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1.41 Matrix44 .
1.41.1 Matrix44.Add .
1.41.2 Matrix44.Copy .
1.41.3 Matrix44.Create .
1.41.4 Matrix44.GetRotationXyz .
1.41.5 Matrix44.GetRow .
1.41.6 Matrix44.Invert .
1.41.7 Matrix44.lnvertAffine .
1.41.8 Matrix44.lnvertAffineOrthogonal .
1.41.9 Matrix44.lsEqual .
1.41.10 Matrix44.Isldentity .
1.41.11 Matrix44.Multiply .
1.41.12 Matrix44.0rthonormalize .
1.41.13 Matrix44.SetAxisRotation .
1.41.14 Matrix44.Setldentity .
1.41.15 Matrix44.SetRotationQuat .
1.41.16 Matrix44.SetRotationXyz .
1.41.17 Matrix44.SetRow .
1.41.18 Matrix44.SetScale .
1.41.19 Matrix44.SetTranslation .
1.41.20 Matrix44.Subtract .
1.41.21 Matrix44.Transpose .
Matrix44
Matrix44.Add
Brief
Performs a matrix addition with sourcel and source2 storing the result in destination.
Definition
Matrix44.Add( Matrix44 destination, Matrix44 sourcel, Matrix44 source2 )
Arguments
destination - Matrix to receive the result.sourcel - The first matrix argument for the addition.source2 - The second matrix argument for the
addition.
Return Values
None.
Description
Performs a matrix addition with sourcel and source2 storing the result in destination. Equivalent to destination = sourcel + source2, but the
operator syntax will allocate the destination automatically.
Examples
srcl = Matrix44.Create()
src2 = Matrix44.Create()
dst = Matrix44.Create()
Matrix44.Add( dst, srcl, src2 )
See Also
Matrix44.Subtract
Matrix44.Copy
Brief
Copies the values of source and stores them in the destination Matrix44.
Definition
Matrix44.Copy( Matrix44 destination, Matrix44 source )
Arguments
destination - The matrix to receive the copy.source - The matrix to be copied.
Return Values
None
Description
Copies the values of source and stores them in the destination Matrix44. This is used to copy the values as opposed to pointing to the same
matrix as an assignment would do. Use copy as mat2 = matl does not copy values but instead makes mat2 point to matl.
Examples
matl = Matrix44.Create()
i mat2 = Matrix44.Create()
I Matrix44.Copy( mat2, matl )
See Also
None
Matrix44.Create
Brief
Creates a new Matrix44 object with the specified values.
Definition
Matrix44 Matrix44.Create( Vector4 x = [1,0,0,0], Vector4 y = [0,1,0,0], Vector4 z = [0,0,1,0], Vector4
w = [0,0,0,1] )
Matrix44 Matrix44.Create( Matrix44 matrix )
Matrix44 Matrix44.Create( Quaternion rotation, Vector4 translation = [0,0,0] )
Arguments
x - The first row of the matrix.y - The second row of the matrix.z - The third row of the matrix.w - The fourth row of the matrix.matrix - The matrix to
copy.rotation - The quaternion representing the rotation part of the transform.translation - The vector representing the translation part of the
transform.
Return Values
A new Matrix44 instance.
Description
Creates a new Matrix44 object with the specified values. With no parameters specified, it is set to the identity matrix.
Examples
matl = Matrix44.Create()
vec = Vector4.Create( 1, 2, 3, 4 )
mat2 = Matrix44.Create( vec, vec, vec, vec )
mat3 = Matrix44.Create( mat2 )
mat4 = Matrix44.Create( Quaternion.Create() )
See Also
None
Matrix44.GetRotationXyz
Brief
Gets the rotation about the x, y, and z-axis in degrees.
Definition
Vector4 Matrix44.GetRotationXyz( Matrix44 matrix )
Matrix44.GetRotationXyz( Matrix44 matrix, Vector4 outVec )
Arguments
matrix - The matrix to query.outVec - The Vector4 to store the result to.
Return Values
A vector containing the x, y, z rotation angles.
Description
Gets the rotation about the x, y, and z-axis in degrees using a matrix to Euler angle formula. The rotation order is x, y, z. If outVec is specified it
stores the result in there instead of returning a new Vector4.
Examples
matrix = Matrix44.Create()
; rotation = Matrix44.GetRotationXyz( matrix )
See Also
� Entity.SetRotationXyz
Matrix44.GetRow
Brief
Returns the specified row of the matrix.
Definition
Vector4 Matrix44.GetRow( Matrix44 matrix, number row )
Matrix44.GetRow( Matrix44 matrix, number row, Vector4 outVec )
Arguments
matrix - The matrix to be queried.row - The row to return, ranging from 1 to 4.outVec - The Vector4 to store the result to.
Return Values
A vector representing the specified row of the matrix.
Description
Returns the specified row of the matrix. The Vector4 is a copy of the row so changing its values will not affect the matrix. If outVec is specified it
stores the result in there instead of returning a new Vector4.
Examples
! mat = Matrix44.Create()
i print( Matrix44.GetRow( mat, 1 ) )
See Also
� Matrix44.SetRow
Matrix44.Invert
Brief
Inverts the source matrix storing it in destination.
Definition
Matrix44.Invert( Matrix44 destination, Matrix44 source )
Arguments
destination - The matrix to receive the inverted matrix. Can be the source matrix.source - The matrix to invert.
Return Values
None
Description
Inverts the source matrix storing it in destination.
Examples
! matrix = Matrix44.Create()
j Matrix44.Invert( matrix, matrix ) � Self inverse.
See Also
None
Matrix44.lnvertAffine
Brief
Inverts the source matrix, which is assumed to be an affine transform, storing it in destination.
Definition
Matrix44.InvertAffine( Matrix44 destination, Matrix44 source )
Arguments
destination - The matrix to receive the inverted matrix. Can be the source matrix.source - The affine transform matrix to invert.
Return Values
None.
Description
For matrices representing an affine transform (that is, containing only scale, rotation and translation), this function will be faster than the general
purpose Invert function. If your transform is only composed of rotation and translation (no scale), use the InvertAffineOrthogonal function, which is
faster again.
Examples
! matrix = Matrix44.Create()
| Matrix44.InvertAffine( matrix, matrix ) � Self inverse.
See Also
� Matrix44.Invert
� Matrix44. InvertAffineOrthogonal
Matrix44.InvertAffineOrthogonal
Brief
Inverts the source matrix, which is assumed to be a transform containing only rotation and translation, storing it in destination.
Definition
Matrix44.InvertAffineOrthogonal( Matrix44 destination, Matrix44 source )
Arguments
destination - The matrix to receive the inverted matrix. Can be the source matrix.source - The transform matrix to invert.
Return Values
None.
Description
If your matrix contains only rotation and translation (no scale), this function will calculate the inverse using an optimized method that is faster than
both the general purpose Invert function and the InvertAffine function.
Examples
matrix = Matrix44.Create()
Matrix44.InvertAffineOrthogonal( matrix, matrix ) � Self inverse.
See Also
� Matrix44.lnvertAffine
� Matrix44.Invert
Matrix44.lsEqual
Brief
Tests whether the specified matrices are equal.
Definition
boolean Matrix44.IsEqual( Matrix44 ml, Matrix44 m2, number tolerance = 0 )
Arguments
ml - The first matrix to test for equality.m2 - The second matrix to test for equality .tolerance - The amount of error to deviate from the other matrix.
Return Values
true if it the matrices are equal and false otherwise.
Description
Returns true if it the matrices are equal and false otherwise.
Examples
1 matl = Matrix44.Create()
i mat2 = Matrix44.Create()
j print( Matrix44.IsEqual( matl, mat2 ) )
See Also
None
Matrix44.lsldentity
Brief
Tests whether the specified matrix is an identity matrix.
Definition
boolean Matrix44.Isldentity( Matrix44 matrix, number tolerance = 0 )
Arguments
matrix - The matrix to query.tolerance - The amount of error to deviate from the identity matrix.
Return Values
true if it is an identity matrix and false otherwise.
Description
Returns true if it is an identity matrix and false otherwise.
Examples
! matrix = Matrix44.Create()
i print( Matrix44.Isldentity( matrix ) )
See Also
None
Matrix44.Multiply
Brief
Performs a matrix multiply with sourcel and source2 storing the result in destination.
Definition
Matrix44.Multiply( Matrix44 destination, Matrix44 sourcel, Matrix44 source2 )
Matrix44.Multiply( Matrix44 destination, number scalar, Matrix44 matrix )
Matrix44.Multiply( Matrix44 destination, Matrix44 matrix, number scalar )
Arguments
sourcel - The first matrix argument for the multiplication.source2 - The second matrix argument for the multiplication.scalar - Scalar to
multiply.matrix - Matrix to multiply.
Return Values
None
Description
Performs a matrix multiply with sourcel and source2, or a scalar multiply with scalar and matrix, storing the result in destination. Equivalent to
destination = sourcel * source2 or destination = scalar * matrix, but the operator syntax will allocate the destination automatically.
Examples
srcl = Matrix44.Create ()
src2 = Matrix44.Create ()
dst = Matrix44.Create ()
Matrix44.Multiply( dst, srcl, src2 )
Matrix44.Multiply( dst, srcl, 0.5 )
Matrix44.Multiply( dst, 2, src2 )
See Also
None
Matrix44.0rthonormalize
Brief
Orthonormalizes the source matrix storing it in destination.
Definition
Matrix44.Orthonormalize( Matrix44 destination, Matrix44 source, string axisPriority )
Arguments
destination - The matrix to receive the orthonormalized matrix. Can be the source matrix.source - The matrix to orthonormalize.axisPriority - A
string representing the axis priority of the operation, eg "yxz".
Return Values
None
Description
Orthonormalizes the source matrix storing it in destination. The first letter in the axis priority string specifies the axis whose direction will not be
changed due to the orthogonalisation. The last specifies the axis whose direction will change the most due to the orthogonalisation. Note that if it
is only necessary to remove scale, it is enough to normalise the three basis vectors rather than calling this function.
Examples
matrix = Matrix44.Create()
Matrix44.Orthonormalize( matrix, matrix ) � Self orthonormalize.
See Also
None
Matrix44.SetAxisRotation
Brief
Sets up a rotation matrix around a specified axis and angle.
Definition
Matrix44.SetAxisRotation( Matrix44 matrix, Vector4 rotationXyz, number angle = 0, number setType =
MATRIX_POSTMULTIPLY )
Matrix44.SetAxisRotation( Matrix44 matrix, number axisX = 1, number axisY = 1, number axisZ = 1,
number angle = 0, number setType = MATRIX_POSTMULTIPLY )
Arguments
matrix - The matrix to be rotated.rotationXyz - A vector containing the axis to rotate about.angle - The angle in degrees to rotate around the
axis.axisX - The x element of the axis.axisY - The y element of the axis.axisZ - The z element of the axis.setType - How to set the matrix. Must be
either MATRIX_POSTMULTIPLY, MATRIX_PREMULTIPLY, or MATRIX_REPLACE.
Return Values
None
Description
Sets up a rotation matrix around a specified axis and angle. Depending on the set type it either post multiplies the current matrix by the rotation
matrix (matrix = matrix * rotation), pre multiplies the current matrix by the rotation matrix (matrix = rotation * matrix) or simply sets the current
matrix to the rotation matrix (matrix = rotation). Non normalized axes are automatically normalized.
Examples
matrix = Matrix44.Create()
Matrix4 4.SetAxisRotation( matrix, 0.5, 0.5, 0, 90, MATRIX_REPLACE )
See Also
None
Matrix44.Setldentity
Brief
Sets the matrix to the identity matrix.
Definition
Matrix44.Setldentity( Matrix44 matrix )
Arguments
matrix - The matrix to set to identity.
Return Values
None
Description
Sets the matrix to the identity matrix.
Examples
! matrix = Matrix44.Create()
; Matrix44.Setldentity( matrix )
See Also
� Matrix44.lsldentity
Matrix44.SetRotationQuat
Brief
Sets up a rotation matrix using the specified quaternion.
Definition
Matrix44.SetRotationQuat( Matrix44 matrix, Quaternion quat, number setType = MATRIX_POSTMULTIPLY )
Arguments
matrix - The matrix to be rotated.quat - The quaternion to convert.setType - How to set the matrix. Must be either MATRIX_POSTMULTIPLY,
MATRIX_PREMULTIPLY, or MATRIX_REPLACE.
Return Values
None
Description
Sets up a rotation matrix using a specified quaternion. Depending on the set type it either post multiplies the current matrix by the rotation matrix
(matrix = matrix * rotation), pre multiplies the current matrix by the rotation matrix (matrix = rotation * matrix) or simply sets the current matrix to
the rotation matrix (matrix = rotation).
Examples
matrix = Matrix44.Create()
quat = Quaternion.Create()
Matrix44.SetRotationQuat( matrix, quat, MATRIX_REPLACE )
See Also
None
Matrix44.SetRotationXyz
Brief
Sets up a rotation matrix from x, y, and z euler angles specified in degrees.
Definition
Matrix44.SetRotationXyz( Matrix44 matrix, Vector4 rotationXyz, number setType = MATRIX_POSTMULTIPLY )
Matrix44.SetRotationXyz( Matrix44 matrix, number rotationX = 1, number rotationY = 1, number rotationZ
= 1, number setType = MATRIX_POSTMULTIPLY )
Arguments
matrix - The matrix to be rotated.rotationXyz - A vector containing the x, y and z euler angles in degrees to set the rotation matrix to.rotationX - A
number containing the x euler angle in degrees to set the rotation matrix to.rotationY - A number containing the x euler angle in degrees to set the
rotation matrix to.rotationZ - A number containing the x euler angle in degrees to set the rotation matrix to.setType - How to set the matrix. Must
be either MATRIX_POSTMULTIPLY, MATRIX_PREMULTIPLY, or MATRIX_REPLACE.
Return Values
None
Description
Sets up a rotation matrix from x, y, and z euler angles specified in degrees. Depending on the set type it either post multiplies the current matrix
by the rotation matrix (matrix = matrix * rotation), pre multiplies the current matrix by the rotation matrix (matrix = rotation * matrix) or simply sets
the current matrix to the rotation matrix (matrix = rotation). The rotation order is x, y, z.
Examples
matrix = Matrix44.Create()
Matrix44.SetRotationXyz( matrix, 45, 90, 180, MATRIX_REPLACE )
See Also
None
Matrix44.SetRow
Brief
Sets the specified row of the matrix.
Definition
Matrix44.SetRow( Matrix44 matrix, number row, Vector4 value )
Matrix44.SetRow( Matrix44 matrix, number row, number eleml, number elem2, number elem3, number elem4 )
Arguments
matrix - The matrix to be updated.row - The row to set, ranging from 1 to 4.value - A 4 dimensional vector that is copied into the first row of the
matrix.eleml - Value to set column 1 of the specified row of the matrix.elem2 - Value to set column 2 of the specified row of the matrix.elem3 -
Value to set column 3 of the specified row of the matrix.elem4 - Value to set column 4 of the specified row of the matrix.
Return Values
None
Description
Sets the specified row of the matrix.
Examples
mat = Matrix44.Create ()
� Example 1: Set via vector
vec = Vector4.Create( 1, 2, 3, 4 )
Matrix44.SetRow( mat, 3, vec )
� Example 2: Set via numbers
Matrix44.SetRow( mat, 3, 1, 2, 3, 4 )
See Also
� Matrix44.GetRow
Matrix44.SetScale
Brief
Sets up a scale matrix.
Definition
Matrix44.SetScale( Matrix44 matrix, Vector4 scaleXyzw, number setType = MATRIX_POSTMULTIPLY )
Matrix44.SetScale( Matrix44 matrix, number scaleX = 1, number scaleY = 1, number scaleZ = 1, number
scaleW = 1, number setType = MATRIX_POSTMULTIPLY )
Arguments
matrix - The matrix to be scaled.scaleXyzw - A vector containing the x, y, z and w scale to set the matrix to.scaleX - A number containing the x
scale to set the matrix to.scaleY - A number containing the y scale to set the matrix to.scaleZ - A number containing the z scale to set the matrix
to.scaleW - A number containing the w scale to set the matrix to.setType - How to set the matrix. Must be either MATRIX_POSTMULTIPLY,
MATRIX_PREMULTIPLY, or MATRIX_REPLACE.
Return Values
None
Description
Sets up a scale matrix and depending on the set type it either post multiplies the current matrix by the scale matrix (matrix = matrix * scale), pre
multiplies the current matrix by the scale matrix (matrix = scale * matrix) or simply sets the current matrix to the scale matrix (matrix = scale).
Examples
matrix = Matrix44.Create()
Matrix44.SetScale( matrix, 4, 3, 2, 1, MATRIX_REPLACE )
See Also
None
Matrix44.SetT ranslation
Brief
Sets up a translation matrix
Definition
Matrix44.SetTranslation( Matrix44 matrix, Vector4 translationXyz, number setType = MATRIX_POSTMULTIPLY
)
Matrix44.SetTranslation( Matrix44 matrix, number translationX = 1, number translationY = 1, number
translationZ = 1, number setType = MATRIX_POSTMULTIPLY )
Arguments
matrix - The matrix to be translated.translationXyz - A vector containing the x, y, and z translation to set the matrix to.translationX - A number
containing the x translation to set the matrix to.translationY - A number containing the y translation to set the matrix to.translationZ - A number
containing the z translation to set the matrix to.setType - How to set the matrix. Must be either MATRIX_POSTMULTIPLY,
MATRIX_PREMULTIPLY, or MATRIX_REPLACE.
Return Values
None
Description
Sets up a translation matrix and depending on the set type it either post multiplies the current matrix by the translation matrix (matrix = matrix *
translation), pre multiplies the current matrix by the translation matrix (matrix = translation * matrix) or simply sets the current matrix to the
translation matrix (matrix = translation).
Examples
matrix = Matrix44.Create()
Matrix44.SetTranslation( matrix, 5, 10, 5, MATRIX_REPLACE )
See Also
None
Matrix44.Subtract
Brief
Performs a matrix subtraction with sourcel and source2 storing the result in destination.
Definition
Matrix44.Subtract( Matrix44 destination, Matrix44 sourcel, Matrix44 source2 )
Arguments
destination - Matrix to receive the result.sourcel - The first matrix argument for the subtraction.source2 - The second matrix argument for the
subtraction.
Return Values
None.
Description
Performs a matrix subtraction with sourcel and source2 storing the result in destination. Equivalent to destination = sourcel - source2, but the
operator syntax will allocate the destination automatically.
Examples
srcl = Matrix44.Create ()
src2 = Matrix44.Create ()
dst = Matrix44.Create ()
Matrix44.Subtract( dst, srcl, src2 )
See Also
� Matrix44.Add
Matrix44.T ranspose
Brief
Transposes the source matrix storing it in destination.
Definition
Matrix44.Transpose( Matrix44 destination, Matrix44 source )
Arguments
destination - The matrix to receive the transposed matrix. Can be the source matrix.source - The matrix to transpose.
Return Values
None
Description
Transposes the source matrix storing it in destination.
Examples
! matrix = Matrix44.Create()
; Matrix44.Transpose( matrix, matrix ) � Self transpose.
See Also