/[thuban]/trunk/thuban/Thuban/Model/layer.py
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revision 389 by jonathan, Mon Feb 10 15:25:30 2003 UTC revision 839 by bh, Tue May 6 15:54:18 2003 UTC
# Line 1  Line 1 
1  # Copyright (c) 2001, 2002 by Intevation GmbH  # Copyright (c) 2001, 2002, 2003 by Intevation GmbH
2  # Authors:  # Authors:
3  # Bernhard Herzog <[email protected]>  # Bernhard Herzog <[email protected]>
4    # Jonathan Coles <[email protected]>
5  #  #
6  # This program is free software under the GPL (>=v2)  # This program is free software under the GPL (>=v2)
7  # Read the file COPYING coming with Thuban for details.  # Read the file COPYING coming with Thuban for details.
8    
9  __version__ = "$Revision$"  __version__ = "$Revision$"
10    
 import os  
11  from math import log, ceil  from math import log, ceil
12    
13  from Thuban import _  from Thuban import _
14    
15  import shapelib, shptree  import shapelib, shptree
16    
17  from messages import LAYER_PROJECTION_CHANGED, LAYER_LEGEND_CHANGED, \  from messages import LAYER_PROJECTION_CHANGED, LAYER_VISIBILITY_CHANGED, \
18       LAYER_VISIBILITY_CHANGED       LAYER_CHANGED
19    
20  from color import Color  from color import Color
 # Some predefined colors for internal use  
 _black = Color(0, 0, 0)  
21    
22  from classification import Classification  import classification
   
 from table import Table  
23    
24  from base import TitledObject, Modifiable  from base import TitledObject, Modifiable
25    
26    
27  class Shape:  class Shape:
28    
29      """Represent one shape"""      """Represent one shape"""
# Line 34  class Shape: Line 31  class Shape:
31      def __init__(self, points):      def __init__(self, points):
32          self.points = points          self.points = points
33          #self.compute_bbox()          #self.compute_bbox()
34            self.bbox = None
35    
36      def compute_bbox(self):      def compute_bbox(self):
37            if self.bbox is not None:
38                return self.bbox
39    
40          xs = []          xs = []
41          ys = []          ys = []
42          for x, y in self.points:          for x, y in self.points:
# Line 46  class Shape: Line 47  class Shape:
47          self.urx = max(xs)          self.urx = max(xs)
48          self.ury = max(ys)          self.ury = max(ys)
49    
50            self.bbox = (self.llx, self.lly, self.urx, self.ury)
51    
52            return self.bbox
53    
54      def Points(self):      def Points(self):
55          return self.points          return self.points
56    
# Line 69  class BaseLayer(TitledObject, Modifiable Line 74  class BaseLayer(TitledObject, Modifiable
74    
75      """Base class for the layers."""      """Base class for the layers."""
76    
77      def __init__(self, title, visible = 1):      def __init__(self, title, visible = True):
78          """Initialize the layer.          """Initialize the layer.
79    
80          title -- the title          title -- the title
# Line 103  class Layer(BaseLayer): Line 108  class Layer(BaseLayer):
108    
109          TITLE_CHANGED -- The title has changed.          TITLE_CHANGED -- The title has changed.
110          LAYER_PROJECTION_CHANGED -- the projection has changed.          LAYER_PROJECTION_CHANGED -- the projection has changed.
         LAYER_LEGEND_CHANGED -- the fill or stroke attributes have changed  
   
111      """      """
112    
113      def __init__(self, title, filename, projection = None,      def __init__(self, title, data, projection = None,
114                   fill = None, stroke = _black, stroke_width = 1, visible = 1):                   fill = Color.Transparent,
115                     stroke = Color.Black,
116                     lineWidth = 1,
117                     visible = True):
118          """Initialize the layer.          """Initialize the layer.
119    
120          title -- the title          title -- the title
121          filename -- the name of the shapefile          data -- datastore object for the shape data shown by the layer
122          projection -- the projection object. Its Inverse method is          projection -- the projection object. Its Inverse method is
123                 assumed to map the layer's coordinates to lat/long                 assumed to map the layer's coordinates to lat/long
124                 coordinates                 coordinates
125          fill -- the fill color or None if the shapes are not filled          fill -- the fill color or Color.Transparent if the shapes are
126          stroke -- the stroke color or None if the shapes are not stroked                  not filled
127            stroke -- the stroke color or Color.Transparent if the shapes
128                    are not stroked
129          visible -- boolean. If true the layer is visible.          visible -- boolean. If true the layer is visible.
130    
131          colors are expected to be instances of Color class          colors are expected to be instances of Color class
132          """          """
133          BaseLayer.__init__(self, title, visible = visible)          BaseLayer.__init__(self, title, visible = visible)
134    
         # Make the filename absolute. The filename will be  
         # interpreted relative to that anyway, but when saving a  
         # session we need to compare absolute paths and it's usually  
         # safer to always work with absolute paths.  
         self.filename = os.path.abspath(filename)  
   
135          self.projection = projection          self.projection = projection
         self.fill = fill  
         self.stroke = stroke  
         self.stroke_width = stroke_width  
         self.shapefile = None  
         self.shapetree = None  
         self.open_shapefile()  
         # shapetable is the table associated with the shapefile, while  
         # table is the default table used to look up attributes for  
         # display  
         self.shapetable = Table(filename)  
         self.table = self.shapetable  
136    
137          self.classification = Classification(self)          #
138          self.classification.SetDefaultStroke(stroke)          # this is really important so that when the classification class
139          self.classification.SetDefaultStrokeWidth(stroke_width)          # tries to set its parent layer the variable will exist
140          self.classification.SetDefaultFill(fill)          #
141            self.__classification = None
142            self.__setClassLock = False
143    
144            self.SetShapeStore(data)
145    
146            self.SetClassification(None)
147    
148            self.__classification.SetDefaultLineColor(stroke)
149            self.__classification.SetDefaultLineWidth(lineWidth)
150            self.__classification.SetDefaultFill(fill)
151            self.__classification.SetLayer(self)
152    
153          self.UnsetModified()          self.UnsetModified()
154    
     def open_shapefile(self):  
         if self.shapefile is None:  
             self.shapefile = shapelib.ShapeFile(self.filename)  
             numshapes, shapetype, mins, maxs = self.shapefile.info()  
             self.numshapes = numshapes  
             self.shapetype = shapelib_shapetypes[shapetype]  
   
             # if there are shapes, set the bbox accordinly. 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)))  
155    
156              self.shapetree = shptree.SHPTree(self.shapefile.cobject(), 2,      def SetShapeStore(self, store):
157                                               maxdepth)          self.store = store
158            self.shapefile = self.store.Shapefile()
159            self.shapetable = self.store.Table()
160            self.filename = self.store.filename
161            self.table = self.shapetable
162    
163            numshapes, shapetype, mins, maxs = self.shapefile.info()
164            self.numshapes = numshapes
165            self.shapetype = shapelib_shapetypes[shapetype]
166    
167            # if there are shapes, set the bbox accordingly. Otherwise
168            # set it to None.
169            if self.numshapes:
170                self.bbox = mins[:2] + maxs[:2]
171            else:
172                self.bbox = None
173    
174            # estimate a good depth for the quad tree. Each depth
175            # multiplies the number of nodes by four, therefore we
176            # basically take the base 4 logarithm of the number of
177            # shapes.
178            if self.numshapes < 4:
179                maxdepth = 1
180            else:
181                maxdepth = int(ceil(log(self.numshapes / 4.0) / log(4)))
182    
183            self.shapetree = shptree.SHPTree(self.shapefile.cobject(), 2,
184                                             maxdepth)
185            if self.__classification is not None:
186                fieldname = self.__classification.GetField()
187                if fieldname is not None and \
188                   not self.store.Table().HasColumn(fieldname):
189                    self.SetClassification(None)
190            self.changed(LAYER_CHANGED, self)
191    
192        def ShapeStore(self):
193            return self.store
194    
195      def Destroy(self):      def Destroy(self):
196          BaseLayer.Destroy(self)          BaseLayer.Destroy(self)
197          if self.shapefile is not None:          self.SetClassification(None)
             self.shapefile.close()  
             self.shapefile = None  
             self.shapetree = None  
         self.table.Destroy()  
198    
199      def BoundingBox(self):      def BoundingBox(self):
200          """Return the layer's bounding box in the intrinsic coordinate system.          """Return the layer's bounding box in the intrinsic coordinate system.
201    
202          If the layer has no shapes, return None.          If the layer has no shapes, return None.
203          """          """
         # The bbox will be set by open_shapefile just as we need it  
         # here.  
         self.open_shapefile()  
204          return self.bbox          return self.bbox
205    
206      def LatLongBoundingBox(self):      def LatLongBoundingBox(self):
# Line 209  class Layer(BaseLayer): Line 218  class Layer(BaseLayer):
218          else:          else:
219              return None              return None
220    
221        def ShapesBoundingBox(self, shapes):
222            """Return a bounding box in lat/long coordinates for the given
223            list of shape ids.
224    
225            If shapes is None or empty, return None.
226            """
227    
228            if shapes is None or len(shapes) == 0: return None
229    
230            llx = []
231            lly = []
232            urx = []
233            ury = []
234    
235            if self.projection is not None:
236                inverse = lambda x, y: self.projection.Inverse(x, y)
237            else:
238                inverse = lambda x, y: (x, y)
239    
240            for id in shapes:
241                left, bottom, right, top = self.Shape(id).compute_bbox()
242    
243                left, bottom = inverse(left, bottom)
244                right, top   = inverse(right, top)
245    
246                llx.append(left)
247                lly.append(bottom)
248                urx.append(right)
249                ury.append(top)
250    
251            return (min(llx), min(lly), max(urx), max(ury))
252    
253        def GetFieldType(self, fieldName):
254            if self.table.HasColumn(fieldName):
255                return self.table.Column(fieldName).type
256            return None
257    
258      def NumShapes(self):      def NumShapes(self):
259          """Return the number of shapes in the layer"""          """Return the number of shapes in the layer"""
         self.open_shapefile()  
260          return self.numshapes          return self.numshapes
261    
262      def ShapeType(self):      def ShapeType(self):
263          """Return the type of the shapes in the layer.          """Return the type of the shapes in the layer.
264          This is either SHAPETYPE_POINT, SHAPETYPE_ARC or SHAPETYPE_POLYGON.          This is either SHAPETYPE_POINT, SHAPETYPE_ARC or SHAPETYPE_POLYGON.
265          """          """
         self.open_shapefile()  
266          return self.shapetype          return self.shapetype
267    
268      def Shape(self, index):      def Shape(self, index):
269          """Return the shape with index index"""          """Return the shape with index index"""
         self.open_shapefile()  
270          shape = self.shapefile.read_object(index)          shape = self.shapefile.read_object(index)
271    
272          if self.shapetype == SHAPETYPE_POINT:          if self.shapetype == SHAPETYPE_POINT:
# Line 240  class Layer(BaseLayer): Line 283  class Layer(BaseLayer):
283      def ShapesInRegion(self, box):      def ShapesInRegion(self, box):
284          """Return the ids of the shapes that overlap the box.          """Return the ids of the shapes that overlap the box.
285    
286          Box is a tuple (left, bottom, right, top) in the coordinate          Box is a tuple (left, bottom, right, top) in unprojected coordinates.
         system used by the layer's shapefile.  
287          """          """
288          left, bottom, right, top = box          left, bottom, right, top = box
289    
290            if self.projection is not None:
291                left,  bottom = self.projection.Forward(left, bottom)
292                right, top    = self.projection.Forward(right, top)
293    
294          return self.shapetree.find_shapes((left, bottom), (right, top))          return self.shapetree.find_shapes((left, bottom), (right, top))
295    
296        def GetProjection(self):
297            return self.projection
298    
299      def SetProjection(self, projection):      def SetProjection(self, projection):
300          """Set the layer's projection"""          """Set the layer's projection"""
301          self.projection = projection          self.projection = projection
302          self.changed(LAYER_PROJECTION_CHANGED, self)          self.changed(LAYER_PROJECTION_CHANGED, self)
303    
304        def GetClassification(self):
305            return self.__classification
306    
307        def SetClassification(self, clazz):
308            """Set the classification to 'clazz'
309    
310            If 'clazz' is None a default classification is created
311            """
312    
313            # prevent infinite recursion when calling SetLayer()
314            if self.__setClassLock: return
315    
316            self.__setClassLock = True
317    
318            if clazz is None:
319                if self.__classification is not None:
320                    self.__classification.SetLayer(None)
321                self.__classification = classification.Classification()
322            else:
323                self.__classification = clazz
324                try:
325                    self.__classification.SetLayer(self)
326                except ValueError:
327                    self.__setClassLock = False
328                    raise ValueError
329    
330            self.changed(LAYER_CHANGED, self)
331    
332            self.__setClassLock = False
333    
334        def ClassChanged(self):
335            """Called from the classification object when it has changed."""
336            self.changed(LAYER_CHANGED, self)
337    
338      def TreeInfo(self):      def TreeInfo(self):
339          items = []          items = []
340    
# Line 267  class Layer(BaseLayer): Line 351  class Layer(BaseLayer):
351              items.append(_("Extent (lat-lon):"))              items.append(_("Extent (lat-lon):"))
352          items.append(_("Shapetype: %s") % shapetype_names[self.ShapeType()])          items.append(_("Shapetype: %s") % shapetype_names[self.ShapeType()])
353    
354          def color_string(color):          if self.projection and len(self.projection.params) > 0:
355              if color is None:              items.append((_("Projection"),
356                  return "None"                          [str(param) for param in self.projection.params]))
             return "(%.3f, %.3f, %.3f)" % (color.red, color.green, color.blue)  
   
         # layers will always have a classification with at least a NULL data set  
357    
358          #items.append((_("Fill: %s") % color_string(self.fill), self.fill))          items.append(self.__classification)
         #items.append((_("Outline: %s") % color_string(self.stroke), self.stroke))  
   
         items.append(self.classification)  
359    
360          return (_("Layer '%s'") % self.Title(), items)          return (_("Layer '%s'") % self.Title(), items)
361    
362    
Legend:
Removed from v.389  
changed lines
  Added in v.839
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