functor
(REACH : sig
val stmt_can_reach : Cil_types.stmt -> Cil_types.stmt -> bool
end) ->
sig
val name : string
val debug : bool Pervasives.ref
val current_stmt : Cil_types.kinstr Pervasives.ref
val stmt_can_reach : Cil_types.stmt -> Cil_types.stmt -> bool
val non_terminating_callees_inputs : Locations.Zone.t Pervasives.ref
type t = Operational_inputs.compute_t
val pretty : Format.formatter -> Operational_inputs.compute_t -> unit
module StmtStartData :
sig
type data = compute_t
type key = Cil_types.stmt
val clear : unit -> unit
val mem : key -> bool
val find : key -> data
val replace : key -> data -> unit
val add : key -> data -> unit
val iter : (key -> data -> unit) -> unit
val length : unit -> int
end
val display_one :
Format.formatter -> int -> Db.Operational_inputs.t -> unit
val display :
Format.formatter -> Db.Operational_inputs.t Inthash.t -> unit
val copy : Operational_inputs.Computer.t -> Operational_inputs.Computer.t
val computeFirstPredecessor :
Cil_types.stmt ->
Operational_inputs.compute_t -> Operational_inputs.compute_t
val combinePredecessors :
Cil_types.stmt ->
old:Operational_inputs.compute_t ->
Operational_inputs.compute_t -> Operational_inputs.compute_t option
val resolv_func_vinfo :
?deps:Locations.Zone.t ->
Cil_types.kinstr ->
Cil_types.exp ->
with_alarms:CilE.warn_mode ->
Locations.Zone.t * Kernel_function.Hptset.t
val doInstr :
Cil_types.stmt ->
Cil_types.instr ->
Operational_inputs.Computer.t ->
Operational_inputs.compute_t Dataflow.action
val doStmt :
Cil_types.stmt ->
Operational_inputs.Computer.t -> 'a Dataflow.stmtaction
val filterStmt : Cil_types.stmt -> bool
val doGuard :
Cil_types.stmt ->
'a -> 'b -> 'c Dataflow.guardaction * 'd Dataflow.guardaction
val doEdge : 'a -> 'b -> 'c -> 'c
end