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__version__ = "$Revision$" |
__version__ = "$Revision$" |
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from math import log, ceil |
import os |
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import warnings |
import warnings |
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from Thuban import _ |
from Thuban import _ |
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import shapelib, shptree |
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from messages import LAYER_PROJECTION_CHANGED, LAYER_VISIBILITY_CHANGED, \ |
from messages import LAYER_PROJECTION_CHANGED, LAYER_VISIBILITY_CHANGED, \ |
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LAYER_CHANGED, LAYER_SHAPESTORE_REPLACED, CLASS_CHANGED |
LAYER_CHANGED, LAYER_SHAPESTORE_REPLACED, CLASS_CHANGED |
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from color import Transparent, Black |
from color import Transparent, Black |
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from base import TitledObject, Modifiable |
from base import TitledObject, Modifiable |
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from data import SHAPETYPE_POLYGON, SHAPETYPE_ARC, SHAPETYPE_POINT |
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import resource |
import resource |
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class Shape: |
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"""Represent one shape""" |
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def __init__(self, points): |
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self.points = points |
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#self.compute_bbox() |
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self.bbox = None |
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def compute_bbox(self): |
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if self.bbox is not None: |
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return self.bbox |
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xs = [] |
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ys = [] |
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for x, y in self.points: |
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xs.append(x) |
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ys.append(y) |
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self.llx = min(xs) |
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self.lly = min(ys) |
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self.urx = max(xs) |
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self.ury = max(ys) |
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self.bbox = (self.llx, self.lly, self.urx, self.ury) |
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return self.bbox |
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def Points(self): |
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return self.points |
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# Shape type constants |
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SHAPETYPE_POLYGON = "polygon" |
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SHAPETYPE_ARC = "arc" |
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SHAPETYPE_POINT = "point" |
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# mapping from shapelib shapetype constants to our constants |
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shapelib_shapetypes = {shapelib.SHPT_POLYGON: SHAPETYPE_POLYGON, |
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shapelib.SHPT_ARC: SHAPETYPE_ARC, |
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shapelib.SHPT_POINT: SHAPETYPE_POINT} |
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shapetype_names = {SHAPETYPE_POINT: "Point", |
shapetype_names = {SHAPETYPE_POINT: "Point", |
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SHAPETYPE_ARC: "Arc", |
SHAPETYPE_ARC: "Arc", |
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SHAPETYPE_POLYGON: "Polygon"} |
SHAPETYPE_POLYGON: "Polygon"} |
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self.UnsetModified() |
self.UnsetModified() |
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def __getattr__(self, attr): |
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"""Access to some attributes for backwards compatibility |
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The attributes implemented here are now held by the shapestore |
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if at all. For backwards compatibility pretend that they are |
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still there but issue a DeprecationWarning when they are |
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accessed. |
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""" |
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if attr in ("table", "shapetable"): |
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value = self.store.Table() |
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elif attr == "shapefile": |
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value = self.store.Shapefile() |
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elif attr == "filename": |
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value = self.store.FileName() |
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else: |
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raise AttributeError, attr |
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warnings.warn("The Layer attribute %r is deprecated." |
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" It's value can be accessed through the shapestore" |
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% attr, DeprecationWarning, stacklevel = 2) |
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return value |
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def SetShapeStore(self, store): |
def SetShapeStore(self, store): |
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# Set the classification to None if there is a classification |
# Set the classification to None if there is a classification |
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# and the new shapestore doesn't have a table with a suitable |
# and the new shapestore doesn't have a table with a suitable |
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self.SetClassification(None) |
self.SetClassification(None) |
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self.store = store |
self.store = store |
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shapefile = self.store.Shapefile() |
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numshapes, shapetype, mins, maxs = shapefile.info() |
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self.numshapes = numshapes |
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self.shapetype = shapelib_shapetypes[shapetype] |
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# if there are shapes, set the bbox accordingly. Otherwise |
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# set it to None. |
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if self.numshapes: |
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self.bbox = mins[:2] + maxs[:2] |
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else: |
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self.bbox = None |
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# estimate a good depth for the quad tree. Each depth |
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# multiplies the number of nodes by four, therefore we |
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# basically take the base 4 logarithm of the number of |
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# shapes. |
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if self.numshapes < 4: |
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maxdepth = 1 |
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else: |
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maxdepth = int(ceil(log(self.numshapes / 4.0) / log(4))) |
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self.shapetree = shptree.SHPTree(shapefile.cobject(), 2, |
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maxdepth) |
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self.changed(LAYER_SHAPESTORE_REPLACED, self) |
self.changed(LAYER_SHAPESTORE_REPLACED, self) |
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def ShapeStore(self): |
def ShapeStore(self): |
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If the layer has no shapes, return None. |
If the layer has no shapes, return None. |
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""" |
""" |
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return self.bbox |
return self.store.BoundingBox() |
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def LatLongBoundingBox(self): |
def LatLongBoundingBox(self): |
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"""Return the layer's bounding box in lat/long coordinates. |
"""Return the layer's bounding box in lat/long coordinates. |
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Return None, if the layer doesn't contain any shapes. |
Return None, if the layer doesn't contain any shapes. |
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""" |
""" |
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bbox = self.BoundingBox() |
bbox = self.BoundingBox() |
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if bbox is not None: |
if bbox is not None and self.projection is not None: |
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llx, lly, urx, ury = bbox |
bbox = self.projection.InverseBBox(bbox) |
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if self.projection is not None: |
return bbox |
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llx, lly = self.projection.Inverse(llx, lly) |
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urx, ury = self.projection.Inverse(urx, ury) |
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return llx, lly, urx, ury |
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else: |
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return None |
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def ShapesBoundingBox(self, shapes): |
def ShapesBoundingBox(self, shapes): |
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"""Return a bounding box in lat/long coordinates for the given |
"""Return a bounding box in lat/long coordinates for the given |
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if shapes is None or len(shapes) == 0: return None |
if shapes is None or len(shapes) == 0: return None |
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llx = [] |
xs = [] |
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lly = [] |
ys = [] |
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urx = [] |
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ury = [] |
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if self.projection is not None: |
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inverse = lambda x, y: self.projection.Inverse(x, y) |
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else: |
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inverse = lambda x, y: (x, y) |
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for id in shapes: |
for id in shapes: |
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left, bottom, right, top = self.Shape(id).compute_bbox() |
bbox = self.Shape(id).compute_bbox() |
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if self.projection is not None: |
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left, bottom = inverse(left, bottom) |
bbox = self.projection.InverseBBox(bbox) |
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right, top = inverse(right, top) |
left, bottom, right, top = bbox |
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xs.append(left); xs.append(right) |
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ys.append(bottom); ys.append(top) |
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llx.append(left) |
return (min(xs), min(ys), max(xs), max(ys)) |
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lly.append(bottom) |
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urx.append(right) |
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ury.append(top) |
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return (min(llx), min(lly), max(urx), max(ury)) |
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def GetFieldType(self, fieldName): |
def GetFieldType(self, fieldName): |
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if self.store: |
if self.store: |
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def NumShapes(self): |
def NumShapes(self): |
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"""Return the number of shapes in the layer""" |
"""Return the number of shapes in the layer""" |
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return self.numshapes |
return self.store.NumShapes() |
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def ShapeType(self): |
def ShapeType(self): |
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"""Return the type of the shapes in the layer. |
"""Return the type of the shapes in the layer. |
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This is either SHAPETYPE_POINT, SHAPETYPE_ARC or SHAPETYPE_POLYGON. |
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The return value is one of the SHAPETYPE_* constants defined in |
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Thuban.Model.data. |
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""" |
""" |
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return self.shapetype |
return self.store.ShapeType() |
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def Shape(self, index): |
def Shape(self, index): |
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"""Return the shape with index index""" |
"""Return the shape with index index""" |
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shape = self.store.Shapefile().read_object(index) |
return self.store.Shape(index) |
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if self.shapetype == SHAPETYPE_POINT: |
def ShapesInRegion(self, bbox): |
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points = shape.vertices() |
"""Return an iterable over the shapes that overlap the bounding box. |
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#for poly in shape.vertices(): |
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poly = shape.vertices()[0] |
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points = [] |
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for x, y in poly: |
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points.append((x, y)) |
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return Shape(points) |
The bbox parameter should be the bounding box as a tuple in the |
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form (minx, miny, maxx, maxy) in unprojected coordinates. |
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def ShapesInRegion(self, box): |
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"""Return the ids of the shapes that overlap the box. |
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Box is a tuple (left, bottom, right, top) in unprojected coordinates. |
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""" |
""" |
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left, bottom, right, top = box |
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if self.projection is not None: |
if self.projection is not None: |
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left, bottom = self.projection.Forward(left, bottom) |
bbox = self.projection.ForwardBBox(bbox) |
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right, top = self.projection.Forward(right, top) |
return self.store.ShapesInRegion(bbox) |
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return self.shapetree.find_shapes((left, bottom), (right, top)) |
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def GetClassificationColumn(self): |
def GetClassificationColumn(self): |
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return self.classification_column |
return self.classification_column |
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BaseLayer.__init__(self, title, visible = visible) |
BaseLayer.__init__(self, title, visible = visible) |
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self.projection = projection |
self.projection = projection |
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self.filename = filename |
self.filename = os.path.abspath(filename) |
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self.bbox = -1 |
self.bbox = -1 |
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if bbox is None: |
if bbox is None: |
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return None |
return None |
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llx, lly, urx, ury = bbox |
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if self.projection is not None: |
if self.projection is not None: |
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llx, lly = self.projection.Inverse(llx, lly) |
bbox = self.projection.InverseBBox(bbox) |
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urx, ury = self.projection.Inverse(urx, ury) |
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return llx, lly, urx, ury |
return bbox |
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def GetImageFilename(self): |
def GetImageFilename(self): |
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return self.filename |
return self.filename |
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