Difference between revisions of "Tutorial:Making a planet"
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==Done!== | ==Done!== | ||
At the moment, coding in Kopernicus is not completed, due to the enormity of the subject. It will be done soon. | At the moment, coding in Kopernicus is not completed, due to the enormity of the subject. It will be done soon. | ||
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Revision as of 18:36, 16 April 2018
It was never very easy to create planets in KSP - it often required decompiling, which is against the EULA. After a long time looking, a mod called Kopernicus was released and found, making it easy to make planets.
Contents
Specifications
- Length: 15-30 minutes
- Difficulty: Medium
- For version: 1.0.x
Steps
1. Obtaining the prequisites
You will need:
- A text editor
- An image editor
- Kopernicus 0.1
Many developers prefer text editors like Notepad++, a rather advanced program. Image editors usually are advanced, but even Paint would work. You can find Kopernicus here. Updated forum information can be found here.
2. Setting up the basic file
Create a file, and name it: PLANET.cfg Change PLANET to your planet or moon's name. Inside the file, write this in:
@Kopernicus:AFTER[Kopernicus] { Body { } }
This declares that the file is a Kopernicus configuration file and a celestial body.
3. Adding the essential modules
Kopernicus configs are broken up into different segments described as in this tutorial as modules. An @ symbol before a module overrides the existing module - allowing for Kerbin to turn orange or something. It is unknown whether children of modules are affected by the parent's overriding.
The 2 required modules are Properties
and Orbit
. They require several parameters, listed here:
Properties { description = in game description radius = half of the diameter of the planet - used to define size of sphere with texture geeASL = planet's gravity in Kerbin gravities rotationPeriod = day in seconds rotates = whether it rotates | true or false tidallyLocked = is one side of the planet locked towards it's parent | true or false initialRotation = distance in degrees from the rotation point of origin isHomeWorld = is the space centre on this planet | true or false timewarpAltitudeLevels = set the altitude for 1, 5, 10, 50, 100, 1,000, 10,000 and 100,000x timewarps | example for allowing every level at sea level: 0 0 0 0 0 0 0 0 ScienceValues { landedDataValue = multiplier for science points provided by surface samples or ground EVA reports spashedDataValue = same as ^, but for oceans flyingLowDataValue = same as ^, but for EVA and crew reports whilst flying below the flyingAltitudeThreshold flyingHighDataValue = same as ^, but for flying above the flyingAltitudeThreshold but below the spaceAltitudeThreshold inSpaceLowDataValue = same as ^, but for flying just above the spaceAltitudeThreshold inSpaceHighDataValue = same as ^, but for flying high above the spaceAltitudeThreshold recoverValue = multiplier for all science transmitted back flyingAltitudeThreshold = < in metres from sea level spaceAltitudeThreshold = < in metres from sea levels } } Orbit { referenceBody = body the planet is orbiting, Kerbol is Sun inclination = distance at ascending node from horizontal in degrees, relative to the parent's equator eccentricity = unknown, likely the eccentricity of an ellipse (as KSP uses conics for orbits) semiMajorAxis = average of pe and ap: pe + ap / 2 = this longitudeOfAscendingNode = set to 0 to be safe; angle from reference plane to ascending node argumentOfPeriapsis = set to 0 to be safe; angle from ascending node to periapsis meanAnomalyAtEpoch = set to 0 to be safe; angular distance from pericenter which body would have if in a circular orbit with constant speed and same orbital period as actual object epoch = keep at 0; used to define specific epoch of the orbit color = use rgb, but change values to 1/255*value }
4. Choosing what to do
Use the code bible below to help you find what you want to do.
Code bible
Contents:
- Atmospheres
- Adding an atmosphere
- Adding an atmosphere effect NOT DONE
Adding an atmosphere
Add into the Body
module and edit as necessary:
Atmosphere { lightColor = tint of the light, in r,g,b format. enabled = true | you want one don't you? containsOxygen = true/false on oxygen in atmosphere altitude = height from sea level in metres PressureCurve { key = use altitude pressure format | simple example of Kerbin: key = 70000 0 key = 0 1 } TemperatureCurve { key = use altitude temperature-in-celcius forumat | simple example of Kerbin: key = 70000 -270 key = 0 18 } }
Done!
At the moment, coding in Kopernicus is not completed, due to the enormity of the subject. It will be done soon.