sig
module M :
sig
type key = Base.t
type t = Locations.Location_Bytes.M.t
val iter : (Base.t -> Ival.t -> unit) -> t -> unit
val find : key -> t -> Ival.t
val fold : (Base.t -> Ival.t -> 'a -> 'a) -> t -> 'a -> 'a
val shape : t -> Ival.t Hptmap.Shape(Base.Base).t
end
type z =
Locations.Location_Bytes.z =
Top of Base.SetLattice.t * Origin.t
| Map of M.t
type t = z
type widen_hint = Base.t -> Ival.widen_hint
val narrow : t -> t -> t
val link : t -> t -> t
val meet : t -> t -> t
val intersects : t -> t -> bool
exception Error_Top
val singleton_zero : t
val singleton_one : t
val zero_or_one : t
val is_zero : t -> bool
val top_int : t
val top_float : t
val top_single_precision_float : t
val inject : Base.t -> Ival.t -> t
val inject_ival : Ival.t -> t
val inject_float : Ival.F.t -> t
val add_or_bottom : Base.t -> Ival.t -> M.t -> M.t
val diff : t -> t -> t
val diff_if_one : t -> t -> t
val shift : Ival.t -> t -> t
val topify_arith_origin : t -> t
val topify_misaligned_read_origin : t -> t
val topify_merge_origin : t -> t
val topify_leaf_origin : t -> t
val topify_with_origin_kind : Origin.kind -> t -> t
val inject_top_origin : Origin.t -> Base.SetLattice.O.t -> t
val top_with_origin : Origin.t -> t
val fold_bases : (Base.t -> 'a -> 'a) -> t -> 'a -> 'a
val fold_i : (Base.t -> Ival.t -> 'a -> 'a) -> t -> 'a -> 'a
val fold_topset_ok : (Base.t -> Ival.t -> 'a -> 'a) -> t -> 'a -> 'a
val cached_fold :
cache_name:string ->
temporary:bool ->
f:(Base.t -> Ival.t -> 'a) ->
projection:(Base.t -> Ival.t) ->
joiner:('a -> 'a -> 'a) -> empty:'a -> t -> 'a
val cardinal_less_than : t -> int -> int
val cardinal : t -> Integer.t option
val find_lonely_binding : t -> Base.t * Ival.t
val find_lonely_key : t -> Base.t * Ival.t
val fold_enum : (t -> 'a -> 'a) -> t -> 'a -> 'a
val find_or_bottom : Base.t -> M.t -> Ival.t
val split : Base.t -> t -> Ival.t * t
val get_bases : t -> Base.SetLattice.t
val contains_addresses_of_locals : (M.key -> bool) -> t -> bool
val remove_escaping_locals : (M.key -> bool) -> t -> Base.SetLattice.t * t
val contains_addresses_of_any_locals : t -> bool
val iter_on_strings :
skip:Base.t option ->
(Base.t -> string -> int -> int -> unit) -> t -> unit
val partially_overlaps : size:Abstract_interp.Int.t -> t -> t -> bool
val is_relationable : t -> bool
val may_reach : Base.t -> t -> bool
val clear_caches : unit -> unit
val ty : t Type.t
val name : string
val descr : t Descr.t
val packed_descr : Structural_descr.pack
val reprs : t list
val equal : t -> t -> bool
val compare : t -> t -> int
val hash : t -> int
val pretty_code : Format.formatter -> t -> unit
val internal_pretty_code : Type.precedence -> Format.formatter -> t -> unit
val pretty : Format.formatter -> t -> unit
val varname : t -> string
val mem_project : (Project_skeleton.t -> bool) -> t -> bool
val copy : t -> t
val join : t -> t -> t
val is_included : t -> t -> bool
val join_and_is_included : t -> t -> t * bool
val bottom : t
val top : t
val widen : widen_hint -> t -> t -> t
val cardinal_zero_or_one : t -> bool
val extract_bits :
topify:Origin.kind ->
start:Integer.t -> stop:Integer.t -> size:Integer.t -> t -> bool * t
val little_endian_merge_bits :
topify:Origin.kind ->
conflate_bottom:bool ->
total_length:int -> value:t -> offset:Integer.t -> t -> t
val big_endian_merge_bits :
topify:Origin.kind ->
conflate_bottom:bool ->
total_length:int ->
length:Integer.t -> value:t -> offset:Integer.t -> t -> t
val merge_neutral_element : t
val topify_with_origin : Origin.t -> t -> t
val anisotropic_cast : size:Integer.t -> t -> t
exception Not_based_on_null
val project_ival : t -> Ival.t
val min_and_max_float : t -> Ival.F.t * Ival.F.t
val is_imprecise : t -> bool
val is_topint : t -> bool
val is_bottom : t -> bool
val is_isotropic : t -> bool
val contains_zero : t -> bool
val contains_non_zero : t -> bool
val of_char : char -> t
val of_int64 : int64 -> t
val subdiv_float_interval : size:int -> t -> t * t
val compare_min_float : t -> t -> int
val compare_max_float : t -> t -> int
val compare_min_int : t -> t -> int
val compare_max_int : t -> t -> int
val filter_le : t -> cond_expr:t -> t
val filter_ge : t -> cond_expr:t -> t
val filter_lt : t -> cond_expr:t -> t
val filter_gt : t -> cond_expr:t -> t
val filter_le_float :
bool -> typ_loc:Cil_types.typ -> t -> cond_expr:t -> t
val filter_ge_float :
bool -> typ_loc:Cil_types.typ -> t -> cond_expr:t -> t
val filter_lt_float :
bool -> typ_loc:Cil_types.typ -> t -> cond_expr:t -> t
val filter_gt_float :
bool -> typ_loc:Cil_types.typ -> t -> cond_expr:t -> t
val eval_comp : signed:bool -> Cil_types.binop -> t -> t -> t
val inject_int : Abstract_interp.Int.t -> t
val interp_boolean : contains_zero:bool -> contains_non_zero:bool -> t
val cast : size:Abstract_interp.Int.t -> signed:bool -> t -> t * bool
val cast_float :
rounding_mode:Ival.Float_abstract.rounding_mode -> t -> bool * bool * t
val cast_double : t -> bool * bool * t
val cast_float_to_int :
signed:bool -> size:int -> t -> bool * bool * bool * t
val cast_float_to_int_inverse : single_precision:bool -> t -> t
val cast_int_to_float : Ival.Float_abstract.rounding_mode -> t -> t * bool
val add_untyped : Int_Base.t -> t -> t -> t
val sub_untyped_pointwise : t -> t -> Ival.t * bool
val mul : with_alarms:CilE.warn_mode -> t -> t -> t
val div : with_alarms:CilE.warn_mode -> t -> t -> t
val c_rem : with_alarms:CilE.warn_mode -> t -> t -> t
val shift_right :
with_alarms:CilE.warn_mode -> size:(bool * int) option -> t -> t -> t
val shift_left :
with_alarms:CilE.warn_mode -> size:(bool * int) option -> t -> t -> t
val bitwise_and : signed:bool -> size:int -> t -> t -> t
val bitwise_xor : with_alarms:CilE.warn_mode -> t -> t -> t
val bitwise_or : with_alarms:CilE.warn_mode -> t -> t -> t
val all_values : size:Abstract_interp.Int.t -> t -> bool
val create_all_values :
modu:Abstract_interp.Int.t -> signed:bool -> size:int -> t
end