module GpsUtils class Point # @!attribute [r] lat # @return [Float, Integer] Latitude attr_reader :lat # @!attribute [r] lng # @return [Float, Integer] Longitude attr_reader :lng # Initialize Point. # # @param lat [Integer, Float] Latitude # @param lng [Integer, Float] Langitude def initialize(lat, lng) unless lat.is_a? Float or lat.is_a? Integer raise ArgumentError.new 'lat must be float or integer.' end unless lng.is_a? Float or lng.is_a? Integer raise ArgumentError.new 'lng must be float or integer.' end @lat = lat @lng = lng end # @return [Array] Array with latitude and longitude as Float or Integer # values, as used when object was initialized def to_a [@lat, @lng] end def to_s "#{@lat},#{@lng}" end end class BoundingBox # @!attribute [r] nw # @return [Point] North-West corner attr_reader :nw # @!attribute [r] nw # @return [Point] South-East corner attr_reader :se # Initialize BoundingBox. # # @param nw_point [Point] North-West corner # @param se_point [Point] South-East corner def initialize(nw_point, se_point) unless nw_point.is_a? Point raise ArgumentError.new 'nw_point must be a Point.' end unless se_point.is_a? Point raise ArgumentError.new 'se_point must be a Point.' end @nw = nw_point @se = se_point @p21 = @se.lat - @nw.lat @p41 = @nw.lng - @se.lng @p21ms = @p21 ** 2 @p41ms = @p41 ** 2 end # Determine whether point is inside bounding box. # # @param point [Point] def cover?(point) p = [point.lat - @nw.lat, point.lng - @se.lng] p21x = p[0] * @p21 p41x = p[1] * @p41 0 < p21x and p21x < @p21ms and 0 <= p41x and p41x <= @p41ms end end end