local M = {} -- See [this original implementation](https://github.com/coltonj96/UsefulCombinators/blob/master/UsefulCombinators_0.4.4/control.lua#L2062) ---Get the total count of some signal in some control behavior. ---@param control LuaControlBehavior ---@param signal SignalID function M.get_signal_count(control, signal) if not signal then return 0 end local red = control.get_circuit_network(defines.wire_type.red) local green = control.get_circuit_network(defines.wire_type.green) local total = 0 if red then total = total + (red.get_signal(signal) or 0) end if green then total = total + (green.get_signal(signal) or 0) end return total end ---Returns the index if going past #array or under 1 would loop back the other side. ---Assumes the array is nonempty ---@generic T ---@param array T[] ---@param index integer ---@returns integer ---@nodiscard function M.mod_index(array, index) return (index - 1) % #array + 1 end ---Uses the above function to normalize the index between the start and end of the array. ---Assumes the array is nonempty ---@generic T ---@param array T[] ---@param index integer ---@return T ---@nodiscard function M.get_cycled(array, index) return array[M.mod_index(array, index)] end ---Annotated version of table.inset ---@generic T ---@param list T[] ---@param at integer ---@param value T function M.list_insert(list, at, value) table.insert(list,at, value) end ---Shallow copies some table ---@generic T :table ---@param object T ---@return T function M.copy(object) local result = {} for k, v in pairs(object) do result[k] = v end return result end return M