Canvas3D JS Library

From CDOT Wiki
Revision as of 10:22, 28 May 2008 by Cbishop2 (talk | contribs) (Bug List)
Jump to: navigation, search


The Canvas 3D JS Libary (C3DL) is a javascript library that will make it easier to write 3D applications using canvas 3d. It will provide a set of math, scene, and 3d object classes to make the canvas more accessible for developers that want to develop 3D content in browser.

People Working On This Project

  • Catherine Leung
  • Mark Paruzel (CodeBot)
  • Andrew Smith
  • Chris Bishop (Javascript)
  • Andor Salga


NOTE: these downloads are mostly meant for in-house testing and not really polished. It may also only work on a specific platform only. please read the note regarding the download.

Andrew's patch - this change to the canvas 3D extension allows the "simple" examples from Vlad's page to work with ati cards. This is intended for Windows only. Model viewer examples do not work yet.


Related Resources




Canvas3D Helper Classes

Scene Class


Math Helper


Math Operations

Vector Class

A Vector basically describes a direction in the form of X, Y, and Z coordinates of a 3D world. Basic 3D math cannot exist without the utilization of spatial coordinates which the Vector Class encapsulates. The Vector Class will have the following members within it:

  • Getters
    • getX() - Retrieves the X value
    • getY() - Retrieves the Y value
    • getZ() - Retrieves the Z value
  • Setters
    • set(newX, newY, newZ) - This sets new (x, y, z) values to the Vector
    • setX(newX) - Takes a number value as the new value for X
    • setY(newY) - Takes a number value as the new value for Y
    • setZ(newZ) - Takes a number value as the new value for Z
    • setFromVector(vec) - Takes a Vector object as the new value for this Vector
  • Calculations
    • normalize() - Unit Normalization
    • dot() - Calculates the Dot Product. Returns a number
    • length() - Returns the Length of Vector from (0, 0, 0)
    • lengthSq() - Returns the Squared value of Length
    • cross(vec) - Takes a Vector object and computes the Cross Product between the two values. Returns a Vector object that is the cross of the two
    • add(vec) - Takes a Vector object and adds its values to its own
    • subtract(vec) - Takes a Vector object and subtracts its values from its own
    • multiply(scalar) - Takes a number value and multiplies (x, y, z) by it
    • divide(scalar) - Takes a number value and divides (x, y, z) by it
    • isEqual(vec) - Takes a Vector object and compares it to its (x, y, z) values. Returns true if they match
    • multiplyByQuat(quat) - Takes a Quaternion and multiplies its orientation by (x, y, z). It returns a new Vector orientation

Matrix Class

A Matrix Class is necessary to provide Matrix operations such as rotation, translation, and scaling to any point in the 3D world. It is composed of a 4x4 matrix of floating point values that can be applied to any Matrix operation. This matrix is stored in Row-Major format, meaning its first 4 values are in the first row. The Matrix Class has the following members:

  • Getters
    • getMatrix() - Returns an array of 16 numbers. Each value represents a location of the matrix starting at the top left corner (Row-Major)
  • Setters
    • setMatrix(newMatArray) - Takes an Array of 16 numbers that represent the matrix in Row-Major format
  • Calculations
    • identity() - Sets the matrix up to be an identity matrix
    • transpose() - Transposes the matrix to be in Column-Major format, and vice versa
    • inverse() - Calculates the Inverse of the matrix. Returns NULL if it fails, else it returns an inverse matrix
    • determinant() - Returns a number that is the Matrices determinant
    • adjoint() - Returns the Hermitian transpose (Adjoint) of this matrix
    • multiplyByScalar(scalar) - Multiplies the values of the matrix by a number
    • divideByScalar(scalar) - Divides the values of the matrix by a number
    • multiplyByMatrix(mat) - Multiplies two matrices together. It returns a new matrix
    • multiplyByVector(vec) - Mutiplies the orientation of the matrix by the vector. This function returns the newly oriented Vector
    • addMatrix(mat) - Adds the values of two matrices together. It returns a new matrix
    • subtractMatrix(mat) - Subtracts the values of the two matrices. It return a new matrix

Quaternion Class

A Quaternion is a 4-Dimensional representation of an orientation. It consists of a unit-length axis and an angle around that axis. It can function much like an orientation matrix but without the disadvantage of Gimble Lock. The Quaternion is stored as an array of 4 numbers, represented in the order of (w, x, y, z). The Quaternion Class has the following members:

  • Getters
    • getW() - Returns the numerical W component of the Quaternion
    • getX() - Returns the numerical X component of the Quaternion
    • getY() - Returns the numerical Y component of the Quaternion
    • getZ() - Returns the numerical Z component of the Quaternion
    • getMatrix() - Returns a Matrix object that reflects the orientation of the quaternion
    • getAxisAngle(axis, angle) - Takes in two values, a Vector object and a Number. Converts the orientation of the quaternion into an axis Vector and an angle around it
  • Setters
    • setFromQuat(quat) - Sets this Quaternion with the same value as the one being passed in
    • setFromMatrix(mat) - Creates a Quaternion orientation from the orientation of the Matrix object that is passed in
  • Calculations
    • length() - Returns the length of the Quaternion
    • lengthSq() - Returns a number that represents the square of this Quaternion's length
    • addQuat(quat) - Takes a Quaternion object that will be added to this Quaternion's internal (w, x, y, z) values
    • subtractQuat(quat) - Takes a Quaternion object where its values will be subtracted from this Quaternion's (w, x, y, z) values
    • multiplQuat(scalar) - Takes a number and multiplies its values by the Quaternion's (w, x, y, z) values
    • conjugate() - Returns a Quaternion that is this Quaternion's conjugate
    • dot(quat) - Takes a Quaternion and returns the Dot Product of the two
    • normalize() - Normalizes the quaternion
    • inverse() - Returns the inverse of this Quaternion


Pan Camera Class


Fixed Camera Class


Chase Camera Class


Free Camera Class

The Free Camera Class is a camera that can be translated and oriented. It cannot be attached to an item, rather, it can be moved separately by the user. The camera also supports velocities (without friction) that are applied to the object based on time. The Free Camera Class has the following Members:

  • Getters
    • getPosition() - Returns a Vector Object that represents the position of the Camera
    • getUp() - Returns a Vector Object that represents the orientation of Up
    • getDir() - Returns a Vector Object that is the direction the camera is facing
    • getLeft() - Returns a Vector Object that represents the orientation of Left
    • getLinearVel() - Returns a Vector that is the velocity that the camera is traveling at
    • getAngularVel() - Returns a Vector that contains the rotation velocity around the local (x, y, z) axis of the camera
  • Setters
    • setPosition(vec) - Takes a Vector that sets the camera's position
    • setLookAtPoint(vec) - Takes a Vector that represents the point the camera will look at
    • setUpVector(vec) - Takes a vector that orients the camera Up
    • setLinearVel(vec) - Takes a vector that is the camera's linear velocity
    • setAngularVec(vec) - Takes a vector that represents the camera's rotational velocity around local (x, y, z) axis
  • Other Functions
    • rotateOnAxis(axis, angle) - Takes a vector and a number that represents a relative rotation to the camera's orientation
    • yaw(angle) - Takes a number that the camera will rotate around its Up vector
    • roll(angle) - Takes a number that the camera will rotate around its direction vector
    • pitch(angle) - Takes a number that the camera will rotate around its Left vector
    • update(timeElapsed) - Takes a number that represents the amount of milliseconds that passed since the last call to update. This function updates the position and rotation based on the set velocities

World Objects

Shape Class

Primitive Class

Model Class


  • get a website (in progress)
  • find out about exposing of open gl 1.1 calls
    • Should the OpenGL 1.1 calls be exposed to the Canvas3D web2.0 architecture. Mainly, for those functions that make 3D math easy (ie. gluLookAt, glMatrixMode, etc).

Bug List

  • Cube
    • setDims function does change the vector holding the cube's dimensions but the vector is not used to change the actual size or shape of the cube.
  • Camera
    • When increasing or decreasing the X Axis for the camera's position it does move in the current direction but also starts to rotate around the vector (0,0,0).
  • Rendering
    • The rendering of objects seems to be based on their order in the object list in the scene. The problem arises when a cube is behind another cube. The cube in the back should only have the parts showing drawn, however if this cube is drawn after the closer cube then the behind cube is drawn on top of the closer cube. Hard to describe.
  • Linear Velocity
    • Setting the Linear Velocity does not do anything.
  • Cube
    • setDims uses obsolete Vector function - setFromVector

changed lines in Cube.js from
54 var velVec = new Vector(linVel);
55 velVec.multiply(timeStep);
56 this.pos.add(velVec);
to this:
54 var velVec = new Vector();
55 velVec.setFromVector(this.linVel);
56 velVec.multiply(timeStep);
57 this.pos = this.pos.add(velVec);

  • setLookAtPoint - May 14
    • Objects at 0,0,0 are not displayed when setLookAtPoint is passed (0,0,0). However, if called with cam.setLookAtPoint(new Vector(0.0, 0.0, 0.00000001)) , it will work.
  • Scene Object
    • Currently the scene cannot be resized. The 3d graph needed the scene to grow or shrink with respect to the table cell it was in. The needed functions has unofficially been added to a copy of Scene.js used only by the 3d graph demo.
  • Primitive Object
    • All Get functions have obsolete Vector functions ex. getX()
    • The render function have obsolete Vector functions

Ideas List

Here are the wishlist of things we want to be able to do with the library.... If you want something add it to the list

  • 3D Asteroids - Good use of Collision detection, animation, particles, camera work, both mouse and keyboard controls.
  • Solar System Explorer - Pull the positions of our planets from some sort of webservice and display them, allowing users to see their relative alignment.
  • Simulation of 3D path finding
  • 3D graphs

    - Display social networks and their relationships
    - Get earthquake Richter-scale values from a service and show graphs on a map
    - Display 3D graphs beside one another, gas prices along stock market values
    - 3D flowcharts

  • 3D Traceroute - graphical view of an IP's path across the internet. More details in this blog post
  • 3D Canvas Racing Demo - like this but better, to show that it's both easier to use, more funcionality is available, and runs much faster (hopefully)
  • Molecule Viewer - Rotate 3D molecules. Similar to this
  • 3D Sudoku
  • 3D Rubik's Cube
  • House Explorer/Designer - Load a mesh of a room or a house and allow users to navigate through the environment or design a room in a house.
  • 3D Photo Album - Download images and create a 3D photo album similar to this.
  • Matrix - Query search engines for sites, chat logs, blogs, etc. and display all the text in a matrix-like fashion.
  • Really fancy animation of a bar graph, with columns growing and arrow moving. Will be an instant hit with businessmen. Usable as easy as google's toy


  • Generic model viewer application, with back/forward/index + zoom/rotate buttons that would download and display models from the web. Would have to be able to convert 3dsmax models in JS. So a museum or such could just slap the app on the page and give it an array of URLs for the stuff to show.
  • Pong. Should be fairly easy, we just need to code the collision detection.