require 'RMagick' module Magick class Image # Print information similar to the identify -verbose command def identify printf "Image: " puts "#{base_filename}=>" if base_filename != filename puts filename + "\n" puts "\tFormat: #{format}\n" puts "\tGeometry: #{columns}x#{rows}\n" puts "\tClass: #{class_type.to_s}\n" puts "\tType: #{image_type.to_s}\n" puts "\tEndianess: #{endian}\n" puts "\tColorspace: #{colorspace}\n" puts "\tChannelDepth:\n" color_space = gray? ? Magick::GrayColorspace : colorspace case color_space when Magick::RGBColorspace puts "\t\tRed: #{channel_depth(Magick::RedChannel)}-bits\n" puts "\t\tGreen: #{channel_depth(Magick::GreenChannel)}-bits\n" puts "\t\tBlue: #{channel_depth(Magick::BlueChannel)}-bits\n" puts "\t\tOpacity: #{channel_depth(Magick::OpacityChannel)}-bits\n" if matte when Magick::CMYKColorspace puts "\t\tCyan : #{channel_depth(Magick::CyanChannel)}-bits\n" puts "\t\tMagenta: #{channel_depth(Magick::MagentaChannel)}-bits\n" puts "\t\tYellow: #{channel_depth(Magick::YellowChannel)}-bits\n" puts "\t\tBlack: #{channel_depth(Magick::BlackChannel)}-bits\n" puts "\t\tOpacity: #{channel_depth(Magick::OpacityChannel)}-bits\n" if matte when Magick::GrayColorspace puts "\t\tGray: #{channel_depth(Magick::GrayChannel)}-bits\n" puts "\t\tOpacity: #{channel_depth(Magick::OpacityChannel)}-bits\n" if matte end scale = Magick::QuantumRange / (Magick::QuantumRange >> (Magick::QuantumDepth-channel_depth)) puts "\tChannel statistics:\n" case color_space when Magick::RGBColorspace puts "\t\tRed:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::RedChannel)[0]/scale, channel_extrema(Magick::RedChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::RedChannel)[1]/scale, channel_extrema(Magick::RedChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::RedChannel)[0]/scale, channel_mean(Magick::RedChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::RedChannel)[1]/scale, channel_mean(Magick::RedChannel)[1]/Magick::QuantumRange) puts "\t\tGreen:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::GreenChannel)[0]/scale, channel_extrema(Magick::GreenChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::GreenChannel)[1]/scale, channel_extrema(Magick::GreenChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::GreenChannel)[0]/scale, channel_mean(Magick::GreenChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::GreenChannel)[1]/scale, channel_mean(Magick::GreenChannel)[1]/Magick::QuantumRange) puts "\t\tBlue:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::BlueChannel)[0]/scale, channel_extrema(Magick::BlueChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::BlueChannel)[1]/scale, channel_extrema(Magick::BlueChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::BlueChannel)[0]/scale, channel_mean(Magick::BlueChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::BlueChannel)[1]/scale, channel_mean(Magick::BlueChannel)[1]/Magick::QuantumRange) when Magick::CMYKColorspace puts "\t\tCyan:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::CyanChannel)[0]/scale, channel_extrema(Magick::CyanChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::CyanChannel)[1]/scale, channel_extrema(Magick::CyanChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::CyanChannel)[0]/scale, channel_mean(Magick::CyanChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::CyanChannel)[1]/scale, channel_mean(Magick::CyanChannel)[1]/Magick::QuantumRange) puts "\t\tMagenta:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::MagentaChannel)[0]/scale, channel_extrema(Magick::MagentaChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::MagentaChannel)[1]/scale, channel_extrema(Magick::MagentaChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::MagentaChannel)[0]/scale, channel_mean(Magick::MagentaChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::MagentaChannel)[1]/scale, channel_mean(Magick::MagentaChannel)[1]/Magick::QuantumRange) puts "\t\tYellow:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::YellowChannel)[0]/scale, channel_extrema(Magick::YellowChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::YellowChannel)[1]/scale, channel_extrema(Magick::YellowChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::YellowChannel)[0]/scale, channel_mean(Magick::YellowChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::YellowChannel)[1]/scale, channel_mean(Magick::YellowChannel)[1]/Magick::QuantumRange) puts "\t\tBlack:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::BlackChannel)[0]/scale, channel_extrema(Magick::BlackChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::BlackChannel)[1]/scale, channel_extrema(Magick::BlackChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::BlackChannel)[0]/scale, channel_mean(Magick::BlackChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::BlackChannel)[1]/scale, channel_mean(Magick::BlackChannel)[1]/Magick::QuantumRange) when Magick::GrayColorspace puts "\t\tGray:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::GrayChannel)[0]/scale, channel_extrema(Magick::GrayChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::GrayChannel)[1]/scale, channel_extrema(Magick::GrayChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean: " + sprintf("%g (%g)\n", channel_mean(Magick::GrayChannel)[0]/scale, channel_mean(Magick::GrayChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation: " + sprintf("%g (%g)\n", channel_mean(Magick::GrayChannel)[1]/scale, channel_mean(Magick::GrayChannel)[1]/Magick::QuantumRange) end if matte puts "\t\tOpacity:\n" puts "\t\t\tMin: " + sprintf("%u (%g)\n", channel_extrema(Magick::OpacityChannel)[0]/scale, channel_extrema(Magick::OpacityChannel)[0]/Magick::QuantumRange) puts "\t\t\tMax: " + sprintf("%u (%g)\n", channel_extrema(Magick::OpacityChannel)[1]/scale, channel_extrema(Magick::OpacityChannel)[1]/Magick::QuantumRange) puts "\t\t\tMean:" + sprintf("%u (%g)\n", channel_mean(Magick::OpacityChannel)[0]/scale, channel_mean(Magick::OpacityChannel)[0]/Magick::QuantumRange) puts "\t\t\tStandard deviation:" + sprintf("%u (%g)\n", channel_mean(Magick::OpacityChannel)[1]/scale, channel_mean(Magick::OpacityChannel)[1]/Magick::QuantumRange) end if class_type == Magick::DirectClass puts "\tColors: #{total_colors}\n" else if total_colors <= colors puts "\tColors: #{colors}\n" else puts "\tColors: #{total_colors}=>#{colors}\n" end end # Histogram goes here puts "\tMean error per pixel: #{mean_error_per_pixel}\n" if mean_error_per_pixel != 0.0 puts "\tNormalized mean error: #{normalized_mean_error}\n" if normalized_mean_error != 0.0 puts "\tNormalized maximum error: #{normalized_maximum_error}\n" if normalized_maximum_error != 0.0 puts "\tRendering-intent: #{rendering_intent.to_s}\n" puts "\tGamma: #{gamma}\n" if gamma != 0.0 chrom = chromaticity if chrom.red_primary.x != 0.0 || chrom.green_primary.x != 0.0 || chrom.blue_primary.x != 0.0 || chrom.white_point.x != 0.0 puts "\tChromaticity:\n" puts "\t\tred primary: (#{sprintf("%g,%g", chrom.red_primary.x, chrom.red_primary.y)})\n" puts "\t\tgreen primary: (#{sprintf("%g,%g", chrom.green_primary.x, chrom.green_primary.y)})\n" puts "\t\tblue primary: (#{sprintf("%g,%g", chrom.blue_primary.x, chrom.blue_primary.y)})\n" puts "\t\twhite point: (#{sprintf("%g,%g", chrom.white_point.x, chrom.white_point.y)})\n" end ex_info = extract_info if ex_info.width * ex_info.height != 0.0 puts "\tTile geometry: #{ex_info.width}x#{ex_info.height}+#{ex_info.x}+#{ex_info.y}\n" end if x_resolution != 0.0 && y_resolution != 0.0 puts "\tResolution: #{sprintf("%gx%g", x_resolution, y_resolution)}\n" end puts "\tUnits: #{units.to_s}\n" size = filesize if size >= 1048576 puts "\tFilesize: #{"%.1f" % (size/1048576.0)}mb\n" elsif size >= 1024 puts "\tFilesize: #{"%.0f" % (size/1024.0)}kb\n" else puts "\tFilesize: #{size}b\n" end puts "\tInterlace: #{interlace.to_s}\n" puts "\tBackground Color: #{background_color}\n" puts "\tBorder Color: #{border_color}\n" puts "\tMatte Color: #{matte_color}\n" pg = page if pg.width != 0 || pg.height != 0 || pg.x != 0 || pg.y != 0 puts "\tPage geometry: #{pg.width}x#{pg.height}+#{pg.x}+#{pg.y}\n" end puts "\tDispose: #{dispose.to_s}\n" puts "\tDelay: #{delay}\n" if delay != 0 puts "\tIterations: #{iterations}\n" unless iterations == 1 puts "\tScene: #{scene}\n" if scene != 0 puts "\tCompression: #{compression.to_s}\n" puts "\tQuality: #{quality}\n" unless quality == 0 puts "\tOrientation: #{orientation.to_s}\n" puts "\tMontage: #{montage}\n" if montage signature # compute but ignore - will be displayed along with the other properties properties.each do |prop, value| next if prop[0,1] == '[' puts "\t#{prop}: #{value}\n" end clip_path = self["8BIM:1999,2998:#1"] if clip_path puts "\tClipping path: #{clip_path}\n" end each_profile do |name, value| puts "\tProfile-#{name}: #{value.length}\n" if name == 'exif' exif_attrs = get_exif_by_entry exif_attrs.each do |attr| puts "\t\t#{attr[0]}: #{attr[1]}\n" end end end puts "\tTainted: True\n" if changed? puts "\tTainted: False\n" unless changed? puts "\tVersion: #{Magick::Version}\n" puts "\t #{Magick::Magick_version}\n" end end end if ARGV.length == 0 puts <<-'END_USAGE' This example displays information about the specified image file(s) that is similar to ImageMagick/GraphicsMagick's identify command. Usage: ruby identify.rb filename [filename...] END_USAGE exit end ilist = Magick::ImageList.new(*ARGV) ilist.each do |img| img.identify end exit