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ruby-opencv/test/test_cvmat_dxt.rb
2012-11-07 01:11:37 +09:00

150 lines
4.3 KiB
Ruby
Executable file

#!/usr/bin/env ruby
# -*- mode: ruby; coding: utf-8-unix -*-
require 'test/unit'
require 'opencv'
require File.expand_path(File.dirname(__FILE__)) + '/helper'
include OpenCV
# Tests for dft and dct functions of OpenCV::CvMat
class TestCvMat_dxt < OpenCVTestCase
def test_dft_1D
n = 32
w = 2 * Math::PI / n
mat0 = create_cvmat(n, 1, :cv32f, 2) { |j, i, c|
s = Math.sin(c * w)
CvScalar.new(s, s)
}
mat1 = mat0.dft(CV_DXT_FORWARD)
mat2 = mat0.dft(CV_DXT_FORWARD | CV_DXT_SCALE)
mat3 = mat0.dft(CV_DXT_FORWARD | CV_DXT_SCALE).dft(CV_DXT_INVERSE)
n.times { |j|
if j == 1
assert_in_delta(n / 2, mat1[j, 0][0], 0.001)
assert_in_delta(-n / 2, mat1[j, 0][1], 0.001)
assert_in_delta(0.5, mat2[j, 0][0], 0.001)
assert_in_delta(-0.5, mat2[j, 0][1], 0.001)
elsif j == n - 1
assert_in_delta(-n / 2, mat1[j, 0][0], 0.001)
assert_in_delta(n / 2, mat1[j, 0][1], 0.001)
assert_in_delta(-0.5, mat2[j, 0][0], 0.001)
assert_in_delta(0.5, mat2[j, 0][1], 0.001)
else
assert_in_delta(0, mat1[j, 0][0], 0.001)
assert_in_delta(0, mat1[j, 0][1], 0.001)
assert_in_delta(0, mat2[j, 0][0], 0.001)
assert_in_delta(0, mat2[j, 0][1], 0.001)
end
assert_in_delta(mat0[j, 0][0], mat3[j, 0][0], 0.001)
assert_in_delta(mat0[j, 0][1], mat3[j, 0][1], 0.001)
}
assert_raise(TypeError) {
mat0.dft(DUMMY_OBJ)
}
assert_raise(TypeError) {
mat0.dft(CV_DXT_FORWARD, DUMMY_OBJ)
}
end
def test_dft_2D
n = 32
w = 2 * Math::PI / n
c = 0
mat0 = CvMat.new(n, n, :cv32f, 2)
n.times { |j|
s = Math.sin(c * w)
n.times { |i|
mat0[j, i] = CvScalar.new(s, s)
}
c += 1
}
mat1 = mat0.dft(CV_DXT_FORWARD)
mat2 = mat0.dft(CV_DXT_FORWARD | CV_DXT_SCALE)
mat3 = mat0.dft(CV_DXT_FORWARD | CV_DXT_SCALE).dft(CV_DXT_INVERSE)
n.times { |j|
n.times { |i|
if i == 0 and j == 1
assert_in_delta(n * n / 2, mat1[j, i][0], 0.001)
assert_in_delta(-n * n / 2, mat1[j, i][1], 0.001)
assert_in_delta(0.5, mat2[j, i][0], 0.001)
assert_in_delta(-0.5, mat2[j, i][1], 0.001)
elsif i == 0 and j == n - 1
assert_in_delta(-n * n / 2, mat1[j, i][0], 0.001)
assert_in_delta(n * n / 2, mat1[j, i][1], 0.001)
assert_in_delta(-0.5, mat2[j, i][0], 0.001)
assert_in_delta(0.5, mat2[j, i][1], 0.001)
else
assert_in_delta(0, mat1[j, i][0], 0.001)
assert_in_delta(0, mat1[j, i][1], 0.001)
assert_in_delta(0, mat2[j, i][0], 0.001)
assert_in_delta(0, mat2[j, i][1], 0.001)
end
assert_in_delta(mat0[j, 0][0], mat3[j, i][0], 0.001)
assert_in_delta(mat0[j, 0][1], mat3[j, i][1], 0.001)
}
}
end
def test_dct_1D
n = 8
w = 2 * Math::PI / n
mat0 = create_cvmat(n, 1, :cv32f, 1) { |j, i, c|
s = Math.sin(c * w)
CvScalar.new(s)
}
mat1 = mat0.dct(CV_DXT_FORWARD)
mat2 = mat0.dct(CV_DXT_FORWARD).dct(CV_DXT_INVERSE)
expected1 = [0, 1.599647, -0.765367, -0.906127, 0, -0.180240, 0, -0.042290]
n.times { |j|
assert_in_delta(expected1[j], mat1[j, 0][0], 0.001)
assert_in_delta(mat0[j, 0][0], mat2[j, 0][0], 0.001)
}
assert_raise(TypeError) {
mat0.dct(DUMMY_OBJ)
}
end
def test_dct_2D
n = 8
w = 2 * Math::PI / n
c = 0
mat0 = CvMat.new(n, n, :cv32f, 1)
n.times { |j|
s = Math.sin(c * w)
n.times { |i|
mat0[j, i] = CvScalar.new(s, s)
}
c += 1
}
mat1 = mat0.dct(CV_DXT_FORWARD)
mat2 = mat0.dct(CV_DXT_FORWARD).dct(CV_DXT_INVERSE)
n.times { |j|
n.times { |i|
if i == 0 and j == 1
assert_in_delta(4.524486, mat1[j, i][0], 0.001)
elsif i == 0 and j == 2
assert_in_delta(-2.164784, mat1[j, i][0], 0.001)
elsif i == 0 and j == 3
assert_in_delta(-2.562915, mat1[j, i][0], 0.001)
elsif i == 0 and j == 5
assert_in_delta(-0.509796, mat1[j, i][0], 0.001)
elsif i == 0 and j == 7
assert_in_delta(-0.119615, mat1[j, i][0], 0.001)
else
assert_in_delta(0, mat1[j, i][0], 0.001)
end
assert_in_delta(mat0[j, i][0], mat2[j, i][0], 0.001)
}
}
end
end