<b>Step eight:</b> Put in the new, <b>full power cell</b> - if you don't have one, continue with step 15.<br>
<b>Step nine:</b> Quickly put on a <b>Radiation suit.</b><br>
<b>Step ten:</b> Check if the <b>singularity field generators</b> withstood the down-time - if they didn't, continue with step 15.<br>
<b>Step eleven:</b> Since disaster was averted you now have to ensure it doesn't repeat. If it was a powersink which caused it and if the engineering apc is wired to the same powernet, which the powersink is on, you have to remove the piece of wire which links the apc to the powernet. If it wasn't a powersink which caused it, then skip to step 14.<br>
<b>Step eleven:</b> Since disaster was averted you now have to ensure it doesn't repeat. If it was a powersink which caused it and if the engineering apc is wired to the same powernet,
which the powersink is on, you have to remove the piece of wire which links the apc to the powernet. If it wasn't a powersink which caused it, then skip to step 14.<br>
<b>Step twelve:</b> Grab your crowbar and pry away the tile closest to the APC.<br>
<b>Step thirteen:</b> Use the wirecutters to cut the wire which is conecting the grid to the terminal. <br>
<b>Step fourteen:</b> Go to the bar and tell the guys how you saved them all. Stop reading this guide here.<br>
@@ -189,7 +190,9 @@
<body>
<H3>How to Clone People</H3>
So there’s 50 dead people lying on the floor, chairs are spinning like no tomorrow and you haven’t the foggiest idea of what to do? Not to worry! This guide is intended to teach you how to clone people and how to do it right, in a simple step-by-step process! If at any point of the guide you have a mental meltdown, genetics probably isn’t for you and you should get a job-change as soon as possible before you’re sued for malpractice.
So there’s 50 dead people lying on the floor, chairs are spinning like no tomorrow and you haven’t the foggiest idea of what to do? Not to worry!
This guide is intended to teach you how to clone people and how to do it right, in a simple step-by-step process! If at any point of the guide you have a mental meltdown,
genetics probably isn’t for you and you should get a job-change as soon as possible before you’re sued for malpractice.
<ol>
<li><a href='#1'>Acquire body</a></li>
@@ -209,34 +212,48 @@
This is pretty much vital for the process because without a body, you cannot clone it. Usually, bodies will be brought to you, so you do not need to worry so much about this step. If you already have a body, great! Move on to the next step.
<a name='2'><H4>Step 2: Strip body</H4>
The cloning machine does not like abiotic items. What this means is you can’t clone anyone if they’re wearing clothes, so take all of it off. If it’s just one person, it’s courteous to put their possessions in the closet. If you have about seven people awaiting cloning, just leave the piles where they are, but don’t mix them around and for God’s sake don’t let people in to steal them.
The cloning machine does not like abiotic items. What this means is you can’t clone anyone if they’re wearing clothes, so take all of it off. If it’s just one person, it’s courteous to put their possessions in the closet.
If you have about seven people awaiting cloning, just leave the piles where they are, but don’t mix them around and for God’s sake don’t let people in to steal them.
<a name='3'><H4>Step 3: Put body in cloning machine</H4>
Grab the body and then put it inside the DNA modifier. If you cannot do this, then you messed up at Step 2. Go back and check you took EVERYTHING off - a commonly missed item is their headset.
<a name='4'><H4>Step 4: Scan body</H4>
Go onto the computer and scan the body by pressing ‘Scan - <Subject Name Here>’. If you’re successful, they will be added to the records (note that this can be done at any time, even with living people, so that they can be cloned without a body in the event that they are lying dead on port solars and didn‘t turn on their suit sensors)! If not, and it says “Error: Mental interface failure.”, then they have left their bodily confines and are one with the spirits. If this happens, just shout at them to get back in their body, click ‘Refresh‘ and try scanning them again. If there’s no success, threaten them with gibbing. Still no success? Skip over to Step 7 and don‘t continue after it, as you have an unresponsive body and it cannot be cloned. If you got “Error: Unable to locate valid genetic data.“, you are trying to clone a monkey - start over.
Go onto the computer and scan the body by pressing ‘Scan - <Subject Name Here>’. If you’re successful, they will be added to the records (note that this can be done at any time, even with living people,
so that they can be cloned without a body in the event that they are lying dead on port solars and didn‘t turn on their suit sensors)!
If not, and it says “Error: Mental interface failure.”, then they have left their bodily confines and are one with the spirits. If this happens, just shout at them to get back in their body,
click ‘Refresh‘ and try scanning them again. If there’s no success, threaten them with gibbing.
Still no success? Skip over to Step 7 and don‘t continue after it, as you have an unresponsive body and it cannot be cloned.
If you got “Error: Unable to locate valid genetic data.“, you are trying to clone a monkey - start over.
<a name='5'><H4>Step 5: Clone body</H4>
Now that the body has a record, click ’View Records’, click the subject’s name, and then click ‘Clone’ to start the cloning process. Congratulations! You’re halfway there. Remember not to ‘Eject’ the cloning pod as this will kill the developing clone and you’ll have to start the process again.
Now that the body has a record, click ’View Records’, click the subject’s name, and then click ‘Clone’ to start the cloning process. Congratulations! You’re halfway there.
Remember not to ‘Eject’ the cloning pod as this will kill the developing clone and you’ll have to start the process again.
<a name='6'><H4>Step 6: Get clean SEs for body</H4>
Cloning is a finicky and unreliable process. Whilst it will most certainly bring someone back from the dead, they can have any number of nasty disabilities given to them during the cloning process! For this reason, you need to prepare a clean, defect-free Structural Enzyme (SE) injection for when they’re done. If you’re a competent Geneticist, you will already have one ready on your working computer. If, for any reason, you do not, then eject the body from the DNA modifier (NOT THE CLONING POD) and take it next door to the Genetics research room. Put the body in one of those DNA modifiers and then go onto the console. Go into View/Edit/Transfer Buffer, find an open slot and click “SE“ to save it. Then click ‘Injector’ to get the SEs in syringe form. Put this in your pocket or something for when the body is done.
Cloning is a finicky and unreliable process. Whilst it will most certainly bring someone back from the dead, they can have any number of nasty disabilities given to them during the cloning process!
For this reason, you need to prepare a clean, defect-free Structural Enzyme (SE) injection for when they’re done. If you’re a competent Geneticist, you will already have one ready on your working computer.
If, for any reason, you do not, then eject the body from the DNA modifier (NOT THE CLONING POD) and take it next door to the Genetics research room. Put the body in one of those DNA modifiers and then go onto the console.
Go into View/Edit/Transfer Buffer, find an open slot and click “SE“ to save it. Then click ‘Injector’ to get the SEs in syringe form. Put this in your pocket or something for when the body is done.
<a name='7'><H4>Step 7: Put body in morgue</H4>
Now that the cloning process has been initiated and you have some clean Structural Enzymes, you no longer need the body! Drag it to the morgue and tell the Chef over the radio that they have some fresh meat waiting for them in there. To put a body in a morgue bed, simply open the tray, grab the body, put it on the open tray, then close the tray again. Use one of the nearby pens to label the bed “CHEF MEAT” in order to avoid confusion.
Now that the cloning process has been initiated and you have some clean Structural Enzymes, you no longer need the body! Drag it to the morgue and tell the Chef over the radio that they have some fresh meat waiting for them in there.
To put a body in a morgue bed, simply open the tray, grab the body, put it on the open tray, then close the tray again. Use one of the nearby pens to label the bed “CHEF MEAT” in order to avoid confusion.
<a name='8'><H4>Step 8: Await cloned body</H4>
Now go back to the lab and wait for your patient to be cloned. It won’t be long now, I promise.
<a name='9'><H4>Step 9: Cyo and clean clean SE injector on person</H4>
Has your body been cloned yet? Great! As soon as the guy pops out, grab them and stick them in cryo. Clonexadone and Cryoxadone help rebuild their genetic material. Then grab your cleanr SE injector and jab it in them. Once you’ve injected them, they now have clean Structural Enzymes and their defects, if any, will disappear in a short while.
Has your body been cloned yet? Great! As soon as the guy pops out, grab them and stick them in cryo. Clonexadone and Cryoxadone help rebuild their genetic material. Then grab your cleanr SE injector and jab it in them. Once you’ve injected them,
they now have clean Structural Enzymes and their defects, if any, will disappear in a short while.
<a name='10'><H4>Step 10: Give person clothes back</H4>
Obviously the person will be naked after they have been cloned. Provided you weren’t an irresponsible little shit, you should have protected their possessions from thieves and should be able to give them back to the patient. No matter how cruel you are, it’s simply against protocol to force your patients to walk outside naked.
Obviously the person will be naked after they have been cloned. Provided you weren’t an irresponsible little shit, you should have protected their possessions from thieves and should be able to give them back to the patient.
No matter how cruel you are, it’s simply against protocol to force your patients to walk outside naked.
<a name='11'><H4>Step 11: Send person on their way</H4>
Give the patient one last check-over - make sure they don’t still have any defects and that they have all their possessions. Ask them how they died, if they know, so that you can report any foul play over the radio. Once you’re done, your patient is ready to go back to work! Chances are they do not have Medbay access, so you should let them out of Genetics and the Medbay main entrance.
Give the patient one last check-over - make sure they don’t still have any defects and that they have all their possessions. Ask them how they died, if they know, so that you can report any foul play over the radio.
Once you’re done, your patient is ready to go back to work! Chances are they do not have Medbay access, so you should let them out of Genetics and the Medbay main entrance.
<p>If you’ve gotten this far, congratulations! You have mastered the art of cloning. Now, the real problem is how to resurrect yourself after that traitor had his way with you for cloning his target.
name = "APLU \"Ripley\" Construction and Operation Manual"
icon_state ="book"
author = "Weyland-Yutani Corp" // Who wrote the thing, can be changed by pen or PC. It is not automatically assigned
author = "Randall Varn, Einstein Engines Senior Mechanic" // Who wrote the thing, can be changed by pen or PC. It is not automatically assigned
title = "APLU \"Ripley\" Construction and Operation Manual"
dat = {"<html>
@@ -347,23 +364,38 @@
Those are the basic steps to furthing science. What do you do science with, however? Well, you have four major tools: R&D Console, the Destructive Analyzer, the Protolathe, and the Circuit Imprinter.
<h2>The R&D Console</h2>
The R&D console is the cornerstone of any research lab. It is the central system from which the Destructive Analyzer, Protolathe, and Circuit Imprinter (your R&D systems) are controled. More on those systems in their own sections. On its own, the R&D console acts as a database for all your technological gains and new devices you discover. So long as the R&D console remains intact, you'll retain all that SCIENCE you've discovered. Protect it though, because if it gets damaged, you'll lose your data! In addition to this important purpose, the R&D console has a disk menu that lets you transfer data from the database onto disk or from the disk into the database. It also has a settings menu that lets you re-sync with nearby R&D devices (if they've become disconnected), lock the console from the unworthy, upload the data to all other R&D consoles in the network (all R&D consoles are networked by default), connect/disconnect from the network, and purge all data from the database.
The R&D console is the cornerstone of any research lab. It is the central system from which the Destructive Analyzer, Protolathe, and Circuit Imprinter (your R&D systems) are controled. More on those systems in their own sections.
On its own, the R&D console acts as a database for all your technological gains and new devices you discover. So long as the R&D console remains intact, you'll retain all that SCIENCE you've discovered. Protect it though,
because if it gets damaged, you'll lose your data!
In addition to this important purpose, the R&D console has a disk menu that lets you transfer data from the database onto disk or from the disk into the database.
It also has a settings menu that lets you re-sync with nearby R&D devices (if they've become disconnected), lock the console from the unworthy,
upload the data to all other R&D consoles in the network (all R&D consoles are networked by default), connect/disconnect from the network, and purge all data from the database.
<b>NOTE:</b> The technology list screen, circuit imprinter, and protolathe menus are accessible by non-scientists. This is intended to allow 'public' systems for the plebians to utilize some new devices.
<h2>Destructive Analyzer</h2>
This is the source of all technology. Whenever you put a handheld object in it, it analyzes it and determines what sort of technological advancements you can discover from it. If the technology of the object is equal or higher then your current knowledge, you can destroy the object to further those sciences. Some devices (notably, some devices made from the protolathe and circuit imprinter) aren't 100% reliable when you first discover them. If these devices break down, you can put them into the Destructive Analyzer and improve their reliability rather then futher science. If their reliability is high enough ,it'll also advance their related technologies.
This is the source of all technology. Whenever you put a handheld object in it, it analyzes it and determines what sort of technological advancements you can discover from it. If the technology of the object is equal or higher then your current knowledge,
you can destroy the object to further those sciences.
Some devices (notably, some devices made from the protolathe and circuit imprinter) aren't 100% reliable when you first discover them. If these devices break down, you can put them into the Destructive Analyzer and improve their reliability rather then futher science.
If their reliability is high enough ,it'll also advance their related technologies.
<h2>Circuit Imprinter</h2>
This machine, along with the Protolathe, is used to actually produce new devices. The Circuit Imprinter takes glass and various chemicals (depends on the design) to produce new circuit boards to build new machines or computers. It can even be used to print AI modules.
<h2>Protolathe</h2>
This machine is an advanced form of the Autolathe that produce non-circuit designs. Unlike the Autolathe, it can use processed metal, glass, solid plasma, silver, gold, and diamonds along with a variety of chemicals to produce devices. The downside is that, again, not all devices you make are 100% reliable when you first discover them.
This machine is an advanced form of the Autolathe that produce non-circuit designs. Unlike the Autolathe, it can use processed metal, glass, solid plasma, silver, gold, and diamonds along with a variety of chemicals to produce devices.
The downside is that, again, not all devices you make are 100% reliable when you first discover them.
<h1>Reliability and You</h1>
As it has been stated, many devices when they're first discovered do not have a 100% reliablity when you first discover them. Instead, the reliablity of the device is dependent upon a base reliability value, whatever improvements to the design you've discovered through the Destructive Analyzer, and any advancements you've made with the device's source technologies. To be able to improve the reliability of a device, you have to use the device until it breaks beyond repair. Once that happens, you can analyze it in a Destructive Analyzer. Once the device reachs a certain minimum reliability, you'll gain tech advancements from it.
As it has been stated, many devices when they're first discovered do not have a 100% reliablity when you first discover them. Instead,
the reliablity of the device is dependent upon a base reliability value, whatever improvements to the design you've discovered through the Destructive Analyzer,
and any advancements you've made with the device's source technologies. To be able to improve the reliability of a device, you have to use the device until it breaks beyond repair. Once that happens, you can analyze it in a Destructive Analyzer.
Once the device reachs a certain minimum reliability, you'll gain tech advancements from it.
<h1>Building a Better Machine</h1>
Many machines produces from circuit boards and inserted into a machine frame require a variety of parts to construct. These are parts like capacitors, batteries, matter bins, and so forth. As your knowledge of science improves, more advanced versions are unlocked. If you use these parts when constructing something, its attributes may be improved. For example, if you use an advanced matter bin when constructing an autolathe (rather then a regular one), it'll hold more materials. Experiment around with stock parts of various qualities to see how they affect the end results! Be warned, however: Tier 3 and higher stock parts don't have 100% reliability and their low reliability may affect the reliability of the end machine.
Many machines produces from circuit boards and inserted into a machine frame require a variety of parts to construct. These are parts like capacitors, batteries, matter bins, and so forth. As your knowledge of science improves, more advanced versions are unlocked.
If you use these parts when constructing something, its attributes may be improved.
For example, if you use an advanced matter bin when constructing an autolathe (rather then a regular one), it'll hold more materials. Experiment around with stock parts of various qualities to see how they affect the end results! Be warned, however:
Tier 3 and higher stock parts don't have 100% reliability and their low reliability may affect the reliability of the end machine.
</body>
</html>
"}
@@ -796,4 +828,170 @@
<b>Disk, Code, Safety, Timer, Disk, RUN!</b><br>
Intelligence Analysts believe that normal Nanotrasen procedure is for the Captain to secure the nuclear authorisation disk.<br>
Good luck!
</html>"}
</html>"}
/obj/item/weapon/book/manual/atmospipes
name = "Pipes and You: Getting To Know Your Scary Tools"
TMost ordinary pipes are pretty straightforward. They hold gas. If gas is moving in a direction for some reason, gas will flow in that direction.
That's about it. Even so, here's all of your wonderful pipe options.<BR>
<li><I>Straight pipes:</I> They're pipes. One-meter sections. Straight line. Pretty simple. Just about every pipe and device is based around this
standard one-meter size, so most things will take up as much space as one of these.</li>
<li><I>Bent pipes:</I> Pipes with a 90 degree bend at the half-meter mark. My goodness.</li>
<li><I>Pipe manifolds:</I> Pipes that are essentially a "T" shape, allowing you to connect three things at one point.</li>
<li><I>4-way manifold:</I> A four-way junction.</li>
<li><I>Pipe cap:</I> Caps off the end of a pipe. Open ends don't actually vent air, because of the way the pipes are assembled, so, uh. Use them to decorate your house or something.</li>
<li><I>Manual Valve:</I> A valve that will block off airflow when turned. Can't be used by the AI or cyborgs, because they don't have hands.</li>
< <li><I>Manual T-Valve:</I> Like a manual valve, but at the center of a manifold instead of a straight pipe.</li><BR><BR>
This is usually where people get frightened, </font><font face="Verdana" color=black>afraid, and start calling on their gods and/or cowering in fear. Yes, I can see you doing that right now.
Stop it. It's unbecoming. Most of these are fairly straightforward.<BR>
<li><I>Gas Pump:</I> Take a wild guess. It moves gas in the direction it's pointing (marked by the red line on one end). It moves it based on pressure, the maximum output being 4500 kPa (kilopascals).
Ordinary atmospheric pressure, for comparison, is 101.3 kPa, and the minimum pressure of room-temperature pure oxygen needed to not suffocate in a matter of minutes is 16 kPa
(though 18 is preferred using internals, for various reasons).</li>
<li><I>Volume pump:</I> This pump goes based on volume, instead of pressure, and the possible maximum pressure it can create in the pipe on the recieving end is double the gas pump because of this,
clocking in at an incredible 9000 kPa. If a pipe with this is destroyed or damaged, and this pressure of gas escapes, it can be incredibly dangerous depending on the size of the pipe filled.
Don't hook this to the distribution loop, or you will make babies cry and the Chief Engineer brutally beat you.</li>
<li><I>Passive gate:</I> This is essentially a cap on the pressure of gas allowed to flow in a specific direction.
When turned on, instead of actively pumping gas, it measures the pressure flowing through it, and whatever pressure you set is the maximum: it'll cap after that.
In addition, it only lets gas flow one way. The direction the gas flows is opposite the red handle on it, which is confusing to people used to the red stripe on pumps pointing the way.</li>
<li><I>Unary vent:</I> The basic vent used in rooms. It pumps gas into the room, but can't suck it back out. Controlled by the room's air alarm system.</li>
<li><I>Scrubber:</I> The other half of room equipment. Filters air, and can suck it in entirely in what's called a "panic siphon". Actvating a panic siphon without very good reason will kill someone. Don't do it.</li>
<li><I>Meter:</I> A little box with some gagues and numbers. Fasten it to any pipe or manifold, and it'll read you the pressure in it. Very useful.</li>
<li><I>Gas mixer:</I> Two sides are input, one side is output. Mixes the gases pumped into it at the ratio defined. The side perpendicular to the other two is "node 2", for reference.
Can output this gas at pressures from 0-4500 kPa.</li>
<li><I>Gas filter:</I> Essentially the opposite of a gas mixer. One side is input. The other two sides are output. One gas type will be filtered into the perpendicular output pipe,
the rest will continue out the other side. Can also output from 0-4500 kPa.</li>
These systems are used to transfer heat only between two pipes. They will not move gases or any other element, but will equalize the temperature (eventually). Note that because of how gases work (remember: pv=nRt),
a higher temperature will raise pressure, and a lower one will lower temperature.<BR>
<li><I>Pipe:</I> This is a pipe that will exchange heat with the surrounding atmosphere. Place in fire for superheating. Place in space for supercooling.</li>
<li><I>Bent Pipe:</I> Take a wild guess.</li>
<li><I>Junction:</I><I>Junction:</I>The point where you connect your normal pipes to heat exchange pipes. Not necessary for heat exchangers, but necessary for H/E pipes/bent pipes.</li>
<li><I>Heat Exchanger:</I> These funky-looking bits attach to an open pipe end. Put another heat exchanger directly across from it, and you can transfer heat across two pipes without having to have the gases touch.
This normally shouldn't exchange with the ambient air, despite being totally exposed. Just don't ask questions...</li><BR>
That's about it for pipes. Go forth, armed with this knowledge, and try not to break, burn down, or kill anything. Please.</font>
</body>
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"}
/obj/item/weapon/book/manual/evaguide
name = "EVA Gear and You: Not Spending All Day Inside"
title = "EVA Gear and You: Not Spending All Day Inside"
dat = {"<html>
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<font face="Verdana" color=black>
<h1><a name="Contents">Contents</a></h1>
<ol>
<li><a href="#Forward">A forward on using EVA gear</a></li>
<li><a href="#Civilian">Donning a Civilian Suits</a></li>
<li><a href="#Hardsuit">Putting on a Hardsuit</a></li>
<li><a href="#Final">Final Checks</a></li>
</ol>
<br><BR>
<h1><a name="Forward">EVA Gear and You: Not Spending All Day Inside</a></h1><BR>
<I>Or: How not to suffocate because there's a hole in your shoes</I><BR><BR>
EVA gear. Wonderful to use. It's useful for mining, engineering, and occasionally just surviving, if things are that bad. Most people have EVA training,
but apparently there are some on a space station who don't. This guide should give you a basic idea of how to use this gear, safely. It's split into two sections:
<I>The bulkiest things this side of Alpha Centauri</I><BR>
These suits are the grey ones that are stored in EVA. They're the more simple to get on, but are also a lot bulkier, and provide less protection from environmental hazards such as radiaion or physical impact.
As Medical, Engineering, Security, and Mining all have hardsuits of their own, these don't see much use, but knowing how to put them on is quite useful anyways.<BR><BR>
First, take the suit. It should be in three pieces: A top, a bottom, </font><font face="Verdana" color=black>and a helmet. Put the bottom on first, shoes and the like will fit in it. If you have magnetic boots, however,
put them on on top of the suit's feet. Next, get the top on, as you would a shirt. It can be somewhat awkward putting these pieces on, due to the makeup of the suit,
but to an extent they will adjust to you. You can then find the snaps and seals around the waist, where the two pieces meet. Fasten these, and double-check their tightness.
The red indicators around the waist of the lower half will turn green when this is done correctly. Next, put on whatever breathing apparatus you're using, be it a gas mask or a breath mask. Make sure the oxygen tube is fastened into it.
Put on the helmet now, straight forward, and make sure the tube goes into the small opening specifically for internals. Again, fasten seals around the neck, a small indicator light in the inside of the helmet should go from red to off when all is fastened.
There is a small slot on the side of the suit where an emergency oxygen tank or</font><font face="Verdana" color=black> extended emergency oxygen tank will fit,
but it is reccomended to have a full-sized tank on your back for EVA.<BR><BR>
<h1><a name="Hardsuit">Hardsuits</a></h1><BR>
<I>Heavy, uncomfortable, still the best option.</I><BR>
These suits come in Engineering, Mining, and the Armory. There's also a couple Medical Hardsuits in EVA. These provide a lot more protection than the standard suits.<BR><BR>
Similarly to the other suits, these are split into three parts. Fastening the pant and top are mostly the same as the other spacesuits, with the exception that these are a bit heavier,
though not as bulky. The helmet goes on differently, with the air tube feeing into the suit and out a hole near the left shoulder, while the helmet goes on turned ninety degrees counter-clockwise,
and then is screwed in for one and a quarter full rotations clockwise, leaving the faceplate directly in front of you. There is a small button on the right side of the helmet that activates the helmet light.
The tanks that fasten onto the side slot are emergency tanks, as</font><font face="Verdana" color=black> well as full-sized oxygen tanks, leaving your back free for a backpack or satchel.<BR><BR>
<h1><a name="Final">FINAL CHECKS:</a></h1><BR>
<li>Are all seals fastened correctly?</li>
<li>Do you either have shoes on under the suit, or magnetic boots on over it?</li>
<li>Do you have a mask on and internals on the suit or your back?</li>
<li>Do you have a way to communicate with the station in case something goes wrong?</li>
<li>Do you have a second person watching if this is a training session?</li><BR>
If you don't have any further issues, go out and do whatever is necessary.</font>
desc = "A plasma-glass alloy window, with rods supporting it. It looks hopelessly tough to break. It also looks completely fireproof, considering how basic plasma windows are insanely fireproof."
desc = "It looks rather strong. Might take a few good hits to shatter it."
icon_state = "rwindow"
basestate = "rwindow"
health = 40
reinf = 1
/obj/structure/window/reinforced/tinted
name = "tinted window"
desc = "It looks rather strong and opaque. Might take a few good hits to shatter it."
icon_state = "twindow"
basestate = "twindow"
opacity = 1
/obj/structure/window/reinforced/tinted/frosted
name = "frosted window"
icon_state = "fwindow"
desc = "It looks rather strong and frosted over. Looks like it might take a few less hits then a normal reinforced window."
icon_state = "fwindow"
basestate = "fwindow"
health = 30
Reference in New Issue
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