package frama-c

  1. Overview
  2. Docs
Legend:
Library
Module
Module type
Parameter
Class
Class type

Integer values abstractions: an abstraction represents a set of integers. Provided with a lattice structure and over-approximations of arithmetic operations.

include Datatype.S_with_collections
module Set : Datatype.Set with type elt = t
module Map : Datatype.Map with type key = t
module Hashtbl : Datatype.Hashtbl with type key = t
module Widen_Hints = Datatype.Integer.Set
type size_widen_hint = Integer.t
type generic_widen_hint = Widen_Hints.t
include Eva_lattice_type.Full_AI_Lattice_with_cardinality with type t := t and type widen_hint = size_widen_hint * generic_widen_hint
include Eva_lattice_type.AI_Lattice_with_cardinal_one with type t := t with type widen_hint = size_widen_hint * generic_widen_hint
include Eva_lattice_type.Join_Semi_Lattice with type t := t

datatype of element of the lattice

include Datatype.S with type t := t
include Datatype.S_no_copy with type t := t
include Datatype.Ty with type t := t
val name : string

Unique name of the datatype.

val descr : t Descr.t

Datatype descriptor.

val packed_descr : Structural_descr.pack

Packed version of the descriptor.

val reprs : t list

List of representants of the descriptor.

val equal : t -> t -> bool

Equality: same spec than Stdlib.(=).

val compare : t -> t -> int

Comparison: same spec than Stdlib.compare.

val hash : t -> int

Hash function: same spec than Hashtbl.hash.

val pretty : Format.formatter -> t -> unit

Pretty print each value in an user-friendly way.

val mem_project : (Project_skeleton.t -> bool) -> t -> bool

mem_project f x must return true iff there is a value p of type Project.t in x such that f p returns true.

val copy : t -> t

Deep copy: no possible sharing between x and copy x.

val join : t -> t -> t

over-approximation of union

val is_included : t -> t -> bool

is first argument included in the second?

include Eva_lattice_type.With_Top with type t := t
val top : t

largest element

include Eva_lattice_type.With_Widening with type t := t with type widen_hint = size_widen_hint * generic_widen_hint

hints for the widening

val widen : widen_hint -> t -> t -> t

widen h t1 t2 is an over-approximation of join t1 t2. Assumes is_included t1 t2

include Eva_lattice_type.With_Narrow with type t := t
val narrow : t -> t -> t Lattice_bounds.or_bottom

over-approximation of intersection

include Eva_lattice_type.With_Under_Approximation with type t := t

under-approximation of union

val meet : t -> t -> t Lattice_bounds.or_bottom

under-approximation of intersection

include Eva_lattice_type.With_Intersects with type t := t
val intersects : t -> t -> bool

intersects t1 t2 returns true iff the intersection of t1 and t2 is non-empty.

include Eva_lattice_type.With_Diff with type t := t
val diff : t -> t -> t Lattice_bounds.or_bottom

diff t1 t2 is an over-approximation of t1-t2. t2 must be an under-approximation or exact.

include Eva_lattice_type.With_Diff_One with type t := t
val diff_if_one : t -> t -> t Lattice_bounds.or_bottom

diff_if_one t1 t2 is an over-approximation of t1-t2.

  • returns

    t1 if t2 is not a singleton.

include Eva_lattice_type.With_Enumeration with type t := t
val fold_enum : (t -> 'a -> 'a) -> t -> 'a -> 'a

Fold on the elements of the value one by one if possible. Raises Abstract_interp.Not_less_than when there is an infinite number of elements to enumerate.

val zero : t
val one : t
val minus_one : t
val zero_or_one : t
val positive_integers : t

All positive integers, including 0.

val negative_integers : t

All negative integers, including 0.

Building.

val inject_singleton : Integer.t -> t

Returns an exact abstraction of the given integer.

val inject_range : Integer.t option -> Integer.t option -> t

inject_range min max returns an abstraction of all integers between min and max included. None means that the abstraction is unbounded.

val inject_interval : min:Integer.t option -> max:Integer.t option -> rem:Integer.t -> modu:Integer.t -> t

Builds an abstraction of all integers between min and max included and congruent to rem modulo modu. For min and max, None is the corresponding infinity. Checks that min <= max, modu > 0 and 0 <= rest < modu, and fails otherwise. If possible, reduces min and max according to the modulo.

val make : min:Integer.t option -> max:Integer.t option -> rem:Integer.t -> modu:Integer.t -> t

As inject_interval, but also checks that min and max are congruent to rem modulo modu.

Accessors.

val min_int : t -> Integer.t option

Returns the smallest integer represented by an abstraction. Returns None if it does not exist, i.e. if the abstraction is unbounded.

val max_int : t -> Integer.t option

Returns the highest integer represented by an abstraction. Returns None if it does not exist, i.e. if the abstraction is unbouded.

val min_and_max : t -> Integer.t option * Integer.t option

Returns the smallest and highest integers represented by an abstraction.

val min_max_rem_modu : t -> Integer.t option * Integer.t option * Integer.t * Integer.t

Returns min, max, rem, modu such that for all integers i represented by the given abstraction, i satisfies min ≤ i ≤ max and i ≅ rem modu.

exception Not_Singleton
val project_int : t -> Integer.t

Projects a singleton abstraction into an integer.

val is_small_set : t -> bool

Is an abstraction internally represented as a small integer set?

val project_small_set : t -> Integer.t list option

Cardinality.

val is_singleton : t -> bool
val cardinal_zero_or_one : t -> bool
val cardinal : t -> Integer.t option
val cardinal_estimate : size:Integer.t -> t -> Integer.t
val cardinal_less_than : t -> int -> int
val cardinal_is_less_than : t -> int -> bool
val is_zero : t -> bool
val contains_zero : t -> bool
val contains_non_zero : t -> bool

Arithmetics.

val add : t -> t -> t

Addition of two integer abstractions.

val add_under : t -> t -> t Lattice_bounds.or_bottom

Under-approximation of the addition of two integer abstractions

val add_singleton : Integer.t -> t -> t

Addition of an integer abstraction with a singleton integer. Exact operation.

val neg : t -> t

Negation of an integer abstraction.

val abs : t -> t

Absolute value of an integer abstraction.

val scale : Integer.t -> t -> t

scale f v returns an abstraction of the integers f * x for all x in v. This operation is exact.

val scale_div : pos:bool -> Integer.t -> t -> t

scale_div f v is an over-approximation of the elements x / f for all elements x in v. Uses the computer division (like in C99) if pos is false, and the euclidean division if pos is true.

val scale_div_under : pos:bool -> Integer.t -> t -> t Lattice_bounds.or_bottom

Under-approximation of the division.

val scale_rem : pos:bool -> Integer.t -> t -> t

Over-approximation of the remainder of the division. Uses the computer division (like in C99) if pos is false, and the euclidean division if pos is true.

val mul : t -> t -> t
val div : t -> t -> t Lattice_bounds.or_bottom
val c_rem : t -> t -> t Lattice_bounds.or_bottom
val shift_left : t -> t -> t Lattice_bounds.or_bottom
val shift_right : t -> t -> t Lattice_bounds.or_bottom
val bitwise_and : t -> t -> t
val bitwise_or : t -> t -> t
val bitwise_xor : t -> t -> t
val bitwise_signed_not : t -> t
val bitwise_unsigned_not : size:int -> t -> t

Misc

val cast_int_to_int : size:Integer.t -> signed:bool -> t -> t
val subdivide : t -> t * t

Splits an abstraction into two abstractions.

val extract_bits : start:Integer.t -> stop:Integer.t -> t -> t

Extracts bits from start to stop from the given integer abstraction, start and stop being included.

val create_all_values : signed:bool -> size:int -> t

Builds an abstraction of all integers in a C integer type.

val all_values : size:Integer.t -> t -> bool

all_values ~size v returns true iff v contains all integer values representable in size bits.

val complement_under : size:int -> signed:bool -> t -> t Lattice_bounds.or_bottom

Returns an under-approximation of the integers of the given size and signedness that are *not* represented by the given value.

val fold_int : ?increasing:bool -> (Integer.t -> 'a -> 'a) -> t -> 'a -> 'a

Iterates on all integers represented by an abstraction, in increasing order by default. If increasing is set to false, iterate by decreasing order.

val to_seq : ?increasing:bool -> t -> Integer.t Seq.t

Builds a sequence of all integers represented by an abstraction, in increasing order (resp. decreasing order if increasing is set to false). The sequence might be infinite.

OCaml

Innovation. Community. Security.