Class: GeoRuby::SimpleFeatures::Geometry

Inherits:

Object

• Object
• GeoRuby::SimpleFeatures::Geometry

Defined in:

lib/geo_ruby/simple_features/geometry.rb

Overview

Root of all geometric data classes. Objects of class Geometry should not be instantiated.

Direct Known Subclasses

Circle, GeometryCollection, LineString, Point, Polygon

Instance Attribute Summary

• #srid ⇒ Object

  SRID of the geometry.

• #with_m ⇒ Object (also: #with_m?)

  Flag indicating if the m ordinate of the geometry is meaningful.

• #with_z ⇒ Object (also: #with_z?)

  Flag indicating if the z ordinate of the geometry is meaningful.

Class Method Summary

• .from_ewkb(ewkb) ⇒ Object

  Creates a geometry based on a EWKB string.

• .from_ewkt(ewkt) ⇒ Object

  Creates a geometry based on a EWKT string.

• .from_geojson(geojson, srid = DEFAULT_SRID) ⇒ Object

  Some GeoJSON files do not include srid info, so we provide an optional parameter.

• .from_georss(georss) ⇒ Object

  Creates a geometry based on the GeoRSS string given.

• .from_georss_with_tags(georss) ⇒ Object

  sends back an array: The first element is the goemetry based on the GeoRSS string passed as argument.

• .from_hex_ewkb(hexewkb) ⇒ Object

  Creates a geometry based on a HexEWKB string given.

• .from_kml(kml) ⇒ Object

  Sends back a geometry from a KML encoded geometry string.

Instance Method Summary

• #as_ewkb(allow_srid = true, allow_z = true, allow_m = true) ⇒ Object

  Outputs the geometry as an EWKB string.

• #as_ewkt(allow_srid = true, allow_z = true, allow_m = true) ⇒ Object

  Outputs the geometry as an EWKT string.

• #as_georss(options = {}) ⇒ Object

  Outputs the geometry in georss format.

• #as_hex_ewkb(allow_srid = true, allow_z = true, allow_m = true) ⇒ Object

  Outputs the geometry as a HexEWKB string.

• #as_hex_wkb ⇒ Object

  Outputs the geometry as a strict HexWKB string.

• #as_json(_options = {}) ⇒ Object (also: #as_geojson)
• #as_kml(options = {}) ⇒ Object

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

• #as_wkb ⇒ Object

  Outputs the geometry as a strict WKB string.

• #as_wkt ⇒ Object

  Outputs the geometry as strict WKT string.

• #bounding_box ⇒ Object

  to be implemented in subclasses.

• #envelope ⇒ Object

  Returns an Envelope object for the geometry.

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

  A new instance of Geometry.

• #m_range ⇒ Object

  to be implemented in subclasses.

• #to_json(options = {}) ⇒ Object

  simple geojson representation TODO add CRS / SRID support?.

Constructor Details

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

Returns a new instance of Geometry.

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

def initialize(srid = DEFAULT_SRID, with_z = false, with_m = false)
  @srid = srid
  @with_z = with_z
  @with_m = with_m
end

Instance Attribute Details

#srid ⇒ Object

SRID of the geometry

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

def srid
  @srid
end

#with_m ⇒ Object Also known as: with_m?

Flag indicating if the m ordinate of the geometry is meaningful

# File 'lib/geo_ruby/simple_features/geometry.rb', line 15

def with_m
  @with_m
end

#with_z ⇒ Object Also known as: with_z?

Flag indicating if the z ordinate of the geometry is meaningful

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

def with_z
  @with_z
end

Class Method Details

.from_ewkb(ewkb) ⇒ Object

Creates a geometry based on a EWKB string. The actual class returned depends of the content of the string passed as argument. Since WKB strings are a subset of EWKB, they are also valid.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 187

def self.from_ewkb(ewkb)
  factory = GeometryFactory.new
  ewkb_parser = EWKBParser.new(factory)
  ewkb_parser.parse(ewkb)
  factory.geometry
end

.from_ewkt(ewkt) ⇒ Object

Creates a geometry based on a EWKT string. Since WKT strings are a subset of EWKT, they are also valid.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 204

def self.from_ewkt(ewkt)
  factory = GeometryFactory.new
  ewkt_parser = EWKTParser.new(factory)
  ewkt_parser.parse(ewkt)
  factory.geometry
end

.from_geojson(geojson, srid = DEFAULT_SRID) ⇒ Object

Some GeoJSON files do not include srid info, so we provide an optional parameter

# File 'lib/geo_ruby/simple_features/geometry.rb', line 236

def self.from_geojson(geojson, srid = DEFAULT_SRID)
  geojson_parser = GeoJSONParser.new
  geojson_parser.parse(geojson, srid)
  geojson_parser.geometry
end

.from_georss(georss) ⇒ Object

Creates a geometry based on the GeoRSS string given.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 212

def self.from_georss(georss)
  georss_parser = GeorssParser.new
  georss_parser.parse(georss)
  georss_parser.geometry
end

.from_georss_with_tags(georss) ⇒ Object

sends back an array: The first element is the goemetry based on the GeoRSS string passed as argument. The second one is the GeoRSSTags (found only with the Simple format)

# File 'lib/geo_ruby/simple_features/geometry.rb', line 221

def self.from_georss_with_tags(georss)
  georss_parser = GeorssParser.new
  georss_parser.parse(georss, true)
  [georss_parser.geometry, georss_parser.georss_tags]
end

.from_hex_ewkb(hexewkb) ⇒ Object

Creates a geometry based on a HexEWKB string given.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 195

def self.from_hex_ewkb(hexewkb)
  factory = GeometryFactory.new
  hexewkb_parser = HexEWKBParser.new(factory)
  hexewkb_parser.parse(hexewkb)
  factory.geometry
end

.from_kml(kml) ⇒ Object

Sends back a geometry from a KML encoded geometry string.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 228

def self.from_kml(kml)
  factory = GeometryFactory.new
  parser = KmlParser.new(factory)
  parser.parse(kml)
end

Instance Method Details

#as_ewkb(allow_srid = true, allow_z = true, allow_m = true) ⇒ Object

Outputs the geometry as an EWKB string.

The allow_srid, allow_z and allow_m arguments allow the output to include srid, z and m respectively if they are present. If these arguments are set to false, srid, z and m are not included, even if they are present in the geometry. By default, the output string contains all the information in the object.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 57

def as_ewkb(allow_srid = true, allow_z = true, allow_m = true)
  ewkb = 1.chr # little_endian by default

  type = binary_geometry_type
  type |= Z_MASK if @with_z && allow_z
  type |= M_MASK if @with_m && allow_m

  if allow_srid
    type = type | SRID_MASK
    ewkb << [type, @srid].pack('VV')
  else
    ewkb << [type].pack('V')
  end

  ewkb  << binary_representation(allow_z, allow_m)
end

#as_ewkt(allow_srid = true, allow_z = true, allow_m = true) ⇒ Object

Outputs the geometry as an EWKT string.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 100

def as_ewkt(allow_srid = true, allow_z = true, allow_m = true)
  if allow_srid
    ewkt = "SRID=#{@srid};"
  else
    ewkt = ''
  end
  ewkt << text_geometry_type
  # to distinguish the M from the Z when there is actually no Z...
  ewkt << 'M' if @with_m && allow_m && (!@with_z || !allow_z)
  ewkt << '(' << text_representation(allow_z, allow_m) << ')'
end

#as_georss(options = {}) ⇒ Object

Outputs the geometry in georss format. Assumes the geometries are in latlon format, with x as lon and y as lat. Pass the :dialect option to swhit format. Possible values are: :simple (default), :w3cgeo and :gml.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 123

def as_georss(options = {})
  dialect = options[:dialect] || :simple
  case (dialect)
  when :simple
    geom_attr = ''
    if options[:featuretypetag]
      geom_attr += " featuretypetag=\"#{options[:featuretypetag]}\""
    end
    if options[:relationshiptag]
      geom_attr += " relationshiptag=\"#{options[:relationshiptag]}\""
    end
    geom_attr += " floor=\"#{options[:floor]}\"" if options[:floor]
    geom_attr += " radius=\"#{options[:radius]}\"" if options[:radius]
    geom_attr += " elev=\"#{options[:elev]}\"" if options[:elev]
    georss_simple_representation(options.merge(geom_attr: geom_attr))
  when :w3cgeo
    georss_w3cgeo_representation(options)
  when :gml
    georss_gml_representation(options)
  end
end

#as_hex_ewkb(allow_srid = true, allow_z = true, allow_m = true) ⇒ Object

Outputs the geometry as a HexEWKB string. It is almost the same as a WKB string, except that each byte of a WKB string is replaced by its hex 2-char representation in a HexEWKB string.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 86

def as_hex_ewkb(allow_srid = true, allow_z = true, allow_m = true)
  as_ewkb(allow_srid, allow_z, allow_m).unpack('H*').join('').upcase
end

#as_hex_wkb ⇒ Object

Outputs the geometry as a strict HexWKB string

# File 'lib/geo_ruby/simple_features/geometry.rb', line 93

def as_hex_wkb
  as_hex_ewkb(false, false, false)
end

#as_json(_options = {}) ⇒ Object Also known as: as_geojson

# File 'lib/geo_ruby/simple_features/geometry.rb', line 179

def as_json(_options = {})
  # Implemented by each class
end

#as_kml(options = {}) ⇒ Object

Iutputs 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: clampToGround is the default)

# File 'lib/geo_ruby/simple_features/geometry.rb', line 149

def as_kml(options = {})
  id_attr = ''
  id_attr = " id=\"#{options[:id]}\"" if options[:id]

  geom_data = ''
  if options[:extrude]
    geom_data += "<extrude>#{options[:extrude]}</extrude>\n"
  end
  if options[:tesselate]
    geom_data += "<tesselate>#{options[:tesselate]}</tesselate>\n"
  end
  if options[:altitude_mode]
    geom_data += "<altitudeMode>#{options[:altitude_mode]}</altitudeMode>\n"
  end

  allow_z = (with_z || !options[:altitude].nil?) &&
            (!options[:altitude_mode].nil?) &&
            options[:atitude_mode] != 'clampToGround'
  fixed_z = options[:altitude]

  kml_representation(options.merge(id_attr: id_attr, geom_data: geom_data,
                                   allow_z: allow_z, fixed_z: fixed_z))
end

#as_wkb ⇒ Object

Outputs the geometry as a strict WKB string.

# File 'lib/geo_ruby/simple_features/geometry.rb', line 77

def as_wkb
  as_ewkb(false, false, false)
end

#as_wkt ⇒ Object

Outputs the geometry as strict WKT string.

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

def as_wkt
  as_ewkt(false, false, false)
end

#bounding_box ⇒ Object

to be implemented in subclasses

# File 'lib/geo_ruby/simple_features/geometry.rb', line 34

def bounding_box
end

#envelope ⇒ Object

Returns an Envelope object for the geometry

# File 'lib/geo_ruby/simple_features/geometry.rb', line 44

def envelope
  Envelope.from_points(bounding_box, srid, with_z)
end

#m_range ⇒ Object

to be implemented in subclasses

# File 'lib/geo_ruby/simple_features/geometry.rb', line 38

def m_range
end

#to_json(options = {}) ⇒ Object

simple geojson representation TODO add CRS / SRID support?

# File 'lib/geo_ruby/simple_features/geometry.rb', line 175

def to_json(options = {})
  as_json(options).to_json(options)
end