Module Lang

module Lang: sig .. end
name to print to the provers

Logic Language based on Qed


val basename : string -> string -> string
val avoid_leading_backlash : string -> string
val comp_id : Cil_types.compinfo -> string
val field_id : Cil_types.fieldinfo -> string
val type_id : Cil_types.logic_type_info -> string
val logic_id : Cil_types.logic_info -> string
val ctor_id : Cil_types.logic_ctor_info -> string
val lemma_id : string -> string
type 'a infoprover = {
   altergo : 'a;
   why3 : 'a;
   coq : 'a;
}
generic way to have different informations for the provers
val infoprover : 'a -> 'a infoprover
same information for all the provers
val map_infoprover : ('a -> 'b) -> 'a infoprover -> 'b infoprover
type library = string 
type adt = 
| Mtype of mdt (*External type*)
| Mrecord of mdt * fields (*External record-type*)
| Atype of Cil_types.logic_type_info (*Logic Type*)
| Comp of Cil_types.compinfo (*C-code struct or union*)
type mdt = string extern 
name to print to the provers

name to print to the provers

type 'a extern = {
   ext_id : int;
   ext_link : 'a infoprover;
   ext_library : library; (*a library which it depends ona library which it depends on*)
   ext_debug : string; (*just for printing during debuggingjust for printing during debugging*)
}
type fields = {
   mutable fields : field list;
}
type field = 
| Mfield of mdt * fields * string * tau
| Cfield of Cil_types.fieldinfo
type tau = (field, adt) Qed.Logic.datatype 
val pointer : (Cil_types.typ -> tau) Context.value
type of pointers
val new_extern_id : int Pervasives.ref
val new_extern : debug:string ->
library:library -> link:'a infoprover -> 'a extern
val ext_compare : 'a extern -> 'b extern -> int
val sort_of_object : Ctypes.c_object -> Qed.Logic.sort
val sort_of_ctype : Cil_types.typ -> Qed.Logic.sort
val sort_of_ltype : Cil_types.logic_type -> Qed.Logic.sort
val tau_of_comp : Cil_types.compinfo -> ('a, adt) Qed.Logic.datatype
val array : ('a, 'b) Qed.Logic.datatype -> ('a, 'b) Qed.Logic.datatype
val farray : ('a, 'b) Qed.Logic.datatype ->
('a, 'b) Qed.Logic.datatype -> ('a, 'b) Qed.Logic.datatype
val tau_of_object : Ctypes.c_object -> tau
val tau_of_ctype : Cil_types.typ -> tau
val poly : string list Context.value
polymorphism
val varpoly : int -> string -> string list -> int
val builtins : (string, mdt) Hashtbl.t
val tau_of_ltype : Cil_types.logic_type -> tau
val tau_of_return : Cil_types.logic_info -> tau
module ADT: sig .. end
val atype : Cil_types.logic_type_info -> adt
val builtin_type : name:string -> link:string infoprover -> library:library -> unit
val datatype : library:library -> string -> adt
val record : link:string infoprover ->
library:library -> (string * tau) list -> adt
val field : adt -> string -> field
val comp : Cil_types.compinfo -> adt
val fields_of_tau : ('a, adt) Qed.Logic.datatype -> field list
val fields_of_field : field -> field list
val tau_of_field : field -> tau
val tau_of_record : field -> ('a, adt) Qed.Logic.datatype
module Field: sig .. end
type lfun = 
| ACSL of Cil_types.logic_info (*Registered in Definition.t, onlyRegistered in Definition.t, only*)
| CTOR of Cil_types.logic_ctor_info (*Not registered in Definition.t directly converted/printedNot registered in Definition.t directly converted/printed*)
| Model of model
type model = {
   m_category : lfun Qed.Logic.category;
   m_params : Qed.Logic.sort list;
   m_resort : Qed.Logic.sort;
   m_result : tau option;
   m_source : source;
}
type source = 
| Generated of string
| Extern of Qed.Engine.link extern
val tau_of_lfun : lfun -> tau
type balance = 
| Nary
| Left
| Right
type 'a linkinfo = {
   mutable thdep : string list;
   mutable link : 'a;
}
val symbolf : ?library:library ->
?link:Qed.Engine.link infoprover ->
?balance:balance ->
?category:lfun Qed.Logic.category ->
?params:Qed.Logic.sort list ->
?sort:Qed.Logic.sort ->
?result:tau ->
('a, Format.formatter, unit, lfun) Pervasives.format4 -> 'a
val extern_s : library:library ->
?link:Qed.Engine.link infoprover ->
?category:lfun Qed.Logic.category ->
?params:Qed.Logic.sort list ->
?sort:Qed.Logic.sort -> ?result:tau -> string -> lfun
val extern_f : library:library ->
?link:Qed.Engine.link infoprover ->
?balance:balance ->
?category:lfun Qed.Logic.category ->
?params:Qed.Logic.sort list ->
?sort:Qed.Logic.sort ->
?result:tau ->
('a, Format.formatter, unit, lfun) Pervasives.format4 -> 'a
balance just give a default when link is not specified
val extern_p : library:library ->
?bool:string ->
?prop:string ->
?link:Qed.Engine.link infoprover ->
?params:Qed.Logic.sort list -> unit -> lfun
val extern_fp : library:library ->
?params:Qed.Logic.sort list ->
?link:string infoprover -> string -> lfun
val generated_f : ?category:lfun Qed.Logic.category ->
?params:Qed.Logic.sort list ->
?sort:Qed.Logic.sort ->
?result:tau ->
('a, Format.formatter, unit, lfun) Pervasives.format4 -> 'a
val generated_p : string -> lfun
val constructor : Cil_types.logic_ctor_info -> lfun
val logic_info : Cil_types.logic_info -> lfun
module Fun: sig .. end
class virtual idprinting : object .. end
module F: sig .. end
type gamma = {
   mutable hyps : F.pred list;
   mutable vars : F.var list;
}
val cpool : F.pool Context.value
val cgamma : gamma Context.value
val apool : F.pool option -> F.pool
val agamma : gamma option -> gamma
val new_pool : ?copy:F.pool -> unit -> F.pool
val new_gamma : ?copy:gamma -> unit -> gamma
val get_pool : unit -> F.pool
val get_gamma : unit -> gamma
val freshvar : ?basename:string -> F.tau -> F.var
val freshen : F.var -> F.var
val local : ?pool:F.pool -> ?gamma:gamma -> ('a -> 'b) -> 'a -> 'b
val masked : bool Pervasives.ref
val without_assume : ('a -> 'b) -> 'a -> 'b
val assume : F.term -> unit
val epsilon : ?basename:string -> F.tau -> (F.term -> F.pred) -> F.term
val hypotheses : gamma -> F.pred list
val variables : gamma -> F.var list
val get_hypotheses : unit -> F.pred list
val get_variables : unit -> F.var list
module Alpha: sig .. end