minieigen documentation

Overview

Todo

Something concise here.

Examples

Todo

Some examples of what can be done with minieigen.

Naming conventions

Limitations

  • Type conversions (e.g. float to complex) are not supported.
  • Methods returning references in c++ return values in Python (so e.g. Matrix3().diagonal()[2]=0 would zero the last diagonal element in c++ but not in Python).
  • Many methods are not wrapped, though they are fairly easy to add.
  • Conversion from 1-column MatrixX to VectorX is not automatic in places where the algebra requires it.
  • Alignment of matrices is not supported (therefore Eigen cannot vectorize the code well); it might be a performance issue in some cases; c++ code interfacing with minieigen (in a way that c++ values can be set from Python) must compile with EIGEN_DONT_ALIGN, otherwise there might be crashes at runtime when vector instructions receive unaligned data. It seems that alignment is difficult to do with boost::python.
  • Proper automatic tests are missing.

Documentation

miniEigen is wrapper for a small part of the Eigen library. Refer to its documentation for details. All classes in this module support pickling.

class minieigen.AlignedBox2

Axis-aligned box object in 2d, defined by its minimum and maximum corners

center((AlignedBox2)arg1) → Vector2 [STATIC]
clamp((AlignedBox2)arg1, (AlignedBox2)arg2) → None [STATIC]
contains((AlignedBox2)arg1, (Vector2)arg2) → bool [STATIC]

contains( (AlignedBox2)arg1, (AlignedBox2)arg2) → bool

empty((AlignedBox2)arg1) → bool [STATIC]
extend((AlignedBox2)arg1, (Vector2)arg2) → None [STATIC]

extend( (AlignedBox2)arg1, (AlignedBox2)arg2) → None

intersection((AlignedBox2)arg1, (AlignedBox2)arg2) → AlignedBox2 [STATIC]
max
merged((AlignedBox2)arg1, (AlignedBox2)arg2) → AlignedBox2 [STATIC]
min
sizes((AlignedBox2)arg1) → Vector2 [STATIC]
volume((AlignedBox2)arg1) → float [STATIC]
class minieigen.AlignedBox3

Axis-aligned box object, defined by its minimum and maximum corners

center((AlignedBox3)arg1) → Vector3 [STATIC]
clamp((AlignedBox3)arg1, (AlignedBox3)arg2) → None [STATIC]
contains((AlignedBox3)arg1, (Vector3)arg2) → bool [STATIC]

contains( (AlignedBox3)arg1, (AlignedBox3)arg2) → bool

empty((AlignedBox3)arg1) → bool [STATIC]
extend((AlignedBox3)arg1, (Vector3)arg2) → None [STATIC]

extend( (AlignedBox3)arg1, (AlignedBox3)arg2) → None

intersection((AlignedBox3)arg1, (AlignedBox3)arg2) → AlignedBox3 [STATIC]
max
merged((AlignedBox3)arg1, (AlignedBox3)arg2) → AlignedBox3 [STATIC]
min
sizes((AlignedBox3)arg1) → Vector3 [STATIC]
volume((AlignedBox3)arg1) → float [STATIC]
class minieigen.Matrix3

3x3 float matrix.

Supported operations (m is a Matrix3, f if a float/int, v is a Vector3): -m, m+m, m+=m, m-m, m-=m, m*f, f*m, m*=f, m/f, m/=f, m*m, m*=m, m*v, v*m, m==m, m!=m.

Static attributes: Zero, Ones, Identity.

Identity = Matrix3(1,0,0, 0,1,0, 0,0,1)
Ones = Matrix3(1,1,1, 1,1,1, 1,1,1)
static Random() → Matrix3 [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

Zero = Matrix3(0,0,0, 0,0,0, 0,0,0)
col((Matrix3)arg1, (int)col) → Vector3 [STATIC]

Return column as vector.

cols((Matrix3)arg1) → int [STATIC]

Number of columns.

computeUnitaryPositive((Matrix3)arg1) → tuple [STATIC]

Compute polar decomposition (unitary matrix U and positive semi-definite symmetric matrix P such that self=U*P).

determinant((Matrix3)arg1) → float [STATIC]

Return matrix determinant.

diagonal((Matrix3)arg1) → Vector3 [STATIC]

Return diagonal as vector.

inverse((Matrix3)arg1) → Matrix3 [STATIC]

Return inverted matrix.

isApprox((Matrix3)arg1, (Matrix3)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

jacobiSVD((Matrix3)arg1) → tuple [STATIC]

Compute SVD decomposition of square matrix, retuns (U,S,V) such that self=U*S*V.transpose()

maxAbsCoeff((Matrix3)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((Matrix3)arg1) → float [STATIC]

Maximum value over all elements.

mean((Matrix3)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((Matrix3)arg1) → float [STATIC]

Minimum value over all elements.

norm((Matrix3)arg1) → float [STATIC]

Euclidean norm.

normalize((Matrix3)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Matrix3)arg1) → Matrix3 [STATIC]

Return normalized copy of this object

polarDecomposition((Matrix3)arg1) → tuple [STATIC]

Alias for computeUnitaryPositive.

prod((Matrix3)arg1) → float [STATIC]

Product of all elements.

pruned((Matrix3)arg1[, (float)absTol=1e-06]) → Matrix3 [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

row((Matrix3)arg1, (int)row) → Vector3 [STATIC]

Return row as vector.

rows((Matrix3)arg1) → int [STATIC]

Number of rows.

selfAdjointEigenDecomposition((Matrix3)arg1) → tuple [STATIC]

Compute eigen (spectral) decomposition of symmetric matrix, returns (eigVecs,eigVals). eigVecs is orthogonal Matrix3 with columns ar normalized eigenvectors, eigVals is Vector3 with corresponding eigenvalues. self=eigVecs*diag(eigVals)*eigVecs.transpose().

spectralDecomposition((Matrix3)arg1) → tuple [STATIC]

Alias for selfAdjointEigenDecomposition.

squaredNorm((Matrix3)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Matrix3)arg1) → float [STATIC]

Sum of all elements.

svd((Matrix3)arg1) → tuple [STATIC]

Alias for jacobiSVD.

trace((Matrix3)arg1) → float [STATIC]

Return sum of diagonal elements.

transpose((Matrix3)arg1) → Matrix3 [STATIC]

Return transposed matrix.

class minieigen.Matrix3c

/TODO/

Identity = Matrix3c(1,0,0, 0,1,0, 0,0,1)
Ones = Matrix3c(1,1,1, 1,1,1, 1,1,1)
static Random() → Matrix3c [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

Zero = Matrix3c(0,0,0, 0,0,0, 0,0,0)
col((Matrix3c)arg1, (int)col) → Vector3c [STATIC]

Return column as vector.

cols((Matrix3c)arg1) → int [STATIC]

Number of columns.

determinant((Matrix3c)arg1) → complex [STATIC]

Return matrix determinant.

diagonal((Matrix3c)arg1) → Vector3c [STATIC]

Return diagonal as vector.

inverse((Matrix3c)arg1) → Matrix3c [STATIC]

Return inverted matrix.

isApprox((Matrix3c)arg1, (Matrix3c)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Matrix3c)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((Matrix3c)arg1) → complex [STATIC]

Mean value over all elements.

norm((Matrix3c)arg1) → float [STATIC]

Euclidean norm.

normalize((Matrix3c)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Matrix3c)arg1) → Matrix3c [STATIC]

Return normalized copy of this object

prod((Matrix3c)arg1) → complex [STATIC]

Product of all elements.

pruned((Matrix3c)arg1[, (float)absTol=1e-06]) → Matrix3c [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

row((Matrix3c)arg1, (int)row) → Vector3c [STATIC]

Return row as vector.

rows((Matrix3c)arg1) → int [STATIC]

Number of rows.

squaredNorm((Matrix3c)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Matrix3c)arg1) → complex [STATIC]

Sum of all elements.

trace((Matrix3c)arg1) → complex [STATIC]

Return sum of diagonal elements.

transpose((Matrix3c)arg1) → Matrix3c [STATIC]

Return transposed matrix.

class minieigen.Matrix6

6x6 float matrix. Constructed from 4 3x3 sub-matrices, from 6xVector6 (rows).

Supported operations (m is a Matrix6, f if a float/int, v is a Vector6): -m, m+m, m+=m, m-m, m-=m, m*f, f*m, m*=f, m/f, m/=f, m*m, m*=m, m*v, v*m, m==m, m!=m.

Static attributes: Zero, Ones, Identity.

Identity = Matrix6( ( 1, 0, 0, 0, 0, 0), ( 0, 1, 0, 0, 0, 0), ( 0, 0, 1, 0, 0, 0), ( 0, 0, 0, 1, 0, 0), ( 0, 0, 0, 0, 1, 0), ( 0, 0, 0, 0, 0, 1) )
Ones = Matrix6( ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1) )
static Random() → Matrix6 [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

Zero = Matrix6( ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0) )
col((Matrix6)arg1, (int)col) → Vector6 [STATIC]

Return column as vector.

cols((Matrix6)arg1) → int [STATIC]

Number of columns.

computeUnitaryPositive((Matrix6)arg1) → tuple [STATIC]

Compute polar decomposition (unitary matrix U and positive semi-definite symmetric matrix P such that self=U*P).

determinant((Matrix6)arg1) → float [STATIC]

Return matrix determinant.

diagonal((Matrix6)arg1) → Vector6 [STATIC]

Return diagonal as vector.

inverse((Matrix6)arg1) → Matrix6 [STATIC]

Return inverted matrix.

isApprox((Matrix6)arg1, (Matrix6)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

jacobiSVD((Matrix6)arg1) → tuple [STATIC]

Compute SVD decomposition of square matrix, retuns (U,S,V) such that self=U*S*V.transpose()

ll((Matrix6)arg1) → Matrix3 [STATIC]

Return lower-left 3x3 block

lr((Matrix6)arg1) → Matrix3 [STATIC]

Return lower-right 3x3 block

maxAbsCoeff((Matrix6)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((Matrix6)arg1) → float [STATIC]

Maximum value over all elements.

mean((Matrix6)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((Matrix6)arg1) → float [STATIC]

Minimum value over all elements.

norm((Matrix6)arg1) → float [STATIC]

Euclidean norm.

normalize((Matrix6)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Matrix6)arg1) → Matrix6 [STATIC]

Return normalized copy of this object

polarDecomposition((Matrix6)arg1) → tuple [STATIC]

Alias for computeUnitaryPositive.

prod((Matrix6)arg1) → float [STATIC]

Product of all elements.

pruned((Matrix6)arg1[, (float)absTol=1e-06]) → Matrix6 [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

row((Matrix6)arg1, (int)row) → Vector6 [STATIC]

Return row as vector.

rows((Matrix6)arg1) → int [STATIC]

Number of rows.

selfAdjointEigenDecomposition((Matrix6)arg1) → tuple [STATIC]

Compute eigen (spectral) decomposition of symmetric matrix, returns (eigVecs,eigVals). eigVecs is orthogonal Matrix3 with columns ar normalized eigenvectors, eigVals is Vector3 with corresponding eigenvalues. self=eigVecs*diag(eigVals)*eigVecs.transpose().

spectralDecomposition((Matrix6)arg1) → tuple [STATIC]

Alias for selfAdjointEigenDecomposition.

squaredNorm((Matrix6)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Matrix6)arg1) → float [STATIC]

Sum of all elements.

svd((Matrix6)arg1) → tuple [STATIC]

Alias for jacobiSVD.

trace((Matrix6)arg1) → float [STATIC]

Return sum of diagonal elements.

transpose((Matrix6)arg1) → Matrix6 [STATIC]

Return transposed matrix.

ul((Matrix6)arg1) → Matrix3 [STATIC]

Return upper-left 3x3 block

ur((Matrix6)arg1) → Matrix3 [STATIC]

Return upper-right 3x3 block

class minieigen.Matrix6c

/TODO/

Identity = Matrix6c( ( 1, 0, 0, 0, 0, 0), ( 0, 1, 0, 0, 0, 0), ( 0, 0, 1, 0, 0, 0), ( 0, 0, 0, 1, 0, 0), ( 0, 0, 0, 0, 1, 0), ( 0, 0, 0, 0, 0, 1) )
Ones = Matrix6c( ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1), ( 1, 1, 1, 1, 1, 1) )
static Random() → Matrix6c [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

Zero = Matrix6c( ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0), ( 0, 0, 0, 0, 0, 0) )
col((Matrix6c)arg1, (int)col) → Vector6c [STATIC]

Return column as vector.

cols((Matrix6c)arg1) → int [STATIC]

Number of columns.

determinant((Matrix6c)arg1) → complex [STATIC]

Return matrix determinant.

diagonal((Matrix6c)arg1) → Vector6c [STATIC]

Return diagonal as vector.

inverse((Matrix6c)arg1) → Matrix6c [STATIC]

Return inverted matrix.

isApprox((Matrix6c)arg1, (Matrix6c)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

ll((Matrix6c)arg1) → Matrix3c [STATIC]

Return lower-left 3x3 block

lr((Matrix6c)arg1) → Matrix3c [STATIC]

Return lower-right 3x3 block

maxAbsCoeff((Matrix6c)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((Matrix6c)arg1) → complex [STATIC]

Mean value over all elements.

norm((Matrix6c)arg1) → float [STATIC]

Euclidean norm.

normalize((Matrix6c)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Matrix6c)arg1) → Matrix6c [STATIC]

Return normalized copy of this object

prod((Matrix6c)arg1) → complex [STATIC]

Product of all elements.

pruned((Matrix6c)arg1[, (float)absTol=1e-06]) → Matrix6c [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

row((Matrix6c)arg1, (int)row) → Vector6c [STATIC]

Return row as vector.

rows((Matrix6c)arg1) → int [STATIC]

Number of rows.

squaredNorm((Matrix6c)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Matrix6c)arg1) → complex [STATIC]

Sum of all elements.

trace((Matrix6c)arg1) → complex [STATIC]

Return sum of diagonal elements.

transpose((Matrix6c)arg1) → Matrix6c [STATIC]

Return transposed matrix.

ul((Matrix6c)arg1) → Matrix3c [STATIC]

Return upper-left 3x3 block

ur((Matrix6c)arg1) → Matrix3c [STATIC]

Return upper-right 3x3 block

class minieigen.MatrixX

XxX (dynamic-sized) float matrix. Constructed from list of rows (as VectorX).

Supported operations (m is a MatrixX, f if a float/int, v is a VectorX): -m, m+m, m+=m, m-m, m-=m, m*f, f*m, m*=f, m/f, m/=f, m*m, m*=m, m*v, v*m, m==m, m!=m.

static Identity((int)arg1, (int)rank) → MatrixX [STATIC]

Create identity matrix with given rank (square).

static Ones((int)rows, (int)cols) → MatrixX [STATIC]

Create matrix of given dimensions where all elements are set to 1.

static Random((int)rows, (int)cols) → MatrixX [STATIC]

Create matrix with given dimensions where all elements are set to number between 0 and 1 (uniformly-distributed).

static Zero((int)rows, (int)cols) → MatrixX [STATIC]

Create zero matrix of given dimensions

col((MatrixX)arg1, (int)col) → VectorX [STATIC]

Return column as vector.

cols((MatrixX)arg1) → int [STATIC]

Number of columns.

computeUnitaryPositive((MatrixX)arg1) → tuple [STATIC]

Compute polar decomposition (unitary matrix U and positive semi-definite symmetric matrix P such that self=U*P).

determinant((MatrixX)arg1) → float [STATIC]

Return matrix determinant.

diagonal((MatrixX)arg1) → VectorX [STATIC]

Return diagonal as vector.

inverse((MatrixX)arg1) → MatrixX [STATIC]

Return inverted matrix.

isApprox((MatrixX)arg1, (MatrixX)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

jacobiSVD((MatrixX)arg1) → tuple [STATIC]

Compute SVD decomposition of square matrix, retuns (U,S,V) such that self=U*S*V.transpose()

maxAbsCoeff((MatrixX)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((MatrixX)arg1) → float [STATIC]

Maximum value over all elements.

mean((MatrixX)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((MatrixX)arg1) → float [STATIC]

Minimum value over all elements.

norm((MatrixX)arg1) → float [STATIC]

Euclidean norm.

normalize((MatrixX)arg1) → None [STATIC]

Normalize this object in-place.

normalized((MatrixX)arg1) → MatrixX [STATIC]

Return normalized copy of this object

polarDecomposition((MatrixX)arg1) → tuple [STATIC]

Alias for computeUnitaryPositive.

prod((MatrixX)arg1) → float [STATIC]

Product of all elements.

pruned((MatrixX)arg1[, (float)absTol=1e-06]) → MatrixX [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

resize((MatrixX)arg1, (int)rows, (int)cols) → None [STATIC]

Change size of the matrix, keep values of elements which exist in the new matrix

row((MatrixX)arg1, (int)row) → VectorX [STATIC]

Return row as vector.

rows((MatrixX)arg1) → int [STATIC]

Number of rows.

selfAdjointEigenDecomposition((MatrixX)arg1) → tuple [STATIC]

Compute eigen (spectral) decomposition of symmetric matrix, returns (eigVecs,eigVals). eigVecs is orthogonal Matrix3 with columns ar normalized eigenvectors, eigVals is Vector3 with corresponding eigenvalues. self=eigVecs*diag(eigVals)*eigVecs.transpose().

spectralDecomposition((MatrixX)arg1) → tuple [STATIC]

Alias for selfAdjointEigenDecomposition.

squaredNorm((MatrixX)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((MatrixX)arg1) → float [STATIC]

Sum of all elements.

svd((MatrixX)arg1) → tuple [STATIC]

Alias for jacobiSVD.

trace((MatrixX)arg1) → float [STATIC]

Return sum of diagonal elements.

transpose((MatrixX)arg1) → MatrixX [STATIC]

Return transposed matrix.

class minieigen.MatrixXc

/TODO/

static Identity((int)arg1, (int)rank) → MatrixXc [STATIC]

Create identity matrix with given rank (square).

static Ones((int)rows, (int)cols) → MatrixXc [STATIC]

Create matrix of given dimensions where all elements are set to 1.

static Random((int)rows, (int)cols) → MatrixXc [STATIC]

Create matrix with given dimensions where all elements are set to number between 0 and 1 (uniformly-distributed).

static Zero((int)rows, (int)cols) → MatrixXc [STATIC]

Create zero matrix of given dimensions

col((MatrixXc)arg1, (int)col) → VectorXc [STATIC]

Return column as vector.

cols((MatrixXc)arg1) → int [STATIC]

Number of columns.

determinant((MatrixXc)arg1) → complex [STATIC]

Return matrix determinant.

diagonal((MatrixXc)arg1) → VectorXc [STATIC]

Return diagonal as vector.

inverse((MatrixXc)arg1) → MatrixXc [STATIC]

Return inverted matrix.

isApprox((MatrixXc)arg1, (MatrixXc)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((MatrixXc)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((MatrixXc)arg1) → complex [STATIC]

Mean value over all elements.

norm((MatrixXc)arg1) → float [STATIC]

Euclidean norm.

normalize((MatrixXc)arg1) → None [STATIC]

Normalize this object in-place.

normalized((MatrixXc)arg1) → MatrixXc [STATIC]

Return normalized copy of this object

prod((MatrixXc)arg1) → complex [STATIC]

Product of all elements.

pruned((MatrixXc)arg1[, (float)absTol=1e-06]) → MatrixXc [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

resize((MatrixXc)arg1, (int)rows, (int)cols) → None [STATIC]

Change size of the matrix, keep values of elements which exist in the new matrix

row((MatrixXc)arg1, (int)row) → VectorXc [STATIC]

Return row as vector.

rows((MatrixXc)arg1) → int [STATIC]

Number of rows.

squaredNorm((MatrixXc)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((MatrixXc)arg1) → complex [STATIC]

Sum of all elements.

trace((MatrixXc)arg1) → complex [STATIC]

Return sum of diagonal elements.

transpose((MatrixXc)arg1) → MatrixXc [STATIC]

Return transposed matrix.

class minieigen.Quaternion

Quaternion representing rotation.

Supported operations (q is a Quaternion, v is a Vector3): q*q (rotation composition), q*=q, q*v (rotating v by q), q==q, q!=q.

Static attributes: Identity.

Identity = Quaternion((1,0,0),0)
Rotate((Quaternion)arg1, (Vector3)v) → Vector3 [STATIC]
angularDistance((Quaternion)arg1, (Quaternion)arg2) → float [STATIC]
conjugate((Quaternion)arg1) → Quaternion [STATIC]
inverse((Quaternion)arg1) → Quaternion [STATIC]
norm((Quaternion)arg1) → float [STATIC]
normalize((Quaternion)arg1) → None [STATIC]
normalized((Quaternion)arg1) → Quaternion [STATIC]
setFromTwoVectors((Quaternion)arg1, (Vector3)u, (Vector3)v) → None [STATIC]
slerp((Quaternion)arg1, (float)t, (Quaternion)other) → Quaternion [STATIC]
toAngleAxis((Quaternion)arg1) → tuple [STATIC]
toAxisAngle((Quaternion)arg1) → tuple [STATIC]
toRotationMatrix((Quaternion)arg1) → Matrix3 [STATIC]
toRotationVector((Quaternion)arg1) → Vector3 [STATIC]
class minieigen.Vector2

3-dimensional float vector.

Supported operations (f if a float/int, v is a Vector3): -v, v+v, v+=v, v-v, v-=v, v*f, f*v, v*=f, v/f, v/=f, v==v, v!=v.

Implicit conversion from sequence (list, tuple, …) of 2 floats.

Static attributes: Zero, Ones, UnitX, UnitY.

Identity = Vector2(1,0)
Ones = Vector2(1,1)
static Random() → Vector2 [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector2 [STATIC]
UnitX = Vector2(1,0)
UnitY = Vector2(0,1)
Zero = Vector2(0,0)
asDiagonal((Vector2)arg1) → object [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector2)arg1) → int [STATIC]

Number of columns.

dot((Vector2)arg1, (Vector2)other) → float [STATIC]

Dot product with other.

isApprox((Vector2)arg1, (Vector2)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector2)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((Vector2)arg1) → float [STATIC]

Maximum value over all elements.

mean((Vector2)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((Vector2)arg1) → float [STATIC]

Minimum value over all elements.

norm((Vector2)arg1) → float [STATIC]

Euclidean norm.

normalize((Vector2)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Vector2)arg1) → Vector2 [STATIC]

Return normalized copy of this object

outer((Vector2)arg1, (Vector2)other) → object [STATIC]

Outer product with other.

prod((Vector2)arg1) → float [STATIC]

Product of all elements.

pruned((Vector2)arg1[, (float)absTol=1e-06]) → Vector2 [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

rows((Vector2)arg1) → int [STATIC]

Number of rows.

squaredNorm((Vector2)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Vector2)arg1) → float [STATIC]

Sum of all elements.

class minieigen.Vector2c

/TODO/

Identity = Vector2c(1,0)
Ones = Vector2c(1,1)
static Random() → Vector2c [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector2c [STATIC]
UnitX = Vector2c(1,0)
UnitY = Vector2c(0,1)
Zero = Vector2c(0,0)
asDiagonal((Vector2c)arg1) → object [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector2c)arg1) → int [STATIC]

Number of columns.

dot((Vector2c)arg1, (Vector2c)other) → complex [STATIC]

Dot product with other.

isApprox((Vector2c)arg1, (Vector2c)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector2c)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((Vector2c)arg1) → complex [STATIC]

Mean value over all elements.

norm((Vector2c)arg1) → float [STATIC]

Euclidean norm.

normalize((Vector2c)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Vector2c)arg1) → Vector2c [STATIC]

Return normalized copy of this object

outer((Vector2c)arg1, (Vector2c)other) → object [STATIC]

Outer product with other.

prod((Vector2c)arg1) → complex [STATIC]

Product of all elements.

pruned((Vector2c)arg1[, (float)absTol=1e-06]) → Vector2c [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

rows((Vector2c)arg1) → int [STATIC]

Number of rows.

squaredNorm((Vector2c)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Vector2c)arg1) → complex [STATIC]

Sum of all elements.

class minieigen.Vector2i

2-dimensional integer vector.

Supported operations (i if an int, v is a Vector2i): -v, v+v, v+=v, v-v, v-=v, v*i, i*v, v*=i, v==v, v!=v.

Implicit conversion from sequence (list, tuple, …) of 2 integers.

Static attributes: Zero, Ones, UnitX, UnitY.

Identity = Vector2i(1,0)
Ones = Vector2i(1,1)
static Random() → Vector2i [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector2i [STATIC]
UnitX = Vector2i(1,0)
UnitY = Vector2i(0,1)
Zero = Vector2i(0,0)
asDiagonal((Vector2i)arg1) → object [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector2i)arg1) → int [STATIC]

Number of columns.

dot((Vector2i)arg1, (Vector2i)other) → int [STATIC]

Dot product with other.

isApprox((Vector2i)arg1, (Vector2i)other[, (int)prec=0]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector2i)arg1) → int [STATIC]

Maximum absolute value over all elements.

maxCoeff((Vector2i)arg1) → int [STATIC]

Maximum value over all elements.

mean((Vector2i)arg1) → int [STATIC]

Mean value over all elements.

minCoeff((Vector2i)arg1) → int [STATIC]

Minimum value over all elements.

outer((Vector2i)arg1, (Vector2i)other) → object [STATIC]

Outer product with other.

prod((Vector2i)arg1) → int [STATIC]

Product of all elements.

rows((Vector2i)arg1) → int [STATIC]

Number of rows.

sum((Vector2i)arg1) → int [STATIC]

Sum of all elements.

class minieigen.Vector3

3-dimensional float vector.

Supported operations (f if a float/int, v is a Vector3): -v, v+v, v+=v, v-v, v-=v, v*f, f*v, v*=f, v/f, v/=f, v==v, v!=v, plus operations with Matrix3 and Quaternion.

Implicit conversion from sequence (list, tuple, …) of 3 floats.

Static attributes: Zero, Ones, UnitX, UnitY, UnitZ.

Identity = Vector3(1,0,0)
Ones = Vector3(1,1,1)
static Random() → Vector3 [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector3 [STATIC]
UnitX = Vector3(1,0,0)
UnitY = Vector3(0,1,0)
UnitZ = Vector3(0,0,1)
Zero = Vector3(0,0,0)
asDiagonal((Vector3)arg1) → Matrix3 [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector3)arg1) → int [STATIC]

Number of columns.

cross((Vector3)arg1, (Vector3)arg2) → Vector3 [STATIC]
dot((Vector3)arg1, (Vector3)other) → float [STATIC]

Dot product with other.

isApprox((Vector3)arg1, (Vector3)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector3)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((Vector3)arg1) → float [STATIC]

Maximum value over all elements.

mean((Vector3)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((Vector3)arg1) → float [STATIC]

Minimum value over all elements.

norm((Vector3)arg1) → float [STATIC]

Euclidean norm.

normalize((Vector3)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Vector3)arg1) → Vector3 [STATIC]

Return normalized copy of this object

outer((Vector3)arg1, (Vector3)other) → Matrix3 [STATIC]

Outer product with other.

prod((Vector3)arg1) → float [STATIC]

Product of all elements.

pruned((Vector3)arg1[, (float)absTol=1e-06]) → Vector3 [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

rows((Vector3)arg1) → int [STATIC]

Number of rows.

squaredNorm((Vector3)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Vector3)arg1) → float [STATIC]

Sum of all elements.

xy((Vector3)arg1) → Vector2 [STATIC]
xz((Vector3)arg1) → Vector2 [STATIC]
yx((Vector3)arg1) → Vector2 [STATIC]
yz((Vector3)arg1) → Vector2 [STATIC]
zx((Vector3)arg1) → Vector2 [STATIC]
zy((Vector3)arg1) → Vector2 [STATIC]
class minieigen.Vector3c

/TODO/

Identity = Vector3c(1,0,0)
Ones = Vector3c(1,1,1)
static Random() → Vector3c [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector3c [STATIC]
UnitX = Vector3c(1,0,0)
UnitY = Vector3c(0,1,0)
UnitZ = Vector3c(0,0,1)
Zero = Vector3c(0,0,0)
asDiagonal((Vector3c)arg1) → Matrix3c [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector3c)arg1) → int [STATIC]

Number of columns.

cross((Vector3c)arg1, (Vector3c)arg2) → Vector3c [STATIC]
dot((Vector3c)arg1, (Vector3c)other) → complex [STATIC]

Dot product with other.

isApprox((Vector3c)arg1, (Vector3c)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector3c)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((Vector3c)arg1) → complex [STATIC]

Mean value over all elements.

norm((Vector3c)arg1) → float [STATIC]

Euclidean norm.

normalize((Vector3c)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Vector3c)arg1) → Vector3c [STATIC]

Return normalized copy of this object

outer((Vector3c)arg1, (Vector3c)other) → Matrix3c [STATIC]

Outer product with other.

prod((Vector3c)arg1) → complex [STATIC]

Product of all elements.

pruned((Vector3c)arg1[, (float)absTol=1e-06]) → Vector3c [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

rows((Vector3c)arg1) → int [STATIC]

Number of rows.

squaredNorm((Vector3c)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Vector3c)arg1) → complex [STATIC]

Sum of all elements.

xy((Vector3c)arg1) → Vector2c [STATIC]
xz((Vector3c)arg1) → Vector2c [STATIC]
yx((Vector3c)arg1) → Vector2c [STATIC]
yz((Vector3c)arg1) → Vector2c [STATIC]
zx((Vector3c)arg1) → Vector2c [STATIC]
zy((Vector3c)arg1) → Vector2c [STATIC]
class minieigen.Vector3i

3-dimensional integer vector.

Supported operations (i if an int, v is a Vector3i): -v, v+v, v+=v, v-v, v-=v, v*i, i*v, v*=i, v==v, v!=v.

Implicit conversion from sequence (list, tuple, …) of 3 integers.

Static attributes: Zero, Ones, UnitX, UnitY, UnitZ.

Identity = Vector3i(1,0,0)
Ones = Vector3i(1,1,1)
static Random() → Vector3i [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector3i [STATIC]
UnitX = Vector3i(1,0,0)
UnitY = Vector3i(0,1,0)
UnitZ = Vector3i(0,0,1)
Zero = Vector3i(0,0,0)
asDiagonal((Vector3i)arg1) → object [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector3i)arg1) → int [STATIC]

Number of columns.

cross((Vector3i)arg1, (Vector3i)arg2) → Vector3i [STATIC]
dot((Vector3i)arg1, (Vector3i)other) → int [STATIC]

Dot product with other.

isApprox((Vector3i)arg1, (Vector3i)other[, (int)prec=0]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector3i)arg1) → int [STATIC]

Maximum absolute value over all elements.

maxCoeff((Vector3i)arg1) → int [STATIC]

Maximum value over all elements.

mean((Vector3i)arg1) → int [STATIC]

Mean value over all elements.

minCoeff((Vector3i)arg1) → int [STATIC]

Minimum value over all elements.

outer((Vector3i)arg1, (Vector3i)other) → object [STATIC]

Outer product with other.

prod((Vector3i)arg1) → int [STATIC]

Product of all elements.

rows((Vector3i)arg1) → int [STATIC]

Number of rows.

sum((Vector3i)arg1) → int [STATIC]

Sum of all elements.

xy((Vector3i)arg1) → Vector2i [STATIC]
xz((Vector3i)arg1) → Vector2i [STATIC]
yx((Vector3i)arg1) → Vector2i [STATIC]
yz((Vector3i)arg1) → Vector2i [STATIC]
zx((Vector3i)arg1) → Vector2i [STATIC]
zy((Vector3i)arg1) → Vector2i [STATIC]
class minieigen.Vector6

6-dimensional float vector.

Supported operations (f if a float/int, v is a Vector6): -v, v+v, v+=v, v-v, v-=v, v*f, f*v, v*=f, v/f, v/=f, v==v, v!=v.

Implicit conversion from sequence (list, tuple, …) of 6 floats.

Static attributes: Zero, Ones.

Identity = Vector6(1,0,0, 0,0,0)
Ones = Vector6(1,1,1, 1,1,1)
static Random() → Vector6 [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector6 [STATIC]
Zero = Vector6(0,0,0, 0,0,0)
asDiagonal((Vector6)arg1) → Matrix6 [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector6)arg1) → int [STATIC]

Number of columns.

dot((Vector6)arg1, (Vector6)other) → float [STATIC]

Dot product with other.

head((Vector6)arg1) → Vector3 [STATIC]
isApprox((Vector6)arg1, (Vector6)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector6)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((Vector6)arg1) → float [STATIC]

Maximum value over all elements.

mean((Vector6)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((Vector6)arg1) → float [STATIC]

Minimum value over all elements.

norm((Vector6)arg1) → float [STATIC]

Euclidean norm.

normalize((Vector6)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Vector6)arg1) → Vector6 [STATIC]

Return normalized copy of this object

outer((Vector6)arg1, (Vector6)other) → Matrix6 [STATIC]

Outer product with other.

prod((Vector6)arg1) → float [STATIC]

Product of all elements.

pruned((Vector6)arg1[, (float)absTol=1e-06]) → Vector6 [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

rows((Vector6)arg1) → int [STATIC]

Number of rows.

squaredNorm((Vector6)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Vector6)arg1) → float [STATIC]

Sum of all elements.

tail((Vector6)arg1) → Vector3 [STATIC]
class minieigen.Vector6c

/TODO/

Identity = Vector6c(1,0,0, 0,0,0)
Ones = Vector6c(1,1,1, 1,1,1)
static Random() → Vector6c [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector6c [STATIC]
Zero = Vector6c(0,0,0, 0,0,0)
asDiagonal((Vector6c)arg1) → Matrix6c [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector6c)arg1) → int [STATIC]

Number of columns.

dot((Vector6c)arg1, (Vector6c)other) → complex [STATIC]

Dot product with other.

head((Vector6c)arg1) → Vector3c [STATIC]
isApprox((Vector6c)arg1, (Vector6c)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector6c)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((Vector6c)arg1) → complex [STATIC]

Mean value over all elements.

norm((Vector6c)arg1) → float [STATIC]

Euclidean norm.

normalize((Vector6c)arg1) → None [STATIC]

Normalize this object in-place.

normalized((Vector6c)arg1) → Vector6c [STATIC]

Return normalized copy of this object

outer((Vector6c)arg1, (Vector6c)other) → Matrix6c [STATIC]

Outer product with other.

prod((Vector6c)arg1) → complex [STATIC]

Product of all elements.

pruned((Vector6c)arg1[, (float)absTol=1e-06]) → Vector6c [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

rows((Vector6c)arg1) → int [STATIC]

Number of rows.

squaredNorm((Vector6c)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((Vector6c)arg1) → complex [STATIC]

Sum of all elements.

tail((Vector6c)arg1) → Vector3c [STATIC]
class minieigen.Vector6i

6-dimensional float vector.

Supported operations (f if a float/int, v is a Vector6): -v, v+v, v+=v, v-v, v-=v, v*f, f*v, v*=f, v/f, v/=f, v==v, v!=v.

Implicit conversion from sequence (list, tuple, …) of 6 floats.

Static attributes: Zero, Ones.

Identity = Vector6i(1,0,0, 0,0,0)
Ones = Vector6i(1,1,1, 1,1,1)
static Random() → Vector6i [STATIC]

Return an object where all elements are randomly set to values between 0 and 1.

static Unit((int)arg1) → Vector6i [STATIC]
Zero = Vector6i(0,0,0, 0,0,0)
asDiagonal((Vector6i)arg1) → object [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((Vector6i)arg1) → int [STATIC]

Number of columns.

dot((Vector6i)arg1, (Vector6i)other) → int [STATIC]

Dot product with other.

head((Vector6i)arg1) → Vector3i [STATIC]
isApprox((Vector6i)arg1, (Vector6i)other[, (int)prec=0]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((Vector6i)arg1) → int [STATIC]

Maximum absolute value over all elements.

maxCoeff((Vector6i)arg1) → int [STATIC]

Maximum value over all elements.

mean((Vector6i)arg1) → int [STATIC]

Mean value over all elements.

minCoeff((Vector6i)arg1) → int [STATIC]

Minimum value over all elements.

outer((Vector6i)arg1, (Vector6i)other) → object [STATIC]

Outer product with other.

prod((Vector6i)arg1) → int [STATIC]

Product of all elements.

rows((Vector6i)arg1) → int [STATIC]

Number of rows.

sum((Vector6i)arg1) → int [STATIC]

Sum of all elements.

tail((Vector6i)arg1) → Vector3i [STATIC]
class minieigen.VectorX

Dynamic-sized float vector.

Supported operations (f if a float/int, v is a VectorX): -v, v+v, v+=v, v-v, v-=v, v*f, f*v, v*=f, v/f, v/=f, v==v, v!=v.

Implicit conversion from sequence (list, tuple, …) of X floats.

static Ones((int)arg1) → VectorX [STATIC]
static Random((int)len) → VectorX [STATIC]

Return vector of given length with all elements set to values between 0 and 1 randomly.

static Unit((int)arg1, (int)arg2) → VectorX [STATIC]
static Zero((int)arg1) → VectorX [STATIC]
asDiagonal((VectorX)arg1) → MatrixX [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((VectorX)arg1) → int [STATIC]

Number of columns.

dot((VectorX)arg1, (VectorX)other) → float [STATIC]

Dot product with other.

isApprox((VectorX)arg1, (VectorX)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((VectorX)arg1) → float [STATIC]

Maximum absolute value over all elements.

maxCoeff((VectorX)arg1) → float [STATIC]

Maximum value over all elements.

mean((VectorX)arg1) → float [STATIC]

Mean value over all elements.

minCoeff((VectorX)arg1) → float [STATIC]

Minimum value over all elements.

norm((VectorX)arg1) → float [STATIC]

Euclidean norm.

normalize((VectorX)arg1) → None [STATIC]

Normalize this object in-place.

normalized((VectorX)arg1) → VectorX [STATIC]

Return normalized copy of this object

outer((VectorX)arg1, (VectorX)other) → MatrixX [STATIC]

Outer product with other.

prod((VectorX)arg1) → float [STATIC]

Product of all elements.

pruned((VectorX)arg1[, (float)absTol=1e-06]) → VectorX [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

resize((VectorX)arg1, (int)arg2) → None [STATIC]
rows((VectorX)arg1) → int [STATIC]

Number of rows.

squaredNorm((VectorX)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((VectorX)arg1) → float [STATIC]

Sum of all elements.

class minieigen.VectorXc

/TODO/

static Ones((int)arg1) → VectorXc [STATIC]
static Random((int)len) → VectorXc [STATIC]

Return vector of given length with all elements set to values between 0 and 1 randomly.

static Unit((int)arg1, (int)arg2) → VectorXc [STATIC]
static Zero((int)arg1) → VectorXc [STATIC]
asDiagonal((VectorXc)arg1) → MatrixXc [STATIC]

Return diagonal matrix with this vector on the diagonal.

cols((VectorXc)arg1) → int [STATIC]

Number of columns.

dot((VectorXc)arg1, (VectorXc)other) → complex [STATIC]

Dot product with other.

isApprox((VectorXc)arg1, (VectorXc)other[, (float)prec=1e-12]) → bool [STATIC]

Approximate comparison with precision prec.

maxAbsCoeff((VectorXc)arg1) → float [STATIC]

Maximum absolute value over all elements.

mean((VectorXc)arg1) → complex [STATIC]

Mean value over all elements.

norm((VectorXc)arg1) → float [STATIC]

Euclidean norm.

normalize((VectorXc)arg1) → None [STATIC]

Normalize this object in-place.

normalized((VectorXc)arg1) → VectorXc [STATIC]

Return normalized copy of this object

outer((VectorXc)arg1, (VectorXc)other) → MatrixXc [STATIC]

Outer product with other.

prod((VectorXc)arg1) → complex [STATIC]

Product of all elements.

pruned((VectorXc)arg1[, (float)absTol=1e-06]) → VectorXc [STATIC]

Zero all elements which are greater than absTol. Negative zeros are not pruned.

resize((VectorXc)arg1, (int)arg2) → None [STATIC]
rows((VectorXc)arg1) → int [STATIC]

Number of rows.

squaredNorm((VectorXc)arg1) → float [STATIC]

Square of the Euclidean norm.

sum((VectorXc)arg1) → complex [STATIC]

Sum of all elements.

minieigen.float2str((float)f[, (int)pad=0]) → str

Return the shortest string representation of f which will is equal to f when converted back to float. This function is only useful in Python prior to 3.0; starting from that version, standard string conversion does just that.