def renderTile(self, width, height, srs, coord):
"""
"""
if self.mapnik is None:
self.mapnik = mapnik.Map(0, 0)
mapnik.load_map(self.mapnik, str(self.mapfile))
nw = self.layer.projection.coordinateLocation(coord)
se = self.layer.projection.coordinateLocation(coord.right().down())
ul = self.mercator.locationProj(nw)
lr = self.mercator.locationProj(se)
self.mapnik.width = width
self.mapnik.height = height
self.mapnik.zoom_to_box(mapnik.Box2d(ul.x, ul.y, lr.x, lr.y))
# create grid as same size as map/image
grid = mapnik.Grid(width, height)
# render a layer to that grid array
mapnik.render_layer(self.mapnik, grid, layer=self.layer_index, fields=self.fields)
# then encode the grid array as utf, resample to 1/scale the size, and dump features
grid_utf = grid.encode("utf", resolution=self.scale, features=True)
if self.wrapper is None:
return SaveableResponse(json.dumps(grid_utf))
else:
return SaveableResponse(self.wrapper + "(" + json.dumps(grid_utf) + ")")
def get_one(self, tile):
bbox = self.tilegrid.extent(tile.tilecoord, self.buffer)
bbox2d = mapnik.Box2d(bbox[0], bbox[1], bbox[2], bbox[3])
size = tile.tilecoord.n * self.tilegrid.tile_size + 2 * self.buffer
self.mapnik.resize(size, size)
self.mapnik.zoom_to_box(bbox2d)
if self.output_format == "grid":
grid = mapnik.Grid(self.tilegrid.tile_size, self.tilegrid.tile_size)
for n, l in enumerate(self.mapnik.layers):
if l.name in self.layers_fields:
mapnik.render_layer(self.mapnik, grid, layer=n, fields=self.layers_fields[l.name])
encode = grid.encode("utf", resolution=self.resolution)
if self.drop_empty_utfgrid and len(encode["data"].keys()) == 0:
return None
tile.data = dumps(encode)
else:
# Render image with default Agg renderer
im = mapnik.Image(size, size)
mapnik.render(self.mapnik, im)
tile.data = im.tostring(self.output_format)
return tile
def renderTile(self, width, height, srs, coord):
"""
"""
if self.mapnik is None:
self.mapnik = mapnik.Map(0, 0)
mapnik.load_map(self.mapnik, str(self.mapfile))
nw = self.layer.projection.coordinateLocation(coord)
se = self.layer.projection.coordinateLocation(coord.right().down())
ul = self.mercator.locationProj(nw)
lr = self.mercator.locationProj(se)
self.mapnik.width = width
self.mapnik.height = height
self.mapnik.zoom_to_box(mapnik.Box2d(ul.x, ul.y, lr.x, lr.y))
# create grid as same size as map/image
grid = mapnik.Grid(width, height)
# render a layer to that grid array
mapnik.render_layer(self.mapnik,
grid,
layer=self.layer_index,
fields=self.fields)
# then encode the grid array as utf, resample to 1/scale the size, and dump features
grid_utf = grid.encode('utf', resolution=self.scale, features=True)
if self.wrapper is None:
return SaveableResponse(json.dumps(grid_utf))
else:
return SaveableResponse(self.wrapper + '(' + json.dumps(grid_utf) +
')')
def get_one(self, tile):
bbox = self.tilegrid.extent(tile.tilecoord, self.buffer)
bbox2d = mapnik.Box2d(bbox[0], bbox[1], bbox[2], bbox[3])
size = tile.tilecoord.n * self.tilegrid.tile_size + 2 * self.buffer
self.mapnik.resize(size, size)
self.mapnik.zoom_to_box(bbox2d)
if self.output_format == 'grid':
grid = mapnik.Grid(self.tilegrid.tile_size,
self.tilegrid.tile_size)
for n, l in enumerate(self.mapnik.layers):
if l.name in self.layers_fields:
mapnik.render_layer(self.mapnik,
grid,
layer=n,
fields=self.layers_fields[l.name])
encode = grid.encode('utf', resolution=self.resolution)
if self.drop_empty_utfgrid and len(encode['data'].keys()) == 0:
return None
tile.data = dumps(encode)
else:
# Render image with default Agg renderer
im = mapnik.Image(size, size)
mapnik.render(self.mapnik, im)
tile.data = im.tostring(self.output_format)
return tile
def renderTile(self, width, height, srs, coord):
"""
"""
if self.mapnik is None:
self.mapnik = mapnik.Map(0, 0)
mapnik.load_map(self.mapnik, str(self.mapfile))
# buffer as fraction of tile size
buffer = float(self.buffer) / 256
nw = self.layer.projection.coordinateLocation(coord.left(buffer).up(buffer))
se = self.layer.projection.coordinateLocation(coord.right(1 + buffer).down(1 + buffer))
ul = self.mercator.locationProj(nw)
lr = self.mercator.locationProj(se)
self.mapnik.width = width + 2 * self.buffer
self.mapnik.height = height + 2 * self.buffer
self.mapnik.zoom_to_box(mapnik.Box2d(ul.x, ul.y, lr.x, lr.y))
# create grid as same size as map/image
grid = mapnik.Grid(width + 2 * self.buffer, height + 2 * self.buffer)
# render a layer to that grid array
mapnik.render_layer(self.mapnik, grid, layer=self.layer_index, fields=self.fields)
# extract a gridview excluding the buffer
grid_view = grid.view(self.buffer, self.buffer, width, height)
# then encode the grid array as utf, resample to 1/scale the size, and dump features
grid_utf = grid_view.encode('utf', resolution=self.scale, add_features=True)
if self.wrapper is None:
return SaveableResponse(json.dumps(grid_utf))
else:
return SaveableResponse(self.wrapper + '(' + json.dumps(grid_utf) + ')')
def render_tile(self, tile_uri, x, y, z):
# Calculate pixel positions of bottom-left & top-right
p0 = (x * 256, (y + 1) * 256)
p1 = ((x + 1) * 256, y * 256)
# Convert to LatLong (EPSG:4326)
l0 = self.tileproj.fromPixelToLL(p0, z)
l1 = self.tileproj.fromPixelToLL(p1, z)
# Convert to map projection (e.g. mercator co-ords EPSG:900913)
c0 = self.prj.forward(mapnik.Coord(l0[0], l0[1]))
c1 = self.prj.forward(mapnik.Coord(l1[0], l1[1]))
# Bounding box for the tile
if hasattr(mapnik,
'mapnik_version') and mapnik.mapnik_version() >= 800:
bbox = mapnik.Box2d(c0.x, c0.y, c1.x, c1.y)
else:
bbox = mapnik.Envelope(c0.x, c0.y, c1.x, c1.y)
render_size = 256
self.m.resize(render_size, render_size)
self.m.zoom_to_box(bbox)
self.m.buffer_size = 128
# Render image with default Agg renderer
im = mapnik.Image(render_size, render_size)
mapnik.render(self.m, im)
im.save(tile_uri, 'png256')
grid_uri = tile_uri.replace('.png', '.grid.json')
# new mapnik.Grid api, works like mapnik.Image
# with the exception that you can only render one
# layer to it with the mapnik.render_layer function
# create grid as same size as map/image
grid = mapnik.Grid(render_size, render_size)
# render a layer to that grid array
mapnik.render_layer(self.m, grid, layer=0, fields=['POP2005', 'NAME'])
# then encode the grid array as utf, resample to 1/4 the size, and dump features
grid_utf = grid.encode('utf', resolution=4, add_features=True)
# below is the old grid api - will be removed soon, don't use
#grid_utf = mapnik.render_grid(self.m,0,key='__id__',resolution=4,fields=['POP2005','NAME'])
# client code uses jsonp, so fake by wrapping in grid() callback
open(grid_uri, 'wb').write('grid(' + json.dumps(grid_utf) + ')')
def render_tile(self, tile_uri, x, y, z):
# Calculate pixel positions of bottom-left & top-right
p0 = (x * 256, (y + 1) * 256)
p1 = ((x + 1) * 256, y * 256)
# Convert to LatLong (EPSG:4326)
l0 = self.tileproj.fromPixelToLL(p0, z);
l1 = self.tileproj.fromPixelToLL(p1, z);
# Convert to map projection (e.g. mercator co-ords EPSG:900913)
c0 = self.prj.forward(mapnik.Coord(l0[0],l0[1]))
c1 = self.prj.forward(mapnik.Coord(l1[0],l1[1]))
# Bounding box for the tile
if hasattr(mapnik,'mapnik_version') and mapnik.mapnik_version() >= 800:
bbox = mapnik.Box2d(c0.x,c0.y, c1.x,c1.y)
else:
bbox = mapnik.Envelope(c0.x,c0.y, c1.x,c1.y)
render_size = 256
self.m.resize(render_size, render_size)
self.m.zoom_to_box(bbox)
self.m.buffer_size = 128
# Render image with default Agg renderer
im = mapnik.Image(render_size, render_size)
mapnik.render(self.m, im)
im.save(tile_uri, 'png256')
grid_uri = tile_uri.replace('.png','.grid.json')
# new mapnik.Grid api, works like mapnik.Image
# with the exception that you can only render one
# layer to it with the mapnik.render_layer function
# create grid as same size as map/image
grid = mapnik.Grid(render_size, render_size)
# render a layer to that grid array
mapnik.render_layer(self.m,grid,layer=0,fields=['POP2005','NAME'])
# then encode the grid array as utf, resample to 1/4 the size, and dump features
grid_utf = grid.encode('utf',resolution=4,add_features=True)
# below is the old grid api - will be removed soon, don't use
#grid_utf = mapnik.render_grid(self.m,0,key='__id__',resolution=4,fields=['POP2005','NAME'])
# client code uses jsonp, so fake by wrapping in grid() callback
open(grid_uri,'wb').write('grid(' + json.dumps(grid_utf) + ')')
def render_tile(self, tile_uri, x, y, z):
# Calculate pixel positions of bottom-left & top-right
p0 = (x * TILES_SIZE, (y + 1) * TILES_SIZE)
p1 = ((x + 1) * TILES_SIZE, y * TILES_SIZE)
# Convert to LatLong (EPSG:4326)
l0 = self.tileproj.fromPixelToLL(p0, z)
l1 = self.tileproj.fromPixelToLL(p1, z)
# Convert to map projection (e.g. mercator co-ords EPSG:900913)
c0 = self.prj.forward(mapnik.Coord(l0[0], l0[1]))
c1 = self.prj.forward(mapnik.Coord(l1[0], l1[1]))
# Bounding box for the tile
if hasattr(mapnik,
'mapnik_version') and mapnik.mapnik_version() >= 800:
bbox = mapnik.Box2d(c0.x, c0.y, c1.x, c1.y)
else:
bbox = mapnik.Envelope(c0.x, c0.y, c1.x, c1.y)
render_size = TILES_SIZE
self.m.resize(render_size, render_size)
self.m.zoom_to_box(bbox)
self.m.buffer_size = 128
if FORMAT == 'grid':
grid = mapnik.Grid(render_size, render_size)
# mapnik.render_layer(self.m, grid, layer=64, fields=['name'])
for n, l in enumerate(self.m.layers):
if l.name != 'admin-012345678':
if 'name' in l.datasource.fields():
mapnik.render_layer(self.m,
grid,
layer=n,
fields=['name'])
utfgrid = grid.encode('utf', resolution=4)
f = open(tile_uri + '.' + FILE_EXTENSION, 'w')
f.write(json.dumps(utfgrid))
f.close()
else:
# Render image with default Agg renderer
im = mapnik.Image(render_size, render_size)
mapnik.render(self.m, im)
im.save(tile_uri + '.' + FILE_EXTENSION, FORMAT)
def test_render_grid2():
""" test old against new"""
width,height = 256,256
m = create_grid_map(width,height)
ul_lonlat = mapnik2.Coord(142.30,-38.20)
lr_lonlat = mapnik2.Coord(143.40,-38.80)
m.zoom_to_box(mapnik2.Box2d(ul_lonlat,lr_lonlat))
# new method
grid = mapnik2.Grid(m.width,m.height,key='Name')
mapnik2.render_layer(m,grid,layer=0,fields=['Name'])
utf1 = grid.encode('utf',resolution=4)
eq_(utf1,grid_correct_new)
# old method - to be removed
utf2 = mapnik2.render_grid(m,0,key='Name',resolution=4,fields=['Name'])
eq_(utf2,grid_correct)
# for complex polygons these will not be true
eq_(len(utf2['grid']),len(utf1['grid']))
eq_(len(utf2['keys']),len(utf1['keys']))
eq_(len(utf2['data']),len(utf1['data']))
# check a full view is the same as a full image
grid_view = grid.view(0,0,width,height)
# for kicks check at full res too
utf3 = grid.encode('utf',resolution=1)
utf4 = grid_view.encode('utf',resolution=1)
eq_(utf3['grid'],utf4['grid'])
eq_(utf3['keys'],utf4['keys'])
eq_(utf3['data'],utf4['data'])
eq_(resolve(utf4,0,0),None)
# resolve some center points in the
# resampled view
utf5 = grid_view.encode('utf',resolution=4)
eq_(resolve(utf5,25,10),{"Name": "North West"})
eq_(resolve(utf5,25,46),{"Name": "North East"})
eq_(resolve(utf5,38,10),{"Name": "South West"})
eq_(resolve(utf5,38,46),{"Name": "South East"})
def renderTile(self, width, height, srs, coord):
"""
"""
if self.mapnik is None:
self.mapnik = mapnik.Map(0, 0)
mapnik.load_map(self.mapnik, str(self.mapfile))
# buffer as fraction of tile size
buffer = float(self.buffer) / 256
nw = self.layer.projection.coordinateLocation(
coord.left(buffer).up(buffer))
se = self.layer.projection.coordinateLocation(
coord.right(1 + buffer).down(1 + buffer))
ul = self.mercator.locationProj(nw)
lr = self.mercator.locationProj(se)
self.mapnik.width = width + 2 * self.buffer
self.mapnik.height = height + 2 * self.buffer
self.mapnik.zoom_to_box(mapnik.Box2d(ul.x, ul.y, lr.x, lr.y))
# create grid as same size as map/image
grid = mapnik.Grid(width + 2 * self.buffer, height + 2 * self.buffer)
# render a layer to that grid array
mapnik.render_layer(self.mapnik,
grid,
layer=self.layer_index,
fields=self.fields)
# extract a gridview excluding the buffer
grid_view = grid.view(self.buffer, self.buffer, width, height)
# then encode the grid array as utf, resample to 1/scale the size, and dump features
grid_utf = grid_view.encode('utf',
resolution=self.scale,
add_features=True)
if self.wrapper is None:
return SaveableResponse(json.dumps(grid_utf))
else:
return SaveableResponse(self.wrapper + '(' + json.dumps(grid_utf) +
')')
def render_tile(self, tile_uri, x, y, z):
# Calculate pixel positions of bottom-left & top-right
p0 = (x * TILES_SIZE, (y + 1) * TILES_SIZE)
p1 = ((x + 1) * TILES_SIZE, y * TILES_SIZE)
# Convert to LatLong (EPSG:4326)
l0 = self.tileproj.fromPixelToLL(p0, z);
l1 = self.tileproj.fromPixelToLL(p1, z);
# Convert to map projection (e.g. mercator co-ords EPSG:900913)
c0 = self.prj.forward(mapnik.Coord(l0[0],l0[1]))
c1 = self.prj.forward(mapnik.Coord(l1[0],l1[1]))
# Bounding box for the tile
if hasattr(mapnik,'mapnik_version') and mapnik.mapnik_version() >= 800:
bbox = mapnik.Box2d(c0.x,c0.y, c1.x,c1.y)
else:
bbox = mapnik.Envelope(c0.x,c0.y, c1.x,c1.y)
render_size = TILES_SIZE
self.m.resize(render_size, render_size)
self.m.zoom_to_box(bbox)
self.m.buffer_size = 128
if FORMAT == 'grid':
grid = mapnik.Grid(render_size, render_size)
# mapnik.render_layer(self.m, grid, layer=64, fields=['name'])
for n, l in enumerate(self.m.layers):
if l.name != 'admin-012345678':
if 'name' in l.datasource.fields():
mapnik.render_layer(self.m, grid, layer=n, fields=['name'])
utfgrid = grid.encode('utf', resolution=4)
f = open(tile_uri + '.' + FILE_EXTENSION, 'w')
f.write(json.dumps(utfgrid))
f.close()
else:
# Render image with default Agg renderer
im = mapnik.Image(render_size, render_size)
mapnik.render(self.m, im)
im.save(tile_uri + '.' + FILE_EXTENSION, FORMAT)
#!/usr/bin/env python
import os
import json
import mapnik2
m = mapnik2.Map(256,256)
mapnik2.load_map(m,'stylesheet.xml')
# tile with south america
tile = mapnik2.Box2d(-10018754.171394622,-10018754.171394622,0,0)
m.zoom_to_box(tile)
# render image
im = mapnik2.Image(m.width, m.height)
mapnik2.render(m,im)
im.save("test.png")
# render grid
grid = mapnik2.Grid(m.width, m.height)
mapnik2.render_layer(m,grid,layer=0,fields=['POP2005','NAME'])
grid_utf = grid.encode()
open('test.json','w').write(json.dumps(grid_utf))
