isabelle: src/Pure/General/graph.scala@41b5e515c238 (annotated)

46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	1	/* Title: Pure/General/graph.scala
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	2	Author: Makarius
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	3
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	4	Directed graphs.
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	5	*/
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	6
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	7	package isabelle
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	8
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	9
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	10	import scala.collection.immutable.{SortedMap, SortedSet}
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	11	import scala.annotation.tailrec
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	12
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	13
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	14	object Graph
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	15	{
48348 cbb25adad26f clarified signature; wenzelm parents: 46712 diff changeset	16	class Duplicate[Key](val key: Key) extends Exception
70651 d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	17	{
d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	18	override def toString: String = "Graph.Duplicate(" + key.toString + ")"
d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	19	}
48348 cbb25adad26f clarified signature; wenzelm parents: 46712 diff changeset	20	class Undefined[Key](val key: Key) extends Exception
70651 d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	21	{
d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	22	override def toString: String = "Graph.Undefined(" + key.toString + ")"
d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	23	}
48348 cbb25adad26f clarified signature; wenzelm parents: 46712 diff changeset	24	class Cycles[Key](val cycles: List[List[Key]]) extends Exception
70651 d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	25	{
d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	26	override def toString: String = cycles.mkString("Graph.Cycles(", ",\n", ")")
d1d4a1b1ff1f tuned messages; wenzelm parents: 70636 diff changeset	27	}
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	28
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	29	def empty[Key, A](implicit ord: Ordering[Key]): Graph[Key, A] =
d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	30	new Graph[Key, A](SortedMap.empty(ord))
46667 318b669fe660 standard Graph instances; wenzelm parents: 46666 diff changeset	31
70636 a56eab490f4e clarified signature: full dependency graph; wenzelm parents: 68496 diff changeset	32	def make[Key, A](entries: List[((Key, A), List[Key])],
70692 41b5e515c238 clarified signature: eliminated unused option; wenzelm parents: 70651 diff changeset	33	symmetric: Boolean = false)(implicit ord: Ordering[Key]): Graph[Key, A] =
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	34	{
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	35	val graph1 =
70692 41b5e515c238 clarified signature: eliminated unused option; wenzelm parents: 70651 diff changeset	36	(empty[Key, A](ord) /: entries) { case (graph, ((x, info), _)) => graph.new_node(x, info) }
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	37	val graph2 =
67935 61888dd27f73 clarified signature; wenzelm parents: 67018 diff changeset	38	(graph1 /: entries) { case (graph, ((x, _), ys)) =>
61888dd27f73 clarified signature; wenzelm parents: 67018 diff changeset	39	(graph /: ys)({ case (g, y) => if (symmetric) g.add_edge(y, x) else g.add_edge(x, y) }) }
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	40	graph2
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	41	}
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	42
46667 318b669fe660 standard Graph instances; wenzelm parents: 46666 diff changeset	43	def string[A]: Graph[String, A] = empty(Ordering.String)
318b669fe660 standard Graph instances; wenzelm parents: 46666 diff changeset	44	def int[A]: Graph[Int, A] = empty(Ordering.Int)
318b669fe660 standard Graph instances; wenzelm parents: 46666 diff changeset	45	def long[A]: Graph[Long, A] = empty(Ordering.Long)
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	46
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	47
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	48	/* XML data representation */
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	49
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	50	def encode[Key, A](key: XML.Encode.T[Key], info: XML.Encode.T[A]): XML.Encode.T[Graph[Key, A]] =
60215 5fb4990dfc73 misc tuning, based on warnings by IntelliJ IDEA; wenzelm parents: 59259 diff changeset	51	(graph: Graph[Key, A]) => {
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	52	import XML.Encode._
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	53	list(pair(pair(key, info), list(key)))(graph.dest)
60215 5fb4990dfc73 misc tuning, based on warnings by IntelliJ IDEA; wenzelm parents: 59259 diff changeset	54	}
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	55
59245 be4180f3c236 more formal Graph_Display.Node (with ordering) and Graph_Display.Edge; wenzelm parents: 59212 diff changeset	56	def decode[Key, A](key: XML.Decode.T[Key], info: XML.Decode.T[A])(
59212 ecf64bc69778 converse graph according to Graph_Display; wenzelm parents: 56372 diff changeset	57	implicit ord: Ordering[Key]): XML.Decode.T[Graph[Key, A]] =
60215 5fb4990dfc73 misc tuning, based on warnings by IntelliJ IDEA; wenzelm parents: 59259 diff changeset	58	(body: XML.Body) => {
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	59	import XML.Decode._
59245 be4180f3c236 more formal Graph_Display.Node (with ordering) and Graph_Display.Edge; wenzelm parents: 59212 diff changeset	60	make(list(pair(pair(key, info), list(key)))(body))(ord)
60215 5fb4990dfc73 misc tuning, based on warnings by IntelliJ IDEA; wenzelm parents: 59259 diff changeset	61	}
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	62	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	63
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	64
46712 8650d9a95736 prefer final ADTs -- prevent ooddities; wenzelm parents: 46668 diff changeset	65	final class Graph[Key, A] private(rep: SortedMap[Key, (A, (SortedSet[Key], SortedSet[Key]))])
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	66	{
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	67	type Keys = SortedSet[Key]
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	68	type Entry = (A, (Keys, Keys))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	69
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	70	def ordering: Ordering[Key] = rep.ordering
d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	71	def empty_keys: Keys = SortedSet.empty[Key](ordering)
d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	72
46666 b01b6977a5e8 clarified signature -- avoid oddities of Iterable like Iterator.map; wenzelm parents: 46661 diff changeset	73
b01b6977a5e8 clarified signature -- avoid oddities of Iterable like Iterator.map; wenzelm parents: 46661 diff changeset	74	/* graphs */
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	75
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	76	def is_empty: Boolean = rep.isEmpty
48507 1182677e4728 tuned signature; wenzelm parents: 48350 diff changeset	77	def defined(x: Key): Boolean = rep.isDefinedAt(x)
68321 daca5f2a0c90 tuned signature; wenzelm parents: 67935 diff changeset	78	def domain: Set[Key] = rep.keySet
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	79
68496 7266fb64de69 more scalable output; wenzelm parents: 68321 diff changeset	80	def size: Int = rep.size
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	81	def iterator: Iterator[(Key, Entry)] = rep.iterator
fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	82
fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	83	def keys_iterator: Iterator[Key] = iterator.map(_._1)
fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	84	def keys: List[Key] = keys_iterator.toList
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	85
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	86	def dest: List[((Key, A), List[Key])] =
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	87	(for ((x, (i, (_, succs))) <- iterator) yield ((x, i), succs.toList)).toList
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	88
46666 b01b6977a5e8 clarified signature -- avoid oddities of Iterable like Iterator.map; wenzelm parents: 46661 diff changeset	89	override def toString: String =
49560 11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	90	dest.map({ case ((x, _), ys) =>
11430dd89e35 added graph encode/decode operations; wenzelm parents: 48648 diff changeset	91	x.toString + " -> " + ys.iterator.map(_.toString).mkString("{", ", ", "}") })
46666 b01b6977a5e8 clarified signature -- avoid oddities of Iterable like Iterator.map; wenzelm parents: 46661 diff changeset	92	.mkString("Graph(", ", ", ")")
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	93
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	94	private def get_entry(x: Key): Entry =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	95	rep.get(x) match {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	96	case Some(entry) => entry
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	97	case None => throw new Graph.Undefined(x)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	98	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	99
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	100	private def map_entry(x: Key, f: Entry => Entry): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	101	new Graph[Key, A](rep + (x -> f(get_entry(x))))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	102
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	103
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	104	/* nodes */
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	105
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	106	def get_node(x: Key): A = get_entry(x)._1
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	107
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	108	def map_node(x: Key, f: A => A): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	109	map_entry(x, { case (i, ps) => (f(i), ps) })
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	110
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	111
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	112	/* reachability */
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	113
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	114	/nodes reachable from xs -- topologically sorted for acyclic graphs/
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	115	def reachable(next: Key => Keys, xs: List[Key]): (List[List[Key]], Keys) =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	116	{
48350 09bf3b73e446 clarified topological ordering: preserve order of adjacency via reverse fold; wenzelm parents: 48348 diff changeset	117	def reach(x: Key, reached: (List[Key], Keys)): (List[Key], Keys) =
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	118	{
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	119	val (rs, r_set) = reached
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	120	if (r_set(x)) reached
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	121	else {
48350 09bf3b73e446 clarified topological ordering: preserve order of adjacency via reverse fold; wenzelm parents: 48348 diff changeset	122	val (rs1, r_set1) = (next(x) :\ (rs, r_set + x))(reach)
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	123	(x :: rs1, r_set1)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	124	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	125	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	126	def reachs(reached: (List[List[Key]], Keys), x: Key): (List[List[Key]], Keys) =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	127	{
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	128	val (rss, r_set) = reached
48350 09bf3b73e446 clarified topological ordering: preserve order of adjacency via reverse fold; wenzelm parents: 48348 diff changeset	129	val (rs, r_set1) = reach(x, (Nil, r_set))
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	130	(rs :: rss, r_set1)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	131	}
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	132	((List.empty[List[Key]], empty_keys) /: xs)(reachs)
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	133	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	134
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	135	/immediate/
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	136	def imm_preds(x: Key): Keys = get_entry(x)._2._1
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	137	def imm_succs(x: Key): Keys = get_entry(x)._2._2
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	138
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	139	/transitive/
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	140	def all_preds(xs: List[Key]): List[Key] = reachable(imm_preds, xs)._1.flatten
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	141	def all_succs(xs: List[Key]): List[Key] = reachable(imm_succs, xs)._1.flatten
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	142
46613 74331911375d further graph operations from ML; wenzelm parents: 46611 diff changeset	143	/*strongly connected components; see: David King and John Launchbury,
74331911375d further graph operations from ML; wenzelm parents: 46611 diff changeset	144	"Structuring Depth First Search Algorithms in Haskell"*/
74331911375d further graph operations from ML; wenzelm parents: 46611 diff changeset	145	def strong_conn: List[List[Key]] =
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	146	reachable(imm_preds, all_succs(keys))._1.filterNot(_.isEmpty).reverse
46613 74331911375d further graph operations from ML; wenzelm parents: 46611 diff changeset	147
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	148
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	149	/* minimal and maximal elements */
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	150
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	151	def minimals: List[Key] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	152	(List.empty[Key] /: rep) {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	153	case (ms, (m, (_, (preds, _)))) => if (preds.isEmpty) m :: ms else ms }
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	154
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	155	def maximals: List[Key] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	156	(List.empty[Key] /: rep) {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	157	case (ms, (m, (_, (_, succs)))) => if (succs.isEmpty) m :: ms else ms }
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	158
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	159	def is_minimal(x: Key): Boolean = imm_preds(x).isEmpty
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	160	def is_maximal(x: Key): Boolean = imm_succs(x).isEmpty
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	161
66830 3b50269b90c2 more operations; wenzelm parents: 64370 diff changeset	162	def is_isolated(x: Key): Boolean = is_minimal(x) && is_maximal(x)
3b50269b90c2 more operations; wenzelm parents: 64370 diff changeset	163
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	164
46668 9034b44844bd tuned comments; wenzelm parents: 46667 diff changeset	165	/* node operations */
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	166
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	167	def new_node(x: Key, info: A): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	168	{
48648 f13eeeea1a69 tuned; wenzelm parents: 48507 diff changeset	169	if (defined(x)) throw new Graph.Duplicate(x)
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	170	else new Graph[Key, A](rep + (x -> (info, (empty_keys, empty_keys))))
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	171	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	172
46613 74331911375d further graph operations from ML; wenzelm parents: 46611 diff changeset	173	def default_node(x: Key, info: A): Graph[Key, A] =
48648 f13eeeea1a69 tuned; wenzelm parents: 48507 diff changeset	174	if (defined(x)) this else new_node(x, info)
46613 74331911375d further graph operations from ML; wenzelm parents: 46611 diff changeset	175
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	176	private def del_adjacent(fst: Boolean, x: Key)(map: SortedMap[Key, Entry], y: Key)
d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	177	: SortedMap[Key, Entry] =
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	178	map.get(y) match {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	179	case None => map
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	180	case Some((i, (preds, succs))) =>
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	181	map + (y -> (i, if (fst) (preds - x, succs) else (preds, succs - x)))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	182	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	183
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	184	def del_node(x: Key): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	185	{
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	186	val (preds, succs) = get_entry(x)._2
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	187	new Graph[Key, A](
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	188	(((rep - x) /: preds)(del_adjacent(false, x)) /: succs)(del_adjacent(true, x)))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	189	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	190
46614 165886a4fe64 clarified Graph.restrict (formerly Graph.subgraph) based on public graph operations; wenzelm parents: 46613 diff changeset	191	def restrict(pred: Key => Boolean): Graph[Key, A] =
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	192	(this /: iterator){ case (graph, (x, _)) => if (!pred(x)) graph.del_node(x) else graph }
46614 165886a4fe64 clarified Graph.restrict (formerly Graph.subgraph) based on public graph operations; wenzelm parents: 46613 diff changeset	193
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	194
46668 9034b44844bd tuned comments; wenzelm parents: 46667 diff changeset	195	/* edge operations */
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	196
59259 399506ee38a5 clarified static full_graph vs. dynamic visible_graph; wenzelm parents: 59245 diff changeset	197	def edges_iterator: Iterator[(Key, Key)] =
399506ee38a5 clarified static full_graph vs. dynamic visible_graph; wenzelm parents: 59245 diff changeset	198	for { x <- keys_iterator; y <- imm_succs(x).iterator } yield (x, y)
399506ee38a5 clarified static full_graph vs. dynamic visible_graph; wenzelm parents: 59245 diff changeset	199
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	200	def is_edge(x: Key, y: Key): Boolean =
48507 1182677e4728 tuned signature; wenzelm parents: 48350 diff changeset	201	defined(x) && defined(y) && imm_succs(x)(y)
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	202
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	203	def add_edge(x: Key, y: Key): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	204	if (is_edge(x, y)) this
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	205	else
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	206	map_entry(y, { case (i, (preds, succs)) => (i, (preds + x, succs)) }).
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	207	map_entry(x, { case (i, (preds, succs)) => (i, (preds, succs + y)) })
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	208
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	209	def del_edge(x: Key, y: Key): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	210	if (is_edge(x, y))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	211	map_entry(y, { case (i, (preds, succs)) => (i, (preds - x, succs)) }).
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	212	map_entry(x, { case (i, (preds, succs)) => (i, (preds, succs - y)) })
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	213	else this
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	214
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	215
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	216	/* irreducible paths -- Hasse diagram */
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	217
46661 d2ac78ba805e prefer sorted Map/Set for canonical order of results -- pass ordering via fresh copy of empty; wenzelm parents: 46659 diff changeset	218	private def irreducible_preds(x_set: Keys, path: List[Key], z: Key): List[Key] =
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	219	{
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	220	def red(x: Key)(x1: Key) = is_edge(x, x1) && x1 != z
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	221	@tailrec def irreds(xs0: List[Key], xs1: List[Key]): List[Key] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	222	xs0 match {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	223	case Nil => xs1
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	224	case x :: xs =>
60215 5fb4990dfc73 misc tuning, based on warnings by IntelliJ IDEA; wenzelm parents: 59259 diff changeset	225	if (!x_set(x) \|\| x == z \|\| path.contains(x) \|\|
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	226	xs.exists(red(x)) \|\| xs1.exists(red(x)))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	227	irreds(xs, xs1)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	228	else irreds(xs, x :: xs1)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	229	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	230	irreds(imm_preds(z).toList, Nil)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	231	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	232
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	233	def irreducible_paths(x: Key, y: Key): List[List[Key]] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	234	{
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	235	val (_, x_set) = reachable(imm_succs, List(x))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	236	def paths(path: List[Key])(ps: List[List[Key]], z: Key): List[List[Key]] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	237	if (x == z) (z :: path) :: ps
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	238	else (ps /: irreducible_preds(x_set, path, z))(paths(z :: path))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	239	if ((x == y) && !is_edge(x, x)) List(Nil) else paths(Nil)(Nil, y)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	240	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	241
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	242
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	243	/* transitive closure and reduction */
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	244
50447 2e22cdccdc38 clarified transitive_closure: proper cumulation of transitive steps, which is essential for Warshall-style algorithms; wenzelm parents: 50445 diff changeset	245	private def transitive_step(z: Key): Graph[Key, A] =
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	246	{
50447 2e22cdccdc38 clarified transitive_closure: proper cumulation of transitive steps, which is essential for Warshall-style algorithms; wenzelm parents: 50445 diff changeset	247	val (preds, succs) = get_entry(z)._2
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	248	var graph = this
50447 2e22cdccdc38 clarified transitive_closure: proper cumulation of transitive steps, which is essential for Warshall-style algorithms; wenzelm parents: 50445 diff changeset	249	for (x <- preds; y <- succs) graph = graph.add_edge(x, y)
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	250	graph
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	251	}
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	252
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	253	def transitive_closure: Graph[Key, A] = (this /: keys_iterator)(_.transitive_step(_))
50447 2e22cdccdc38 clarified transitive_closure: proper cumulation of transitive steps, which is essential for Warshall-style algorithms; wenzelm parents: 50445 diff changeset	254
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	255	def transitive_reduction_acyclic: Graph[Key, A] =
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	256	{
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	257	val trans = this.transitive_closure
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	258	if (trans.iterator.exists({ case (x, (_, (_, succs))) => succs.contains(x) }))
50452 bfb5964e3041 stateless dockable window for graphview, which is triggered by the active area of the corresponding diagnostic command; wenzelm parents: 50447 diff changeset	259	error("Cyclic graph")
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	260
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	261	var graph = this
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	262	for {
56372 fadb0fef09d7 more explicit iterator terminology, in accordance to Scala 2.8 library; wenzelm parents: 50452 diff changeset	263	(x, (_, (_, succs))) <- iterator
50445 68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	264	y <- succs
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	265	if trans.imm_preds(y).exists(z => trans.is_edge(x, z))
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	266	} graph = graph.del_edge(x, y)
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	267	graph
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	268	}
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	269
68c9a6538c0e added graph operations for transitive closure and reduction in Scala -- unproven and thus better left out of the kernel-relevant ML module; wenzelm parents: 49560 diff changeset	270
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	271	/* maintain acyclic graphs */
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	272
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	273	def add_edge_acyclic(x: Key, y: Key): Graph[Key, A] =
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	274	if (is_edge(x, y)) this
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	275	else {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	276	irreducible_paths(y, x) match {
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	277	case Nil => add_edge(x, y)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	278	case cycles => throw new Graph.Cycles(cycles.map(x :: _))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	279	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	280	}
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	281
48348 cbb25adad26f clarified signature; wenzelm parents: 46712 diff changeset	282	def add_deps_acyclic(y: Key, xs: List[Key]): Graph[Key, A] =
46611 669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	283	(this /: xs)(_.add_edge_acyclic(_, y))
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	284
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	285	def topological_order: List[Key] = all_succs(minimals)
669601fa1a62 directed graphs (in Scala); wenzelm parents: diff changeset	286	}

author	wenzelm
	Thu, 12 Sep 2019 16:52:04 +0200
changeset 70692	41b5e515c238
parent 70651	d1d4a1b1ff1f
child 70699	3eb30d80cee6
permissions	-rw-r--r--