/* Every cycle, the pump uses the air in air_in to try and make air_out the perfect pressure. node1, air1, network1 correspond to input node2, air2, network2 correspond to output Thus, the two variables affect pump operation are set in New(): air1.volume This is the volume of gas available to the pump that may be transfered to the output air2.volume Higher quantities of this cause more air to be perfected later but overall network volume is also increased as this increases... */ /obj/machinery/atmospherics/components/binary/volume_pump icon_state = "volpump_map" name = "volumetric gas pump" desc = "A pump that moves gas by volume." can_unwrench = 1 var/on = 0 var/transfer_rate = MAX_TRANSFER_RATE var/frequency = 0 var/id = null var/datum/radio_frequency/radio_connection /obj/machinery/atmospherics/components/binary/volume_pump/Destroy() if(SSradio) SSradio.remove_object(src,frequency) return ..() /obj/machinery/atmospherics/components/binary/volume_pump/on on = 1 /obj/machinery/atmospherics/components/binary/volume_pump/update_icon_nopipes() if(stat & NOPOWER) icon_state = "volpump_off" return icon_state = "volpump_[on?"on":"off"]" /obj/machinery/atmospherics/components/binary/volume_pump/process_atmos() // ..() if(stat & (NOPOWER|BROKEN)) return if(!on) return 0 var/datum/gas_mixture/air1 = AIR1 var/datum/gas_mixture/air2 = AIR2 // Pump mechanism just won't do anything if the pressure is too high/too low var/input_starting_pressure = air1.return_pressure() var/output_starting_pressure = air2.return_pressure() if((input_starting_pressure < 0.01) || (output_starting_pressure > 9000)) return 1 var/transfer_ratio = min(1, transfer_rate/air1.volume) var/datum/gas_mixture/removed = air1.remove_ratio(transfer_ratio) air2.merge(removed) update_parents() return 1 /obj/machinery/atmospherics/components/binary/volume_pump/proc/set_frequency(new_frequency) SSradio.remove_object(src, frequency) frequency = new_frequency if(frequency) radio_connection = SSradio.add_object(src, frequency) /obj/machinery/atmospherics/components/binary/volume_pump/proc/broadcast_status() if(!radio_connection) return 0 var/datum/signal/signal = new signal.transmission_method = 1 //radio signal signal.source = src signal.data = list( "tag" = id, "device" = "APV", "power" = on, "transfer_rate" = transfer_rate, "sigtype" = "status" ) radio_connection.post_signal(src, signal) return 1 /obj/machinery/atmospherics/components/binary/volume_pump/ui_interact(mob/user, ui_key = "main", datum/tgui/ui = null, force_open = 0, \ datum/tgui/master_ui = null, datum/ui_state/state = GLOB.default_state) ui = SStgui.try_update_ui(user, src, ui_key, ui, force_open) if(!ui) ui = new(user, src, ui_key, "atmos_pump", name, 310, 115, master_ui, state) ui.open() /obj/machinery/atmospherics/components/binary/volume_pump/ui_data() var/data = list() data["on"] = on data["rate"] = round(transfer_rate) data["max_rate"] = round(MAX_TRANSFER_RATE) return data /obj/machinery/atmospherics/components/binary/volume_pump/atmosinit() ..() set_frequency(frequency) /obj/machinery/atmospherics/components/binary/volume_pump/ui_act(action, params) if(..()) return var/turf/T = get_turf(src) //var/area/A = get_area(src) switch(action) if("power") on = !on investigate_log("Volume Pump, [src.name], was turned [on ? "on" : "off"] by [key_name(usr)] at [x], [y], [z], [loc.loc]", INVESTIGATE_ATMOS) message_admins("Volume Pump, [src.name], turned [on ? "on" : "off"] by [ADMIN_LOOKUPFLW(usr)] at [ADMIN_COORDJMP(T)]") log_admin("[key_name(usr)] manipulated a volume pump at [x], [y], [z]") . = TRUE if("rate") var/rate = params["rate"] if(rate == "max") rate = MAX_TRANSFER_RATE . = TRUE else if(rate == "input") rate = input("New transfer rate (0-[MAX_TRANSFER_RATE] L/s):", name, transfer_rate) as num|null if(!isnull(rate) && !..()) . = TRUE else if(text2num(rate) != null) rate = text2num(rate) . = TRUE if(.) transfer_rate = Clamp(rate, 0, MAX_TRANSFER_RATE) investigate_log("Volume Pump, [src.name], was set to [transfer_rate] L/s by [key_name(usr)] at [x], [y], [z], [loc.loc]", INVESTIGATE_ATMOS) message_admins("Volume Pump, [src.name], was set to [transfer_rate] L/s by [ADMIN_LOOKUPFLW(usr)] at [ADMIN_COORDJMP(T)]") log_admin("[key_name(usr)] manipulated a volume pump at [x], [y], [z]") update_icon() /obj/machinery/atmospherics/components/binary/volume_pump/receive_signal(datum/signal/signal) if(!signal.data["tag"] || (signal.data["tag"] != id) || (signal.data["sigtype"]!="command")) return 0 var/old_on = on //for logging if("power" in signal.data) on = text2num(signal.data["power"]) if("power_toggle" in signal.data) on = !on if("set_transfer_rate" in signal.data) var/datum/gas_mixture/air1 = AIR1 transfer_rate = Clamp(text2num(signal.data["set_transfer_rate"]),0,air1.volume) if(on != old_on) investigate_log("was turned [on ? "on" : "off"] by a remote signal", INVESTIGATE_ATMOS) if("status" in signal.data) broadcast_status() return //do not update_icon broadcast_status() update_icon() return /obj/machinery/atmospherics/components/binary/volume_pump/power_change() ..() update_icon() /obj/machinery/atmospherics/components/binary/volume_pump/can_unwrench(mob/user) if(..()) var/turf/T = get_turf(src) //var/area/A = get_area(src) if(!(stat & NOPOWER) && on) to_chat(user, "You cannot unwrench [src], turn it off first!") else investigate_log("Volume Pump, [src.name], was unwrenched by [key_name(usr)] at [x], [y], [z], [loc.loc]", INVESTIGATE_ATMOS) message_admins("Volume Pump, [src.name], was unwrenched by [ADMIN_LOOKUPFLW(usr)] at [ADMIN_COORDJMP(T)]") log_admin("[key_name(usr)] unwrenched a volume pump at [x], [y], [z]") return 1