Module Concurrency__RacerDDomain
module AccessExpression = Absint.HilExp.AccessExpression
val apply_to_first_actual : Absint.HilExp.t list -> 'a -> f:(Absint.HilExp.access_expression -> 'a) -> 'a
val pp_exp : F.formatter -> AccessExpression.t -> unit
language sensitive pretty-printer
module Access : sig ... end
module LockDomain : sig ... end
Overapproximation of number of times the lock has been acquired
module ThreadsDomain : sig ... end
Abstraction of threads that may run in parallel with the current thread. NoThread < AnyThreadExceptSelf < AnyThread
module OwnershipAbstractValue : sig ... end
module AccessSnapshot : sig ... end
snapshot of the relevant state at the time of a heap access: concurrent thread(s), lock(s) held, ownership precondition
module AccessDomain : Absint.AbstractDomain.FiniteSetS with type FiniteSetS.elt = AccessSnapshot.t
module OwnershipDomain : sig ... end
module Attribute : sig ... end
module AttributeMapDomain : sig ... end
type t
=
{
threads : ThreadsDomain.t;
current thread: main, background, or unknown
locks : LockDomain.t;
boolean that is true if a lock must currently be held
accesses : AccessDomain.t;
read and writes accesses performed without ownership permissions
ownership : OwnershipDomain.t;
map of access paths to ownership predicates
attribute_map : AttributeMapDomain.t;
map of access paths to attributes such as owned, functional, ...
}
include Absint.AbstractDomain.WithBottom with type t := t
include Absint.AbstractDomain.S
include Absint.AbstractDomain.NoJoin
include IStdlib.PrettyPrintable.PrintableType
val pp : IStdlib.PrettyPrintable.F.formatter -> t -> unit
val bottom : t
The bottom value of the domain.
val is_bottom : t -> bool
Return true if this is the bottom value
val add_unannotated_call_access : Absint.FormalMap.t -> IR.Procname.t -> Absint.HilExp.t list -> IBase.Location.t -> t -> t
type summary
=
{
threads : ThreadsDomain.t;
locks : LockDomain.t;
accesses : AccessDomain.t;
return_ownership : OwnershipAbstractValue.t;
return_attribute : Attribute.t;
attributes : AttributeMapDomain.t;
}
same as astate, but without
attribute_map
(since these involve locals) and with the addition of the ownership/attributes associated with the return value as well as the set of formals which may escape
val empty_summary : summary
val pp_summary : F.formatter -> summary -> unit
val astate_to_summary : IR.Procdesc.t -> Absint.FormalMap.t -> t -> summary
val add_access : IR.Tenv.t -> Absint.FormalMap.t -> IBase.Location.t -> is_write:bool -> t -> Absint.HilExp.t -> t
val add_container_access : IR.Tenv.t -> Absint.FormalMap.t -> is_write:bool -> Absint.AccessPath.base -> IR.Procname.t -> Absint.HilExp.t list -> IBase.Location.t -> t -> t
val add_reads_of_hilexps : IR.Tenv.t -> Absint.FormalMap.t -> Absint.HilExp.t list -> IBase.Location.t -> t -> t
val integrate_summary : Absint.FormalMap.t -> callee_proc_desc:IR.Procdesc.t -> summary -> Absint.HilExp.access_expression -> IR.Procname.t -> Absint.HilExp.t list -> IBase.Location.t -> t -> t