Mercurial > p > roundup > code
view roundup/support.py @ 7683:b04e222501b8
fix: rest - set self.start from client.start
Make elasped time include time since client was initialized.
So elapsed is as close as we can get to an overall request service
time.
May need to add rest_elapsed or some other subsystem based timers as
we try to track a possible performance regression in 2.3.0.
| author | John Rouillard <rouilj@ieee.org> |
|---|---|
| date | Wed, 25 Oct 2023 13:12:18 -0400 |
| parents | 33eb82ad26ba |
| children | 8ef97f7cfb6d |
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"""Implements various support classes and functions used in a number of places in Roundup code. """ from __future__ import print_function __docformat__ = 'restructuredtext' import os, time, sys class TruthDict: '''Returns True for valid keys, False for others. ''' def __init__(self, keys): if keys: self.keys = {} for col in keys: self.keys[col] = 1 def __getitem__(self, name): if hasattr(self, 'keys'): return name in self.keys else: return True def ensureParentsExist(dest): if not os.path.exists(os.path.dirname(dest)): os.makedirs(os.path.dirname(dest)) class PrioList: '''Manages a sorted list. Currently only implements method 'append' and iteration from a full list interface. Implementation: We manage a "sorted" status and sort on demand. Appending to the list will require re-sorting before use. >>> p = PrioList() >>> for i in 5,7,1,-1: ... p.append(i) ... >>> for k in p: ... print (k) ... -1 1 5 7 ''' def __init__(self, key=None): self.list = [] self.key = key self.sorted = True def append(self, item): self.list.append(item) self.sorted = False def __iter__(self): if not self.sorted: self.list.sort(key=self.key) self.sorted = True return iter(self.list) class Progress: '''Progress display for console applications. See __main__ block at end of file for sample usage. ''' def __init__(self, info, sequence): self.info = info self.sequence = iter(sequence) self.total = len(sequence) self.start = self.now = time.time() self.num = 0 self.stepsize = self.total // 100 or 1 self.steptimes = [] self.display() def __iter__(self): return self def __next__(self): self.num += 1 if self.num > self.total: print(self.info, 'done', ' '*(75-len(self.info)-6)) sys.stdout.flush() return next(self.sequence) if self.num % self.stepsize: return next(self.sequence) self.display() return next(self.sequence) # Python 2 compatibility: next = __next__ def display(self): # figure how long we've spent - guess how long to go now = time.time() steptime = now - self.now self.steptimes.insert(0, steptime) if len(self.steptimes) > 5: self.steptimes.pop() steptime = sum(self.steptimes) / len(self.steptimes) self.now = now eta = steptime * ((self.total - self.num)/self.stepsize) # tell it like it is (or might be) if now - self.start > 3: M = eta / 60 H = M / 60 M = M % 60 S = eta % 60 if self.total: s = '%s %2d%% (ETA %02d:%02d:%02d)' % (self.info, self.num * 100. / self.total, H, M, S) else: s = '%s 0%% (ETA %02d:%02d:%02d)' % (self.info, H, M, S) elif self.total: s = '%s %2d%%' % (self.info, self.num * 100. / self.total) else: s = '%s %d done' % (self.info, self.num) sys.stdout.write(s + ' '*(75-len(s)) + '\r') sys.stdout.flush() # vim: set et sts=4 sw=4 :