functor
(WpModel : sig
module D : Mdata.S
module A :
sig
module D :
sig
module F :
sig
type 'a term = 'a D.F.term
type pred = D.F.pred
val e_int : int -> Formula.integer term
val e_call :
string ->
Formula.abstract term list ->
Formula.abstract term
val p_call :
string -> Formula.abstract term list -> pred
val wrap : 'a term -> Formula.abstract term
val unwrap : Formula.abstract term -> 'a term
val e_true : Formula.boolean term
val e_false : Formula.boolean term
val e_int : int -> Formula.integer term
val e_float : float -> Formula.real term
val e_icst : string -> Formula.integer term
val e_rcst : string -> Formula.real term
val e_int64 : int64 -> Formula.integer term
val e_ineg :
Formula.integer term -> Formula.integer term
val e_rneg :
Formula.real term -> Formula.real term
val e_iop :
Formula.integer_op ->
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rop :
Formula.real_op ->
Formula.real term ->
Formula.real term -> Formula.real term
val e_icmp :
Formula.cmp_op ->
Formula.integer term ->
Formula.integer term -> Formula.boolean term
val e_rcmp :
Formula.cmp_op ->
Formula.real term ->
Formula.real term -> Formula.boolean term
val p_icmp :
Formula.cmp_op ->
Formula.integer term ->
Formula.integer term -> pred
val p_rcmp :
Formula.cmp_op ->
Formula.real term -> Formula.real term -> pred
val e_bnot :
Formula.integer term -> Formula.integer term
val e_band :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bxor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_lshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val integer_of_real :
Formula.real term -> Formula.integer term
val real_of_integer :
Formula.integer term -> Formula.real term
val e_bool :
Formula.boolean term -> Formula.integer term
val e_not :
Formula.boolean term -> Formula.boolean term
val e_and :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_or :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_cond :
Formula.boolean term ->
'a term -> 'a term -> 'a term
val p_cond :
Formula.boolean term -> pred -> pred -> pred
val p_true : pred
val p_false : pred
val p_bool : Formula.boolean term -> pred
val p_and : pred -> pred -> pred
val p_or : pred -> pred -> pred
val p_xor : pred -> pred -> pred
val p_not : pred -> pred
val p_implies : pred -> pred -> pred
val p_iff : pred -> pred -> pred
val p_eq : 'a term -> 'a term -> pred
val p_neq : 'a term -> 'a term -> pred
val p_conj : pred list -> pred
val p_disj : pred list -> pred
val p_named : string -> pred -> pred
val is_true : pred -> bool
val is_false : pred -> bool
val huge_term : int -> 'a term -> bool
val huge_pred : int -> pred -> bool
type var = D.F.var
type pool = D.F.pool
val pool : unit -> pool
val fresh : pool -> string -> Formula.kind -> var
val freshen : pool -> var -> var
val var : var -> 'a term
val eq_var : var -> var -> bool
val name_of_var : var -> string
val tau_of_var : var -> Formula.tau
val kind_of_var : var -> Formula.kind
val term_has_var : var list -> 'a term -> bool
val pred_has_var : var list -> pred -> bool
val term_closed : 'a term -> bool
val pred_closed : pred -> bool
val p_forall : var list -> pred -> pred
val p_exists : var list -> pred -> pred
val p_subst :
(var -> var option) ->
var -> 'a term -> pred -> pred
val e_subst :
(var -> var option) ->
var -> 'a term -> 'b term -> 'b term
val e_rename :
(var * var) list -> 'a term -> 'a term
val equal_terms : 'a term -> 'a term -> bool
type alpha = D.F.alpha
val empty_alpha : alpha
val fold_alpha :
(var -> var -> 'a -> 'a) -> alpha -> 'a -> 'a
val p_more_alpha_cv :
alpha -> pred -> alpha * pred
val p_alpha_cv : pred -> var list * pred
val pp_var : Format.formatter -> var -> unit
val pp_term : Format.formatter -> 'a term -> unit
val pp_pred : Format.formatter -> pred -> unit
val pp_decl :
Format.formatter ->
pred Formula.declaration -> unit
val pp_goal :
Format.formatter -> string -> pred -> unit
end
type format = Formula.m_format F.term
type abstract = Formula.abstract F.term
type integer = Formula.integer F.term
type real = Formula.real F.term
type boolean = Formula.boolean F.term
type record = Formula.m_array F.term
type urecord = Formula.m_array F.term
type array = Formula.m_array F.term
type set = Formula.m_set F.term
type name = Formula.integer F.term
type pointer = Formula.m_pointer F.term
val pp_kind : Format.formatter -> Mdata.kind -> unit
type interval =
D.interval = {
inf : integer option;
sup : integer option;
}
type 'a assigned =
'a D.assigned =
Aloc of Ctypes.c_object * 'a
| Arange of Ctypes.c_object * 'a * interval
val pp_interval : Format.formatter -> interval -> unit
val e_app0 : string -> 'a F.term
val e_app1 : string -> 'a F.term -> 'b F.term
val e_app2 :
string -> 'a F.term -> 'b F.term -> 'c F.term
val e_app3 :
string ->
'a F.term -> 'b F.term -> 'c F.term -> 'd F.term
val e_app4 :
string ->
'a F.term ->
'b F.term -> 'c F.term -> 'd F.term -> 'e F.term
val e_app5 :
string ->
'a F.term ->
'b F.term ->
'c F.term -> 'd F.term -> 'e F.term -> 'f F.term
val p_app0 : string -> F.pred
val p_app1 : string -> 'a F.term -> F.pred
val p_app2 :
string -> 'a F.term -> 'b F.term -> F.pred
val p_app3 :
string ->
'a F.term -> 'b F.term -> 'c F.term -> F.pred
val p_app4 :
string ->
'a F.term ->
'b F.term -> 'c F.term -> 'd F.term -> F.pred
val p_app5 :
string ->
'a F.term ->
'b F.term ->
'c F.term -> 'd F.term -> 'e F.term -> F.pred
val tau_of_logic_type :
Cil_types.logic_type -> Formula.tau
type context = D.context
type bindings = D.bindings
class type hint =
object
method capture : F.var list -> unit
method has_var : F.var list -> bool
method pretty : Format.formatter -> unit
method subst :
F.var -> Formula.abstract F.term -> unit
end
val closed : bindings
val close : bindings -> F.pred -> F.pred
val capture : hint list -> bindings -> unit
val push :
string -> F.pool -> bindings -> hint list -> context
val pop : string -> context -> bindings
val kill : string -> context -> unit
val flush : string -> context -> F.pred -> F.pred
val term_such_that :
Formula.tau -> ('a F.term -> F.pred) -> 'a F.term
val forall : F.var list -> F.pred -> F.pred
val exists : F.var list -> F.pred -> F.pred
val subst : F.var -> 'a F.term -> F.pred -> F.pred
val fresh : string -> Mdata.vkind -> F.var
val alpha : F.var -> F.var option
val pool : unit -> F.pool
val vkind_of_var : F.var -> Mdata.vkind
val has_vars : F.var list -> F.pred -> bool
type substitution = D.substitution
val apply : substitution -> 'a F.term -> 'a F.term
type havoc =
D.havoc =
Fresh of F.var
| Update of F.var *
(substitution -> Formula.abstract F.term)
val havoc_static : havoc list -> F.pred -> F.pred
val havoc_inductive : havoc list -> F.pred -> F.pred
val clear : unit -> unit
val on_clear : (unit -> unit) -> unit
val fresh_name : string -> string -> string
val add_declaration :
F.pred Formula.declaration -> unit
val iter :
Formula.section ->
(F.pred Formula.declaration -> unit) -> unit
val iter_all :
(F.pred Formula.declaration -> unit) -> unit
val dummy : unit -> F.pred
module type Identifiable =
sig
type t
module H : Hashtbl.S
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module type Registry =
sig
type t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
end
module type Declarator =
sig
type t
module H : Hashtbl.S
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
val clear : unit -> unit
val section : Formula.section
val declare : t -> string -> F.pred Formula.item
end
module Register :
functor (D : Declarator) ->
sig
type t = D.t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
end
module Varinfo :
sig
type t = Cil_types.varinfo
module H :
sig
type key = D.Varinfo.H.key
type 'a t = 'a D.Varinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Varaddr :
sig
type t = Cil_types.varinfo
module H :
sig
type key = D.Varaddr.H.key
type 'a t = 'a D.Varaddr.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Fieldinfo :
sig
type t = Cil_types.fieldinfo
module H :
sig
type key = D.Fieldinfo.H.key
type 'a t = 'a D.Fieldinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Compinfo :
sig
type t = Cil_types.compinfo
module H :
sig
type key = D.Compinfo.H.key
type 'a t = 'a D.Compinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Arrayinfo :
sig
type t = Ctypes.arrayinfo
module H :
sig
type key = D.Arrayinfo.H.key
type 'a t = 'a D.Arrayinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Logicvar :
sig
type t = Cil_types.logic_var
module H :
sig
type key = D.Logicvar.H.key
type 'a t = 'a D.Logicvar.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module type Indexed =
sig
type t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Dindex :
functor (I : Identifiable) ->
sig
type t = I.t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Findex :
sig
type t = Cil_types.fieldinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Xindex :
sig
type t = Cil_types.varinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Aindex :
sig
type t = Cil_types.varinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Tindex :
sig
type t = Cil_types.compinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
val modulo : Ctypes.c_int -> integer -> integer
val guard : Ctypes.c_int -> integer -> F.pred
val i_convert :
Ctypes.c_int -> Ctypes.c_int -> integer -> integer
val round : Ctypes.c_float -> real -> real
val f_guard : Ctypes.c_float -> real -> F.pred
val f_convert :
Ctypes.c_float -> Ctypes.c_float -> real -> real
val has_type :
abstract -> Cil_types.logic_type -> F.pred
val get_range_index : array -> interval -> abstract
val set_range_index : array -> interval -> array
val empty : set
val singleton : abstract -> set
val union : set -> set -> set
val unions : set list -> set
val inter : set -> set -> set
val remove : set -> set -> set
val set_of_list : abstract list -> set
val add_set : set -> set -> set
val mult_set : set -> set -> set
val neg_set : set -> set
val interval : interval -> set
val equal_pointer_bool : pointer -> pointer -> boolean
val lt_pointer_bool : pointer -> pointer -> boolean
val le_pointer_bool : pointer -> pointer -> boolean
val lt_pointer : pointer -> pointer -> F.pred
val le_pointer : pointer -> pointer -> F.pred
val minus_pointer : pointer -> pointer -> integer
val is_null : pointer -> boolean
val null : pointer
val tau_of_object : Ctypes.c_object -> Formula.tau
val tau_of_ctype : Cil_types.typ -> Formula.tau
val int_format : format
val real_format : format
val pointer_format : format
val record_format : format
val urecord_format : format
val array_format : format -> format
val format_of_object : Ctypes.c_object -> format
val decode : format -> abstract -> 'a F.term
val encode : format -> 'a F.term -> abstract
val acc_field :
record -> Cil_types.fieldinfo -> abstract
val upd_field :
record -> Cil_types.fieldinfo -> abstract -> record
val acc_index : array -> integer -> abstract
val upd_index : array -> integer -> abstract -> array
val equal :
Ctypes.c_object -> abstract -> abstract -> F.pred
val eq_array :
Ctypes.arrayinfo -> array -> array -> F.pred
val eq_record :
Cil_types.compinfo -> record -> record -> F.pred
end
val i_neg : Ctypes.c_int -> D.integer -> D.integer
val i_op :
Ctypes.c_int ->
Formula.integer_op ->
D.integer -> D.integer -> D.integer
val i_cmp :
Ctypes.c_int ->
Formula.cmp_op -> D.integer -> D.integer -> D.boolean
val bits_not : Ctypes.c_int -> D.integer -> D.integer
val bits_and :
Ctypes.c_int -> D.integer -> D.integer -> D.integer
val bits_or :
Ctypes.c_int -> D.integer -> D.integer -> D.integer
val bits_xor :
Ctypes.c_int -> D.integer -> D.integer -> D.integer
val bits_lshift :
Ctypes.c_int -> D.integer -> D.integer -> D.integer
val bits_rshift :
Ctypes.c_int -> D.integer -> D.integer -> D.integer
end
module R :
sig
module D :
sig
module F :
sig
type 'a term = 'a D.F.term
type pred = D.F.pred
val e_int : int -> Formula.integer term
val e_call :
string ->
Formula.abstract term list ->
Formula.abstract term
val p_call :
string -> Formula.abstract term list -> pred
val wrap : 'a term -> Formula.abstract term
val unwrap : Formula.abstract term -> 'a term
val e_true : Formula.boolean term
val e_false : Formula.boolean term
val e_int : int -> Formula.integer term
val e_float : float -> Formula.real term
val e_icst : string -> Formula.integer term
val e_rcst : string -> Formula.real term
val e_int64 : int64 -> Formula.integer term
val e_ineg :
Formula.integer term -> Formula.integer term
val e_rneg :
Formula.real term -> Formula.real term
val e_iop :
Formula.integer_op ->
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rop :
Formula.real_op ->
Formula.real term ->
Formula.real term -> Formula.real term
val e_icmp :
Formula.cmp_op ->
Formula.integer term ->
Formula.integer term -> Formula.boolean term
val e_rcmp :
Formula.cmp_op ->
Formula.real term ->
Formula.real term -> Formula.boolean term
val p_icmp :
Formula.cmp_op ->
Formula.integer term ->
Formula.integer term -> pred
val p_rcmp :
Formula.cmp_op ->
Formula.real term -> Formula.real term -> pred
val e_bnot :
Formula.integer term -> Formula.integer term
val e_band :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bxor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_lshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val integer_of_real :
Formula.real term -> Formula.integer term
val real_of_integer :
Formula.integer term -> Formula.real term
val e_bool :
Formula.boolean term -> Formula.integer term
val e_not :
Formula.boolean term -> Formula.boolean term
val e_and :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_or :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_cond :
Formula.boolean term ->
'a term -> 'a term -> 'a term
val p_cond :
Formula.boolean term -> pred -> pred -> pred
val p_true : pred
val p_false : pred
val p_bool : Formula.boolean term -> pred
val p_and : pred -> pred -> pred
val p_or : pred -> pred -> pred
val p_xor : pred -> pred -> pred
val p_not : pred -> pred
val p_implies : pred -> pred -> pred
val p_iff : pred -> pred -> pred
val p_eq : 'a term -> 'a term -> pred
val p_neq : 'a term -> 'a term -> pred
val p_conj : pred list -> pred
val p_disj : pred list -> pred
val p_named : string -> pred -> pred
val is_true : pred -> bool
val is_false : pred -> bool
val huge_term : int -> 'a term -> bool
val huge_pred : int -> pred -> bool
type var = D.F.var
type pool = D.F.pool
val pool : unit -> pool
val fresh : pool -> string -> Formula.kind -> var
val freshen : pool -> var -> var
val var : var -> 'a term
val eq_var : var -> var -> bool
val name_of_var : var -> string
val tau_of_var : var -> Formula.tau
val kind_of_var : var -> Formula.kind
val term_has_var : var list -> 'a term -> bool
val pred_has_var : var list -> pred -> bool
val term_closed : 'a term -> bool
val pred_closed : pred -> bool
val p_forall : var list -> pred -> pred
val p_exists : var list -> pred -> pred
val p_subst :
(var -> var option) ->
var -> 'a term -> pred -> pred
val e_subst :
(var -> var option) ->
var -> 'a term -> 'b term -> 'b term
val e_rename :
(var * var) list -> 'a term -> 'a term
val equal_terms : 'a term -> 'a term -> bool
type alpha = D.F.alpha
val empty_alpha : alpha
val fold_alpha :
(var -> var -> 'a -> 'a) -> alpha -> 'a -> 'a
val p_more_alpha_cv :
alpha -> pred -> alpha * pred
val p_alpha_cv : pred -> var list * pred
val pp_var : Format.formatter -> var -> unit
val pp_term : Format.formatter -> 'a term -> unit
val pp_pred : Format.formatter -> pred -> unit
val pp_decl :
Format.formatter ->
pred Formula.declaration -> unit
val pp_goal :
Format.formatter -> string -> pred -> unit
end
type format = Formula.m_format F.term
type abstract = Formula.abstract F.term
type integer = Formula.integer F.term
type real = Formula.real F.term
type boolean = Formula.boolean F.term
type record = Formula.m_array F.term
type urecord = Formula.m_array F.term
type array = Formula.m_array F.term
type set = Formula.m_set F.term
type name = Formula.integer F.term
type pointer = Formula.m_pointer F.term
val pp_kind : Format.formatter -> Mdata.kind -> unit
type interval =
D.interval = {
inf : integer option;
sup : integer option;
}
type 'a assigned =
'a D.assigned =
Aloc of Ctypes.c_object * 'a
| Arange of Ctypes.c_object * 'a * interval
val pp_interval : Format.formatter -> interval -> unit
val e_app0 : string -> 'a F.term
val e_app1 : string -> 'a F.term -> 'b F.term
val e_app2 :
string -> 'a F.term -> 'b F.term -> 'c F.term
val e_app3 :
string ->
'a F.term -> 'b F.term -> 'c F.term -> 'd F.term
val e_app4 :
string ->
'a F.term ->
'b F.term -> 'c F.term -> 'd F.term -> 'e F.term
val e_app5 :
string ->
'a F.term ->
'b F.term ->
'c F.term -> 'd F.term -> 'e F.term -> 'f F.term
val p_app0 : string -> F.pred
val p_app1 : string -> 'a F.term -> F.pred
val p_app2 :
string -> 'a F.term -> 'b F.term -> F.pred
val p_app3 :
string ->
'a F.term -> 'b F.term -> 'c F.term -> F.pred
val p_app4 :
string ->
'a F.term ->
'b F.term -> 'c F.term -> 'd F.term -> F.pred
val p_app5 :
string ->
'a F.term ->
'b F.term ->
'c F.term -> 'd F.term -> 'e F.term -> F.pred
val tau_of_logic_type :
Cil_types.logic_type -> Formula.tau
type context = D.context
type bindings = D.bindings
class type hint =
object
method capture : F.var list -> unit
method has_var : F.var list -> bool
method pretty : Format.formatter -> unit
method subst :
F.var -> Formula.abstract F.term -> unit
end
val closed : bindings
val close : bindings -> F.pred -> F.pred
val capture : hint list -> bindings -> unit
val push :
string -> F.pool -> bindings -> hint list -> context
val pop : string -> context -> bindings
val kill : string -> context -> unit
val flush : string -> context -> F.pred -> F.pred
val term_such_that :
Formula.tau -> ('a F.term -> F.pred) -> 'a F.term
val forall : F.var list -> F.pred -> F.pred
val exists : F.var list -> F.pred -> F.pred
val subst : F.var -> 'a F.term -> F.pred -> F.pred
val fresh : string -> Mdata.vkind -> F.var
val alpha : F.var -> F.var option
val pool : unit -> F.pool
val vkind_of_var : F.var -> Mdata.vkind
val has_vars : F.var list -> F.pred -> bool
type substitution = D.substitution
val apply : substitution -> 'a F.term -> 'a F.term
type havoc =
D.havoc =
Fresh of F.var
| Update of F.var *
(substitution -> Formula.abstract F.term)
val havoc_static : havoc list -> F.pred -> F.pred
val havoc_inductive : havoc list -> F.pred -> F.pred
val clear : unit -> unit
val on_clear : (unit -> unit) -> unit
val fresh_name : string -> string -> string
val add_declaration :
F.pred Formula.declaration -> unit
val iter :
Formula.section ->
(F.pred Formula.declaration -> unit) -> unit
val iter_all :
(F.pred Formula.declaration -> unit) -> unit
val dummy : unit -> F.pred
module type Identifiable =
sig
type t
module H : Hashtbl.S
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module type Registry =
sig
type t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
end
module type Declarator =
sig
type t
module H : Hashtbl.S
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
val clear : unit -> unit
val section : Formula.section
val declare : t -> string -> F.pred Formula.item
end
module Register :
functor (D : Declarator) ->
sig
type t = D.t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
end
module Varinfo :
sig
type t = Cil_types.varinfo
module H :
sig
type key = D.Varinfo.H.key
type 'a t = 'a D.Varinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Varaddr :
sig
type t = Cil_types.varinfo
module H :
sig
type key = D.Varaddr.H.key
type 'a t = 'a D.Varaddr.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Fieldinfo :
sig
type t = Cil_types.fieldinfo
module H :
sig
type key = D.Fieldinfo.H.key
type 'a t = 'a D.Fieldinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Compinfo :
sig
type t = Cil_types.compinfo
module H :
sig
type key = D.Compinfo.H.key
type 'a t = 'a D.Compinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Arrayinfo :
sig
type t = Ctypes.arrayinfo
module H :
sig
type key = D.Arrayinfo.H.key
type 'a t = 'a D.Arrayinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Logicvar :
sig
type t = Cil_types.logic_var
module H :
sig
type key = D.Logicvar.H.key
type 'a t = 'a D.Logicvar.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold :
(key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module type Indexed =
sig
type t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Dindex :
functor (I : Identifiable) ->
sig
type t = I.t
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Findex :
sig
type t = Cil_types.fieldinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Xindex :
sig
type t = Cil_types.varinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Aindex :
sig
type t = Cil_types.varinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
module Tindex :
sig
type t = Cil_types.compinfo
val define : t -> unit
val get_definition :
t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) ->
unit
val get_ind : t -> integer
end
val modulo : Ctypes.c_int -> integer -> integer
val guard : Ctypes.c_int -> integer -> F.pred
val i_convert :
Ctypes.c_int -> Ctypes.c_int -> integer -> integer
val round : Ctypes.c_float -> real -> real
val f_guard : Ctypes.c_float -> real -> F.pred
val f_convert :
Ctypes.c_float -> Ctypes.c_float -> real -> real
val has_type :
abstract -> Cil_types.logic_type -> F.pred
val get_range_index : array -> interval -> abstract
val set_range_index : array -> interval -> array
val empty : set
val singleton : abstract -> set
val union : set -> set -> set
val unions : set list -> set
val inter : set -> set -> set
val remove : set -> set -> set
val set_of_list : abstract list -> set
val add_set : set -> set -> set
val mult_set : set -> set -> set
val neg_set : set -> set
val interval : interval -> set
val equal_pointer_bool : pointer -> pointer -> boolean
val lt_pointer_bool : pointer -> pointer -> boolean
val le_pointer_bool : pointer -> pointer -> boolean
val lt_pointer : pointer -> pointer -> F.pred
val le_pointer : pointer -> pointer -> F.pred
val minus_pointer : pointer -> pointer -> integer
val is_null : pointer -> boolean
val null : pointer
val tau_of_object : Ctypes.c_object -> Formula.tau
val tau_of_ctype : Cil_types.typ -> Formula.tau
val int_format : format
val real_format : format
val pointer_format : format
val record_format : format
val urecord_format : format
val array_format : format -> format
val format_of_object : Ctypes.c_object -> format
val decode : format -> abstract -> 'a F.term
val encode : format -> 'a F.term -> abstract
val acc_field :
record -> Cil_types.fieldinfo -> abstract
val upd_field :
record -> Cil_types.fieldinfo -> abstract -> record
val acc_index : array -> integer -> abstract
val upd_index : array -> integer -> abstract -> array
val equal :
Ctypes.c_object -> abstract -> abstract -> F.pred
val eq_array :
Ctypes.arrayinfo -> array -> array -> F.pred
val eq_record :
Cil_types.compinfo -> record -> record -> F.pred
end
val f_neg : Ctypes.c_float -> D.real -> D.real
val f_op :
Ctypes.c_float ->
Formula.real_op -> D.real -> D.real -> D.real
val f_cmp :
Ctypes.c_float ->
Formula.cmp_op -> D.real -> D.real -> D.boolean
end
type loc
val loc_of_pointer : Ctypes.c_object -> D.pointer -> loc
val pointer_of_loc : loc -> D.pointer
val cast_loc_to_int :
Cil_types.typ -> loc -> Ctypes.c_int -> D.integer
val cast_int_to_loc :
Ctypes.c_int -> D.integer -> Cil_types.typ -> loc
val pp_loc : Format.formatter -> loc -> unit
type value =
V_int of Ctypes.c_int * D.integer
| V_float of Ctypes.c_float * D.real
| V_pointer of Cil_types.typ * loc
| V_record of Cil_types.compinfo * D.record
| V_union of Cil_types.compinfo * D.urecord
| V_array of Ctypes.arrayinfo * D.array
val pp_value : Format.formatter -> value -> unit
val logic_of_value : value -> D.abstract
val value_of_logic : Ctypes.c_object -> D.abstract -> value
type mem
val cvar : mem -> Cil_types.varinfo -> loc
val shift : loc -> Ctypes.c_object -> D.integer -> loc
val index : loc -> Ctypes.c_object -> D.integer -> loc
val startof : loc -> Ctypes.c_object -> loc
val field : loc -> Cil_types.fieldinfo -> loc
val load : mem -> Ctypes.c_object -> loc -> value
val cast_loc_to_loc :
Cil_types.typ -> Cil_types.typ -> loc -> loc
type frame
val new_frame :
Kernel_function.t ->
m_here:mem option ->
m_pre:mem option ->
m_post:mem option -> D.F.var option -> frame
val mem_at : frame -> Clabels.c_label -> mem
val result : frame -> D.F.var * Cil_types.typ
val exit_status : frame -> D.F.var
val set_exit_status : frame -> D.F.var -> frame
val get_exit_status : frame -> D.F.var option
val base_address : mem -> loc -> loc
val block_length : mem -> loc -> Formula.integer D.F.term
val valid : mem -> loc D.assigned -> D.F.pred
val separated : loc D.assigned -> loc D.assigned -> D.F.pred
type closure
val userdef_frame : unit -> frame
val userdef_signature :
frame ->
Formula.abstract D.F.term list ->
D.F.pred list -> D.F.var list * closure list
val label_at_closure : closure -> string
val userdef_closure :
mem -> closure -> Formula.abstract D.F.term
val pp_closure : Format.formatter -> closure -> unit
val update_at_label :
frame -> Clabels.c_label -> D.F.pred -> D.F.pred
val quantify_at_label :
frame -> Clabels.c_label -> D.F.pred -> D.F.pred
val subst_lval :
frame ->
Ctypes.c_object -> loc -> value -> D.F.pred -> D.F.pred
val subst_result :
frame -> value option -> D.F.pred -> D.F.pred
val subst_havoc : frame -> loc D.assigned -> D.havoc list
val assigns_goal :
frame ->
Clabels.c_label ->
loc D.assigned list -> Clabels.c_label -> D.F.pred
val assigns_supported : bool
type m_dzone
type dzone = m_dzone D.F.term
val tau_of_dzone : Formula.tau
val dzone_assigned : loc D.assigned -> dzone
val dzone_subset : dzone -> dzone -> D.F.pred
val dzone_union : dzone -> dzone -> dzone
val dzone_empty : unit -> dzone
val effect_supported : bool
type region
val pp_region : Format.formatter -> region -> unit
val region_assigned : loc D.assigned -> region
val region_empty : unit -> region
val region_union : region -> region -> region
val region_included : region -> region -> D.F.pred
val region_separated : region -> region -> D.F.pred
val region_fingerprint :
D.F.pool -> region -> D.F.var list * D.F.pred * region
val region_supported : bool
val local_scope :
frame ->
Cil_types.varinfo list -> Mcfg.scope -> D.F.pred -> D.F.pred
val model : string
end) ->
sig
module F :
sig
type 'a term = 'a WpModel.D.F.term
type pred = WpModel.D.F.pred
val e_int : int -> Formula.integer term
val e_call :
string -> Formula.abstract term list -> Formula.abstract term
val p_call : string -> Formula.abstract term list -> pred
val wrap : 'a term -> Formula.abstract term
val unwrap : Formula.abstract term -> 'a term
val e_true : Formula.boolean term
val e_false : Formula.boolean term
val e_int : int -> Formula.integer term
val e_float : float -> Formula.real term
val e_icst : string -> Formula.integer term
val e_rcst : string -> Formula.real term
val e_int64 : int64 -> Formula.integer term
val e_ineg : Formula.integer term -> Formula.integer term
val e_rneg : Formula.real term -> Formula.real term
val e_iop :
Formula.integer_op ->
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rop :
Formula.real_op ->
Formula.real term -> Formula.real term -> Formula.real term
val e_icmp :
Formula.cmp_op ->
Formula.integer term ->
Formula.integer term -> Formula.boolean term
val e_rcmp :
Formula.cmp_op ->
Formula.real term -> Formula.real term -> Formula.boolean term
val p_icmp :
Formula.cmp_op ->
Formula.integer term -> Formula.integer term -> pred
val p_rcmp :
Formula.cmp_op -> Formula.real term -> Formula.real term -> pred
val e_bnot : Formula.integer term -> Formula.integer term
val e_band :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bxor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_lshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val integer_of_real : Formula.real term -> Formula.integer term
val real_of_integer : Formula.integer term -> Formula.real term
val e_bool : Formula.boolean term -> Formula.integer term
val e_not : Formula.boolean term -> Formula.boolean term
val e_and :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_or :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_cond : Formula.boolean term -> 'a term -> 'a term -> 'a term
val p_cond : Formula.boolean term -> pred -> pred -> pred
val p_true : pred
val p_false : pred
val p_bool : Formula.boolean term -> pred
val p_and : pred -> pred -> pred
val p_or : pred -> pred -> pred
val p_xor : pred -> pred -> pred
val p_not : pred -> pred
val p_implies : pred -> pred -> pred
val p_iff : pred -> pred -> pred
val p_eq : 'a term -> 'a term -> pred
val p_neq : 'a term -> 'a term -> pred
val p_conj : pred list -> pred
val p_disj : pred list -> pred
val p_named : string -> pred -> pred
val is_true : pred -> bool
val is_false : pred -> bool
val huge_term : int -> 'a term -> bool
val huge_pred : int -> pred -> bool
type var = WpModel.D.F.var
type pool = WpModel.D.F.pool
val pool : unit -> pool
val fresh : pool -> string -> Formula.kind -> var
val freshen : pool -> var -> var
val var : var -> 'a term
val eq_var : var -> var -> bool
val name_of_var : var -> string
val tau_of_var : var -> Formula.tau
val kind_of_var : var -> Formula.kind
val term_has_var : var list -> 'a term -> bool
val pred_has_var : var list -> pred -> bool
val term_closed : 'a term -> bool
val pred_closed : pred -> bool
val p_forall : var list -> pred -> pred
val p_exists : var list -> pred -> pred
val p_subst : (var -> var option) -> var -> 'a term -> pred -> pred
val e_subst :
(var -> var option) -> var -> 'a term -> 'b term -> 'b term
val e_rename : (var * var) list -> 'a term -> 'a term
val equal_terms : 'a term -> 'a term -> bool
type alpha = WpModel.D.F.alpha
val empty_alpha : alpha
val fold_alpha : (var -> var -> 'a -> 'a) -> alpha -> 'a -> 'a
val p_more_alpha_cv : alpha -> pred -> alpha * pred
val p_alpha_cv : pred -> var list * pred
val pp_var : Format.formatter -> var -> unit
val pp_term : Format.formatter -> 'a term -> unit
val pp_pred : Format.formatter -> pred -> unit
val pp_decl : Format.formatter -> pred Formula.declaration -> unit
val pp_goal : Format.formatter -> string -> pred -> unit
end
module D :
sig
module F :
sig
type 'a term = 'a WpModel.D.F.term
type pred = WpModel.D.F.pred
val e_int : int -> Formula.integer term
val e_call :
string -> Formula.abstract term list -> Formula.abstract term
val p_call : string -> Formula.abstract term list -> pred
val wrap : 'a term -> Formula.abstract term
val unwrap : Formula.abstract term -> 'a term
val e_true : Formula.boolean term
val e_false : Formula.boolean term
val e_int : int -> Formula.integer term
val e_float : float -> Formula.real term
val e_icst : string -> Formula.integer term
val e_rcst : string -> Formula.real term
val e_int64 : int64 -> Formula.integer term
val e_ineg : Formula.integer term -> Formula.integer term
val e_rneg : Formula.real term -> Formula.real term
val e_iop :
Formula.integer_op ->
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rop :
Formula.real_op ->
Formula.real term -> Formula.real term -> Formula.real term
val e_icmp :
Formula.cmp_op ->
Formula.integer term ->
Formula.integer term -> Formula.boolean term
val e_rcmp :
Formula.cmp_op ->
Formula.real term -> Formula.real term -> Formula.boolean term
val p_icmp :
Formula.cmp_op ->
Formula.integer term -> Formula.integer term -> pred
val p_rcmp :
Formula.cmp_op ->
Formula.real term -> Formula.real term -> pred
val e_bnot : Formula.integer term -> Formula.integer term
val e_band :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_bxor :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_lshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val e_rshift :
Formula.integer term ->
Formula.integer term -> Formula.integer term
val integer_of_real : Formula.real term -> Formula.integer term
val real_of_integer : Formula.integer term -> Formula.real term
val e_bool : Formula.boolean term -> Formula.integer term
val e_not : Formula.boolean term -> Formula.boolean term
val e_and :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_or :
Formula.boolean term ->
Formula.boolean term -> Formula.boolean term
val e_cond :
Formula.boolean term -> 'a term -> 'a term -> 'a term
val p_cond : Formula.boolean term -> pred -> pred -> pred
val p_true : pred
val p_false : pred
val p_bool : Formula.boolean term -> pred
val p_and : pred -> pred -> pred
val p_or : pred -> pred -> pred
val p_xor : pred -> pred -> pred
val p_not : pred -> pred
val p_implies : pred -> pred -> pred
val p_iff : pred -> pred -> pred
val p_eq : 'a term -> 'a term -> pred
val p_neq : 'a term -> 'a term -> pred
val p_conj : pred list -> pred
val p_disj : pred list -> pred
val p_named : string -> pred -> pred
val is_true : pred -> bool
val is_false : pred -> bool
val huge_term : int -> 'a term -> bool
val huge_pred : int -> pred -> bool
type var = WpModel.D.F.var
type pool = WpModel.D.F.pool
val pool : unit -> pool
val fresh : pool -> string -> Formula.kind -> var
val freshen : pool -> var -> var
val var : var -> 'a term
val eq_var : var -> var -> bool
val name_of_var : var -> string
val tau_of_var : var -> Formula.tau
val kind_of_var : var -> Formula.kind
val term_has_var : var list -> 'a term -> bool
val pred_has_var : var list -> pred -> bool
val term_closed : 'a term -> bool
val pred_closed : pred -> bool
val p_forall : var list -> pred -> pred
val p_exists : var list -> pred -> pred
val p_subst :
(var -> var option) -> var -> 'a term -> pred -> pred
val e_subst :
(var -> var option) -> var -> 'a term -> 'b term -> 'b term
val e_rename : (var * var) list -> 'a term -> 'a term
val equal_terms : 'a term -> 'a term -> bool
type alpha = WpModel.D.F.alpha
val empty_alpha : alpha
val fold_alpha : (var -> var -> 'a -> 'a) -> alpha -> 'a -> 'a
val p_more_alpha_cv : alpha -> pred -> alpha * pred
val p_alpha_cv : pred -> var list * pred
val pp_var : Format.formatter -> var -> unit
val pp_term : Format.formatter -> 'a term -> unit
val pp_pred : Format.formatter -> pred -> unit
val pp_decl :
Format.formatter -> pred Formula.declaration -> unit
val pp_goal : Format.formatter -> string -> pred -> unit
end
type format = Formula.m_format F.term
type abstract = Formula.abstract F.term
type integer = Formula.integer F.term
type real = Formula.real F.term
type boolean = Formula.boolean F.term
type record = Formula.m_array F.term
type urecord = Formula.m_array F.term
type array = Formula.m_array F.term
type set = Formula.m_set F.term
type name = Formula.integer F.term
type pointer = Formula.m_pointer F.term
val pp_kind : Format.formatter -> Mdata.kind -> unit
type interval =
WpModel.D.interval = {
inf : integer option;
sup : integer option;
}
type 'a assigned =
'a WpModel.D.assigned =
Aloc of Ctypes.c_object * 'a
| Arange of Ctypes.c_object * 'a * interval
val pp_interval : Format.formatter -> interval -> unit
val e_app0 : string -> 'a F.term
val e_app1 : string -> 'a F.term -> 'b F.term
val e_app2 : string -> 'a F.term -> 'b F.term -> 'c F.term
val e_app3 :
string -> 'a F.term -> 'b F.term -> 'c F.term -> 'd F.term
val e_app4 :
string ->
'a F.term -> 'b F.term -> 'c F.term -> 'd F.term -> 'e F.term
val e_app5 :
string ->
'a F.term ->
'b F.term -> 'c F.term -> 'd F.term -> 'e F.term -> 'f F.term
val p_app0 : string -> F.pred
val p_app1 : string -> 'a F.term -> F.pred
val p_app2 : string -> 'a F.term -> 'b F.term -> F.pred
val p_app3 : string -> 'a F.term -> 'b F.term -> 'c F.term -> F.pred
val p_app4 :
string ->
'a F.term -> 'b F.term -> 'c F.term -> 'd F.term -> F.pred
val p_app5 :
string ->
'a F.term ->
'b F.term -> 'c F.term -> 'd F.term -> 'e F.term -> F.pred
val tau_of_logic_type : Cil_types.logic_type -> Formula.tau
type context = WpModel.D.context
type bindings = WpModel.D.bindings
class type hint =
object
method capture : F.var list -> unit
method has_var : F.var list -> bool
method pretty : Format.formatter -> unit
method subst : F.var -> Formula.abstract F.term -> unit
end
val closed : bindings
val close : bindings -> F.pred -> F.pred
val capture : hint list -> bindings -> unit
val push : string -> F.pool -> bindings -> hint list -> context
val pop : string -> context -> bindings
val kill : string -> context -> unit
val flush : string -> context -> F.pred -> F.pred
val term_such_that :
Formula.tau -> ('a F.term -> F.pred) -> 'a F.term
val forall : F.var list -> F.pred -> F.pred
val exists : F.var list -> F.pred -> F.pred
val subst : F.var -> 'a F.term -> F.pred -> F.pred
val fresh : string -> Mdata.vkind -> F.var
val alpha : F.var -> F.var option
val pool : unit -> F.pool
val vkind_of_var : F.var -> Mdata.vkind
val has_vars : F.var list -> F.pred -> bool
type substitution = WpModel.D.substitution
val apply : substitution -> 'a F.term -> 'a F.term
type havoc =
WpModel.D.havoc =
Fresh of F.var
| Update of F.var * (substitution -> Formula.abstract F.term)
val havoc_static : havoc list -> F.pred -> F.pred
val havoc_inductive : havoc list -> F.pred -> F.pred
val clear : unit -> unit
val on_clear : (unit -> unit) -> unit
val fresh_name : string -> string -> string
val add_declaration : F.pred Formula.declaration -> unit
val iter :
Formula.section -> (F.pred Formula.declaration -> unit) -> unit
val iter_all : (F.pred Formula.declaration -> unit) -> unit
val dummy : unit -> F.pred
module type Identifiable =
sig
type t
module H : Hashtbl.S
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module type Registry =
sig
type t
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
end
module type Declarator =
sig
type t
module H : Hashtbl.S
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
val clear : unit -> unit
val section : Formula.section
val declare : t -> string -> F.pred Formula.item
end
module Register :
functor (D : Declarator) ->
sig
type t = D.t
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
end
module Varinfo :
sig
type t = Cil_types.varinfo
module H :
sig
type key = WpModel.D.Varinfo.H.key
type 'a t = 'a WpModel.D.Varinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Varaddr :
sig
type t = Cil_types.varinfo
module H :
sig
type key = WpModel.D.Varaddr.H.key
type 'a t = 'a WpModel.D.Varaddr.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Fieldinfo :
sig
type t = Cil_types.fieldinfo
module H :
sig
type key = WpModel.D.Fieldinfo.H.key
type 'a t = 'a WpModel.D.Fieldinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Compinfo :
sig
type t = Cil_types.compinfo
module H :
sig
type key = WpModel.D.Compinfo.H.key
type 'a t = 'a WpModel.D.Compinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Arrayinfo :
sig
type t = Ctypes.arrayinfo
module H :
sig
type key = WpModel.D.Arrayinfo.H.key
type 'a t = 'a WpModel.D.Arrayinfo.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module Logicvar :
sig
type t = Cil_types.logic_var
module H :
sig
type key = WpModel.D.Logicvar.H.key
type 'a t = 'a WpModel.D.Logicvar.H.t
val create : int -> 'a t
val clear : 'a t -> unit
val copy : 'a t -> 'a t
val add : 'a t -> key -> 'a -> unit
val remove : 'a t -> key -> unit
val find : 'a t -> key -> 'a
val find_all : 'a t -> key -> 'a list
val replace : 'a t -> key -> 'a -> unit
val mem : 'a t -> key -> bool
val iter : (key -> 'a -> unit) -> 'a t -> unit
val fold : (key -> 'a -> 'b -> 'b) -> 'a t -> 'b -> 'b
val length : 'a t -> int
end
val index : t -> H.key
val prefix : string
val basename : t -> string
val location : t -> Log.source option
val pp_title : Format.formatter -> t -> unit
val pp_descr : Format.formatter -> t -> unit
end
module type Indexed =
sig
type t
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
val get_ind : t -> integer
end
module Dindex :
functor (I : Identifiable) ->
sig
type t = I.t
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
val get_ind : t -> integer
end
module Findex :
sig
type t = Cil_types.fieldinfo
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
val get_ind : t -> integer
end
module Xindex :
sig
type t = Cil_types.varinfo
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
val get_ind : t -> integer
end
module Aindex :
sig
type t = Cil_types.varinfo
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
val get_ind : t -> integer
end
module Tindex :
sig
type t = Cil_types.compinfo
val define : t -> unit
val get_definition : t -> F.pred Formula.declaration
val on_definition :
(t -> F.pred Formula.declaration -> unit) -> unit
val get_ind : t -> integer
end
val modulo : Ctypes.c_int -> integer -> integer
val guard : Ctypes.c_int -> integer -> F.pred
val i_convert : Ctypes.c_int -> Ctypes.c_int -> integer -> integer
val round : Ctypes.c_float -> real -> real
val f_guard : Ctypes.c_float -> real -> F.pred
val f_convert : Ctypes.c_float -> Ctypes.c_float -> real -> real
val has_type : abstract -> Cil_types.logic_type -> F.pred
val get_range_index : array -> interval -> abstract
val set_range_index : array -> interval -> array
val empty : set
val singleton : abstract -> set
val union : set -> set -> set
val unions : set list -> set
val inter : set -> set -> set
val remove : set -> set -> set
val set_of_list : abstract list -> set
val add_set : set -> set -> set
val mult_set : set -> set -> set
val neg_set : set -> set
val interval : interval -> set
val equal_pointer_bool : pointer -> pointer -> boolean
val lt_pointer_bool : pointer -> pointer -> boolean
val le_pointer_bool : pointer -> pointer -> boolean
val lt_pointer : pointer -> pointer -> F.pred
val le_pointer : pointer -> pointer -> F.pred
val minus_pointer : pointer -> pointer -> integer
val is_null : pointer -> boolean
val null : pointer
val tau_of_object : Ctypes.c_object -> Formula.tau
val tau_of_ctype : Cil_types.typ -> Formula.tau
val int_format : format
val real_format : format
val pointer_format : format
val record_format : format
val urecord_format : format
val array_format : format -> format
val format_of_object : Ctypes.c_object -> format
val decode : format -> abstract -> 'a F.term
val encode : format -> 'a F.term -> abstract
val acc_field : record -> Cil_types.fieldinfo -> abstract
val upd_field : record -> Cil_types.fieldinfo -> abstract -> record
val acc_index : array -> integer -> abstract
val upd_index : array -> integer -> abstract -> array
val equal : Ctypes.c_object -> abstract -> abstract -> F.pred
val eq_array : Ctypes.arrayinfo -> array -> array -> F.pred
val eq_record : Cil_types.compinfo -> record -> record -> F.pred
end
module E :
sig
val addr : WpModel.mem -> Cil_types.lval -> WpModel.loc
val expr : WpModel.mem -> Cil_types.exp -> WpModel.value
val cond :
WpModel.mem -> Cil_types.exp -> Formula.boolean WpModel.D.F.term
val prop : WpModel.mem -> Cil_types.exp -> WpModel.D.F.pred
val expr_cast :
Cil_types.typ -> Cil_types.typ -> WpModel.value -> WpModel.value
end
module L :
sig
type env = Translate_prop.Create(WpModel).env
val env_body : WpModel.frame -> env
val env_at : env -> Clabels.c_label -> env
val call_post :
Kernel_function.t ->
WpModel.value list ->
WpModel.mem -> WpModel.mem -> WpModel.D.F.var option -> env
val call_pre :
Kernel_function.t -> WpModel.value list -> WpModel.mem -> env
val call_exit : env -> WpModel.D.F.var -> env
val assigns_clause : WpModel.frame -> env
val get_frame : env -> WpModel.frame
val term : env -> Cil_types.term -> Formula.abstract WpModel.D.F.term
val prop :
env -> Cil_types.predicate Cil_types.named -> WpModel.D.F.pred
val assigned :
env -> Cil_types.term -> WpModel.loc WpModel.D.assigned list
val add_axiom :
string ->
Cil_types.logic_label list ->
Cil_types.predicate Cil_types.named -> unit
type instance = Translate_prop.Create(WpModel).instance
val as_hint : instance -> WpModel.D.hint
val push_instances : string -> instance list -> unit
val pop_instances : string -> instance list
val instantiate :
instance list ->
WpModel.D.F.pred -> instance list * WpModel.D.F.pred
val merge : instance list -> instance list -> instance list
end
val predicate :
CfgWeakestPrecondition.Create.L.env ->
Cil_types.predicate Cil_types.named -> WpModel.D.F.pred Wp_error.cc
val expr : WpModel.mem -> Cil_types.exp -> WpModel.value Wp_error.cc
val addr : WpModel.mem -> Cil_types.lval -> WpModel.loc Wp_error.cc
val cond : WpModel.mem -> Cil_types.exp -> WpModel.D.F.pred Wp_error.cc
val cast :
Cil_types.typ ->
Cil_types.typ -> WpModel.value -> WpModel.value Wp_error.cc
type t_env =
CfgWeakestPrecondition.Create.F.pool *
CfgWeakestPrecondition.Create.L.env
type t_prop =
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property
and property = {
bindings : CfgWeakestPrecondition.Create.D.bindings;
instances : CfgWeakestPrecondition.Create.L.instance list;
property : CfgWeakestPrecondition.Create.F.pred;
}
and assigns_kind =
NoAssigns
| EffectAssigns of CfgWeakestPrecondition.Create.effect_assigns
| RegionAssigns of CfgWeakestPrecondition.Create.region_assigns
and effect_assigns = {
a_pid : WpAnnot.prop_id;
a_label : Clabels.c_label;
a_effect : CfgWeakestPrecondition.Create.F.var;
a_locals : CfgWeakestPrecondition.Create.F.var;
}
and region_assigns = {
r_pid : WpAnnot.prop_id;
r_vars : CfgWeakestPrecondition.Create.F.var list;
r_global : WpModel.region;
r_label : Clabels.c_label;
mutable r_effect : int;
mutable r_locals :
(Cil_types.varinfo list * CfgWeakestPrecondition.Create.F.var list *
WpModel.region)
list;
}
val empty :
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property
val zip :
'a * CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.D.F.pred
val merge_assigns :
CfgWeakestPrecondition.Create.assigns_kind ->
CfgWeakestPrecondition.Create.assigns_kind ->
CfgWeakestPrecondition.Create.assigns_kind
val merge_property :
(CfgWeakestPrecondition.Create.D.F.pred ->
CfgWeakestPrecondition.Create.D.F.pred ->
CfgWeakestPrecondition.Create.F.pred) ->
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.property
val merge :
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property
val pretty :
Format.formatter -> 'a * CfgWeakestPrecondition.Create.property -> unit
val new_env :
Kernel_function.t ->
CfgWeakestPrecondition.Create.F.pool *
CfgWeakestPrecondition.Create.L.env
type closing = Keep_opened | Apply_hints | Close_context
type assigns =
Keep_assigns
| Clear_assigns
| Label_assigns of Clabels.c_label
| Goal_assigns of
CfgWeakestPrecondition.Create.assigns_kind Pervasives.ref
val pp_vars : Format.formatter -> Cil_types.varinfo list -> unit
val region_assigns : int -> CfgWeakestPrecondition.Create.D.F.pred
val region_included :
WpModel.region ->
CfgWeakestPrecondition.Create.region_assigns ->
CfgWeakestPrecondition.Create.F.pred
val close_property :
string ->
CfgWeakestPrecondition.Create.D.context ->
CfgWeakestPrecondition.Create.F.pred ->
CfgWeakestPrecondition.Create.closing ->
CfgWeakestPrecondition.Create.property
exception Failed
val on_context :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
string ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.closing ->
CfgWeakestPrecondition.Create.assigns ->
(CfgWeakestPrecondition.Create.L.env ->
CfgWeakestPrecondition.Create.assigns_kind ->
CfgWeakestPrecondition.Create.F.pred ->
CfgWeakestPrecondition.Create.F.pred) ->
CfgWeakestPrecondition.Create.t_prop
val label :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
Cil_types.logic_label ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val merge_with :
(CfgWeakestPrecondition.Create.D.F.pred ->
CfgWeakestPrecondition.Create.D.F.pred ->
CfgWeakestPrecondition.Create.F.pred) ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property
val add_as_hyp :
'a ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property
val add_as_goal :
'a ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property
val add_hyp :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
Cil_types.predicate Cil_types.named ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val add_goal :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
Cil_types.predicate Cil_types.named ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val add_axiom :
'a ->
string ->
Cil_types.logic_label list ->
Cil_types.predicate Cil_types.named -> unit
val assign :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
Cil_types.lval ->
Cil_types.exp ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val return :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
Cil_types.exp option ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val test :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
Cil_types.exp ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val case_of_exp :
WpModel.mem ->
Cil_types.exp -> Formula.integer CfgWeakestPrecondition.Create.F.term
val switch :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
Cil_types.exp ->
(Cil_types.exp list *
(CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property))
list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val scope :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
Cil_types.varinfo list ->
Mcfg.scope ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val build_prop_of_from :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
(WpAnnot.prop_id * Cil_types.predicate Cil_types.named) list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val close :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val translate_assigned_targets :
CfgWeakestPrecondition.Create.L.env ->
Cil_types.term list -> WpModel.loc WpModel.D.assigned list Wp_error.cc
val translate_assigned :
CfgWeakestPrecondition.Create.L.env ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
WpModel.loc WpModel.D.assigned list Wp_error.cc
val assigned_of_assigns :
CfgWeakestPrecondition.Create.L.env ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
WpModel.loc WpModel.D.assigned list option
val assigned_for_assigns_goal :
WpAnnot.a_kind ->
Clabels.c_label ->
CfgWeakestPrecondition.Create.L.env ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
WpModel.loc WpModel.D.assigned list
val havoc_region :
WpAnnot.a_kind ->
WpModel.frame ->
WpModel.loc WpModel.D.assigned list option ->
CfgWeakestPrecondition.Create.D.F.pred ->
CfgWeakestPrecondition.Create.D.F.pred
val assigns_method : unit -> Mcfg.assigns_method
val add_normal_assigns :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
Cil_types.logic_label ->
WpAnnot.a_kind ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val add_effect_assigns :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
Cil_types.logic_label ->
WpAnnot.a_kind ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val add_region_assigns :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
Cil_types.logic_label ->
WpAnnot.a_kind ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val add_assigns :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
Cil_types.logic_label ->
WpAnnot.a_kind ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val check_assigns :
CfgWeakestPrecondition.Create.assigns_kind ->
WpModel.loc WpModel.D.assigned list option ->
CfgWeakestPrecondition.Create.D.F.pred ->
CfgWeakestPrecondition.Create.D.F.pred
val use_assigns :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
WpAnnot.prop_id ->
WpAnnot.a_kind ->
(Cil_types.identified_term Cil_types.zone * 'a) list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val call :
CfgWeakestPrecondition.Create.L.env ->
get_pre:(Db_types.kernel_function ->
('a * Cil_types.predicate Cil_types.named) list) ->
get_post:(Db_types.kernel_function ->
('b * Cil_types.predicate Cil_types.named) list) ->
get_exits:(Db_types.kernel_function ->
('c * Cil_types.predicate Cil_types.named) list) ->
get_assigns:(Db_types.kernel_function ->
(Cil_types.identified_term Cil_types.zone * 'd) list) ->
Cil_types.stmt ->
Cil_types.lval option ->
Cil_types.exp ->
Cil_types.exp list ->
CfgWeakestPrecondition.Create.assigns_kind ->
CfgWeakestPrecondition.Create.F.pred ->
CfgWeakestPrecondition.Create.F.pred ->
WpModel.D.F.pred * WpModel.D.F.pred
val call_normal :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
get_pre:(Db_types.kernel_function ->
('a * Cil_types.predicate Cil_types.named) list) ->
get_post:(Db_types.kernel_function ->
('b * Cil_types.predicate Cil_types.named) list) ->
get_assigns:(Db_types.kernel_function ->
(Cil_types.identified_term Cil_types.zone * 'c) list) ->
Cil_types.stmt ->
Cil_types.lval option ->
Cil_types.exp ->
Cil_types.exp list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
val call_exit :
CfgWeakestPrecondition.Create.D.F.pool *
CfgWeakestPrecondition.Create.L.env ->
get_pre:(Db_types.kernel_function ->
('a * Cil_types.predicate Cil_types.named) list) ->
get_exits:(Db_types.kernel_function ->
('b * Cil_types.predicate Cil_types.named) list) ->
get_assigns:(Db_types.kernel_function ->
(Cil_types.identified_term Cil_types.zone * 'c) list) ->
Cil_types.stmt ->
Cil_types.exp ->
Cil_types.exp list ->
CfgWeakestPrecondition.Create.assigns_kind *
CfgWeakestPrecondition.Create.property ->
CfgWeakestPrecondition.Create.t_prop
end