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* test/matrix/test_matrix.rb, test/matrix/test_vector.rb: add some
tests. git-svn-id: svn+ssh://ci.ruby-lang.org/ruby/trunk@26450 b2dd03c8-39d4-4d8f-98ff-823fe69b080e
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@ -1,3 +1,8 @@
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Wed Jan 27 23:33:21 2010 Yusuke Endoh <mame@tsg.ne.jp>
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* test/matrix/test_matrix.rb, test/matrix/test_vector.rb: add some
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tests.
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Wed Jan 27 23:29:36 2010 Yusuke Endoh <mame@tsg.ne.jp>
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* lib/thread.rb (ConditionVariable#wait, signal, broadcast): return
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@ -10,6 +10,15 @@ class TestMatrix < Test::Unit::TestCase
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@n1 = Matrix[[2,3,4], [5,6,7]]
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end
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def test_matrix
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assert_equal(1, @m1[0, 0])
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assert_equal(2, @m1[0, 1])
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assert_equal(3, @m1[0, 2])
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assert_equal(4, @m1[1, 0])
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assert_equal(5, @m1[1, 1])
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assert_equal(6, @m1[1, 2])
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end
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def test_identity
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assert_same @m1, @m1
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assert_not_same @m1, @m2
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@ -153,4 +162,297 @@ class TestMatrix < Test::Unit::TestCase
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assert_equal(45, Matrix[[7,6], [3,9]].determinant)
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assert_equal(-18, Matrix[[2,0,1],[0,-2,2],[1,2,3]].determinant)
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end
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def test_new_matrix
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assert_raise(TypeError) { Matrix[Object.new] }
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o = Object.new
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def o.to_ary; [1,2,3]; end
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assert_equal(@m1, Matrix[o, [4,5,6]])
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end
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def test_rows
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assert_equal(@m1, Matrix.rows([[1, 2, 3], [4, 5, 6]]))
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end
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def test_columns
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assert_equal(@m1, Matrix.columns([[1, 4], [2, 5], [3, 6]]))
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end
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def test_diagonal
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assert_equal(Matrix[[3,0,0],[0,2,0],[0,0,1]], Matrix.diagonal(3, 2, 1))
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assert_equal(Matrix[[4,0,0,0],[0,3,0,0],[0,0,2,0],[0,0,0,1]], Matrix.diagonal(4, 3, 2, 1))
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end
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def test_scalar
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assert_equal(Matrix[[2,0,0],[0,2,0],[0,0,2]], Matrix.scalar(3, 2))
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assert_equal(Matrix[[2,0,0,0],[0,2,0,0],[0,0,2,0],[0,0,0,2]], Matrix.scalar(4, 2))
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end
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def test_identity2
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assert_equal(Matrix[[1,0,0],[0,1,0],[0,0,1]], Matrix.identity(3))
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assert_equal(Matrix[[1,0,0],[0,1,0],[0,0,1]], Matrix.unit(3))
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assert_equal(Matrix[[1,0,0],[0,1,0],[0,0,1]], Matrix.I(3))
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assert_equal(Matrix[[1,0,0,0],[0,1,0,0],[0,0,1,0],[0,0,0,1]], Matrix.identity(4))
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end
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def test_zero
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assert_equal(Matrix[[0,0,0],[0,0,0],[0,0,0]], Matrix.zero(3))
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assert_equal(Matrix[[0,0,0,0],[0,0,0,0],[0,0,0,0],[0,0,0,0]], Matrix.zero(4))
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assert_equal(Matrix[[0]], Matrix.zero(1))
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end
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def test_row_vector
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assert_equal(Matrix[[1,2,3,4]], Matrix.row_vector([1,2,3,4]))
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end
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def test_column_vector
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assert_equal(Matrix[[1],[2],[3],[4]], Matrix.column_vector([1,2,3,4]))
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end
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def test_empty
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m = Matrix.empty(2, 0)
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assert_equal(Matrix[ [], [] ], m)
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n = Matrix.empty(0, 3)
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assert_equal(Matrix.columns([ [], [], [] ]), n)
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assert_equal(Matrix[[0, 0, 0], [0, 0, 0]], m * n)
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end
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def test_row
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assert_equal(Vector[1, 2, 3], @m1.row(0))
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assert_equal(Vector[4, 5, 6], @m1.row(1))
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a = []; @m1.row(0) {|x| a << x }
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assert_equal([1, 2, 3], a)
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end
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def test_column
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assert_equal(Vector[1, 4], @m1.column(0))
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assert_equal(Vector[2, 5], @m1.column(1))
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assert_equal(Vector[3, 6], @m1.column(2))
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a = []; @m1.column(0) {|x| a << x }
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assert_equal([1, 4], a)
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end
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def test_collect
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assert_equal(Matrix[[1, 4, 9], [16, 25, 36]], @m1.collect {|x| x ** 2 })
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end
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def test_minor
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assert_equal(Matrix[[1, 2], [4, 5]], @m1.minor(0..1, 0..1))
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assert_equal(Matrix[[2], [5]], @m1.minor(0..1, 1..1))
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assert_equal(Matrix[[4, 5]], @m1.minor(1..1, 0..1))
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assert_equal(Matrix[[1, 2], [4, 5]], @m1.minor(0, 2, 0, 2))
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assert_equal(Matrix[[4, 5]], @m1.minor(1, 1, 0, 2))
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assert_equal(Matrix[[2], [5]], @m1.minor(0, 2, 1, 1))
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assert_raise(ArgumentError) { @m1.minor(0) }
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end
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def test_regular?
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assert(Matrix[[1, 0], [0, 1]].regular?)
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assert(Matrix[[1, 0, 0], [0, 1, 0], [0, 0, 1]].regular?)
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assert(!Matrix[[1, 0, 0], [0, 0, 1], [0, 0, 1]].regular?)
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assert(!Matrix[[1, 0, 0], [0, 1, 0]].regular?)
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end
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def test_singular?
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assert(!Matrix[[1, 0], [0, 1]].singular?)
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assert(!Matrix[[1, 0, 0], [0, 1, 0], [0, 0, 1]].singular?)
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assert(Matrix[[1, 0, 0], [0, 0, 1], [0, 0, 1]].singular?)
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assert(Matrix[[1, 0, 0], [0, 1, 0]].singular?)
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end
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def test_square?
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assert(Matrix[[1, 0], [0, 1]].square?)
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assert(Matrix[[1, 0, 0], [0, 1, 0], [0, 0, 1]].square?)
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assert(Matrix[[1, 0, 0], [0, 0, 1], [0, 0, 1]].square?)
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assert(!Matrix[[1, 0, 0], [0, 1, 0]].square?)
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end
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def test_compare_by_row_vectors
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assert(@m1.compare_by_row_vectors([[1, 2, 3], [4, 5, 6]]))
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end
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def test_mul
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assert_equal(Matrix[[2,4],[6,8]], Matrix[[2,4],[6,8]] * Matrix.I(2))
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assert_equal(Matrix[[4,8],[12,16]], Matrix[[2,4],[6,8]] * 2)
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assert_equal(Matrix[[4,8],[12,16]], 2 * Matrix[[2,4],[6,8]])
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assert_equal(Matrix[[14,32],[32,77]], @m1 * @m1.transpose)
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assert_equal(Matrix[[17,22,27],[22,29,36],[27,36,45]], @m1.transpose * @m1)
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assert_equal(Vector[14,32], @m1 * Vector[1,2,3])
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o = Object.new
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def o.coerce(m)
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[m, m.transpose]
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end
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assert_equal(Matrix[[14,32],[32,77]], @m1 * o)
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end
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def test_add
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assert_equal(Matrix[[6,0],[-4,12]], Matrix.scalar(2,5) + Matrix[[1,0],[-4,7]])
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assert_equal(Matrix[[3,5,7],[9,11,13]], @m1 + @n1)
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assert_equal(Matrix[[3,5,7],[9,11,13]], @n1 + @m1)
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assert_equal(Matrix[[2],[4],[6]], Matrix[[1],[2],[3]] + Vector[1,2,3])
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assert_raise(Matrix::ErrOperationNotDefined) { @m1 + 1 }
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o = Object.new
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def o.coerce(m)
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[m, m]
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end
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assert_equal(Matrix[[2,4,6],[8,10,12]], @m1 + o)
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end
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def test_sub
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assert_equal(Matrix[[4,0],[4,-2]], Matrix.scalar(2,5) - Matrix[[1,0],[-4,7]])
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assert_equal(Matrix[[-1,-1,-1],[-1,-1,-1]], @m1 - @n1)
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assert_equal(Matrix[[1,1,1],[1,1,1]], @n1 - @m1)
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assert_equal(Matrix[[0],[0],[0]], Matrix[[1],[2],[3]] - Vector[1,2,3])
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assert_raise(Matrix::ErrOperationNotDefined) { @m1 - 1 }
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o = Object.new
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def o.coerce(m)
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[m, m]
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end
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assert_equal(Matrix[[0,0,0],[0,0,0]], @m1 - o)
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end
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def test_div
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assert_equal(Matrix[[0,1,1],[2,2,3]], @m1 / 2)
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assert_equal(Matrix[[1,1],[1,1]], Matrix[[2,2],[2,2]] / Matrix.scalar(2,2))
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o = Object.new
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def o.coerce(m)
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[m, Matrix.scalar(2,2)]
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end
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assert_equal(Matrix[[1,1],[1,1]], Matrix[[2,2],[2,2]] / o)
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end
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def test_exp
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assert_equal(Matrix[[67,96],[48,99]], Matrix[[7,6],[3,9]] ** 2)
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assert_equal(Matrix.I(5), Matrix.I(5) ** -1)
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assert_raise(Matrix::ErrOperationNotImplemented) { Matrix.I(5) ** 1.0 }
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assert_raise(Matrix::ErrOperationNotDefined) { Matrix.I(5) ** Object.new }
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end
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def test_det
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assert_in_delta(45.0, Matrix[[7,6],[3,9]].det, 0.0001)
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assert_in_delta(0.0, Matrix[[0,0],[0,0]].det, 0.0001)
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assert_in_delta(-7.0, Matrix[[0,0,1],[0,7,6],[1,3,9]].det, 0.0001)
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assert_in_delta(0,0, @m1.det, 0.0001)
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end
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def test_det_e
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assert_equal(45, Matrix[[7,6],[3,9]].det_e)
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assert_equal(0, Matrix[[0,0],[0,0]].det_e)
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assert_equal(-7, Matrix[[0,0,1],[0,7,6],[1,3,9]].det_e)
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assert_equal(0, @m1.det_e)
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end
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def test_rank2
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assert_equal(2, Matrix[[7,6],[3,9]].rank)
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assert_equal(0, Matrix[[0,0],[0,0]].rank)
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assert_equal(3, Matrix[[0,0,1],[0,7,6],[1,3,9]].rank)
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assert_equal(2, @m1.rank)
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end
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def test_rank_e
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assert_equal(2, Matrix[[7,6],[3,9]].rank_e)
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assert_equal(0, Matrix[[0,0],[0,0]].rank_e)
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assert_equal(3, Matrix[[0,0,1],[0,7,6],[1,3,9]].rank_e)
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assert_equal(2, @m1.rank_e)
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end
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def test_trace
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assert_equal(1+5+9, Matrix[[1,2,3],[4,5,6],[7,8,9]].trace)
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end
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def test_transpose
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assert_equal(Matrix[[1,4],[2,5],[3,6]], @m1.transpose)
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end
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def test_row_vectors
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assert_equal([Vector[1,2,3], Vector[4,5,6]], @m1.row_vectors)
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end
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def test_column_vectors
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assert_equal([Vector[1,4], Vector[2,5], Vector[3,6]], @m1.column_vectors)
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end
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def test_elements_to_f
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assert_equal(Matrix[[0.5,1.0,1.5],[2.0,2.5,3.0]], @m1.elements_to_f / 2)
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end
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def test_elements_to_i
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assert_equal(Matrix[[0,1,1],[2,2,3]], (@m1.elements_to_f / 2).elements_to_i)
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end
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def test_elements_to_r
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assert_equal(@m1.collect {|x| Rational(x, 2) }, @m1.elements_to_r / 2)
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end
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def test_to_s
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assert_equal("Matrix[[1, 2, 3], [4, 5, 6]]", @m1.to_s)
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assert_equal("Matrix.empty(0, 0)", Matrix[].to_s)
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assert_equal("Matrix.empty(1, 0)", Matrix[[]].to_s)
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end
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def test_inspect
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assert_equal("Matrix[[1, 2, 3], [4, 5, 6]]", @m1.inspect)
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assert_equal("Matrix.empty(0, 0)", Matrix[].inspect)
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assert_equal("Matrix.empty(1, 0)", Matrix[[]].inspect)
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end
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def test_scalar_add
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s1 = @m1.coerce(1).first
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assert_equal(Matrix[[1]], (s1 + 0) * Matrix[[1]])
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assert_raise(Matrix::ErrOperationNotDefined) { s1 + Vector[0] }
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assert_raise(Matrix::ErrOperationNotDefined) { s1 + Matrix[[0]] }
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(2, s1 + o)
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end
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def test_scalar_sub
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s1 = @m1.coerce(1).first
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assert_equal(Matrix[[1]], (s1 - 0) * Matrix[[1]])
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assert_raise(Matrix::ErrOperationNotDefined) { s1 - Vector[0] }
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assert_raise(Matrix::ErrOperationNotDefined) { s1 - Matrix[[0]] }
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(0, s1 - o)
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end
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def test_scalar_mul
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s1 = @m1.coerce(1).first
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assert_equal(Matrix[[1]], (s1 * 1) * Matrix[[1]])
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assert_equal(Vector[2], s1 * Vector[2])
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assert_equal(Matrix[[2]], s1 * Matrix[[2]])
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(1, s1 * o)
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end
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def test_scalar_div
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s1 = @m1.coerce(1).first
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assert_equal(Matrix[[1]], (s1 / 1) * Matrix[[1]])
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assert_raise(Matrix::ErrOperationNotDefined) { s1 / Vector[0] }
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assert_equal(Matrix[[Rational(1,2)]], s1 / Matrix[[2]])
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(1, s1 / o)
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end
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def test_scalar_pow
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s1 = @m1.coerce(1).first
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assert_equal(Matrix[[1]], (s1 ** 1) * Matrix[[1]])
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assert_raise(Matrix::ErrOperationNotDefined) { s1 ** Vector[0] }
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assert_raise(Matrix::ErrOperationNotImplemented) { s1 ** Matrix[[1]] }
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(1, s1 ** o)
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end
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end
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@ -46,4 +46,106 @@ class TestVector < Test::Unit::TestCase
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assert_equal @v1.hash, @v2.hash
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assert_equal @v1.hash, @v3.hash
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end
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def test_aref
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assert_equal(1, @v1[0])
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assert_equal(2, @v1[1])
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assert_equal(3, @v1[2])
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assert_equal(3, @v1[-1])
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assert_equal(nil, @v1[3])
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end
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def test_size
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assert_equal(3, @v1.size)
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end
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def test_each2
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a = []
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@v1.each2(@v4) {|x, y| a << [x, y] }
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assert_equal([[1,1.0],[2,2.0],[3,3.0]], a)
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end
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def test_collect
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a = @v1.collect {|x| x + 1 }
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assert_equal(Vector[2,3,4], a)
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end
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def test_collect2
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a = @v1.collect2(@v4) {|x, y| x + y }
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assert_equal([2.0,4.0,6.0], a)
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end
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def test_map2
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a = @v1.map2(@v4) {|x, y| x + y }
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assert_equal(Vector[2.0,4.0,6.0], a)
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end
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def test_compare_by
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assert(@v1.compare_by([1,2,3], :==))
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assert(!@v1.compare_by([1,2,3], :equal?))
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end
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def test_mul
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assert_equal(Vector[2,4,6], @v1 * 2)
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assert_equal(Matrix[[1, 4, 9], [2, 8, 18], [3, 12, 27]], @v1 * Matrix[[1,4,9]])
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assert_raise(Matrix::ErrOperationNotDefined) { @v1 * Vector[1,4,9] }
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(1, Vector[1, 2, 3] * o)
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end
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def test_add
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assert_equal(Vector[2,4,6], @v1 + @v1)
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assert_equal(Matrix[[2],[6],[12]], @v1 + Matrix[[1],[4],[9]])
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(2, Vector[1, 2, 3] + o)
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end
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def test_sub
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assert_equal(Vector[0,0,0], @v1 - @v1)
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assert_equal(Matrix[[0],[-2],[-6]], @v1 - Matrix[[1],[4],[9]])
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o = Object.new
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def o.coerce(x)
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[1, 1]
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end
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assert_equal(0, Vector[1, 2, 3] - o)
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end
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def test_inner_product
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assert_equal(1+4+9, @v1.inner_product(@v1))
|
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end
|
||||
|
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def test_r
|
||||
assert_equal(5, Vector[3, 4].r)
|
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end
|
||||
|
||||
def test_covector
|
||||
assert_equal(Matrix[[1,2,3]], @v1.covector)
|
||||
end
|
||||
|
||||
def test_elements_to_f
|
||||
assert_equal(Vector[0.5,1.0,1.5], @v1.elements_to_f * Rational(1, 2))
|
||||
end
|
||||
|
||||
def test_elements_to_i
|
||||
assert_equal(Vector[0,1,1], (@v1.elements_to_f * Rational(1, 2)).elements_to_i)
|
||||
end
|
||||
|
||||
def test_elements_to_r
|
||||
assert_equal(@v1.collect {|x| Rational(x, 2) }, @v1.elements_to_r * Rational(1, 2))
|
||||
end
|
||||
|
||||
def test_to_s
|
||||
assert_equal("Vector[1, 2, 3]", @v1.to_s)
|
||||
end
|
||||
|
||||
def test_inspect
|
||||
assert_equal("Vector[1, 2, 3]", @v1.inspect)
|
||||
end
|
||||
|
||||
end
|
||||
|
|
Loading…
Reference in a new issue