mirror of
https://github.com/ruby-opencv/ruby-opencv
synced 2023-03-27 23:22:12 -04:00
100 lines
2.7 KiB
Ruby
Executable file
100 lines
2.7 KiB
Ruby
Executable file
#!/usr/bin/env ruby
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# -*- mode: ruby; coding: utf-8-unix -*-
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require 'test/unit'
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require 'digest/md5'
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require 'opencv'
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include OpenCV
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class OpenCVTestCase < Test::Unit::TestCase
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def get_sample(filename, iscolor = nil)
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IplImage::load('samples/' + filename, iscolor)
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end
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def snap(*images)
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win = []
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images.size.times { |i| win << GUI::Window.new("snap-#{i}") }
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win.each_with_index { |w, i| w.show images[i] }
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GUI::wait_key
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GUI::Window::destroy_all
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end
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def hash_img(img)
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# Compute a hash for an image, useful for image comparisons
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Digest::MD5.hexdigest(img.data)
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end
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alias original_assert_in_delta assert_in_delta
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def assert_cvscalar_equal(expected, actual, message = nil)
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assert_equal(CvScalar, actual.class, message)
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assert_array_equal(expected.to_ary, actual.to_ary, message)
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end
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def assert_array_equal(expected, actual, message = nil)
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assert_equal(expected.size, actual.size, message)
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expected.zip(actual) { |e, a|
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assert_equal(e, a, message)
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}
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end
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def assert_in_delta(expected, actual, delta)
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if expected.is_a? CvScalar or actual.is_a? CvScalar
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expected = expected.to_ary if expected.is_a? CvScalar
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actual = actual.to_ary if actual.is_a? CvScalar
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assert_in_delta(expected, actual ,delta)
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elsif expected.is_a? Array and actual.is_a? Array
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assert_equal(expected.size, actual.size)
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expected.zip(actual) { |e, a|
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original_assert_in_delta(e, a, delta)
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}
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else
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original_assert_in_delta(expected, actual, delta)
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end
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end
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def create_cvmat(height, width, depth = :cv8u, channel = 4, &block)
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m = CvMat.new(height, width, depth, channel)
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block = lambda { |j, i, c| CvScalar.new(*([c + 1] * channel)) } unless block_given?
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count = 0
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height.times { |j|
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width.times { |i|
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m[i, j] = block.call(j, i, count)
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count += 1
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}
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}
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m
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end
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def assert_each_cvscalar(actual, delta = 0, &block)
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raise unless block_given?
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count = 0
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actual.height.times { |j|
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actual.width.times { |i|
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expected = block.call(j, i, count)
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if delta == 0
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expected = expected.to_ary if expected.is_a? CvScalar
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assert_array_equal(expected, actual[i, j].to_ary)
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else
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assert_in_delta(expected, actual[i, j], delta)
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end
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count += 1
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}
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}
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end
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def print_cvmat(mat)
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s = []
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mat.height.times { |j|
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a = []
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mat.width.times { |i|
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tmp = mat[i, j].to_ary.map {|m| m.to_i }.join(',')
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#tmp = mat[i, j].to_ary.map {|m| m.to_f.round(2) }.join(',')
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a << "[#{tmp}]"
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}
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s << a.join(' ')
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}
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puts s.join("\n")
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end
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end
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