(Redirected from Three Dimensional Project)

**Three-Dimensional** or **3D** can refer to "something having three dimensions e.g. width, length, and depth or x, y, and z."^{[1]}
Scratch does not provide tools for displaying, creating, or manipulating 3D graphics; however, Scratch does provide blocks for 2D (x,y) sprite movement, sprite resizing, pen drawing, math functions, lists and more. Many (if not all) 3D methods can be recreated with Scratch blocks.

Creating the illusion of 3D in Scratch can be a large challenge, requiring advanced algorithms or 3D programs; there are also simpler methods, making it easy for anyone to start playing with 3D in Scratch. One of these methods is a basic raycaster.

## Contents

## Difference in the Third-Dimension

When computers render graphics, mainly the graphics processing unit, rendering a 3D object, landscape, or environment takes a lot more processing power than a 2D environment. This is because 3D graphics take up space (not as in storage space but the geometric property) while a 2D environment takes up a plane. Space has depth, so the processor has to perform various algorithms to create the illusion of a 3D environment on a 2D screen. Due to these algorithms and larger objects needed to render, 3D projects on Scratch typically lag more than 2D games.

In addition, many 2D graphics are pre-rendered meaning the instructions for how to create the graphics were already carried out or pre-coded rather than the graphics card having to render the graphics anew. Rendering is the process of creating an array of coloured pixels based on a set of instructions, such as in Scratch's vector graphics. Displaying is taking what was rendered and sending it off to a monitor to be seen. Because 2D graphics are seen from one perspective, they can be pre-rendered as bitmap images, but 3D graphics can be viewed at thousands of different angles and must follow instructions for rendering the graphics. One of the common instruction engines used to render 3D graphics is DirectX, which is found on the Windows operating system.

## 3D Methods Used in Scratch

There are many Scratch projects that use one or more of following methods to display 3D graphics. These methods are in order of difficulty. Examples are in order of creation.

### Ray Tracing

"In computer graphics, ray tracing is a technique for generating an image by tracing the path of light through pixels in an image plane and simulating the effects of its encounters with virtual objects."^{[2]}

This is a very slow technique (and even slower in Scratch) but recreates natural effects like reflection, shading and shadows. This complex technique is usually used in films and TV shows using computer-generated imagery (CGI).

**Examples**

*( [http://scratch.mit.edu/projects/39385 this project has set tutorial projects that explain the ray tracer math.)*

### Rasterization

While no projects using this method could be found, it is technically possible in Scratch. Rasterization is the technique of using a number of polygons to make up an image, then using a form of ray tracing to render them. First, one starts with a list of vertices making up polygons. Then, drawing a straight line from each vertex to the camera, and coloring in the area of the polygon, one can construct an image. This method is usually the method of choice for most real-time games, for its speed and relative photorealism.

### Ray casting

"Ray casting ... can be thought of as an abridged, and significantly faster, version of the ray tracing algorithm."^{[3]}

This method was used in early 3D games like Wolfenstein 3D to get fast, real-time performance out of slow computers.

**Examples**

### 3D Projection

"3D projection is any method of mapping three-dimensional points to a two-dimensional plane."^{[4]}

3D projection allows projects to define an x,y,z location for a sprite, then place it on the screen. This method has been used to draw 3D objects using lists and the pen blocks.

Sprites can be resized based on the distance from the camera/viewer. This method can work very fast in Scratch, making it more ideal for games.

Lines can also be drawn between the projected points to create wireframe 3D renderings.

Perspective is usually used, but there are simpler projections, such as the orthographic projections, that are also used. It can be built using trigonometry and the perspective formula or with quaternions.

**Examples**

- http://scratch.mit.edu/projects/129124
- http://scratch.mit.edu/projects/182441
- http://scratch.mit.edu/projects/769041
- http://scratch.mit.edu/studios/202972/ (tutorial)
- http://scratch.mit.edu/projects/11343265/ (quaternions)

*( http://scratch.mit.edu/projects/799909 this project explains 3D projection math.)*

### Exporting from 3D Programs

Creating a 3D Object in a 3D Graphics Program, then saving it as a Wavefront (.obj) file. The lines and vertices are taken from the object file, and imported into 2 lists.

For every pair of number in the lines list, it will use the respective X, Y, and Z variables and draws a line using 3D projection (see above).

The camera is rotatable according to the mouse x and y.

Although the script is complicated, some users have just provided the script and allowed anyone to change the list values to get their object.

**Examples**

### Pre-rendered Graphics

Images created with 3D programs like Blender or Google SketchUp are imported as costumes in a sprite. Costumes portraying different angles of the object are switched quickly to make the object appear to rotate.

**Examples**

### Sliced 3D method

*Main article: Animating a 3D Object*

This is the 2^{nd} simplest method in Scratch. It works by stacking or stamping 2D sprites, starting from the bottom up, offset up slightly for each layer. This set of drawings can be rotated to rotate the 3D object. As well as changing Y to make this image the X of an sprite can also be changed and given a "flip" effect instead of a rotating one. It uses the same idea as the "Y" stamping.

**Examples**

- http://scratch.mit.edu/projects/371464
- http://scratch.mit.edu/projects/491826
- https://scratch.mit.edu/projects/130266640/ (Tutorial)

### Non-rotating Method

This is the simplest method in Scratch. It works by using size for the z position and does not rotate. It has an illusion that makes the sprites look like they are rotating but they are not. When a sprite touches 1 side, it goes to the other side (not touching it) and if a sprite touches the other side, it goes to the first side (again, not touching it).

**Examples**

- http://scratch.mit.edu/projects/1253424
- http://scratch.mit.edu/projects/1218688 (car sim—3D using non-rotating method)

### Stamping Method

Use the stamping block found in the pen section, the sprite must be stamped in a certain way depending on the location of the sprite, in relation to the center of the project stage.

**Examples**

- http://scratch.mit.edu/projects/2820268
- http://scratch.mit.edu/projects/2925282/
- https://scratch.mit.edu/projects/103170852/
- https://scratch.mit.edu/projects/109308096/

## Implementation

Some users want a 3D editor to be implemented into Scratch. The Scratch Team has rejected this suggestion, stating that it would make Scratch confusing for beginners.^{[5]} Some users argue the point, saying that to make it less confusing, it could be restricted to only Scratchers,^{[6]} or saying that there could be two separate editors,^{[7]} but the suggestion remains rejected.^{[5]}

## 2.5D projects

2.5D projects are projects which use 2D graphics in 3D-like environments. They are less laggy and easier to create than 3D projects. Methods include cloning, stamping, and mouse locating. This term also applies to projects in which use 3D models but use them in 2D way.^{[8]}

2.5D is commonly used in video games, particularly due to their simplicity. Examples include LittleBigPlanet and Crash Bandicoot.

### Examples

- http://scratch.mit.edu/projects/47495082/
- http://scratch.mit.edu/projects/49070106/
- http://scratch.mit.edu/projects/49037596/

## See Also

- How to Make a Three-Dimensional Project
- Two Dimensional Objects
- BeetleBlocks
- 3D Wireframes
- 3D Patterns