[MIRROR] Completely rewrite xenoarch spectrometer (#11079)

Co-authored-by: ShadowLarkens <shadowlarkens@gmail.com>

code/modules/xenoarcheaology/tools/geosample_scanner.dm

@@ -1,3 +1,21 @@
+#define RPM_FRICTION 15
+#define IDEAL_RPM 600
+#define RPM_OKAY_RANGE 200
+#define RPM_MAX_DELTA RPM_FRICTION * 4
+#define RPM_MIN 0
+#define RPM_MAX 1200
+#define COMPLETION_DELTA_MODIFIER 4 // Make it go faster, 25 ticks at peak efficiency
+#define RADIATION_INJECTION_AMT 5
+#define RADIATION_MAX 50
+#define TARGET_RADIATION 20
+#define RADIATION_OK_RANGE 7.5
+#define RADIATION_LOSS 1
+#define HEAT_GAIN 0.5
+#define HEAT_FAILURE_THRESHOLD 10
+#define HEAT_MAX 12
+#define COOLANT_USAGE 2
+#define COOLANT_MAX 100
+
 /obj/machinery/radiocarbon_spectrometer
 	name = "radiocarbon spectrometer"
 	desc = "A specialised, complex scanner for gleaning information on all manner of small things."
@@ -10,114 +28,61 @@
 	idle_power_usage = 20
 	active_power_usage = 300
 
-	//var/obj/item/reagent_containers/glass/coolant_container
+	flags = OPENCONTAINER
+
 	var/scanning = 0
 	var/report_num = 0
-	//
 	var/obj/item/scanned_item
 	var/last_scan_data = "No scans on record."
-	//
-	var/last_process_worldtime = 0
-	//
-	var/scanner_progress = 0
-	var/scanner_rate = 1.25			//80 seconds per scan
+	var/scan_progress = 0
+
+	// Mechanics:tm:
 	var/scanner_rpm = 0
-	var/scanner_rpm_dir = 1
-	var/scanner_temperature = 0
-	var/scanner_seal_integrity = 100
-	//
-	var/coolant_usage_rate = 0		//measured in u/microsec
-	var/fresh_coolant = 0
-	var/coolant_purity = 0
-	var/datum/reagents/coolant_reagents
-	var/used_coolant = 0
-	var/list/coolant_reagents_purity = list()
-	//
-	var/maser_wavelength = 0
-	var/optimal_wavelength = 0
-	var/optimal_wavelength_target = 0
-	var/tleft_retarget_optimal_wavelength = 0
-	var/maser_efficiency = 0
-	//
-	var/radiation = 0				//0-100 mSv
-	var/t_left_radspike = 0
-	var/rad_shield = 0
+	var/scanner_rpm_delta = 0
+
+	var/radiation = 0
+
+	var/heat = 0
 
 /obj/machinery/radiocarbon_spectrometer/Initialize(mapload)
 	. = ..()
-	create_reagents(500)
-	coolant_reagents_purity[REAGENT_ID_WATER] = 0.5
-	coolant_reagents_purity[REAGENT_ID_ICECOFFEE] = 0.6
-	coolant_reagents_purity[REAGENT_ID_ICETEA] = 0.6
-	coolant_reagents_purity[REAGENT_ID_MILKSHAKE] = 0.6
-	coolant_reagents_purity[REAGENT_ID_LEPORAZINE] = 0.7
-	coolant_reagents_purity[REAGENT_ID_KELOTANE] = 0.7
-	coolant_reagents_purity[REAGENT_ID_STERILIZINE] = 0.7
-	coolant_reagents_purity[REAGENT_ID_DERMALINE] = 0.7
-	coolant_reagents_purity[REAGENT_ID_HYPERZINE] = 0.8
-	coolant_reagents_purity[REAGENT_ID_CRYOXADONE] = 0.9
-	coolant_reagents_purity[REAGENT_ID_COOLANT] = 1
-	coolant_reagents_purity[REAGENT_ID_ADMINORDRAZINE] = 2
+	create_reagents(COOLANT_MAX)
 
-/obj/machinery/radiocarbon_spectrometer/attackby(var/obj/I as obj, var/mob/user as mob)
+/obj/machinery/radiocarbon_spectrometer/attackby(obj/I, mob/user)
 	if(scanning)
 		to_chat(user, span_warning("You can't do that while [src] is scanning!"))
-	else
-		if(istype(I, /obj/item/stack/nanopaste))
-			var/choice = tgui_alert(user, "What do you want to do with the nanopaste?","Radiometric Scanner",list("Scan nanopaste","Fix seal integrity"))
-			if(!choice)
-				return
-			if(choice == "Fix seal integrity")
-				var/obj/item/stack/nanopaste/N = I
-				var/amount_used = min(N.get_amount(), 10 - scanner_seal_integrity / 10)
-				N.use(amount_used)
-				scanner_seal_integrity = round(scanner_seal_integrity + amount_used * 10)
-				return
-		if(istype(I, /obj/item/reagent_containers/glass))
-			var/obj/item/reagent_containers/glass/G = I
-			if(!G.is_open_container())
-				return
-			var/choice = tgui_alert(user, "What do you want to do with the container?","Radiometric Scanner",list("Add coolant","Empty coolant","Scan container"))
-			if(!choice)
-				return
-			if(choice == "Add coolant")
-				var/amount_transferred = min(src.reagents.maximum_volume - src.reagents.total_volume, G.reagents.total_volume)
-				var/trans = G.reagents.trans_to_obj(src, amount_transferred)
-				to_chat(user, span_info("You empty [trans ? trans : 0]u of coolant into [src]."))
-				update_coolant()
-				return
-			else if(choice == "Empty coolant")
-				var/amount_transferred = min(G.reagents.maximum_volume - G.reagents.total_volume, src.reagents.total_volume)
-				var/trans = src.reagents.trans_to(G, amount_transferred)
-				to_chat(user, span_info("You remove [trans ? trans : 0]u of coolant from [src]."))
-				update_coolant()
-				return
-		if(scanned_item)
-			to_chat(user, span_warning("\The [src] already has \a [scanned_item] inside!"))
-			return
-		user.drop_item()
-		I.loc = src
-		scanned_item = I
-		to_chat(user, span_notice("You put \the [I] into \the [src]."))
+		return
 
-/obj/machinery/radiocarbon_spectrometer/proc/update_coolant()
-	var/total_purity = 0
-	fresh_coolant = 0
-	coolant_purity = 0
-	var/num_reagent_types = 0
-	for (var/datum/reagent/current_reagent in src.reagents.reagent_list)
-		if (!current_reagent)
-			continue
-		var/cur_purity = coolant_reagents_purity[current_reagent.id]
-		if(!cur_purity)
-			cur_purity = 0.1
-		else if(cur_purity > 1)
-			cur_purity = 1
-		total_purity += cur_purity * current_reagent.volume
-		fresh_coolant += current_reagent.volume
-		num_reagent_types += 1
-	if(total_purity && fresh_coolant)
-		coolant_purity = total_purity / fresh_coolant
+	if(istype(I, /obj/item/reagent_containers/glass))
+		var/obj/item/reagent_containers/glass/G = I
+		if(!G.is_open_container())
+			return
+		var/choice = tgui_alert(user, "What do you want to do with the container?","Radiometric Scanner",list("Add water","Empty water","Scan container"))
+		if(!choice)
+			return
+		if(choice == "Add water")
+			if(!G.reagents.has_reagent(REAGENT_ID_WATER))
+				to_chat(user, span_danger("No water found in beaker."))
+				return
+			var/trans = G.reagents.trans_id_to(src, REAGENT_ID_WATER, G.amount_per_transfer_from_this)
+			to_chat(user, span_info("You transfer [trans ? trans : 0]u of water into [src]."))
+			return
+		else if(choice == "Empty water")
+			var/amount_transferred = min(G.reagents.maximum_volume - G.reagents.total_volume, reagents.total_volume)
+			var/trans = reagents.trans_to(G, amount_transferred)
+			to_chat(user, span_info("You remove [trans ? trans : 0]u of water from [src]."))
+			return
+		// fall through
+
+	if(scanned_item)
+		to_chat(user, span_warning("[src] already has \a [scanned_item] inside!"))
+		return
+
+	if(!user.unEquip(I, target = src))
+		return
+
+	scanned_item = I
+	to_chat(user, span_notice("You put [I] into [src]."))
 
 /obj/machinery/radiocarbon_spectrometer/attack_hand(mob/user)
 	tgui_interact(user)
@@ -135,28 +100,31 @@
 	data["scanned_item"] = (scanned_item ? scanned_item.name : "")
 	data["scanned_item_desc"] = (scanned_item ? (scanned_item.desc ? scanned_item.desc : "No information on record.") : "")
 	data["last_scan_data"] = last_scan_data
-	//
-	data["scan_progress"] = round(scanner_progress)
 	data["scanning"] = scanning
-	//
-	data["scanner_seal_integrity"] = round(scanner_seal_integrity)
-	data["scanner_rpm"] = round(scanner_rpm)
-	data["scanner_temperature"] = round(scanner_temperature)
-	//
-	data["coolant_usage_rate"] = coolant_usage_rate
-	data["coolant_usage_max"] = 10
-	data["unused_coolant_abs"] = round(fresh_coolant)
-	data["unused_coolant_per"] = round(fresh_coolant / reagents.maximum_volume * 100)
-	data["coolant_purity"] = coolant_purity * 100
-	//
-	data["optimal_wavelength"] = round(optimal_wavelength)
-	data["maser_wavelength"] = round(maser_wavelength)
-	data["maser_wavelength_max"] = 10000
-	data["maser_efficiency"] = round(maser_efficiency * 100)
-	//
-	data["radiation"] = round(radiation)
-	data["t_left_radspike"] = round(t_left_radspike)
-	data["rad_shield_on"] = rad_shield
+	data["scan_progress"] = scan_progress
+
+	// Mechanics
+	data["scanner_rpm"] = scanner_rpm
+	data["scanner_rpm_delta"] = scanner_rpm_delta
+	data["radiation"] = radiation
+	data["heat"] = heat
+	data["coolant"] = reagents.total_volume
+
+	return data
+
+/obj/machinery/radiocarbon_spectrometer/tgui_static_data(mob/user)
+	var/list/data = ..()
+
+	data["IDEAL_RPM"] = IDEAL_RPM
+	data["RPM_MAX_DELTA"] = RPM_MAX_DELTA
+	data["RPM_MAX"] = RPM_MAX
+
+	data["TARGET_RADIATION"] = TARGET_RADIATION
+	data["RADIATION_MAX"] = RADIATION_MAX
+
+	data["HEAT_FAILURE_THRESHOLD"] = HEAT_FAILURE_THRESHOLD
+	data["HEAT_MAX"] = HEAT_MAX
+	data["COOLANT_MAX"] = COOLANT_MAX
 
 	return data
 
@@ -169,29 +137,12 @@
 		if("scanItem")
 			if(scanning)
 				stop_scanning()
-			else
-				if(scanned_item)
-					if(scanner_seal_integrity > 0)
-						scanner_progress = 0
-						scanning = 1
-						t_left_radspike = pick(5,10,15)
-						to_chat(ui.user, span_notice("Scan initiated."))
-					else
-						to_chat(ui.user, span_warning("Could not initiate scan, seal requires replacing."))
-				else
-					to_chat(ui.user, span_warning("Insert an item to scan."))
-			return TRUE
-
-		if("maserWavelength")
-			maser_wavelength = clamp(text2num(params["wavelength"]), 1, 10000)
-			return TRUE
-
-		if("coolantRate")
-			coolant_usage_rate = clamp(text2num(params["coolant"]), 0, 10)
-			return TRUE
-
-		if("toggle_rad_shield")
-			rad_shield = !rad_shield
+				return
+			if(!scanned_item)
+				to_chat(ui.user, span_warning("Insert an item to scan."))
+				return
+			start_scanning()
+			to_chat(ui.user, span_notice("Scan initiated."))
 			return TRUE
 
 		if("ejectItem")
@@ -200,164 +151,160 @@
 				scanned_item = null
 			return TRUE
 
+		if("set_scanner_rpm_delta")
+			scanner_rpm_delta = CLAMP(params["delta"], -RPM_MAX_DELTA, RPM_MAX_DELTA)
+			return TRUE
+
+		if("inject_radiation")
+			if(!scanning)
+				radiation = 0
+				return
+			radiation = CLAMP(radiation + RADIATION_INJECTION_AMT, 0, RADIATION_MAX)
+			return TRUE
+
 /obj/machinery/radiocarbon_spectrometer/process()
-	if(scanning)
-		if(!scanned_item || scanned_item.loc != src)
-			scanned_item = null
-			stop_scanning()
-		else if(scanner_progress >= 100)
-			complete_scan()
-		else
-			//calculate time difference
-			var/deltaT = (world.time - last_process_worldtime) * 0.1
+	if(!scanning)
+		return
 
-			//modify the RPM over time
-			//i want 1u to last for 10 sec at 500 RPM, scaling linearly
-			scanner_rpm += scanner_rpm_dir * 50 * deltaT
-			if(scanner_rpm > 1000)
-				scanner_rpm = 1000
-				scanner_rpm_dir = -1 * pick(0.5, 2.5, 5.5)
-			else if(scanner_rpm < 1)
-				scanner_rpm = 1
-				scanner_rpm_dir = 1 * pick(0.5, 2.5, 5.5)
+	if(!scanned_item || scanned_item.loc != src)
+		scanned_item = null
+		stop_scanning()
+		return
 
-			//heat up according to RPM
-			//each unit of coolant
-			scanner_temperature += scanner_rpm * deltaT * 0.05
+	if(scan_progress >= 100)
+		complete_scan()
+		return
 
-			//radiation
-			t_left_radspike -= deltaT
-			if(t_left_radspike > 0)
-				//ordinary radiation
-				radiation = rand() * 15
-			else
-				//radspike
-				if(t_left_radspike > -5)
-					radiation = rand() * 15 + 85
-					if(!rad_shield)
-						//irradiate nearby mobs
-						SSradiation.radiate(src, radiation / 25)
-				else
-					t_left_radspike = pick(10,15,25)
+	// Mechanics time
+	/************** HEAT *************/
+	if(heat > HEAT_FAILURE_THRESHOLD)
+		visible_message(span_danger("[icon2html(src, viewers(src))] buzzes unhappily. It has failed mid-scan!"), range = 2)
+		stop_scanning()
+		return
+	var/heat_gain = reagents.remove_reagent(REAGENT_ID_WATER, COOLANT_USAGE) ? -1 : HEAT_GAIN
+	heat += heat_gain
+	heat = CLAMP(heat, 0, HEAT_MAX)
 
-			//use some coolant to cool down
-			if(coolant_usage_rate > 0)
-				var/coolant_used = min(fresh_coolant, coolant_usage_rate * deltaT)
-				if(coolant_used > 0)
-					fresh_coolant -= coolant_used
-					used_coolant += coolant_used
-					scanner_temperature = max(scanner_temperature - coolant_used * coolant_purity * 20, 0)
+	/************** RPM **************/
+	// Scanner slows down over time
+	scanner_rpm -= RPM_FRICTION + rand(0, RPM_FRICTION) // randomly add more friction
+	// Motor speeds it up
+	scanner_rpm += scanner_rpm_delta
+	// Cap
+	scanner_rpm = CLAMP(scanner_rpm, RPM_MIN, RPM_MAX)
 
-			//modify the optimal wavelength
-			tleft_retarget_optimal_wavelength -= deltaT
-			if(tleft_retarget_optimal_wavelength <= 0)
-				tleft_retarget_optimal_wavelength = pick(4,8,15)
-				optimal_wavelength_target = rand() * 9900 + 100
-			//
-			if(optimal_wavelength < optimal_wavelength_target)
-				optimal_wavelength = min(optimal_wavelength + 700 * deltaT, optimal_wavelength_target)
-			else if(optimal_wavelength > optimal_wavelength_target)
-				optimal_wavelength = max(optimal_wavelength - 700 * deltaT, optimal_wavelength_target)
-			//
-			maser_efficiency = 1 - max(min(10000, abs(optimal_wavelength - maser_wavelength) * 3), 1) / 10000
+	// Factor RPM into completion
+	var/diff_from_ideal_rpm = abs(scanner_rpm - IDEAL_RPM)
+	var/rpm_factor = CLAMP01(1 - (diff_from_ideal_rpm / RPM_OKAY_RANGE))
 
-			//make some scan progress
-			if(!rad_shield)
-				scanner_progress = min(100, scanner_progress + scanner_rate * maser_efficiency * deltaT)
+	/************** RADIATION *************/
+	radiation -= RADIATION_LOSS
+	radiation = CLAMP(radiation, 0, RADIATION_MAX)
+	var/diff_from_ideal_radiation = abs(radiation - TARGET_RADIATION)
+	var/radiation_factor = CLAMP01(1 - (diff_from_ideal_radiation / RADIATION_OK_RANGE))
 
-				//degrade the seal over time according to temperature
-				//i want temperature of 50K to degrade at 1%/sec
-				scanner_seal_integrity -= (max(scanner_temperature, 1) / 1000) * deltaT
+	/************** COMPLETION *************/
+	var/completion_delta = rpm_factor + radiation_factor
+	scan_progress = CLAMP(scan_progress + (completion_delta * COMPLETION_DELTA_MODIFIER), 0, 100)
 
-			//emergency stop if seal integrity reaches 0
-			if(scanner_seal_integrity <= 0 || (scanner_temperature >= 1273 && !rad_shield))
-				stop_scanning()
-				src.visible_message(span_blue("[icon2html(src,viewers(src))] buzzes unhappily. It has failed mid-scan!"), 2)
-
-			if(prob(5))
-				src.visible_message(span_blue("[icon2html(src,viewers(src))] [pick("whirrs","chuffs","clicks")][pick(" excitedly"," energetically"," busily")]."), 2)
-	else
-		//gradually cool down over time
-		if(scanner_temperature > 0)
-			scanner_temperature = max(scanner_temperature - 5 - 10 * rand(), 0)
-		if(prob(0.75))
-			src.visible_message(span_blue("[icon2html(src,viewers(src))] [pick("plinks","hisses")][pick(" quietly"," softly"," sadly"," plaintively")]."), 2)
-			playsound(src, 'sound/effects/ding.ogg', 25)
-	last_process_worldtime = world.time
+/obj/machinery/radiocarbon_spectrometer/proc/start_scanning()
+	icon_state = "analyser_processing"
+	scanning = TRUE
+	scan_progress = 0
+	scanner_rpm_delta = 0
+	scanner_rpm = 0
+	radiation = 0
+	heat = 0
 
 /obj/machinery/radiocarbon_spectrometer/proc/stop_scanning()
-	scanning = 0
-	scanner_rpm_dir = 1
+	icon_state = "analyser"
+	scanning = FALSE
+	scan_progress = 0
+	scanner_rpm_delta = 0
 	scanner_rpm = 0
-	optimal_wavelength = 0
-	maser_efficiency = 0
-	maser_wavelength = 0
-	coolant_usage_rate = 0
 	radiation = 0
-	t_left_radspike = 0
-	if(used_coolant)
-		src.reagents.remove_any(used_coolant)
-		used_coolant = 0
+	heat = 0
 
 /obj/machinery/radiocarbon_spectrometer/proc/complete_scan()
-	src.visible_message(span_blue("[icon2html(src,viewers(src))] makes an insistent chime."), 2)
+	stop_scanning()
+	visible_message(span_notice("[icon2html(src, viewers(src))] makes an insistent chime."), range = 2)
+
+	if(!scanned_item)
+		return
 
-	if(scanned_item)
 		//create report
-		var/obj/item/paper/P = new(src)
-		P.name = "[src] report #[++report_num]: [scanned_item.name]"
-		P.stamped = list(/obj/item/stamp)
-		P.add_overlay("paper_stamped")
+	var/obj/item/paper/P = new(src)
+	P.name = "[src] report #[++report_num]: [scanned_item.name]"
+	P.stamped = list(/obj/item/stamp)
+	P.add_overlay("paper_stamped")
 
-		//work out data
-		var/data = " - Mundane object: [scanned_item.desc ? scanned_item.desc : "No information on record."]<br>"
-		var/datum/geosample/G
-		switch(scanned_item.type)
-			if(/obj/item/ore)
-				var/obj/item/ore/O = scanned_item
-				if(O.geologic_data)
-					G = O.geologic_data
+	//work out data
+	var/data = " - Mundane object: [scanned_item.desc ? scanned_item.desc : "No information on record."]<br>"
+	var/datum/geosample/G
+	switch(scanned_item.type)
+		if(/obj/item/ore)
+			var/obj/item/ore/O = scanned_item
+			if(O.geologic_data)
+				G = O.geologic_data
 
-			if(/obj/item/rocksliver)
-				var/obj/item/rocksliver/O = scanned_item
-				if(O.geological_data)
-					G = O.geological_data
+		if(/obj/item/rocksliver)
+			var/obj/item/rocksliver/O = scanned_item
+			if(O.geological_data)
+				G = O.geological_data
 
-			if(/obj/item/archaeological_find)
-				data = " - Mundane object (archaic xenos origins)<br>"
+		if(/obj/item/archaeological_find)
+			data = " - Mundane object (archaic xenos origins)<br>"
 
-				var/obj/item/archaeological_find/A = scanned_item
-				if(A.talking_atom)
-					data = " - Exhibits properties consistent with sonic reproduction and audio capture technologies.<br>"
+			var/obj/item/archaeological_find/A = scanned_item
+			if(A.talking_atom)
+				data = " - Exhibits properties consistent with sonic reproduction and audio capture technologies.<br>"
 
-		var/anom_found = 0
-		if(G)
-			data = " - Spectometric analysis on mineral sample has determined type [finds_as_strings[responsive_carriers.Find(G.source_mineral)]]<br>"
-			if(G.age_billion > 0)
-				data += " - Radiometric dating shows age of [G.age_billion].[G.age_million] billion years<br>"
-			else if(G.age_million > 0)
-				data += " - Radiometric dating shows age of [G.age_million].[G.age_thousand] million years<br>"
-			else
-				data += " - Radiometric dating shows age of [G.age_thousand * 1000 + G.age] years<br>"
-			data += " - Chromatographic analysis shows the following materials present:<br>"
-			for(var/carrier in G.find_presence)
-				if(G.find_presence[carrier])
-					var/index = responsive_carriers.Find(carrier)
-					if(index > 0 && index <= finds_as_strings.len)
-						data += "	> [100 * G.find_presence[carrier]]% [finds_as_strings[index]]<br>"
+	var/anom_found = 0
+	if(G)
+		data = " - Spectometric analysis on mineral sample has determined type [finds_as_strings[responsive_carriers.Find(G.source_mineral)]]<br>"
+		if(G.age_billion > 0)
+			data += " - Radiometric dating shows age of [G.age_billion].[G.age_million] billion years<br>"
+		else if(G.age_million > 0)
+			data += " - Radiometric dating shows age of [G.age_million].[G.age_thousand] million years<br>"
+		else
+			data += " - Radiometric dating shows age of [G.age_thousand * 1000 + G.age] years<br>"
+		data += " - Chromatographic analysis shows the following materials present:<br>"
+		for(var/carrier in G.find_presence)
+			if(G.find_presence[carrier])
+				var/index = responsive_carriers.Find(carrier)
+				if(index > 0 && index <= finds_as_strings.len)
+					data += "	> [100 * G.find_presence[carrier]]% [finds_as_strings[index]]<br>"
 
-			if(G.artifact_id && G.artifact_distance >= 0)
-				anom_found = 1
-				data += " - Hyperspectral imaging reveals exotic energy wavelength detected with ID: [G.artifact_id]<br>"
-				data += " - Fourier transform analysis on anomalous energy absorption indicates energy source located inside emission radius of [G.artifact_distance]m<br>"
+		if(G.artifact_id && G.artifact_distance >= 0)
+			anom_found = 1
+			data += " - Hyperspectral imaging reveals exotic energy wavelength detected with ID: [G.artifact_id]<br>"
+			data += " - Fourier transform analysis on anomalous energy absorption indicates energy source located inside emission radius of [G.artifact_distance]m<br>"
 
-		if(!anom_found)
-			data += " - No anomalous data<br>"
+	if(!anom_found)
+		data += " - No anomalous data<br>"
 
-		P.info = span_bold("[src] analysis report #[report_num]") + "<br>"
-		P.info += span_bold("Scanned item:") + " [scanned_item.name]<br><br>" + data
-		last_scan_data = P.info
-		P.loc = src.loc
+	P.info = span_bold("[src] analysis report #[report_num]") + "<br>"
+	P.info += span_bold("Scanned item:") + " [scanned_item.name]<br><br>" + data
+	last_scan_data = P.info
 
-		scanned_item.loc = src.loc
-		scanned_item = null
+	P.forceMove(loc)
+	scanned_item.forceMove(loc)
+	scanned_item = null
+
+#undef RPM_FRICTION
+#undef IDEAL_RPM
+#undef RPM_OKAY_RANGE
+#undef RPM_MAX_DELTA
+#undef RPM_MIN
+#undef RPM_MAX
+#undef COMPLETION_DELTA_MODIFIER
+#undef RADIATION_INJECTION_AMT
+#undef RADIATION_MAX
+#undef TARGET_RADIATION
+#undef RADIATION_OK_RANGE
+#undef RADIATION_LOSS
+#undef HEAT_GAIN
+#undef HEAT_FAILURE_THRESHOLD
+#undef HEAT_MAX
+#undef COOLANT_USAGE
+#undef COOLANT_MAX

maps/expedition_vr/aerostat/aerostat_science_outpost.dmm

@@ -13074,10 +13074,13 @@
 /obj/machinery/atmospherics/pipe/manifold/hidden/supply{
 	dir = 1
 	},
-/obj/structure/reagent_dispensers/coolanttank,
 /obj/structure/window/reinforced{
 	dir = 8
 	},
+/obj/structure/sink/kitchen{
+	pixel_x = 0;
+	pixel_y = 16
+	},
 /turf/simulated/floor/tiled/white,
 /area/offmap/aerostat/inside/xenoarch)
 "YH" = (

maps/tether/tether-07-solars.dmm

@@ -6326,7 +6326,6 @@
 /turf/simulated/floor/tiled/monotile,
 /area/rnd/outpost/anomaly_lab)
 "mp" = (
-/obj/structure/reagent_dispensers/coolanttank,
 /obj/effect/floor_decal/steeldecal/steel_decals9,
 /obj/effect/floor_decal/steeldecal/steel_decals9{
 	dir = 4
@@ -6337,6 +6336,10 @@
 /obj/effect/floor_decal/steeldecal/steel_decals9{
 	dir = 1
 	},
+/obj/structure/sink/kitchen{
+	pixel_x = 0;
+	pixel_y = 17
+	},
 /turf/simulated/floor/tiled/monotile,
 /area/rnd/outpost/anomaly_lab)
 "mq" = (

tgui/packages/tgui/interfaces/XenoarchSpectrometer.tsx

@@ -1,15 +1,18 @@
+import { useEffect, useState } from 'react';
 import { useBackend } from 'tgui/backend';
 import { Window } from 'tgui/layouts';
 import {
   Box,
   Button,
+  Icon,
+  Knob,
   LabeledList,
-  NoticeBox,
   ProgressBar,
+  RoundGauge,
   Section,
-  Slider,
   Stack,
 } from 'tgui-core/components';
+import { scale } from 'tgui-core/math';
 import type { BooleanLike } from 'tgui-core/react';
 import { decodeHtmlEntities } from 'tgui-core/string';
 
@@ -17,23 +20,25 @@ type Data = {
   scanned_item: string;
   scanned_item_desc: string;
   last_scan_data: string;
-  scan_progress: number;
   scanning: BooleanLike;
-  scanner_seal_integrity: number;
+
+  // Mechanics
+  scan_progress: number;
   scanner_rpm: number;
-  scanner_temperature: number;
-  coolant_usage_rate: number;
-  coolant_usage_max: number;
-  unused_coolant_abs: number;
-  unused_coolant_per: number;
-  coolant_purity: number;
-  optimal_wavelength: number;
-  maser_wavelength: number;
-  maser_wavelength_max: number;
-  maser_efficiency: number;
+  scanner_rpm_delta: number;
   radiation: number;
-  t_left_radspike: number;
-  rad_shield_on: BooleanLike;
+  heat: number;
+  coolant: number;
+
+  // Constants
+  IDEAL_RPM: number;
+  RPM_MAX_DELTA: number;
+  RPM_MAX: number;
+  TARGET_RADIATION: number;
+  RADIATION_MAX: number;
+  HEAT_FAILURE_THRESHOLD: number;
+  HEAT_MAX: number;
+  COOLANT_MAX: number;
 };
 
 export const XenoarchSpectrometer = (props) => {
@@ -43,27 +48,25 @@ export const XenoarchSpectrometer = (props) => {
     scanned_item,
     scanned_item_desc,
     last_scan_data,
-    scan_progress,
     scanning,
-    scanner_seal_integrity,
+    scan_progress,
     scanner_rpm,
-    scanner_temperature,
-    coolant_usage_rate,
-    coolant_usage_max,
-    unused_coolant_abs,
-    unused_coolant_per,
-    coolant_purity,
-    optimal_wavelength,
-    maser_wavelength,
-    maser_wavelength_max,
-    maser_efficiency,
+    scanner_rpm_delta,
     radiation,
-    t_left_radspike,
-    rad_shield_on,
+    heat,
+    coolant,
+    IDEAL_RPM,
+    RPM_MAX_DELTA,
+    RPM_MAX,
+    TARGET_RADIATION,
+    RADIATION_MAX,
+    HEAT_FAILURE_THRESHOLD,
+    HEAT_MAX,
+    COOLANT_MAX,
   } = data;
 
   return (
-    <Window width={900} height={760}>
+    <Window width={700} height={760}>
       <Window.Content scrollable>
         <Section
           title="Status"
@@ -97,167 +100,20 @@ export const XenoarchSpectrometer = (props) => {
             <LabeledList.Item label="Heuristic Analysis">
               {scanned_item_desc || 'None found.'}
             </LabeledList.Item>
-          </LabeledList>
-        </Section>
-        <Section title="Scanner">
-          <LabeledList>
-            <LabeledList.Item label="Scan Progress">
-              <ProgressBar
-                value={scan_progress}
-                minValue={0}
-                maxValue={100}
-                color="good"
-              />
-            </LabeledList.Item>
-            <LabeledList.Item label="Vacuum Seal Integrity">
-              <ProgressBar
-                value={scanner_seal_integrity}
-                minValue={0}
-                maxValue={100}
-                ranges={{
-                  good: [66, 100],
-                  average: [33, 66],
-                  bad: [0, 33],
-                }}
-              />
+            <LabeledList.Item label="Instructions">
+              <Box>Bring the RPM up to {IDEAL_RPM} and keep it there.</Box>
+              <Box>
+                Bring radiation to {TARGET_RADIATION} and keep it there.
+              </Box>
             </LabeledList.Item>
           </LabeledList>
         </Section>
-        <Section
-          title="MASER"
-          buttons={
-            <NoticeBox info>Match wavelengths to progress the scan.</NoticeBox>
-          }
-        >
-          <LabeledList>
-            <LabeledList.Item label="MASER Efficiency">
-              <ProgressBar
-                value={maser_efficiency}
-                minValue={0}
-                maxValue={100}
-                ranges={{
-                  good: [66, 100],
-                  average: [33, 66],
-                  bad: [0, 33],
-                }}
-              />
-            </LabeledList.Item>
-            <LabeledList.Item label="Wavelength">
-              <Slider
-                animated
-                value={maser_wavelength}
-                fillValue={optimal_wavelength}
-                minValue={1}
-                maxValue={maser_wavelength_max}
-                format={(val: number) => val + ' MHz'}
-                step={10}
-                onDrag={(e, val: number) =>
-                  act('maserWavelength', { wavelength: val })
-                }
-              />
-            </LabeledList.Item>
-          </LabeledList>
-        </Section>
-        <Section title="Environment / Internal">
-          <LabeledList>
-            <LabeledList.Item label="Centrifuge Speed">
-              <ProgressBar
-                value={scanner_rpm}
-                minValue={0}
-                maxValue={1000}
-                color="good"
-              >
-                {scanner_rpm} RPM
-              </ProgressBar>
-            </LabeledList.Item>
-            <LabeledList.Item label="Internal Temperature">
-              <ProgressBar
-                minValue={0}
-                value={scanner_temperature}
-                maxValue={1273}
-                ranges={{
-                  bad: [1000, Infinity],
-                  average: [250, 1000],
-                  good: [0, 250],
-                }}
-              >
-                {scanner_temperature} K
-              </ProgressBar>
-            </LabeledList.Item>
-          </LabeledList>
-        </Section>
-        <Section
-          title="Radiation"
-          buttons={
-            <Button
-              selected={rad_shield_on}
-              icon="radiation"
-              onClick={() => act('toggle_rad_shield')}
-            >
-              {rad_shield_on
-                ? 'Disable Radiation Shielding'
-                : 'Enable Radiation Shielding'}
-            </Button>
-          }
-        >
-          <LabeledList>
-            <LabeledList.Item label="Ambient Radiation">
-              <ProgressBar
-                minValue={0}
-                value={radiation}
-                maxValue={100}
-                ranges={{
-                  bad: [65, Infinity],
-                  average: [15, 65],
-                  good: [0, 15],
-                }}
-              >
-                {radiation} mSv
-              </ProgressBar>
-            </LabeledList.Item>
-          </LabeledList>
-        </Section>
-        <Section title="Cooling">
-          <LabeledList>
-            <LabeledList.Item label="Coolant Remaining">
-              <ProgressBar
-                minValue={0}
-                value={unused_coolant_per * 10}
-                maxValue={1000}
-                ranges={{
-                  good: [65, Infinity],
-                  average: [15, 65],
-                  bad: [0, 15],
-                }}
-              >
-                {unused_coolant_per * 10} u
-              </ProgressBar>
-            </LabeledList.Item>
-            <LabeledList.Item label="Coolant Flow Rate">
-              <Slider
-                minValue={0}
-                value={coolant_usage_rate}
-                maxValue={coolant_usage_max}
-                stepPixelSize={50}
-                format={(val: number) => val + ' u/s'}
-                onDrag={(e, val: number) =>
-                  act('coolantRate', { coolant: val })
-                }
-              />
-            </LabeledList.Item>
-            <LabeledList.Item label="Coolant Purity">
-              <ProgressBar
-                minValue={0}
-                value={coolant_purity}
-                maxValue={100}
-                ranges={{
-                  good: [66, Infinity],
-                  average: [33, 66],
-                  bad: [0, 33],
-                }}
-              />
-            </LabeledList.Item>
-          </LabeledList>
+        <Section>
+          {/* Mechanics!~ */}
+          <Stack fill>
+            <LeftPanel />
+            <RightPanel />
+          </Stack>
         </Section>
         <Section title="Latest Results">
           {decodeHtmlEntities(last_scan_data)
@@ -270,3 +126,189 @@ export const XenoarchSpectrometer = (props) => {
     </Window>
   );
 };
+
+export const Spinner = (props: {
+  value: number;
+  minValue: number;
+  maxValue: number;
+}) => {
+  const { value, minValue, maxValue } = props;
+  const factor = scale(value, minValue, maxValue);
+
+  const [rotation, setRotation] = useState(0);
+  const SPEED_MULTIPLIER = 0.3;
+  const STEP_SIZE = 2;
+
+  useEffect(() => {
+    // Only spin if there's ~some~ flow.
+    if (!factor) {
+      return;
+    }
+    const id = setInterval(() => {
+      setRotation((rot) => (rot + STEP_SIZE) % 359);
+    }, SPEED_MULTIPLIER * factor);
+    return () => clearInterval(id);
+  }, [factor]);
+
+  return (
+    <Box
+      width={4}
+      height={4}
+      mt={16}
+      mb={16}
+      style={{
+        fontSize: '4rem',
+        transform: `rotate(${rotation}deg)`,
+        transformOrigin: 'center',
+      }}
+      position="relative"
+    >
+      <Icon
+        name="vial"
+        position="absolute"
+        rotation={-45 - 180}
+        top={-4}
+        left={0}
+      />
+      <Icon name="vial" position="absolute" rotation={45} top={0} left={-4} />
+      <Icon
+        name="vial"
+        position="absolute"
+        rotation={45 - 90}
+        top={4}
+        left={0}
+      />
+      <Icon
+        name="vial"
+        position="absolute"
+        rotation={45 + 180}
+        top={0}
+        left={4}
+      />
+    </Box>
+  );
+};
+
+export const LeftPanel = (props) => {
+  const { act, data } = useBackend<Data>();
+
+  const {
+    scan_progress,
+    scanner_rpm,
+    scanner_rpm_delta,
+    RPM_MAX_DELTA,
+    RPM_MAX,
+  } = data;
+
+  return (
+    <Stack.Item grow>
+      <Stack align="center" justify="center">
+        <Stack.Item>
+          <Spinner value={scanner_rpm} minValue={0} maxValue={RPM_MAX} />
+        </Stack.Item>
+      </Stack>
+      <LabeledList>
+        <LabeledList.Item label="Completion">
+          <ProgressBar value={scan_progress} minValue={0} maxValue={100} />
+        </LabeledList.Item>
+        <LabeledList.Item
+          label="RPM"
+          buttons={
+            <Knob
+              value={scanner_rpm_delta}
+              minValue={-RPM_MAX_DELTA}
+              maxValue={RPM_MAX_DELTA}
+              step={1}
+              format={(val) => val.toFixed(2)}
+              onChange={(e, delta) => act('set_scanner_rpm_delta', { delta })}
+            />
+          }
+        >
+          <ProgressBar value={scanner_rpm} minValue={0} maxValue={RPM_MAX}>
+            {scanner_rpm}
+          </ProgressBar>
+        </LabeledList.Item>
+      </LabeledList>
+    </Stack.Item>
+  );
+};
+export const RightPanel = (props) => {
+  const { act, data } = useBackend<Data>();
+
+  const {
+    radiation,
+    heat,
+    coolant,
+    RADIATION_MAX,
+    HEAT_FAILURE_THRESHOLD,
+    HEAT_MAX,
+    COOLANT_MAX,
+  } = data;
+
+  return (
+    <Stack.Item basis={20}>
+      <Stack fill vertical align="center" justify="center">
+        <Stack.Item grow>
+          <Stack fill vertical align="center" justify="center">
+            <Stack.Item>
+              <RoundGauge
+                value={radiation}
+                minValue={0}
+                maxValue={RADIATION_MAX}
+                size={4}
+              />
+            </Stack.Item>
+            <Stack.Item>
+              <Button icon="radiation" onClick={() => act('inject_radiation')}>
+                Inject Radiation
+              </Button>
+            </Stack.Item>
+          </Stack>
+        </Stack.Item>
+        <Stack.Item>
+          <Stack align="center" justify="center">
+            <Stack.Item>
+              <Stack vertical align="center" justify="center">
+                <Stack.Item>
+                  <RoundGauge
+                    size={2}
+                    value={heat}
+                    minValue={0}
+                    maxValue={HEAT_MAX}
+                    ranges={{
+                      good: [0, HEAT_FAILURE_THRESHOLD / 2],
+                      average: [
+                        HEAT_FAILURE_THRESHOLD / 2,
+                        HEAT_FAILURE_THRESHOLD,
+                      ],
+                      bad: [HEAT_FAILURE_THRESHOLD, HEAT_MAX],
+                    }}
+                  />
+                </Stack.Item>
+                <Stack.Item>Temperature</Stack.Item>
+              </Stack>
+            </Stack.Item>
+            <Stack.Item>
+              <Stack vertical align="center" justify="center">
+                <Stack.Item>
+                  <RoundGauge
+                    size={2}
+                    value={coolant}
+                    minValue={0}
+                    maxValue={COOLANT_MAX}
+                    ranges={{
+                      bad: [0, COOLANT_MAX / 4],
+                      average: [COOLANT_MAX / 4, COOLANT_MAX / 2],
+                      good: [COOLANT_MAX / 2, COOLANT_MAX],
+                    }}
+                  />
+                </Stack.Item>
+                <Stack.Item>Coolant</Stack.Item>
+              </Stack>
+            </Stack.Item>
+          </Stack>
+        </Stack.Item>
+      </Stack>
+    </Stack.Item>
+  );
+};