(***********************************************************************) (* *) (* Heptagon *) (* *) (* Gwenael Delaval, LIG/INRIA, UJF *) (* Leonard Gerard, Parkas, ENS *) (* Adrien Guatto, Parkas, ENS *) (* Cedric Pasteur, Parkas, ENS *) (* *) (* Copyright 2012 ENS, INRIA, UJF *) (* *) (* This file is part of the Heptagon compiler. *) (* *) (* Heptagon is free software: you can redistribute it and/or modify it *) (* under the terms of the GNU General Public License as published by *) (* the Free Software Foundation, either version 3 of the License, or *) (* (at your option) any later version. *) (* *) (* Heptagon is distributed in the hope that it will be useful, *) (* but WITHOUT ANY WARRANTY; without even the implied warranty of *) (* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the *) (* GNU General Public License for more details. *) (* *) (* You should have received a copy of the GNU General Public License *) (* along with Heptagon. If not, see *) (* *) (***********************************************************************) (* The internal MiniLustre representation *) open Location open Names open Idents open Signature open Static open Types open Linearity open Clocks (** Warning: Whenever Minils ast is modified, minils_format_version should be incremented. *) let minils_format_version = "3" type iterator_type = | Imap | Imapi | Ifold | Ifoldi | Imapfold type type_dec = { t_name: qualname; t_desc: tdesc; t_loc: location } and tdesc = | Type_abs | Type_alias of ty | Type_enum of constructor_name list | Type_struct of structure and extvalue = { w_desc : extvalue_desc; mutable w_ck: ck; w_ty : ty; w_linearity : linearity; w_loc : location } and extvalue_desc = | Wconst of static_exp (*no tuple*) | Wvar of var_ident | Wfield of extvalue * field_name | Wwhen of extvalue * constructor_name * var_ident (** extvalue when Constructor(ident) *) | Wreinit of extvalue * extvalue and exp = { e_desc : edesc; e_level_ck : ck; (*when no data dep, execute the exp on this clock (set by [switch] *) mutable e_ct : ct; e_ty : ty; e_linearity : linearity; e_loc : location } and edesc = | Eextvalue of extvalue | Efby of static_exp option * extvalue (** static_exp fby extvalue *) | Eapp of app * extvalue list * var_ident option (** app ~args=(extvalue,extvalue...) reset ~r=ident *) | Ewhen of exp * constructor_name * var_ident (** e when C(c) *) | Emerge of var_ident * (constructor_name * extvalue) list (** merge ident (Constructor -> extvalue)+ *) | Estruct of (field_name * extvalue) list (** { field=extvalue; ... } *) | Eiterator of iterator_type * app * static_exp list * extvalue list * extvalue list * var_ident option (** map f <> <(extvalue)> (extvalue) reset ident *) and app = { a_op: op; a_params: static_exp list; a_unsafe: bool; a_id: ident option; a_inlined: bool } (** Unsafe applications could have side effects and be delicate about optimizations, !be careful! *) and op = | Eequal (** arg1 = arg2 *) | Efun of fun_name (** "Stateless" longname <> (args) reset r *) | Enode of fun_name (** "Stateful" longname <> (args) reset r *) | Eifthenelse (** if arg1 then arg2 else arg3 *) | Efield_update (** { arg1 with a_param1 = arg2 } *) | Earray (** [ args ] *) | Earray_fill (** [arg1^a_param1^..^a_paramn] *) | Eselect (** arg1[a_params] *) | Eselect_slice (** arg1[a_param1..a_param2] *) | Eselect_dyn (** arg1.[arg3...] default arg2 *) | Eselect_trunc (** arg1[>arg_2 ...<]*) | Eupdate (** [ arg1 with arg3..arg_n = arg2 ] *) | Econcat (** arg1@@arg2 *) type pat = | Etuplepat of pat list | Evarpat of var_ident type eq = { eq_lhs : pat; eq_rhs : exp; eq_unsafe : bool; eq_base_ck : ck; eq_loc : location } type var_dec = { v_ident : var_ident; v_type : ty; v_linearity : linearity; v_clock : ck; v_loc : location } type contract = { c_assume : extvalue; c_enforce : extvalue; c_assume_loc : extvalue; c_enforce_loc : extvalue; c_controllables : var_dec list; c_local : var_dec list; c_eq : eq list } type node_dec = { n_name : qualname; n_stateful : bool; n_unsafe : bool; n_input : var_dec list; n_output : var_dec list; n_contract : contract option; (* GD: inglorious hack for controller call *) mutable n_controller_call : string list * string list; n_local : var_dec list; n_equs : eq list; n_loc : location; n_params : param list; n_param_constraints : constrnt list; n_mem_alloc : (ty * Interference_graph.ivar list) list; } type const_dec = { c_name : qualname; c_type : ty; c_value : static_exp; c_loc : location } type program = { p_modname : modul; p_format_version : string; p_opened : modul list; p_desc : program_desc list } and program_desc = | Pnode of node_dec | Pconst of const_dec | Ptype of type_dec type signature = { sig_name : qualname; sig_inputs : arg list; sig_stateful : bool; sig_outputs : arg list; sig_params : param list; sig_param_constraints : constrnt list; sig_external : bool; sig_loc : location } type interface = { i_modname : modul; i_opened : modul list; i_desc : interface_desc list } and interface_desc = | Itypedef of type_dec | Iconstdef of const_dec | Isignature of signature (*Helper functions to build the AST*) let mk_extvalue ~ty ~linearity ?(clock = fresh_clock()) ?(loc = no_location) desc = { w_desc = desc; w_ty = ty; w_linearity = linearity; w_ck = clock; w_loc = loc } let extvalue_true, extvalue_false = let extvalue_bool b ck = mk_extvalue ~ty:Initial.tbool ~linearity:Linearity.Ltop ~clock:ck (Wconst (Initial.mk_static_bool b)) in extvalue_bool true, extvalue_bool false let mk_vd_extvalue vd = mk_extvalue ~ty:vd.v_type ~linearity:vd.v_linearity ~clock:vd.v_clock ~loc:vd.v_loc (Wvar vd.v_ident) let mk_exp level_ck ty ~linearity ?(ct = fresh_ct ty) ?(loc = no_location) desc = { e_desc = desc; e_ty = ty; e_linearity = linearity; e_level_ck = level_ck; e_ct = ct; e_loc = loc } let mk_var_dec ?(loc = no_location) ident ty linearity ck = { v_ident = ident; v_type = ty; v_linearity = linearity; v_clock = ck; v_loc = loc } let mk_extvalue_exp ?(clock = fresh_clock()) ?(loc = no_location) level_ck ty ~linearity desc = mk_exp ~loc:loc level_ck ty ~linearity:linearity (Eextvalue (mk_extvalue ~clock:clock ~loc:loc ~linearity:linearity ~ty:ty desc)) let mk_equation ?(loc = no_location) ?(base_ck=fresh_clock()) unsafe pat exp = { eq_lhs = pat; eq_rhs = exp; eq_unsafe = unsafe; eq_base_ck = base_ck; eq_loc = loc } let mk_node ?(input = []) ?(output = []) ?(contract = None) ?(pinst = ([],[])) ?(local = []) ?(eq = []) ?(stateful = true) ~unsafe ?(loc = no_location) ?(param = []) ?(constraints = []) ?(mem_alloc=[]) name = { n_name = name; n_stateful = stateful; n_unsafe = unsafe; n_input = input; n_output = output; n_contract = contract; n_controller_call = pinst; n_local = local; n_equs = eq; n_loc = loc; n_params = param; n_param_constraints = constraints; n_mem_alloc = mem_alloc } let mk_type_dec type_desc name loc = { t_name = name; t_desc = type_desc; t_loc = loc } let mk_const_dec id ty e loc = { c_name = id; c_type = ty; c_value = e; c_loc = loc } let mk_app ?(params=[]) ?(unsafe=false) ?(id=None) ?(inlined=false) op = { a_op = op; a_params = params; a_unsafe = unsafe; a_id = id; a_inlined = inlined }