Esempio n. 1
0
    def test_format_time(self):

        GPSTime.setReadFormat("4Y-2M-2D 2h:2m:2s")
        madate = '2018-01-31 13:21:46'
        t = GPSTime.readTimestamp(madate)
        self.assertEqual("31/01/2018 13:21:46", str(t))

        GPSTime.setReadFormat("4Y-2M-2DT2h:2m:2s1Z")
        madate = '2018-01-31T11:17:46Z'
        t = GPSTime.readTimestamp(madate)
        self.assertEqual("31/01/2018 11:17:46", str(t))

        d = GPSTime.readUnixTime(1550941038.0)
        self.assertIsInstance(d, GPSTime)
        self.assertEqual('23/02/2019 16:57:18', str(d))
        self.assertEqual(23, d.day)
        self.assertEqual(2, d.month)
        self.assertEqual(2019, d.year)
        self.assertEqual(16, d.hour)
        self.assertEqual(57, d.min)
        self.assertEqual(18, d.sec)
Esempio n. 2
0
def intersection(track1, track2, withTime=-1):

    if not (track1.getSRID() == track2.getSRID()):
        print("Error: tracks must have same SRID to compute intersections")
        exit()

    I = Track()
    TMP_I = []
    TMP_J = []
    TMP_TPS2 = []

    for i in range(len(track1) - 1):

        x11 = track1[i].position.getX()
        y11 = track1[i].position.getY()
        x12 = track1[i + 1].position.getX()
        y12 = track1[i + 1].position.getY()
        seg1 = [x11, y11, x12, y12]

        for j in range(len(track2) - 1):

            x21 = track2[j].position.getX()
            y21 = track2[j].position.getY()
            x22 = track2[j + 1].position.getX()
            y22 = track2[j + 1].position.getY()
            seg2 = [x21, y21, x22, y22]

            if isSegmentIntersects(seg1, seg2):
                P1 = cartesienne(seg1)
                P2 = cartesienne(seg2)
                A = np.zeros((2, 2))
                B = np.zeros((2, 1))
                A[0, 0] = P1[0]
                A[0, 1] = P1[1]
                B[0, 0] = -P1[2]
                A[1, 0] = P2[0]
                A[1, 1] = P2[1]
                B[1, 0] = -P2[2]

                X = np.linalg.solve(A, B)

                x = X[0, 0]
                y = X[1, 0]
                p = Utils.makeCoords(x, y, 0, track1.getSRID())

                # Linear interpolation on track 1
                w1 = p.distance2DTo(track1[i].position)
                w2 = p.distance2DTo(track1[i + 1].position)
                p.setZ((w1 * track1[i + 1].position.getZ() +
                        w2 * track1[i].position.getZ()) / (w1 + w2))
                t1 = track1[i].timestamp.toAbsTime()
                t2 = track1[i].timestamp.toAbsTime()
                ta = (w1 * t2 + w2 * t1) / (w1 + w2)

                # Linear interpolation on track 2
                w1 = p.distance2DTo(track2[j].position)
                w2 = p.distance2DTo(track2[j + 1].position)
                t1 = track2[i].timestamp.toAbsTime()
                t2 = track2[i].timestamp.toAbsTime()
                tb = (w1 * t2 + w2 * t1) / (w1 + w2)

                # Add intersection
                if (withTime == -1) or (abs(tb - ta) < withTime):
                    I.addObs(Obs(p, GPSTime.readUnixTime(ta)))
                    TMP_TPS2.append(GPSTime.readUnixTime(tb))
                    TMP_I.append(i)
                    TMP_J.append(j)

    if I.size() > 0:
        I.createAnalyticalFeature("timestamp2", TMP_TPS2)
        I.createAnalyticalFeature("id1", TMP_I)
        I.createAnalyticalFeature("id2", TMP_J)

    return I