Class: GeoRuby::SimpleFeatures::Polygon

Inherits:

Geometry

• Object
• Geometry
• GeoRuby::SimpleFeatures::Polygon

Defined in:

lib/geo_ruby/simple_features/polygon.rb

Overview

Represents a polygon as an array of linear rings (see LinearRing). No check is performed regarding the validity of the geometries forming the polygon.

Instance Attribute Summary

• #rings ⇒ Object readonly

  the list of rings forming the polygon.

Attributes inherited from Geometry

#srid, #with_m, #with_z

Class Method Summary

• .from_coordinates(point_sequences, srid = DEFAULT_SRID, z = false, m = false) ⇒ Object

  creates a new polygon.

• .from_linear_rings(linear_rings, srid = DEFAULT_SRID, with_z = false, with_m = false) ⇒ Object

  creates a new polygon.

• .from_points(point_sequences, srid = DEFAULT_SRID, z = false, m = false) ⇒ Object

  creates a new polygon from a list of Points (pt1.…ptn),(pti.…ptj).

Instance Method Summary

• #==(other_polygon) ⇒ Object

  tests for other equality.

• #as_json(_options = {}) ⇒ Object
• #binary_geometry_type ⇒ Object

  WKB geometry type.

• #binary_representation(allow_z = true, allow_m = true) ⇒ Object

  Binary representation of a polygon.

• #bounding_box ⇒ Object

  Bounding box in 2D/3D.

• #contains_point?(point) ⇒ Boolean

  Contains a point?.

• #georss_gml_representation(options) ⇒ Object

  georss gml representation.

• #georss_simple_representation(options) ⇒ Object

  georss simple representation : outputs only the outer ring.

• #georss_w3cgeo_representation(options) ⇒ Object

  georss w3c representation : outputs the first point of the outer ring.

• #initialize(srid = DEFAULT_SRID, with_z = false, with_m = false) ⇒ Polygon constructor

  A new instance of Polygon.

• #kml_representation(options = {}) ⇒ Object

  outputs the geometry in kml format : options are :id, :tesselate, :extrude, :altitude_mode.

• #m_range ⇒ Object
• #method_missing(method_name, *args, &b) ⇒ Object

  Delegate the unknown methods to the rings array.

• #text_geometry_type ⇒ Object

  WKT geometry type.

• #text_representation(allow_z = true, allow_m = true) ⇒ Object

  Text representation of a polygon.

• #to_coordinates ⇒ Object

Methods inherited from Geometry

#as_ewkb, #as_ewkt, #as_georss, #as_hex_ewkb, #as_hex_wkb, #as_kml, #as_wkb, #as_wkt, #envelope, from_ewkb, from_ewkt, from_geojson, from_georss, from_georss_with_tags, from_hex_ewkb, from_kml, #to_json

Constructor Details

#initialize(srid = DEFAULT_SRID, with_z = false, with_m = false) ⇒ Polygon

Returns a new instance of Polygon.

# File 'lib/geo_ruby/simple_features/polygon.rb', line 12

def initialize(srid = DEFAULT_SRID, with_z = false, with_m = false)
  super(srid, with_z, with_m)
  @rings = []
end

Dynamic Method Handling

This class handles dynamic methods through the method_missing method

#method_missing(method_name, *args, &b) ⇒ Object

Delegate the unknown methods to the rings array

# File 'lib/geo_ruby/simple_features/polygon.rb', line 18

def method_missing(method_name, *args, &b)
  @rings.send(method_name, *args, &b)
end

Instance Attribute Details

#rings ⇒ Object (readonly)

the list of rings forming the polygon

# File 'lib/geo_ruby/simple_features/polygon.rb', line 10

def rings
  @rings
end

Class Method Details

.from_coordinates(point_sequences, srid = DEFAULT_SRID, z = false, m = false) ⇒ Object

creates a new polygon. Accepts a sequence of points as argument:

((x,y)....(x,y)),((x,y).....(x,y))

# File 'lib/geo_ruby/simple_features/polygon.rb', line 158

def self.from_coordinates(point_sequences, srid = DEFAULT_SRID, z = false, m = false)
  polygon = new(srid, z, m)
  polygon.concat(point_sequences.map { |points| LinearRing.from_coordinates(points, srid, z, m) })
  polygon
end

.from_linear_rings(linear_rings, srid = DEFAULT_SRID, with_z = false, with_m = false) ⇒ Object

creates a new polygon. Accepts an array of linear strings as argument

# File 'lib/geo_ruby/simple_features/polygon.rb', line 150

def self.from_linear_rings(linear_rings, srid = DEFAULT_SRID, with_z = false, with_m = false)
  polygon = new(srid, with_z, with_m)
  polygon.concat(linear_rings)
  polygon
end

.from_points(point_sequences, srid = DEFAULT_SRID, z = false, m = false) ⇒ Object

creates a new polygon from a list of Points (pt1.…ptn),(pti.…ptj)

# File 'lib/geo_ruby/simple_features/polygon.rb', line 165

def self.from_points(point_sequences, srid = DEFAULT_SRID, z = false, m = false)
  polygon = new(srid, z, m)
  polygon.concat(point_sequences.map { |points| LinearRing.from_points(points, srid, z, m) })
  polygon
end

Instance Method Details

#==(other_polygon) ⇒ Object

tests for other equality. The SRID is not taken into account.

# File 'lib/geo_ruby/simple_features/polygon.rb', line 56

def ==(other_polygon)
  if other_polygon.class != self.class ||
     length != other_polygon.length
    false
  else
    index = 0
    while index < length
      return false if self[index] != other_polygon[index]
      index += 1
    end
    true
  end
end

#as_json(_options = {}) ⇒ Object

# File 'lib/geo_ruby/simple_features/polygon.rb', line 145

def as_json(_options = {})
  { type: 'Polygon', coordinates: to_coordinates }
end

#binary_geometry_type ⇒ Object

WKB geometry type

# File 'lib/geo_ruby/simple_features/polygon.rb', line 79

def binary_geometry_type
  3
end

#binary_representation(allow_z = true, allow_m = true) ⇒ Object

Binary representation of a polygon. Without the headers neccessary for a valid WKB string

# File 'lib/geo_ruby/simple_features/polygon.rb', line 72

def binary_representation(allow_z = true, allow_m = true)
  rep = [length].pack('V')
  each { |linear_ring| rep << linear_ring.binary_representation(allow_z, allow_m) }
  rep
end

#bounding_box ⇒ Object

Bounding box in 2D/3D. Returns an array of 2 points

# File 'lib/geo_ruby/simple_features/polygon.rb', line 23

def bounding_box
  if !with_z
    @rings[0].bounding_box
  else
    result = @rings[0].bounding_box # valid for x and y
    max_z, min_z = result[1].z, result[0].z
    1.upto(size - 1) do |index|
      bbox = @rings[index].bounding_box
      sw = bbox[0]
      ne = bbox[1]
      max_z = ne.z if ne.z > max_z
      min_z = sw.z if sw.z < min_z
    end
    result[1].z, result[0].z = max_z, min_z
    result
  end
end

#contains_point?(point) ⇒ Boolean

Contains a point?

Returns:

• (Boolean)

# File 'lib/geo_ruby/simple_features/polygon.rb', line 96

def contains_point?(point)
  !@rings.select { |lr| lr.contains_point? point }.empty?
end

#georss_gml_representation(options) ⇒ Object

georss gml representation

# File 'lib/geo_ruby/simple_features/polygon.rb', line 115

def georss_gml_representation(options)
  georss_ns = options[:georss_ns] || 'georss'
  gml_ns = options[:gml_ns] || 'gml'

  result = "<#{georss_ns}:where>\n<#{gml_ns}:Polygon>\n<#{gml_ns}:exterior>\n<#{gml_ns}:LinearRing>\n<#{gml_ns}:posList>\n" + self[0].georss_poslist + "\n</#{gml_ns}:posList>\n</#{gml_ns}:LinearRing>\n</#{gml_ns}:exterior>\n</#{gml_ns}:Polygon>\n</#{georss_ns}:where>\n"
end

#georss_simple_representation(options) ⇒ Object

georss simple representation : outputs only the outer ring

# File 'lib/geo_ruby/simple_features/polygon.rb', line 101

def georss_simple_representation(options)
  georss_ns = options[:georss_ns] || 'georss'
  geom_attr = options[:geom_attr]
  "<#{georss_ns}:polygon#{geom_attr}>" + self[0].georss_poslist + "</#{georss_ns}:polygon>\n"
end

#georss_w3cgeo_representation(options) ⇒ Object

georss w3c representation : outputs the first point of the outer ring

# File 'lib/geo_ruby/simple_features/polygon.rb', line 108

def georss_w3cgeo_representation(options)
  w3cgeo_ns = options[:w3cgeo_ns] || 'geo'

  "<#{w3cgeo_ns}:lat>#{self[0][0].y}</#{w3cgeo_ns}:lat>\n<#{w3cgeo_ns}:long>#{self[0][0].x}</#{w3cgeo_ns}:long>\n"
end

#kml_representation(options = {}) ⇒ Object

outputs the geometry in kml format : options are :id, :tesselate, :extrude, :altitude_mode. If the altitude_mode option is not present, the Z (if present) will not be output (since it won’t be used by GE anyway: clampToGround is the default)

# File 'lib/geo_ruby/simple_features/polygon.rb', line 125

def kml_representation(options = {})
  result = "<Polygon#{options[:id_attr]}>\n"
  result += options[:geom_data] if options[:geom_data]
  rings.each_with_index do |ring, i|
    if i == 0
      boundary = 'outerBoundaryIs'
    else
      boundary = 'innerBoundaryIs'
    end
    result += "<#{boundary}><LinearRing><coordinates>\n"
    result += ring.kml_poslist(options)
    result += "\n</coordinates></LinearRing></#{boundary}>\n"
  end
  result += "</Polygon>\n"
end

#m_range ⇒ Object

# File 'lib/geo_ruby/simple_features/polygon.rb', line 41

def m_range
  if with_m
    max_m, min_m = -Float::MAX, Float::MAX
    each do |lr|
      lrmr = lr.m_range
      max_m = lrmr[1] if lrmr[1] > max_m
      min_m = lrmr[0] if lrmr[0] < min_m
    end
    [min_m, max_m]
  else
    [0, 0]
  end
end

#text_geometry_type ⇒ Object

WKT geometry type

# File 'lib/geo_ruby/simple_features/polygon.rb', line 91

def text_geometry_type
  'POLYGON'
end

#text_representation(allow_z = true, allow_m = true) ⇒ Object

Text representation of a polygon

# File 'lib/geo_ruby/simple_features/polygon.rb', line 84

def text_representation(allow_z = true, allow_m = true)
  @rings.map do |line_string|
    '(' + line_string.text_representation(allow_z, allow_m) + ')'
  end.join(',')
end

#to_coordinates ⇒ Object

# File 'lib/geo_ruby/simple_features/polygon.rb', line 141

def to_coordinates
  rings.map(&:to_coordinates)
end