Mercurial > hg
view mercurial/progress.py @ 31956:c13ff31818b0
ui: add special-purpose atexit functionality
In spite of its longstanding use, Python's built-in atexit code is
not suitable for Mercurial's purposes, for several reasons:
* Handlers run after application code has finished.
* Because of this, the code that runs handlers swallows exceptions
(since there's no possible stacktrace to associate errors with).
If we're lucky, we'll get something spat out to stderr (if stderr
still works), which of course isn't any use in a big deployment
where it's important that exceptions get logged and aggregated.
* Mercurial's current atexit handlers make unfortunate assumptions
about process state (specifically stdio) that, coupled with the
above problems, make it impossible to deal with certain categories
of error (try "hg status > /dev/full" on a Linux box).
* In Python 3, the atexit implementation is completely hidden, so
we can't hijack the platform's atexit code to run handlers at a
time of our choosing.
As a result, here's a perfectly cromulent atexit-like implementation
over which we have control. This lets us decide exactly when the
handlers run (after each request has completed), and control what
the process state is when that occurs (and afterwards).
author | Bryan O'Sullivan <bryano@fb.com> |
---|---|
date | Tue, 11 Apr 2017 14:54:12 -0700 |
parents | cb1ea3cc44b5 |
children | c3ef33fd0058 |
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# progress.py progress bars related code # # Copyright (C) 2010 Augie Fackler <durin42@gmail.com> # # This software may be used and distributed according to the terms of the # GNU General Public License version 2 or any later version. from __future__ import absolute_import import threading import time from .i18n import _ from . import encoding def spacejoin(*args): return ' '.join(s for s in args if s) def shouldprint(ui): return not (ui.quiet or ui.plain('progress')) and ( ui._isatty(ui.ferr) or ui.configbool('progress', 'assume-tty')) def fmtremaining(seconds): """format a number of remaining seconds in human readable way This will properly display seconds, minutes, hours, days if needed""" if seconds < 60: # i18n: format XX seconds as "XXs" return _("%02ds") % (seconds) minutes = seconds // 60 if minutes < 60: seconds -= minutes * 60 # i18n: format X minutes and YY seconds as "XmYYs" return _("%dm%02ds") % (minutes, seconds) # we're going to ignore seconds in this case minutes += 1 hours = minutes // 60 minutes -= hours * 60 if hours < 30: # i18n: format X hours and YY minutes as "XhYYm" return _("%dh%02dm") % (hours, minutes) # we're going to ignore minutes in this case hours += 1 days = hours // 24 hours -= days * 24 if days < 15: # i18n: format X days and YY hours as "XdYYh" return _("%dd%02dh") % (days, hours) # we're going to ignore hours in this case days += 1 weeks = days // 7 days -= weeks * 7 if weeks < 55: # i18n: format X weeks and YY days as "XwYYd" return _("%dw%02dd") % (weeks, days) # we're going to ignore days and treat a year as 52 weeks weeks += 1 years = weeks // 52 weeks -= years * 52 # i18n: format X years and YY weeks as "XyYYw" return _("%dy%02dw") % (years, weeks) class progbar(object): def __init__(self, ui): self.ui = ui self._refreshlock = threading.Lock() self.resetstate() def resetstate(self): self.topics = [] self.topicstates = {} self.starttimes = {} self.startvals = {} self.printed = False self.lastprint = time.time() + float(self.ui.config( 'progress', 'delay', default=3)) self.curtopic = None self.lasttopic = None self.indetcount = 0 self.refresh = float(self.ui.config( 'progress', 'refresh', default=0.1)) self.changedelay = max(3 * self.refresh, float(self.ui.config( 'progress', 'changedelay', default=1))) self.order = self.ui.configlist( 'progress', 'format', default=['topic', 'bar', 'number', 'estimate']) def show(self, now, topic, pos, item, unit, total): if not shouldprint(self.ui): return termwidth = self.width() self.printed = True head = '' needprogress = False tail = '' for indicator in self.order: add = '' if indicator == 'topic': add = topic elif indicator == 'number': if total: add = ('% ' + str(len(str(total))) + 's/%s') % (pos, total) else: add = str(pos) elif indicator.startswith('item') and item: slice = 'end' if '-' in indicator: wid = int(indicator.split('-')[1]) elif '+' in indicator: slice = 'beginning' wid = int(indicator.split('+')[1]) else: wid = 20 if slice == 'end': add = encoding.trim(item, wid, leftside=True) else: add = encoding.trim(item, wid) add += (wid - encoding.colwidth(add)) * ' ' elif indicator == 'bar': add = '' needprogress = True elif indicator == 'unit' and unit: add = unit elif indicator == 'estimate': add = self.estimate(topic, pos, total, now) elif indicator == 'speed': add = self.speed(topic, pos, unit, now) if not needprogress: head = spacejoin(head, add) else: tail = spacejoin(tail, add) if needprogress: used = 0 if head: used += encoding.colwidth(head) + 1 if tail: used += encoding.colwidth(tail) + 1 progwidth = termwidth - used - 3 if total and pos <= total: amt = pos * progwidth // total bar = '=' * (amt - 1) if amt > 0: bar += '>' bar += ' ' * (progwidth - amt) else: progwidth -= 3 self.indetcount += 1 # mod the count by twice the width so we can make the # cursor bounce between the right and left sides amt = self.indetcount % (2 * progwidth) amt -= progwidth bar = (' ' * int(progwidth - abs(amt)) + '<=>' + ' ' * int(abs(amt))) prog = ''.join(('[', bar , ']')) out = spacejoin(head, prog, tail) else: out = spacejoin(head, tail) self.ui.ferr.write('\r' + encoding.trim(out, termwidth)) self.lasttopic = topic self.ui.ferr.flush() def clear(self): if not self.printed or not self.lastprint or not shouldprint(self.ui): return self.ui.ferr.write('\r%s\r' % (' ' * self.width())) if self.printed: # force immediate re-paint of progress bar self.lastprint = 0 def complete(self): if not shouldprint(self.ui): return if self.ui.configbool('progress', 'clear-complete', default=True): self.clear() else: self.ui.ferr.write('\n') self.ui.ferr.flush() def width(self): tw = self.ui.termwidth() return min(int(self.ui.config('progress', 'width', default=tw)), tw) def estimate(self, topic, pos, total, now): if total is None: return '' initialpos = self.startvals[topic] target = total - initialpos delta = pos - initialpos if delta > 0: elapsed = now - self.starttimes[topic] # experimental config: progress.estimate if elapsed > float( self.ui.config('progress', 'estimate', default=2)): seconds = (elapsed * (target - delta)) // delta + 1 return fmtremaining(seconds) return '' def speed(self, topic, pos, unit, now): initialpos = self.startvals[topic] delta = pos - initialpos elapsed = now - self.starttimes[topic] if elapsed > float( self.ui.config('progress', 'estimate', default=2)): return _('%d %s/sec') % (delta / elapsed, unit) return '' def _oktoprint(self, now): '''Check if conditions are met to print - e.g. changedelay elapsed''' if (self.lasttopic is None # first time we printed # not a topic change or self.curtopic == self.lasttopic # it's been long enough we should print anyway or now - self.lastprint >= self.changedelay): return True else: return False def progress(self, topic, pos, item='', unit='', total=None): now = time.time() self._refreshlock.acquire() try: if pos is None: self.starttimes.pop(topic, None) self.startvals.pop(topic, None) self.topicstates.pop(topic, None) # reset the progress bar if this is the outermost topic if self.topics and self.topics[0] == topic and self.printed: self.complete() self.resetstate() # truncate the list of topics assuming all topics within # this one are also closed if topic in self.topics: self.topics = self.topics[:self.topics.index(topic)] # reset the last topic to the one we just unwound to, # so that higher-level topics will be stickier than # lower-level topics if self.topics: self.lasttopic = self.topics[-1] else: self.lasttopic = None else: if topic not in self.topics: self.starttimes[topic] = now self.startvals[topic] = pos self.topics.append(topic) self.topicstates[topic] = pos, item, unit, total self.curtopic = topic if now - self.lastprint >= self.refresh and self.topics: if self._oktoprint(now): self.lastprint = now self.show(now, topic, *self.topicstates[topic]) finally: self._refreshlock.release()