Physics cannister: Difference between revisions
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In code, it is represented by the
Note: The model should have a
The thrust will be simulated along the X axis. Visualized as the red line of the attachment in HLMV.
Gatelych83 (talk | contribs) No edit summary |
(added info of how the attachment point has to be set up.) |
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== Keyvalues == | == Keyvalues == | ||
{{KV|World model|studio|The canister model.}} | {{KV|World model|studio|The canister model.}} | ||
{{Note| The model should have a <code>nozzle</code> attachment point, which is where gas will escape and thrust will be produced from.}} | {{Note| The model should have a <code>nozzle</code> attachment point, which is where gas will escape and thrust will be produced from.<br> | ||
The thrust will be simulated along the X axis. Visualized as the red line of the attachment in HLMV.}} | |||
{{KV|Explosion Damage|string|The amount of damage done by the explosion created when the cannister blows up.}} | {{KV|Explosion Damage|string|The amount of damage done by the explosion created when the cannister blows up.}} | ||
{{KV|Explosion Radius|string|The radius of the explosion to create when the cannister blows up.}} | {{KV|Explosion Radius|string|The radius of the explosion to create when the cannister blows up.}} | ||
Revision as of 17:41, 15 May 2022
Template:Base point It is a physically simulated gas cannister that can have its cap shot off, at which point gas will start escaping and cause the cannister to fly around. If it takes enough damage, it will explode.
In code, it is represented by theCPhysicsCannisterclass, defined in thephysics_cannister.cppfile.
Keyvalues
- World model ([todo internal name (i)]) <model path>
- The canister model.
Note: The model should have a nozzle attachment point, which is where gas will escape and thrust will be produced from.The thrust will be simulated along the X axis. Visualized as the red line of the attachment in HLMV.
- Explosion Damage ([todo internal name (i)]) <string>
- The amount of damage done by the explosion created when the cannister blows up.
- Explosion Radius ([todo internal name (i)]) <string>
- The radius of the explosion to create when the cannister blows up.
- Health ([todo internal name (i)]) <integer>
- The amount of damage the cannister takes before exploding.
- Thrust ([todo internal name (i)]) <string>
- When the cap has been blown off, and the escaping gas is thrusting the cannister about, this is the amount of thrust generated.
- Fuel Seconds ([todo internal name (i)]) <string>
- The amount of time that gas leaks from the cannister before being considered empty.
- Thruster Sound ([todo internal name (i)]) <sound>
- The sound played when the gas is escaping from the cannister.
- Name (targetname) <string>[ Edit ]
- The name that other entities refer to this entity by, via Inputs/Outputs or other keyvalues (e.g.
parentnameortarget).
Also displayed in Hammer's 2D views and Entity Report.See also: Generic Keyvalues, Inputs and Outputs available to all entities
- Pitch Yaw Roll (Y Z X) (angles) <QAngle>
- This entity's orientation in the world. Pitch is rotation around the Y axis, yaw is the rotation around the Z axis, roll is the rotation around the X axis.
Flags
- 1 : Start Asleep
- 2 : Explodes
Inputs
- Activate <string>
- Start gas escaping from the cannister.
- Deactivate <string>
- Stop gas escaping from the cannister.
- Explode <string>
- Force the cannister to explode.
- Wake
- Wakes up the cannister, if it is sleeping.
Outputs
- OnActivate
- Fired when gas starts to escape from the cannister.
- OnAwakened
- Fired when this entity becomes awake (collision/force is applied).