rwjblue · October 3, 2011 18:22
diff --git a/mark_sense_form.rb b/mark_sense_form.rb
 begin
  require 'oily_png'
 rescue LoadError
  require 'chunky_png'
 end
 require 'bigdecimal'

 class ChunkyPNG::Image
  def neighbors(x,y)
    [[x, y-1], [x+1, y], [x, y+1], [x-1, y]].select do |xy|
      include_xy?(*xy)
    end
  end
 end

 class MarkSenseForm
  attr_accessor :image, :image_path, :left_anchor_coordinates, :right_anchor_coordinates, :angle, :slope

  def initialize(options)
    @image_path                        = options[:path]
    @initial_left_anchor_coordinates   = options[:left_anchor_coordinates]
    @initial_right_anchor_coordinates  = options[:right_anchor_coordinates]
    @anchor_search_size                = options[:anchor_search_size]   || 300
    @dark_threshold                    = options[:dark_threshold]       || 35
    @light_threshold                   = options[:light_threshold]      || 600

    @image = ChunkyPNG::Image.from_file(@image_path)
  end

  def pixel_darkness(color)
    ChunkyPNG::Color.r(color) + ChunkyPNG::Color.g(color) + ChunkyPNG::Color.b(color)
  end

  def is_dark?(color)
    pixel_darkness(color) < @dark_threshold
  end

  def is_light?(color)
    pixel_darkness(color) > @light_threshold
  end

  # author: Jeff Kreeftmeijer
  # from blog article: Pure Ruby colored blob detection
  # http://jeffkreeftmeijer.com/2011/pure-ruby-colored-blob-detection/
  def label_recursively(image, areas, label, x, y)
    image[x,y] = label
    (areas[label] ||= []) << [x,y]

    image.neighbors(x,y).each do |xy|
      if image[*xy] == -1
        areas[label] << xy
        label_recursively(image, areas, label, *xy)
      end
    end
  end

  def get_anchor_box_coordinates(image)
    working_image = image.dup

    working_image.pixels.map! do |pixel|
      is_dark?(pixel) ? -1 : 0
    end

    areas, label = {}, 0

    working_image.height.times do |y|
      working_image.row(y).each_with_index do |pixel, x|
        label_recursively(working_image, areas, label += 1, x, y) if pixel == -1
      end
    end

    area = areas.values.max { |result, area_label| result.length <=> area_label.length }

    x, y = area.map{ |xy| xy[0] }, area.map{ |xy| xy[1] }

    [x.min, y.min, x.max, y.max]
  end


  def left_anchor_coordinates
    @left_anchor_coordinates   ||= get_anchor_box_coordinates(@image.crop(0, 0, @anchor_search_size, @anchor_search_size))
  end

  def right_anchor_coordinates
    return @right_anchor_coordinates if @right_anchor_coordinates

    @right_anchor_coordinates  = get_anchor_box_coordinates(@image.crop(@image.width - @anchor_search_size, 0, @anchor_search_size, @anchor_search_size))
    @right_anchor_coordinates  = [ @image.width - @anchor_search_size + @right_anchor_coordinates[0], @right_anchor_coordinates[1], @image.width - @anchor_search_size + @right_anchor_coordinates[2], @right_anchor_coordinates[3]]
    @right_anchor_coordinates
  end

  def calculate
    x1, y1          = left_anchor_coordinates[2,2]
    x2, y2          = right_anchor_coordinates[2,2]

    @slope          = ((y2 - y1).to_f / (x2 - x1).to_f)
    @angle          = Math.atan(@slope * 100)
    @sin_slope      = Math.sin(@slope)
    @cos_slope      = Math.cos(@slope)
    @cached_points  = {}
  end

  def corrected_point(x,y)
    calculate unless @angle
    return @cached_points[[x,y]] if @cached_points[[x,y]]

    x_rotated = (x * @cos_slope) - (y * @sin_slope)
    y_rotated = (x * @sin_slope) + (y * @cos_slope)

    if @initial_left_anchor_coordinates
      x_rotated += @left_anchor_coordinates[2] - @initial_left_anchor_coordinates[2]
      y_rotated += @left_anchor_coordinates[3] - @initial_left_anchor_coordinates[3]
    end

    @cached_points[[x,y]] = [x_rotated.round, y_rotated.round]

    @cached_points[[x,y]]
  end

  def straighten(open_straightened = false)
    calculate unless @angle

    `/usr/local/bin/convert #{@image_path} -rotate #{-@angle} straightened_#{@image_path}`
    `open straightened_#{@image_path}` if open_straightened
  end

  def rectangle_from_point_and_margin(x, y, margin)
    [x - margin/2, y - margin/2, margin, margin]
  end

  def percentage_filled(x, y, padding = 25)
    x, y = corrected_point(x, y)

    working_image = @image.crop(x - padding, y - padding, padding * 2, padding * 2)

    light_pixels = working_image.pixels.select{|color| is_light?(color) }

    BigDecimal.new(light_pixels.length.to_s) / BigDecimal.new(working_image.pixels.length.to_s)
  end

  def draw_rectangle(x,y, padding=25, color = ChunkyPNG::Color(:green))
    x, y = corrected_point(x, y)

    @image.rect(x - padding, y - padding, x + padding, y + padding, color)
  end
 end

 if __FILE__ == $0
  left_anchor_coordinates   = [125, 110, 135, 133]
  right_anchor_coordinates  = [1126, 111, 1165, 149]

  image = MarkSenseForm.new(:path => 'test_1_rotated.png',
                            :left_anchor_coordinates => left_anchor_coordinates,
                            :right_anchor_coordinates => right_anchor_coordinates)

  puts image.percentage_filled(255, 534).to_s('F')
  image.draw_rectangle(255, 534)
  image.image.save('test_1_annotated.png')
 end
diff --git a/sample_form.png b/sample_form.png
diff --git a/test_1.png b/test_1.png
diff --git a/test_1_annotated.png b/test_1_annotated.png
diff --git a/test_1_rotated.png b/test_1_rotated.png
	begin
	require 'oily_png'
	rescue LoadError
	require 'chunky_png'
	end
	require 'bigdecimal'

	class ChunkyPNG::Image
	def neighbors(x,y)
	[[x, y-1], [x+1, y], [x, y+1], [x-1, y]].select do \|xy\|
	include_xy?(*xy)
	end
	end
	end

	class MarkSenseForm
	attr_accessor :image, :image_path, :left_anchor_coordinates, :right_anchor_coordinates, :angle, :slope

	def initialize(options)
	@image_path = options[:path]
	@initial_left_anchor_coordinates = options[:left_anchor_coordinates]
	@initial_right_anchor_coordinates = options[:right_anchor_coordinates]
	@anchor_search_size = options[:anchor_search_size] \|\| 300
	@dark_threshold = options[:dark_threshold] \|\| 35
	@light_threshold = options[:light_threshold] \|\| 600

	@image = ChunkyPNG::Image.from_file(@image_path)
	end

	def pixel_darkness(color)
	ChunkyPNG::Color.r(color) + ChunkyPNG::Color.g(color) + ChunkyPNG::Color.b(color)
	end

	def is_dark?(color)
	pixel_darkness(color) < @dark_threshold
	end

	def is_light?(color)
	pixel_darkness(color) > @light_threshold
	end

	# author: Jeff Kreeftmeijer
	# from blog article: Pure Ruby colored blob detection
	# http://jeffkreeftmeijer.com/2011/pure-ruby-colored-blob-detection/
	def label_recursively(image, areas, label, x, y)
	image[x,y] = label
	(areas[label] \|\|= []) << [x,y]

	image.neighbors(x,y).each do \|xy\|
	if image[*xy] == -1
	areas[label] << xy
	label_recursively(image, areas, label, *xy)
	end
	end
	end

	def get_anchor_box_coordinates(image)
	working_image = image.dup

	working_image.pixels.map! do \|pixel\|
	is_dark?(pixel) ? -1 : 0
	end

	areas, label = {}, 0

	working_image.height.times do \|y\|
	working_image.row(y).each_with_index do \|pixel, x\|
	label_recursively(working_image, areas, label += 1, x, y) if pixel == -1
	end
	end

	area = areas.values.max { \|result, area_label\| result.length <=> area_label.length }

	x, y = area.map{ \|xy\| xy[0] }, area.map{ \|xy\| xy[1] }

	[x.min, y.min, x.max, y.max]
	end


	def left_anchor_coordinates
	@left_anchor_coordinates \|\|= get_anchor_box_coordinates(@image.crop(0, 0, @anchor_search_size, @anchor_search_size))
	end

	def right_anchor_coordinates
	return @right_anchor_coordinates if @right_anchor_coordinates

	@right_anchor_coordinates = get_anchor_box_coordinates(@image.crop(@image.width - @anchor_search_size, 0, @anchor_search_size, @anchor_search_size))
	@right_anchor_coordinates = [ @image.width - @anchor_search_size + @right_anchor_coordinates[0], @right_anchor_coordinates[1], @image.width - @anchor_search_size + @right_anchor_coordinates[2], @right_anchor_coordinates[3]]
	@right_anchor_coordinates
	end

	def calculate
	x1, y1 = left_anchor_coordinates[2,2]
	x2, y2 = right_anchor_coordinates[2,2]

	@slope = ((y2 - y1).to_f / (x2 - x1).to_f)
	@angle = Math.atan(@slope * 100)
	@sin_slope = Math.sin(@slope)
	@cos_slope = Math.cos(@slope)
	@cached_points = {}
	end

	def corrected_point(x,y)
	calculate unless @angle
	return @cached_points[[x,y]] if @cached_points[[x,y]]

	x_rotated = (x * @cos_slope) - (y * @sin_slope)
	y_rotated = (x * @sin_slope) + (y * @cos_slope)

	if @initial_left_anchor_coordinates
	x_rotated += @left_anchor_coordinates[2] - @initial_left_anchor_coordinates[2]
	y_rotated += @left_anchor_coordinates[3] - @initial_left_anchor_coordinates[3]
	end

	@cached_points[[x,y]] = [x_rotated.round, y_rotated.round]

	@cached_points[[x,y]]
	end

	def straighten(open_straightened = false)
	calculate unless @angle

	`/usr/local/bin/convert #{@image_path} -rotate #{-@angle} straightened_#{@image_path}`
	`open straightened_#{@image_path}` if open_straightened
	end

	def rectangle_from_point_and_margin(x, y, margin)
	[x - margin/2, y - margin/2, margin, margin]
	end

	def percentage_filled(x, y, padding = 25)
	x, y = corrected_point(x, y)

	working_image = @image.crop(x - padding, y - padding, padding * 2, padding * 2)

	light_pixels = working_image.pixels.select{\|color\| is_light?(color) }

	BigDecimal.new(light_pixels.length.to_s) / BigDecimal.new(working_image.pixels.length.to_s)
	end

	def draw_rectangle(x,y, padding=25, color = ChunkyPNG::Color(:green))
	x, y = corrected_point(x, y)

	@image.rect(x - padding, y - padding, x + padding, y + padding, color)
	end
	end

	if __FILE__ == $0
	left_anchor_coordinates = [125, 110, 135, 133]
	right_anchor_coordinates = [1126, 111, 1165, 149]

	image = MarkSenseForm.new(:path => 'test_1_rotated.png',
	:left_anchor_coordinates => left_anchor_coordinates,
	:right_anchor_coordinates => right_anchor_coordinates)

	puts image.percentage_filled(255, 534).to_s('F')
	image.draw_rectangle(255, 534)
	image.image.save('test_1_annotated.png')
	end