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ProgressMeter.jl

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Progress meter for long-running operations in Julia

Installation

Within julia, execute

using Pkg; Pkg.add("ProgressMeter")

Usage

Progress meters for tasks with a pre-determined number of steps

This works for functions that process things in loops or with map/pmap/reduce:

using Distributed
using ProgressMeter

@showprogress dt=1 desc="Computing..." for i in 1:50
    sleep(0.1)
end

@showprogress pmap(1:10) do x
    sleep(0.1)
    x^2
end

@showprogress reduce(1:10) do x, y
    sleep(0.1)
    x + y
end

The first incantation will use a minimum update interval of 1 second, and show the ETA and final duration. If your computation runs so quickly that it never needs to show progress, no extraneous output will be displayed.

The @showprogress macro wraps a for loop, comprehension, @distributed for loop, or map/pmap/reduce as long as the object being iterated over implements the length method and will handle continue correctly.

using Distributed
using ProgressMeter

@showprogress @distributed for i in 1:10
    sleep(0.1)
end

result = @showprogress desc="Computing..." @distributed (+) for i in 1:10
    sleep(0.1)
    i^2
end

In the case of a @distributed for loop without a reducer, an @sync is implied.

You can also control progress updates and reports manually:

function my_long_running_function(filenames::Array)
    n = length(filenames)
    p = Progress(n; dt=1.0)   # minimum update interval: 1 second
    for f in filenames
        # Here's where you do all the hard, slow work
        next!(p)
    end
end

For tasks such as reading file data where the progress increment varies between iterations, you can use update!:

using ProgressMeter

function readFileLines(fileName::String)
    file = open(fileName,"r")

    seekend(file)
    fileSize = position(file)

    seekstart(file)
    p = Progress(fileSize; dt=1.0)   # minimum update interval: 1 second
    while !eof(file)
        line = readline(file)
        # Here's where you do all the hard, slow work

        update!(p, position(file))
    end
end

The core methods Progress(), ProgressThresh(), ProgressUnknown(), and their updaters are also thread-safe, so can be used with Threads.@threads, Threads.@spawn etc.:

using ProgressMeter
p = Progress(10)
Threads.@threads for i in 1:10
    sleep(2*rand())
    next!(p)
end
finish!(p)
using ProgressMeter
n = 10
p = Progress(n)
tasks = Vector{Task}(undef, n)
for i in 1:n
    tasks[i] = Threads.@spawn begin
        sleep(2*rand())
        next!(p)
    end
end
wait.(tasks)
finish!(p)

Progress bar style

Optionally, a description string can be specified which will be prepended to the output, and a progress meter M characters long can be shown. E.g.

p = Progress(n; desc="Computing initial pass...")

will yield

Computing initial pass...53%|███████████████████████████                       |  ETA: 0:09:02

in a manner similar to python-progressbar.

Also, other properties can be modified through keywords. The glyphs used in the bar may be specified by passing a BarGlyphs object as the keyword argument barglyphs. The BarGlyphs constructor can either take 5 characters as arguments or a single 5 character string. E.g.

p = Progress(n; dt=0.5, barglyphs=BarGlyphs("[=> ]"), barlen=50, color=:yellow)

will yield

Progress: 53%[==========================>                       ]  ETA: 0:09:02

It is possible to give a vector of characters that acts like a transition between the empty character and the fully filled character. For example, definining the progress bar as:

p = Progress(n; dt=0.5,
             barglyphs=BarGlyphs('|','', ['' ,'' ,'' ,'' ,'' ,'', ''],' ','|',),
             barlen=10)

might show the progress bar as:

Progress:  34%|███▃      |  ETA: 0:00:02

where the last bar is not yet fully filled.

Progress meters for tasks with a target threshold

Some tasks only terminate when some criterion is satisfied, for example to achieve convergence within a specified tolerance. In such circumstances, you can use the ProgressThresh type:

prog = ProgressThresh(1e-5; desc="Minimizing:")
for val in exp10.(range(2, stop=-6, length=20))
    update!(prog, val)
    sleep(0.1)
end

Progress meters for tasks with an unknown number of steps

Some tasks only terminate when some non-deterministic criterion is satisfied. In such circumstances, you can use the ProgressUnknown type:

prog = ProgressUnknown(desc="Titles read:")
for val in ["a" , "b", "c", "d"]
    next!(prog)
    if val == "c"
        finish!(prog)
        break
    end
    sleep(0.1)
end

This will display the number of calls to next! until finish! is called.

If your counter does not monotonically increases, you can also set the counter by hand.

prog = ProgressUnknown(desc="Total length of characters read:")
total_length_characters = 0
for val in ["aaa" , "bb", "c", "d"]
    global total_length_characters += length(val)
    update!(prog, total_length_characters)
    if val == "c"
        finish!(prog)
        break
    end
    sleep(0.5)
end

Alternatively, you can display a "spinning ball" symbol by passing spinner=true to the ProgressUnknown constructor.

prog = ProgressUnknown(desc="Working hard:", spinner=true)
while true
    next!(prog)
    rand(1:2*10^8) == 1 && break
end
ProgressMeter.finish!(prog)

By default, finish! changes the spinner to a , but you can use a different character by passing a spinner keyword to finish!, e.g. passing spinner='✗' on a failure condition:

let found=false
    prog = ProgressUnknown(desc="Searching for the Answer:", spinner=true)
    for tries in 1:10^8
        next!(prog)
        if rand(1:2*10^8) == 42
            found=true
            break
        end
    end
    finish!(prog, spinner = found ? '' : '')
end

In fact, you can completely customize the spinner character by passing a string (or array of characters) to animate as a spinner argument to next!:

prog = ProgressUnknown(desc="Burning the midnight oil:", spinner=true)
while true
    next!(prog, spinner="🌑🌒🌓🌔🌕🌖🌗🌘")
    rand(1:10^8) == 0xB00 && break
end
finish!(prog)

(Other interesting-looking spinners include "⌜⌝⌟⌞", "⠋⠙⠹⠸⠼⠴⠦⠧⠇⠏", "🕐🕑🕒🕓🕔🕕🕖🕗🕘🕙🕚🕛", "▖▘▝▗'", and "▁▂▃▄▅▆▇█".)

Printing additional information

You can also print and update information related to the computation by using the showvalues keyword. The following example displays the iteration counter and the value of a dummy variable x below the progress meter:

x,n = 1,10
p = Progress(n)
for iter in 1:10
    x *= 2
    sleep(0.5)
    next!(p; showvalues = [(:iter,iter), (:x,x)])
end

In the above example, the data passed to showvalues is evaluated even if the progress bar is not updated. To avoid this unnecessary computation and reduce the overhead, you can alternatively pass a zero-argument function as a callback to the showvalues keyword.

x,n = 1,10
p = Progress(n)
generate_showvalues(iter, x) = () -> [(:iter,iter), (:x,x)]
for iter in 1:10
    x *= 2
    sleep(0.5)
# unlike `showvalues=generate_showvalues(iter, x)()`, this version only evaluate the function when necessary
next!(p; showvalues = generate_showvalues(iter, x))
end

Showing average time per iteration

You can include an average per-iteration duration in your progress meter by setting the optional keyword argument showspeed=true when constructing a Progress, ProgressUnknown, or ProgressThresh.

x,n = 1,10
p = Progress(n; showspeed=true)
for iter in 1:10
    x *= 2
    sleep(0.5)
    next!(p; showvalues = [(:iter,iter), (:x,x)])
end

will yield something like:

Progress:  XX%|███████████████████████████           |  ETA: XX:YY:ZZ (12.34  s/it)

instead of

Progress:  XX%|███████████████████████████                         |  ETA: XX:YY:ZZ

Conditionally disabling a progress meter

In addition to the showspeed optional keyword argument, all the progress meters also support the optional enabled keyword argument. You can use this to conditionally disable a progress bar in cases where you want less verbose output or are using another progress bar to track progress in looping over a function that itself uses a progress bar.

function my_awesome_slow_loop(n::Integer; show_progress=true)
    p = Progress(n; enabled=show_progress)
    for i in 1:n
        sleep(0.1)
        next!(p)
    end
end

const SHOW_PROGRESS_BARS = parse(Bool, get(ENV, "PROGRESS_BARS", "true"))

m = 100
# let environment variable disable outer loop progress bar
p = Progress(m; enabled=SHOW_PROGRESS_BARS)
for i in 1:m
    # disable inner loop progress bar since we are tracking progress in the outer loop
    my_awesome_slow_loop(i; show_progress=false)
    next!(p)
end

ProgressMeter with additional information in Jupyter

Jupyter notebooks/lab does not allow one to overwrite only parts of the output of cell. In releases up through 1.2, progress bars are printed repeatedly to the output. Starting with release xx, by default Jupyter clears the output of a cell, but this will remove all output from the cell. You can restore previous behavior by calling ProgressMeter.ijulia_behavior(:append). You can enable it again by calling ProgressMeter.ijulia_behavior(:clear), which will also disable the warning message.

Tips for parallel programming

For remote parallelization, when multiple processes or tasks are being used for a computation, the workers should communicate back to a single task for displaying the progress bar. This can be accomplished with a RemoteChannel:

using ProgressMeter
using Distributed

n_steps = 20
p = Progress(n_steps)
channel = RemoteChannel(() -> Channel{Bool}(), 1)

# introduce a long-running dummy task to all workers
@everywhere long_task() = sum([ 1/x for x in 1:100_000_000 ])
@time long_task() # a single execution is about 0.3 seconds

@sync begin # start two tasks which will be synced in the very end
    # the first task updates the progress bar
    @async while take!(channel)
        next!(p)
    end

    # the second task does the computation
    @async begin
        @distributed (+) for i in 1:n_steps
            long_task()
            put!(channel, true) # trigger a progress bar update
            i^2
        end
        put!(channel, false) # this tells the printing task to finish
    end
end

Here, returning some number i^2 and reducing it somehow (+) is necessary to make the distribution happen.

progress_map

More control over the progress bar in a map function can be achieved with the progress_map and progress_pmap functions. The keyword argument progress can be used to supply a custom progress meter.

p = Progress(10, barglyphs=BarGlyphs("[=> ]"))
progress_map(1:10, progress=p) do x
    sleep(0.1)
    x^2
end

Optional use of the progress meter

It possible to disable the progress meter when the use is optional.

x,n = 1,10
p = Progress(n; enabled = false)
for iter in 1:10
    x *= 2
    sleep(0.5)
    ProgressMeter.next!(p)
end

In cases where the output is text output such as CI or in an HPC scheduler, the helper function is_logging can be used to disable automatically.

is_logging(io) = isa(io, Base.TTY) == false || (get(ENV, "CI", nothing) == "true")
p = Progress(n; output = stderr, enabled = !is_logging(stderr))

Development/debugging tips

When developing or debugging ProgressMeter it is convenient to redirect the output to another terminal window such that it does not interfer with the Julia REPL window you are using.

On Linux/macOS you can find the file name corresponding to the other terminal by using the tty command. This file can be opened and passed as the output keyword argument to the Progress/ProgressThresh/ProgressUnknown constructors.

Example

Run tty from the other terminal window (the window where we want output to show up):

$ tty
/dev/pts/3

From the Julia REPL, open the file for writing, wrap in IOContext (to enable color), and pass to the Progress constructor:

io = open("/dev/pts/3", "w")
ioc = IOContext(io, :color => true)
prog = Progress(10; output = ioc)

Output from prog will now print in the other terminal window when executing update!, next!, etc.

Credits

Thanks to Alan Bahm, Andrew Burroughs, and Jim Garrison for major enhancements to this package.

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