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What is the best analog of MATLAB tic and toc functions ( http://www.mathworks.com/help/techdoc/ref/tic.html) in Python?

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If you really want the direct equivalent, just call tic = time.time() and toc = time.time(), then print toc-tic, 'sec Elapsed' As folks have said below, though, timeit is more robust. –  Joe Kington May 1 '11 at 16:53
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4 Answers

up vote 26 down vote accepted

Apart from timeit which ThiefMaster mentioned, a simple way to do it is just (after importing time):

t = time.time()
# do stuff
elapsed = time.time() - t

I have a helper class I like to use:

class Timer(object):
    def __init__(self, name=None):
        self.name = name

    def __enter__(self):
        self.tstart = time.time()

    def __exit__(self, type, value, traceback):
        if self.name:
            print '[%s]' % self.name,
        print 'Elapsed: %s' % (time.time() - self.tstart)

It can be used as a context manager:

with Timer('foo_stuff'):
   # do some foo
   # do some stuff

Sometimes I find this technique more convenient than timeit - it all depends on what you want to measure.

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Thanks, the helper class like yours is what I need =) –  Alex May 1 '11 at 17:00
Do not use this kind of technique ever. If timeit (docs.python.org/library/timeit.html) is not sufficient for you, then harness your code execution with some decent profiler (docs.python.org/library/profile.html). Even if the tic, toc paradigm is common in Matlab, please don't try to duplicate that kind of stupidity in python. There exists really better tools to do such evaluations much reasonable way in python. Thanks –  eat May 1 '11 at 21:49
@eat: I respectfully disagree. People have been using the unix time command to measure runtimes of programs for ever, and this method replicates this inside Python code. I see nothing wrong with it, as long as it's the right tool for the job. timeit isn't always that, and a profiler is a much more heavyweight solution for most needs –  Eli Bendersky May 2 '11 at 3:27
For the last line I would suggest print 'Elapsed: %.2f seconds % (time.time() - self.tstart)'. It is hard to understand without the %.2f. Thanks for great idea. –  Can Kavaklıoğlu Jun 19 '13 at 15:01
This looks very convenient at first glance, but in practice requires one to indent the code block one wants to time, which can be quite inconvenient depending on the length of the code block and the editor of choice. Still an elegant solution, which behaves correctly in the case of nested use. –  Stefan Nov 15 '13 at 8:44
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The absolute best analog of tic and toc would be to simply define them in python.

def tic():
    #Homemade version of matlab tic and toc functions
    import time
    global startTime_for_tictoc
    startTime_for_tictoc = time.time()

def toc():
    import time
    if 'startTime_for_tictoc' in globals():
        print "Elapsed time is " + str(time.time() - startTime_for_tictoc) + " seconds."
        print "Toc: start time not set"

Then you can use them as:

# do stuff
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This will not behave correctly in the case of nested use of tic and toc, which Matlab supports. A little more sophistication would be required. –  Stefan Nov 15 '13 at 8:37
I have implemented similar functions in my own code when I needed some basic timing. I would however remove the import time outside of both functions, since it can take potentially quite some time. –  Bas Swinckels Nov 15 '13 at 17:19
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Have a look at the timeit module. It's not really equivalent but if the code you want to time is inside a function you can easily use it.

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Yes, timeit is best for benchmarks. It doesn't even have to be a single function, you can pass abritarily complex statements. –  delnan May 1 '11 at 16:49
Well, passing code that is not an extremely simple function call as a string is very ugly. –  ThiefMaster May 1 '11 at 16:50
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Usually, IPython's %time, %timeit, %prun and %lprun (if one has line_profiler installed) satisfy my profiling needs quite well. However, a use case for tic-toc-like functionality arose when I tried to profile calculations that were interactively driven, i.e., by the user's mouse motion in a GUI. I felt like spamming tics and tocs in the sources while testing interactively would be the fastest way to reveal the bottlenecks. I went with Eli Bendersky's Timer class, but wasn't fully happy, since it required me to change the indentation of my code, which can be inconvenient in some editors and confuses the version control system. Moreover, there may be the need to measure the time between points in different functions, which wouldn't work with the with statement. After trying lots of Python cleverness, here is the simple solution that I found worked best:

from time import time
_tstart_stack = []

def tic():

def toc(fmt="Elapsed: %s s"):
    print fmt % (time() - _tstart_stack.pop())

Since this works by pushing the starting times on a stack, it will work correctly for multiple levels of tics and tocs. It also allows one to change the format string of the toc statement to display additional information, which I liked about Eli's Timer class.

For some reason I got concerned with the overhead of a pure Python implementation, so I tested a C extension module as well:

#include <Python.h>
#include <mach/mach_time.h>
#define MAXDEPTH 100

uint64_t start[MAXDEPTH];
int lvl=0;

static PyObject* tic(PyObject *self, PyObject *args) {
    start[lvl++] = mach_absolute_time();

static PyObject* toc(PyObject *self, PyObject *args) {
return PyFloat_FromDouble(
        (double)(mach_absolute_time() - start[--lvl]) / 1000000000L);

static PyObject* res(PyObject *self, PyObject *args) {
    return tic(NULL, NULL), toc(NULL, NULL);

static PyMethodDef methods[] = {
    {"tic", tic, METH_NOARGS, "Start timer"},
    {"toc", toc, METH_NOARGS, "Stop timer"},
    {"res", res, METH_NOARGS, "Test timer resolution"},
    {NULL, NULL, 0, NULL}

inittictoc(void) {
    Py_InitModule("tictoc", methods);

This is for MacOSX, and I have omitted code to check if lvl is out of bounds for brevity. While tictoc.res() yields a resolution of about 50 nanoseconds on my system, I found that the jitter of measuring any Python statement is easily in the microsecond range (and much more when used from IPython). At this point, the overhead of the Python implementation becomes negligible, so that it can be used with the same confidence as the C implementation.

I found that the usefulness of the tic-toc-approach is practically limited to code blocks that take more than 10 microseconds to execute. Below that, averaging strategies like in timeit are required to get a faithful measurement.

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