Example #1
0
def _iteration_parameters(image_rows,
                          image_cols,
                          row_block_size,
                          col_block_size,
                          y_overlap=0,
                          x_overlap=0,
                          bands=1):

    maximum_blocks = 0

    for i in range(0, image_rows, row_block_size - y_overlap):

        for j in range(0, image_cols, col_block_size - x_overlap):

            if bands > 1:
                for band in range(1, bands + 1):
                    maximum_blocks += 1
            else:
                maximum_blocks += 1

    progress_widgets = [
        ' Percent: ',
        widgets.Percentage(), ' ',
        widgets.Bar(marker='*', left='[', right=']'), ' ',
        widgets.ETA(), ' ',
        widgets.FileTransferSpeed()
    ]

    progress_bar = ProgressBar(widgets=progress_widgets, maxval=maximum_blocks)

    progress_bar.start()

    return 1, progress_bar
Example #2
0
    async def show_progresses_offline(self):
        from progressbar import ProgressBar, widgets

        barformat_notfinalized = [
            widgets.AnimatedMarker(), ' ', widgets.Counter(), ' ',
            widgets.BouncingBar(), ' ', widgets.Timer()]

        class LooseAdaptiveETA(widgets.AdaptiveETA):
            # Stabilize the ETA on results from large batches rushes in
            NUM_SAMPLES = 100

        barformat_finalized = [
            widgets.AnimatedMarker(), ' ', widgets.Percentage(), ' of ',
            widgets.FormatLabel('%(max)d'), ' ', widgets.Bar(), ' ',
            widgets.Timer('Elapsed: %s'), ' ', LooseAdaptiveETA()]

        self.pbar = ProgressBar(widgets=barformat_notfinalized)
        self.pbar.start()
        notfinalized = True

        while self.running:
            if notfinalized and self.scan_finished:
                notfinalized = False
                self.pbar = ProgressBar(maxval=self.reads_found,
                                        widgets=barformat_finalized)
                self.pbar.currval = self.reads_processed
                self.pbar.start()
            else:
                self.pbar.maxval = self.reads_found
                self.pbar.update(self.reads_processed)

            try:
                await asyncio.sleep(0.3)
            except CancelledError:
                break
Example #3
0
def progressbar_count_widgets(pbar: ProgressBar):
    from progressbar import widgets

    if pbar.max_value:
        return [
            widgets.Percentage(**pbar.widget_kwargs),
            ' ',
            widgets.SimpleProgress(format="({value:,} of {max_value:,})",
                                   new_style=True,
                                   **pbar.widget_kwargs),
            ' ',
            widgets.Bar(**pbar.widget_kwargs),
            ' ',
            widgets.Timer(**pbar.widget_kwargs),
        ]
    else:
        return [
            widgets.AnimatedMarker(**pbar.widget_kwargs),
            ' ',
            widgets.BouncingBar(**pbar.widget_kwargs),
            ' ',
            widgets.Counter(**pbar.widget_kwargs),
            ' ',
            widgets.Timer(**pbar.widget_kwargs),
        ]
Example #4
0
 def __init__(self):
     self.status_label = pbwidgets.FormatLabel(status_string(""))
     self.pb = ProgressBar(1.0, widgets=[self.status_label,
                                         pbwidgets.Percentage(), ' ', pbwidgets.Bar(),
                                         pbwidgets.FormatLabel(" %(elapsed)s "),
                                         pbwidgets.AdaptiveETA(),
                                         ])
     self.last_status = None
     self.pb.start()
def get_pbar(max_value):

    pbar = progressbar.ProgressBar(widgets=[
        widgets.Percentage(), ' (',
        widgets.SimpleProgress(), ')', ' ',
        widgets.Bar(), ' ',
        widgets.Timer(), ' ',
        widgets.AdaptiveETA(), ' ',
        widgets.DynamicMessage('Accuracy')
    ],
                                   max_value=max_value)
    return pbar
Example #6
0
def _iteration_parameters_values(value1, value2):

    # Set widget and pbar
    progress_widgets = [' Perc: ', widgets.Percentage(), ' ', \
                        widgets.Bar(marker='*', left='[', right=']'), ' ', \
                        widgets.ETA(), ' ', widgets.FileTransferSpeed()]

    progress_bar = ProgressBar(widgets=progress_widgets,
                               maxval=value1 * value2)

    progress_bar.start()

    return 1, progress_bar
Example #7
0
def main():
    decomposer = Decomposer()
    print("Loaded %d characters." % len(HANZI_CHARACTERS))
    if not is_made_of_radicals_only(u'我'):
        sys.exit('ERROR: 我 is not made of radicals, wtf?')
    total_characters = len(HANZI_CHARACTERS)
    matching_characters = 0
    pb = progressbar.ProgressBar(widgets=[PBW.Counter(), PBW.Bar(), PBW.ETA()])
    for char in pb(set(HANZI_CHARACTERS)):
        decomposition = decomposer.decompose(char)
        if is_made_of_radicals_only(decomposition):
            matching_characters = 1
    print("Matched %d characters out of %d" %
          (matching_characters, total_characters))
Example #8
0
    def DisplayProgressBar(self,
                           ProcessingResults,
                           ExpectedResultsSize,
                           CheckInterval=1,
                           type="minute"):
        '''
    Display a progress bar for multiprocessing. This function should be used after pool.close(No need to use pool.join anymore). 
    The call back function for pool.async should be set as CallbackForProgressBar.

    :param multiprocessing.pool.AsyncResult ProcessingResults: Processing results returned by pool.async.
    :param int ExpectedResultsSize: How many result you will reveive, i.e. the total length of progress bar.
    :param float CheckInterval: How many seconds will the progress bar be updated. When it's too large, the main program may hang there.
    :param String type: Three types: "minute", "hour", "second"; corresponds displaying iters/minute iters/hour and iters/second.
        '''
        self.ProcessingResults = ProcessingResults
        ProgressBarWidgets = [
            progressbar_widgets.Percentage(), ' ',
            progressbar_widgets.Bar(), ' ',
            progressbar_widgets.SimpleProgress(), ' ',
            progressbar_widgets.Timer(), ' ',
            progressbar_widgets.AdaptiveETA()
        ]
        self.ProgressBar = progressbar.ProgressBar(ExpectedResultsSize,
                                                   ProgressBarWidgets)
        self.StartTime = time.time()
        PreviousNumberOfResults = 0
        self.ProgressBar.start()
        while self.ProcessingResults.ready() == False:
            self.Update()
            time.sleep(CheckInterval)
        time.sleep(CheckInterval)
        self.Update()
        self.ProgressBar.finish()
        self.EndTime = time.time()
        print("Processing finished.")
        #print "Processing results: ", self.TotalResults
        print("Time Elapsed: %.2fs, or %.2fmins, or %.2fhours" %
              ((self.EndTime - self.StartTime),
               (self.EndTime - self.StartTime) / 60,
               (self.EndTime - self.StartTime) / 3600))
        logger.info("Processing finished.")
        logger.info("Processing results: " + str(self.TotalResults))
        logger.info("Time Elapsed: %.2fs, or %.2fmins, or %.2fhours" %
                    ((self.EndTime - self.StartTime),
                     (self.EndTime - self.StartTime) / 60,
                     (self.EndTime - self.StartTime) / 3600))
        return
Example #9
0
 def get_progressbar_widget_list(nepoch: int) -> BarWidgetsReturn:
     epoch_status_fmt_str: str = 'EPOCH: %(epoch_ix)d/%(nepoch)d'
     epoch_status = progressbar.FormatCustomText(
         epoch_status_fmt_str, dict(epoch_ix=0, nepoch=nepoch))
     widgets_list: List[widgets.WidgetBase] = [
         widgets.Percentage(),
         ' ',
         widgets.SimpleProgress(format='(%s)' %
                                widgets.SimpleProgress.DEFAULT_FORMAT),
         ' ',
         epoch_status,
         ' ',
         widgets.Bar(),
         ' ',
         widgets.Timer(),
     ]
     return widgets_list, epoch_status
Example #10
0
 def __init__(self, prefix, max_value):
     ProgressBar.__init__(self,
                          prefix=prefix,
                          max_value=max_value,
                          is_terminal=True,
                          term_width=200)
     self.widgets = [
         widgets.Percentage(**self.widget_kwargs),
         ' ',
         widgets.SimpleProgress(format='(%s)' %
                                widgets.SimpleProgress.DEFAULT_FORMAT,
                                **self.widget_kwargs),
         ' ',
         widgets.Bar(**self.widget_kwargs),
         ' ',
         widgets.Timer(**self.widget_kwargs),
         ' ',
         widgets.ETA(**self.widget_kwargs),
     ]
Example #11
0
    def start(self, time_max):
        """ Start the simulation's progress bar

        Args:
            time_max (:obj:`float`): the simulation's end time
        """
        if self.use:
            self.bar = ProgressBar(widgets=[
                widgets.Percentage(),
                ' ',
                widgets.SimpleProgress(
                    format='%(value)d/%(max_value)d (time_max)'),
                ' ',
                widgets.Bar(),
                ' ',
                widgets.Timer(),
                ' ',
                widgets.AdaptiveETA(),
            ],
                                   max_value=time_max).start()
Example #12
0
def download(url, filename):
    """Attempts to download url to filename unless the two files have the same size"""
    r = requests.get(url, stream=True)
    size = int(r.headers.get('Content-Length'))
    bname = basename(filename)

    if size and isfile(filename) and os.path.getsize(filename) == size:
        print('File %s already exists, skipping download' % bname, file=sys.stderr)
        return

    currdown = 0.0
    fmt = [
        'Downloading %s: ' % bname, widgets.Bar(), ' ',
        widgets.RotatingMarker(), ' ', widgets.Percentage(), ' ',
        widgets.FileTransferSpeed(), ' ', widgets.ETA()
    ]

    progress = ProgressBar(maxval=size or 100, widgets=fmt)
    progress.start()

    # https://stackoverflow.com/a/5137509
    mkdir_p(dirname(realpath(filename)))

    # https://stackoverflow.com/a/16696317
    with open(filename, 'wb') as f:
        for chunk in r.iter_content(chunk_size=65536):
            if chunk:
                f.write(chunk)

            currdown += len(chunk)

            if size:
                progress.update(currdown)
            else:
                progress.update(random.randint(0, 100))

    progress.finish()
Example #13
0
from .cgroups import get_cgroups

from .Fuzzer import FuzzManager

from .Logger import Logger

from .analyse.linecoverage import linecoverage

# The widgets used by the process bar
WIDGETS = [
    widgets.Percentage(),
    ' (',
    widgets.SimpleProgress(),
    ')',
    ' ',
    widgets.Bar("="),
    ' ',
    widgets.Timer(),
    ' ',
    widgets.ETA(),
]


class Macke:
    """
    Main container for all steps of the MACKE analysis
    """

    # static "constants"
    SYM_ONLY = 0
    FUZZ_ONLY = 1
Example #14
0
    parser.add_argument("-f",
                        "--filter",
                        default="_01.jpg",
                        help="Filter applied to the list of files")
    parser.add_argument(
        "--img-shape",
        default=(128, 128, 1),
        type=lambda strin: tuple(int(val) for val in strin.split('x')),
        help=
        "Expected image shape in the form 'WxHxD', W=width, H=height, D=depth")
    args = vars(parser.parse_args())

    # Progress bar widgets
    pbwidg = [
        widgets.SimpleProgress(format=u'%(value_s)s/%(max_value_s)s'), ' ',
        widgets.Bar(marker=u'\u2588'), ' ',
        widgets.Timer(), ' ',
        widgets.AdaptiveETA()
    ]

    # Name the input arguments
    t_level = 0.3
    in_abs_dir = os.path.abspath(args["in"])
    out_abs_dir = os.path.abspath(args["out"])
    img_shape = args["img_shape"]
    # Scan the directory to find the proper files
    _, thumbs_files = scan_dir(in_abs_dir, args["filter"])
    num_classes = len(thumbs_files)
    print("Found", num_classes, "people")
    # Take the directory name as database name
    db_name = os.path.basename(in_abs_dir)
Example #15
0
     shuffles = _shuffle(paired_results)
 else:
     shuffles = []
     indices = list(range(len(paired_results)))
     for iteration in range(num_tests):
         # Select randomly half of the results to shuffle
         to_shuffle = random.sample(indices, len(paired_results)/2)
         shuffled = [stats2 if i in to_shuffle else stats1
                         for i,(stats1,stats2) in enumerate(paired_results)]
         shuffles.append(shuffled)
     
 # Show a progress bar
 if not options.quiet:
     pbar = ProgressBar(widgets=["Shuffling: ", 
                                 widgets.Percentage(),
                                 " ", widgets.Bar(),
                                 ' ', widgets.ETA()], 
                             maxval=num_tests).start()
     # Don't update to often
     pb_update = max(1000, num_tests/100)
 
 # Do the shuffling
 f_matches = 0
 r_matches = 0
 p_matches = 0
 for iteration,shuffled in enumerate(shuffles):
     if not options.quiet and (iteration % pb_update) == 0:
         pbar.update(iteration)
     
     # Use the shuffled stats to compute an f-score for the pretend model
     recall, precision, fscore = _fscore(*zip(*shuffled))