-vertex (digraph object)
(let ((ps (predecessors digraph object))
(ss (successors digraph object))
(test (digraph-test digraph)))
(loop :for p :in ps :do (removef (succ digraph p) object :test test))
(loop :for s :in ss :do (removef (pred digraph s) object :test test)))
(remhash object (digraph-nodes digraph))
(values))
(defun degree (digraph object)
(length (neighbors digraph object)))
(defun degree-in (digraph object)
(length (predecessors digraph object)))
(defun degree-out (digraph object)
(length (successors digraph object)))
(defun size (digraph)
(hash-table-count (digraph-nodes digraph)))
;;;; Iteration ----------------------------------------------------------------
(defmacro do-vertices ((symbol digraph) &body body)
`(loop :for ,symbol :being :the hash-keys :of (digraph-nodes ,digraph)
:do (progn ,@body)))
(defmacro do-edges ((predecessor-symbol successor-symbol digraph) &body body)
(with-gensyms (succs)
`(loop
:for ,predecessor-symbol :being :the hash-keys :of (digraph-nodes ,digraph)
:using (hash-value (nil . ,succs))
:do (loop :for ,successor-symbol :in ,succs ; i miss u, iterate
:do (progn ,@body)))))
(defun mapc-vertices (function digraph)
(do-vertices (v digraph) (funcall function v)))
(defun mapc-edges (function digraph)
(do-edges (p s digraph) (funcall function p s)))
(defun map-vertices (function digraph)
(let ((result nil))
(do-vertices (v digraph) (push (funcall function v) result))
result))
(defun map-edges (function digraph)
(let ((result nil))
(do-edges (p s digraph) (push (funcall function p s) result))
result))
(defun dump (digraph)
(format t "Digraph :TEST ~A~%:CONTENTS " (digraph-test digraph))
(finish-output)
(ql:quickload :losh :silent t)
(funcall (intern "PRINT-HASH-TABLE" (find-package :losh))
(digraph-nodes digraph))
(values))
;;;; Copying ------------------------------------------------------------------
(defun copy-digraph (digraph)
;; todo make this faster, but at least this works
(let ((copy (make-digraph :test (digraph-test digraph)
:initial-vertices (vertices digraph))))
(do-edges (p s digraph) (insert-edge digraph p s))
copy))
;;;; Scratch ------------------------------------------------------------------
(defparameter *d* (make-digraph))
(insert-vertex *d* 'a)
(insert-vertex *d* 'b)
(insert-vertex *d* 'c)
(insert-edge *d* 'b 'c)
(remove-edge *d* 'a 'a)
(remove-vertex *d* 'a)
; (dump *d*)