package kappa-library
Public internals of the Kappa tool suite. Use this package to use kappa as a lib
Install
Dune Dependency
Authors
Maintainers
Sources
v4.1.3.tar.gz
md5=1c9a8a0d79f085757817f90834e166f5
sha512=13ac40442940ba6e72d7dc5bf952e67443872f7bff63e9c76a3a699a6904c88696047fe04519b7ec6546371642f6ee7b0983117be302694aca15500b0df40de3
doc/src/kappa-library.terms/alg_expr.ml.html
Source file alg_expr.ml
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528 529 530 531 532 533 534 535 536 537 538 539 540 541 542 543 544 545 546 547 548 549 550 551 552 553 554 555 556 557 558 559 560 561 562 563 564 565 566 567 568 569 570 571 572 573 574 575 576 577 578 579 580 581 582 583 584 585 586 587 588 589 590 591 592 593 594 595 596 597 598 599 600 601 602 603 604 605 606 607 608 609 610 611 612 613 614 615 616 617 618 619 620 621 622 623 624 625 626 627 628 629 630 631 632 633 634 635 636 637 638 639 640 641 642 643 644 645 646 647 648 649 650 651 652 653 654 655 656 657 658 659 660 661 662 663 664 665 666 667 668 669 670 671 672 673 674 675 676 677 678 679 680 681 682 683 684 685 686 687 688 689 690 691 692 693 694 695 696 697 698 699 700 701 702 703 704 705 706 707 708 709 710 711 712 713 714 715 716 717 718 719 720 721 722 723 724 725 726 727 728 729 730 731 732 733 734 735 736(******************************************************************************) (* _ __ * The Kappa Language *) (* | |/ / * Copyright 2010-2020 CNRS - Harvard Medical School - INRIA - IRIF *) (* | ' / *********************************************************************) (* | . \ * This file is distributed under the terms of the *) (* |_|\_\ * GNU Lesser General Public License Version 3 *) (******************************************************************************) type pervasives_bool = bool type ('mix, 'id) e = | BIN_ALG_OP of Operator.bin_alg_op * ('mix, 'id) e Loc.annoted * ('mix, 'id) e Loc.annoted | UN_ALG_OP of Operator.un_alg_op * ('mix, 'id) e Loc.annoted | STATE_ALG_OP of Operator.state_alg_op | ALG_VAR of 'id | KAPPA_INSTANCE of 'mix | TOKEN_ID of 'id | CONST of Nbr.t | IF of ('mix, 'id) bool Loc.annoted * ('mix, 'id) e Loc.annoted * ('mix, 'id) e Loc.annoted | DIFF_TOKEN of (('mix, 'id) e Loc.annoted * 'id) | DIFF_KAPPA_INSTANCE of (('mix, 'id) e Loc.annoted * 'mix) and ('mix, 'id) bool = | TRUE | FALSE | BIN_BOOL_OP of Operator.bin_bool_op * ('mix, 'id) bool Loc.annoted * ('mix, 'id) bool Loc.annoted | UN_BOOL_OP of Operator.un_bool_op * ('mix, 'id) bool Loc.annoted | COMPARE_OP of Operator.compare_op * ('mix, 'id) e Loc.annoted * ('mix, 'id) e Loc.annoted let rec e_to_yojson ~filenames f_mix f_id = function | BIN_ALG_OP (op, a, b) -> `List [ Operator.bin_alg_op_to_json op; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) a; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) b; ] | UN_ALG_OP (op, a) -> `List [ Operator.un_alg_op_to_json op; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) a; ] | STATE_ALG_OP op -> Operator.state_alg_op_to_json op | ALG_VAR i -> `List [ `String "VAR"; f_id i ] | KAPPA_INSTANCE cc -> `List [ `String "MIX"; f_mix cc ] | TOKEN_ID i -> `List [ `String "TOKEN"; f_id i ] | CONST n -> Nbr.to_yojson n | IF (cond, yes, no) -> `List [ `String "IF"; Loc.yojson_of_annoted ~filenames (bool_to_yojson ~filenames f_mix f_id) cond; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) yes; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) no; ] | DIFF_TOKEN (expr, token) -> `List [ `String "DIFF_TOKEN"; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) expr; f_id token; ] | DIFF_KAPPA_INSTANCE (expr, mixture) -> `List [ `String "DIFF_MIXTURE"; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) expr; f_mix mixture; ] and bool_to_yojson ~filenames f_mix f_id = function | TRUE -> `Bool true | FALSE -> `Bool false | UN_BOOL_OP (op, a) -> `List [ Operator.un_bool_op_to_json op; Loc.yojson_of_annoted ~filenames (bool_to_yojson ~filenames f_mix f_id) a; ] | BIN_BOOL_OP (op, a, b) -> `List [ Operator.bin_bool_op_to_json op; Loc.yojson_of_annoted ~filenames (bool_to_yojson ~filenames f_mix f_id) a; Loc.yojson_of_annoted ~filenames (bool_to_yojson ~filenames f_mix f_id) b; ] | COMPARE_OP (op, a, b) -> `List [ Operator.compare_op_to_json op; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) a; Loc.yojson_of_annoted ~filenames (e_to_yojson ~filenames f_mix f_id) b; ] let rec e_of_yojson ~filenames f_mix f_id = function | `List [ `String "DIFF_MIXTURE"; expr; mixture ] -> DIFF_KAPPA_INSTANCE ( Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) expr, f_mix mixture ) | `List [ `String "DIFF_TOKEN"; expr; tok ] -> DIFF_TOKEN ( Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) expr, f_id tok ) | `List [ op; a; b ] -> BIN_ALG_OP ( Operator.bin_alg_op_of_json op, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) a, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) b ) | `List [ `String "VAR"; i ] -> ALG_VAR (f_id i) | `List [ `String "TOKEN"; i ] -> TOKEN_ID (f_id i) | `List [ `String "MIX"; cc ] -> KAPPA_INSTANCE (f_mix cc) | `List [ op; a ] -> UN_ALG_OP ( Operator.un_alg_op_of_json op, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) a ) | `List [ `String "IF"; cond; yes; no ] -> IF ( Loc.annoted_of_yojson ~filenames (bool_of_yojson ~filenames f_mix f_id) cond, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) yes, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) no ) | x -> (try STATE_ALG_OP (Operator.state_alg_op_of_json x) with Yojson.Basic.Util.Type_error _ -> (try CONST (Nbr.of_yojson x) with Yojson.Basic.Util.Type_error _ -> raise (Yojson.Basic.Util.Type_error ("Invalid Alg_expr", x)))) and bool_of_yojson ~filenames f_mix f_id = function | `Bool b -> if b then TRUE else FALSE | `List [ op; a ] -> UN_BOOL_OP ( Operator.un_bool_op_of_json op, Loc.annoted_of_yojson ~filenames (bool_of_yojson ~filenames f_mix f_id) a ) | `List [ op; a; b ] as x -> (try BIN_BOOL_OP ( Operator.bin_bool_op_of_json op, Loc.annoted_of_yojson ~filenames (bool_of_yojson ~filenames f_mix f_id) a, Loc.annoted_of_yojson ~filenames (bool_of_yojson ~filenames f_mix f_id) b ) with Yojson.Basic.Util.Type_error _ -> (try COMPARE_OP ( Operator.compare_op_of_json op, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) a, Loc.annoted_of_yojson ~filenames (e_of_yojson ~filenames f_mix f_id) b ) with Yojson.Basic.Util.Type_error _ -> raise (Yojson.Basic.Util.Type_error ("Incorrect bool expr", x)))) | x -> raise (Yojson.Basic.Util.Type_error ("Incorrect bool_expr", x)) let rec print pr_mix pr_tok pr_var f = function | CONST n -> Nbr.print f n | ALG_VAR lab -> pr_var f lab | KAPPA_INSTANCE ast -> pr_mix f ast | TOKEN_ID tk -> Format.fprintf f "|%a|" pr_tok tk | STATE_ALG_OP op -> Operator.print_state_alg_op f op | BIN_ALG_OP (op, (a, _), (b, _)) -> Operator.print_bin_alg_op (print pr_mix pr_tok pr_var) a (print pr_mix pr_tok pr_var) b f op | UN_ALG_OP (op, (a, _)) -> Format.fprintf f "%a(%a)" Operator.print_un_alg_op op (print pr_mix pr_tok pr_var) a | IF ((cond, _), (yes, _), (no, _)) -> Format.fprintf f "%a [?] %a [:] %a" (print_bool pr_mix pr_tok pr_var) cond (print pr_mix pr_tok pr_var) yes (print pr_mix pr_tok pr_var) no | DIFF_TOKEN ((expr, _), tok) -> Format.fprintf f "diff(%a,%a)" (print pr_mix pr_tok pr_var) expr pr_tok tok | DIFF_KAPPA_INSTANCE ((expr, _), mixture) -> Format.fprintf f "diff(%a,%a)" (print pr_mix pr_tok pr_var) expr pr_mix mixture and print_bool pr_mix pr_tok pr_var f = function | TRUE -> Format.fprintf f "[true]" | FALSE -> Format.fprintf f "[false]" | UN_BOOL_OP (op, (a, _)) -> Format.fprintf f "%a (%a)" Operator.print_un_bool_op op (print_bool pr_mix pr_tok pr_var) a | BIN_BOOL_OP (op, (a, _), (b, _)) -> Format.fprintf f "(%a %a %a)" (print_bool pr_mix pr_tok pr_var) a Operator.print_bin_bool_op op (print_bool pr_mix pr_tok pr_var) b | COMPARE_OP (op, (a, _), (b, _)) -> Format.fprintf f "(%a %a %a)" (print pr_mix pr_tok pr_var) a Operator.print_compare_op op (print pr_mix pr_tok pr_var) b let const n = Loc.annot_with_dummy (CONST n) let int i = const (Nbr.I i) let float f = const (Nbr.F f) let add e1 e2 = Loc.annot_with_dummy (BIN_ALG_OP (Operator.SUM, e1, e2)) let minus e1 e2 = Loc.annot_with_dummy (BIN_ALG_OP (Operator.MINUS, e1, e2)) let mult e1 e2 = Loc.annot_with_dummy (BIN_ALG_OP (Operator.MULT, e1, e2)) let div e1 e2 = Loc.annot_with_dummy (BIN_ALG_OP (Operator.DIV, e1, e2)) let pow e1 e2 = Loc.annot_with_dummy (BIN_ALG_OP (Operator.POW, e1, e2)) let log e1 = Loc.annot_with_dummy (UN_ALG_OP (Operator.LOG, e1)) let ln e1 = (* JF: If I rememnber well *) div (log e1) (log (int 10)) let sin e1 = Loc.annot_with_dummy (UN_ALG_OP (Operator.SINUS, e1)) let cos e1 = Loc.annot_with_dummy (UN_ALG_OP (Operator.COSINUS, e1)) let uminus e1 = Loc.annot_with_dummy (UN_ALG_OP (Operator.UMINUS, e1)) let sqrt e1 = Loc.annot_with_dummy (UN_ALG_OP (Operator.SQRT, e1)) let rec add_dep ((in_t, in_e, toks_d, out) as x) d = function | BIN_ALG_OP (_, a, b), _ -> add_dep (add_dep x d a) d b | (UN_ALG_OP (_, a) | DIFF_TOKEN (a, _) | DIFF_KAPPA_INSTANCE (a, _)), _ (* when we differentiate against a variable, the result may depend on this variable only if the variable occurs in the differntiated expression *) -> add_dep x d a | ALG_VAR j, _ -> let () = out.(j) <- Operator.DepSet.add d out.(j) in x | (KAPPA_INSTANCE _ | CONST _), _ -> x | TOKEN_ID i, _ -> let () = toks_d.(i) <- Operator.DepSet.add d toks_d.(i) in x | IF (cond, yes, no), _ -> add_dep (add_dep (add_dep_bool x d cond) d yes) d no | STATE_ALG_OP op, _ -> (match op with | Operator.EMAX_VAR | Operator.TMAX_VAR -> x | Operator.TIME_VAR -> Operator.DepSet.add d in_t, in_e, toks_d, out | Operator.CPUTIME | Operator.EVENT_VAR | Operator.NULL_EVENT_VAR -> in_t, Operator.DepSet.add d in_e, toks_d, out) and add_dep_bool x d = function | (TRUE | FALSE), _ -> x | UN_BOOL_OP (_, a), _ -> add_dep_bool x d a | BIN_BOOL_OP (_, a, b), _ -> add_dep_bool (add_dep_bool x d a) d b | COMPARE_OP (_, a, b), _ -> add_dep (add_dep x d a) d b let rec has_mix : type a. ?var_decls:('b -> ('c, 'b) e) -> (a, 'b) e -> pervasives_bool = fun ?var_decls -> function | BIN_ALG_OP (_, (a, _), (b, _)) -> has_mix ?var_decls a || has_mix ?var_decls b | UN_ALG_OP (_, (a, _)) | DIFF_TOKEN ((a, _), _) | DIFF_KAPPA_INSTANCE ((a, _), _) -> (* when we differentiate against a variable, the result may depend on this variable only if the variable occurs in the differntiated expression *) has_mix ?var_decls a | STATE_ALG_OP _ | CONST _ -> false | TOKEN_ID _ | KAPPA_INSTANCE _ -> true | IF ((cond, _), (yes, _), (no, _)) -> has_mix ?var_decls yes || has_mix ?var_decls no || bool_has_mix ?var_decls cond | ALG_VAR i -> (match var_decls with | None -> false | Some f -> has_mix ?var_decls (f i)) and bool_has_mix : type a. ?var_decls:('b -> ('c, 'b) e) -> (a, 'b) bool -> pervasives_bool = fun ?var_decls -> function | TRUE | FALSE -> false | COMPARE_OP (_, (a, _), (b, _)) -> has_mix ?var_decls a || has_mix ?var_decls b | BIN_BOOL_OP (_, (a, _), (b, _)) -> bool_has_mix ?var_decls a || bool_has_mix ?var_decls b | UN_BOOL_OP (_, (a, _)) -> bool_has_mix ?var_decls a let rec is_constant = function | CONST _, _ -> true | IF (a, b, c), _ -> bool_is_constant a && is_constant b && is_constant c | BIN_ALG_OP (_, a, b), _ -> is_constant a && is_constant b | (UN_ALG_OP (_, a) | DIFF_KAPPA_INSTANCE (a, _) | DIFF_TOKEN (a, _)), _ -> is_constant a | (ALG_VAR _ | STATE_ALG_OP _ | TOKEN_ID _ | KAPPA_INSTANCE _), _ -> false and bool_is_constant = function | (TRUE | FALSE), _ -> true | COMPARE_OP (_, a, b), _ -> is_constant a && is_constant b | BIN_BOOL_OP (_, a, b), _ -> bool_is_constant a && bool_is_constant b | UN_BOOL_OP (_, a), _ -> bool_is_constant a let rec is_time_homogeneous = function | CONST _, _ -> true | IF (a, b, c), _ -> bool_is_time_homogeneous a && is_time_homogeneous b && is_time_homogeneous c | BIN_ALG_OP (_, a, b), _ -> is_time_homogeneous a && is_time_homogeneous b | (UN_ALG_OP (_, a) | DIFF_KAPPA_INSTANCE (a, _) | DIFF_TOKEN (a, _)), _ -> is_time_homogeneous a | ( STATE_ALG_OP ( Operator.EVENT_VAR | Operator.CPUTIME | Operator.NULL_EVENT_VAR | Operator.TMAX_VAR | Operator.EMAX_VAR ), _ ) | ALG_VAR _, _ | TOKEN_ID _, _ | KAPPA_INSTANCE _, _ -> true | STATE_ALG_OP Operator.TIME_VAR, _ -> false and bool_is_time_homogeneous = function | (TRUE | FALSE), _ -> true | COMPARE_OP (_, a, b), _ -> is_time_homogeneous a && is_time_homogeneous b | BIN_BOOL_OP (_, a, b), _ -> bool_is_time_homogeneous a && bool_is_time_homogeneous b | UN_BOOL_OP (_, a), _ -> bool_is_time_homogeneous a let rec aux_extract_cc acc = function | BIN_ALG_OP (_, a, b), _ -> aux_extract_cc (aux_extract_cc acc a) b | (UN_ALG_OP (_, a) | DIFF_TOKEN (a, _) | DIFF_KAPPA_INSTANCE (a, _)), _ -> aux_extract_cc acc a | (ALG_VAR _ | CONST _ | TOKEN_ID _ | STATE_ALG_OP _), _ -> acc | KAPPA_INSTANCE i, _ -> i :: acc | IF (cond, yes, no), _ -> aux_extract_cc (aux_extract_cc (extract_cc_bool acc cond) yes) no and extract_cc_bool acc = function | (TRUE | FALSE), _ -> acc | BIN_BOOL_OP (_, a, b), _ -> extract_cc_bool (extract_cc_bool acc a) b | UN_BOOL_OP (_, a), _ -> extract_cc_bool acc a | COMPARE_OP (_, a, b), _ -> aux_extract_cc (aux_extract_cc acc a) b let extract_connected_components x = aux_extract_cc [] x let extract_connected_components_bool x = extract_cc_bool [] x let setup_alg_vars_rev_dep toks vars = let in_t = Operator.DepSet.empty in let in_e = Operator.DepSet.empty in let toks_d = Array.make (NamedDecls.size toks) Operator.DepSet.empty in let out = Array.make (Array.length vars) Operator.DepSet.empty in Tools.array_fold_lefti (fun i x (_, y) -> add_dep x (Operator.ALG i) y) (in_t, in_e, toks_d, out) vars let rec propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars = function | (BIN_ALG_OP (op, a, b), pos) as x -> (match ( propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars a, propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars b ) with | (CONST c1, _), (CONST c2, _) -> CONST (Nbr.of_bin_alg_op op c1 c2), pos | ( (( ( BIN_ALG_OP _ | UN_ALG_OP _ | STATE_ALG_OP _ | KAPPA_INSTANCE _ | DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _ | TOKEN_ID _ | ALG_VAR _ | CONST _ | IF _ ), _ ) as a'), (( ( BIN_ALG_OP _ | UN_ALG_OP _ | STATE_ALG_OP _ | KAPPA_INSTANCE _ | DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _ | TOKEN_ID _ | ALG_VAR _ | CONST _ | IF _ ), _ ) as b') ) -> if a == a' && b == b' then x else BIN_ALG_OP (op, a', b'), pos) | (UN_ALG_OP (op, a), pos) as x -> (match propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars a with | CONST c, _ -> CONST (Nbr.of_un_alg_op op c), pos | ( ( DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _ | BIN_ALG_OP _ | UN_ALG_OP _ | STATE_ALG_OP _ | KAPPA_INSTANCE _ | TOKEN_ID _ | ALG_VAR _ | IF _ ), _ ) as a' -> if a == a' then x else UN_ALG_OP (op, a'), pos) | (DIFF_TOKEN (a, t), pos) as x -> (match propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars a with | CONST _, _ -> (* the derivative of a constant is zero *) CONST Nbr.zero, pos | ( ( DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _ | BIN_ALG_OP _ | UN_ALG_OP _ | IF _ | STATE_ALG_OP _ | KAPPA_INSTANCE _ | TOKEN_ID _ | ALG_VAR _ ), _ ) as a' -> if a == a' then x else DIFF_TOKEN (a', t), pos) | (DIFF_KAPPA_INSTANCE (a, m), pos) as x -> (match propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars a with | CONST _, _ -> (* the derivative of a constant is zero *) CONST Nbr.zero, pos | ( ( DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _ | BIN_ALG_OP _ | UN_ALG_OP _ | STATE_ALG_OP _ | KAPPA_INSTANCE _ | TOKEN_ID _ | ALG_VAR _ | IF _ ), _ ) as a' -> if a == a' then x else DIFF_KAPPA_INSTANCE (a', m), pos) | STATE_ALG_OP Operator.EMAX_VAR, pos -> ( CONST (match max_events with | Some n -> Nbr.I n | None -> let () = warning ~pos (fun f -> Format.pp_print_string f "[Emax] constant is evaluated to infinity") in Nbr.F infinity), pos ) | STATE_ALG_OP Operator.TMAX_VAR, pos -> ( CONST (match max_time with | Some t -> Nbr.F t | None -> let () = warning ~pos (fun f -> Format.pp_print_string f "[Tmax] constant is evaluated to infinity") in Nbr.F infinity), pos ) | ( STATE_ALG_OP ( Operator.CPUTIME | Operator.TIME_VAR | Operator.EVENT_VAR | Operator.NULL_EVENT_VAR ), _ ) as x -> x | (ALG_VAR i, pos) as x -> if List.mem i updated_vars then x else ( match vars.(i) with | _, (((CONST _ | ALG_VAR _) as y), _) -> y, pos | ( _, ( ( BIN_ALG_OP _ | UN_ALG_OP _ | STATE_ALG_OP _ | KAPPA_INSTANCE _ | TOKEN_ID _ | IF _ | DIFF_KAPPA_INSTANCE _ | DIFF_TOKEN _ ), _ ) ) -> x ) | ((KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _), _) as x -> x | IF (cond, yes, no), pos -> (match propagate_constant_bool ~warning ?max_time ?max_events ~updated_vars ~vars cond with | TRUE, _ -> propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars yes | FALSE, _ -> propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars no | ((BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _) as cond' -> ( IF ( cond', propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars yes, propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars no ), pos )) and propagate_constant_bool ~warning ?max_time ?max_events ~updated_vars ~vars = function | ((TRUE | FALSE), _) as x -> x | UN_BOOL_OP (op, a), pos -> (match ( propagate_constant_bool ~warning ?max_time ?max_events ~updated_vars ~vars a, op ) with | (TRUE, _), Operator.NOT -> FALSE, pos | (FALSE, _), Operator.NOT -> TRUE, pos | (((BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _) as a'), _ -> UN_BOOL_OP (op, a'), pos) | BIN_BOOL_OP (op, a, b), pos -> (match ( propagate_constant_bool ~warning ?max_time ?max_events ~updated_vars ~vars a, op ) with | (TRUE, _), Operator.OR -> TRUE, pos | (FALSE, _), Operator.AND -> FALSE, pos | (TRUE, _), Operator.AND | (FALSE, _), Operator.OR -> propagate_constant_bool ~warning ?max_time ?max_events ~updated_vars ~vars b | (((BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _) as a'), _ -> (match ( propagate_constant_bool ~warning ?max_time ?max_events ~updated_vars ~vars b, op ) with | (TRUE, _), Operator.OR -> TRUE, pos | (FALSE, _), Operator.AND -> FALSE, pos | (TRUE, _), Operator.AND | (FALSE, _), Operator.OR -> a' | (((BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _) as b'), _ -> BIN_BOOL_OP (op, a', b'), pos)) | COMPARE_OP (op, a, b), pos -> let a' = propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars a in let b' = propagate_constant ~warning ?max_time ?max_events ~updated_vars ~vars b in (match a', b' with | (CONST n1, _), (CONST n2, _) -> if Nbr.of_compare_op op n1 n2 then TRUE, pos else FALSE, pos | ( ( ( DIFF_KAPPA_INSTANCE _ | DIFF_TOKEN _ | BIN_ALG_OP _ | UN_ALG_OP _ | STATE_ALG_OP _ | ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _ ), _ ), _ ) -> COMPARE_OP (op, a', b'), pos) let rec has_progress_dep ~only_time ((in_t, _, _, deps) as vars_deps) = function | BIN_ALG_OP (_, a, b), _ -> has_progress_dep ~only_time vars_deps a || has_progress_dep ~only_time vars_deps b | (UN_ALG_OP (_, a) | DIFF_TOKEN (a, _) | DIFF_KAPPA_INSTANCE (a, _)), _ -> has_progress_dep ~only_time vars_deps a | (KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _), _ -> false | STATE_ALG_OP Operator.TIME_VAR, _ -> true | STATE_ALG_OP Operator.EVENT_VAR, _ -> not only_time | ( STATE_ALG_OP ( Operator.CPUTIME | Operator.NULL_EVENT_VAR | Operator.EMAX_VAR | Operator.TMAX_VAR ), _ ) -> false | ALG_VAR i, _ -> let rec aux j = Operator.DepSet.mem (Operator.ALG j) in_t || Operator.DepSet.exists (function | Operator.ALG k -> aux k | Operator.RULE _ | Operator.MODIF _ -> false) deps.(j) in aux i | IF (cond, yes, no), _ -> bool_has_progress_dep ~only_time vars_deps cond || has_progress_dep ~only_time vars_deps yes || has_progress_dep ~only_time vars_deps no and bool_has_progress_dep ~only_time vars_deps = function | (TRUE | FALSE), _ -> false | COMPARE_OP (_, a, b), _ -> has_progress_dep ~only_time vars_deps a || has_progress_dep ~only_time vars_deps b | BIN_BOOL_OP (_, a, b), _ -> bool_has_progress_dep ~only_time vars_deps a || bool_has_progress_dep ~only_time vars_deps b | UN_BOOL_OP (_, a), _ -> bool_has_progress_dep ~only_time vars_deps a let rec is_equality_test_time vars_deps = function | TRUE | FALSE -> false | UN_BOOL_OP (Operator.NOT, (a, _)) -> is_equality_test_time vars_deps a | BIN_BOOL_OP (_, (a, _), (b, _)) -> is_equality_test_time vars_deps a || is_equality_test_time vars_deps b | COMPARE_OP (op, a, b) -> let only_time = true in (match op with | Operator.EQUAL when has_progress_dep ~only_time vars_deps a || has_progress_dep ~only_time vars_deps b -> true | Operator.EQUAL | Operator.SMALLER | Operator.GREATER | Operator.DIFF -> false) let rec map_on_mixture f = function | KAPPA_INSTANCE i, p -> f i, p | DIFF_KAPPA_INSTANCE _, _ -> failwith "Alg_expr.map_on_mixture doesn't know what to do of DIFF_KAPPA_INSTANCE" | (CONST _, _) as x -> x | (ALG_VAR _, _) as x -> x | (TOKEN_ID _, _) as x -> x | DIFF_TOKEN (a, i), p -> DIFF_TOKEN (map_on_mixture f a, i), p | (STATE_ALG_OP _, _) as x -> x | BIN_ALG_OP (o, x, y), p -> BIN_ALG_OP (o, map_on_mixture f x, map_on_mixture f y), p | UN_ALG_OP (o, x), p -> UN_ALG_OP (o, map_on_mixture f x), p | IF (b, x, y), p -> IF (map_bool_on_mixture f b, map_on_mixture f x, map_on_mixture f y), p and map_bool_on_mixture f = function | (TRUE, _) as x -> x | (FALSE, _) as x -> x | BIN_BOOL_OP (o, x, y), p -> BIN_BOOL_OP (o, map_bool_on_mixture f x, map_bool_on_mixture f y), p | UN_BOOL_OP (o, x), p -> UN_BOOL_OP (o, map_bool_on_mixture f x), p | COMPARE_OP (o, x, y), p -> COMPARE_OP (o, map_on_mixture f x, map_on_mixture f y), p let rec fold_on_mixture f x = function | KAPPA_INSTANCE i, _ -> f x i | DIFF_KAPPA_INSTANCE _, _ -> failwith "Alg_expr.fold_on_mixture doesn't know what to do of DIFF_KAPPA_INSTANCE" | CONST _, _ -> x | ALG_VAR _, _ -> x | TOKEN_ID _, _ -> x | DIFF_TOKEN (a, _), _ -> fold_on_mixture f x a | STATE_ALG_OP _, _ -> x | BIN_ALG_OP (_, a, b), _ -> fold_on_mixture f (fold_on_mixture f x a) b | UN_ALG_OP (_, a), _ -> fold_on_mixture f x a | IF (b, u, v), _ -> fold_bool_on_mixture f (fold_on_mixture f (fold_on_mixture f x u) v) b and fold_bool_on_mixture f x = function | TRUE, _ -> x | FALSE, _ -> x | BIN_BOOL_OP (_, a, b), _ -> fold_bool_on_mixture f (fold_bool_on_mixture f x a) b | UN_BOOL_OP (_, a), _ -> fold_bool_on_mixture f x a | COMPARE_OP (_, a, b), _ -> fold_on_mixture f (fold_on_mixture f x a) b let rec equal a b = match a, b with | (BIN_ALG_OP (opa, a1, a2), _), (BIN_ALG_OP (opb, b1, b2), _) -> opa = opb && equal a1 b1 && equal a2 b2 | ( (BIN_ALG_OP _, _), ( ( UN_ALG_OP _ | STATE_ALG_OP _ | ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _ ), _ ) ) | ( ( ( UN_ALG_OP _ | STATE_ALG_OP _ | ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _ ), _ ), (BIN_ALG_OP _, _) ) -> false | (UN_ALG_OP (opa, a1), _), (UN_ALG_OP (opb, b1), _) -> opa = opb && equal a1 b1 | ( (UN_ALG_OP _, _), ( ( STATE_ALG_OP _ | ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _ ), _ ) ) | ( ( ( STATE_ALG_OP _ | ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _ ), _ ), (UN_ALG_OP _, _) ) -> false | (STATE_ALG_OP opa, _), (STATE_ALG_OP opb, _) -> opa = opb | ( (STATE_ALG_OP _, _), ((ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _), _) ) | ( ((ALG_VAR _ | KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _), _), (STATE_ALG_OP _, _) ) -> false | (ALG_VAR id1, _), (ALG_VAR id2, _) -> id1 = id2 | (ALG_VAR _, _), ((KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _), _) | ((KAPPA_INSTANCE _ | TOKEN_ID _ | CONST _ | IF _), _), (ALG_VAR _, _) -> false | (KAPPA_INSTANCE mix1, _), (KAPPA_INSTANCE mix2, _) -> mix1 = mix2 | (KAPPA_INSTANCE _, _), ((TOKEN_ID _ | CONST _ | IF _), _) | ((TOKEN_ID _ | CONST _ | IF _), _), (KAPPA_INSTANCE _, _) -> false | (TOKEN_ID id1, _), (TOKEN_ID id2, _) -> id1 = id2 | (TOKEN_ID _, _), ((CONST _ | IF _), _) | ((CONST _ | IF _), _), (TOKEN_ID _, _) -> false | (CONST c1, _), (CONST c2, _) -> Nbr.is_equal c1 c2 | (CONST _, _), (IF _, _) | (IF _, _), (CONST _, _) -> false | (IF (conda, a1, a2), _), (IF (condb, b1, b2), _) -> equal_bool conda condb && equal a1 b1 && equal a2 b2 | ((DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _), _), _ | _, ((DIFF_TOKEN _ | DIFF_KAPPA_INSTANCE _), _) -> assert false and equal_bool a b = match a, b with | (TRUE, _), (TRUE, _) -> true | (TRUE, _), ((FALSE | BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _) | ((FALSE | BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _), (TRUE, _) -> false | (FALSE, _), (FALSE, _) -> true | (FALSE, _), ((BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _) | ((BIN_BOOL_OP _ | COMPARE_OP _ | UN_BOOL_OP _), _), (FALSE, _) -> false | (UN_BOOL_OP (opa, a), _), (UN_BOOL_OP (opb, b), _) -> opa = opb && equal_bool a b | (UN_BOOL_OP _, _), ((BIN_BOOL_OP _ | COMPARE_OP _), _) | ((BIN_BOOL_OP _ | COMPARE_OP _), _), (UN_BOOL_OP _, _) -> false | (BIN_BOOL_OP (opa, a1, a2), _), (BIN_BOOL_OP (opb, b1, b2), _) -> opa = opb && equal_bool a1 b1 && equal_bool a2 b2 | (BIN_BOOL_OP _, _), (COMPARE_OP _, _) | (COMPARE_OP _, _), (BIN_BOOL_OP _, _) -> false | (COMPARE_OP (opa, a1, a2), _), (COMPARE_OP (opb, b1, b2), _) -> opa = opb && equal a1 b1 && equal a2 b2