Frama-C API - C
module M = M
The underlying memory model
type loc = M.loc
type sigma = M.Sigma.t
val pp_value : Stdlib.Format.formatter -> value -> unit
val cval : value -> Lang.F.term
Evaluate an abstract value. May fail because of M.pointer_val
.
val cast : Frama_c_kernel.Cil_types.typ -> Frama_c_kernel.Cil_types.typ -> value -> value
Applies a pointer cast or a conversion.
cast tr te ve
transforms a value ve
with type te
into a value with type tr
.
val equal_typ : Frama_c_kernel.Cil_types.typ -> value -> value -> Lang.F.pred
Computes the value of (a==b)
provided both a
and b
are values with the given type.
val not_equal_typ : Frama_c_kernel.Cil_types.typ -> value -> value -> Lang.F.pred
Computes the value of (a==b)
provided both a
and b
are values with the given type.
val equal_obj : Ctypes.c_object -> value -> value -> Lang.F.pred
Same as equal_typ
with an object type.
val not_equal_obj : Ctypes.c_object -> value -> value -> Lang.F.pred
Same as not_equal_typ
with an object type.
val exp : sigma -> Frama_c_kernel.Cil_types.exp -> value
Evaluate the expression on the given memory state.
val cond : sigma -> Frama_c_kernel.Cil_types.exp -> Lang.F.pred
Evaluate the conditional expression on the given memory state.
val lval : sigma -> Frama_c_kernel.Cil_types.lval -> loc
Evaluate the left-value on the given memory state.
val call : sigma -> Frama_c_kernel.Cil_types.exp -> loc
Address of a function pointer. Handles AddrOf
, StartOf
and Lval
as usual.
val instance_of : loc -> Frama_c_kernel.Cil_types.kernel_function -> Lang.F.pred
Check whether a function pointer is (an instance of) some kernel function. Currently, the meaning of "being an instance of" is simply equality.
val loc_of_exp : sigma -> Frama_c_kernel.Cil_types.exp -> loc
Compile an expression as a location. May (also) fail because of M.pointer_val
.
val val_of_exp : sigma -> Frama_c_kernel.Cil_types.exp -> Lang.F.term
Compile an expression as a term. May (also) fail because of M.pointer_loc
.
val result : sigma -> Frama_c_kernel.Cil_types.typ -> result -> Lang.F.term
Value of an abstract result container.
val return : sigma -> Frama_c_kernel.Cil_types.typ -> Frama_c_kernel.Cil_types.exp -> Lang.F.term
Return an expression with a given type. Short cut for compiling the expression, cast into the desired type, and finally converted to a term.
val is_zero : sigma -> Ctypes.c_object -> loc -> Lang.F.pred
Express that the object (of specified type) at the given location is filled with zeroes.
val is_exp_range : sigma -> loc -> Ctypes.c_object -> Lang.F.term -> Lang.F.term -> value option -> Lang.F.pred
Express that all objects in a range of locations have a given value.
More precisely, is_exp_range sigma loc ty a b v
express that value at ( ty* )loc + k
equals v
, forall a <= k <= b
. Value v=None
stands for zero.
val unchanged : M.sigma -> M.sigma -> Frama_c_kernel.Cil_types.varinfo -> Lang.F.pred
Express that a given variable has the same value in two memory states.
type warned_hyp = Wp__.Warning.Set.t * (Lang.F.pred * Lang.F.pred)
val init : sigma:M.sigma -> Frama_c_kernel.Cil_types.varinfo -> Frama_c_kernel.Cil_types.init option -> warned_hyp list
Express that some variable has some initial value at the given memory state. The first predicate states the value, the second, the initialization status.
Note: we DO NOT merge values and initialization status hypotheses as the factorization performed by Qed can make predicates too hard to simplify later.
Remark: None
initializer are interpreted as zeroes. This is consistent with the init option
associated with global variables in CIL, for which the default initializer are zeroes. This function is called for global initializers and local initializers (Cil.Local_init
). It is not called for local variables without initializers as they do not have a Cil.init option
.