Categorias: Todos - vectors - shape - coordinates - algebra

por Mike Ton 10 anos atrás

626

Unity3D_Grids

Unity2D grids are a foundational element in game development, providing a structured way to access and manipulate the contents of individual cells. Grid points, which resemble integer coordinates, are used for uniform grids and can be added, subtracted, and scaled like vectors.

Unity3D_Grids

Unity2D_Grids

Init

4
To make our cells clickable, we need to process mouse inputs:
3
The next step is to instantiate our cells, and put them in the right positions using our map.
2
Next, we need to define a map
define the grid structure.

Project

Unity

Scripts

(GridBehaviour)

ImageToGrid.cs

public class ImageToGrid : GridBehaviour { ... }

(func)

override

void

InitGrid(){ ... }

foreach

(var point in Grid){ ...}

Grid[point].Color = texture.GetPixel((int) imageCoordinate.x, (int) imageCoordinate.y);

var imageCoordinate = imageMap[point];

var

imageMap =

new FlatHexMap(Vector2.one)

.Stretch(Grid);

.WithWindow(new Rect(0, 0, texture.width, texture.height))

(var)

public

Texture2D

texture;

using

Gamelogic.Grids;

GameLogic

Plugins

Grids

Editor

Editors

FlatHexTileGridEditor.cs

Hiearchy(Editor)

(Scene)

ImageToGridd.unity

Grid

(children)

...Grid Hex collections...

(comp)

ImageToGrid

(Texture)

WorldMap.tga

(config)

AnisoLevel

1

FilterMode

Bilinear

WrapMode

clamp

GenerateMipMaps

Import Type

SpriteMode

none

ByPass sRGB Sample

AlphaFromGrayscale

false

Default

Read/Write Enabled

true

//why ???

NonPowero2

None

TextureType

Advanced

Flat Hex Tile Grid Builder

MainCamera

GettingStarted

Comp
Custom

You may see some of these classes in the folders with grids, points and vectors, and wonder what they are. These are behind-the-scene classes that implement the shape building technology for grids. For the most part, you do not need to know what these are unless you implement your own grids with shape building technology. They are the intermediary results of shape-building expressions like these:

C#

1

2

3

4

5

6

7

PointyHexGrid<int> grid = PointyHexGrid

.BeginShape()

.Hexagon(5)

.Translate(2, 2)

.Union()

.Hexagon(5)

.EndShape();

See Constructing Grids for more details on how to use these shape building functions.

ShapeInfo

Op

Map

A map is the thing that converts between Unity coordinates, and grid coordinates. Grids themselves do not know where they are in the Unity world. They only know which cells are inside them or not, and how cells relate to each other (being neighbors, for instance). The missing information is provided by maps. Keeping this information separate is extremely useful. For instance, hex grids and brick grids are topologically equivalent, which is a fancy way of saying their cells have the same neighbor relationships. They merely differ in the shape of the cells, and hence, how world and grid points map from one to the other. This means we can use the same grid, but different maps for the two.

Maps are where the real power lies in the Grids library. They make it possible to do unusual things with grids that are not very easy with more rigid designs, including implementing pseudo irregular-grids, animating cells, transforming grids, and many more.

Maps support index syntax. If you feed it a Unity vector, it gives you back a grid point; if you feed it a grid point, it gives you a unity vector.

Maps supports several operations, including transformations, alignment functions, and anchoring functions. For a bit more detail, see Working with Maps.

A map is the thing that converts between Unity coordinates, and grid coordinates

Maps supports several operations, including transformations, alignment functions, and anchoring functions

Grid Point

This is what we use to access the contents of a particular cell. In general, a point can be anything. The built-in grids, however, are all accessed through grid points that look like integer coordinates. The coordinates of uniform grids work like vectors: you can add and subtract them, and scale them up or down (multiply or divide by an integer).

The coordinates of spliced grids have two parts: a vector part (based on the base grid), and an index part, indicating the particular slice. We call these coordinates spliced vectors, and they follow a simple algebra. Below, N is the splice count, the number of cells each base cell grid has been spliced into.

[x0, y0, i0] + [x1, y1] = [x0 + x1, y0 + y1, i0]

[x0, y0, i0] – [x1, y1] = [x0 - x1, y0 - y1, i0]

[x0, y0, i0] + [x1, y1, i1] = [x0 + x1, y0 + y1, (i0 + i1) % N]

[x0, y0, i0] – [x1, y1, i1] = [x0 - x1, y0 - y1, (i0 - i1) % N]

use to access the contents of a particular cell

In general, a point can be anything???

Type
Spliced

grids made from splicing the cells of a uniform grid into new, smaller cells

The original grid that was spliced is called the spliced grid’s base grid

cells may not have the same shape or orientation

CairoGrid

Rhomb

FlatRhombGrid

PointyRhombGrid

Tri

FlatTriGrid

PointyTriGrid

Uniform

cell has the same shape and orientation

Hex

FlatHexGrid

PointyHexGrid

DiamondGrid

RectGrid