239

How do I use a progress bar when my script is doing some task that is likely to take time?

For example, a function which takes some time to complete and returns True when done. How can I display a progress bar during the time the function is being executed?

Note that I need this to be in real time, so I can't figure out what to do about it. Do I need a thread for this? I have no idea.

Right now I am not printing anything while the function is being executed, however a progress bar would be nice. Also I am more interested in how this can be done from a code point of view.

  • Are you using a GUI toolkit or CLI only? – Bobby Jul 1 '10 at 18:41
  • CLI. But I can use a third party library, that is no issue. With GUI I can do this, but I was interested in the CLI part. – user225312 Jul 1 '10 at 18:42
  • Possible duplicate of Text Progress Bar in the Console Note that while this question was posted three days earlier, the linked question is more frequently viewed. – Greenstick Aug 13 '16 at 0:03
  • Here is a solution for within a Jupyter Notebook: mikulskibartosz.name/… – Steven C. Howell Apr 12 at 15:51
  • I've published a new kind of progress bar, which you can print, see throughput and eta, even pause it, besides the very cool animations! Please take a look: github.com/rsalmei/alive-progress !alive-progress – rsalmei Aug 23 at 6:43

29 Answers 29

156

There are specific libraries (like this one here) but maybe something very simple would do:

import time
import sys

toolbar_width = 40

# setup toolbar
sys.stdout.write("[%s]" % (" " * toolbar_width))
sys.stdout.flush()
sys.stdout.write("\b" * (toolbar_width+1)) # return to start of line, after '['

for i in xrange(toolbar_width):
    time.sleep(0.1) # do real work here
    # update the bar
    sys.stdout.write("-")
    sys.stdout.flush()

sys.stdout.write("]\n") # this ends the progress bar

Note: progressbar2 is a fork of progressbar which hasn't been maintained in years.

  • 11
    this does not scale for many steps... pypi.python.org/pypi/progress is much easier to use – m13r May 8 '15 at 21:55
  • 2
    I tried this code, and it threw a NameError: name 'xrange' is not defined error. Am I missing a module? – Mushroom Man May 18 '16 at 1:11
  • 5
    @GokuMcSpock9733 Which version of Python are you using? Python's 2 xrange is Python's 3 range. – quapka May 20 '16 at 17:49
  • @quapka I'm using Python 35, so I guess that's why. – Mushroom Man May 20 '16 at 18:10
  • 5
    This shouldn't be the top answer. The other answer (with tqdm) is a lot better for me at least. – Florian Mar 20 '17 at 14:39
258

With tqdm you can add a progress meter to your loops in a second:

In [1]: import time

In [2]: from tqdm import tqdm

In [3]: for i in tqdm(range(10)):
   ....:     time.sleep(3)

 60%|██████    | 6/10 [00:18<00:12,  0.33 it/s]

Also, there is a graphical version of tqdm since v2.0.0 (d977a0c):

In [1]: import time

In [2]: from tqdm import tqdm_gui

In [3]: for i in tqdm_gui(range(100)):
  ....:     time.sleep(3)

tqdm gui window

But be careful, since tqdm_gui can raise a TqdmExperimentalWarning: GUI is experimental/alpha, you can ignore it by using warnings.simplefilter("ignore"), but it will ignore all warnings in your code after that.

  • 7
    This is the only solution I found to work with terminal, qtconsole and notebook – Ivelin Jun 1 '15 at 1:17
  • 3
    Does it work with any iterable? I've had trouble getting it to work with a list of strings. – Josh Usre Jan 12 '16 at 21:47
  • 3
    @JoshUsre Yes it should work with any iterable, for the moment I didn't see any iterable it choked on. However, the display of the ETA (remaining time) requires the iterable to have a __len__ property or the user must supply the total argument to tqdm. Else, the bar will work but with no ETA. – gaborous May 30 '16 at 11:23
  • 5
    @gaborous: How come this isn't the top voted answer? This simple solution works both in terminal and in Jupyter notebook unlike the top answer. – Ébe Isaac Jun 3 '16 at 8:04
  • 4
    for running in a jupyter notebook use from tqdm import tqdm_notebook as tqdm. Otherwise doesn't write it on one line. – Jacques MALAPRADE Oct 24 '18 at 9:52
74

The above suggestions are pretty good, but I think most people just want a ready made solution, with no dependencies on external packages, but is also reusable.

I got the best points of all the above, and made it into a function, along with a test cases.

To use it, just copy the lines under "def update_progress(progress)" but not the test script. Don't forget to import sys. Call this whenever you need to display or update the progress bar.

This works by directly sending the "\r" symbol to console to move cursor back to the start. "print" in python does not recongise the above symbol for this purpose, hence we need 'sys'

import time, sys

# update_progress() : Displays or updates a console progress bar
## Accepts a float between 0 and 1. Any int will be converted to a float.
## A value under 0 represents a 'halt'.
## A value at 1 or bigger represents 100%
def update_progress(progress):
    barLength = 10 # Modify this to change the length of the progress bar
    status = ""
    if isinstance(progress, int):
        progress = float(progress)
    if not isinstance(progress, float):
        progress = 0
        status = "error: progress var must be float\r\n"
    if progress < 0:
        progress = 0
        status = "Halt...\r\n"
    if progress >= 1:
        progress = 1
        status = "Done...\r\n"
    block = int(round(barLength*progress))
    text = "\rPercent: [{0}] {1}% {2}".format( "#"*block + "-"*(barLength-block), progress*100, status)
    sys.stdout.write(text)
    sys.stdout.flush()


# update_progress test script
print "progress : 'hello'"
update_progress("hello")
time.sleep(1)

print "progress : 3"
update_progress(3)
time.sleep(1)

print "progress : [23]"
update_progress([23])
time.sleep(1)

print ""
print "progress : -10"
update_progress(-10)
time.sleep(2)

print ""
print "progress : 10"
update_progress(10)
time.sleep(2)

print ""
print "progress : 0->1"
for i in range(100):
    time.sleep(0.1)
    update_progress(i/100.0)

print ""
print "Test completed"
time.sleep(10)

This is what the result of the test script shows (The last progress bar animates):

progress : 'hello'
Percent: [----------] 0% error: progress var must be float
progress : 3
Percent: [##########] 100% Done...
progress : [23]
Percent: [----------] 0% error: progress var must be float

progress : -10
Percent: [----------] 0% Halt...

progress : 10
Percent: [##########] 100% Done...

progress : 0->1
Percent: [##########] 99.0%
Test completed
  • 3
    thanks for mention "\r" – haudoing Nov 29 '13 at 4:16
  • 8
    The animated test (last one) should say in range(101) not 100, the progress stops at 99% and never displays done. – Nick Humrich Nov 17 '14 at 22:47
22

This answer doesn't rely on external packages, I also think that most people just want a ready-made piece of code. The code below can be adapted to fit your needs by customizing: bar progress symbol '#', bar size, text prefix etc.

import sys

def progressbar(it, prefix="", size=60, file=sys.stdout):
    count = len(it)
    def show(j):
        x = int(size*j/count)
        file.write("%s[%s%s] %i/%i\r" % (prefix, "#"*x, "."*(size-x), j, count))
        file.flush()        
    show(0)
    for i, item in enumerate(it):
        yield item
        show(i+1)
    file.write("\n")
    file.flush()

Usage:

import time

for i in progressbar(range(15), "Computing: ", 40):
    time.sleep(0.1) # any calculation you need

Output:

Computing: [################........................] 4/15
  • Doesn't require a second thread. Some solutions/packages above require. A second thread can be a problem, for a jupyter notebook, for example.

  • Works with any iterable it means anything that len() can be used on. A list, a dict of anything for example ['a', 'b', 'c' ... 'g']

You can also change output by changing file to sys.stderr for example

19

for a similar application (keeping track of the progress in a loop) I simply used the python-progressbar:

Their example goes something like this,

from progressbar import *               # just a simple progress bar


widgets = ['Test: ', Percentage(), ' ', Bar(marker='0',left='[',right=']'),
           ' ', ETA(), ' ', FileTransferSpeed()] #see docs for other options

pbar = ProgressBar(widgets=widgets, maxval=500)
pbar.start()

for i in range(100,500+1,50):
    # here do something long at each iteration
    pbar.update(i) #this adds a little symbol at each iteration
pbar.finish()
print
  • 3
    For Python 3 compatibility, try progressbar2 package. The code above will work with it. – d33tah May 25 '18 at 8:11
18

I've just made a simple progress class for my needs after searching here for a equivalent solution. I thought I might a well post it.

from __future__ import print_function
import sys
import re


class ProgressBar(object):
    DEFAULT = 'Progress: %(bar)s %(percent)3d%%'
    FULL = '%(bar)s %(current)d/%(total)d (%(percent)3d%%) %(remaining)d to go'

    def __init__(self, total, width=40, fmt=DEFAULT, symbol='=',
                 output=sys.stderr):
        assert len(symbol) == 1

        self.total = total
        self.width = width
        self.symbol = symbol
        self.output = output
        self.fmt = re.sub(r'(?P<name>%\(.+?\))d',
            r'\g<name>%dd' % len(str(total)), fmt)

        self.current = 0

    def __call__(self):
        percent = self.current / float(self.total)
        size = int(self.width * percent)
        remaining = self.total - self.current
        bar = '[' + self.symbol * size + ' ' * (self.width - size) + ']'

        args = {
            'total': self.total,
            'bar': bar,
            'current': self.current,
            'percent': percent * 100,
            'remaining': remaining
        }
        print('\r' + self.fmt % args, file=self.output, end='')

    def done(self):
        self.current = self.total
        self()
        print('', file=self.output)

Example :

from time import sleep

progress = ProgressBar(80, fmt=ProgressBar.FULL)

for x in xrange(progress.total):
    progress.current += 1
    progress()
    sleep(0.1)
progress.done()

Will print the following:

[======== ] 17/80 ( 21%) 63 to go

  • 3
    Awesome, thank you for this. BTW, you can add the progress.current incrementing in the end of __call__ to limit the interaction with the object from the main code even more. – npit Aug 13 '17 at 23:25
  • This code is simple, concise and useful! Thank you! – Ian Rehwinkel May 6 at 10:16
17

Try progress from https://pypi.python.org/pypi/progress.

from progress.bar import Bar

bar = Bar('Processing', max=20)
for i in range(20):
    # Do some work
    bar.next()
bar.finish()

The result will be a bar like the following:

Processing |#############                   | 42/100
  • Just tried this. VERY easy to use. Took me like 2 minutes (including pip install progress) to have a status bar up and running. – perelin Nov 17 '17 at 22:36
  • 2
    Found it doesn't work in a notebook. – Jacques MALAPRADE Oct 24 '18 at 9:23
  • progress makes nice bars, but it fails if other software is manipulating stderr. sorry, but I've not investigated the exact problem. – Arthur Aug 30 at 14:59
11

I like Brian Khuu's answer for its simplicity and not needing external packages. I changed it a bit so I'm adding my version here:

import sys
import time


def updt(total, progress):
    """
    Displays or updates a console progress bar.

    Original source: https://stackoverflow.com/a/15860757/1391441
    """
    barLength, status = 20, ""
    progress = float(progress) / float(total)
    if progress >= 1.:
        progress, status = 1, "\r\n"
    block = int(round(barLength * progress))
    text = "\r[{}] {:.0f}% {}".format(
        "#" * block + "-" * (barLength - block), round(progress * 100, 0),
        status)
    sys.stdout.write(text)
    sys.stdout.flush()


runs = 300
for run_num in range(runs):
    time.sleep(.1)
    updt(runs, run_num + 1)

It takes the total number of runs (total) and the number of runs processed so far (progress) assuming total >= progress. The result looks like this:

[#####---------------] 27%
7

I really like the python-progressbar, as it is very simple to use.

For the most simple case, it is just:

import progressbar
import time

progress = progressbar.ProgressBar()
for i in progress(range(80)):
    time.sleep(0.01)

The appearance can be customized and it can display the estimated remaining time. For an example use the same code as above but with:

progress = progressbar.ProgressBar(widgets=[progressbar.Bar('=', '[', ']'), ' ',
                                            progressbar.Percentage(), ' ',
                                            progressbar.ETA()])
6

You can use tqdm:

from tqdm import tqdm

with tqdm(total=100, desc="Adding Users", bar_format="{l_bar}{bar} [ time left: {remaining} ]") as pbar:
    for i in range(100):
        time.sleep(3)
        pbar.update(1)

In this example the progress bar is running for 5 minutes and it is shown like that:

Adding Users:   3%|█████▊                                     [ time left: 04:51 ]                                                                                                        

You can change it and customize it as you like.

4

If it is a big loop with a fixed amount of iterations that is taking a lot of time you can use this function I made. Each iteration of loop adds progress. Where count is the current iteration of the loop, total is the value you are looping to and size(int) is how big you want the bar in increments of 10 i.e. (size 1 =10 chars, size 2 =20 chars)

import sys
def loadingBar(count,total,size):
    percent = float(count)/float(total)*100
    sys.stdout.write("\r" + str(int(count)).rjust(3,'0')+"/"+str(int(total)).rjust(3,'0') + ' [' + '='*int(percent/10)*size + ' '*(10-int(percent/10))*size + ']')

example:

for i in range(0,100):
     loadingBar(i,100,2)
     #do some code 

output:

i = 50
>> 050/100 [==========          ]
3

Use this library: fish (GitHub).

Usage:

>>> import fish
>>> while churning:
...     churn_churn()
...     fish.animate()

Have fun!

3

It is quite straightforward in Python3:

   import time
   import math

    def show_progress_bar(bar_length, completed, total):
        bar_length_unit_value = (total / bar_length)
        completed_bar_part = math.ceil(completed / bar_length_unit_value)
        progress = "*" * completed_bar_part
        remaining = " " * (bar_length - completed_bar_part)
        percent_done = "%.2f" % ((completed / total) * 100)
        print(f'[{progress}{remaining}] {percent_done}%', end='\r')

    bar_length = 30
    total = 100
    for i in range(0, total + 1):
        show_progress_bar(bar_length, i, total)
        time.sleep(0.1)

    print('\n')
3

The code below is a quite general solution and also has a time elapsed and time remaining estimate. You can use any iterable with it. The progress bar has a fixed size of 25 characters but it can show updates in 1% steps using full, half, and quarter block characters. The output looks like this:

 18% |████▌                    | [0:00:01, 0:00:07]

Code with example:

import sys, time
from numpy import linspace

def ProgressBar(iterObj, refreshTime=10):
  #refreshTime=10: refresh the time estimate at least every 10 sec.
  def SecToStr(sec):
    m, s = divmod(sec, 60)
    h, m = divmod(m,   60)
    return u'%d:%02d:%02d'%(h,m,s)
  L       = len(iterObj)
  steps   = {int(x):y for x,y in zip(np.linspace(0,L,  min(100,L),endpoint=False), 
                                     np.linspace(0,100,min(100,L),endpoint=False))}
  qSteps  = ['', u'\u258E',u'\u258C',u'\u258A'] # quarter and half block chars
  startT  = endT = time.time()
  timeStr = ' [0:00:00, -:--:--]'
  for nn,item in enumerate(iterObj):
    if nn in steps:
      done    = u'\u2588'*int(steps[nn]/4.0)+qSteps[int(steps[nn]%4)]
      todo    = ' '*(25-len(done))
      barStr  = u'%4d%% |%s%s|'%(steps[nn], done, todo)
      if nn>0:
        endT    = time.time()
        timeStr = ' [%s, %s]'%(SecToStr(endT-startT), SecToStr((endT-startT)*(L/float(nn)-1)))
      sys.stdout.write('\r'+barStr+timeStr); sys.stdout.flush()
    elif time.time()-endT > refreshTime:
      endT    = time.time()
      timeStr = ' [%s, %s]'%(SecToStr(endT-startT), SecToStr((endT-startT)*(L/float(nn)-1)))
      sys.stdout.write('\r'+barStr+timeStr); sys.stdout.flush()
    yield item
  barStr  = u'%4d%% |%s|'%(100, u'\u2588'*25)
  timeStr = ' [%s, 0:00:00]\n'%(SecToStr(time.time()-startT))
  sys.stdout.write('\r'+barStr+timeStr); sys.stdout.flush()

# Example
s = ''
for op in ProgressBar(list('Disassemble and reassemble this string')):
  time.sleep(0.5)
  s += op
print s

Suggestions for improvements or other comments are welcome. Have fun.

3

When running in jupyter notebooks use of normal tqdm doesn't work, as it writes output on multiple lines. Use this instead:

import time
from tqdm import tqdm_notebook as tqdm

for i in tqdm(range(100))
    time.sleep(0.5)
2

I like this page.

Starts with simple example and moves onto a multi-threaded version. Works out of the box. No 3rd party packages required.

The code will look something like this:

import time
import sys

def do_task():
    time.sleep(1)

def example_1(n):
    for i in range(n):
        do_task()
        print '\b.',
        sys.stdout.flush()
    print ' Done!'

print 'Starting ',
example_1(10)

Or here is example to use threads in order to run the spinning loading bar while the program is running:

import sys
import time
import threading

class progress_bar_loading(threading.Thread):

    def run(self):
            global stop
            global kill
            print 'Loading....  ',
            sys.stdout.flush()
            i = 0
            while stop != True:
                    if (i%4) == 0: 
                        sys.stdout.write('\b/')
                    elif (i%4) == 1: 
                        sys.stdout.write('\b-')
                    elif (i%4) == 2: 
                        sys.stdout.write('\b\\')
                    elif (i%4) == 3: 
                        sys.stdout.write('\b|')

                    sys.stdout.flush()
                    time.sleep(0.2)
                    i+=1

            if kill == True: 
                print '\b\b\b\b ABORT!',
            else: 
                print '\b\b done!',


kill = False      
stop = False
p = progress_bar_loading()
p.start()

try:
    #anything you want to run. 
    time.sleep(1)
    stop = True
except KeyboardInterrupt or EOFError:
         kill = True
         stop = True
1

If your work can't be broken down into measurable chunks, you could call your function in a new thread and time how long it takes:

import thread
import time
import sys

def work():
    time.sleep( 5 )

def locked_call( func, lock ):
    lock.acquire()
    func()
    lock.release()

lock = thread.allocate_lock()
thread.start_new_thread( locked_call, ( work, lock, ) )

# This part is icky...
while( not lock.locked() ):
    time.sleep( 0.1 )

while( lock.locked() ):
    sys.stdout.write( "*" )
    sys.stdout.flush()
    time.sleep( 1 )
print "\nWork Done"

You can obviously increase the timing precision as required.

  • I will read up the thread module. Thanks for the code – user225312 Jul 1 '10 at 19:16
  • Where would one do the work to be measured in the code in answer? – unseen_rider Oct 15 '17 at 16:27
1

Here's a short solution that builds the loading bar programmatically (you must decide how long you want it).

import time

n = 33  # or however many loading slots you want to have
load = 0.01  # artificial loading time!
loading = '.' * n  # for strings, * is the repeat operator

for i in range(n+1):
    # this loop replaces each dot with a hash!
    print('\r%s Loading at %3d percent!' % (loading, i*100/n), end='')
    loading = loading[:i] + '#' + loading[i+1:]
    time.sleep(load)
1

I like Gabriel answer, but i changed it to be flexible. You can send bar-length to the function and get your progress bar with any length that you want. And you can't have a progress bar with zero or negative length. Also, you can use this function like Gabriel answer (Look at the Example #2).

import sys
import time

def ProgressBar(Total, Progress, BarLength=20, ProgressIcon="#", BarIcon="-"):
    try:
        # You can't have a progress bar with zero or negative length.
        if BarLength <1:
            BarLength = 20
        # Use status variable for going to the next line after progress completion.
        Status = ""
        # Calcuting progress between 0 and 1 for percentage.
        Progress = float(Progress) / float(Total)
        # Doing this conditions at final progressing.
        if Progress >= 1.:
            Progress = 1
            Status = "\r\n"    # Going to the next line
        # Calculating how many places should be filled
        Block = int(round(BarLength * Progress))
        # Show this
        Bar = "[{}] {:.0f}% {}".format(ProgressIcon * Block + BarIcon * (BarLength - Block), round(Progress * 100, 0), Status)
        return Bar
    except:
        return "ERROR"

def ShowBar(Bar):
    sys.stdout.write(Bar)
    sys.stdout.flush()

if __name__ == '__main__':
    print("This is a simple progress bar.\n")

    # Example #1:
    print('Example #1')
    Runs = 10
    for i in range(Runs + 1):
        progressBar = "\rProgress: " + ProgressBar(10, i, Runs)
        ShowBar(progressBar)
        time.sleep(1)

    # Example #2:
    print('\nExample #2')
    Runs = 10
    for i in range(Runs + 1):
        progressBar = "\rProgress: " + ProgressBar(10, i, 20, '|', '.')
        ShowBar(progressBar)
        time.sleep(1)

    print('\nDone.')

# Example #2:
Runs = 10
for i in range(Runs + 1):
    ProgressBar(10, i)
    time.sleep(1)

Result:

This is a simple progress bar.

Example #1

Progress: [###-------] 30%

Example #2

Progress: [||||||||||||........] 60%

Done.

1

Try PyProg. PyProg is an open-source library for Python to create super customizable progress indicators & bars.

It is currently at version 1.0.2; it is hosted on Github and available on PyPI (Links down below). It is compatible with Python 3 & 2 and it can also be used with Qt Console.

It is really easy to use. The following code:

import pyprog
from time import sleep

# Create Object
prog = pyprog.ProgressBar(" ", "", 34)
# Update Progress Bar
prog.update()

for i in range(34):
    # Do something
    sleep(0.1)
    # Set current status
    prog.set_stat(i + 1)
    # Update Progress Bar again
    prog.update()

# Make the Progress Bar final
prog.end()

will produce:

Initial State:
Progress: 0% --------------------------------------------------

When half done:
Progress: 50% #########################-------------------------

Final State:
Progress: 100% ##################################################

I actually made PyProg because I needed a simple but super customizable progress bar library. You can easily install it with: pip install pyprog.

PyProg Github: https://github.com/Bill13579/pyprog
PyPI: https://pypi.python.org/pypi/pyprog/

1

You can also use enlighten. The main advantage is you can log at the same time without overwriting your progress bar.

import time
import enlighten

manager = enlighten.Manager()
pbar = manager.counter(total=100)

for num in range(1, 101):
    time.sleep(0.05)
    print('Step %d complete' % num)
    pbar.update()

It also handles multiple progress bars.

import time
import enlighten

manager = enlighten.Manager()
odds = manager.counter(total=50)
evens = manager.counter(total=50)

for num in range(1, 101):
    time.sleep(0.05)
    if num % 2:
        odds.update()
    else:
        evens.update()
0

You should link the progress bar to the task at hand (so that it measures the progress :D). For example, if you are FTPing a file, you can tell ftplib to grab a certain size buffer, let's say 128K, and then you add to your progress bar whatever percentage of the filesize 128k represents. If you are using the CLI, and your progress meter is 20 characters long, you would add one character when 1/20th of the file had transferred.

  • In my case I am using a API and it provides no facility for the getting specific chunks. Thanks for the idea though, it is nice. – user225312 Jul 1 '10 at 19:17
0

@Massagran: It works well in my programs. Furthermore, we need to add a counter to indicate the loop times. This counter plays as the argument of the method update. For example: read all lines of a test file and treat them on something. Suppose that the function dosth() do not concern in the variable i.

lines = open(sys.argv[1]).readlines()
i = 0
widgets=[Percentage(), Bar()]
pbar = ProgressBar(widgets=widgets,maxval=len(lines)).start()
pbar.start()
for line in lines:<pre>
    dosth();
    i += 1
    pbar.update(i)</pre>
pbar.finish()

The variable i controls the status of pbar via the method update

0

a little more generic answer of jelde015 (credit to him of course)

for updating the loading bar manually will be:

import sys
from math import *


def loadingBar(i, N, size):
    percent = float(i) / float(N)
    sys.stdout.write("\r"
                     + str(int(i)).rjust(3, '0')
                     +"/"
                     +str(int(N)).rjust(3, '0')
                     + ' ['
                     + '='*ceil(percent*size)
                     + ' '*floor((1-percent)*size)
                     + ']')

and calling it by:

loadingBar(7, 220, 40)

will result:

007/220 [=                                       ]  

just call it whenever you want with the current i value.

set the size as the number of chars the bar should be

0

use the os_sys lib:

i use it for many types of bars, example:

from os_sys.progress import bar as Bar bar = Bar('progresing: ', max=20) for i in range(20): #do somthing bar.next() bar.finish() your output will be:

procesing:  |######                          | 2/10

read more in the discription of os_sys

0

Guess i'm a little late but this should work for people working with the current versions of python 3, since this uses "f-strings", as introduced in Python 3.6 PEP 498:

Code

from numpy import interp

class Progress:
    def __init__(self, value, end, title='Downloading',buffer=20):
        self.title = title
        #when calling in a for loop it doesn't include the last number
        self.end = end -1
        self.buffer = buffer
        self.value = value
        self.progress()

    def progress(self):
        maped = int(interp(self.value, [0, self.end], [0, self.buffer]))
        print(f'{self.title}: [{"#"*maped}{"-"*(self.buffer - maped)}]{self.value}/{self.end} {((self.value/self.end)*100):.2f}%', end='\r')

Example

#some loop that does perfroms a task
for x in range(21)  #set to 21 to include until 20
    Progress(x, 21)

Output

Downloading: [########------------] 8/20 40.00%
0

This is a simple way to create a progressbar

import time,sys
toolbar_width = 50
# setting up toolbar [-------------------------------------]
sys.stdout.write("[%s]"%(("-")*toolbar_width))
sys.stdout.flush()
# each hash represents 2 % of the progress
for i in range(toolbar_width):
    sys.stdout.write("\r") # return to start of line
    sys.stdout.flush()
    sys.stdout.write("[")#Overwrite over the existing text from the start 
    sys.stdout.write("#"*(i+1))# number of # denotes the progress completed 
    sys.stdout.flush()
    time.sleep(0.1)
0

To use any progress-bar frameworks in a useful manner, ie to get an actual progress percent and an estimated ETA, you need to be able to declare how many steps it will have.

So, your compute function in another thread, are you able to split it in a number of logical steps? Can you modify its code?

You don't need to refactor it or split in actual methods, you could just put some strategic yields in some places inside it! If the expensive function has a for loop, just put one in it. You should only know at the end how much yields will be done, to get best results.

That way, your function could be something like this:

def compute():
    time.sleep(1)  # some processing here
    yield  # insert these
    time.sleep(1)
    yield
    time.sleep(1)
    yield

or this:

def compute():
    for i in range(1000):
        time.sleep(.1)  # some processing here
        yield  # insert these

With that kind of function, you can install:

pip install alive-progress

And use it like:

from alive_progress import alive_bar

with alive_bar(3) as bar:
    for i in compute():
        bar()

To get a cool progress-bar!

|█████████████▎                          | ▅▃▁ 1/3 [33%] in 1s (1.0/s, eta: 2s)

Disclaimer: I'm the author of alive_bar, but it should solve your problem nicely. Read the documentation at https://github.com/rsalmei/alive-progress, here is an example of what it can do:

alive-progress

0

This progress bar shows points of each 2 percent complete and numbers for each 10 percent complete.

import sys

def ProgressBar (num, total, nextPercent, nextPoint):
    num = float (num)
    total = float (total) - 1
    if not nextPoint:
        nextPoint = 0.0
    if not nextPercent:
        nextPoint += 2.0
        sys.stdout.write ("[0%")
        nextPercent = 10
    elif num == total:
        sys.stdout.write ("100%]\n")
        nextPercent += 10
    elif not nextPoint:
        nextPoint = 0.0
    elif num / total * 100 >= nextPercent:
        sys.stdout.write (str(int (nextPercent)) + "%")
        nextPercent += 10
    elif num / total * 100 >= nextPoint:
        sys.stdout.write (":")
        nextPoint += 2
    return (nextPercent, nextPoint)

nextPercent, nextPoint = 0, 0
total = 1000

for num in range (total):
    nextPercent, nextPoint = ProgressBar (num, total, nextPercent, nextPoint)

Results:

>>> 
[0%::::10%:::::20%:::::30%:::::40%:::::50%:::::60%:::::70%:::::80%:::::90%:::::100%]
>>> 

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