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__init__.py
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/
__init__.py
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#
# This file is part of Mapnik (C++/Python mapping toolkit)
# Copyright (C) 2009 Artem Pavlenko
#
# Mapnik is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software
# Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
#
"""Mapnik Python module.
Boost Python bindings to the Mapnik C++ shared library.
Several things happen when you do:
>>> import mapnik
1) Mapnik C++ objects are imported via the '__init__.py' from the '_mapnik.so' shared object
(_mapnik.pyd on win) which references libmapnik.so (linux), libmapnik.dylib (mac), or
mapnik.dll (win32).
2) The paths to the input plugins and font directories are imported from the 'paths.py'
file which was constructed and installed during SCons installation.
3) All available input plugins and TrueType fonts are automatically registered.
4) Boost Python metaclass injectors are used in the '__init__.py' to extend several
objects adding extra convenience when accessed via Python.
"""
import itertools
import os
import sys
import warnings
def bootstrap_env():
"""
If an optional settings file exists, inherit its
environment settings before loading the mapnik library.
This feature is intended for customized packages of mapnik.
The settings file should be a python file with an 'env' variable
that declares a dictionary of key:value pairs to push into the
global process environment, if not already set, like:
env = {'ICU_DATA':'/usr/local/share/icu/'}
"""
if os.path.exists(os.path.join(os.path.dirname(__file__),'mapnik_settings.py')):
from mapnik_settings import env
process_keys = os.environ.keys()
for key, value in env.items():
if key not in process_keys:
os.environ[key] = value
bootstrap_env()
from _mapnik import *
from paths import inputpluginspath, fontscollectionpath
import printing
printing.renderer = render
# The base Boost.Python class
BoostPythonMetaclass = Coord.__class__
class _MapnikMetaclass(BoostPythonMetaclass):
def __init__(self, name, bases, dict):
for b in bases:
if type(b) not in (self, type):
for k,v in list(dict.items()):
if hasattr(b, k):
setattr(b, '_c_'+k, getattr(b, k))
setattr(b,k,v)
return type.__init__(self, name, bases, dict)
# metaclass injector compatible with both python 2 and 3
# http://mikewatkins.ca/2008/11/29/python-2-and-3-metaclasses/
_injector = _MapnikMetaclass('_injector', (object, ), {})
def Filter(*args,**kwargs):
warnings.warn("'Filter' is deprecated and will be removed in Mapnik 3.x, use 'Expression' instead",
DeprecationWarning, 2)
return Expression(*args, **kwargs)
class Envelope(Box2d):
def __init__(self, *args, **kwargs):
warnings.warn("'Envelope' is deprecated and will be removed in Mapnik 3.x, use 'Box2d' instead",
DeprecationWarning, 2)
Box2d.__init__(self, *args, **kwargs)
class _Coord(Coord,_injector):
"""
Represents a point with two coordinates (either lon/lat or x/y).
Following operators are defined for Coord:
Addition and subtraction of Coord objects:
>>> Coord(10, 10) + Coord(20, 20)
Coord(30.0, 30.0)
>>> Coord(10, 10) - Coord(20, 20)
Coord(-10.0, -10.0)
Addition, subtraction, multiplication and division between
a Coord and a float:
>>> Coord(10, 10) + 1
Coord(11.0, 11.0)
>>> Coord(10, 10) - 1
Coord(-9.0, -9.0)
>>> Coord(10, 10) * 2
Coord(20.0, 20.0)
>>> Coord(10, 10) / 2
Coord(5.0, 5.0)
Equality of coords (as pairwise equality of components):
>>> Coord(10, 10) is Coord(10, 10)
False
>>> Coord(10, 10) == Coord(10, 10)
True
"""
def __repr__(self):
return 'Coord(%s,%s)' % (self.x, self.y)
def forward(self, projection):
"""
Projects the point from the geographic coordinate
space into the cartesian space. The x component is
considered to be longitude, the y component the
latitude.
Returns the easting (x) and northing (y) as a
coordinate pair.
Example: Project the geographic coordinates of the
city center of Stuttgart into the local
map projection (GK Zone 3/DHDN, EPSG 31467)
>>> p = Projection('+init=epsg:31467')
>>> Coord(9.1, 48.7).forward(p)
Coord(3507360.12813,5395719.2749)
"""
return forward_(self, projection)
def inverse(self, projection):
"""
Projects the point from the cartesian space
into the geographic space. The x component is
considered to be the easting, the y component
to be the northing.
Returns the longitude (x) and latitude (y) as a
coordinate pair.
Example: Project the cartesian coordinates of the
city center of Stuttgart in the local
map projection (GK Zone 3/DHDN, EPSG 31467)
into geographic coordinates:
>>> p = Projection('+init=epsg:31467')
>>> Coord(3507360.12813,5395719.2749).inverse(p)
Coord(9.1, 48.7)
"""
return inverse_(self, projection)
class _Box2d(Box2d,_injector):
"""
Represents a spatial envelope (i.e. bounding box).
Following operators are defined for Box2d:
Addition:
e1 + e2 is equvalent to e1.expand_to_include(e2) but yields
a new envelope instead of modifying e1
Subtraction:
Currently e1 - e2 returns e1.
Multiplication and division with floats:
Multiplication and division change the width and height of the envelope
by the given factor without modifying its center..
That is, e1 * x is equivalent to:
e1.width(x * e1.width())
e1.height(x * e1.height()),
except that a new envelope is created instead of modifying e1.
e1 / x is equivalent to e1 * (1.0/x).
Equality: two envelopes are equal if their corner points are equal.
"""
def __repr__(self):
return 'Box2d(%s,%s,%s,%s)' % \
(self.minx,self.miny,self.maxx,self.maxy)
def forward(self, projection):
"""
Projects the envelope from the geographic space
into the cartesian space by projecting its corner
points.
See also:
Coord.forward(self, projection)
"""
return forward_(self, projection)
def inverse(self, projection):
"""
Projects the envelope from the cartesian space
into the geographic space by projecting its corner
points.
See also:
Coord.inverse(self, projection).
"""
return inverse_(self, projection)
class _Projection(Projection,_injector):
def __repr__(self):
return "Projection('%s')" % self.params()
def forward(self,obj):
"""
Projects the given object (Box2d or Coord)
from the geographic space into the cartesian space.
See also:
Box2d.forward(self, projection),
Coord.forward(self, projection).
"""
return forward_(obj,self)
def inverse(self,obj):
"""
Projects the given object (Box2d or Coord)
from the cartesian space into the geographic space.
See also:
Box2d.inverse(self, projection),
Coord.inverse(self, projection).
"""
return inverse_(obj,self)
class _Datasource(Datasource,_injector):
def all_features(self,fields=None):
query = Query(self.envelope())
attributes = fields or self.fields()
for fld in attributes:
query.add_property_name(fld)
return self.features(query).features
def featureset(self,fields=None):
query = Query(self.envelope())
attributes = fields or self.fields()
for fld in attributes:
query.add_property_name(fld)
return self.features(query)
class _Color(Color,_injector):
def __repr__(self):
return "Color(R=%d,G=%d,B=%d,A=%d)" % (self.r,self.g,self.b,self.a)
class _ProcessedText(ProcessedText, _injector):
def append(self, properties, text):
#More pythonic name
self.push_back(properties, text)
class _Symbolizers(Symbolizers,_injector):
def __getitem__(self, idx):
sym = Symbolizers._c___getitem__(self, idx)
return sym.symbol()
def _add_symbol_method_to_symbolizers(vars=globals()):
def symbol_for_subcls(self):
return self
def symbol_for_cls(self):
return getattr(self,self.type())()
for name, obj in vars.items():
if name.endswith('Symbolizer') and not name.startswith('_'):
if name == 'Symbolizer':
symbol = symbol_for_cls
else:
symbol = symbol_for_subcls
type('dummy', (obj,_injector), {'symbol': symbol})
_add_symbol_method_to_symbolizers()
def Datasource(**keywords):
"""Wrapper around CreateDatasource.
Create a Mapnik Datasource using a dictionary of parameters.
Keywords must include:
type='plugin_name' # e.g. type='gdal'
See the convenience factory methods of each input plugin for
details on additional required keyword arguments.
"""
return CreateDatasource(keywords)
# convenience factory methods
def Shapefile(**keywords):
"""Create a Shapefile Datasource.
Required keyword arguments:
file -- path to shapefile without extension
Optional keyword arguments:
base -- path prefix (default None)
encoding -- file encoding (default 'utf-8')
>>> from mapnik import Shapefile, Layer
>>> shp = Shapefile(base='/home/mapnik/data',file='world_borders')
>>> lyr = Layer('Shapefile Layer')
>>> lyr.datasource = shp
"""
keywords['type'] = 'shape'
return CreateDatasource(keywords)
def PostGIS(**keywords):
"""Create a PostGIS Datasource.
Required keyword arguments:
dbname -- database name to connect to
table -- table name or subselect query
*Note: if using subselects for the 'table' value consider also
passing the 'geometry_field' and 'srid' and 'extent_from_subquery'
options and/or specifying the 'geometry_table' option.
Optional db connection keyword arguments:
user -- database user to connect as (default: see postgres docs)
password -- password for database user (default: see postgres docs)
host -- portgres hostname (default: see postgres docs)
port -- postgres port (default: see postgres docs)
initial_size -- integer size of connection pool (default: 1)
max_size -- integer max of connection pool (default: 10)
persist_connection -- keep connection open (default: True)
Optional table-level keyword arguments:
extent -- manually specified data extent (comma delimited string, default: None)
estimate_extent -- boolean, direct PostGIS to use the faster, less accurate `estimate_extent` over `extent` (default: False)
extent_from_subquery -- boolean, direct Mapnik to query Postgis for the extent of the raw 'table' value (default: uses 'geometry_table')
geometry_table -- specify geometry table to use to look up metadata (default: automatically parsed from 'table' value)
geometry_field -- specify geometry field to use (default: first entry in geometry_columns)
srid -- specify srid to use (default: auto-detected from geometry_field)
row_limit -- integer limit of rows to return (default: 0)
cursor_size -- integer size of binary cursor to use (default: 0, no binary cursor is used)
>>> from mapnik import PostGIS, Layer
>>> params = dict(dbname='mapnik',table='osm',user='postgres',password='gis')
>>> params['estimate_extent'] = False
>>> params['extent'] = '-20037508,-19929239,20037508,19929239'
>>> postgis = PostGIS(**params)
>>> lyr = Layer('PostGIS Layer')
>>> lyr.datasource = postgis
"""
keywords['type'] = 'postgis'
return CreateDatasource(keywords)
def Raster(**keywords):
"""Create a Raster (Tiff) Datasource.
Required keyword arguments:
file -- path to stripped or tiled tiff
lox -- lowest (min) x/longitude of tiff extent
loy -- lowest (min) y/latitude of tiff extent
hix -- highest (max) x/longitude of tiff extent
hiy -- highest (max) y/latitude of tiff extent
Hint: lox,loy,hix,hiy make a Mapnik Box2d
Optional keyword arguments:
base -- path prefix (default None)
multi -- whether the image is in tiles on disk (default False)
Multi-tiled keyword arguments:
x_width -- virtual image number of tiles in X direction (required)
y_width -- virtual image number of tiles in Y direction (required)
tile_size -- if an image is in tiles, how large are the tiles (default 256)
tile_stride -- if an image is in tiles, what's the increment between rows/cols (default 1)
>>> from mapnik import Raster, Layer
>>> raster = Raster(base='/home/mapnik/data',file='elevation.tif',lox=-122.8,loy=48.5,hix=-122.7,hiy=48.6)
>>> lyr = Layer('Tiff Layer')
>>> lyr.datasource = raster
"""
keywords['type'] = 'raster'
return CreateDatasource(keywords)
def Gdal(**keywords):
"""Create a GDAL Raster Datasource.
Required keyword arguments:
file -- path to GDAL supported dataset
Optional keyword arguments:
base -- path prefix (default None)
shared -- boolean, open GdalDataset in shared mode (default: False)
bbox -- tuple (minx, miny, maxx, maxy). If specified, overrides the bbox detected by GDAL.
>>> from mapnik import Gdal, Layer
>>> dataset = Gdal(base='/home/mapnik/data',file='elevation.tif')
>>> lyr = Layer('GDAL Layer from TIFF file')
>>> lyr.datasource = dataset
"""
keywords['type'] = 'gdal'
if 'bbox' in keywords:
if isinstance(keywords['bbox'], (tuple, list)):
keywords['bbox'] = ','.join([str(item) for item in keywords['bbox']])
return CreateDatasource(keywords)
def Occi(**keywords):
"""Create a Oracle Spatial (10g) Vector Datasource.
Required keyword arguments:
user -- database user to connect as
password -- password for database user
host -- oracle host to connect to (does not refer to SID in tsnames.ora)
table -- table name or subselect query
Optional keyword arguments:
initial_size -- integer size of connection pool (default 1)
max_size -- integer max of connection pool (default 10)
extent -- manually specified data extent (comma delimited string, default None)
estimate_extent -- boolean, direct Oracle to use the faster, less accurate estimate_extent() over extent() (default False)
encoding -- file encoding (default 'utf-8')
geometry_field -- specify geometry field (default 'GEOLOC')
use_spatial_index -- boolean, force the use of the spatial index (default True)
>>> from mapnik import Occi, Layer
>>> params = dict(host='myoracle',user='scott',password='tiger',table='test')
>>> params['estimate_extent'] = False
>>> params['extent'] = '-20037508,-19929239,20037508,19929239'
>>> oracle = Occi(**params)
>>> lyr = Layer('Oracle Spatial Layer')
>>> lyr.datasource = oracle
"""
keywords['type'] = 'occi'
return CreateDatasource(keywords)
def Ogr(**keywords):
"""Create a OGR Vector Datasource.
Required keyword arguments:
file -- path to OGR supported dataset
layer -- name of layer to use within datasource (optional if layer_by_index or layer_by_sql is used)
Optional keyword arguments:
layer_by_index -- choose layer by index number instead of by layer name or sql.
layer_by_sql -- choose layer by sql query number instead of by layer name or index.
base -- path prefix (default None)
encoding -- file encoding (default 'utf-8')
>>> from mapnik import Ogr, Layer
>>> datasource = Ogr(base='/home/mapnik/data',file='rivers.geojson',layer='OGRGeoJSON')
>>> lyr = Layer('OGR Layer from GeoJSON file')
>>> lyr.datasource = datasource
"""
keywords['type'] = 'ogr'
return CreateDatasource(keywords)
def SQLite(**keywords):
"""Create a SQLite Datasource.
Required keyword arguments:
file -- path to SQLite database file
table -- table name or subselect query
Optional keyword arguments:
base -- path prefix (default None)
encoding -- file encoding (default 'utf-8')
extent -- manually specified data extent (comma delimited string, default None)
metadata -- name of auxillary table containing record for table with xmin, ymin, xmax, ymax, and f_table_name
geometry_field -- name of geometry field (default 'the_geom')
key_field -- name of primary key field (default 'OGC_FID')
row_offset -- specify a custom integer row offset (default 0)
row_limit -- specify a custom integer row limit (default 0)
wkb_format -- specify a wkb type of 'spatialite' (default None)
use_spatial_index -- boolean, instruct sqlite plugin to use Rtree spatial index (default True)
>>> from mapnik import SQLite, Layer
>>> sqlite = SQLite(base='/home/mapnik/data',file='osm.db',table='osm',extent='-20037508,-19929239,20037508,19929239')
>>> lyr = Layer('SQLite Layer')
>>> lyr.datasource = sqlite
"""
keywords['type'] = 'sqlite'
return CreateDatasource(keywords)
def Rasterlite(**keywords):
"""Create a Rasterlite Datasource.
Required keyword arguments:
file -- path to Rasterlite database file
table -- table name or subselect query
Optional keyword arguments:
base -- path prefix (default None)
extent -- manually specified data extent (comma delimited string, default None)
>>> from mapnik import Rasterlite, Layer
>>> rasterlite = Rasterlite(base='/home/mapnik/data',file='osm.db',table='osm',extent='-20037508,-19929239,20037508,19929239')
>>> lyr = Layer('Rasterlite Layer')
>>> lyr.datasource = rasterlite
"""
keywords['type'] = 'rasterlite'
return CreateDatasource(keywords)
def Osm(**keywords):
"""Create a Osm Datasource.
Required keyword arguments:
file -- path to OSM file
Optional keyword arguments:
encoding -- file encoding (default 'utf-8')
url -- url to fetch data (default None)
bbox -- data bounding box for fetching data (default None)
>>> from mapnik import Osm, Layer
>>> datasource = Osm(file='test.osm')
>>> lyr = Layer('Osm Layer')
>>> lyr.datasource = datasource
"""
# note: parser only supports libxml2 so not exposing option
# parser -- xml parser to use (default libxml2)
keywords['type'] = 'osm'
return CreateDatasource(keywords)
def Kismet(**keywords):
"""Create a Kismet Datasource.
Required keyword arguments:
host -- kismet hostname
port -- kismet port
Optional keyword arguments:
encoding -- file encoding (default 'utf-8')
extent -- manually specified data extent (comma delimited string, default None)
>>> from mapnik import Kismet, Layer
>>> datasource = Kismet(host='localhost',port=2501,extent='-179,-85,179,85')
>>> lyr = Layer('Kismet Server Layer')
>>> lyr.datasource = datasource
"""
keywords['type'] = 'kismet'
return CreateDatasource(keywords)
def Geos(**keywords):
"""Create a GEOS Vector Datasource.
Required keyword arguments:
wkt -- inline WKT text of the geometry
Optional keyword arguments:
extent -- manually specified data extent (comma delimited string, default None)
>>> from mapnik import Geos, Layer
>>> datasource = Geos(wkt='MULTIPOINT(100 100, 50 50, 0 0)')
>>> lyr = Layer('GEOS Layer from WKT string')
>>> lyr.datasource = datasource
"""
keywords['type'] = 'geos'
return CreateDatasource(keywords)
def Python(**keywords):
"""Create a Python Datasource.
>>> from mapnik import Python, PythonDatasource
>>> datasource = Python('PythonDataSource')
>>> lyr = Layer('Python datasource')
>>> lyr.datasource = datasource
"""
keywords['type'] = 'python'
return CreateDatasource(keywords)
class PythonDatasource(object):
"""A base class for a Python data source.
Optional arguments:
envelope -- a mapnik.Box2d (minx, miny, maxx, maxy) envelope of the data source, default (-180,-90,180,90)
geometry_type -- one of the DataGeometryType enumeration values, default Point
data_type -- one of the DataType enumerations, default Vector
"""
def __init__(self, envelope=None, geometry_type=None, data_type=None):
self.envelope = envelope or Box2d(-180, -90, 180, 90)
self.geometry_type = geometry_type or DataGeometryType.Point
self.data_type = data_type or DataType.Vector
def features(self, query):
"""Return an iterable which yields instances of Feature for features within the passed query.
Required arguments:
query -- a Query instance specifying the region for which features should be returned
"""
return None
def features_at_point(self, point):
"""Rarely uses. Return an iterable which yields instances of Feature for the specified point."""
return None
@classmethod
def wkb_features(cls, keys, features):
"""A convenience function to wrap an iterator yielding pairs of WKB format geometry and dictionaries of
key-value pairs into mapnik features. Return this from PythonDatasource.features() passing it a sequence of keys
to appear in the output and an iterator yielding features.
For example. One might have a features() method in a derived class like the following:
def features(self, query):
# ... create WKB features feat1 and feat2
return mapnik.PythonDatasource.wkb_features(
keys = ( 'name', 'author' ),
features = [
(feat1, { 'name': 'feat1', 'author': 'alice' }),
(feat2, { 'name': 'feat2', 'author': 'bob' }),
]
)
"""
ctx = Context()
[ctx.push(x) for x in keys]
def make_it(feat, idx):
f = Feature(ctx, idx)
geom, attrs = feat
f.add_geometries_from_wkb(geom)
for k, v in attrs.iteritems():
f[k] = v
return f
return itertools.imap(make_it, features, itertools.count(1))
@classmethod
def wkt_features(cls, keys, features):
"""A convenience function to wrap an iterator yielding pairs of WKT format geometry and dictionaries of
key-value pairs into mapnik features. Return this from PythonDatasource.features() passing it a sequence of keys
to appear in the output and an iterator yielding features.
For example. One might have a features() method in a derived class like the following:
def features(self, query):
# ... create WKT features feat1 and feat2
return mapnik.PythonDatasource.wkt_features(
keys = ( 'name', 'author' ),
features = [
(feat1, { 'name': 'feat1', 'author': 'alice' }),
(feat2, { 'name': 'feat2', 'author': 'bob' }),
]
)
"""
ctx = Context()
[ctx.push(x) for x in keys]
def make_it(feat, idx):
f = Feature(ctx, idx)
geom, attrs = feat
f.add_geometries_from_wkt(geom)
for k, v in attrs.iteritems():
f[k] = v
return f
return itertools.imap(make_it, features, itertools.count(1))
class _TextSymbolizer(TextSymbolizer,_injector):
@property
def name(self):
if isinstance(self.properties.format_tree, FormattingText):
return self.properties.format_tree.text
else:
return None # This text symbolizer is using complex formatting features.
# There is no single expression which could be returned as name
@name.setter
def name(self, name):
self.properties.format_tree = FormattingText(name)
@property
def text_size(self):
return self.format.text_size
@text_size.setter
def text_size(self, text_size):
self.format.text_size = text_size
@property
def face_name(self):
return self.format.face_name
@face_name.setter
def face_name(self, face_name):
self.format.face_name = face_name
@property
def fontset(self):
return self.format.fontset
@fontset.setter
def fontset(self, fontset):
self.format.fontset = fontset
@property
def character_spacing(self):
return self.format.character_spacing
@character_spacing.setter
def character_spacing(self, character_spacing):
self.format.character_spacing = character_spacing
@property
def line_spacing(self):
return self.format.line_spacing
@line_spacing.setter
def line_spacing(self, line_spacing):
self.format.line_spacing = line_spacing
@property
def text_opacity(self):
return self.format.text_opacity
@text_opacity.setter
def text_opacity(self, text_opacity):
self.format.text_opacity = text_opacity
@property
def wrap_char(self):
return self.format.wrap_char
@wrap_char.setter
def wrap_char(self, wrap_char):
self.format.wrap_char = wrap_char
@property
def wrap_character(self):
return self.format.wrap_character
@wrap_char.setter
def wrap_character(self, wrap_character):
self.format.wrap_character = wrap_character
@property
def wrap_before(self):
<<<<<<< HEAD
warnings.warn("'wrap_before' is deprecated, use format.wrap_before",
DeprecationWarning, 2)
return self.format.wrap_before
@wrap_before.setter
def wrap_before(self, wrap_before):
warnings.warn("'wrap_before' is deprecated, use format.wrap_before",
DeprecationWarning, 2)
self.format.wrap_before = wrap_before
=======
return self.properties.wrap_before
@wrap_before.setter
def wrap_before(self, wrap_before):
self.properties.wrap_before = wrap_before
>>>>>>> 78f0c97... Remove deprecation warnings.
@property
def text_transform(self):
return self.format.text_transform
@text_transform.setter
def text_transform(self, text_transform):
self.format.text_transform = text_transform
@property
def fill(self):
return self.format.fill
@fill.setter
def fill(self, fill):
self.format.fill = fill
@property
def halo_fill(self):
return self.format.halo_fill
@halo_fill.setter
def halo_fill(self, halo_fill):
self.format.halo_fill = halo_fill
@property
def halo_radius(self):
return self.format.halo_radius
@halo_radius.setter
def halo_radius(self, halo_radius):
self.format.halo_radius = halo_radius
@property
def label_placement(self):
return self.properties.label_placement
@label_placement.setter
def label_placement(self, label_placement):
self.properties.label_placement = label_placement
@property
def horizontal_alignment(self):
return self.properties.horizontal_alignment
@horizontal_alignment.setter
def horizontal_alignment(self, horizontal_alignment):
self.properties.horizontal_alignment = horizontal_alignment
@property
def justify_alignment(self):
return self.properties.justify_alignment
@justify_alignment.setter
def justify_alignment(self, justify_alignment):
self.properties.justify_alignment = justify_alignment
@property
def vertical_alignment(self):
return self.properties.vertical_alignment
@vertical_alignment.setter
def vertical_alignment(self, vertical_alignment):
self.properties.vertical_alignment = vertical_alignment
@property
def orientation(self):
return self.properties.orientation
@orientation.setter
def orientation(self, orientation):
self.properties.orientation = orientation
@property
def displacement(self):
return self.properties.displacement
@displacement.setter
def displacement(self, displacement):
self.properties.displacement = displacement
@property
def label_spacing(self):
return self.properties.label_spacing
@label_spacing.setter
def label_spacing(self, label_spacing):
self.properties.label_spacing = label_spacing
@property
def label_position_tolerance(self):
return self.properties.label_position_tolerance
@label_position_tolerance.setter
def label_position_tolerance(self, label_position_tolerance):
self.properties.label_position_tolerance = label_position_tolerance
@property
def avoid_edges(self):
return self.properties.avoid_edges
@avoid_edges.setter
def avoid_edges(self, avoid_edges):
self.properties.avoid_edges = avoid_edges
@property
def minimum_distance(self):
return self.properties.minimum_distance
@minimum_distance.setter
def minimum_distance(self, minimum_distance):
self.properties.minimum_distance = minimum_distance
@property
def minimum_padding(self):
return self.properties.minimum_padding
@minimum_padding.setter
def minimum_padding(self, minimum_padding):
self.properties.minimum_padding = minimum_padding
@property
def minimum_path_length(self):
return self.properties.minimum_path_length
@minimum_path_length.setter
def minimum_path_length(self, minimum_path_length):
self.properties.minimum_path_length = minimum_path_length
@property
def maximum_angle_char_delta(self):
return self.properties.maximum_angle_char_delta
@maximum_angle_char_delta.setter
def maximum_angle_char_delta(self, maximum_angle_char_delta):
self.properties.maximum_angle_char_delta = maximum_angle_char_delta
@property
def force_odd_labels(self):
return self.properties.force_odd_labels
@force_odd_labels.setter
def force_odd_labels(self, force_odd_labels):
self.properties.force_odd_labels = force_odd_labels
@property
def allow_overlap(self):
return self.properties.allow_overlap
@allow_overlap.setter
def allow_overlap(self, allow_overlap):
self.properties.allow_overlap = allow_overlap
@property
def text_ratio(self):
return self.properties.text_ratio
@text_ratio.setter
def text_ratio(self, text_ratio):
self.properties.text_ratio = text_ratio