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require 'net/http'
require 'uri'

module Irc

  # miscellaneous useful functions
  module Utils
    # read a time in string format, turn it into "seconds from now".
    # example formats handled are "5 minutes", "2 days", "five hours",
    # "11:30", "15:45:11", "one day", etc.
    #
    # Throws:: RunTimeError "invalid time string" on parse failure
    def Utils.timestr_offset(timestr)
      case timestr
        when (/^(\S+)\s+(\S+)$/)
          mult = $1
          unit = $2
          if(mult =~ /^([\d.]+)$/)
            num = $1.to_f
            raise "invalid time string" unless num
          else
            case mult
              when(/^(one|an|a)$/)
                num = 1
              when(/^two$/)
                num = 2
              when(/^three$/)
                num = 3
              when(/^four$/)
                num = 4
              when(/^five$/)
                num = 5
              when(/^six$/)
                num = 6
              when(/^seven$/)
                num = 7
              when(/^eight$/)
                num = 8
              when(/^nine$/)
                num = 9
              when(/^ten$/)
                num = 10
              when(/^fifteen$/)
                num = 15
              when(/^twenty$/)
                num = 20
              when(/^thirty$/)
                num = 30
              when(/^sixty$/)
                num = 60
              else
                raise "invalid time string"
            end
          end
          case unit
            when (/^(s|sec(ond)?s?)$/)
              return num
            when (/^(m|min(ute)?s?)$/)
              return num * 60
            when (/^(h|h(ou)?rs?)$/)
              return num * 60 * 60
            when (/^(d|days?)$/)
              return num * 60 * 60 * 24
            else
              raise "invalid time string"
          end
        when (/^(\d+):(\d+):(\d+)$/)
          hour = $1.to_i
          min = $2.to_i
          sec = $3.to_i
          now = Time.now
          later = Time.mktime(now.year, now.month, now.day, hour, min, sec)
          return later - now
        when (/^(\d+):(\d+)$/)
          hour = $1.to_i
          min = $2.to_i
          now = Time.now
          later = Time.mktime(now.year, now.month, now.day, hour, min, now.sec)
          return later - now
        when (/^(\d+):(\d+)(am|pm)$/)
          hour = $1.to_i
          min = $2.to_i
          ampm = $3
          if ampm == "pm"
            hour += 12
          end
          now = Time.now
          later = Time.mktime(now.year, now.month, now.day, hour, min, now.sec)
          return later - now
        when (/^(\S+)$/)
          num = 1
          unit = $1
          case unit
            when (/^(s|sec(ond)?s?)$/)
              return num
            when (/^(m|min(ute)?s?)$/)
              return num * 60
            when (/^(h|h(ou)?rs?)$/)
              return num * 60 * 60
            when (/^(d|days?)$/)
              return num * 60 * 60 * 24
            else
              raise "invalid time string"
          end
        else
          raise "invalid time string"
      end
    end

    # turn a number of seconds into a human readable string, e.g
    # 2 days, 3 hours, 18 minutes, 10 seconds
    def Utils.secs_to_string(secs)
      ret = ""
      days = (secs / (60 * 60 * 24)).to_i
      secs = secs % (60 * 60 * 24)
      hours = (secs / (60 * 60)).to_i
      secs = (secs % (60 * 60))
      mins = (secs / 60).to_i
      secs = (secs % 60).to_i
      ret += "#{days} days, " if days > 0
      ret += "#{hours} hours, " if hours > 0 || days > 0
      ret += "#{mins} minutes and " if mins > 0 || hours > 0 || days > 0
      ret += "#{secs} seconds"
      return ret
    end

    def Utils.safe_exec(command, *args)
      IO.popen("-") {|p|
        if(p)
          return p.readlines.join("\n")
        else
          begin
            $stderr = $stdout
            exec(command, *args)
          rescue Exception => e
            puts "exec of #{command} led to exception: #{e}"
            Kernel::exit! 0
          end
          puts "exec of #{command} failed"
          Kernel::exit! 0
        end
      }
    end

    # returns a string containing the result of an HTTP GET on the uri
    def Utils.http_get(uristr, readtimeout=8, opentimeout=4)

      # ruby 1.7 or better needed for this (or 1.6 and debian unstable)
      Net::HTTP.version_1_2
      # (so we support the 1_1 api anyway, avoids problems)

      uri = URI.parse uristr
      query = uri.path
      if uri.query
        query += "?#{uri.query}"
      end

      proxy_host = nil
      proxy_port = nil
      if(ENV['http_proxy'] && proxy_uri = URI.parse(ENV['http_proxy']))
        proxy_host = proxy_uri.host
        proxy_port = proxy_uri.port
      end

      http = Net::HTTP.new(uri.host, uri.port, proxy_host, proxy_port)
      http.open_timeout = opentimeout
      http.read_timeout = readtimeout

      begin
        http.start {|http|
          resp = http.get(query)
          if resp.code == "200"
            return resp.body
          end
        }
      rescue => e
        # cheesy for now
        $stderr.puts "Utils.http_get exception: #{e}, while trying to get #{uristr}"
        return nil
      end
    end

    # This is nasty-ass. I hate writing parsers.
    class Metar
      attr_reader :decoded
      attr_reader :input
      attr_reader :date
      attr_reader :nodata
      def initialize(string)
        str = nil
        @nodata = false
        string.each_line {|l|
          if str == nil
            # grab first line (date)
            @date = l.chomp.strip
            str = ""
          else
            if(str == "")
              str = l.chomp.strip
            else
              str += " " + l.chomp.strip
            end
          end
        }
        if @date && @date =~ /^(\d+)\/(\d+)\/(\d+) (\d+):(\d+)$/
          # 2002/02/26 05:00
          @date = Time.gm($1, $2, $3, $4, $5, 0)
        else
          @date = Time.now
        end
        @input = str.chomp
        @cloud_layers = 0
        @cloud_coverage = {
          'SKC' => '0',
          'CLR' => '0',
          'VV'  => '8/8',
          'FEW' => '1/8 - 2/8',
          'SCT' => '3/8 - 4/8',
          'BKN' => '5/8 - 7/8',
          'OVC' => '8/8'
        }
        @wind_dir_texts = [
          'North',
          'North/Northeast',
          'Northeast',
          'East/Northeast',
          'East',
          'East/Southeast',
          'Southeast',
          'South/Southeast',
          'South',
          'South/Southwest',
          'Southwest',
          'West/Southwest',
          'West',
          'West/Northwest',
          'Northwest',
          'North/Northwest',
          'North'
        ]
        @wind_dir_texts_short = [
          'N',
          'N/NE',
          'NE',
          'E/NE',
          'E',
          'E/SE',
          'SE',
          'S/SE',
          'S',
          'S/SW',
          'SW',
          'W/SW',
          'W',
          'W/NW',
          'NW',
          'N/NW',
          'N'
        ]
        @weather_array = {
          'MI' => 'Mild ',
          'PR' => 'Partial ',
          'BC' => 'Patches ',
          'DR' => 'Low Drifting ',
          'BL' => 'Blowing ',
          'SH' => 'Shower(s) ',
          'TS' => 'Thunderstorm ',
          'FZ' => 'Freezing',
          'DZ' => 'Drizzle ',
          'RA' => 'Rain ',
          'SN' => 'Snow ',
          'SG' => 'Snow Grains ',
          'IC' => 'Ice Crystals ',
          'PE' => 'Ice Pellets ',
          'GR' => 'Hail ',
          'GS' => 'Small Hail and/or Snow Pellets ',
          'UP' => 'Unknown ',
          'BR' => 'Mist ',
          'FG' => 'Fog ',
          'FU' => 'Smoke ',
          'VA' => 'Volcanic Ash ',
          'DU' => 'Widespread Dust ',
          'SA' => 'Sand ',
          'HZ' => 'Haze ',
          'PY' => 'Spray',
          'PO' => 'Well-Developed Dust/Sand Whirls ',
          'SQ' => 'Squalls ',
          'FC' => 'Funnel Cloud Tornado Waterspout ',
          'SS' => 'Sandstorm/Duststorm '
        }
        @cloud_condition_array = {
          'SKC' => 'clear',
          'CLR' => 'clear',
          'VV'  => 'vertical visibility',
          'FEW' => 'a few',
          'SCT' => 'scattered',
          'BKN' => 'broken',
          'OVC' => 'overcast'
        }
        @strings = {
          'mm_inches'             => '%s mm (%s inches)',
          'precip_a_trace'        => 'a trace',
          'precip_there_was'      => 'There was %s of precipitation ',
          'sky_str_format1'       => 'There were %s at a height of %s meters (%s feet)',
          'sky_str_clear'         => 'The sky was clear',
          'sky_str_format2'       => ', %s at a height of %s meter (%s feet) and %s at a height of %s meters (%s feet)',
          'sky_str_format3'       => ' and %s at a height of %s meters (%s feet)',
          'clouds'                => ' clouds',
          'clouds_cb'             => ' cumulonimbus clouds',
          'clouds_tcu'            => ' towering cumulus clouds',
          'visibility_format'     => 'The visibility was %s kilometers (%s miles).',
          'wind_str_format1'      => 'blowing at a speed of %s meters per second (%s miles per hour)',
          'wind_str_format2'      => ', with gusts to %s meters per second (%s miles per hour),',
          'wind_str_format3'      => ' from the %s',
          'wind_str_calm'         => 'calm',
          'precip_last_hour'      => 'in the last hour. ',
          'precip_last_6_hours'   => 'in the last 3 to 6 hours. ',
          'precip_last_24_hours'  => 'in the last 24 hours. ',
          'precip_snow'           => 'There is %s mm (%s inches) of snow on the ground. ',
          'temp_min_max_6_hours'  => 'The maximum and minimum temperatures over the last 6 hours were %s and %s degrees Celsius (%s and %s degrees Fahrenheit).',
          'temp_max_6_hours'      => 'The maximum temperature over the last 6 hours was %s degrees Celsius (%s degrees Fahrenheit). ',
          'temp_min_6_hours'      => 'The minimum temperature over the last 6 hours was %s degrees Celsius (%s degrees Fahrenheit). ',
          'temp_min_max_24_hours' => 'The maximum and minimum temperatures over the last 24 hours were %s and %s degrees Celsius (%s and %s degrees Fahrenheit). ',
          'light'                 => 'Light ',
          'moderate'              => 'Moderate ',
          'heavy'                 => 'Heavy ',
          'mild'                  => 'Mild ',
          'nearby'                => 'Nearby ',
          'current_weather'       => 'Current weather is %s. ',
          'pretty_print_metar'    => '%s on %s, the wind was %s at %s. The temperature was %s degrees Celsius (%s degrees Fahrenheit), and the pressure was %s hPa (%s inHg). The relative humidity was %s%%. %s %s %s %s %s'
        }

        parse
      end

      def store_speed(value, windunit, meterspersec, knots, milesperhour)
        # Helper function to convert and store speed based on unit.
        # &$meterspersec, &$knots and &$milesperhour are passed on
        # reference
        if (windunit == 'KT')
          # The windspeed measured in knots:
          @decoded[knots] = sprintf("%.2f", value)
          # The windspeed measured in meters per second, rounded to one decimal place:
          @decoded[meterspersec] = sprintf("%.2f", value.to_f * 0.51444)
          # The windspeed measured in miles per hour, rounded to one decimal place: */
          @decoded[milesperhour] = sprintf("%.2f", value.to_f * 1.1507695060844667)
        elsif (windunit == 'MPS')
          # The windspeed measured in meters per second:
          @decoded[meterspersec] = sprintf("%.2f", value)
          # The windspeed measured in knots, rounded to one decimal place:
          @decoded[knots] = sprintf("%.2f", value.to_f / 0.51444)
          #The windspeed measured in miles per hour, rounded to one decimal place:
          @decoded[milesperhour] = sprintf("%.1f", value.to_f / 0.51444 * 1.1507695060844667)
        elsif (windunit == 'KMH')
          # The windspeed measured in kilometers per hour:
          @decoded[meterspersec] = sprintf("%.1f", value.to_f * 1000 / 3600)
          @decoded[knots] = sprintf("%.1f", value.to_f * 1000 / 3600 / 0.51444)
          # The windspeed measured in miles per hour, rounded to one decimal place:
          @decoded[milesperhour] = sprintf("%.1f", knots.to_f * 1.1507695060844667)
        end
      end
      
      def parse
        @decoded = Hash.new
        puts @input
        @input.split(" ").each {|part|
          if (part == 'METAR')
            # Type of Report: METAR
            @decoded['type'] = 'METAR'
          elsif (part == 'SPECI')
            # Type of Report: SPECI
            @decoded['type'] = 'SPECI'
          elsif (part == 'AUTO')
            # Report Modifier: AUTO
            @decoded['report_mod'] = 'AUTO'
          elsif (part == 'NIL')
            @nodata = true
          elsif (part =~ /^\S{4}$/ && ! (@decoded.has_key?('station')))
            # Station Identifier
            @decoded['station'] = part
          elsif (part =~ /([0-9]{2})([0-9]{2})([0-9]{2})Z/)
            # ignore this bit, it's useless without month/year. some of these
            # things are hideously out of date.
            # now = Time.new
            # time = Time.gm(now.year, now.month, $1, $2, $3, 0)
            # Date and Time of Report
            # @decoded['time'] = time
          elsif (part == 'COR')
            # Report Modifier: COR
            @decoded['report_mod'] = 'COR'
          elsif (part =~ /([0-9]{3}|VRB)([0-9]{2,3}).*(KT|MPS|KMH)/)
            # Wind Group
            windunit = $3
            # now do ereg to get the actual values
            part =~ /([0-9]{3}|VRB)([0-9]{2,3})((G[0-9]{2,3})?#{windunit})/
            if ($1 == 'VRB')
              @decoded['wind_deg'] = 'variable directions'
              @decoded['wind_dir_text'] = 'variable directions'
              @decoded['wind_dir_text_short'] = 'VAR'
            else
              @decoded['wind_deg'] = $1
              @decoded['wind_dir_text'] = @wind_dir_texts[($1.to_i/22.5).round]
              @decoded['wind_dir_text_short'] = @wind_dir_texts_short[($1.to_i/22.5).round]
            end
            store_speed($2, windunit,
                        'wind_meters_per_second',
                        'wind_knots',
                        'wind_miles_per_hour')

            if ($4 != nil)
              # We have a report with information about the gust.
              # First we have the gust measured in knots
			  if ($4 =~ /G([0-9]{2,3})/)
              store_speed($1,windunit,
                          'wind_gust_meters_per_second',
                          'wind_gust_knots',
                          'wind_gust_miles_per_hour')
				end
            end
          elsif (part =~ /([0-9]{3})V([0-9]{3})/)
            #  Variable wind-direction
            @decoded['wind_var_beg'] = $1
            @decoded['wind_var_end'] = $2
          elsif (part == "9999")
            # A strange value. When you look at other pages you see it
            # interpreted like this (where I use > to signify 'Greater
            # than'):
            @decoded['visibility_miles'] = '>7';
            @decoded['visibility_km']    = '>11.3';
          elsif (part =~ /^([0-9]{4})$/)
            # Visibility in meters (4 digits only)
            # The visibility measured in kilometers, rounded to one decimal place.
            @decoded['visibility_km'] = sprintf("%.1f", $1.to_i / 1000)
            # The visibility measured in miles, rounded to one decimal place.
            @decoded['visibility_miles'] = sprintf("%.1f", $1.to_i / 1000 / 1.609344)
          elsif (part =~ /^[0-9]$/)
            # Temp Visibility Group, single digit followed by space
            @decoded['temp_visibility_miles'] = part
          elsif (@decoded['temp_visibility_miles'] && (@decoded['temp_visibility_miles']+' '+part) =~ /^M?(([0-9]?)[ ]?([0-9])(\/?)([0-9]*))SM$/)
            # Visibility Group
            if ($4 == '/')
              vis_miles = $2.to_i + $3.to_i/$5.to_i
            else
              vis_miles = $1.to_i;
            end
            if (@decoded['temp_visibility_miles'][0] == 'M')
              # The visibility measured in miles, prefixed with < to indicate 'Less than'
              @decoded['visibility_miles'] = '<' + sprintf("%.1f", vis_miles)
              # The visibility measured in kilometers. The value is rounded
              # to one decimal place, prefixed with < to indicate 'Less than' */
              @decoded['visibility_km']    = '<' . sprintf("%.1f", vis_miles * 1.609344)
            else
              # The visibility measured in mile.s */
              @decoded['visibility_miles'] = sprintf("%.1f", vis_miles)
              # The visibility measured in kilometers, rounded to one decimal place.
              @decoded['visibility_km']    = sprintf("%.1f", vis_miles * 1.609344)
            end
          elsif (part =~ /^(-|\+|VC|MI)?(TS|SH|FZ|BL|DR|BC|PR|RA|DZ|SN|SG|GR|GS|PE|IC|UP|BR|FG|FU|VA|DU|SA|HZ|PY|PO|SQ|FC|SS|DS)+$/)
            # Current weather-group
            @decoded['weather'] = '' unless @decoded.has_key?('weather')
            if (part[0].chr == '-')
              # A light phenomenon
              @decoded['weather'] += @strings['light']
              part = part[1,part.length]
            elsif (part[0].chr == '+')
              # A heavy phenomenon
              @decoded['weather'] += @strings['heavy']
              part = part[1,part.length]
            elsif (part[0,2] == 'VC')
              # Proximity Qualifier
              @decoded['weather'] += @strings['nearby']
              part = part[2,part.length]
            elsif (part[0,2] == 'MI')
              @decoded['weather'] += @strings['mild']
              part = part[2,part.length]
            else
              # no intensity code => moderate phenomenon
              @decoded['weather'] += @strings['moderate']
            end
            
            while (part && bite = part[0,2]) do
              # Now we take the first two letters and determine what they
              # mean. We append this to the variable so that we gradually
              # build up a phrase.

              @decoded['weather'] += @weather_array[bite]
              # Here we chop off the two first letters, so that we can take
              # a new bite at top of the while-loop.
              part = part[2,-1]
            end
          elsif (part =~ /(SKC|CLR)/)
            # Cloud-layer-group.
            # There can be up to three of these groups, so we store them as
            # cloud_layer1, cloud_layer2 and cloud_layer3.
            
            @cloud_layers += 1;
            # Again we have to translate the code-characters to a
            # meaningful string.
            @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_condition']  = @cloud_condition_array[$1]
            @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_coverage'] = @cloud_coverage[$1]
          elsif (part =~ /^(VV|FEW|SCT|BKN|OVC)([0-9]{3})(CB|TCU)?$/)
            # We have found (another) a cloud-layer-group. There can be up
            # to three of these groups, so we store them as cloud_layer1,
            # cloud_layer2 and cloud_layer3.
            @cloud_layers += 1;
            # Again we have to translate the code-characters to a meaningful string.
            if ($3 == 'CB')
              # cumulonimbus (CB) clouds were observed. */
              @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_condition'] =
                          @cloud_condition_array[$1] + @strings['clouds_cb']
            elsif ($3 == 'TCU')
              # towering cumulus (TCU) clouds were observed.
              @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_condition'] =
                          @cloud_condition_array[$1] + @strings['clouds_tcu']
            else
              @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_condition'] =
                          @cloud_condition_array[$1] + @strings['clouds']
            end
            @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_coverage'] = @cloud_coverage[$1]
            @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_altitude_ft'] = $2.to_i * 100
            @decoded['cloud_layer'+ (@cloud_layers.to_s) +'_altitude_m']  = ($2.to_f * 30.48).round
          elsif (part =~ /^T([0-9]{4})$/)
            store_temp($1,'temp_c','temp_f')
          elsif (part =~ /^T?(M?[0-9]{2})\/(M?[0-9\/]{1,2})?$/)
            # Temperature/Dew Point Group
            # The temperature and dew-point measured in Celsius.
            @decoded['temp_c'] = sprintf("%d", $1.tr('M', '-'))
            if $2 == "//" || !$2
              @decoded['dew_c'] = 0
            else
              @decoded['dew_c'] = sprintf("%.1f", $2.tr('M', '-'))
            end
            # The temperature and dew-point measured in Fahrenheit, rounded to
            # the nearest degree.
            @decoded['temp_f'] = ((@decoded['temp_c'].to_f * 9 / 5) + 32).round
            @decoded['dew_f']  = ((@decoded['dew_c'].to_f * 9 / 5) + 32).round
          elsif(part =~ /A([0-9]{4})/)
            # Altimeter
            # The pressure measured in inHg
            @decoded['altimeter_inhg'] = sprintf("%.2f", $1.to_i/100)
            # The pressure measured in mmHg, hPa and atm
            @decoded['altimeter_mmhg'] = sprintf("%.1f", $1.to_f * 0.254)
            @decoded['altimeter_hpa']  = sprintf("%d", ($1.to_f * 0.33863881578947).to_i)
            @decoded['altimeter_atm']  = sprintf("%.3f", $1.to_f * 3.3421052631579e-4)
          elsif(part =~ /Q([0-9]{4})/)
            # Altimeter
            # This is strange, the specification doesnt say anything about
            # the Qxxxx-form, but it's in the METARs.
            # The pressure measured in hPa
            @decoded['altimeter_hpa']  = sprintf("%d", $1.to_i)
            # The pressure measured in mmHg, inHg and atm
            @decoded['altimeter_mmhg'] = sprintf("%.1f", $1.to_f * 0.7500616827)
            @decoded['altimeter_inhg'] = sprintf("%.2f", $1.to_f * 0.0295299875)
            @decoded['altimeter_atm']  = sprintf("%.3f", $1.to_f * 9.869232667e-4)
          elsif (part =~ /^T([0-9]{4})([0-9]{4})/)
            # Temperature/Dew Point Group, coded to tenth of degree.
            # The temperature and dew-point measured in Celsius.
            store_temp($1,'temp_c','temp_f')
            store_temp($2,'dew_c','dew_f')
          elsif (part =~ /^1([0-9]{4}$)/)
            # 6 hour maximum temperature Celsius, coded to tenth of degree
            store_temp($1,'temp_max6h_c','temp_max6h_f')
          elsif (part =~ /^2([0-9]{4}$)/)
            # 6 hour minimum temperature Celsius, coded to tenth of degree
            store_temp($1,'temp_min6h_c','temp_min6h_f')
          elsif (part =~ /^4([0-9]{4})([0-9]{4})$/)
            # 24 hour maximum and minimum temperature Celsius, coded to
            # tenth of degree
            store_temp($1,'temp_max24h_c','temp_max24h_f')
            store_temp($2,'temp_min24h_c','temp_min24h_f')
          elsif (part =~ /^P([0-9]{4})/)
            # Precipitation during last hour in hundredths of an inch
            # (store as inches)
            @decoded['precip_in'] = sprintf("%.2f", $1.to_f/100)
            @decoded['precip_mm'] = sprintf("%.2f", $1.to_f * 0.254)
          elsif (part =~ /^6([0-9]{4})/)
            # Precipitation during last 3 or 6 hours in hundredths of an
            # inch  (store as inches)
            @decoded['precip_6h_in'] = sprintf("%.2f", $1.to_f/100)
            @decoded['precip_6h_mm'] = sprintf("%.2f", $1.to_f * 0.254)
          elsif (part =~ /^7([0-9]{4})/)
            # Precipitation during last 24 hours in hundredths of an inch
            # (store as inches)
            @decoded['precip_24h_in'] = sprintf("%.2f", $1.to_f/100)
            @decoded['precip_24h_mm'] = sprintf("%.2f", $1.to_f * 0.254)
          elsif(part =~ /^4\/([0-9]{3})/)
            # Snow depth in inches
            @decoded['snow_in'] = sprintf("%.2f", $1);
            @decoded['snow_mm'] = sprintf("%.2f", $1.to_f * 25.4)
          else
            # If we couldn't match the group, we assume that it was a
            # remark.
            @decoded['remarks'] = '' unless @decoded.has_key?("remarks")
            @decoded['remarks'] += ' ' + part;
          end
        }
        
        # Relative humidity
        # p @decoded['dew_c'] # 11.0
        # p @decoded['temp_c'] # 21.0
        # => 56.1
        @decoded['rel_humidity'] = sprintf("%.1f",100 * 
          (6.11 * (10.0**(7.5 * @decoded['dew_c'].to_f / (237.7 + @decoded['dew_c'].to_f)))) / (6.11 * (10.0 ** (7.5 * @decoded['temp_c'].to_f / (237.7 + @decoded['temp_c'].to_f))))) if @decoded.has_key?('dew_c')
      end

      def store_temp(temp,temp_cname,temp_fname)
        # Given a numerical temperature temp in Celsius, coded to tenth of
        # degree, store in @decoded[temp_cname], convert to Fahrenheit
        # and store in @decoded[temp_fname]
        # Note: temp is converted to negative if temp > 100.0 (See
        # Federal Meteorological Handbook for groups T, 1, 2 and 4)

        # Temperature measured in Celsius, coded to tenth of degree
        temp = temp.to_f/10
        if (temp >100.0) 
           # first digit = 1 means minus temperature
           temp = -(temp - 100.0)
        end
        @decoded[temp_cname] = sprintf("%.1f", temp)
        # The temperature in Fahrenheit.
        @decoded[temp_fname] = sprintf("%.1f", (temp * 9 / 5) + 32)        
      end

       def pretty_print_precip(precip_mm, precip_in)
         # Returns amount if $precip_mm > 0, otherwise "trace" (see Federal
         # Meteorological Handbook No. 1 for code groups P, 6 and 7) used in
         # several places, so standardized in one function.
         if (precip_mm.to_i > 0)
           amount = sprintf(@strings['mm_inches'], precip_mm, precip_in)
         else
           amount = @strings['a_trace']
         end
         return sprintf(@strings['precip_there_was'], amount)
      end

      def pretty_print
       if @nodata
         return "The weather stored for #{@decoded['station']} consists of the string 'NIL' :("
       end

       ["temp_c", "altimeter_hpa"].each {|key|
         if !@decoded.has_key?(key)
           return "The weather stored for #{@decoded['station']} could not be parsed (#{@input})"
         end
       }
       
       mins_old = ((Time.now - @date.to_i).to_f/60).round
       if (mins_old <= 60)
         weather_age = mins_old.to_s + " minutes ago,"
       elsif (mins_old <= 60 * 25)
         weather_age = (mins_old / 60).to_s + " hours, "
         weather_age += (mins_old % 60).to_s + " minutes ago,"
       else
         # return "The weather stored for #{@decoded['station']} is hideously out of date :( (Last update #{@date})"
         weather_age = "The weather stored for #{@decoded['station']} is hideously out of date :( here it is anyway:"
       end
        
       if(@decoded.has_key?("cloud_layer1_altitude_ft"))
         sky_str = sprintf(@strings['sky_str_format1'],
                           @decoded["cloud_layer1_condition"],
                           @decoded["cloud_layer1_altitude_m"],
                           @decoded["cloud_layer1_altitude_ft"])
       else
         sky_str = @strings['sky_str_clear']
       end

       if(@decoded.has_key?("cloud_layer2_altitude_ft"))
         if(@decoded.has_key?("cloud_layer3_altitude_ft"))
           sky_str += sprintf(@strings['sky_str_format2'],
                              @decoded["cloud_layer2_condition"],
                              @decoded["cloud_layer2_altitude_m"],
                              @decoded["cloud_layer2_altitude_ft"],
                              @decoded["cloud_layer3_condition"],
                              @decoded["cloud_layer3_altitude_m"],
                              @decoded["cloud_layer3_altitude_ft"])
         else
           sky_str += sprintf(@strings['sky_str_format3'],
                              @decoded["cloud_layer2_condition"],
                              @decoded["cloud_layer2_altitude_m"],
                              @decoded["cloud_layer2_altitude_ft"])
         end
       end
       sky_str += "."

       if(@decoded.has_key?("visibility_miles"))
         visibility = sprintf(@strings['visibility_format'],
                              @decoded["visibility_km"],
                              @decoded["visibility_miles"])
       else
         visibility = ""
       end

       if (@decoded.has_key?("wind_meters_per_second") && @decoded["wind_meters_per_second"].to_i > 0)
         wind_str = sprintf(@strings['wind_str_format1'],
                            @decoded["wind_meters_per_second"],
                            @decoded["wind_miles_per_hour"])
         if (@decoded.has_key?("wind_gust_meters_per_second") && @decoded["wind_gust_meters_per_second"].to_i > 0)
           wind_str += sprintf(@strings['wind_str_format2'],
                               @decoded["wind_gust_meters_per_second"],
                               @decoded["wind_gust_miles_per_hour"])
         end
         wind_str += sprintf(@strings['wind_str_format3'],
                             @decoded["wind_dir_text"])
       else
         wind_str = @strings['wind_str_calm']
       end

       prec_str = ""
       if (@decoded.has_key?("precip_in"))
         prec_str += pretty_print_precip(@decoded["precip_mm"], @decoded["precip_in"]) + @strings['precip_last_hour']
       end
       if (@decoded.has_key?("precip_6h_in"))
         prec_str += pretty_print_precip(@decoded["precip_6h_mm"], @decoded["precip_6h_in"]) + @strings['precip_last_6_hours']
       end
       if (@decoded.has_key?("precip_24h_in"))
         prec_str += pretty_print_precip(@decoded["precip_24h_mm"], @decoded["precip_24h_in"]) + @strings['precip_last_24_hours']
       end
       if (@decoded.has_key?("snow_in"))
         prec_str += sprintf(@strings['precip_snow'], @decoded["snow_mm"], @decoded["snow_in"])
       end

       temp_str = ""
       if (@decoded.has_key?("temp_max6h_c") && @decoded.has_key?("temp_min6h_c"))
         temp_str += sprintf(@strings['temp_min_max_6_hours'],
                             @decoded["temp_max6h_c"],
                             @decoded["temp_min6h_c"],
                             @decoded["temp_max6h_f"],
                             @decoded["temp_min6h_f"])
       else
         if (@decoded.has_key?("temp_max6h_c"))
           temp_str += sprintf(@strings['temp_max_6_hours'],
                               @decoded["temp_max6h_c"],
                               @decoded["temp_max6h_f"])
         end
         if (@decoded.has_key?("temp_min6h_c"))
           temp_str += sprintf(@strings['temp_max_6_hours'],
                               @decoded["temp_min6h_c"],
                               @decoded["temp_min6h_f"])
         end
       end
       if (@decoded.has_key?("temp_max24h_c"))
         temp_str += sprintf(@strings['temp_min_max_24_hours'],
                             @decoded["temp_max24h_c"],
                             @decoded["temp_min24h_c"],
                             @decoded["temp_max24h_f"],
                             @decoded["temp_min24h_f"])
       end

       if (@decoded.has_key?("weather"))
         weather_str = sprintf(@strings['current_weather'], @decoded["weather"])
       else
         weather_str = ''
       end

       return sprintf(@strings['pretty_print_metar'],
                      weather_age,
                      @date,
                      wind_str, @decoded["station"], @decoded["temp_c"],
                      @decoded["temp_f"], @decoded["altimeter_hpa"],
                      @decoded["altimeter_inhg"],
                      @decoded["rel_humidity"], sky_str,
                      visibility, weather_str, prec_str, temp_str).strip
      end
  
      def to_s
        @input
      end
    end

    def Utils.get_metar(station)
      station.upcase!
      
      result = Utils.http_get("http://weather.noaa.gov/pub/data/observations/metar/stations/#{station}.TXT")
      return nil unless result
      return Metar.new(result)
    end
  end
end