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linalg

Linear algebra library in Crystal, uses LAPACK.

Killing SciPy, one module at a time.

Installation

  1. Install LAPACK and BLAS. sudo apt install libopenblas-base liblapack3 for Ubuntu, sudo pacman -S lapack (for better performance use openblas-lapack package from AUR) for Arch. For Windows you need libopenblas.dll (and libopenblas.lib) from https://github.com/xianyi/OpenBLAS/releases

  2. (for Ubuntu 18) it seems package doesn't create symlink, so use

Add this to your application's shard.yml:

dependencies:
  linalg:
    github: konovod/linalg

Usage

require "linalg"

Basic type aliases are

Complex consisting of two Float32 isn't supported for now (it is easy, but I'm not sure if it's useful).

Types with prefix G (GMat, GMat32, GMatComplex) are for actually allocated matrices, others are automatically converted to them when needed.

#suggested to don't prefix LA:: everywhere
include LA

# create matrix from array of arrays (or tuple... everything Indexable)
m = GMat[
  [1, 2, 3],
  [4, 5, 6],
  [7, 8, 9],
  [10, 11, 12],
]

# or using block
m = GMat32.new(3, 4) { |i, j| i*3 + j + 1 }
# or using one of other ways, check "spec" directory

# do basic arithmetics
a = Mat.eye(3)
pp 2 * a - Mat.diag([2, 2, 2]) == Mat.zeros(3, 3) # => true

# basic algebra
a = Mat.rand(5, 5) + 2 * Mat.identity(5)
pp (a.inv * a - Mat.identity(5)).norm < 1e-6

b = Mat.rand(5, 1)
x = LA.solve(a, b) # or a.solve(b)
pp (a*x - b).norm < 1e-6

m = GMat[[-2, 4, 1], [2, -4, 1], [1, 1, 1]]
pp m.eigvals # => [-6.0, -1.0, 2.0]

# extract submatrices (memory isn't copied as they reference to basic matrix)
m = GMat[
  [1, 2, 3],
  [4, 5, 6],
  [7, 8, 9],
]
pp m.columns[2] # LA::SubMatrix(Float64) (3x1, None):
# [3.0]
# [6.0]
# [9.0]

x = m[1..1, 1..2]
pp x        # => [5.0, 6.0]
x[0, 0] = 0 # m[1,1] is now 0 (questionable feature? maybe should be ##[]! for modifiable submatrices and ##[] for CoW?)
y = x.clone # now y is a separate matrix
y[0, 0] = 1 # m[1,1] is still 0
pp m[1, 1]

other present features:

# to just get P L U matrices
p, l, u = a.lu

# to get them in compact form and use for solving linear equations:
a = GMat32[
  [2, 4],
  [2, 8]
  ]

lu = a.lu_factor # lu is LUMatrix(T) - immutable object that can return it's content and solve systems
puts lu.solve(GMat32[[2], [4]])

There is also concept of Mat#flags that represent properties of matrix (symmetric, positive definite etc), they are used to automatically select faster algorithms from LAPACK. Flags are partially enforced by runtime checks, with the possibility of user override. For example, if we say that a.assume!(MatrixFlags::Symmetric) then a.transpose or a + Mat.diag(*a.size) will also have this flag, so the LAPACK routines for symmetrical matrices will be used. In fact, a.transpose will return matrix clone as for symmetric matrices A=A'.

Supported flags:

enum MatrixFlags
  Symmetric
  Hermitian
  PositiveDefinite
  Orthogonal
  UpperTriangular
  LowerTriangular
  Triangular      = UpperTriangular | LowerTriangular

NOTE for complex matrices Orthogonal flag means Unitary.

Main functions for flags are:

  a.assume!(flag) # sets matrix flag without check, can lead to incorrect results if matrix do not have corresponding property.
  a.detect?(flag) # checks if matrix has property, if yes sets the flag. Returns true if check positive
  a.detect(flag) # same as `detect?`, but returns matrix a
  a.detect # detect all possible flags
  a.flags # returns matrix flags

Most operations - matrix addition, multiplication, inversion, transposition and decompositions correctly update flags, but any direct access like a[i,j] = 0 or a.map!{|v| v+1} resets flags to None, so use a.detect after them if you need to preserve flags (or a.assume!(f) if detection is too slow).

Development

Roadmap:

Important
Not so important

Contributing

  1. Fork it ( https://github.com/konovod/linalg/fork )
  2. Create your feature branch (git checkout -b my-new-feature)
  3. Commit your changes (git commit -am 'Add some feature')
  4. Push to the branch (git push origin my-new-feature)
  5. Create a new Pull Request