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Issue6422 add autorange method to timeit.Timer
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@ -100,8 +100,8 @@ The module defines three convenience functions and a public class:
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can be controlled by passing a namespace to *globals*.
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To measure the execution time of the first statement, use the :meth:`.timeit`
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method. The :meth:`.repeat` method is a convenience to call :meth:`.timeit`
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multiple times and return a list of results.
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method. The :meth:`.repeat` and :meth:`.autorange` methods are convenience
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methods to call :meth:`.timeit` multiple times.
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The execution time of *setup* is excluded from the overall timed execution run.
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@ -134,6 +134,21 @@ The module defines three convenience functions and a public class:
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timeit.Timer('for i in range(10): oct(i)', 'gc.enable()').timeit()
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.. method:: Timer.autorange(callback=None)
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Automatically determine how many times to call :meth:`.timeit`.
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This is a convenience function that calls :meth:`.timeit` repeatedly
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so that the total time >= 0.2 second, returning the eventual
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(number of loops, time taken for that number of loops). It calls
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:meth:`.timeit` with *number* set to successive powers of ten (10,
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100, 1000, ...) up to a maximum of one billion, until the time taken
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is at least 0.2 second, or the maximum is reached.
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If *callback* is given and is not *None*, it will be called after
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each trial with two arguments: ``callback(number, time_taken)``.
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.. method:: Timer.repeat(repeat=3, number=1000000)
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Call :meth:`.timeit` a few times.
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@ -354,6 +354,28 @@ class TestTimeit(unittest.TestCase):
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s = self.run_main(switches=['-n1', '1/0'])
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self.assert_exc_string(error_stringio.getvalue(), 'ZeroDivisionError')
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def autorange(self, callback=None):
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timer = FakeTimer(seconds_per_increment=0.001)
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t = timeit.Timer(stmt=self.fake_stmt, setup=self.fake_setup, timer=timer)
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return t.autorange(callback)
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def test_autorange(self):
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num_loops, time_taken = self.autorange()
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self.assertEqual(num_loops, 1000)
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self.assertEqual(time_taken, 1.0)
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def test_autorange_with_callback(self):
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def callback(a, b):
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print("{} {:.3f}".format(a, b))
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with captured_stdout() as s:
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num_loops, time_taken = self.autorange(callback)
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self.assertEqual(num_loops, 1000)
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self.assertEqual(time_taken, 1.0)
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expected = ('10 0.010\n'
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'100 0.100\n'
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'1000 1.000\n')
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self.assertEqual(s.getvalue(), expected)
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if __name__ == '__main__':
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unittest.main()
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@ -207,6 +207,26 @@ class Timer:
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r.append(t)
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return r
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def autorange(self, callback=None):
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"""Return the number of loops so that total time >= 0.2.
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Calls the timeit method with *number* set to successive powers of
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ten (10, 100, 1000, ...) up to a maximum of one billion, until
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the time taken is at least 0.2 second, or the maximum is reached.
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Returns ``(number, time_taken)``.
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If *callback* is given and is not None, it will be called after
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each trial with two arguments: ``callback(number, time_taken)``.
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"""
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for i in range(1, 10):
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number = 10**i
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time_taken = self.timeit(number)
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if callback:
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callback(number, time_taken)
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if time_taken >= 0.2:
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break
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return (number, time_taken)
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def timeit(stmt="pass", setup="pass", timer=default_timer,
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number=default_number, globals=None):
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"""Convenience function to create Timer object and call timeit method."""
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@ -295,17 +315,16 @@ def main(args=None, *, _wrap_timer=None):
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t = Timer(stmt, setup, timer)
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if number == 0:
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# determine number so that 0.2 <= total time < 2.0
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for i in range(1, 10):
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number = 10**i
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try:
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x = t.timeit(number)
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except:
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t.print_exc()
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return 1
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if verbose:
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print("%d loops -> %.*g secs" % (number, precision, x))
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if x >= 0.2:
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break
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callback = None
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if verbose:
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def callback(number, time_taken):
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msg = "{num} loops -> {secs:.{prec}g} secs"
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print(msg.format(num=number, secs=time_taken, prec=precision))
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try:
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number, _ = t.autorange(callback)
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except:
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t.print_exc()
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return 1
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try:
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r = t.repeat(repeat, number)
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except:
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