2012-07-19 18:06:44 +00:00
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# Python plugin
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This plugin allows you to write data sources in the Python programming language.
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This is useful if you want to rapidly prototype a plugin, perform some custom
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manipulation on data or if you want to bind mapnik to a datasource which is most
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conveniently accessed through Python.
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The plugin may be used from the existing mapnik Python bindings or it can embed
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the Python interpreter directly allowing it to be used from C++, XML or even
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JavaScript.
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## Rationale
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Mapnik already has excellent Python bindings but they only directly support
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calling *into* mapnik *from* Python. This forces mapnik and its input plugins to
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be the lowest layer of the stack. The role of this plugin is to allow mapnik to
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call *into* Python itself. This allows mapnik to sit as rendering middleware
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between a custom Python frontend and a custom Python datasource. This increases
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the utility of mapnik as a component in a larger system.
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There already exists MemoryDatasource which can be used to dynamically create
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geometry in Python. It suffers from the problem that it does not allow
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generating only the geometry which is seen by a particular query. Similarly the
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entire geometry must exist in memory before rendering can progress. By using a
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custom iterator object or by using generator expressions this plugin allows
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geometry to be created on demand and to be destroyed after use. This can have a
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great impact on memory efficiency. Since geometry is generated on-demand as
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rendering progresses there can be arbitrarily complex 'cleverness' optimising
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the geometry generated for a particular query. Obvious examples of this would
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be generating only geometry within the query bounding box and generating
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geometry with an appropriate level of detail for the output resolution.
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## Initialization
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Only the `factory` parameter is required. This is of the form
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`[module:]callable`. If `module` is present then `module` will be imported and
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its attribute named `callable` will be used as a factory callable. If `module`
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is omitted, then `__main__` is used. Any other parameter aside from `factory` or
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`type` will be passed directly to the callable as keyword arguments. Note that
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these will always be passed as strings even if the parameter can be parsed as an
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integer of floating point value.
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The callable should return an object with the following required attributes:
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* `envelope` - a 4-tuple giving the (minx, miny, maxx, maxy) extent of the
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datasource;
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* `data_type` - a `mapnik.DataType` instance giving the type of data stored in
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this datasource. This will usually be one of `mapnik.DataType.Vector` or
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`mapnik.DataType.Raster`.
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The following attributes are optional:
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* `geometry_type` - if the dataset is a vector dataset, this is an instance of
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`mapnik.DataGeometryType` giving the type of geometry returned by the
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datasource.
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The following methods must be present:
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* `features(query)` - takes a single argument which is an instance of
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`mapnik.Query` and returns an iterable of `mapnik.Feature` instances for that
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query.
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* `features_at_point(point)` - almost never used. Takes a single argument which
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is an instance of `mapnik.Point` (I think) and returns an iterable of
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features associated with that point.
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## Convenience classes
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The standard `mapnik` module provides a convenience class called
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`mapnik.PythonDatasource` which has default implementations for the required
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methods and accepts the geometry type, data type and envelope as constructor
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arguments. It also provides some convenience class methods which take care of
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constructing features for you:
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* `mapnik.PythonDatasource.wkb_features` - constructs features from
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well-known-binary (WKB) format geometry. Takes two keyword arguments: `keys`
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which is a sequence of keys associated with each feature and `features` which
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is a sequence of pairs. The first element in each pair is the WKB
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representation of the feature and the second element is a dictionary mapping
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keys to values.
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# Caveats
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* If used directly from C++, `Py_Initialize()` must have been called before the
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plugin is loaded to initialise the interpreter correctly.
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* When inside the interpreter the global interpreter lock is held each time a
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feature is fetched and so multi-threaded rendering performance may suffer. You
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can mitigate this by making sure that the feature iterator yields its value as
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quickly as possible, potentially from an in-memory buffer filled fom another
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process over IPC.
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# Examples
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In XML:
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```xml
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<?xml version="1.0" encoding="utf-8"?>
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2013-01-25 08:49:55 +00:00
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<Map srs="+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs" background-color="white">
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2012-07-19 18:06:44 +00:00
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<Style name="style">
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<Rule>
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<PointSymbolizer />
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<TextSymbolizer name="[label]" face_name="DejaVu Sans Book" size="10" dx="5" dy="5"/>
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</Rule>
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</Style>
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2013-01-25 08:49:55 +00:00
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<Layer name="test" srs="+proj=longlat +ellps=WGS84 +datum=WGS84 +no_defs">
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2012-07-19 18:06:44 +00:00
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<StyleName>style</StyleName>
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<Datasource>
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<Parameter name="type">python</Parameter>
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<Parameter name="factory">test:TestDatasource</Parameter>
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</Datasource>
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</Layer>
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</Map>
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```
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In Python using the shapely geometry library:
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```python
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import mapnik
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from shapely.geometry import *
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class TestDatasource(mapnik.PythonDatasource):
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def __init__(self):
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super(TestDatasource, self).__init__()
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def features(self, query):
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return mapnik.PythonDatasource.wkb_features(
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keys = ('label',),
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features = (
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( Point(5,6).wkb, { 'label': 'foo-bar'} ),
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( Point(100,60).wkb, { 'label': 'buzz-quux'} ),
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)
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)
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if __name__ == '__main__':
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m = mapnik.Map(1280,1024)
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m.background = mapnik.Color('white')
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s = mapnik.Style()
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r = mapnik.Rule()
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r.symbols.append(mapnik.PointSymbolizer())
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t = mapnik.TextSymbolizer(mapnik.Expression("[label]"),"DejaVu Sans Book",10,mapnik.Color('black'))
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t.displacement = (5,5)
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r.symbols.append(t)
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s.rules.append(r)
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m.append_style('point_style',s)
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ds = mapnik.Python(factory='TestDatasource')
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layer = mapnik.Layer('python')
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layer.datasource = ds
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layer.styles.append('point_style')
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m.layers.append(layer)
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m.zoom_all()
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mapnik.render_to_file(m,'map.png', 'png')
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```
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A more complex Python example which makes use of iterators to generate geometry
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dynamically:
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```python
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"""A more complex example which renders an infinite series of concentric
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circles centred on a point.
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The circles are represented by a Python iterator which will yield only the
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circles which intersect the query's bounding box. The advantage of this
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approach over a MemoryDatasource is that a) only those circles which intersect
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the viewport are actually generated and b) only the memory for the largest
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circle need be available since each circle is created on demand and destroyed
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when finished with.
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"""
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import math
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import mapnik
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from shapely.geometry import *
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def box2d_to_shapely(box):
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import shapely.geometry
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return shapely.geometry.box(box.minx, box.miny, box.maxx, box.maxy)
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class ConcentricCircles(object):
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def __init__(self, centre, bounds, step=1):
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self.centre = centre
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self.bounds = bounds
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self.step = step
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class Iterator(object):
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def __init__(self, container):
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self.container = container
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centre = self.container.centre
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bounds = self.container.bounds
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step = self.container.step
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if centre.within(bounds):
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self.radius = 0
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else:
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self.radius = math.ceil(centre.distance(bounds) / float(step)) * step
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def next(self):
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circle = self.container.centre.buffer(self.radius)
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self.radius += self.container.step
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# has the circle grown so large that the boundary is entirely within it?
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if circle.contains(self.container.bounds):
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raise StopIteration()
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return ( circle.wkb, { } )
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def __iter__(self):
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return ConcentricCircles.Iterator(self)
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class TestDatasource(mapnik.PythonDatasource):
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def __init__(self):
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super(TestDatasource, self).__init__(geometry_type=mapnik.DataGeometryType.Polygon)
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def features(self, query):
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# Get the query bounding-box as a shapely bounding box
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bounding_box = box2d_to_shapely(query.bbox)
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centre = Point(-20, 0)
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return mapnik.PythonDatasource.wkb_features(
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keys = (),
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features = ConcentricCircles(centre, bounding_box, 0.5)
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)
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if __name__ == '__main__':
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m = mapnik.Map(640, 320)
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m.background = mapnik.Color('white')
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s = mapnik.Style()
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r = mapnik.Rule()
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r.symbols.append(mapnik.LineSymbolizer())
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s.rules.append(r)
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m.append_style('point_style',s)
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ds = mapnik.Python(factory='TestDatasource')
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layer = mapnik.Layer('python')
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layer.datasource = ds
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layer.styles.append('point_style')
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m.layers.append(layer)
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box = mapnik.Box2d(-60, -60, 0, -30)
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m.zoom_to_box(box)
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mapnik.render_to_file(m,'map.png', 'png')
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```
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