Planetinfo.plist

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Revision as of 10:34, 4 March 2012 by Eric Walch (talk | contribs) (Removed all references to testversions. Replaced xml examples by open step code.)

planetinfo.plist in 'AddOns/Config' contains a dictionary for each of systems for which you wish to set custom data. A list of all galaxies and planets can be found here.

Universal settings

Some options can be applied to the entire universe, such as ambient lighting levels, eg.

"universal" =
{
...
}

Universal options can be overriden by specifying the same option for a specific system or location in interstellar space. Obviously, not all options make sense to apply to the whole universe.

System settings

Each system is keyed by a string consisting of the galaxy number (0..7) followed by a space and then the planet number (0..255), eg.

"0 7" =
{
...
}

specifies system 7, in galaxy 0, Lave.

Interstellar settings

You can also specify a position in interstellar space, eg.

"interstellar: 0 7 129" =
{
...
}

specifies the space in galaxy 0 between systems 7 and 129, Lave and Zaonce.

Conditions for interstellar space in general can be set with the “interstellar space” key.

Each of the following properties can be set (but, notably, not the location of the main planet, which is hard coded into the system seed value):

Content of the dictionaries

Government

0: Anarchy

1: Feudal

2: Multi-Governmental

3: Dictatorship

4: Communist

5: Confederacy

6: Democracy

7: Corporate State


Economy

0: Rich Industrial

1: Average Industrial

2: Poor Industrial

3: Mainly Industrial

4: Mainly Agricultural

5: Rich Agricultural

6: Average Agricultural

7: Poor Agricultural


Tech Level

An integer between 0 and 13 indicating the sophistication of the planets technology.


Example:

"techlevel" = "13";


Population

An integer between 0 and 67 indicating the amount of inhabitants of a planet.


Example:

"population" = "23";


Productivity

An integer indicating the productivity of a planet.


Example:

"productivity" = "1000";


Radius

An integer between 3000 and 7000 indicating the radius of a planet.


Example:

"radius" = "5500";


Name

The name of the planet.


Example:

"name" = "The planet's name";

Warning: This name is only used at the "Short Range Chart" (F6) and the "Data Screen" (F7). On the "Long Range Screen" you still will see the old name. And also %I and %H will refer to the original name. e.g the docking computer and all kind of other stuff uses these codes with original names..

Inhabitant

The name for one of the inhabitants of the main planet.


Example:

"inhabitant" = "Green Platypus";

Inhabitants

The name of the inhabitants of the main planet.


Example:

"inhabitants" = "Green Platypi";

Description

A short description of the planet.


Example:

"description" = "Really, anything you want to say about the place!";


Ambient lighting

Sets how much ambient light (shed by stars and nebulae) illuminates the dark side of objects like planets and ships. Values should typically be between 0.0 and 1.0 (1.0 is the default) but can be higher for a flat lit, cartoon-like effect.

Example:

"ambient_level" = "0.0";


Atmosphere rotational velocity

Sets how fast the atmosphere is rotating. (A random value between 0.0 to 0.03 is the default).

Example:

"atmosphere_rotational_velocity" = "0.1";


Corona Flare

Sets the overall size of the corona in proportion to its sun.

A number from 0.0 (invisibly small) to 1.0 (huge)

Example:

"corona_flare" = "0.075";
N.B.

This feature is disabled by setting Reduced Detail:On in the game setting menu. Enabled by default (Reduced Detail:Off).

Corona Hues

Specifies whether the corona should have visible bands of colours within the corona.

A number from 0.0 (monochromatic) to 1.0 (vivid alternating colours).

Example:

"corona_hues" = "0.6";
N.B.

This feature is disabled by setting Reduced Detail:On in the game setting menu. Enabled by default (Reduced Detail:Off).

Corona Shimmer

Specifies how quickly the corona colours change.

A number from 0.0 (very slow) to 1.0 (very fast).

Example:

"corona_shimmer" = "0.4";
N.B.

This feature is disabled by setting Reduced Detail:On in the game setting menu. Enabled by default (Reduced Detail:Off).

Land HSB Color

Example:

"land_hsb_color" = "0.0..1.0 0.0..1.0 0.0..1.0";


Percent Land

The percentage of the planet occupied by land.

Example:

"percent_land" = "0..100";

Market

The market to be used in this system as the default market. It points to a key in commodities.plist

Example:

"market" = "rockhermit";

Will use the rockhermit market as default for for all stations in the system. When no market is defined a key in commodities.plist is used that matches the role of the main station. Than that is not defined, the default market is used in this system.

Nebula Count Multiplier

This is used for defining the number of nebulas. Default is 1.0. Number can be greater or less than default and is also randomised a bit.

Example:

"nebula_count_multiplier" = "1.5";

Script Actions

Script_actions work exactly as in shipData.plist, and get activated by the player entering the specified system, or interstellar space.

Example

"script_actions" =
(
    "addShipsAtPrecisely: my_ship 2 wpm 0 0 15000"
)

Sea HSB Color

Example:

"sea_hsb_color" = "0.0..1.0 0.0..1.0 0.0..1.0";


Sky Blur Alpha

Default 0.1

Example:

"sky_blur_alpha" = "0.0 .. 1.0";


Sky Blur Cluster Chance

This is used for creating nebulae (typically 0.80)

Example:

"sky_blur_cluster_chance" = "0.85";

Sky Blur Scale

Default 10. Larger numbers generate bigger nebula, but slow down the game considerable on slower machines.

Example:

"sky_blur_scale" = "0.0 .. 128.0 or more";

Sky N Blurs

This is used for defining the number of nebulas (typical is 80, maximum is 1280). This key overrides a "nebula_count_multiplier" definition.

Example:

"sky_n_blurs" = "800";

Sky N Stars

This is used for defining the number of stars (typical = 600, maximum is 4800). This key overrides a "star_count_multiplier" definition.

Example:

"sky_n_stars" = "1200";

Sky RGB Colors

These are rgb values (from 0.0 to 1.0) for the two colours between which the colour of the stars (and nebulaesque blurs) vary, ordered r1 g1 b1 r2 g2 b2 where (r1 g1 b1) defines the first colour and (r2 g2 b2) the second.
(Default values are "0.0 1.0 0.5 0.0 1.0 0.0")

Example:

"sky_rgb_colors" = "0.0..1.0 0.0..1.0 0.0..1.0 0.0..1.0 0.0..1.0 0.0..1.0";

Alternatively, two colour specifiers may be used:

"sky_color_1" = "redColor";
"sky_color_2" =
{
    "hue" = "60";
    "brightness" = "0.8";
}


Star Count Multiplier

This is used for defining the number of stars. Default is 1.0. Number can be greater or less than default and is also randomised a bit.

Example:

"star_count_multiplier" = "0.5";

Station

The type of station orbiting the planet.

Example:

"station" = "coriolis..dodec..special";


Station Roll

The speed at which the station rotates (as with all rotational velocities this is in radians per second) and affects all rotating stations in a system. For a specific station you can use the key station_roll in shipdata.plist.

Example:

"station_roll" = "0.5";

stations_require_docking_clearance

Specifies if a player has to explicit ask docking permission. See also Oolite Docking Clearance

Sun Color

Sets the colour of a system's sun.

Can be any colour specifier or named colour. The specified colour is blended with 50% white so it will never be a saturated colour. Dark colours will be brightened by this blending.

"sun_color" = "blueColor";

Sun Distance Modifier

Sets the approximate distance between a system sun and its main planet. The standard distance is 20 planetary radii. Setting it much lower (10, or even less) will cause delays when generating systems, as Oolite compensates for possible collisions between the sun and other system objects.

Example

"sun_distance_modifier" = "15.0";

Sun Gone Nova

Sets a nova sun in the system.

"sun_gone_nova" = "YES";

Sun Radius

Sets the radius of a system's sun.

"sun_radius" = "100000";

Texture

The replacement texture to be used by a system's main planet.

For textures you can use lat-long maps (twice as wide as high) with a special elongation at the poles or cube maps. Other maps also will be wraped around planets but give always distortions.
Since Oolite 1.74 you can also use cube maps for planets. Cube maps are 6 times higher as wide and will be recognised automatic by Oolite, based on its dimensions. Cube maps are the preferred method because lat-long give some distortion and have the poles improperly placed in Oolites implementation. See also Planettool for conversion from lat-long into cube maps.

Example:

"texture" =  "newPlanetTexture.png";
N.B.

This feature is disabled by setting Detailed Planets:Off in the game setting menu. Enabled by default (Detailed Planets:On).

Texture HSB Color

This changes the overall hue of the replacement texture.

Example:

"texture_hsb_color" =  "0.0..1.0 0.0..1.0 0.0..1.0";

Terraforming Example

For the planet Lave, you would use the key '0 7' (planet 7 in galaxy 0) Then you set the values. The following example sets Lave's sea to blue, land to green, and land to sea ratio to 75%.

Code:

{ 
   "0 7" = 
   { 
      "percent_land" = "75";
      "land_hsb_color" = "0.333 1.0 1.0";
      "sea_hsb_color" =  "0.667 1.0 1.0";
   } 
} 

Then you can override any of the settings listed above, for example to change Zaatxe's (Galaxy 0 Planet 8) inhabitants into blue frogs you'd enter

Code:

    "0 8" =  
   { 
        "inhabitants" = "Blue Frogs";
   } 


You can use any or all of the keys in each of the entries. It's probably best to only use the key's you want to change. So, another example, to change the sky_blur_xxx settings for Zaonce (Galaxy 0 Planet 129) to big, heavily clustered, but pale blurs - you'd enter

Code:

    "0 129" = 
   { 
        "sky_blur_cluster_chance" =  "0.9";
        "sky_blur_alpha" = "0.1";
        "sky_blur_scale" = "32.0";
   }

Custom Planet settings

Finally you can also add keys for your own custom planets and moons, eg.

"LavesPurpleMoon" =
{
...
}

The contents of the { could be: Orientation of the planet in space (seems not to be working correct)

"orientation" = "0.0 1.0 0.0 0.0";

Position of the planet in space. You can use 3 or 4 parameters. With only 3 parameters the internal absolute coordinates are used.

"position" = "0 -50000 0";

or

"position" = "pwm 0 -50000 0";

Radius of the planet in km. e.g. a value of 500 is drawn with a radius of 5000 meters but in player dialogues this value is presented as 500 km.

"radius" = "500";

Rotation of the planet in rotations per second.

"rotational_velocity" = "1";

The name of the texture file that is used to wrap around the surface.

"texture" = "grid.png";

Seed value used to set planet surface parameters. When no seed is defined it uses random values.

"seed" = "1 2 3 4 5 6";

A lot of the keys for the main planet, like: percent_land, can also used in custom planets.

galactic_hyperspace_behaviour

The key galactic_hyperspace_behaviour controls where the player will arrive after a G.H. has been executed. There are three possible types of G.H. behavior and are as follows:

1) Oolite standard. This is what we have up to this moment. Executing a G.H. jump will poisition the player in the next galaxy, to the closest non-isolated system with regards to their current galaxy coordinates. So, for example, if you jump from coordinates (100, 50) in galaxy 1 you will arrive in galaxy 2 at the same coordinates, unless these coordinates refer to an unreachable system, in which case the arrival point will be adjusted by the engine to maybe something like (102, 51). This is set as default behavior. It is set by assigning the string BEHAVIOUR_STANDARD to the galactic_hyperspace_behaviour key.

2) All systems reachable. Same as above, only this time we do not check for arrival at an isolated system. Using this method, systems like Oresrati in G8, the lower left hand cluster of systems in G7, the two islands of isolated systems in G6 etc. are now possible arrival points. If you land there, you may not be able to exit again, depending on the tech levels of the systems you get to. Mission scripters may want to use this. This behaviour is set by assigning the string BEHAVIOUR_ALL_SYSTEMS_REACHABLE to galactic_hyperspace_behaviour key in planetinfo.plist.

3) Fixed coordinates arrival point. This will make Oolite simulate some older 8-bit versions, that were putting the player in the same fixed point every time a galactic jump was performed, but there is also good potential for scripting (see below). This is set by assigning the string BEHAVIOUR_FIXED_COORDINATES to the galactic_hyperspace_behaviour key. If this method is chosen, then the engine will look in planetinfo.plist for a key named galactic_hyperspace_fixed_coords, from which it will read the actual coordinates that will be used as arrival point in the next galaxy. If none is found, then coordinates (96,96) will be used.