defmodule Scopes.CSys.Program do alias Scopes.CSys alias Scopes.Shape defmodule State do defstruct [:value, :stage, :prog] end def prepare(prog, value \\ []) do state = %State{value: value, stage: :initial, prog: prog} {state, get_proc(state)} end def get_proc(state) do get_proc(elem(state.prog, 0), state.stage) end defp get_proc(stages, stage) do stages[stage] || stages[:default] end # basic program def basic_prog() do default = &basic_active/2 stages = %{ default: default, initial: &basic_initial/2, active: default, retired: default } transitions = %{ restart: :initial, retire: :retired, next: [initial: :active, active: :retired] } {stages, transitions} end def prepare_basic(value \\ []) do prepare(basic_prog(), value) end # basic processors def basic_initial(msg, scope) do basic(msg, scope) end def basic_active(msg, scope) do basic(msg, scope) end def basic(msg, scope) do case Shape.head(msg) do [:csys, :connect | _rest] -> CSys.connect(msg, scope) [:csys, :create, :succ | _rest] -> create_succ(msg, scope) [:csys, :create, :pred | _rest] -> create_pred(msg, scope) #[:csys, :next | _rest] -> next(scope, meta) #[:csys, :data | rest] -> process_data(rest, Shape.data(msg), scope) #[:csys, action | rest] -> transition(action, scope) _ -> CSys.forward(msg, scope) || CSys.notify(msg, scope) end end # message handlers // proc steps def create_succ(msg, scope) do new = CSys.create(msg, restart(scope)) data = Shape.data(msg) CSys.send_message(self(), [:csys, :connect], Map.put(data, :target, new)) end def create_pred(msg, scope) do new = CSys.create(msg, restart(scope)) data = Shape.data(msg) CSys.send_message(new, [:csys, :connect], Map.put(data, :target, self())) end # helper functions def restart({state, _proc, syns, env}) do state_n = %{state | stage: :initial} {state_n, get_proc(state_n), syns, env} end end