package bonsai
A library for building dynamic webapps, using Js_of_ocaml
Install
Dune Dependency
Authors
Maintainers
Sources
bonsai-v0.16.0.tar.gz
sha256=1d68aab713659951eba5b85f21d6f9382e0efa8579a02c3be65d9071c6e86303
doc/src/bonsai.driver/bonsai_driver.ml.html
Source file bonsai_driver.ml
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Core module Incr = Ui_incr module Action = struct type ('dynamic_action, 'static_action) t = | Dynamic of 'dynamic_action | Static of 'static_action end type ('m, 'dynamic_action, 'static_action, 'action_input, 'r) unpacked = { model_var : 'm Incr.Var.t ; default_model : 'm ; clock : Incr.Clock.t ; inject : ('dynamic_action, 'static_action) Action.t -> unit Ui_effect.t ; sexp_of_model : 'm -> Sexp.t ; action_input_incr : 'action_input Incr.t ; action_input : 'action_input Incr.Observer.t ; static_apply_action : schedule_event:(unit Ui_effect.t -> unit) -> 'm -> 'static_action -> 'm ; dynamic_apply_action : schedule_event:(unit Ui_effect.t -> unit) -> 'action_input option -> 'm -> 'dynamic_action -> 'm ; result : 'r Incr.Observer.t ; result_incr : 'r Incr.t ; lifecycle : Bonsai.Private.Lifecycle.Collection.t Incr.Observer.t ; lifecycle_incr : Bonsai.Private.Lifecycle.Collection.t Incr.t ; queue : ('dynamic_action, 'static_action) Action.t Queue.t ; mutable last_lifecycle : Bonsai.Private.Lifecycle.Collection.t } type 'r t = T : (_, _, _, _, 'r) unpacked -> 'r t let assert_type_equalities (T a : _ Bonsai.Private.Computation.packed_info) (T b : _ Bonsai.Private.Computation.packed_info) = let T = Bonsai.Private.Meta.Model.Type_id.same_witness_exn a.model.type_id b.model.type_id in let T = Bonsai.Private.Meta.Action.Type_id.same_witness_exn a.dynamic_action b.dynamic_action in let T = Bonsai.Private.Meta.Action.Type_id.same_witness_exn a.static_action b.static_action in () ;; let create (type r) ?initial_model_sexp ?(optimize = true) ~clock (computation : r Bonsai.Computation.t) : r t = let unoptimized_info = Bonsai.Private.gather (Bonsai.Private.reveal_computation computation) in let optimized_info = Bonsai.Private.reveal_computation computation |> (if optimize then Bonsai.Private.pre_process else Fn.id) |> Bonsai.Private.gather in let (T ({ model = { default = default_model ; sexp_of = sexp_of_model ; equal = _ ; type_id = _ ; of_sexp = model_of_sexp } ; input = _ ; apply_static ; apply_dynamic ; dynamic_action = _ ; static_action = _ ; run = _ ; reset = _ } as computation_info)) = optimized_info in assert_type_equalities unoptimized_info unoptimized_info; assert_type_equalities optimized_info optimized_info; let environment = Bonsai.Private.Environment.empty in let starting_model = Option.value_map initial_model_sexp ~default:default_model ~f:[%of_sexp: model] in let model_var = Incr.Var.create starting_model in (* Sadly the only way to give a name to the existential type that we just introduced into the environment is by defining a function like this. See https://github.com/ocaml/ocaml/issues/7074. *) let create_polymorphic (type dynamic_action static_action action_input) (computation_info : (_, dynamic_action, static_action, action_input, r) Bonsai.Private.Computation.info) apply_static apply_dynamic : r t = let queue = Queue.create () in let module A = Ui_effect.Define (struct module Action = struct type t = (dynamic_action, static_action) Action.t end let handle = Queue.enqueue queue end) in let inject = A.inject in let inject_dynamic a = A.inject (Dynamic a) in let inject_static a = A.inject (Static a) in let snapshot = computation_info.run ~environment ~path:Bonsai.Private.Path.empty ~clock ~model:(Incr.Var.watch model_var) ~inject_dynamic ~inject_static in let result_incr = Bonsai.Private.Snapshot.result snapshot in let action_input_incr = Bonsai.Private.Input.to_incremental (Bonsai.Private.Snapshot.input snapshot) in let action_input = Incr.observe action_input_incr in let result = result_incr |> Incr.observe in let lifecycle_incr = Bonsai.Private.Snapshot.lifecycle_or_empty snapshot in let lifecycle = Incr.observe lifecycle_incr in Incr.stabilize (); T { model_var ; default_model ; clock ; inject ; action_input ; action_input_incr ; static_apply_action = apply_static ~inject_dynamic ~inject_static ; dynamic_apply_action = apply_dynamic ~inject_dynamic ~inject_static ; result ; result_incr ; sexp_of_model ; lifecycle ; lifecycle_incr ; queue ; last_lifecycle = Bonsai.Private.Lifecycle.Collection.empty } in create_polymorphic computation_info apply_static apply_dynamic ;; let schedule_event _ = Ui_effect.Expert.handle let flush (T { model_var; static_apply_action; dynamic_apply_action; action_input; queue; _ }) = let update_model ~action ~apply_action = (* The only difference between [Var.latest_value] and [Var.value] is that if [Var.set] is called _while stabilizing_, then calling [Var.value] will return the value that was set when stabilization started, whereas [latest_value] will give you the value that was just [set]. Now, setting a model in the middle of a stabilizaiton should never happen, but I think it's important to be explicit about which behavior we use, so I chose the one that would be least surprising if a stabilization does happen to occur. *) Incr.Var.set model_var (apply_action ~schedule_event:Ui_effect.Expert.handle (Incr.Var.latest_value model_var) action) in let process_event (action : _ Action.t) = match action with | Static action -> update_model ~apply_action:static_apply_action ~action | Dynamic action -> (* We need to stabilize before every action so that the [input] for the apply-actions are up to date. *) Incr.stabilize (); let action_input = Incr.Observer.value_exn action_input in let apply_action ~schedule_event model action = dynamic_apply_action ~schedule_event (Some action_input) model action in update_model ~action ~apply_action in while not (Queue.is_empty queue) do process_event (Queue.dequeue_exn queue) done; Incr.stabilize () ;; let result (T { result; _ }) = Incr.Observer.value_exn result let has_after_display_events (T t) = let lifecycle = t.lifecycle |> Incr.Observer.value_exn in Bonsai.Private.Lifecycle.Collection.has_after_display lifecycle ;; let trigger_lifecycles (T t) = let old = t.last_lifecycle in let new_ = t.lifecycle |> Incr.Observer.value_exn in t.last_lifecycle <- new_; schedule_event () (Bonsai.Private.Lifecycle.Collection.diff old new_) ;; module Expert = struct let sexp_of_model (T { sexp_of_model; model_var; _ }) = sexp_of_model (Incr.Var.value model_var) ;; let result_incr (T { result_incr; _ }) = result_incr let action_input_incr (T { action_input_incr; _ }) = Ui_incr.pack action_input_incr let lifecycle_incr (T { lifecycle_incr; _ }) = Ui_incr.pack lifecycle_incr let clock (T { clock; _ }) = clock let invalidate_observers (T { action_input; result; lifecycle; _ }) = Incr.Observer.disallow_future_use action_input; Incr.Observer.disallow_future_use result; Incr.Observer.disallow_future_use lifecycle ;; let reset_model_to_default (T { default_model; model_var; _ }) = Incr.Var.set model_var default_model ;; end