Is there a way to create a double progress bar in Python? I want to run two loops inside each other. For each loop I want to have a progress bar. My program looks like:

import time
for i1 in range(5):
    for i2 in range(300):
        # do something, e.g. sleep
        # update upper progress bar
    # update lower progress bar

The output somewhere in the middle should look something like

50%|############################                                  |ETA: 0:00:02
80%|##################################################            |ETA: 0:00:04

The already existing really cool progressbar module doesn't seem to support that.


12 Answers 12


Use the nested progress bars feature of tqdm, an extremely low overhead, very customisable progress bar library:

$ pip install -U tqdm


from tqdm import tqdm
# from tqdm.auto import tqdm  # notebook compatible
import time
for i1 in tqdm(range(5)):
    for i2 in tqdm(range(300), leave=False):
        # do something, e.g. sleep

(The leave=False is optional - needed to discard the nested bars upon completion.)

You can also use from tqdm import trange and then replace tqdm(range(...)) with trange(...). You can also get it working in a notebook.

Alternatively if you want just one bar to monitor everything, you can use tqdm's version of itertools.product:

from tqdm.contrib import itertools
import time
for i1, i2 in itertools.product(range(5), range(300)):
    # do something, e.g. sleep
  • 88
    It doesn't work. Either because of a bug, either it's not intended to work like that, but it keep adding lines to console.
    – asu
    Commented Mar 8, 2020 at 19:33
  • 15
    I agree with @asu, it doesn't work like OP describes in my console, it just makes loads and loads of new lines
    – Shefeto
    Commented Mar 22, 2020 at 19:07
  • 5
    Yes see github.com/tqdm/tqdm/#faq-and-known-issues - essentially if your console doesn't support it then none of the other answers would work either - the only options are to ask maintainers of your console to support carriage return, or to use a different console.
    – casper.dcl
    Commented Jul 19, 2020 at 22:04
  • 15
    If you're using Jupyter notebooks, you need to use the notebook submodule: from tqdm.notebook import tqdm Commented Aug 27, 2020 at 17:34
  • 3
    @asu to use this in a notebook you need to uncomment the tqdm.auto line. Also modern consoles do support editing the previous line.
    – casper.dcl
    Commented Feb 17, 2021 at 21:24

I basically just want to add to the answer of @casper.dcl. In the slightly different case, where you have two nested for loops and want just a SINGLE progress bar you can do the following.

from tqdm import tqdm
import time
n = 5
m = 300
with tqdm(total=n * m) as pbar:
    for i1 in tqdm(range(n)):
        for i2 in tqdm(range(m)):
            # do something, e.g. sleep

I know that was not the question, but it might be still helpful for some folks.

  • 1
    Doesn't work for me (( line: with tqdm(total=1000) as pbar: TypeError: 'module' object is not callable
    – Alex M
    Commented Apr 28, 2022 at 16:39
  • 1
    I forgot to add "from tqdm import tqdm" in the beginning. Thank you for the answer! this is what i needed
    – Alex M
    Commented Apr 28, 2022 at 16:41
  • Nice idea! Added tqdm.contrib.itertools.product to my answer :)
    – casper.dcl
    Commented Jun 11, 2022 at 17:57
  • 3
    For me, to achieve just one progressbar I had to remove the call to tqdm in the loops. just leave for i1 in range(n) for the loops.
    – Joao Vital
    Commented Dec 20, 2022 at 15:55

Once here was an answer by @yurenchen (which was deleted), that advertised rich library, it has progress bar routines described here in docs.

Note. See also my other two answers in this thread about progress bar - using enlighten lib and using ASCII art.

Rich library can be installed by python -m pip install rich.

Minimal example that shows stack of three progress bars of different colors is:

Try it online!

import time

from rich.progress import Progress

with Progress() as progress:

    task1 = progress.add_task("[red]Downloading...", total=1000)
    task2 = progress.add_task("[green]Processing...", total=1000)
    task3 = progress.add_task("[cyan]Cooking...", total=1000)

    while not progress.finished:
        progress.update(task1, advance=0.5)
        progress.update(task2, advance=0.3)
        progress.update(task3, advance=0.9)

which produces following colorful console output (+ aciinema link):

enter image description here


It would require you to move the cursor position. I have written you a hacky thing to do it.

This script relies on the fact that the progressbar module assumes that you are on a fresh line to draw the progress bar. By simply moving the cursor up (using the escape code for "move cursor 1 row up"), and down (just using a newline. I could also use an escape code, but newline is easier and faster), one can maintain multiple progress bars.

import progressbar, time, sys

def up():
    # My terminal breaks if we don't flush after the escape-code

def down():
    # I could use '\x1b[1B' here, but newline is faster and easier

# Total bar is at the bottom. Move down to draw it
total = progressbar.ProgressBar(maxval=50)

for i in range(1,51):
    # Move back up to prepare for sub-bar

    # I make a new sub-bar for every iteration, thinking it could be things
    # like "File progress", with total being total file progress.
    sub = progressbar.ProgressBar(maxval=50)
    for y in range(51):

    # Update total - The sub-bar printed a newline on finish, so we already
    # have focus on it

This is of course a bit hacky, but it gets the job done. I hope that it is useful.

  • Thanks, this almost works perfectly! I just had to insert a sub.finish() and total.finish() after the loops, otherwise it would not go "down". Could you insert that in your code?
    – Thomas
    Commented Apr 17, 2014 at 21:05
  • I added it. Odd, though, my local version of progressbar did that itself when you reached the max value. Maybe a difference in version? Oh well, you got it working, and that's what matters.
    – Kenny
    Commented Apr 17, 2014 at 21:34
  • Hmm, this didn't work for me, but I'm using with as statement. Maybe doing on the conventional way, using start() and finish(), it could work
    – aaamourao
    Commented Apr 10, 2016 at 20:03
  • 1
    Anyone can add a recipe for the same in jupyter notebook? This up/down hack does not work there, kist produces new copies of the bars. Commented Sep 8, 2017 at 18:18

Use enlighten:

import time
import enlighten

manager = enlighten.get_manager()
ticks = manager.counter(total=100, desc="Ticks", unit="ticks", color="red")
tocks = manager.counter(total=20, desc="Tocks", unit="tocks", color="blue")

for num in range(100):
    time.sleep(0.1)  # Simulate work
    print("The quick brown fox jumps over the lazy dog. {}".format(num))
    if not num % 5:


enter image description here


Inspired by this answer, I also tried enlighten python library and wrote my simple helper function pit() for wrapping iterators inside for-loop (top of code) and provided example of usage (bottom of code) plus live terminal-screencast.

Note. See also my other two answers in this thread about progress bar - using rich lib and using ASCII art.

Main difference to linked answer is that pit() allows to be used inside for-loop to wrap iterator, instead of using manual .update() method, this iterator-wrapping functionality is lacking in englighten, that's why I decided to implement my own.

As one can see in Accepted answer other famous progress bar libraries like tqdm already have this functionality of wrapping iterators in for-loop and also multiple progress bars in nested loops.

Works in color both in Linux and Windows.

Try it online!

# Helper Progress Iterator
# Needs: python -m pip install enlighten

def pit(it, *pargs, **nargs):
    import enlighten
    global __pit_man__
    except NameError:
        __pit_man__ = enlighten.get_manager()
    man = __pit_man__
        it_len = len(it)
        it_len = None
        ctr = None
        for i, e in enumerate(it):
            if i == 0:
                ctr = man.counter(*pargs, **{**dict(leave = False, total = it_len), **nargs})
            yield e
        if ctr is not None:

####### Usage Example ########

import time

def Generator(n):
    for i in range(n):
        yield i

for i in pit(range(2), color = 'red'):
    for j in pit(range(3), color = 'green'):
        for k in pit(Generator(4), total = 4, color = 'blue'):
            for l in pit(Generator(5)):
                print(i, j, k, l)

Output (+ ascii-video):


  • What should be caught from len(it)?
    – Gulzar
    Commented Jan 5, 2023 at 14:49
  • Also, doesn't work (at least not with remote interpreter)
    – Gulzar
    Commented Jan 5, 2023 at 15:28
  • @Gulzar If you need length of my iterator then use list, do len(list(it)), e.g. len(list(pit(Generator(5)))) will give 5. It doesn't throw anything, but this iterator can't be used second time any more, you have to create new same iterator. In this sence my iterator is not meant to return its length, it is only meant to be iterated in for loop. Just now I clicked my link Try it online! located before code, it showed same thing as my video above, just click Run then in 15 seconds click Stop and Run again and wait.
    – Arty
    Commented Jan 6, 2023 at 3:51
  • You do try:... except on len(it). If it doesn't throw anything, then why do it?
    – Gulzar
    Commented Jan 6, 2023 at 14:10
  • @Gulzar OK, I thought that you have some trouble with my pit(). But instead you're asking why I catch exception inside my code of len(it). This happens because not all iterables may return length, some iterables are infinite or they don't know length in advance. For example if you have code def f(): yield from [1, 2, 3] print(len(f())), then this code throws exception TypeError when counting len, but if you use for loop for e in f(): pass then it works perfectly well.
    – Arty
    Commented Jan 6, 2023 at 14:35

A little late in the game, but here's an answer using nothing but tqdm

import re
from time import sleep
from tqdm import trange

class DescStr:
    def __init__(self):
        self._desc = ''

    def write(self, instr):
        self._desc += re.sub('\n|\x1b.*|\r', '', instr)

    def read(self):
        ret = self._desc
        self._desc = ''
        return ret

    def flush(self):

rng_a = trange(10)
desc = DescStr()
for x in rng_a:
    for y in trange(10, file=desc, desc="Y"):

which yields:

Y:  90%|######### | 9/10 [00:00<00:00,  9.55it/s]: 100%|##########| 10/10 [00:10<00:00,  
  • Can you explain this? Not the most readable of codes. What is "Y"? what does Desc stand for? When is write called? what is instr?
    – Gulzar
    Commented Jan 5, 2023 at 14:20
  • two loops, one for x, one for y. desc is an abbreviation for description
    – Mercury
    Commented Jan 5, 2023 at 23:07
  • this still doesn't explain how this works
    – Gulzar
    Commented Jan 6, 2023 at 14:08

Here is a simple method that displays progress for an outer and an inner loop:

from tqdm import tqdm
from time import sleep

pbar = tqdm(range(10))
for i in pbar:
    for j in range(20):
        pbar.set_postfix({'inner': j})

It's not exactly what you asked for: The inner loop here is only displayed as incrementing numbers, while the progress bar shows the outer loop progress. But it's a useful visualization of nested loops.

Here is a snapshot:

 30%|███       | 3/10 [00:14<00:33,  4.77s/it, inner=12]

The "inner" counter increments constantly as the progress bar for the outer loop advances slowly.


You can combine this solution with dominecf's solution. The following uses tqdm for the outer loop and integrates an inner loop using dominecf's function (with minor modifications):

import tqdm
import time

def myprogress(curr, N, width=10, bars = u'▉▊▋▌▍▎▏ '[::-1],
               full='█', empty=' '): 
    p = curr / N 
    nfull = int(p * width)
    return "{:>3.0%} |{}{}{}| {:>2}/{}"\
        .format(p, full * nfull,
                bars[int(len(bars) * ((p * width) % 1))],
                empty * (width - nfull - 1),
                curr, N)

pbar = tqdm.tqdm(range(10),
for i in pbar:
    for j in range(20):
        pbar.set_postfix_str(myprogress(j, 20))

Here is a snapshot:

 30%|███       | 3/10 [00:14<00:34,  4.90s/it, 60% |██████    | 12/20]                                                                                                                                      

Inspired by simplicity of answer of @dominecf, just for fun I implemented a helper wrapper function pbiter() that can be used in loops to show progress for any iterables. pbiter() uses @dominecf's implementation of myprogress().

Note. See also my other two answers in this thread about progress bar - using enlighten and using rich lib.

Don't judge this answer too much, it is only for hackery fun of implementing progress from scratch in pure Python, this answer is not meant to be used in any production environment, use tqdm or enlighten modules in real application for doing progress.

See my other answer to same Question, that answer shows how to use enlighten module for progress.

pbiter() from this answer can be very simply used with any iterables in nested loops like following:

for a in pbiter(range(12)):
    for b in pbiter(generator_nums(13)):
        for c in pbiter(generator_nums(7), total = 7):

Progress bar total length is figured out either by len(it) if it is available for iterable (e.g. for range(start, stop, step) it is always available), or by providing total = ... param, otherwise progress decays exponentially with multiplier 0.1 (which shows a nice approximation). In three example nested loops above second loop has this exponential behaviour.

Full code below. See ascii-video located after code.

Try it online!

def myprogress(current, whole=1, n=30, bars=u'▕▏▎▍▌▋▊▉', full='▉', empty='▕'): 
    """ current and whole can be an element of a list being iterated, or just two numbers """
    p = (whole.index(current))/len(whole)+1e-9 if type(whole)==list else current/whole+1e-9 
    return f"{full*int(p*n)}{bars[int(len(bars)*((p*n)%1))]}{empty*int((1-p)*n)} {p*100:>6.2f}%" 

def pbiter(it, *, total = None, width = 36, _cfg = {'idx': -1, 'pbs': {}, 'lline': 0}):
        total = total or len(it)
        total = None
    _cfg['idx'] += 1
    idx = _cfg['idx']
    pbs = _cfg['pbs']
    pbs[idx] = [0, total, 0]
    def Show():
        line2 = ' '.join([
            myprogress(e[1][0], max(e[1][0], e[1][1] or
                max(1, e[1][0]) / max(.1, e[1][2])), width // len(pbs))
            for e in sorted(pbs.items(), key = lambda e: e[0])
        line = line2 + ' ' * (max(0, _cfg['lline'] - len(line2)) + 0)
        print(line, end = '\r', flush = True)
        _cfg['lline'] = len(line2)
        for e in it:
            yield e
            pbs[idx][0] += 1
            pbs[idx][2] += (1. - pbs[idx][2]) * .1
        pbs[idx][2] = 1.
        del pbs[idx]

def test():
    import time

    def generator_nums(cnt):
        for i in range(cnt):
            yield i

    for a in pbiter(range(12)):
        for b in pbiter(generator_nums(13)):
            for c in pbiter(generator_nums(7), total = 7):


ASCII-video output (see also asciinema video page):

enter image description here

If for some reason you don't have loops and still want to use my pbiter(), then you can use it through regular built-in next() operation, as following:

# Create 3 progress bars, they are at 0% point now
a = pbiter(range(5))
b = pbiter(range(4))
c = pbiter(range(3))
# Some lines of code later, advance progress "a"
# And later ...
# And later ...
# Later ...
next(a); next(c)
# Later ...
next(c); next(b)

in other words you can create and advance progress bars manually in any order and at any place of code.

  • A bit hard to read for me, but nice. And pertinent to the OP's question: I guess nested iterations make 99 % of use cases for multiple progress bars.
    – dominecf
    Commented Nov 25, 2021 at 9:45
  • @dominecf Thanks for up-voting! :) If for some reason you don't have loops, then still you can use even my solution by just creating 3 progress bars without loops like a = pbiter(range(5)); b = pbiter(range(4)); c = pbiter(range(3)) and then manually advancing them in any order and at any place of code by regular next(), like following next(a); next(b); next(c); next(c); next(b); next(c).
    – Arty
    Commented Nov 25, 2021 at 10:14
  • Vote to make this a python package. Commented Aug 17, 2022 at 16:17

I sketched up a standalone, simple progressbar for Python3.6+. No tqdm, no other dependencies, no hacks.

def myprogress(current, whole=1, n=30, bars=u'▕▏▎▍▌▋▊▉', full='▉', empty='▕'): 
    """ current and whole can be an element of a list being iterated, or just two numbers """
    p = (whole.index(current))/len(whole)+1e-9 if type(whole)==list else current/whole+1e-9 
    return f"{full*int(p*n)}{bars[int(len(bars)*((p*n)%1))]}{empty*int((1-p)*n)} {p*100:04.1f}%" 

In pure Python it is hard to re-write more than the last line. But you can just stack two bars next to each other. (A single-line solution also nicely works e.g. with window decoration in a GUI!)

for x in range(300):  ## accepting numerical value
     print(myprogress(x/300), ' '*5, myprogress(x/321), end='\r')
     for busyloop in range(10**5): pass

It computes the progress either as ratio of two numbers, or finds an element in a list being iterated. (If you iterate a numpy.array, it is easy to convert it to a list.) So this is also possible:

l = ['apples', 'bananas', 'cherries', 'durians']  ## accepting an element from list being iterated
for x in l: 
     print(myprogress(x, whole=l), ' '*5, myprogress(x, whole=l), end='\r')
     for busyloop in range(10**7): pass

In the first example you get:

▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▎▕▕▕▕▕▕▕▕ 71.0%      ▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▉▕▕▕▕▕▕▕▕▕▕ 66.4%


It's so simple it must be public domain.

PS: if you like Pacman, you may revert the progress right to left and use: bars='ᗦᗠᗦᗠᗦᗠ'

  • 1
    Nice solution, up-voted! Would be really great if you modify code of your myprogress() function so that it REALLY has no dependencies. Now it depends on Numpy as it uses np.where(). It is very easy to implement this np.where() in pure Python. So would be great if your progress bar will have only Pure python code without external modules.
    – Arty
    Commented Nov 24, 2021 at 9:01
  • @Arty all fixed, thanks!
    – dominecf
    Commented Nov 24, 2021 at 21:04
  • 1
    Thanks for fixing! I decided to use your very simple myprogress() to create wrapping function pbiter() that can wrap any iterable and can be used to automatically show progress in any nested loops. See my answer, it has your and mine full code together with details and ASCII video as an example.
    – Arty
    Commented Nov 25, 2021 at 7:24
  • Thanks @dominecf for this solution. up-voted. I like solutions with no dependencies Any way we can have the progress bars one above the other?
    – nurub
    Commented Jan 6, 2022 at 15:30
  • Yes, @Kenny's solution seems to provide multi-column rewrite. I am not sure about its compatibility with all terminals, but it looks good. Just modify the above print command to get the format you desire.
    – dominecf
    Commented Jan 6, 2022 at 16:08

This can be easily done with atpbar.

For example:

import time, random
from atpbar import atpbar

for i in atpbar(range(4), name='outer'):
    n = random.randint(1000, 10000)
    for j in atpbar(range(n), name='inner {}'.format(i)):

The code above has nested for loops. The outer loop iterates four times. For each iteration of the outer loop, the inner loop iterates the number of times that is randomly selected. The progress bar for the inner loop moves up as the loop completes. The active progress bars stay at the bottom. A snapshot of progress bars might look like

 100.00% :::::::::::::::::::::::::::::::::::::::: |     3287 /     3287 |:  inner 0
 100.00% :::::::::::::::::::::::::::::::::::::::: |     5850 /     5850 |:  inner 1
  50.00% ::::::::::::::::::::                     |        2 /        4 |:  outer  
  34.42% :::::::::::::                            |     1559 /     4529 |:  inner 2

The answer in this answer along with the following suggestion from Steven Rouk in the comments

If you're using Jupyter notebooks, you need to use the notebook submodule: from tqdm.notebook import tqdm - Steven Rouk

solved the issue for me when using Google Colab (notebooks):

# notebook compatible
from tqdm.notebook import tqdm
import time

for i1 in tqdm(range(5)):
    for i2 in tqdm(range(300), leave=False):
    # do something, e.g. sleep

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