spec/shortcuts_spec.rb in nmatrix-fftw-0.2.3 vs spec/shortcuts_spec.rb in nmatrix-fftw-0.2.4
- old
+ new
@@ -102,17 +102,18 @@
ALL_DTYPES.each do |dtype|
[:dense, :yale, :list].each do |stype|
context "#block_diagonal #{dtype} #{stype}" do
it "block_diagonal() creates a block-diagonal NMatrix" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby? and dtype == :object
a = NMatrix.new([2,2], [1,2,
3,4])
b = NMatrix.new([1,1], [123.0])
c = NMatrix.new([3,3], [1,2,3,
1,2,3,
1,2,3])
- d = Array[ [1,1,1], [2,2,2], [3,3,3] ]
+ d = Array[ [1,1,1], [2,2,2], [3,3,3] ]
e = 12
m = NMatrix.block_diagonal(a, b, c, d, e, dtype: dtype, stype: stype)
expect(m).to eq(NMatrix.new([10,10], [1, 2, 0, 0, 0, 0, 0, 0, 0, 0,
3, 4, 0, 0, 0, 0, 0, 0, 0, 0,
0, 0, 123, 0, 0, 0, 0, 0, 0, 0,
@@ -134,10 +135,21 @@
expect(m.stype).to eq(:dense)
expect(m.dtype).to eq(:float64)
end
+ it "creates a matrix of random numbers with defined seed value" do
+ m1 = NMatrix.random(2,:seed => 62)
+ m2 = NMatrix.random(2,:seed => 62)
+ m3 = NMatrix.random(2,:seed => 65)
+
+
+ expect(m1).to eq(m2)
+ expect(m1).not_to eq(m3)
+
+ end
+
it "creates a complex matrix of random numbers" do
m = NMatrix.random(2, :dtype => :complex128)
end
it "correctly accepts :scale parameter" do
@@ -156,76 +168,80 @@
expect { NMatrix.random(2.0) }.to raise_error
expect { NMatrix.random("not an array or integer") }.to raise_error
end
end
-
+
context "::magic" do
-
+
ALL_DTYPES.each do |dtype|
context dtype do
it "creates a matrix with numbers from 1 to n^n(n squared)" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
a = NMatrix.magic(3, dtype: dtype)
- magic3 = NMatrix.new([3,3], [4, 9, 2, 3, 5, 7, 8, 1, 6], dtype: dtype)
+ magic3 = NMatrix.new([3,3], [4, 9, 2, 3, 5, 7, 8, 1, 6], dtype: dtype)
expect(a).to eq magic3
-
+
b = NMatrix.magic(4, dtype: dtype)
magic4 = NMatrix.new([4,4], [1, 15, 14, 4, 12, 6, 7, 9, 8, 10, 11, 5, 13, 3, 2, 16], dtype: dtype)
expect(b).to eq magic4
-
+
c = NMatrix.magic(6, dtype: dtype)
magic6 = NMatrix.new([6,6], [31, 9, 2, 22, 27, 20, 3, 32, 7, 21, 23, 25, 35, 1, 6, 26, 19, 24, 4, 36, 29, 13, 18, 11, 30, 5, 34, 12, 14, 16, 8, 28, 33, 17, 10, 15], dtype: dtype)
- expect(c).to eq magic6
+ expect(c).to eq magic6
end
end
end
-
+
it "shape of two is not allowed" do
expect { NMatrix.magic(2) }.to raise_error(ArgumentError)
end
-
- it "Only accepts an integer as dimension" do
+
+ it "Only accepts an integer as dimension" do
expect { NMatrix.magic(3.0) }.to raise_error(ArgumentError)
end
end
-
+
context "::linspace" do
it "creates a row vector when given only one shape parameter" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NMatrix.linspace(1, 10, 4)
#Expect a row vector only
expect(v.shape.length).to eq(1)
-
+
ans = [1.0,4.0,7.0,10.0]
expect(v[0]).to be_within(0.000001).of(ans[0])
expect(v[1]).to be_within(0.000001).of(ans[1])
expect(v[2]).to be_within(0.000001).of(ans[2])
expect(v[3]).to be_within(0.000001).of(ans[3])
end
-
+
it "creates a matrix of input shape with each entry linearly spaced in row major order" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NMatrix.linspace(1, Math::PI, [2,2])
expect(v.dtype).to eq(:float64)
ans = [1.0, 1.7138642072677612, 2.4277284145355225, 3.1415927410125732]
-
+
expect(v[0,0]).to be_within(0.000001).of(ans[0])
expect(v[0,1]).to be_within(0.000001).of(ans[1])
expect(v[1,0]).to be_within(0.000001).of(ans[2])
expect(v[1,1]).to be_within(0.000001).of(ans[3])
end
end
context "::logspace" do
it "creates a logarithmically spaced vector" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NMatrix.logspace(1, 2, 10)
-
+
expect(v.shape.length).to eq(1)
-
+
#Unit test taken from Matlab R2015b output of logspace(1,2,10)
ans = [10.0000, 12.9155, 16.6810, 21.5443, 27.8256, 35.9381, 46.4159, 59.9484, 77.4264, 100.0000]
-
+
expect(v[0].round(4)).to be_within(0.000001).of(ans[0])
expect(v[1].round(4)).to be_within(0.000001).of(ans[1])
expect(v[2].round(4)).to be_within(0.000001).of(ans[2])
expect(v[3].round(4)).to be_within(0.000001).of(ans[3])
expect(v[4].round(4)).to be_within(0.000001).of(ans[4])
@@ -233,31 +249,33 @@
expect(v[6].round(4)).to be_within(0.000001).of(ans[6])
expect(v[7].round(4)).to be_within(0.000001).of(ans[7])
expect(v[8].round(4)).to be_within(0.000001).of(ans[8])
expect(v[9].round(4)).to be_within(0.000001).of(ans[9])
end
-
+
it "creates a logarithmically spaced vector bounded by Math::PI if :pi is pre-supplied" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NMatrix.logspace(1, :pi, 7)
-
+
#Unit test taken from Matlab R2015b output of logspace(1,pi,10)
ans = [10.0000, 8.2450, 6.7980, 5.6050, 4.6213, 3.8103, 3.1416]
-
+
expect(v[0].round(4)).to be_within(0.000001).of(ans[0])
expect(v[1].round(4)).to be_within(0.000001).of(ans[1])
expect(v[2].round(4)).to be_within(0.000001).of(ans[2])
expect(v[3].round(4)).to be_within(0.000001).of(ans[3])
expect(v[4].round(4)).to be_within(0.000001).of(ans[4])
expect(v[5].round(4)).to be_within(0.000001).of(ans[5])
expect(v[6].round(4)).to be_within(0.000001).of(ans[6])
- end
+ end
it "creates a matrix of input shape with each entry logarithmically spaced in row major order" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NMatrix.logspace(1, 2, [3,2])
-
+
ans = [10.0, 15.8489, 25.1189, 39.8107, 63.0957, 100.0]
-
+
expect(v[0,0].round(4)).to be_within(0.000001).of(ans[0])
expect(v[0,1].round(4)).to be_within(0.000001).of(ans[1])
expect(v[1,0].round(4)).to be_within(0.000001).of(ans[2])
expect(v[1,1].round(4)).to be_within(0.000001).of(ans[3])
expect(v[2,0].round(4)).to be_within(0.000001).of(ans[4])
@@ -358,10 +376,11 @@
@nm_1d = NMatrix[5.0,0.0,1.0,2.0,3.0]
@nm_2d = NMatrix[[0.0,1.0],[2.0,3.0]]
end
it "should create an nmatrix of ones with dimensions and type the same as its argument" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
expect(NMatrix.ones_like(@nm_1d)).to eq NMatrix[1.0, 1.0, 1.0, 1.0, 1.0]
expect(NMatrix.ones_like(@nm_2d)).to eq NMatrix[[1.0, 1.0], [1.0, 1.0]]
end
it "should create an nmatrix of zeros with dimensions and type the same as its argument" do
@@ -381,18 +400,20 @@
expect(v[i]).to eq(0)
end
end
it "ones() creates a vector of ones" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NVector.ones(3)
3.times do |i|
expect(v[i]).to eq(1)
end
end
it "random() creates a vector of random numbers" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NVector.random(4)
expect(v.dtype).to eq(:float64)
expect(v.stype).to eq(:dense)
end
@@ -422,19 +443,22 @@
v = NVector.bindgen(4)
expect(v).to eq(NMatrix.new([4,1], [0, 1, 2, 3], dtype: :byte))
end
it "cindgen() creates a vector of complexes, sequentially" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NVector.cindgen(2)
expect(v).to eq(NMatrix.new([2,1], [Complex(0.0, 0.0), Complex(1.0, 0.0)], dtype: :complex64))
end
it "linspace() creates a vector with n values equally spaced between a and b" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NVector.linspace(0, 2, 5)
expect(v).to eq(NMatrix.new([5,1], [0.0, 0.5, 1.0, 1.5, 2.0]))
end
it "logspace() creates a vector with n values logarithmically spaced between decades 10^a and 10^b" do
+ pending("not yet implemented for NMatrix-JRuby") if jruby?
v = NVector.logspace(0, 3, 4)
expect(v).to eq(NMatrix.new([4,1], [1.0, 10.0, 100.0, 1000.0]))
end
end