module O: sig .. end
type ('a
, ('a, [> 'a Bddapron.Env.typ ], [> 'a Bddapron.Env.typdef ], 'e)
Bddapron.Env.O.t) t = (('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'e)
Bddapron.Env.O.t, 'a Bddapron.Expr0.t)
Bddapron.Env.value
type ('a
, ('a, [> 'a Bddapron.Env.typ ], [> 'a Bddapron.Env.typdef ], 'b)
Bddapron.Env.O.t) expr = ('a,
('a, [> 'a Bddapron.Env.typ ] as 'c, [> 'a Bddapron.Env.typdef ] as 'd, 'b)
Bddapron.Env.O.t)
t
Type of general expressions
module Bool: sig .. end
module Bint: sig .. end
module Benum: sig .. end
module Apron: sig .. end
val typ_of_expr : ('a,
('a, [> 'a Bddapron.Env.typ ], [> 'a Bddapron.Env.typdef ], 'b)
Bddapron.Env.O.t)
t -> 'a Bddapron.Env.typ
Type of an expression
val make : ('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t ->
'a Bddapron.Expr0.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
Creation from an expression without environment
val extend_environment : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
t ->
('a, 'b, 'c, 'd) Bddapron.Env.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
val var : ('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bddapron.Cond.O.t ->
'a -> ('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
Expression representing the litteral var
val ite : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bool.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
If-then-else operation
val eq : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bool.t
Equality operation
val substitute_by_var : ?memo:Cudd.Memo.t ->
('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t ->
('a * 'a) list -> ('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
val substitute_by_var_list : ?memo:Cudd.Memo.t ->
('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t list ->
('a * 'a) list ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t list
Variable renaming.
The new variables should already have been declared
val substitute : ?memo:Cudd.Memo.t ->
('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t ->
('a * ('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t) list ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
val substitute_list : ?memo:Cudd.Memo.t ->
('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t list ->
('a * ('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t) list ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t list
Parallel substitution of variables by expressions
val support : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t -> 'a PSette.t
Support of the expression
val support_cond : Cudd.Man.vt ->
('a,
('a, [> 'a Bddapron.Env.typ ], [> 'a Bddapron.Env.typdef ], 'b)
Bddapron.Env.O.t)
t -> Cudd.Bdd.vt
Return the support of an expression as a conjunction of the BDD
identifiers involved in the expression
val cofactor : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bool.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
Evaluate the expression. The BDD is assumed to be a cube
val restrict : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bool.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
val tdrestrict : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bool.t ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t
Simplify the expression knowing that the BDD is true. Generalizes
cofactor.
val print : ('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t ->
Format.formatter ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t -> unit
val normalize : ?reduce:bool ->
?careset:bool ->
('a,
('a, [> 'a Bddapron.Env.typ ] as 'b, [> 'a Bddapron.Env.typdef ] as 'c, 'd)
Bddapron.Env.O.t)
Bddapron.Cond.O.t *
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t list ->
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) Bddapron.Cond.O.t *
('a, ('a, 'b, 'c, 'd) Bddapron.Env.O.t) t list
List of expressions
module List: sig .. end