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388 lines
10 KiB
Python
388 lines
10 KiB
Python
# Copyright 2012-2013, Damian Johnson and The Tor Project
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# See LICENSE for licensing information
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"""
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Toolkit for various string activity.
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**Module Overview:**
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::
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get_size_label - human readable label for a number of bytes
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get_time_label - human readable label for a number of seconds
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get_time_labels - human readable labels for each time unit
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get_short_time_label - condensed time label output
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parse_short_time_label - seconds represented by a short time label
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"""
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import codecs
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import datetime
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import stem.prereq
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# label conversion tuples of the form...
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# (bits / bytes / seconds, short label, long label)
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SIZE_UNITS_BITS = (
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(140737488355328.0, " Pb", " Petabit"),
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(137438953472.0, " Tb", " Terabit"),
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(134217728.0, " Gb", " Gigabit"),
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(131072.0, " Mb", " Megabit"),
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(128.0, " Kb", " Kilobit"),
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(0.125, " b", " Bit"),
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)
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SIZE_UNITS_BYTES = (
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(1125899906842624.0, " PB", " Petabyte"),
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(1099511627776.0, " TB", " Terabyte"),
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(1073741824.0, " GB", " Gigabyte"),
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(1048576.0, " MB", " Megabyte"),
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(1024.0, " KB", " Kilobyte"),
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(1.0, " B", " Byte"),
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)
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TIME_UNITS = (
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(86400.0, "d", " day"),
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(3600.0, "h", " hour"),
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(60.0, "m", " minute"),
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(1.0, "s", " second"),
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)
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if stem.prereq.is_python_3():
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def _to_bytes_impl(msg):
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if isinstance(msg, str):
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return codecs.latin_1_encode(msg, "replace")[0]
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else:
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return msg
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def _to_unicode_impl(msg):
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if msg is not None and not isinstance(msg, str):
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return msg.decode("utf-8", "replace")
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else:
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return msg
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else:
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def _to_bytes_impl(msg):
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if msg is not None and isinstance(msg, unicode):
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return codecs.latin_1_encode(msg, "replace")[0]
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else:
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return msg
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def _to_unicode_impl(msg):
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if msg is not None and not isinstance(msg, unicode):
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return msg.decode("utf-8", "replace")
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else:
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return msg
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def _to_bytes(msg):
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"""
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Provides the ASCII bytes for the given string. This is purely to provide
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python 3 compatability, normalizing the unicode/ASCII change in the version
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bump. For an explanation of this see...
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http://python3porting.com/problems.html#nicer-solutions
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:param str,unicode msg: string to be converted
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:returns: ASCII bytes for string
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"""
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return _to_bytes_impl(msg)
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def _to_unicode(msg):
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"""
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Provides the unicode string for the given ASCII bytes. This is purely to
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provide python 3 compatability, normalizing the unicode/ASCII change in the
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version bump.
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:param str,unicode msg: string to be converted
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:returns: unicode conversion
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"""
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return _to_unicode_impl(msg)
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def _to_camel_case(label, divider = "_", joiner = " "):
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"""
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Converts the given string to camel case, ie:
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::
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>>> _to_camel_case("I_LIKE_PEPPERJACK!")
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'I Like Pepperjack!'
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:param str label: input string to be converted
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:param str divider: word boundary
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:param str joiner: replacement for word boundaries
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:returns: camel cased string
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"""
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words = []
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for entry in label.split(divider):
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if len(entry) == 0:
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words.append("")
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elif len(entry) == 1:
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words.append(entry.upper())
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else:
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words.append(entry[0].upper() + entry[1:].lower())
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return joiner.join(words)
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def get_size_label(byte_count, decimal = 0, is_long = False, is_bytes = True):
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"""
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Converts a number of bytes into a human readable label in its most
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significant units. For instance, 7500 bytes would return "7 KB". If the
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is_long option is used this expands unit labels to be the properly pluralized
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full word (for instance 'Kilobytes' rather than 'KB'). Units go up through
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petabytes.
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::
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>>> get_size_label(2000000)
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'1 MB'
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>>> get_size_label(1050, 2)
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'1.02 KB'
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>>> get_size_label(1050, 3, True)
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'1.025 Kilobytes'
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:param int byte_count: number of bytes to be converted
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:param int decimal: number of decimal digits to be included
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:param bool is_long: expands units label
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:param bool is_bytes: provides units in bytes if **True**, bits otherwise
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:returns: **str** with human readable representation of the size
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"""
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if is_bytes:
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return _get_label(SIZE_UNITS_BYTES, byte_count, decimal, is_long)
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else:
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return _get_label(SIZE_UNITS_BITS, byte_count, decimal, is_long)
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def get_time_label(seconds, decimal = 0, is_long = False):
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"""
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Converts seconds into a time label truncated to its most significant units.
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For instance, 7500 seconds would return "2h". Units go up through days.
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This defaults to presenting single character labels, but if the is_long
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option is used this expands labels to be the full word (space included and
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properly pluralized). For instance, "4h" would be "4 hours" and "1m" would
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become "1 minute".
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::
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>>> get_time_label(10000)
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'2h'
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>>> get_time_label(61, 1, True)
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'1.0 minute'
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>>> get_time_label(61, 2, True)
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'1.01 minutes'
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:param int seconds: number of seconds to be converted
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:param int decimal: number of decimal digits to be included
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:param bool is_long: expands units label
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:returns: **str** with human readable representation of the time
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"""
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return _get_label(TIME_UNITS, seconds, decimal, is_long)
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def get_time_labels(seconds, is_long = False):
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"""
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Provides a list of label conversions for each time unit, starting with its
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most significant units on down. Any counts that evaluate to zero are omitted.
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For example...
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::
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>>> get_time_labels(400)
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['6m', '40s']
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>>> get_time_labels(3640, True)
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['1 hour', '40 seconds']
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:param int seconds: number of seconds to be converted
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:param bool is_long: expands units label
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:returns: **list** of strings with human readable representations of the time
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"""
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time_labels = []
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for count_per_unit, _, _ in TIME_UNITS:
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if abs(seconds) >= count_per_unit:
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time_labels.append(_get_label(TIME_UNITS, seconds, 0, is_long))
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seconds %= count_per_unit
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return time_labels
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def get_short_time_label(seconds):
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"""
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Provides a time in the following format:
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[[dd-]hh:]mm:ss
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::
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>>> get_short_time_label(111)
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'01:51'
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>>> get_short_time_label(544100)
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'6-07:08:20'
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:param int seconds: number of seconds to be converted
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:returns: **str** with the short representation for the time
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:raises: **ValueError** if the input is negative
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"""
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if seconds < 0:
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raise ValueError("Input needs to be a non-negative integer, got '%i'" % seconds)
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time_comp = {}
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for amount, _, label in TIME_UNITS:
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count = int(seconds / amount)
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seconds %= amount
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time_comp[label.strip()] = count
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label = "%02i:%02i" % (time_comp["minute"], time_comp["second"])
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if time_comp["day"]:
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label = "%i-%02i:%s" % (time_comp["day"], time_comp["hour"], label)
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elif time_comp["hour"]:
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label = "%02i:%s" % (time_comp["hour"], label)
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return label
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def parse_short_time_label(label):
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"""
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Provides the number of seconds corresponding to the formatting used for the
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cputime and etime fields of ps:
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[[dd-]hh:]mm:ss or mm:ss.ss
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::
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>>> parse_short_time_label('01:51')
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111
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>>> parse_short_time_label('6-07:08:20')
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544100
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:param str label: time entry to be parsed
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:returns: **int** with the number of seconds represented by the label
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:raises: **ValueError** if input is malformed
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"""
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days, hours, minutes, seconds = '0', '0', '0', '0'
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if '-' in label:
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days, label = label.split('-', 1)
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time_comp = label.split(":")
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if len(time_comp) == 3:
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hours, minutes, seconds = time_comp
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elif len(time_comp) == 2:
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minutes, seconds = time_comp
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else:
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raise ValueError("Invalid time format, we expected '[[dd-]hh:]mm:ss' or 'mm:ss.ss': %s" % label)
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try:
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time_sum = int(float(seconds))
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time_sum += int(minutes) * 60
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time_sum += int(hours) * 3600
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time_sum += int(days) * 86400
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return time_sum
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except ValueError:
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raise ValueError("Non-numeric value in time entry: %s" % label)
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def _parse_iso_timestamp(entry):
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"""
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Parses the ISO 8601 standard that provides for timestamps like...
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::
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2012-11-08T16:48:41.420251
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:param str entry: timestamp to be parsed
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:returns: datetime for the time represented by the timestamp
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:raises: ValueError if the timestamp is malformed
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"""
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if not isinstance(entry, str):
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raise ValueError("parse_iso_timestamp() input must be a str, got a %s" % type(entry))
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# based after suggestions from...
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# http://stackoverflow.com/questions/127803/how-to-parse-iso-formatted-date-in-python
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if '.' in entry:
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timestamp_str, microseconds = entry.split('.')
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else:
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timestamp_str, microseconds = entry, '000000'
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if len(microseconds) != 6 or not microseconds.isdigit():
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raise ValueError("timestamp's microseconds should be six digits")
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timestamp = datetime.datetime.strptime(timestamp_str, "%Y-%m-%dT%H:%M:%S")
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return timestamp + datetime.timedelta(microseconds = int(microseconds))
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def _get_label(units, count, decimal, is_long):
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"""
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Provides label corresponding to units of the highest significance in the
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provided set. This rounds down (ie, integer truncation after visible units).
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:param tuple units: type of units to be used for conversion, containing
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(count_per_unit, short_label, long_label)
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:param int count: number of base units being converted
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:param int decimal: decimal precision of label
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:param bool is_long: uses the long label if **True**, short label otherwise
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"""
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# formatted string for the requested number of digits
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label_format = "%%.%if" % decimal
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if count < 0:
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label_format = "-" + label_format
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count = abs(count)
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elif count == 0:
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units_label = units[-1][2] + "s" if is_long else units[-1][1]
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return "%s%s" % (label_format % count, units_label)
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for count_per_unit, short_label, long_label in units:
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if count >= count_per_unit:
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# Rounding down with a '%f' is a little clunky. Reducing the count so
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# it'll divide evenly as the rounded down value.
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count -= count % (count_per_unit / (10 ** decimal))
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count_label = label_format % (count / count_per_unit)
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if is_long:
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# Pluralize if any of the visible units make it greater than one. For
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# instance 1.0003 is plural but 1.000 isn't.
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if decimal > 0:
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is_plural = count > count_per_unit
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else:
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is_plural = count >= count_per_unit * 2
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return count_label + long_label + ("s" if is_plural else "")
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else:
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return count_label + short_label
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