/[thuban]/trunk/thuban/Thuban/Model/layer.py
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revision 1452 by bh, Fri Jul 18 12:57:59 2003 UTC revision 2228 by bh, Thu Jun 3 15:17:54 2004 UTC
# Line 1  Line 1 
1  # Copyright (c) 2001, 2002, 2003 by Intevation GmbH  # Copyright (c) 2001, 2002, 2003, 2004 by Intevation GmbH
2  # Authors:  # Authors:
3  # Bernhard Herzog <[email protected]>  # Bernhard Herzog <[email protected]>
4  # Jonathan Coles <[email protected]>  # Jonathan Coles <[email protected]>
# Line 8  Line 8 
8    
9  __version__ = "$Revision$"  __version__ = "$Revision$"
10    
11  from math import log, ceil  import os
12  import warnings  import warnings
13    
14  from Thuban import _  from Thuban import _
 import shapelib, shptree  
15    
16  from messages import LAYER_PROJECTION_CHANGED, LAYER_VISIBILITY_CHANGED, \  from messages import LAYER_PROJECTION_CHANGED, LAYER_VISIBILITY_CHANGED, \
17       LAYER_CHANGED, LAYER_SHAPESTORE_REPLACED, CLASS_CHANGED       LAYER_CHANGED, LAYER_SHAPESTORE_REPLACED, CLASS_CHANGED
# Line 21  import classification Line 20  import classification
20    
21  from color import Transparent, Black  from color import Transparent, Black
22  from base import TitledObject, Modifiable  from base import TitledObject, Modifiable
23    from data import SHAPETYPE_POLYGON, SHAPETYPE_ARC, SHAPETYPE_POINT
24    
25  import resource  import resource
26    
27    
 class Shape:  
   
     """Represent one shape"""  
   
     def __init__(self, points):  
         self.points = points  
         #self.compute_bbox()  
         self.bbox = None  
   
     def compute_bbox(self):  
         if self.bbox is not None:  
             return self.bbox  
   
         xs = []  
         ys = []  
         for x, y in self.points:  
             xs.append(x)  
             ys.append(y)  
         self.llx = min(xs)  
         self.lly = min(ys)  
         self.urx = max(xs)  
         self.ury = max(ys)  
   
         self.bbox = (self.llx, self.lly, self.urx, self.ury)  
   
         return self.bbox  
   
     def Points(self):  
         return self.points  
   
   
   
 # Shape type constants  
 SHAPETYPE_POLYGON = "polygon"  
 SHAPETYPE_ARC = "arc"  
 SHAPETYPE_POINT = "point"  
   
 # mapping from shapelib shapetype constants to our constants  
 shapelib_shapetypes = {shapelib.SHPT_POLYGON: SHAPETYPE_POLYGON,  
                        shapelib.SHPT_ARC: SHAPETYPE_ARC,  
                        shapelib.SHPT_POINT: SHAPETYPE_POINT}  
   
28  shapetype_names = {SHAPETYPE_POINT: "Point",  shapetype_names = {SHAPETYPE_POINT: "Point",
29                     SHAPETYPE_ARC: "Arc",                     SHAPETYPE_ARC: "Arc",
30                     SHAPETYPE_POLYGON: "Polygon"}                     SHAPETYPE_POLYGON: "Polygon"}
# Line 167  class Layer(BaseLayer): Line 125  class Layer(BaseLayer):
125    
126          self.UnsetModified()          self.UnsetModified()
127    
     def __getattr__(self, attr):  
         """Access to some attributes for backwards compatibility  
   
         The attributes implemented here are now held by the shapestore  
         if at all. For backwards compatibility pretend that they are  
         still there but issue a DeprecationWarning when they are  
         accessed.  
         """  
         if attr in ("table", "shapetable"):  
             value = self.store.Table()  
         elif attr == "shapefile":  
             value = self.store.Shapefile()  
         elif attr == "filename":  
             value = self.store.FileName()  
         else:  
             raise AttributeError, attr  
         warnings.warn("The Layer attribute %r is deprecated."  
                       " It's value can be accessed through the shapestore"  
                       % attr, DeprecationWarning, stacklevel = 2)  
         return value  
   
128      def SetShapeStore(self, store):      def SetShapeStore(self, store):
129          # Set the classification to None if there is a classification          # Set the classification to None if there is a classification
130          # and the new shapestore doesn't have a table with a suitable          # and the new shapestore doesn't have a table with a suitable
# Line 204  class Layer(BaseLayer): Line 141  class Layer(BaseLayer):
141                  self.SetClassification(None)                  self.SetClassification(None)
142    
143          self.store = store          self.store = store
         shapefile = self.store.Shapefile()  
144    
         numshapes, shapetype, mins, maxs = shapefile.info()  
         self.numshapes = numshapes  
         self.shapetype = shapelib_shapetypes[shapetype]  
   
         # if there are shapes, set the bbox accordingly. Otherwise  
         # set it to None.  
         if self.numshapes:  
             self.bbox = mins[:2] + maxs[:2]  
         else:  
             self.bbox = None  
   
         # estimate a good depth for the quad tree. Each depth  
         # multiplies the number of nodes by four, therefore we  
         # basically take the base 4 logarithm of the number of  
         # shapes.  
         if self.numshapes < 4:  
             maxdepth = 1  
         else:  
             maxdepth = int(ceil(log(self.numshapes / 4.0) / log(4)))  
   
         self.shapetree = shptree.SHPTree(shapefile.cobject(), 2,  
                                          maxdepth)  
145          self.changed(LAYER_SHAPESTORE_REPLACED, self)          self.changed(LAYER_SHAPESTORE_REPLACED, self)
146    
147      def ShapeStore(self):      def ShapeStore(self):
# Line 244  class Layer(BaseLayer): Line 158  class Layer(BaseLayer):
158    
159          If the layer has no shapes, return None.          If the layer has no shapes, return None.
160          """          """
161          return self.bbox          return self.store.BoundingBox()
162    
163      def LatLongBoundingBox(self):      def LatLongBoundingBox(self):
164          """Return the layer's bounding box in lat/long coordinates.          """Return the layer's bounding box in lat/long coordinates.
# Line 252  class Layer(BaseLayer): Line 166  class Layer(BaseLayer):
166          Return None, if the layer doesn't contain any shapes.          Return None, if the layer doesn't contain any shapes.
167          """          """
168          bbox = self.BoundingBox()          bbox = self.BoundingBox()
169          if bbox is not None:          if bbox is not None and self.projection is not None:
170              llx, lly, urx, ury = bbox              bbox = self.projection.InverseBBox(bbox)
171              if self.projection is not None:          return bbox
                 llx, lly = self.projection.Inverse(llx, lly)  
                 urx, ury = self.projection.Inverse(urx, ury)  
             return llx, lly, urx, ury  
         else:  
             return None  
172    
173      def ShapesBoundingBox(self, shapes):      def ShapesBoundingBox(self, shapes):
174          """Return a bounding box in lat/long coordinates for the given          """Return a bounding box in lat/long coordinates for the given
# Line 270  class Layer(BaseLayer): Line 179  class Layer(BaseLayer):
179    
180          if shapes is None or len(shapes) == 0: return None          if shapes is None or len(shapes) == 0: return None
181    
182          llx = []          xs = []
183          lly = []          ys = []
         urx = []  
         ury = []  
   
         if self.projection is not None:  
             inverse = lambda x, y: self.projection.Inverse(x, y)  
         else:  
             inverse = lambda x, y: (x, y)  
184    
185          for id in shapes:          for id in shapes:
186              left, bottom, right, top = self.Shape(id).compute_bbox()              bbox = self.Shape(id).compute_bbox()
187                if self.projection is not None:
188              left, bottom = inverse(left, bottom)                  bbox = self.projection.InverseBBox(bbox)
189              right, top   = inverse(right, top)              left, bottom, right, top = bbox
190                xs.append(left); xs.append(right)
191                ys.append(bottom); ys.append(top)
192    
193              llx.append(left)          return (min(xs), min(ys), max(xs), max(ys))
             lly.append(bottom)  
             urx.append(right)  
             ury.append(top)  
194    
         return (min(llx), min(lly), max(urx), max(ury))  
195    
196      def GetFieldType(self, fieldName):      def GetFieldType(self, fieldName):
197          if self.store:          if self.store:
# Line 305  class Layer(BaseLayer): Line 205  class Layer(BaseLayer):
205    
206      def NumShapes(self):      def NumShapes(self):
207          """Return the number of shapes in the layer"""          """Return the number of shapes in the layer"""
208          return self.numshapes          return self.store.NumShapes()
209    
210      def ShapeType(self):      def ShapeType(self):
211          """Return the type of the shapes in the layer.          """Return the type of the shapes in the layer.
212          This is either SHAPETYPE_POINT, SHAPETYPE_ARC or SHAPETYPE_POLYGON.  
213            The return value is one of the SHAPETYPE_* constants defined in
214            Thuban.Model.data.
215          """          """
216          return self.shapetype          return self.store.ShapeType()
217    
218      def Shape(self, index):      def Shape(self, index):
219          """Return the shape with index index"""          """Return the shape with index index"""
220          shape = self.store.Shapefile().read_object(index)          return self.store.Shape(index)
221    
222          if self.shapetype == SHAPETYPE_POINT:      def ShapesInRegion(self, bbox):
223              points = shape.vertices()          """Return an iterable over the shapes that overlap the bounding box.
         else:  
             #for poly in shape.vertices():  
             poly = shape.vertices()[0]  
             points = []  
             for x, y in poly:  
                 points.append((x, y))  
224    
225          return Shape(points)          The bbox parameter should be the bounding box as a tuple in the
226            form (minx, miny, maxx, maxy) in unprojected coordinates.
     def ShapesInRegion(self, box):  
         """Return the ids of the shapes that overlap the box.  
   
         Box is a tuple (left, bottom, right, top) in unprojected coordinates.  
227          """          """
         left, bottom, right, top = box  
   
228          if self.projection is not None:          if self.projection is not None:
229              left,  bottom = self.projection.Forward(left, bottom)              bbox = self.projection.ForwardBBox(bbox)
230              right, top    = self.projection.Forward(right, top)          return self.store.ShapesInRegion(bbox)
   
         return self.shapetree.find_shapes((left, bottom), (right, top))  
231    
232      def GetClassificationColumn(self):      def GetClassificationColumn(self):
233          return self.classification_column          return self.classification_column
# Line 401  class Layer(BaseLayer): Line 289  class Layer(BaseLayer):
289    
290          bbox = self.LatLongBoundingBox()          bbox = self.LatLongBoundingBox()
291          if bbox is not None:          if bbox is not None:
292              items.append(_("Extent (lat-lon): (%g, %g, %g, %g)") % bbox)              items.append(_("Extent (lat-lon): (%g, %g, %g, %g)") % tuple(bbox))
293          else:          else:
294              items.append(_("Extent (lat-lon):"))              items.append(_("Extent (lat-lon):"))
295          items.append(_("Shapetype: %s") % shapetype_names[self.ShapeType()])          items.append(_("Shapetype: %s") % shapetype_names[self.ShapeType()])
# Line 440  class RasterLayer(BaseLayer): Line 328  class RasterLayer(BaseLayer):
328          BaseLayer.__init__(self, title, visible = visible)          BaseLayer.__init__(self, title, visible = visible)
329    
330          self.projection = projection          self.projection = projection
331          self.filename = filename          self.filename = os.path.abspath(filename)
332    
333          self.bbox = -1          self.bbox = -1
334    
# Line 502  class RasterLayer(BaseLayer): Line 390  class RasterLayer(BaseLayer):
390          if bbox is None:          if bbox is None:
391              return None              return None
392    
         llx, lly, urx, ury = bbox  
393          if self.projection is not None:          if self.projection is not None:
394              llx, lly = self.projection.Inverse(llx, lly)              bbox = self.projection.InverseBBox(bbox)
             urx, ury = self.projection.Inverse(urx, ury)  
395    
396          return llx, lly, urx, ury          return bbox
397    
398      def GetImageFilename(self):      def GetImageFilename(self):
399          return self.filename          return self.filename
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