def get_2d_dataset(self, **kwargs):
# TODO apply filtering. Should start supporting CQL soon.
layers, srs, bbox, width, height, styles, bgcolor, transparent, time, elevation, v, filter = [kwargs[k] if k in kwargs else None for k in ['layers', 'srs', 'bbox', 'width', 'height', 'styles', 'bgcolor', 'transparent', 'time', 'elevation', 'v', 'filter']]
ds = self.dataset.Clone()
minx,miny,maxx,maxy = bbox
if filter is None:
filter = {}
if self.requires_time and not time:
raise Exception("this service requires a time parameter")
if self.requires_elevation and not elevation:
raise Exception('this service requires an elevation')
ss = None
if type(self.styles) is dict:
if not styles and 'default' in self.styles:
ss = self.styles['default']
elif styles:
ss = self.styles[styles]
else:
ss = self.styles
ctx = RenderingContext(ss, minx, miny, maxx, maxy, width, height)
t_srs = osr.SpatialReference()
t_srs.ImportFromEPSG(int(srs))
l0 = self.dataset.GetLayer(0)
s_srs = l0.GetSpatialRef()
s_mins = Point(minx, miny, srid=t_srs.wkt)
s_maxs = Point(maxx, maxy, srid=t_srs.wkt)
s_mins.transform(s_srs.wkt)
s_maxs.transform(s_srs.wkt)
ls = {}
crx = osr.CoordinateTransformation(s_srs, t_srs)
def xform(f):
f.SetGeometry(f.geometry().Transform(crx))
for query_layer in layers:
ls[query_layer] = ds.GetLayerByName(query_layer)
ls[query_layer].ResetReading()
ls[query_layer].SetSpatialFilterRect(s_mins.x, s_mins.y, s_maxs.x, s_maxs.y)
for query_layer in layers:
mysrs = self.nativesrs(query_layer)
if mysrs == srs:
ctx.render(ls[query_layer], lambda k: k[query_layer])
else:
ctx.render(ls[query_layer], lambda k: xform(k[query_layer]))
return ctx.surface
def get_2d_dataset(self, **kwargs):
# TODO apply filtering. Should start supporting CQL soon.
layers, srs, bbox, width, height, styles, bgcolor, transparent, time, elevation, v, filter = [
kwargs[k] if k in kwargs else None for k in [
'layers', 'srs', 'bbox', 'width', 'height', 'styles',
'bgcolor', 'transparent', 'time', 'elevation', 'v', 'filter'
]
]
ds = self.dataset.Clone()
minx, miny, maxx, maxy = bbox
if filter is None:
filter = {}
if self.requires_time and not time:
raise Exception("this service requires a time parameter")
if self.requires_elevation and not elevation:
raise Exception('this service requires an elevation')
ss = None
if type(self.styles) is dict:
if not styles and 'default' in self.styles:
ss = self.styles['default']
elif styles:
ss = self.styles[styles]
else:
ss = self.styles
ctx = RenderingContext(ss, minx, miny, maxx, maxy, width, height)
t_srs = osr.SpatialReference()
t_srs.ImportFromEPSG(int(srs))
l0 = self.dataset.GetLayer(0)
s_srs = l0.GetSpatialRef()
s_mins = Point(minx, miny, srid=t_srs.wkt)
s_maxs = Point(maxx, maxy, srid=t_srs.wkt)
s_mins.transform(s_srs.wkt)
s_maxs.transform(s_srs.wkt)
ls = {}
crx = osr.CoordinateTransformation(s_srs, t_srs)
def xform(f):
f.SetGeometry(f.geometry().Transform(crx))
for query_layer in layers:
ls[query_layer] = ds.GetLayerByName(query_layer)
ls[query_layer].ResetReading()
ls[query_layer].SetSpatialFilterRect(s_mins.x, s_mins.y, s_maxs.x,
s_maxs.y)
for query_layer in layers:
mysrs = self.nativesrs(query_layer)
if mysrs == srs:
ctx.render(ls[query_layer], lambda k: k[query_layer])
else:
ctx.render(ls[query_layer], lambda k: xform(k[query_layer]))
return ctx.surface
def get_2d_dataset(self, **kwargs):
layers, srs, bbox, width, height, styles, bgcolor, transparent, time, elevation, v, filter = [
kwargs[k] if k in kwargs else None
for k in [
"layers",
"srs",
"bbox",
"width",
"height",
"styles",
"bgcolor",
"transparent",
"time",
"elevation",
"v",
"filter",
]
]
minx, miny, maxx, maxy = bbox
if filter is None:
filter = {}
if self.requires_time and not time:
raise Exception("this service requires a time parameter")
if self.requires_elevation and not elevation:
raise Exception("this service requires an elevation")
ss = None
required_fields = tuple()
if type(self.styles) is dict:
if not styles and "default" in self.styles:
ss = self.styles["default"]
elif styles:
ss = self.styles[styles]
else:
ss = self.styles
required_fields = ss.required_fields
ctx = RenderingContext(ss, minx, miny, maxx, maxy, width, height)
t_srs = djgdal.SpatialReference(srs)
s_srs = djgdal.SpatialReference(self.nativesrs(layers[0]))
s_mins = Point(minx, miny, srid=t_srs.wkt)
s_maxs = Point(maxx, maxy, srid=t_srs.wkt)
s_mins.transform(s_srs.wkt)
s_maxs.transform(s_srs.wkt)
geom = GEOSGeometry(
"POLYGON(({minx} {miny}, {maxx} {miny}, {maxx} {maxy}, {minx} {maxy}, {minx} {miny}))".format(
minx=s_mins.x, miny=s_mins.y, maxx=s_maxs.x, maxy=s_maxs.y
)
)
for query_layer in layers:
filter[query_layer + "__bboverlaps"] = geom
def xform(g):
if self.simplify:
k = g.simplify((maxx - minx) / width)
if k:
g = k
g.transform(t_srs.wkt)
return g
for query_layer in layers:
qs = self.cls.objects.filter(**filter)
if required_fields:
qs = qs.only(*required_fields).values(*required_fields)
else:
qs = qs.values()
mysrs = self.nativesrs(query_layer)
if mysrs == srs:
ctx.render(qs, lambda k: k[query_layer])
else:
ctx.render(qs, lambda k: xform(k[query_layer]))
return ctx.surface
def get_2d_dataset(self, **kwargs):
layers, srs, bbox, width, height, styles, bgcolor, transparent, time, elevation, v, filter = [
kwargs[k] if k in kwargs else None for k in [
'layers', 'srs', 'bbox', 'width', 'height', 'styles',
'bgcolor', 'transparent', 'time', 'elevation', 'v', 'filter'
]
]
minx, miny, maxx, maxy = bbox
if filter is None:
filter = {}
if self.requires_time and not time:
raise Exception("this service requires a time parameter")
if self.requires_elevation and not elevation:
raise Exception('this service requires an elevation')
ss = None
required_fields = tuple()
if type(self.styles) is dict:
if not styles and 'default' in self.styles:
ss = self.styles['default']
elif styles:
ss = self.styles[styles]
else:
ss = self.styles
required_fields = ss.required_fields
ctx = RenderingContext(ss, minx, miny, maxx, maxy, width, height)
t_srs = djgdal.SpatialReference(srs)
s_srs = djgdal.SpatialReference(self.nativesrs(layers[0]))
s_mins = Point(minx, miny, srid=t_srs.wkt)
s_maxs = Point(maxx, maxy, srid=t_srs.wkt)
s_mins.transform(s_srs.wkt)
s_maxs.transform(s_srs.wkt)
geom = GEOSGeometry(
'POLYGON(({minx} {miny}, {maxx} {miny}, {maxx} {maxy}, {minx} {maxy}, {minx} {miny}))'
.format(minx=s_mins.x, miny=s_mins.y, maxx=s_maxs.x,
maxy=s_maxs.y))
for query_layer in layers:
filter[query_layer + "__bboverlaps"] = geom
def xform(g):
if self.simplify:
k = g.simplify((maxx - minx) / width)
if k:
g = k
g.transform(t_srs.wkt)
return g
for query_layer in layers:
qs = self.cls.objects.filter(**filter)
if required_fields:
qs = qs.only(*required_fields).values(*required_fields)
else:
qs = qs.values()
mysrs = self.nativesrs(query_layer)
if mysrs == srs:
ctx.render(qs, lambda k: k[query_layer])
else:
ctx.render(qs, lambda k: xform(k[query_layer]))
return ctx.surface
