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/data/refman/pasoursint/CMSSW_5_3_9_patch3/src/Utilities/RelMon/python/progressbar.py

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00001 import os
00002 import sys
00003 import time
00004 import math
00005 
00006 
00007 #### PROGRESSBAR Classes END ####
00008 
00009 try:
00010     from abc import ABCMeta, abstractmethod
00011 except ImportError:
00012     AbstractWidget = object
00013     abstractmethod = lambda fn: fn
00014 else:
00015     AbstractWidget = ABCMeta('AbstractWidget', (object,), {})
00016 class UnknownLength: pass
00017 class Widget(AbstractWidget):
00018     '''The base class for all widgets
00019 
00020     The ProgressBar will call the widget's update value when the widget should
00021     be updated. The widget's size may change between calls, but the widget may
00022     display incorrectly if the size changes drastically and repeatedly.
00023 
00024     The boolean TIME_SENSITIVE informs the ProgressBar that it should be
00025     updated more often because it is time sensitive.
00026     '''
00027 
00028     TIME_SENSITIVE = False
00029     __slots__ = ()
00030 
00031     @abstractmethod
00032     def update(self, pbar):
00033         '''Updates the widget.
00034 
00035         pbar - a reference to the calling ProgressBar
00036         '''
00037 class Timer(Widget):
00038     'Widget which displays the elapsed seconds.'
00039 
00040     __slots__ = ('format',)
00041     TIME_SENSITIVE = True
00042 
00043     def __init__(self, format='Elapsed Time: %s'):
00044         self.format = format
00045 
00046     @staticmethod
00047     def format_time(seconds):
00048         'Formats time as the string "HH:MM:SS".'
00049 
00050         return str(datetime.timedelta(seconds=int(seconds)))
00051 
00052 
00053     def update(self, pbar):
00054         'Updates the widget to show the elapsed time.'
00055 
00056         return self.format % self.format_time(pbar.seconds_elapsed)
00057 class WidgetHFill(Widget):
00058     '''The base class for all variable width widgets.
00059 
00060     This widget is much like the \\hfill command in TeX, it will expand to
00061     fill the line. You can use more than one in the same line, and they will
00062     all have the same width, and together will fill the line.
00063     '''
00064 
00065     @abstractmethod
00066     def update(self, pbar, width):
00067         '''Updates the widget providing the total width the widget must fill.
00068 
00069         pbar - a reference to the calling ProgressBar
00070         width - The total width the widget must fill
00071         '''
00072 class Bar(WidgetHFill):
00073     'A progress bar which stretches to fill the line.'
00074 
00075     __slots__ = ('marker', 'left', 'right', 'fill', 'fill_left')
00076 
00077     def __init__(self, marker='#', left='|', right='|', fill=' ',
00078                  fill_left=True):
00079         '''Creates a customizable progress bar.
00080 
00081         marker - string or updatable object to use as a marker
00082         left - string or updatable object to use as a left border
00083         right - string or updatable object to use as a right border
00084         fill - character to use for the empty part of the progress bar
00085         fill_left - whether to fill from the left or the right
00086         '''
00087         self.marker = marker
00088         self.left = left
00089         self.right = right
00090         self.fill = fill
00091         self.fill_left = fill_left
00092 
00093 
00094     def update(self, pbar, width):
00095         'Updates the progress bar and its subcomponents'
00096 
00097         left, marked, right = (format_updatable(i, pbar) for i in
00098             (self.left, self.marker, self.right))
00099 
00100         width -= len(left) + len(right)
00101         # Marked must *always* have length of 1
00102         if pbar.maxval:
00103             marked *= int(pbar.currval / pbar.maxval * width)
00104         else:
00105             marked = ''
00106 
00107         if self.fill_left:
00108             return '%s%s%s' % (left, marked.ljust(width, self.fill), right)
00109         else:
00110             return '%s%s%s' % (left, marked.rjust(width, self.fill), right)
00111 class BouncingBar(Bar):
00112     def update(self, pbar, width):
00113         'Updates the progress bar and its subcomponents'
00114 
00115         left, marker, right = (format_updatable(i, pbar) for i in
00116             (self.left, self.marker, self.right))
00117 
00118         width -= len(left) + len(right)
00119 
00120         if pbar.finished: return '%s%s%s' % (left, width * marker, right)
00121 
00122         position = int(pbar.currval % (width * 2 - 1))
00123         if position > width: position = width * 2 - position
00124         lpad = self.fill * (position - 1)
00125         rpad = self.fill * (width - len(marker) - len(lpad))
00126 
00127         # Swap if we want to bounce the other way
00128         if not self.fill_left: rpad, lpad = lpad, rpad
00129 
00130         return '%s%s%s%s%s' % (left, lpad, marker, rpad, right)
00131 
00132 class FormatLabel(Timer):
00133     'Displays a formatted label'
00134 
00135     mapping = {
00136         'elapsed': ('seconds_elapsed', Timer.format_time),
00137         'finished': ('finished', None),
00138         'last_update': ('last_update_time', None),
00139         'max': ('maxval', None),
00140         'seconds': ('seconds_elapsed', None),
00141         'start': ('start_time', None),
00142         'value': ('currval', None)
00143     }
00144 
00145     __slots__ = ('format',)
00146     def __init__(self, format):
00147         self.format = format
00148 
00149     def update(self, pbar):
00150         context = {}
00151         for name, (key, transform) in self.mapping.items():
00152             try:
00153                 value = getattr(pbar, key)
00154 
00155                 if transform is None:
00156                     context[name] = value
00157                 else:
00158                     context[name] = transform(value)
00159             except: pass
00160 
00161         return self.format % context
00162 
00163 class ProgressBar(object):
00164     '''The ProgressBar class which updates and prints the bar.
00165 
00166     A common way of using it is like:
00167     >>> pbar = ProgressBar().start()
00168     >>> for i in range(100):
00169     ...    # do something
00170     ...    pbar.update(i+1)
00171     ...
00172     >>> pbar.finish()
00173 
00174     You can also use a ProgressBar as an iterator:
00175     >>> progress = ProgressBar()
00176     >>> for i in progress(some_iterable):
00177     ...    # do something
00178     ...
00179 
00180     Since the progress bar is incredibly customizable you can specify
00181     different widgets of any type in any order. You can even write your own
00182     widgets! However, since there are already a good number of widgets you
00183     should probably play around with them before moving on to create your own
00184     widgets.
00185 
00186     The term_width parameter represents the current terminal width. If the
00187     parameter is set to an integer then the progress bar will use that,
00188     otherwise it will attempt to determine the terminal width falling back to
00189     80 columns if the width cannot be determined.
00190 
00191     When implementing a widget's update method you are passed a reference to
00192     the current progress bar. As a result, you have access to the
00193     ProgressBar's methods and attributes. Although there is nothing preventing
00194     you from changing the ProgressBar you should treat it as read only.
00195 
00196     Useful methods and attributes include (Public API):
00197      - currval: current progress (0 <= currval <= maxval)
00198      - maxval: maximum (and final) value
00199      - finished: True if the bar has finished (reached 100%)
00200      - start_time: the time when start() method of ProgressBar was called
00201      - seconds_elapsed: seconds elapsed since start_time and last call to
00202                         update
00203      - percentage(): progress in percent [0..100]
00204     '''
00205 
00206     __slots__ = ('currval', 'fd', 'finished', 'last_update_time',
00207                  'left_justify', 'maxval', 'next_update', 'num_intervals',
00208                  'poll', 'seconds_elapsed', 'signal_set', 'start_time',
00209                  'term_width', 'update_interval', 'widgets', '_time_sensitive',
00210                  '__iterable')
00211 
00212     _DEFAULT_MAXVAL = 100
00213     _DEFAULT_TERMSIZE = 80
00214 
00215     def __init__(self, maxval=None, widgets=None, term_width=None, poll=1,
00216                  left_justify=True, fd=sys.stderr):
00217         '''Initializes a progress bar with sane defaults'''
00218 
00219         self.maxval = maxval
00220         self.widgets = widgets
00221         self.fd = fd
00222         self.left_justify = left_justify
00223 
00224         self.signal_set = False
00225         if term_width is not None:
00226             self.term_width = term_width
00227         else:
00228             try:
00229                 self._handle_resize()
00230                 signal.signal(signal.SIGWINCH, self._handle_resize)
00231                 self.signal_set = True
00232             except (SystemExit, KeyboardInterrupt): raise
00233             except:
00234                 self.term_width = self._env_size()
00235 
00236         self.__iterable = None
00237         self._update_widgets()
00238         self.currval = 0
00239         self.finished = False
00240         self.last_update_time = None
00241         self.poll = poll
00242         self.seconds_elapsed = 0
00243         self.start_time = None
00244         self.update_interval = 1
00245 
00246 
00247     def __call__(self, iterable):
00248         'Use a ProgressBar to iterate through an iterable'
00249 
00250         try:
00251             self.maxval = len(iterable)
00252         except:
00253             if self.maxval is None:
00254                 self.maxval = UnknownLength
00255 
00256         self.__iterable = iter(iterable)
00257         return self
00258 
00259 
00260     def __iter__(self):
00261         return self
00262 
00263 
00264     def __next__(self):
00265         try:
00266             value = next(self.__iterable)
00267             if self.start_time is None: self.start()
00268             else: self.update(self.currval + 1)
00269             return value
00270         except StopIteration:
00271             self.finish()
00272             raise
00273 
00274 
00275     # Create an alias so that Python 2.x won't complain about not being
00276     # an iterator.
00277     next = __next__
00278 
00279 
00280     def _env_size(self):
00281         'Tries to find the term_width from the environment.'
00282 
00283         return int(os.environ.get('COLUMNS', self._DEFAULT_TERMSIZE)) - 1
00284 
00285 
00286     def _handle_resize(self, signum=None, frame=None):
00287         'Tries to catch resize signals sent from the terminal.'
00288 
00289         h, w = array('h', ioctl(self.fd, termios.TIOCGWINSZ, '\0' * 8))[:2]
00290         self.term_width = w
00291 
00292 
00293     def percentage(self):
00294         'Returns the progress as a percentage.'
00295         return self.currval * 100.0 / self.maxval
00296 
00297     percent = property(percentage)
00298 
00299 
00300     def _format_widgets(self):
00301         result = []
00302         expanding = []
00303         width = self.term_width
00304 
00305         for index, widget in enumerate(self.widgets):
00306             if isinstance(widget, WidgetHFill):
00307                 result.append(widget)
00308                 expanding.insert(0, index)
00309             else:
00310                 widget = format_updatable(widget, self)
00311                 result.append(widget)
00312                 width -= len(widget)
00313 
00314         count = len(expanding)
00315         while count:
00316             portion = max(int(math.ceil(width * 1. / count)), 0)
00317             index = expanding.pop()
00318             count -= 1
00319 
00320             widget = result[index].update(self, portion)
00321             width -= len(widget)
00322             result[index] = widget
00323 
00324         return result
00325 
00326 
00327     def _format_line(self):
00328         'Joins the widgets and justifies the line'
00329 
00330         widgets = ''.join(self._format_widgets())
00331 
00332         if self.left_justify: return widgets.ljust(self.term_width)
00333         else: return widgets.rjust(self.term_width)
00334 
00335 
00336     def _need_update(self):
00337         'Returns whether the ProgressBar should redraw the line.'
00338         if self.currval >= self.next_update or self.finished: return True
00339 
00340         delta = time.time() - self.last_update_time
00341         return self._time_sensitive and delta > self.poll
00342 
00343 
00344     def _update_widgets(self):
00345         'Checks all widgets for the time sensitive bit'
00346 
00347         self._time_sensitive = any(getattr(w, 'TIME_SENSITIVE', False)
00348             for w in self.widgets)
00349 
00350 
00351     def update(self, value=None):
00352         'Updates the ProgressBar to a new value.'
00353 
00354         if value is not None and value is not UnknownLength:
00355             if (self.maxval is not UnknownLength
00356                 and not 0 <= value <= self.maxval):
00357 
00358                 raise ValueError('Value out of range')
00359 
00360             self.currval = value
00361 
00362 
00363         if not self._need_update(): return
00364         if self.start_time is None:
00365             raise RuntimeError('You must call "start" before calling "update"')
00366 
00367         now = time.time()
00368         self.seconds_elapsed = now - self.start_time
00369         self.next_update = self.currval + self.update_interval
00370         self.fd.write(self._format_line() + '\r')
00371         self.last_update_time = now
00372 
00373 
00374     def start(self):
00375         '''Starts measuring time, and prints the bar at 0%.
00376 
00377         It returns self so you can use it like this:
00378         >>> pbar = ProgressBar().start()
00379         >>> for i in range(100):
00380         ...    # do something
00381         ...    pbar.update(i+1)
00382         ...
00383         >>> pbar.finish()
00384         '''
00385 
00386         if self.maxval is None:
00387             self.maxval = self._DEFAULT_MAXVAL
00388 
00389         self.num_intervals = max(100, self.term_width)
00390         self.next_update = 0
00391 
00392         if self.maxval is not UnknownLength:
00393             if self.maxval < 0: raise ValueError('Value out of range')
00394             self.update_interval = self.maxval / self.num_intervals
00395 
00396 
00397         self.start_time = self.last_update_time = time.time()
00398         self.update(0)
00399 
00400         return self
00401 
00402 
00403     def finish(self):
00404         'Puts the ProgressBar bar in the finished state.'
00405 
00406         self.finished = True
00407         self.update(self.maxval)
00408         self.fd.write('\n')
00409         if self.signal_set:
00410             signal.signal(signal.SIGWINCH, signal.SIG_DFL)
00411 def format_updatable(updatable, pbar):
00412     if hasattr(updatable, 'update'): return updatable.update(pbar)
00413     else: return updatable
00414 #### PROGRESSBAR Classes END ####
00415 
00416 class infinite_iterator(object):
00417     def __init__(self):
00418         self.n = 1
00419     def __iter__(self):
00420         return self
00421     def next(self):
00422         return 1