Esempio n. 1
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    def getSpeedAfterShock(self, time = 20, startTime = 0, after = 25, absolute = False):
        "returns direction that the rat travelled 'after' points after shock"
        time = time * 60000
        start = self.findStart(startTime)

        shocks = [content[0] for content in self.data[start:] if
                  content[5] == 2 and content[1] < time]
        if shocks:
            selected = [shocks[0]]
            prev = shocks[0]
            for shock in shocks[1:]:
                if shock - prev > after:
                    selected.append(shock)
                prev = shock
        else:
            return "NA"

        angles = []
        cx, cy = self.centerX, self.centerY
        for shock in selected:
            x1, y1 = self.data[shock][self.indices]
            if len(self.data) <= shock + after:
                break
            x2, y2 = self.data[shock + after][self.indices]
            angle = ((degrees(atan2(x2 - cx, y2 - cy + 0.0000001)) -
                      degrees(atan2(x1 - cx, y1 - cy + 0.0000001)) + 180) % 360) - 180
            angles.append(angle)

        if absolute:
            return format(median([abs(angle) for angle in angles]), "0.2f")
        else:
            return format(median(angles), "0.2f")
Esempio n. 2
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 def test_median(self):
     self.assertEqual(funcs.median(3, 4, 5, 7, 9), [5],
                      "Median(3,4,5,7,9) should equal [5]")
     self.assertEqual(funcs.median(1), [1], "Median(1) should equal [1]")
     self.assertEqual(funcs.median(1, 1, 1, 1, 1, 1), [1, 1],
                      "Median(1,1,1,1,1,1) should return [1,1]")
     self.assertEqual(funcs.median(1, 2, 2, 3, 4, 4), [2, 3],
                      "Median(1,2,2,3,4,4) should return [2,3]")
Esempio n. 3
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    def getRotationSpeed(self, time=20, startTime=0, rows=25):
        "returns speed of arena rotation in degrees per minute"
        start = self.findStart(startTime)
        end = self.findStart(time)

        cx, cy = self.centerX, self.centerY
        speeds = []

        ax0, ay0 = self.data[start][7:9]
        t0, rx0, ry0 = self.data[start][1:4]
        for content in self.data[(start + rows):end:rows]:
            ax1, ay1 = content[7:9]
            t1, rx1, ry1 = content[1:4]

            arenaAngle = (
                (degrees(atan2(ax1 - cx, ay1 - cy + 0.0000001)) - degrees(
                    atan2(ax0 - cx, ay0 - cy + 0.0000001)) + 180) % 360) - 180
            roomAngle = (
                (degrees(atan2(rx1 - cx, ry1 - cy + 0.0000001)) - degrees(
                    atan2(rx0 - cx, ry0 - cy + 0.0000001)) + 180) % 360) - 180
            speeds.append(((roomAngle - arenaAngle) * 60000) / (t1 - t0))

            ax0, ay0, t0, rx0, ry0 = ax1, ay1, t1, rx1, ry1

        if speeds:
            return format(median(speeds), "0.1f")
        else:
            return "NA"
Esempio n. 4
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    def getRotationSpeed(self, time = 20, startTime = 0, rows = 25):
        "returns speed of arena rotation in degrees per minute"
        start = self.findStart(startTime)
        end = self.findStart(time)

        cx, cy = self.centerX, self.centerY
        speeds = []

        ax0, ay0 = self.data[start][7:9]
        t0, rx0, ry0 = self.data[start][1:4]        
        for content in self.data[(start+rows):end:rows]:
            ax1, ay1 = content[7:9]
            t1, rx1, ry1 = content[1:4]
        
            arenaAngle = ((degrees(atan2(ax1 - cx, ay1 - cy + 0.0000001)) -
                           degrees(atan2(ax0 - cx, ay0 - cy + 0.0000001)) + 180) % 360) - 180
            roomAngle = ((degrees(atan2(rx1 - cx, ry1 - cy + 0.0000001)) -
                          degrees(atan2(rx0 - cx, ry0 - cy + 0.0000001)) + 180) % 360) - 180
            speeds.append(((roomAngle - arenaAngle) * 60000) / (t1 - t0))

            ax0, ay0, t0, rx0, ry0 = ax1, ay1, t1, rx1, ry1

        if speeds:
            return format(median(speeds), "0.1f")
        else:
            return "NA"
Esempio n. 5
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    def getPeriodicity(self, time = 20, startTime = 0, minSpeed = 10, skip = 12, smooth = 2,
                       minTime = 9, forGraph = False):
        """returns periodicity, which is computed as a median time between two consecutive
            moments when a rat was mobile - times where its speed was higher than minSpeed
            ... additionally only periods more than minTime seconds are counted in a result
            ... this parameter is probably useful only in cases where a rat is moving and learned
                the task properly
            // minTime may be a list of values
        """
        time = time * 60000
        start = self.findStart(startTime)
                
        result = []
        
        if type(minTime) != list:
            minTime = [minTime]

        moves = []
            
        for minT in minTime:
            t0 = startTime * 60000
            x0, y0 = self.data[start][self.indices]
            minT *= 1000
            speeds = deque()
        
            prev = False
            periods = []
            for content in self.data[start+skip::skip]:
                if content[1] > time:
                    break
                x1, y1 = content[self.indices]
                t1 = content[1]
                speeds.append((sqrt(((x1 - x0)**2 + (y1 - y0)**2)) / self.trackerResolution) /
                              ((t1 - t0) / 1000))

                if len(speeds) == smooth:
                    if sum(speeds) / len(speeds) > minSpeed:
                        if t0 - prev > minT and prev:
                            periods.append(t0 - prev)
                            if forGraph:
                                moves.append((prev, t0))
                        prev = t1
                    speeds.popleft()

                x0, y0, t0 = x1, y1, t1

            if len(periods) > 1:
                periodicity = format((median(periods) / 1000), "0.2f")
            else:
                periodicity = "NA"

            result.append(periodicity)

            if forGraph:
                return moves

        return "|".join(map(str, result))
Esempio n. 6
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    def getSpeedAfterShock(self,
                           time=20,
                           startTime=0,
                           after=25,
                           absolute=False):
        "returns direction that the rat travelled 'after' points after shock"
        time = time * 60000
        start = self.findStart(startTime)

        shocks = [
            content[0] for content in self.data[start:]
            if content[self.shockIndex] == 2 and content[1] < time
        ]
        if shocks:
            selected = [shocks[0]]
            prev = shocks[0]
            for shock in shocks[1:]:
                if shock - prev > after:
                    selected.append(shock)
                prev = shock
        else:
            return "NA"

        angles = []
        cx, cy = self.centerX, self.centerY
        for shock in selected:
            x1, y1 = self.data[shock][self.indices]
            if len(self.data) <= shock + after:
                break
            x2, y2 = self.data[shock + after][self.indices]
            angle = ((degrees(atan2(x2 - cx, y2 - cy + 0.0000001)) - degrees(
                atan2(x1 - cx, y1 - cy + 0.0000001)) + 180) % 360) - 180
            angles.append(angle)

        if absolute:
            return format(median([abs(angle) for angle in angles]), "0.2f")
        else:
            return format(median(angles), "0.2f")
Esempio n. 7
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    def testMedian(self, mock_connect):
        # mock_pymysql.return_value = mock.Mock()
        # mock_pymysql.return_value.cursor.return_value = mock.Mock()
        mock_fetchall.return_value = [{
            'kf': 1
        }, {
            'kf': 2
        }, {
            'kf': 3
        }, {
            'kf': 4
        }, {
            'kf': 5
        }]

        self.assertEqual(3, funcs.median('ri_cities', 'kf'))
Esempio n. 8
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    def getSpeedAfterShock(self, time = 20, startTime = 0, after = 25):
        "returns median speed that the rat travelled 'after' points after shock"
        time = time * 60000
        start = self.findStart(startTime)

        shocks = [content[0] for content in self.data[start:] if
                  content[5] == 2 and content[1] < time]
        if shocks:
            selected = [shocks[0]]
            prev = shocks[0]
            for shock in shocks[1:]:
                if shock - prev > after:
                    selected.append(shock)
                prev = shock
        else:
            return "NA"

        speeds = []
        for shock in selected:
            if len(self.data) <= shock + after:
                break
            speeds.append(self._computeSpeed(self.data[shock], self.data[shock + after]))

        return format(median(speeds), "0.2f")
Esempio n. 9
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    def getPeriodicity(self,
                       time=20,
                       startTime=0,
                       minSpeed=10,
                       skip=12,
                       smooth=2,
                       minTime=9,
                       forGraph=False):
        """returns periodicity, which is computed as a median time between two consecutive
            moments when a rat was mobile - times where its speed was higher than minSpeed
            ... additionally only periods more than minTime seconds are counted in a result
            ... this parameter is probably useful only in cases where a rat is moving and learned
                the task properly
            // minTime may be a list of values
        """
        time = time * 60000
        start = self.findStart(startTime)

        result = []

        if type(minTime) != list:
            minTime = [minTime]

        moves = []

        for minT in minTime:
            t0 = startTime * 60000
            x0, y0 = self.data[start][self.indices]
            minT *= 1000
            speeds = deque()

            prev = False
            periods = []
            for content in self.data[start + skip::skip]:
                if content[1] > time:
                    break
                x1, y1 = content[self.indices]
                t1 = content[1]
                speeds.append((sqrt(
                    ((x1 - x0)**2 + (y1 - y0)**2)) / self.trackerResolution) /
                              ((t1 - t0) / 1000))

                if len(speeds) == smooth:
                    if sum(speeds) / len(speeds) > minSpeed:
                        if t0 - prev > minT and prev:
                            periods.append(t0 - prev)
                            if forGraph:
                                moves.append((prev, t0))
                        prev = t1
                    speeds.popleft()

                x0, y0, t0 = x1, y1, t1

            if len(periods) > 1:
                periodicity = format((median(periods) / 1000), "0.2f")
            else:
                periodicity = "NA"

            result.append(periodicity)

            if forGraph:
                return moves

        return "|".join(map(str, result))
Esempio n. 10
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 def test_median_subgoal(self):
     self.assertEqual(funcs.median(1, 2, 3, 4, 5, 6), [3, 4])