Under Construction

• Catherine Leung
• Mark Paruzel (CodeBot)
• Andrew Smith

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.

Our blog

Canvas 3D API - Class Design

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

Pan Camera Class

Fixed Camera Class

Chase Camera Class

Free Camera Class

Shape Class

Primitive Class

Model Class