module Label = struct
type t = string
let compare = String.compare
let hash s =
let n = String.length s in
let p = 9 in
if n >= p then
try
int_of_string (String.sub s p (n-p))
with | Failure _ -> n
else
n
let equal a b = a = b
end
module Dep = struct
include Graph.Imperative.Digraph.ConcreteBidirectional(Label)
let graph_attributes _ = []
let default_vertex_attributes _ = []
let vertex_name v = V.label v
let vertex_attributes _ = []
let get_subgraph _ = None
let default_edge_attributes _ = []
let edge_attributes _ = []
let add_thm dep thm = add_vertex dep (V.create thm)
let add_dep dep thm1 thm2 =
let v1 = V.create thm1 in
let v2 = V.create thm2 in
if ((mem_vertex dep v1) && (mem_vertex dep v2)) then
add_edge dep v1 v2
let min_max_moy_in_deg dep =
let max = ref 0 in
let lab_max = ref "" in
let min = ref 1073741823 in
let lab_min = ref "" in
let nb = ref 0 in
let sum = ref 0 in
let calc v =
let deg = in_degree dep v in
if deg < !min then (
min := deg;
lab_min := V.label v
);
if deg > !max then (
max := deg;
lab_max := V.label v
);
incr nb;
sum := !sum + deg in
iter_vertex calc dep;
let moy = (float_of_int !sum) /. (float_of_int !nb) in
(!min, !lab_min, !max, !lab_max, moy)
let min_max_moy_out_deg dep =
let max = ref 0 in
let lab_max = ref "" in
let min = ref 1073741823 in
let lab_min = ref "" in
let nb = ref 0 in
let sum = ref 0 in
let calc v =
let deg = out_degree dep v in
if deg < !min then (
min := deg;
lab_min := V.label v
);
if deg > !max then (
max := deg;
lab_max := V.label v
);
incr nb;
sum := !sum + deg in
iter_vertex calc dep;
let moy = (float_of_int !sum) /. (float_of_int !nb) in
(!min, !lab_min, !max, !lab_max, moy)
end
module Dep_top = struct
include Graph.Topological.Make(Dep)
let iter_top f dep = iter (fun v -> f (Dep.V.label v)) dep
end
module Dep_dot = struct
include Graph.Graphviz.Dot(Dep)
let output_dot name dep =
let file = open_out name in
output_graph file dep;
close_out file
end