Make.Address
include Domain_sig.Minimal with module Context = Sub.Offset.Context
include Domain_sig.Minimal_No_Boolean with module Context = Sub.Offset.Context
include Domain_sig.With_Context with module Context = Sub.Offset.Context
module Context = Sub.Offset.Context
val root_context : unit -> Context.t
val context_pretty : Stdlib.Format.formatter -> Context.t -> unit
include Domain_sig.With_Assume
with module Context := Context
and type boolean := boolean
Corresponds to the creation of a new basic block, accessible only if the condition is met. None means bottom.
Because the transfer functions imperatively change the context, they cannot use assume, that returns a new context. Temporarily, we provide this instead (it should be applied only to fresh symbolic variables and not modify the set of valuations of the other symbolic variables. In particular, the condition must never make the context bottom).
The good long-term solution would be to make every transfer function return a new Context.t option, viewing the context as some state monad.
include Domain_sig.With_Nondet with module Context := Context
val typed_nondet2 :
Context.t ->
Context.t ->
'a Context.in_tuple ->
Context.t * 'a Context.out_tuple
val nondet_same_context :
Context.t ->
'a Context.in_tuple ->
'a Context.out_tuple
include Domain_sig.With_Fixpoint_Computation with module Context := Context
val typed_fixpoint_step :
init:Context.t ->
arg:Context.t ->
body:Context.t ->
(bool * 'a Context.in_tuple) ->
bool * (close:bool -> 'a Context.out_tuple * Context.t)
include Domain_sig.With_Boolean
with module Context := Context
and type boolean := boolean
module Boolean : Datatype_sig.S with type t = boolean
val serialize_boolean :
Context.t ->
boolean ->
Context.t ->
boolean ->
'a Context.in_acc ->
(boolean, 'a) Context.result
module Boolean_Forward :
Transfer_functions.Boolean_Forward
with module Arity := Domain_sig.Context_Arity_Forward(Context)
and type boolean := boolean
val query_boolean : Context.t -> boolean -> Lattices.Quadrivalent.t
include Memory_sig.With_Fixed_Size_Value
with module Context := Context
and type boolean := boolean
with module Scalar = Sub.Offset.Scalar
include Memory_sig.With_Address
with module Context := Context
with type boolean := boolean
with module Scalar = Sub.Offset.Scalar
module Scalar = Sub.Offset.Scalar
val satisfiable : Context.t -> boolean -> Smtbackend.Smtlib_sig.sat
val serialize :
size:int ->
Context.t ->
binary ->
Context.t ->
binary ->
'a Context.in_acc ->
(binary, 'a) Context.result
val bchoose :
size:int ->
Transfer_functions.Choice.t ->
Context.t ->
binary ->
binary
val bindex : size:int -> int -> Context.t -> binary -> Scalar.binary -> binary
val bisub : size:int -> Context.t -> binary -> binary -> Scalar.binary
val binary_unknown_typed : size:int -> Context.t -> Types.Ctypes.typ -> binary
val has_type : size:int -> Context.t -> Types.Ctypes.typ -> binary -> bool
val binary2scalar_binary : size:int -> Context.t -> binary -> Scalar.binary
val assume_type : size:int -> Context.t -> binary -> Types.Ctypes.typ -> unit
val add_global_scalar_symbol :
size:int ->
Context.t ->
string ->
Scalar.binary ->
unit
module Query : sig ... end
include Domain_sig.With_Binary
with type boolean := boolean
and type binary := binary
and module Context := Context
module Binary : Datatype_sig.S with type t = binary
val serialize_binary :
size:int ->
Context.t ->
binary ->
Context.t ->
binary ->
'a Context.in_acc ->
(binary, 'a) Context.result
include Domain_sig.With_Binary_Forward
with module Context := Context
and type binary := binary
and type boolean := boolean
module Binary_Forward :
Transfer_functions.Binary_Forward
with module Arity := Domain_sig.Context_Arity_Forward(Context)
and type boolean := boolean
and type binary := binary
val union :
Transfer_functions.Condition.t ->
Context.t ->
'a Context.in_tuple ->
'a Context.out_tuple