2012-06-27 18:09:30 +02:00
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(***********************************************************************)
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(* *)
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(* Heptagon *)
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(* *)
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(* Gwenael Delaval, LIG/INRIA, UJF *)
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(* Leonard Gerard, Parkas, ENS *)
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(* Adrien Guatto, Parkas, ENS *)
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(* Cedric Pasteur, Parkas, ENS *)
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2012-06-29 01:43:15 +02:00
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(* Marc Pouzet, Parkas, ENS *)
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2012-06-27 18:09:30 +02:00
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(* *)
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(* Copyright 2012 ENS, INRIA, UJF *)
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(* *)
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(* This file is part of the Heptagon compiler. *)
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(* *)
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(* Heptagon is free software: you can redistribute it and/or modify it *)
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(* under the terms of the GNU General Public License as published by *)
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(* the Free Software Foundation, either version 3 of the License, or *)
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(* (at your option) any later version. *)
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(* *)
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(* Heptagon is distributed in the hope that it will be useful, *)
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(* but WITHOUT ANY WARRANTY; without even the implied warranty of *)
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(* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *)
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(* GNU General Public License for more details. *)
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(* *)
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(* You should have received a copy of the GNU General Public License *)
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(* along with Heptagon. If not, see <http://www.gnu.org/licenses/> *)
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(* *)
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(***********************************************************************)
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2010-06-15 10:49:03 +02:00
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(* graph manipulation *)
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2010-07-14 03:45:38 +02:00
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2010-06-15 10:49:03 +02:00
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type 'a graph =
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2010-06-26 16:53:25 +02:00
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{ g_top: 'a node list;
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g_bot: 'a node list }
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2010-06-15 10:49:03 +02:00
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and 'a node =
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{ g_containt: 'a;
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g_tag: int;
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mutable g_visited: bool;
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mutable g_mark: int;
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mutable g_depends_on: 'a node list;
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mutable g_depends_by: 'a node list;
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}
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exception Cycle of int (* returns the index of the node *)
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let tag = ref 0
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let new_tag () = incr tag; !tag
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let containt g = g.g_containt
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let linked g1 g2 =
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(List.memq g2 g1.g_depends_on) or (List.memq g1 g2.g_depends_on)
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let make c =
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{ g_containt = c; g_tag = new_tag (); g_visited = false;
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g_mark = -1; g_depends_on = []; g_depends_by = [] }
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let add_depends node1 node2 =
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2010-06-23 09:25:47 +02:00
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if not (node1.g_tag = node2.g_tag) then (
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2010-06-15 10:49:03 +02:00
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node1.g_depends_on <- node2 :: node1.g_depends_on;
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node2.g_depends_by <- node1 :: node2.g_depends_by
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)
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let remove_depends node1 node2 =
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2010-06-26 16:53:25 +02:00
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if not (node1.g_tag = node2.g_tag)
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then (
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node1.g_depends_on <-
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List.filter (fun n -> n.g_tag <> node2.g_tag) node1.g_depends_on;
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node2.g_depends_by <-
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List.filter (fun n -> n.g_tag <> node1.g_tag) node2.g_depends_by
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2010-06-15 10:49:03 +02:00
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)
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let graph top_list bot_list = { g_top = top_list; g_bot = bot_list }
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let topological g_list =
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let rec sortrec g_list seq =
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match g_list with
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2010-06-26 16:53:25 +02:00
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| [] -> seq
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| g :: g_list ->
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if g.g_visited then sortrec g_list seq
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else
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begin
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g.g_visited <- true;
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let seq = sortrec g.g_depends_on seq in
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sortrec g_list (g :: seq)
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end in
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2010-06-15 10:49:03 +02:00
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let seq = sortrec g_list [] in
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List.iter
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(fun ({ g_visited = _ } as node) -> node.g_visited <- false) g_list;
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List.rev seq
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(** Detection of cycles *)
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(* Mark nodes with:
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- -1 initially, for unvisited nodes
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- 0 for "opened" nodes, currently visited, while visiting its descendents
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- 1 for "closed" nodes, visited once, no circuits found from it.
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A circuit is found when a node marked with 0 is visited again.
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*)
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let cycle g_list =
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(* store nodes in a stack *)
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let s = Stack.create () in
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(* flush the connected component *)
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2013-11-08 18:51:06 +01:00
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let rec flush _index =
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2010-06-15 10:49:03 +02:00
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if Stack.is_empty s then []
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else let v = Stack.pop s in
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v.g_containt :: flush v.g_tag in
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let rec visit g =
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match g.g_mark with
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| -1 ->
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(* Unvisited yet *)
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(* Open node *)
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Stack.push g s;
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g.g_mark <- 0;
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(* Visit descendents *)
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List.iter visit g.g_depends_on;
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(* Close node *)
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ignore (Stack.pop s);
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g.g_mark <- 1
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| 0 ->
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(* Visit an opened node (visited and not close) : circuit *)
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raise (Cycle g.g_tag)
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| 1 | _ ->
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(* Visit a closed node (no existing circuit) : pass *)
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() in
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try
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List.iter visit g_list; None
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with
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| Cycle(index) -> Some(flush index)
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(** [accessible useful_nodes g_list] returns the list of
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2010-06-26 16:53:25 +02:00
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accessible nodes starting from useful_nodes and belonging to
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g_list. *)
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2010-06-15 10:49:03 +02:00
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let accessible useful_nodes g_list =
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let rec follow g =
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if not g.g_visited then
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begin
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g.g_visited <- true;
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List.iter follow g.g_depends_on
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end in
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let read acc g =
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if g.g_visited then begin g.g_visited <- false; g :: acc end else acc in
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List.iter follow useful_nodes;
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List.fold_left read [] g_list
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(** [exists_path nodes n1 n2] returns whether there is a path
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2010-06-26 16:53:25 +02:00
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from n1 to n2 in the graph. nodes is the list of all the nodes
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in the graph. *)
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2010-06-15 10:49:03 +02:00
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let exists_path nodes n1 n2 =
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List.mem n2 (accessible [n1] nodes)
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2010-09-01 14:42:44 +02:00
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(*
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2010-06-15 10:49:03 +02:00
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open Format
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let print_node print g =
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printf "Node : @[<hov>";
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print_int g.g_tag;
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printf "@]";
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printf " Depends on :@\n";
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printf " @[<v>";
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List.iter
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(fun node ->
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printf "@[<hov 2>";
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print_int node.g_tag;
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printf "@]@ ")
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g.g_depends_on;
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printf "@]"
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2010-09-01 14:42:44 +02:00
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*)
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