def clip_to_rect(polygon, bbox): """ clips a polygon to a given bounding box takes in a gisutils.Polygon and gisutils.Bounds2D """ from Polygon.Shapes import Rectangle rect = Rectangle(bbox.width, bbox.height) rect.shift(bbox.left, bbox.top) return clip_to_poly(polygon, rect)
def sub_square_polygon(self, pos, width,height, angle=0): p1 = Rectangle(width,height) p1.shift(-width/2,-height/2) p1.rotate(angle) p1.shift(pos[0],pos[1]) if self.poly == None: self.poly = p1 return check = self.poly-p1 if (self.keepsimple and len(check)<2) or not self.keepsimple: self.poly = check
def operationsExample():
print('### Operations')
# create a circle with a hole
p1 = Circle(1.0) - Circle(0.5)
# create a square
p2 = Rectangle(0.7)
# shift the square a little bit
p2.shift(0.25, 0.35)
plist = [p1, p2]
slist = ['p1', 'p2']
# addition, the same as logical OR (p1 | p2)
p = p1 + p2
p.shift(2.5, 0.0)
plist.append(p)
slist.append('p1 + p2 (OR)')
# subtraction
p = p1 - p2
p.shift(5.0, 0.0)
plist.append(p)
slist.append('p1 - p2')
# subtraction
p = p2 - p1
p.shift(7.5, 0.0)
plist.append(p)
slist.append('p2 - p1')
# logical AND
p = p2 & p1
p.shift(10.0, 0.0)
plist.append(p)
slist.append('p2 AND p1')
# logical XOR
p = p2 ^ p1
p.shift(12.5, 0.0)
plist.append(p)
slist.append('p2 XOR p1')
# draw the results of the operations
writeSVG('Operations.svg',
plist,
width=800,
labels=slist,
labels_centered=True)
def _merge_boxes( boxes ):
'''
Merges a list of points specifying contiguous boxes into a single
Polygon. Returns the polygon, list of points on the polygon.
'''
# bboxArea = the union of all the bounding boxes on the route
bboxArea = None
# union all the boxes together
for i in xrange(0,len(boxes),4):
# Make a Rectangle out of the width/height of a bounding box
# longitude = x, latitude = y
theRect = Rectangle( abs(boxes[i] - boxes[i+2]),
abs(boxes[i+1] - boxes[i+3]) )
theRect.shift( boxes[i+2], boxes[i+3] )
bboxArea = bboxArea + theRect if bboxArea else theRect
# turn bboxArea into a list of points
bboxContour = [list(t) for t in bboxArea.contour( 0 )]
return bboxArea, bboxContour
def searchPoints( request ):
postData = json.loads(request.raw_post_data)
rectangles = postData['rectangles']
# bboxArea = the union of all the bounding boxes on the route
bboxArea = None
for i in xrange(0,len(rectangles),4):
# Make a Rectangle out of the width/height of a bounding box
# longitude = x, latitude = y
theRect = Rectangle( abs(rectangles[i] - rectangles[i+2]),
abs(rectangles[i+1] - rectangles[i+3]) )
theRect.shift( rectangles[i+2], rectangles[i+3] )
bboxArea = bboxArea + theRect if bboxArea else theRect
bboxArea = [list(t) for t in bboxArea.contour( 0 )]
# TODO: pull objects out of database using bboxArea
points = { "points" : [p.position for p in Point.objects( position__within_polygon=bboxArea )] }
return HttpResponse( json.dumps(points), mimetype="application/json" )
def operationsExample():
# create a circle with a hole
p1 = Circle(1.0) - Circle(0.5)
# create a square
p2 = Rectangle(0.7)
# shift the square a little bit
p2.shift(0.25, 0.35)
plist = [p1, p2]
# addition, the same as logical OR (p1 | p2)
p = p1 + p2
p.shift(2.5, 0.0)
plist.append(p)
# subtraction
p = p1 - p2
p.shift(5.0, 0.0)
plist.append(p)
# subtraction
p = p2 - p1
p.shift(7.5, 0.0)
plist.append(p)
# logical AND
p = p2 & p1
p.shift(10.0, 0.0)
plist.append(p)
# logical XOR
p = p2 ^ p1
p.shift(12.5, 0.0)
plist.append(p)
# draw the results of the operations
writeSVG('Operations.svg', plist, width=800)
def operationsExample():
# create a circle with a hole
p1 = Circle(1.0) - Circle(0.5)
# create a square
p2 = Rectangle(0.7)
# shift the square a little bit
p2.shift(0.25, 0.35)
plist = [p1, p2]
# addition, the same as logical OR (p1 | p2)
p = p1 + p2
p.shift(2.5, 0.0)
plist.append(p)
# subtraction
p = p1 - p2
p.shift(5.0, 0.0)
plist.append(p)
# subtraction
p = p2 - p1
p.shift(7.5, 0.0)
plist.append(p)
# logical AND
p = p2 & p1
p.shift(10.0, 0.0)
plist.append(p)
# logical XOR
p = p2 ^ p1
p.shift(12.5, 0.0)
plist.append(p)
# draw the results of the operations
writeSVG('Operations.svg', plist, width=800)
from Polygon import *
from Polygon.Shapes import Circle, Star, Rectangle
from Polygon.IO import writeSVG
p = Circle(5.5, points=128)
p -= Circle(4.4, points=128)
p += Circle(3.3, points=128)
p -= Circle(2.2, points=128)
p += Star(1.1)
l = Rectangle(4, 14)
l.shift(-4.3, -10.5)
r = p ^ l
writeSVG('logo.svg', [r], width=800)
from Polygon import *
from Polygon.Shapes import Circle, Star, Rectangle
from Polygon.IO import writeSVG
p = Circle(5.5, points=128)
p -= Circle(4.4, points=128)
p += Circle(3.3, points=128)
p -= Circle(2.2, points=128)
p += Star(1.1)
l = Rectangle(4, 14)
l.shift(-4.3, -10.5)
r = p ^ l
writeSVG('logo.svg', [r], width=800)
