module Ctypes:sig
..end
module WpLog: Wp_parameters
type
c_int =
| |
UInt8 |
| |
SInt8 |
| |
UInt16 |
| |
SInt16 |
| |
UInt32 |
| |
SInt32 |
| |
UInt64 |
| |
SInt64 |
val compare_c_int : c_int -> c_int -> int
val signed : c_int -> bool
true
if signedval i_bits : c_int -> int
val i_bytes : c_int -> int
val make_c_int : bool -> int -> c_int
val is_char : c_int -> bool
val c_int : Cil_types.ikind -> c_int
val c_int_bounds : c_int -> Integer.t * Integer.t
val c_int_all : c_int list
val c_bool : unit -> c_int
int
val c_char : unit -> c_int
char
val c_ptr : unit -> c_int
val sub_c_int : c_int -> c_int -> bool
type
c_float =
| |
Float32 |
| |
Float64 |
val compare_c_float : c_float -> c_float -> int
val f_bytes : c_float -> int
val f_bits : c_float -> int
val make_c_float : int -> c_float
val c_float : Cil_types.fkind -> c_float
val sub_c_float : c_float -> c_float -> bool
type
arrayflat = {
|
arr_size : |
(* |
number of elements in the array
| *) |
|
arr_dim : |
(* |
number of dimensions in the array
| *) |
|
arr_cell : |
(* |
type of elementary cells of the flatten array. Never an array.
| *) |
|
arr_cell_nbr : |
(* |
number of elementary cells in the flatten array
| *) |
type
arrayinfo = {
|
arr_element : |
(* |
type of the elements of the array
| *) |
|
arr_flat : |
type
c_object =
| |
C_int of |
| |
C_float of |
| |
C_pointer of |
| |
C_comp of |
| |
C_array of |
val idx : c_int -> int
val imemo : (c_int -> 'a) -> c_int -> 'a
val fdx : c_float -> int
val fmemo : (c_float -> 'a) -> c_float -> 'a
val pp_int : Format.formatter -> c_int -> unit
val pp_float : Format.formatter -> c_float -> unit
val pp_object : Format.formatter -> c_object -> unit
val char : char -> int64
val constant : Cil_types.exp -> int64
val get_int : Cil_types.exp -> int64 option
val dimension : Cil_types.typ -> int * int64 * Cil_types.typ
val is_pointer : c_object -> bool
val is_void : Cil_types.typ -> bool
val object_of : Cil_types.typ -> c_object
val object_of_pointed : c_object -> c_object
val object_of_array_elem : c_object -> c_object
val object_of_logic_type : Cil_types.logic_type -> c_object
val object_of_logic_pointed : Cil_types.logic_type -> c_object
val no_infinite_array : c_object -> bool
val array_dim : arrayinfo -> c_object * int
val array_dimensions : arrayinfo -> c_object * int option list
val array_size : Cil_types.typ -> int option
val dimension_of_object : c_object -> (int * int) option
val int64_max : Int64.t -> Int64.t -> Int64.t
val sizeof_object : c_object -> int
val sizeof_typ : Cil_types.typ -> int
val field_offset : Cil_types.fieldinfo -> int
val i_convert : c_int -> c_int -> c_int
val f_convert : c_float -> c_float -> c_float
val promote : c_object -> c_object -> c_object
val hsh : (c_object -> int) Pervasives.ref
val cmp : (c_object -> c_object -> int) Pervasives.ref
module AinfoComparable:sig
..end
val hash : c_object -> int
val equal : c_object -> c_object -> bool
val compare : c_object -> c_object -> int
val merge : c_object -> c_object -> c_object
val basename : c_object -> string
val pretty : Format.formatter -> c_object -> unit
module C_object:Datatype.Make
(
sig
typet =
Ctypes.c_object
val name :string
val rehash :'a -> 'a
val structural_descr :Structural_descr.t
val reprs :Ctypes.c_object list
val equal :Ctypes.c_object -> Ctypes.c_object -> bool
val pretty :Format.formatter -> Ctypes.c_object -> unit
val hash :Ctypes.c_object -> int
val compare :Ctypes.c_object -> Ctypes.c_object -> int
val copy :'a -> 'a
val internal_pretty_code :Type.precedence -> Format.formatter -> 'a -> unit
val mem_project :(Project_skeleton.t -> bool) -> 'a -> bool
val varname :'a -> string
end
)
val compare_ptr_conflated : c_object -> c_object -> int
Ctypes.compare
but all PTR are considered the sameval compare_array_ptr_conflated : arrayinfo -> arrayinfo -> int