scriptcraft/docs/api.md

Drone Module

The Drone is a convenience class for building. It can be used for...

1. Building
2. Copying and Pasting

It uses a fluent interface which means all of the Drone's methods return this and can be chained together like so...

var theDrone = new Drone();
theDrone.up().left().box(blocks.oak).down().fwd(3).cylinder0(blocks.lava,8); 

TLDNR; (Just read this if you're impatient)

At the in-game command prompt type...

/js box(blocks.oak)  

... creates a single wooden block at the cross-hairs or player location

/js box(5).right(2).box('35:15',4,9,1)

... creates a single wooden block and a 2001 black obelisk that is 4 wide x 9 tall x 1 long in size. If you want to see what else ScriptCraft's Drone can do, read on...

Constructing a Drone Object

Drones can be created in 3 ways...

1. Calling any one of the methods listed below will return a Drone object. For example...

   var d = box(blocks.oak)
   

... creates a 1x1x1 wooden block at the cross-hairs or player's location and returns a Drone object. This might look odd (if you're familiar with Java's Object-dot-method syntax) but all of the Drone class's methods are also global functions that return new Drone objects. This is short-hand for creating drones and is useful for playing around with Drones at the in-game command prompt. It's shorter than typing ...

    var d = new Drone().box(5) 

... All of the Drone's methods return this (self) so you can chain operations together like this...

    var d = box(5).up().box(5,3,1,3).down().fwd(2).box(5).turn().fwd(2).box(5).turn().fwd(2).box(5)

2. Using the following form...

   d = new Drone()
   

   ...will create a new Drone. If the cross-hairs are pointing at a block at the time then, that block's location becomes the drone's starting point. If the cross-hairs are not pointing at a block, then the drone's starting location will be 2 blocks directly in front of the player. TIP: Building always happens right and front of the drone's position...

   Plan View:

   ^
   |
   |
   D---->
   

   For convenience you can use a corner stone to begin building. The corner stone should be located just above ground level. If the cross-hair is point at or into ground level when you create a new Drone(), then building begins at that point. You can get around this by pointing at a 'corner stone' just above ground level or alternatively use the following statement...

   d = new Drone().up()
   

   ... which will move the drone up one block as soon as it's created.

   

3. Or by using the following form...

   d = new Drone(x,y,z,direction)
   

   This will create a new Drone at the location you specified using x, y, z In minecraft, the X axis runs west to east and the Z axis runs north to south. The direction parameter says what direction you want the drone to face: 0 = east, 1 = south, 2 = west, 3 = north. If the direction parameter is omitted, the player's direction is used instead.

Parameters

• x (optional) : The x coordinate of the Drone
• y (optional) : The y coordinate of the Drone
• z (optional) : The z coordinate of the Drone
• direction (optional) : The direction in which the Drone is facing. Possible values are 0 (east), 1 (south), 2 (west) or 3 (north)

Drone.box() method

the box() method is a convenience method for building things. (For the more performance-oriented method - see cuboid)

parameters

• b - the block id - e.g. 6 for an oak sapling or '6:2' for a birch sapling. Alternatively you can use any one of the blocks values e.g. blocks.sapling.birch
• w (optional - default 1) - the width of the structure
• h (optional - default 1) - the height of the structure
• d (optional - default 1) - the depth of the structure - NB this is not how deep underground the structure lies - this is how far away (depth of field) from the drone the structure will extend.

Example

To create a black structure 4 blocks wide, 9 blocks tall and 1 block long...

drone.box(blocks.black, 4, 9, 1);

Drone Movement

Drones can move freely in minecraft's 3-D world. You control the Drone's movement using any of the following methods..

• up()
• down()
• left()
• right()
• fwd()
• back()
• turn()

... Each of these methods takes a single optional parameter numBlocks - the number of blocks to move in the given direction. If no parameter is given, the default is 1.

to change direction use the turn() method which also takes a single optional parameter (numTurns) - the number of 90 degree turns to make. Turns are always clock-wise. If the drone is facing north, then drone.turn() will make the turn face east. If the drone is facing east then drone.turn(2) will make the drone turn twice so that it is facing west.

Drone Markers

Markers are useful when your Drone has to do a lot of work. You can set a check-point and return to the check-point using the move() method. If your drone is about to undertake a lot of work - e.g. building a road, skyscraper or forest you should set a check-point before doing so if you want your drone to return to its current location.

A 'start' checkpoint is automatically created when the Drone is first created.

Markers are created and returned to using the followng two methods...

• chkpt - Saves the drone's current location so it can be returned to later.
• move - moves the drone to a saved location.

Parameters

• name - the name of the checkpoint to save or return to.

Example

drone.chkpt('town-square');
//
// the drone can now go off on a long excursion
//
for (i = 0; i< 100; i++){ 
    drone.fwd(12).box(6); 
}
//
// return to the point before the excursion
//
drone.move('town-square');

Drone.box0() method

Another convenience method - this one creates 4 walls with no floor or ceiling.

Parameters

• block - the block id - e.g. 6 for an oak sapling or '6:2' for a birch sapling. Alternatively you can use any one of the blocks values e.g. blocks.sapling.birch
• width (optional - default 1) - the width of the structure
• height (optional - default 1) - the height of the structure
• length (optional - default 1) - the length of the structure - how far away (depth of field) from the drone the structure will extend.

Drone.boxa() method

Construct a cuboid using an array of blocks.

Parameters

• blocks - An array of blocks - each block in the array will be placed in turn.
• width
• height
• length

Example

Construct a rainbow-colored road 100 blocks long...

var rainbowColors = [blocks.wool.red, blocks.wool.orange, blocks.wool.yellow, blocks.wool.lime,
               blocks.wool.lightblue, blocks.wool.blue, blocks.wool.purple];
boxa(rainbowColors,5,1,98);

Drone.prism() method

Creates a prism. This is useful for roofs on houses.

Parameters

• block - the block id - e.g. 6 for an oak sapling or '6:2' for a birch sapling. Alternatively you can use any one of the blocks values e.g. blocks.sapling.birch
• width - the width of the prism
• length - the length of the prism (will be 2 time its height)

Example

prism(blocks.oak,3,12);

Drone.prism0() method

A variation on prism which hollows out the inside of the prism. It uses the same parameters as prism.

Drone.cylinder() method

A convenience method for building cylinders. Building begins radius blocks to the right and forward.

Parameters

• block - the block id - e.g. 6 for an oak sapling or '6:2' for a birch sapling. Alternatively you can use any one of the blocks values e.g. blocks.sapling.birch
• radius
• height

Example

cylinder(blocks.iron, 7 , 1);

Drone.cylinder0() method

A version of cylinder that hollows out the middle. Drone.arc() method

The arc() method can be used to create 1 or more 90 degree arcs in the horizontal or vertical planes. This method is called by cylinder() and cylinder0() and the sphere() and sphere0() methods.

Parameters

arc() takes a single parameter - an object with the following named properties...

• radius - The radius of the arc.
• blockType - The type of block to use - this is the block Id only (no meta). See Data Values.
• meta - The metadata value. See Data Values.
• orientation (default: 'horizontal') - the orientation of the arc - can be 'vertical' or 'horizontal'.
• stack (default: 1) - the height or length of the arc (depending on the orientation - if orientation is horizontal then this parameter refers to the height, if vertical then it refers to the length).
• strokeWidth (default: 1) - the width of the stroke (how many blocks) - if drawing nested arcs it's usually a good idea to set strokeWidth to at least 2 so that there are no gaps between each arc. The arc method uses a bresenham algorithm to plot points along the circumference.
• fill - If true (or present) then the arc will be filled in.
• quadrants (default: {topleft:true,topright:true,bottomleft:true,bottomright:true} - An object with 4 properties indicating which of the 4 quadrants of a circle to draw. If the quadrants property is absent then all 4 quadrants are drawn.

Drone.door() method

create a door - if a parameter is supplied an Iron door is created otherwise a wooden door is created.

Parameters

• doorType (optional - default wood) - If a parameter is provided then the door is Iron.

Drone.door2() method

Create double doors (left and right side)

Parameters

• doorType (optional - default wood) - If a parameter is provided then the door is Iron.

Drone.sign() method

Signs must use block 63 (stand-alone signs) or 68 (signs on walls)

Parameters

• message - can be a string or an array of strings.
• block - can be 63 or 68

Example

To create a free-standing sign...

drone.sign(["Hello","World"],63);

... to create a wall mounted sign...

drone.sign(["Message","Goes","Here"], 68);

Drone Trees methods

• oak()
• spruce()
• birch()
• jungle()

None of the tree methods require parameters. Tree methods will only be successful if the tree is placed on grass in a setting where trees can grow. Drone.rand() method

rand takes either an array (if each blockid has the same chance of occurring) or an object where each property is a blockid and the value is it's weight (an integer)

Example

place random blocks stone, mossy stone and cracked stone (each block has the same chance of being picked)

rand( [blocks.brick.stone, blocks.brick.mossy, blocks.brick.cracked ],w,d,h) 

to place random blocks stone has a 50% chance of being picked,

rand({blocks.brick.stone: 5, blocks.brick.mossy: 3, blocks.brick.cracked: 2},w,d,h) 

regular stone has a 50% chance, mossy stone has a 30% chance and cracked stone has just a 20% chance of being picked.

Drone.garden() method

places random flowers and long grass (similar to the effect of placing bonemeal on grass)

Parameters

• width - the width of the garden
• length - how far from the drone the garden extends

Copy & Paste using Drone

A drone can be used to copy and paste areas of the game world.

Drone.copy() method

Copies an area so it can be pasted elsewhere. The name can be used for pasting the copied area elsewhere...

Parameters

• name - the name to be given to the copied area (used by paste)
• width - the width of the area to copy
• height - the height of the area to copy
• length - the length of the area (extending away from the drone) to copy

Example

drone.copy('somethingCool',10,5,10).right(12).paste('somethingCool');

Drone.paste() method

Pastes a copied area to the current location.

Example

To copy a 10x5x10 area (using the drone's coordinates as the starting point) into memory. the copied area can be referenced using the name 'somethingCool'. The drone moves 12 blocks right then pastes the copy.

drone.copy('somethingCool',10,5,10)
     .right(12)
     .paste('somethingCool');

Chaining

All of the Drone methods return a Drone object, which means methods can be 'chained' together so instead of writing this...

drone = new Drone(); 
drone.fwd(3);
drone.left(2);
drone.box(2); // create a grass block
drone.up();
drone.box(2); // create another grass block
drone.down();

...you could simply write ...

var drone = new Drone().fwd(3).left(2).box(2).up().box(2).down();

... since each Drone method is also a global function that constructs a drone if none is supplied, you can shorten even further to just...

fwd(3).left(2).box(2).up().box(2).down()

The Drone object uses a Fluent Interface to make ScriptCraft scripts more concise and easier to write and read. Minecraft's in-game command prompt is limited to about 80 characters so chaining drone commands together means more can be done before hitting the command prompt limit. For complex building you should save your commands in a new script file and load it using /js load()

Drone Properties

• x - The Drone's position along the west-east axis (x increases as you move east)
• y - The Drone's position along the vertical axis (y increses as you move up)
• z - The Drone's position along the north-south axis (z increases as you move south)
• dir - The Drone's direction 0 is east, 1 is south , 2 is west and 3 is north.

Extending Drone

The Drone object can be easily extended - new buidling recipes/blue-prints can be added and can become part of a Drone's chain using the static method Drone.extend.

Drone.extend() static method

Use this method to add new methods (which also become chainable global functions) to the Drone object.

Parameters

• name - The name of the new method e.g. 'pyramid'
• function - The method body.

Example

// submitted by [edonaldson][edonaldson]
Drone.extend('pyramid', function(block,height){
    this.chkpt('pyramid');
    for (var i = height; i > 0; i -= 2) {
        this.box(block, i, 1, i).up().right().fwd();
    }
    return this.move('pyramid');      
});

Once the method is defined (it can be defined in a new pyramid.js file) it can be used like so...

var d = new Drone();
d.pyramid(blocks.brick.stone, 12);

... or simply ...

pyramid(blocks.brick.stone, 12);

Drone Constants

Drone.PLAYER_STAIRS_FACING

An array which can be used when constructing stairs facing in the Drone's direction...

var d = new Drone();
d.box(blocks.stairs.oak + ':' + Drone.PLAYER_STAIRS_FACING[d.dir]);

... will construct a single oak stair block facing the drone.

Drone.PLAYER_SIGN_FACING

An array which can be used when placing signs so they face in a given direction. This is used internally by the Drone.sign() method.

Drone.PLAYER_TORCH_FACING

Used when placing torches so that they face the same way as the drone.

Drone.spiral_stairs() method

Constructs a spiral staircase with slabs at each corner.

Parameters

• stairBlock - The block to use for stairs, should be one of the following...
  • 'oak'
  • 'spruce'
  • 'birch'
  • 'jungle'
  • 'cobblestone'
  • 'brick'
  • 'stone'
  • 'nether'
  • 'sandstone'
  • 'quartz'
• flights - The number of flights of stairs to build.

Example

To construct a spiral staircase 5 floors high made of oak...

spiral_stairs('oak', 5);

Blocks Module

You hate having to lookup Data Values when you use ScriptCraft's Drone() functions. So do I. So I created this blocks object which is a helper object for use in construction.

Examples

box( blocks.oak ); // creates a single oak wood block
box( blocks.sand, 3, 2, 1 ); // creates a block of sand 3 wide x 2 high x 1 long
box( blocks.wool.green, 2 ); // creates a block of green wool 2 blocks wide

Drone.blocktype() method

Creates the text out of blocks. Useful for large-scale in-game signs.

Parameters

• message - The message to create - (use \n for newlines)
• foregroundBlock (default: black wool) - The block to use for the foreground
• backgroundBlock (default: none) - The block to use for the background

Example

To create a 2-line high message using glowstone...

blocktype("Hello\nWorld",blocks.glowstone);