The mechanics lab already allows mass production of fancy toys such as energy guns, vending machines, and even more dangerous things if you are in possession of a particularly traitorous piece of gear. What more could there possibly be to share wondrous and/or terrifying contraptions with the crew? Well, as it ends up, the ruckingeur kit is only the beginning of a mechanic's arsenal of gadgets, and diving deeper into its depths unveils a new dimension of supermachines. Want to set up automatic defense systems that can blast intruders to bits? How about making custom pipe systems to deliver items with more efficiency and flexibility than the mail system? Making your own intercom systems? Death traps activated with a secret spoken password? This, ladies and gentlemen, is the power of MechComp.
Contents [hide] 1 Where To Start 2 Basic Machines 2.1 More on Signals 3 Your (Metaphorical) Toolbox 3.1 Triggers 3.2 Wiring 3.3 Machines 4 Machines and Gizmos 4.1 Voice-Activated Machines 4.2 Teleport Hub 4.3 Graviton Launchers 5 Putting the “Rude” in Rude Goldberg
All the parts you need to begin your journey into the world of signals and Graviton traps can be found inside of the humble MechComp vending machine located inside of the mechanics lab. You have an effectively infinite number of supplies, (technically there's a finite number, but you'd need to be making something impossibly huge to use them all) so the only limit to the size of your machines is defined by your workspace and your patience.
There are a few terms that are frequently used both in-game and in this guide that are essential to understanding the MechComp system, so before we dive into all the fun toys you have available, it is important to review them.
Inputs are the various functions that a machine can perform, such as the printing of a paper or the changing of the color of a light. Machines that send inputs to other machines are called triggers.
Outputs are the signals that a machine sends and are consequentially accepted by other machines. Machines that receive outputs are called receivers. Note that it is possible for a machine to be both a trigger AND a receiver if there are multiple machines in a process.
To connect machines, you must first place parts in the desired locations, then use the wrench on them to bolt them to the floor and activate them. You can use the wrench again to unbolt them. Then, link parts together by clicking and dragging one part to another part (it can be anywhere within view) with your mouse while holding a multitool. You will then be asked if you want the first item (the one you clicked on and dragged to the other one) to be the trigger or the receiver. Whichever one you choose, the second machine will be given the opposite role. The trigger machine is set to activate the receiver machine when an input is given to the trigger.
Then, you will be asked ask what kind of input you want the trigger to activate. No matter if you selected the trigger first or the receiver first, it will always be in the context of the trigger machine affecting the receiver machine. The commands provided depends on what machine you have specified as the receiver. For most receivers, this will usually be “activate”, but other options are likely.
If you want to alter the options or send-signals (more on this later) of a machine, just walk over to it and right-click it with a multitool in hand to bring up a list of options.
There are two types of signals, referred to as fixed signals and send signals for the purposes of this guide. Fixed signals either aren't editable by any means or only have a predetermined selection of signal values. Notable examples include the microphone, which can only send whatever is spoken into it as a signal. Fixed signals can be altered through use of other machines, but not on their own.
Send signals, on the other hand, can be edited. When you right-click something like a button or a pressure plate, you will notice under their menus an option saying “[Set Send-Signal]”. Send Signals are signals that can be customized, and are important for various machines. For example, buttons have a default send-signal of 1; a synthesizer connected to this button would say “1” every time the button is pressed. However, altering the button's send-signal would consequentially change the message of the synthesizer. Changing the button's send-signal to “Hello!” would make the sound synthesizer say “Hello!”, for instance.
MechComp devices can be separated into three categories: Triggers, wiring, and machinery.
Machines meant to send a signal to other machines through user input. All triggers with the exception of doors cannot function as receivers and consequentially cannot be activated by other signals.
Item Image Description
Button BigRedButton.png Used to send a signal when the button is pressed. When the button is pressed, the value of the “send-signal” (by default 1) is sent on the output.
Pressure Pad PressureSensor2.png Used to send a signal when stepped on. When the pad is stepped on, the value of the “send-signal” (by default 1) is sent on the output.
Hand Scanner Component HandScannerComponent.png Used to send a signal when interacted with by a player. When clicked on with an empty hand, sends either the user's name or their hex fingerprint - determined by the “signal type” setting - to the output. Note that Hand Scanner Components are able to detect fingerprints through any kind of gloves, and always read the user's actual name regardless of the name on their ID card.
Paper Scanner Component PaperScannerComponent.png Used to send a signal when given a paper. When a paper object is dropped on it, anything written on the paper is sent to its output. By default it accepts only thermal paper and the paper object is consumed when placed in the scanner, but both of these can be altered via settings.
Microphone Component MicrophoneComponent.png Sends anything spoken verbally within range as a signal. The “send-signal” value is ignored. If “Show-source” is enabled (by default it is not) then the name of the speaker will be included in the message, separated from the text by “ : ” (colon space colon). Note that strings sent by this device are not case-sensitive for the purposes of most inputs.
Sensor Pipe Segment SensorPipe.png Connects to other pipe systems and sends a signal when anything goes through it.
Doors Airlock64.png Doors are unique in that, in addition to serving as an input for machines, you can also route inputs into doors to open/close them. It's important to note that only general-access (available to everyone) doors can be opened or closed using MechComp machinery, though any door can serve as an input regardless of access level.
Wiring used to make more complicated machines.
Item Image Description
Relay Component RelayComponent.png Simply passes on a signal. Any message sent to this component is immediately repeated on the output, letting you send signals both across long distances and to non-MechComp machines, such as doors. This also lets you effectively make one machine send multiple different inputs if routed through different relay components. If “signal changing” is switched on then instead of repeating the message, the send-signal of the Relay Component is sent to the output no matter what the input was.
AND Component ANDComponent2.png Sends a signal when 2 signals are sent to it within a set period of each other. Unique in that it requires two machines to be connected to it as triggers. Has two inputs, input 1 and input 2. If messages arrive on both inputs within a certain time of each other (set as the “time frame”), then the AND component's send-signal is sent to its output. The content of the actual messages sent to the AND component is ignored.
OR Component ORComponent.png Sends a signal when a specified signal is sent to it. Can have up to 10 trigger machines connected to it, but the OR component only activates when it receives an input matching a specific send-signal, specified by the user. It then sends that send-signal.
Toggle Component ToggleComponent.png Stores a single binary value. Has four inputs. Any message on the activate input will turn the toggle on, make the symbol on the component light up, and send the “On-signal” to the output (even if it was already off). Any message on the deactivate input will turn the toggle off, make the symbol on the component fade, and send the “Off-signal” to the output (even if the toggle was already off). Any message on the toggle input will toggle the state, sending the signal as appropriate. Any message on the output state input will send the on-signal or the off-signal as appropriate to the current state, without changing it.
Selection Component SelectionComponent.png Stores a list of items. Items can be added or removed to the list via appropriate channels or via the right-click menu. An item can be selected by sending its value as a signal on the selection channel, and then any signal on the “send selected” channel will cause that item to be sent on the output connection. Items can also be selected by moving through the list in order, or at random. Turning on “annoucements” via the right-click menu will cause the selection component to announce everything it is doing.
Delay Circut DelayComponent2.png Used to delay a signal. Has one input, delay; any message received on this input is sent by the machine to whatever it is set to trigger after a certain amount of time has passed which can be set on the device. The send-signal of the Delay Circuit seems to be ignored. The delay time is measured in tenths of a second, and cannot go under one second.
Signal Check Component SignalCheckComponent.png Checks if an input signal matches a particular string, and if it does, sends another signal on. The signal sent on can either be a copy of the original string or a different signal.
Signal Builder Component SignalBuilderComponent.png Builds a message, typically a machine signal with key-value pairs, by appending send strings together with configurable start and end strings.
RegEx Find Component RegExFindComponent.png Behaves like the Signal Check component, but instead of matching raw strings, it matches regular expressions in the RegEx language. RegEx is its own separate language that you can learn more about on external sites.
RegEx Replace Component RegExReplaceComponent.png Behaves like the Signal Check component, but instead of matching raw strings, it matches regular expressions and then forwards a message modified using the regular expression replacement syntax. RegEx is its own separate language that you can learn more about on external sites.
These are the devices that have physical outputs. In other words, these are the machines that actually do things as opposed to merely sending signals to other components.
Item Image Description Graviton Accelerator GravitonAccelerator2.png The Holy Grail of MechComp. Has one input, and when received, the Gravitron will activate, flinging anything on its tile in the chosen direction at high velocities.
Sound Synthesizer SoundSynthesizerComponent.png Used to produce sound. Has one input, input; any send-signal sent to this by another machine will be spoken. Oddly, it behaves as if it has an output, but this is never used.
Wifi Component WifiComponent.png Sends or receives messages on a radio channel of your choice. By default it recieves only PDA messages and filters the routing information out of them, but this can be modified. Note that, as with real wifi, you need to be in mutual range of the target you want to communicate with (in other words, even if you only want to send, you must be in receiving range. It's the underlying protocol or something)
Wifi Signal Splitter Component WifiSignalSplitterComponent.png Decomposes machine signals sent in key1=value1&key2=value2&key3=value3&.. format. Set the trigger field to the part you want to extract, and the text of that value (only) will be sent on the output connection.
Thermal Printer Component ThermalPrinterComponent.png Has one input, print. Whenever a message is sent to this input the content of the message is printed out on a sheet of paper. The name of the paper object can be set as an option. This seems to behave as if it has an output and a send-signal, but neither appear to be used.
Payment Component PaymentComponent.png Accepts an amount of money, configurable as the “price”. Only cash is accepted, not ID card payments. If the required money is given then the send-signal is sent on the output and the thanks-string is spoken as sound. If more than the specified amount of money is given, then the extra is returned, and “Here is your change!” is spoken instead of the thanks-string (no matter what the thanks-string is). Right clicking on the component and choosing “eject money” will ask for a code, and if this is correctly entered then all money taken by the unit is ejected. The code can be set as an option. There is an eject money input but it seems to be ignored; sending the code or anything else as a message does nothing.
LED Component LEDComponent.png Used to produce a variety of wonderful colors. Has four inputs, toggle, activate, deactivate, and set rgb. Toggle, Activate, and Deactivate will have the appropriate effect on the LED when any message is sent. Set RGB allows the color of the light to be configured, when a hex color code (eg. #99ffbb) is sent. Behaves as if it has an output, but never sends any.
Gun Components GunComponent3.png ChargeableGunComponent2.png Upon receiving an input, these components fire a projectile in the given direction. These machines are not guns in and of themselves; you must insert the firearm of your choosing into the component in order for the machine to function. There are two varieties: The default gun component only accepts ballistic guns, whereas chargeable gun components accept energy-based firearms.
Teleport Component TeleportComponent.png When activated, moves anything standing on it to the teleporter with the same ID.
Control Unit ProgrammableControlUnit.png Can be programmed in a simple assembly language to transform inputs to outputs. Unfortunately, it only works with one-digit binary numbers. This is also the only mechanic component which can't be picked up - it must be pulled around.
Powernet-networking Component Powernet-networkingComponent.png When connected to the wired DWAINE network, this component can take incoming commands as inputs and send commands as outputs. For a guide on how to work the operating system, refer to the wiki article on the subject.
Flusher Component FlusherComponent.png When placed on top of a disposal pipe trunk segment and activated, anything on top of this component is sent through the connecting pipe system. Build your own disposal system!
Controlled Pipe Junction ControlledPipeJunction.png When an input is received, the direction that incoming objects will be sent in switches between the two paths.
Instrument Player Has one input, play, which when received will play the instrument inserted inside this component.
Trip Laser Has one input, toggle, which when received will toggle the laser on and off. When the laser's beam is obstructed, the send-signal is sent on the output.
Arithmetic Component Used to do arithmetic. Has three inputs, Set A, Set B, and Evaluate. Set A and Set B take only numbers, and along with Evaluate, will have the appropriate effect on the component when a message is sent. The values of A and B, and also the math mode can be set as options.
So what can you do with all of this stuff? Well, the possible applications of MechComp are limited only by what you have available and what you can think of, but here are some basic mechanisms to get you started:
You'll need a Microphone Component, a Signal Checker Component, and the output of your choice. Choose a specific codeword that you'll use to activate the machine, such as “Alakazam!” Then, configure the Signal Checker Component so it only accepts that precise signal. Connect the Microphone Component to your Signal Checker, then connect the Signal Checker to your device, and whenever the word is spoken, whatever machine you have connected will activate.
A popular installation by station mechanics, this involves placing multiple teleport pads in the same area, such as the Market, and placing other teleport pads in various spots around the station, such as the Bar, Medbay, and so on. Match the IDs of the pads at your hub to the IDs of the pads at the target destination, give each teleport pad a simple activation device such as a button or a pressure plate, and voila! Fast and easy transportation.
The simple combination of a pressure plate and a Graviton Accelerator on the same tile is almost ubiquitous in the world of MechComp, and can be added onto or chained from one another to provide all sorts of zany shenanigans.
If you're fortunate enough to be a traitor with access to MechComp, you have access to one of the most wide-reaching methods of instigating mass murder, rivaling the likes of Chemistry and Toxins in potential. Gun components can be used in conjunction with a wide assortment of firearms, including your own special gear, to remotely blast crew members, Graviton Accelerators can catch people unawares and launch them into deathtraps, teleport pads can teleport people away as well as teleporting things like bombs and dangerous critters, the list goes on and on. If you are a traitor working in mechanics, it is also extremely worthwhile to consider buying the cloaking field generator when using MechComp for traitorous purposes, as it renders all of your nearby machinery completely invisible to most crew members. Get creative, the possibilities are just about endless!