Mercurial Hosting > traffic-intelligence
view python/moving.py @ 14:e7bbe8465591
homography and other utils
| author | Nicolas Saunier <nico@confins.net> |
|---|---|
| date | Sat, 14 Nov 2009 19:02:46 -0500 |
| parents | 30559b2cf7a9 |
| children | 9d6831cfe675 |
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#! /usr/bin/env python '''Libraries for moving objects, trajectories...''' import utils; from shapely.geometry import Polygon __metaclass__ = type #class MovingObject: class TimeInterval: '''Temporal interval''' def __init__(self, first=0, last=-1): self.first=first self.last=last def __str__(self): return '%d %d'%(self.first, self.last) def empty(self): ''' >>> TimeInterval().empty() True >>> TimeInterval(0,1).empty() False ''' return self.first > self.last def length(self): '''Returns the length of the interval >>> TimeInterval(0,1).length() 2 >>> TimeInterval(10,8).length() 0 ''' return max(0,self.last-self.first+1) def getList(self): return [self.first, self.last] def contains(self, instant): return (self.first<=instant and self.last>=instant) def inside(self, interval2): 'indicates if the temporal interval of self is comprised in interval2' return (self.first >= interval2.first) and (self.last <= interval2.last) def union(self, interval2): '''Largest interval comprising self and interval2''' return TimeInterval(min(self.first, interval2.first), max(self.last, interval2.last)) def intersection(self, interval2): '''Largest interval comprising self and interval2''' return TimeInterval(max(self.first, interval2.first), min(self.last, interval2.last)) # class BoundingPolygon: # '''Class for a polygon bounding a set of points # with methods to create intersection, unions... # ''' # We will use the polygon class of Shapely class STObject: '''Class for spatio-temporal object i.e. with temporal and spatial existence (time interval and bounding polygon for positions (e.g. rectangle)). It does not mean that the object is defined for all time instants within the time interval''' def __init__(self, num = None, timeInterval = None, boundingPolygon = None): self.num = num self.timeInterval = timeInterval self.boundingPolygon = boundingPolygon def empty(self): return self.timeInterval.empty() or not self.boudingPolygon def getFirstInstant(self): return self.timeInterval.first() def getLastInstant(self): return self.timeInterval.first() class Trajectory: '''Class for trajectories i.e. a temporal sequence of positions''' def __init__(self, positions = None): self.positions = positions def addPosition(self, point): if not self.positions: self.positions = [[point[0]],[point[1]]] else: self.positions[0].append(point[0]) self.positions[1].append(point[1]) def draw(self): from matplotlib.pylab import plot plot(self.positions[0], self.positions[1]) def xBounds(self): # look for function that does min and max in one pass return [min(self.positions[0]), max(self.positions[0])] def yBounds(self): # look for function that does min and max in one pass return [min(self.positions[1]), max(self.positions[1])] class MovingObject(STObject): '''Class for moving objects i.e. with a trajectory and a geometry (volume) and a type (e.g. road user) ''' def __init__(self, num = None, timeInterval = None, trajectory = None, geometry = None, type = None): STObject.__init__(self, num, timeInterval) self.trajectory = trajectory self.geometry = geometry self.type = type # compute bounding polygon from trajectory def draw(self): self.positions.draw() # def computeVelocities(self): # need for a class representing the indicators, their units, how to print them in graphs... class TemporalIndicator: '''Class for temporal indicators i.e. indicators that take a value at specific instants''' pass if __name__ == "__main__": import doctest import unittest #suite = doctest.DocFileSuite('tests/ubc_utils.txt') suite = doctest.DocTestSuite() unittest.TextTestRunner().run(suite) #doctest.testmod() #doctest.testfile("example.txt")