Source file step_function_node.ml
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open Core
open! Import
open Types.Kind
module Alarm_value = Types.Alarm_value
module Node = Types.Node
type 'a = 'a Types.Step_function_node.t =
{ main : 'a Node.t
; mutable child : 'a Step_function.t Node.t Uopt.t
; mutable : Stabilization_num.t
; mutable value : 'a Uopt.t
; mutable upcoming_steps : (Time_ns.t * 'a) Sequence.t
; mutable alarm : Alarm.t
; mutable alarm_value : (Alarm_value.t[@sexp.opaque])
; clock : (Types.Clock.t[@sexp.opaque])
}
[@@deriving fields ~iterators:iter, sexp_of]
let phys_same (t1 : _ t) (t2 : _ t) = phys_same t1 t2
let invariant invariant_a t =
Invariant.invariant [%here] t [%sexp_of: _ t] (fun () ->
let check f = Invariant.check_field t f in
Fields.iter
~main:
(check (fun (main : _ Node.t) ->
match main.kind with
| Invalid -> ()
| Const _ -> ()
| Step_function t' -> assert (phys_equal t t')
| _ -> assert false))
~child:ignore
~extracted_step_function_from_child_at:ignore
~value:(check (Uopt.invariant invariant_a))
~upcoming_steps:ignore
~alarm:(check Alarm.invariant)
~alarm_value:
(check (fun (alarm_value : Alarm_value.t) ->
match alarm_value.action with
| Step_function t2 -> assert (phys_same t t2)
| _ -> assert false))
~clock:ignore)
;;
let rec advance_internal t ~to_ a1 steps =
match Sequence.next steps with
| Some ((step_at, a2), steps2) when Time_ns.( >= ) to_ step_at ->
advance_internal t ~to_ a2 steps2
| _ ->
t.value <- Uopt.some a1;
t.upcoming_steps <- steps
;;
let advance t ~to_ = advance_internal t ~to_ (Uopt.value_exn t.value) t.upcoming_steps