sig
val anonCompFieldName : string
val conditionalConversion : Cil_types.typ -> Cil_types.typ -> Cil_types.typ
val is_loop : unit -> bool
val find_macro : 'a -> 'b
val find_var : 'a -> 'b
val find_enum_tag : 'a -> 'b
val find_comp_type : kind:'a -> 'b -> 'c
val find_comp_field : Cil_types.compinfo -> string -> Cil_types.offset
val find_type : 'a -> 'b
val find_label : 'a -> 'b
module Logic_info :
sig
val self : State.t
val name : string
val mark_as_computed : ?project:Project.t -> unit -> unit
val is_computed : ?project:Project.t -> unit -> bool
module Datatype :
sig
type t = Logic_env.Logic_info.Datatype.t
val ty : t Type.t
val name : string
val descr : t Descr.t
val packed_descr : Structural_descr.pack
val reprs : t list
val equal : t -> t -> bool
val compare : t -> t -> int
val hash : t -> int
val pretty_code : Format.formatter -> t -> unit
val internal_pretty_code :
Type.precedence -> Format.formatter -> t -> unit
val pretty : Format.formatter -> t -> unit
val varname : t -> string
val mem_project : (Project_skeleton.t -> bool) -> t -> bool
val copy : t -> t
end
val add_hook_on_update : (Datatype.t -> unit) -> unit
val howto_marshal : (Datatype.t -> 'a) -> ('a -> Datatype.t) -> unit
type key = string
type data = Cil_types.logic_info
val replace : key -> data -> unit
val add : key -> data -> unit
val clear : unit -> unit
val length : unit -> int
val iter : (key -> data -> unit) -> unit
val iter_sorted :
?cmp:(key -> key -> int) -> (key -> data -> unit) -> unit
val fold : (key -> data -> 'a -> 'a) -> 'a -> 'a
val fold_sorted :
?cmp:(key -> key -> int) -> (key -> data -> 'a -> 'a) -> 'a -> 'a
val memo : ?change:(data -> data) -> (key -> data) -> key -> data
val find : key -> data
val find_all : key -> data list
val mem : key -> bool
val remove : key -> unit
end
module Logic_type_info :
sig
val self : State.t
val name : string
val mark_as_computed : ?project:Project.t -> unit -> unit
val is_computed : ?project:Project.t -> unit -> bool
module Datatype :
sig
type t = Logic_env.Logic_type_info.Datatype.t
val ty : t Type.t
val name : string
val descr : t Descr.t
val packed_descr : Structural_descr.pack
val reprs : t list
val equal : t -> t -> bool
val compare : t -> t -> int
val hash : t -> int
val pretty_code : Format.formatter -> t -> unit
val internal_pretty_code :
Type.precedence -> Format.formatter -> t -> unit
val pretty : Format.formatter -> t -> unit
val varname : t -> string
val mem_project : (Project_skeleton.t -> bool) -> t -> bool
val copy : t -> t
end
val add_hook_on_update : (Datatype.t -> unit) -> unit
val howto_marshal : (Datatype.t -> 'a) -> ('a -> Datatype.t) -> unit
type key = string
type data = Cil_types.logic_type_info
val replace : key -> data -> unit
val add : key -> data -> unit
val clear : unit -> unit
val length : unit -> int
val iter : (key -> data -> unit) -> unit
val iter_sorted :
?cmp:(key -> key -> int) -> (key -> data -> unit) -> unit
val fold : (key -> data -> 'a -> 'a) -> 'a -> 'a
val fold_sorted :
?cmp:(key -> key -> int) -> (key -> data -> 'a -> 'a) -> 'a -> 'a
val memo : ?change:(data -> data) -> (key -> data) -> key -> data
val find : key -> data
val find_all : key -> data list
val mem : key -> bool
val remove : key -> unit
end
module Logic_ctor_info :
sig
val self : State.t
val name : string
val mark_as_computed : ?project:Project.t -> unit -> unit
val is_computed : ?project:Project.t -> unit -> bool
module Datatype :
sig
type t = Logic_env.Logic_ctor_info.Datatype.t
val ty : t Type.t
val name : string
val descr : t Descr.t
val packed_descr : Structural_descr.pack
val reprs : t list
val equal : t -> t -> bool
val compare : t -> t -> int
val hash : t -> int
val pretty_code : Format.formatter -> t -> unit
val internal_pretty_code :
Type.precedence -> Format.formatter -> t -> unit
val pretty : Format.formatter -> t -> unit
val varname : t -> string
val mem_project : (Project_skeleton.t -> bool) -> t -> bool
val copy : t -> t
end
val add_hook_on_update : (Datatype.t -> unit) -> unit
val howto_marshal : (Datatype.t -> 'a) -> ('a -> Datatype.t) -> unit
type key = string
type data = Cil_types.logic_ctor_info
val replace : key -> data -> unit
val add : key -> data -> unit
val clear : unit -> unit
val length : unit -> int
val iter : (key -> data -> unit) -> unit
val iter_sorted :
?cmp:(key -> key -> int) -> (key -> data -> unit) -> unit
val fold : (key -> data -> 'a -> 'a) -> 'a -> 'a
val fold_sorted :
?cmp:(key -> key -> int) -> (key -> data -> 'a -> 'a) -> 'a -> 'a
val memo : ?change:(data -> data) -> (key -> data) -> key -> data
val find : key -> data
val find_all : key -> data list
val mem : key -> bool
val remove : key -> unit
end
module Model_info :
sig
val self : State.t
val name : string
val mark_as_computed : ?project:Project.t -> unit -> unit
val is_computed : ?project:Project.t -> unit -> bool
module Datatype :
sig
type t = Logic_env.Model_info.Datatype.t
val ty : t Type.t
val name : string
val descr : t Descr.t
val packed_descr : Structural_descr.pack
val reprs : t list
val equal : t -> t -> bool
val compare : t -> t -> int
val hash : t -> int
val pretty_code : Format.formatter -> t -> unit
val internal_pretty_code :
Type.precedence -> Format.formatter -> t -> unit
val pretty : Format.formatter -> t -> unit
val varname : t -> string
val mem_project : (Project_skeleton.t -> bool) -> t -> bool
val copy : t -> t
end
val add_hook_on_update : (Datatype.t -> unit) -> unit
val howto_marshal : (Datatype.t -> 'a) -> ('a -> Datatype.t) -> unit
type key = string
type data = Cil_types.model_info
val replace : key -> data -> unit
val add : key -> data -> unit
val clear : unit -> unit
val length : unit -> int
val iter : (key -> data -> unit) -> unit
val iter_sorted :
?cmp:(key -> key -> int) -> (key -> data -> unit) -> unit
val fold : (key -> data -> 'a -> 'a) -> 'a -> 'a
val fold_sorted :
?cmp:(key -> key -> int) -> (key -> data -> 'a -> 'a) -> 'a -> 'a
val memo : ?change:(data -> data) -> (key -> data) -> key -> data
val find : key -> data
val find_all : key -> data list
val mem : key -> bool
val remove : key -> unit
end
module Lemmas :
sig
val self : State.t
val name : string
val mark_as_computed : ?project:Project.t -> unit -> unit
val is_computed : ?project:Project.t -> unit -> bool
module Datatype :
sig
type t = Logic_env.Lemmas.Datatype.t
val ty : t Type.t
val name : string
val descr : t Descr.t
val packed_descr : Structural_descr.pack
val reprs : t list
val equal : t -> t -> bool
val compare : t -> t -> int
val hash : t -> int
val pretty_code : Format.formatter -> t -> unit
val internal_pretty_code :
Type.precedence -> Format.formatter -> t -> unit
val pretty : Format.formatter -> t -> unit
val varname : t -> string
val mem_project : (Project_skeleton.t -> bool) -> t -> bool
val copy : t -> t
end
val add_hook_on_update : (Datatype.t -> unit) -> unit
val howto_marshal : (Datatype.t -> 'a) -> ('a -> Datatype.t) -> unit
type key = string
type data = Cil_types.global_annotation
val replace : key -> data -> unit
val add : key -> data -> unit
val clear : unit -> unit
val length : unit -> int
val iter : (key -> data -> unit) -> unit
val iter_sorted :
?cmp:(key -> key -> int) -> (key -> data -> unit) -> unit
val fold : (key -> data -> 'a -> 'a) -> 'a -> 'a
val fold_sorted :
?cmp:(key -> key -> int) -> (key -> data -> 'a -> 'a) -> 'a -> 'a
val memo : ?change:(data -> data) -> (key -> data) -> key -> data
val find : key -> data
val find_all : key -> data list
val mem : key -> bool
val remove : key -> unit
end
val builtin_states : State.t list
val prepare_tables : unit -> unit
val add_logic_function_gen :
(Cil_types.logic_info -> Cil_types.logic_info -> bool) ->
Cil_types.logic_info -> unit
val add_logic_type : string -> Cil_types.logic_type_info -> unit
val add_logic_ctor : string -> Cil_types.logic_ctor_info -> unit
val add_model_field : Cil_types.model_info -> unit
module Builtins :
sig val apply : unit -> unit val extend : (unit -> unit) -> unit end
module Logic_builtin_used :
sig
val add : Cil_types.logic_info -> unit
val mem : Cil_types.logic_info -> bool
val iter : (Cil_types.logic_info -> unit) -> unit
val self : State.t
end
val add_builtin_logic_function_gen :
(Cil_types.builtin_logic_info -> Cil_types.builtin_logic_info -> bool) ->
Cil_types.builtin_logic_info -> unit
val add_builtin_logic_type : string -> Cil_types.logic_type_info -> unit
val add_builtin_logic_ctor : string -> Cil_types.logic_ctor_info -> unit
val is_builtin_logic_function : string -> bool
val is_builtin_logic_type : string -> bool
val is_builtin_logic_ctor : string -> bool
val iter_builtin_logic_function :
(Cil_types.builtin_logic_info -> unit) -> unit
val iter_builtin_logic_type : (Cil_types.logic_type_info -> unit) -> unit
val iter_builtin_logic_ctor : (Cil_types.logic_ctor_info -> unit) -> unit
val find_all_logic_functions : string -> Cil_types.logic_info list
val find_all_model_fields : string -> Cil_types.model_info list
val find_model_field : string -> Cil_types.typ -> Cil_types.model_info
val find_logic_cons : Cil_types.logic_var -> Cil_types.logic_info
val find_logic_type : string -> Cil_types.logic_type_info
val find_logic_ctor : string -> Cil_types.logic_ctor_info
val is_logic_function : string -> bool
val is_logic_type : string -> bool
val is_logic_ctor : string -> bool
val is_model_field : string -> bool
val remove_logic_function : string -> unit
val remove_logic_type : string -> unit
val remove_logic_ctor : string -> unit
val remove_model_field : string -> unit
val add_typename : string -> unit
val hide_typename : string -> unit
val remove_typename : string -> unit
val reset_typenames : unit -> unit
val typename_status : string -> bool
val builtin_types_as_typenames : unit -> unit
val init_dependencies : State.t -> unit
val add_logic_function : Cil_types.logic_info -> unit
val integral_cast : Cil_types.typ -> Cil_types.term -> 'a
end