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Code Editor : utils.py
#!/usr/bin/env python """ General Utilities (part of web.py) """ __all__ = [ "Storage", "storage", "storify", "Counter", "counter", "iters", "rstrips", "lstrips", "strips", "safeunicode", "safestr", "utf8", "TimeoutError", "timelimit", "Memoize", "memoize", "re_compile", "re_subm", "group", "uniq", "iterview", "IterBetter", "iterbetter", "safeiter", "safewrite", "dictreverse", "dictfind", "dictfindall", "dictincr", "dictadd", "requeue", "restack", "listget", "intget", "datestr", "numify", "denumify", "commify", "dateify", "nthstr", "cond", "CaptureStdout", "capturestdout", "Profile", "profile", "tryall", "ThreadedDict", "threadeddict", "autoassign", "to36", "safemarkdown", "sendmail" ] import re, sys, time, threading, itertools, traceback, os try: import subprocess except ImportError: subprocess = None try: import datetime except ImportError: pass try: set except NameError: from sets import Set as set try: from threading import local as threadlocal except ImportError: from python23 import threadlocal class Storage(dict): """ A Storage object is like a dictionary except `obj.foo` can be used in addition to `obj['foo']`. >>> o = storage(a=1) >>> o.a 1 >>> o['a'] 1 >>> o.a = 2 >>> o['a'] 2 >>> del o.a >>> o.a Traceback (most recent call last): ... AttributeError: 'a' """ def __getattr__(self, key): try: return self[key] except KeyError, k: raise AttributeError, k def __setattr__(self, key, value): self[key] = value def __delattr__(self, key): try: del self[key] except KeyError, k: raise AttributeError, k def __repr__(self): return '<Storage ' + dict.__repr__(self) + '>' storage = Storage def storify(mapping, *requireds, **defaults): """ Creates a `storage` object from dictionary `mapping`, raising `KeyError` if d doesn't have all of the keys in `requireds` and using the default values for keys found in `defaults`. For example, `storify({'a':1, 'c':3}, b=2, c=0)` will return the equivalent of `storage({'a':1, 'b':2, 'c':3})`. If a `storify` value is a list (e.g. multiple values in a form submission), `storify` returns the last element of the list, unless the key appears in `defaults` as a list. Thus: >>> storify({'a':[1, 2]}).a 2 >>> storify({'a':[1, 2]}, a=[]).a [1, 2] >>> storify({'a':1}, a=[]).a [1] >>> storify({}, a=[]).a [] Similarly, if the value has a `value` attribute, `storify will return _its_ value, unless the key appears in `defaults` as a dictionary. >>> storify({'a':storage(value=1)}).a 1 >>> storify({'a':storage(value=1)}, a={}).a <Storage {'value': 1}> >>> storify({}, a={}).a {} Optionally, keyword parameter `_unicode` can be passed to convert all values to unicode. >>> storify({'x': 'a'}, _unicode=True) <Storage {'x': u'a'}> >>> storify({'x': storage(value='a')}, x={}, _unicode=True) <Storage {'x': <Storage {'value': 'a'}>}> >>> storify({'x': storage(value='a')}, _unicode=True) <Storage {'x': u'a'}> """ _unicode = defaults.pop('_unicode', False) # if _unicode is callable object, use it convert a string to unicode. to_unicode = safeunicode if _unicode is not False and hasattr(_unicode, "__call__"): to_unicode = _unicode def unicodify(s): if _unicode and isinstance(s, str): return to_unicode(s) else: return s def getvalue(x): if hasattr(x, 'file') and hasattr(x, 'value'): return x.value elif hasattr(x, 'value'): return unicodify(x.value) else: return unicodify(x) stor = Storage() for key in requireds + tuple(mapping.keys()): value = mapping[key] if isinstance(value, list): if isinstance(defaults.get(key), list): value = [getvalue(x) for x in value] else: value = value[-1] if not isinstance(defaults.get(key), dict): value = getvalue(value) if isinstance(defaults.get(key), list) and not isinstance(value, list): value = [value] setattr(stor, key, value) for (key, value) in defaults.iteritems(): result = value if hasattr(stor, key): result = stor[key] if value == () and not isinstance(result, tuple): result = (result,) setattr(stor, key, result) return stor class Counter(storage): """Keeps count of how many times something is added. >>> c = counter() >>> c.add('x') >>> c.add('x') >>> c.add('x') >>> c.add('x') >>> c.add('x') >>> c.add('y') >>> c <Counter {'y': 1, 'x': 5}> >>> c.most() ['x'] """ def add(self, n): self.setdefault(n, 0) self[n] += 1 def most(self): """Returns the keys with maximum count.""" m = max(self.itervalues()) return [k for k, v in self.iteritems() if v == m] def least(self): """Returns the keys with mininum count.""" m = min(self.itervalues()) return [k for k, v in self.iteritems() if v == m] def percent(self, key): """Returns what percentage a certain key is of all entries. >>> c = counter() >>> c.add('x') >>> c.add('x') >>> c.add('x') >>> c.add('y') >>> c.percent('x') 0.75 >>> c.percent('y') 0.25 """ return float(self[key])/sum(self.values()) def sorted_keys(self): """Returns keys sorted by value. >>> c = counter() >>> c.add('x') >>> c.add('x') >>> c.add('y') >>> c.sorted_keys() ['x', 'y'] """ return sorted(self.keys(), key=lambda k: self[k], reverse=True) def sorted_values(self): """Returns values sorted by value. >>> c = counter() >>> c.add('x') >>> c.add('x') >>> c.add('y') >>> c.sorted_values() [2, 1] """ return [self[k] for k in self.sorted_keys()] def sorted_items(self): """Returns items sorted by value. >>> c = counter() >>> c.add('x') >>> c.add('x') >>> c.add('y') >>> c.sorted_items() [('x', 2), ('y', 1)] """ return [(k, self[k]) for k in self.sorted_keys()] def __repr__(self): return '<Counter ' + dict.__repr__(self) + '>' counter = Counter iters = [list, tuple] import __builtin__ if hasattr(__builtin__, 'set'): iters.append(set) if hasattr(__builtin__, 'frozenset'): iters.append(set) if sys.version_info < (2,6): # sets module deprecated in 2.6 try: from sets import Set iters.append(Set) except ImportError: pass class _hack(tuple): pass iters = _hack(iters) iters.__doc__ = """ A list of iterable items (like lists, but not strings). Includes whichever of lists, tuples, sets, and Sets are available in this version of Python. """ def _strips(direction, text, remove): if isinstance(remove, iters): for subr in remove: text = _strips(direction, text, subr) return text if direction == 'l': if text.startswith(remove): return text[len(remove):] elif direction == 'r': if text.endswith(remove): return text[:-len(remove)] else: raise ValueError, "Direction needs to be r or l." return text def rstrips(text, remove): """ removes the string `remove` from the right of `text` >>> rstrips("foobar", "bar") 'foo' """ return _strips('r', text, remove) def lstrips(text, remove): """ removes the string `remove` from the left of `text` >>> lstrips("foobar", "foo") 'bar' >>> lstrips('http://foo.org/', ['http://', 'https://']) 'foo.org/' >>> lstrips('FOOBARBAZ', ['FOO', 'BAR']) 'BAZ' >>> lstrips('FOOBARBAZ', ['BAR', 'FOO']) 'BARBAZ' """ return _strips('l', text, remove) def strips(text, remove): """ removes the string `remove` from the both sides of `text` >>> strips("foobarfoo", "foo") 'bar' """ return rstrips(lstrips(text, remove), remove) def safeunicode(obj, encoding='utf-8'): r""" Converts any given object to unicode string. >>> safeunicode('hello') u'hello' >>> safeunicode(2) u'2' >>> safeunicode('\xe1\x88\xb4') u'\u1234' """ t = type(obj) if t is unicode: return obj elif t is str: return obj.decode(encoding) elif t in [int, float, bool]: return unicode(obj) elif hasattr(obj, '__unicode__') or isinstance(obj, unicode): return unicode(obj) else: return str(obj).decode(encoding) def safestr(obj, encoding='utf-8'): r""" Converts any given object to utf-8 encoded string. >>> safestr('hello') 'hello' >>> safestr(u'\u1234') '\xe1\x88\xb4' >>> safestr(2) '2' """ if isinstance(obj, unicode): return obj.encode(encoding) elif isinstance(obj, str): return obj elif hasattr(obj, 'next'): # iterator return itertools.imap(safestr, obj) else: return str(obj) # for backward-compatibility utf8 = safestr class TimeoutError(Exception): pass def timelimit(timeout): """ A decorator to limit a function to `timeout` seconds, raising `TimeoutError` if it takes longer. >>> import time >>> def meaningoflife(): ... time.sleep(.2) ... return 42 >>> >>> timelimit(.1)(meaningoflife)() Traceback (most recent call last): ... TimeoutError: took too long >>> timelimit(1)(meaningoflife)() 42 _Caveat:_ The function isn't stopped after `timeout` seconds but continues executing in a separate thread. (There seems to be no way to kill a thread.) inspired by <http://aspn.activestate.com/ASPN/Cookbook/Python/Recipe/473878> """ def _1(function): def _2(*args, **kw): class Dispatch(threading.Thread): def __init__(self): threading.Thread.__init__(self) self.result = None self.error = None self.setDaemon(True) self.start() def run(self): try: self.result = function(*args, **kw) except: self.error = sys.exc_info() c = Dispatch() c.join(timeout) if c.isAlive(): raise TimeoutError, 'took too long' if c.error: raise c.error[0], c.error[1] return c.result return _2 return _1 class Memoize: """ 'Memoizes' a function, caching its return values for each input. If `expires` is specified, values are recalculated after `expires` seconds. If `background` is specified, values are recalculated in a separate thread. >>> calls = 0 >>> def howmanytimeshaveibeencalled(): ... global calls ... calls += 1 ... return calls >>> fastcalls = memoize(howmanytimeshaveibeencalled) >>> howmanytimeshaveibeencalled() 1 >>> howmanytimeshaveibeencalled() 2 >>> fastcalls() 3 >>> fastcalls() 3 >>> import time >>> fastcalls = memoize(howmanytimeshaveibeencalled, .1, background=False) >>> fastcalls() 4 >>> fastcalls() 4 >>> time.sleep(.2) >>> fastcalls() 5 >>> def slowfunc(): ... time.sleep(.1) ... return howmanytimeshaveibeencalled() >>> fastcalls = memoize(slowfunc, .2, background=True) >>> fastcalls() 6 >>> timelimit(.05)(fastcalls)() 6 >>> time.sleep(.2) >>> timelimit(.05)(fastcalls)() 6 >>> timelimit(.05)(fastcalls)() 6 >>> time.sleep(.2) >>> timelimit(.05)(fastcalls)() 7 >>> fastcalls = memoize(slowfunc, None, background=True) >>> threading.Thread(target=fastcalls).start() >>> time.sleep(.01) >>> fastcalls() 9 """ def __init__(self, func, expires=None, background=True): self.func = func self.cache = {} self.expires = expires self.background = background self.running = {} def __call__(self, *args, **keywords): key = (args, tuple(keywords.items())) if not self.running.get(key): self.running[key] = threading.Lock() def update(block=False): if self.running[key].acquire(block): try: self.cache[key] = (self.func(*args, **keywords), time.time()) finally: self.running[key].release() if key not in self.cache: update(block=True) elif self.expires and (time.time() - self.cache[key][1]) > self.expires: if self.background: threading.Thread(target=update).start() else: update() return self.cache[key][0] memoize = Memoize re_compile = memoize(re.compile) #@@ threadsafe? re_compile.__doc__ = """ A memoized version of re.compile. """ class _re_subm_proxy: def __init__(self): self.match = None def __call__(self, match): self.match = match return '' def re_subm(pat, repl, string): """ Like re.sub, but returns the replacement _and_ the match object. >>> t, m = re_subm('g(oo+)fball', r'f\\1lish', 'goooooofball') >>> t 'foooooolish' >>> m.groups() ('oooooo',) """ compiled_pat = re_compile(pat) proxy = _re_subm_proxy() compiled_pat.sub(proxy.__call__, string) return compiled_pat.sub(repl, string), proxy.match def group(seq, size): """ Returns an iterator over a series of lists of length size from iterable. >>> list(group([1,2,3,4], 2)) [[1, 2], [3, 4]] >>> list(group([1,2,3,4,5], 2)) [[1, 2], [3, 4], [5]] """ def take(seq, n): for i in xrange(n): yield seq.next() if not hasattr(seq, 'next'): seq = iter(seq) while True: x = list(take(seq, size)) if x: yield x else: break def uniq(seq, key=None): """ Removes duplicate elements from a list while preserving the order of the rest. >>> uniq([9,0,2,1,0]) [9, 0, 2, 1] The value of the optional `key` parameter should be a function that takes a single argument and returns a key to test the uniqueness. >>> uniq(["Foo", "foo", "bar"], key=lambda s: s.lower()) ['Foo', 'bar'] """ key = key or (lambda x: x) seen = set() result = [] for v in seq: k = key(v) if k in seen: continue seen.add(k) result.append(v) return result def iterview(x): """ Takes an iterable `x` and returns an iterator over it which prints its progress to stderr as it iterates through. """ WIDTH = 70 def plainformat(n, lenx): return '%5.1f%% (%*d/%d)' % ((float(n)/lenx)*100, len(str(lenx)), n, lenx) def bars(size, n, lenx): val = int((float(n)*size)/lenx + 0.5) if size - val: spacing = ">" + (" "*(size-val))[1:] else: spacing = "" return "[%s%s]" % ("="*val, spacing) def eta(elapsed, n, lenx): if n == 0: return '--:--:--' if n == lenx: secs = int(elapsed) else: secs = int((elapsed/n) * (lenx-n)) mins, secs = divmod(secs, 60) hrs, mins = divmod(mins, 60) return '%02d:%02d:%02d' % (hrs, mins, secs) def format(starttime, n, lenx): out = plainformat(n, lenx) + ' ' if n == lenx: end = ' ' else: end = ' ETA ' end += eta(time.time() - starttime, n, lenx) out += bars(WIDTH - len(out) - len(end), n, lenx) out += end return out starttime = time.time() lenx = len(x) for n, y in enumerate(x): sys.stderr.write('\r' + format(starttime, n, lenx)) yield y sys.stderr.write('\r' + format(starttime, n+1, lenx) + '\n') class IterBetter: """ Returns an object that can be used as an iterator but can also be used via __getitem__ (although it cannot go backwards -- that is, you cannot request `iterbetter[0]` after requesting `iterbetter[1]`). >>> import itertools >>> c = iterbetter(itertools.count()) >>> c[1] 1 >>> c[5] 5 >>> c[3] Traceback (most recent call last): ... IndexError: already passed 3 For boolean test, IterBetter peeps at first value in the itertor without effecting the iteration. >>> c = iterbetter(iter(range(5))) >>> bool(c) True >>> list(c) [0, 1, 2, 3, 4] >>> c = iterbetter(iter([])) >>> bool(c) False >>> list(c) [] """ def __init__(self, iterator): self.i, self.c = iterator, 0 def __iter__(self): if hasattr(self, "_head"): yield self._head while 1: yield self.i.next() self.c += 1 def __getitem__(self, i): #todo: slices if i < self.c: raise IndexError, "already passed "+str(i) try: while i > self.c: self.i.next() self.c += 1 # now self.c == i self.c += 1 return self.i.next() except StopIteration: raise IndexError, str(i) def __nonzero__(self): if hasattr(self, "__len__"): return len(self) != 0 elif hasattr(self, "_head"): return True else: try: self._head = self.i.next() except StopIteration: return False else: return True iterbetter = IterBetter def safeiter(it, cleanup=None, ignore_errors=True): """Makes an iterator safe by ignoring the exceptions occured during the iteration. """ def next(): while True: try: return it.next() except StopIteration: raise except: traceback.print_exc() it = iter(it) while True: yield next() def safewrite(filename, content): """Writes the content to a temp file and then moves the temp file to given filename to avoid overwriting the existing file in case of errors. """ f = file(filename + '.tmp', 'w') f.write(content) f.close() os.rename(f.name, filename) def dictreverse(mapping): """ Returns a new dictionary with keys and values swapped. >>> dictreverse({1: 2, 3: 4}) {2: 1, 4: 3} """ return dict([(value, key) for (key, value) in mapping.iteritems()]) def dictfind(dictionary, element): """ Returns a key whose value in `dictionary` is `element` or, if none exists, None. >>> d = {1:2, 3:4} >>> dictfind(d, 4) 3 >>> dictfind(d, 5) """ for (key, value) in dictionary.iteritems(): if element is value: return key def dictfindall(dictionary, element): """ Returns the keys whose values in `dictionary` are `element` or, if none exists, []. >>> d = {1:4, 3:4} >>> dictfindall(d, 4) [1, 3] >>> dictfindall(d, 5) [] """ res = [] for (key, value) in dictionary.iteritems(): if element is value: res.append(key) return res def dictincr(dictionary, element): """ Increments `element` in `dictionary`, setting it to one if it doesn't exist. >>> d = {1:2, 3:4} >>> dictincr(d, 1) 3 >>> d[1] 3 >>> dictincr(d, 5) 1 >>> d[5] 1 """ dictionary.setdefault(element, 0) dictionary[element] += 1 return dictionary[element] def dictadd(*dicts): """ Returns a dictionary consisting of the keys in the argument dictionaries. If they share a key, the value from the last argument is used. >>> dictadd({1: 0, 2: 0}, {2: 1, 3: 1}) {1: 0, 2: 1, 3: 1} """ result = {} for dct in dicts: result.update(dct) return result def requeue(queue, index=-1): """Returns the element at index after moving it to the beginning of the queue. >>> x = [1, 2, 3, 4] >>> requeue(x) 4 >>> x [4, 1, 2, 3] """ x = queue.pop(index) queue.insert(0, x) return x def restack(stack, index=0): """Returns the element at index after moving it to the top of stack. >>> x = [1, 2, 3, 4] >>> restack(x) 1 >>> x [2, 3, 4, 1] """ x = stack.pop(index) stack.append(x) return x def listget(lst, ind, default=None): """ Returns `lst[ind]` if it exists, `default` otherwise. >>> listget(['a'], 0) 'a' >>> listget(['a'], 1) >>> listget(['a'], 1, 'b') 'b' """ if len(lst)-1 < ind: return default return lst[ind] def intget(integer, default=None): """ Returns `integer` as an int or `default` if it can't. >>> intget('3') 3 >>> intget('3a') >>> intget('3a', 0) 0 """ try: return int(integer) except (TypeError, ValueError): return default def datestr(then, now=None): """ Converts a (UTC) datetime object to a nice string representation. >>> from datetime import datetime, timedelta >>> d = datetime(1970, 5, 1) >>> datestr(d, now=d) '0 microseconds ago' >>> for t, v in { ... timedelta(microseconds=1): '1 microsecond ago', ... timedelta(microseconds=2): '2 microseconds ago', ... -timedelta(microseconds=1): '1 microsecond from now', ... -timedelta(microseconds=2): '2 microseconds from now', ... timedelta(microseconds=2000): '2 milliseconds ago', ... timedelta(seconds=2): '2 seconds ago', ... timedelta(seconds=2*60): '2 minutes ago', ... timedelta(seconds=2*60*60): '2 hours ago', ... timedelta(days=2): '2 days ago', ... }.iteritems(): ... assert datestr(d, now=d+t) == v >>> datestr(datetime(1970, 1, 1), now=d) 'January 1' >>> datestr(datetime(1969, 1, 1), now=d) 'January 1, 1969' >>> datestr(datetime(1970, 6, 1), now=d) 'June 1, 1970' >>> datestr(None) '' """ def agohence(n, what, divisor=None): if divisor: n = n // divisor out = str(abs(n)) + ' ' + what # '2 day' if abs(n) != 1: out += 's' # '2 days' out += ' ' # '2 days ' if n < 0: out += 'from now' else: out += 'ago' return out # '2 days ago' oneday = 24 * 60 * 60 if not then: return "" if not now: now = datetime.datetime.utcnow() if type(now).__name__ == "DateTime": now = datetime.datetime.fromtimestamp(now) if type(then).__name__ == "DateTime": then = datetime.datetime.fromtimestamp(then) elif type(then).__name__ == "date": then = datetime.datetime(then.year, then.month, then.day) delta = now - then deltaseconds = int(delta.days * oneday + delta.seconds + delta.microseconds * 1e-06) deltadays = abs(deltaseconds) // oneday if deltaseconds < 0: deltadays *= -1 # fix for oddity of floor if deltadays: if abs(deltadays) < 4: return agohence(deltadays, 'day') try: out = then.strftime('%B %e') # e.g. 'June 3' except ValueError: # %e doesn't work on Windows. out = then.strftime('%B %d') # e.g. 'June 03' if then.year != now.year or deltadays < 0: out += ', %s' % then.year return out if int(deltaseconds): if abs(deltaseconds) > (60 * 60): return agohence(deltaseconds, 'hour', 60 * 60) elif abs(deltaseconds) > 60: return agohence(deltaseconds, 'minute', 60) else: return agohence(deltaseconds, 'second') deltamicroseconds = delta.microseconds if delta.days: deltamicroseconds = int(delta.microseconds - 1e6) # datetime oddity if abs(deltamicroseconds) > 1000: return agohence(deltamicroseconds, 'millisecond', 1000) return agohence(deltamicroseconds, 'microsecond') def numify(string): """ Removes all non-digit characters from `string`. >>> numify('800-555-1212') '8005551212' >>> numify('800.555.1212') '8005551212' """ return ''.join([c for c in str(string) if c.isdigit()]) def denumify(string, pattern): """ Formats `string` according to `pattern`, where the letter X gets replaced by characters from `string`. >>> denumify("8005551212", "(XXX) XXX-XXXX") '(800) 555-1212' """ out = [] for c in pattern: if c == "X": out.append(string[0]) string = string[1:] else: out.append(c) return ''.join(out) def commify(n): """ Add commas to an integer `n`. >>> commify(1) '1' >>> commify(123) '123' >>> commify(1234) '1,234' >>> commify(1234567890) '1,234,567,890' >>> commify(123.0) '123.0' >>> commify(1234.5) '1,234.5' >>> commify(1234.56789) '1,234.56789' >>> commify('%.2f' % 1234.5) '1,234.50' >>> commify(None) >>> """ if n is None: return None n = str(n) if '.' in n: dollars, cents = n.split('.') else: dollars, cents = n, None r = [] for i, c in enumerate(str(dollars)[::-1]): if i and (not (i % 3)): r.insert(0, ',') r.insert(0, c) out = ''.join(r) if cents: out += '.' + cents return out def dateify(datestring): """ Formats a numified `datestring` properly. """ return denumify(datestring, "XXXX-XX-XX XX:XX:XX") def nthstr(n): """ Formats an ordinal. Doesn't handle negative numbers. >>> nthstr(1) '1st' >>> nthstr(0) '0th' >>> [nthstr(x) for x in [2, 3, 4, 5, 10, 11, 12, 13, 14, 15]] ['2nd', '3rd', '4th', '5th', '10th', '11th', '12th', '13th', '14th', '15th'] >>> [nthstr(x) for x in [91, 92, 93, 94, 99, 100, 101, 102]] ['91st', '92nd', '93rd', '94th', '99th', '100th', '101st', '102nd'] >>> [nthstr(x) for x in [111, 112, 113, 114, 115]] ['111th', '112th', '113th', '114th', '115th'] """ assert n >= 0 if n % 100 in [11, 12, 13]: return '%sth' % n return {1: '%sst', 2: '%snd', 3: '%srd'}.get(n % 10, '%sth') % n def cond(predicate, consequence, alternative=None): """ Function replacement for if-else to use in expressions. >>> x = 2 >>> cond(x % 2 == 0, "even", "odd") 'even' >>> cond(x % 2 == 0, "even", "odd") + '_row' 'even_row' """ if predicate: return consequence else: return alternative class CaptureStdout: """ Captures everything `func` prints to stdout and returns it instead. >>> def idiot(): ... print "foo" >>> capturestdout(idiot)() 'foo\\n' **WARNING:** Not threadsafe! """ def __init__(self, func): self.func = func def __call__(self, *args, **keywords): from cStringIO import StringIO # Not threadsafe! out = StringIO() oldstdout = sys.stdout sys.stdout = out try: self.func(*args, **keywords) finally: sys.stdout = oldstdout return out.getvalue() capturestdout = CaptureStdout class Profile: """ Profiles `func` and returns a tuple containing its output and a string with human-readable profiling information. >>> import time >>> out, inf = profile(time.sleep)(.001) >>> out >>> inf[:10].strip() 'took 0.0' """ def __init__(self, func): self.func = func def __call__(self, *args): ##, **kw): kw unused import hotshot, hotshot.stats, os, tempfile ##, time already imported f, filename = tempfile.mkstemp() os.close(f) prof = hotshot.Profile(filename) stime = time.time() result = prof.runcall(self.func, *args) stime = time.time() - stime prof.close() import cStringIO out = cStringIO.StringIO() stats = hotshot.stats.load(filename) stats.stream = out stats.strip_dirs() stats.sort_stats('time', 'calls') stats.print_stats(40) stats.print_callers() x = '\n\ntook '+ str(stime) + ' seconds\n' x += out.getvalue() # remove the tempfile try: os.remove(filename) except IOError: pass return result, x profile = Profile import traceback # hack for compatibility with Python 2.3: if not hasattr(traceback, 'format_exc'): from cStringIO import StringIO def format_exc(limit=None): strbuf = StringIO() traceback.print_exc(limit, strbuf) return strbuf.getvalue() traceback.format_exc = format_exc def tryall(context, prefix=None): """ Tries a series of functions and prints their results. `context` is a dictionary mapping names to values; the value will only be tried if it's callable. >>> tryall(dict(j=lambda: True)) j: True ---------------------------------------- results: True: 1 For example, you might have a file `test/stuff.py` with a series of functions testing various things in it. At the bottom, have a line: if __name__ == "__main__": tryall(globals()) Then you can run `python test/stuff.py` and get the results of all the tests. """ context = context.copy() # vars() would update results = {} for (key, value) in context.iteritems(): if not hasattr(value, '__call__'): continue if prefix and not key.startswith(prefix): continue print key + ':', try: r = value() dictincr(results, r) print r except: print 'ERROR' dictincr(results, 'ERROR') print ' ' + '\n '.join(traceback.format_exc().split('\n')) print '-'*40 print 'results:' for (key, value) in results.iteritems(): print ' '*2, str(key)+':', value class ThreadedDict(threadlocal): """ Thread local storage. >>> d = ThreadedDict() >>> d.x = 1 >>> d.x 1 >>> import threading >>> def f(): d.x = 2 ... >>> t = threading.Thread(target=f) >>> t.start() >>> t.join() >>> d.x 1 """ _instances = set() def __init__(self): ThreadedDict._instances.add(self) def __del__(self): ThreadedDict._instances.remove(self) def __hash__(self): return id(self) def clear_all(): """Clears all ThreadedDict instances. """ for t in list(ThreadedDict._instances): t.clear() clear_all = staticmethod(clear_all) # Define all these methods to more or less fully emulate dict -- attribute access # is built into threading.local. def __getitem__(self, key): return self.__dict__[key] def __setitem__(self, key, value): self.__dict__[key] = value def __delitem__(self, key): del self.__dict__[key] def __contains__(self, key): return key in self.__dict__ has_key = __contains__ def clear(self): self.__dict__.clear() def copy(self): return self.__dict__.copy() def get(self, key, default=None): return self.__dict__.get(key, default) def items(self): return self.__dict__.items() def iteritems(self): return self.__dict__.iteritems() def keys(self): return self.__dict__.keys() def iterkeys(self): return self.__dict__.iterkeys() iter = iterkeys def values(self): return self.__dict__.values() def itervalues(self): return self.__dict__.itervalues() def pop(self, key, *args): return self.__dict__.pop(key, *args) def popitem(self): return self.__dict__.popitem() def setdefault(self, key, default=None): return self.__dict__.setdefault(key, default) def update(self, *args, **kwargs): self.__dict__.update(*args, **kwargs) def __repr__(self): return '<ThreadedDict %r>' % self.__dict__ __str__ = __repr__ threadeddict = ThreadedDict def autoassign(self, locals): """ Automatically assigns local variables to `self`. >>> self = storage() >>> autoassign(self, dict(a=1, b=2)) >>> self <Storage {'a': 1, 'b': 2}> Generally used in `__init__` methods, as in: def __init__(self, foo, bar, baz=1): autoassign(self, locals()) """ for (key, value) in locals.iteritems(): if key == 'self': continue setattr(self, key, value) def to36(q): """ Converts an integer to base 36 (a useful scheme for human-sayable IDs). >>> to36(35) 'z' >>> to36(119292) '2k1o' >>> int(to36(939387374), 36) 939387374 >>> to36(0) '0' >>> to36(-393) Traceback (most recent call last): ... ValueError: must supply a positive integer """ if q < 0: raise ValueError, "must supply a positive integer" letters = "0123456789abcdefghijklmnopqrstuvwxyz" converted = [] while q != 0: q, r = divmod(q, 36) converted.insert(0, letters[r]) return "".join(converted) or '0' r_url = re_compile('(?<!\()(http://(\S+))') def safemarkdown(text): """ Converts text to HTML following the rules of Markdown, but blocking any outside HTML input, so that only the things supported by Markdown can be used. Also converts raw URLs to links. (requires [markdown.py](http://webpy.org/markdown.py)) """ from markdown import markdown if text: text = text.replace('<', '<') # TODO: automatically get page title? text = r_url.sub(r'<\1>', text) text = markdown(text) return text def sendmail(from_address, to_address, subject, message, headers=None, **kw): """ Sends the email message `message` with mail and envelope headers for from `from_address_` to `to_address` with `subject`. Additional email headers can be specified with the dictionary `headers. Optionally cc, bcc and attachments can be specified as keyword arguments. Attachments must be an iterable and each attachment can be either a filename or a file object or a dictionary with filename, content and optionally content_type keys. If `web.config.smtp_server` is set, it will send the message to that SMTP server. Otherwise it will look for `/usr/sbin/sendmail`, the typical location for the sendmail-style binary. To use sendmail from a different path, set `web.config.sendmail_path`. """ attachments = kw.pop("attachments", []) mail = _EmailMessage(from_address, to_address, subject, message, headers, **kw) for a in attachments: if isinstance(a, dict): mail.attach(a['filename'], a['content'], a.get('content_type')) elif hasattr(a, 'read'): # file filename = os.path.basename(getattr(a, "name", "")) content_type = getattr(a, 'content_type', None) mail.attach(filename, a.read(), content_type) elif isinstance(a, basestring): f = open(a, 'rb') content = f.read() f.close() filename = os.path.basename(a) mail.attach(filename, content, None) else: raise ValueError, "Invalid attachment: %s" % repr(a) mail.send() class _EmailMessage: def __init__(self, from_address, to_address, subject, message, headers=None, **kw): def listify(x): if not isinstance(x, list): return [safestr(x)] else: return [safestr(a) for a in x] subject = safestr(subject) message = safestr(message) from_address = safestr(from_address) to_address = listify(to_address) cc = listify(kw.get('cc', [])) bcc = listify(kw.get('bcc', [])) recipients = to_address + cc + bcc import email.Utils self.from_address = email.Utils.parseaddr(from_address)[1] self.recipients = [email.Utils.parseaddr(r)[1] for r in recipients] self.headers = dictadd({ 'From': from_address, 'To': ", ".join(to_address), 'Subject': subject }, headers or {}) if cc: self.headers['Cc'] = ", ".join(cc) self.message = self.new_message() self.message.add_header("Content-Transfer-Encoding", "7bit") self.message.add_header("Content-Disposition", "inline") self.message.add_header("MIME-Version", "1.0") self.message.set_payload(message, 'utf-8') self.multipart = False def new_message(self): from email.Message import Message return Message() def attach(self, filename, content, content_type=None): if not self.multipart: msg = self.new_message() msg.add_header("Content-Type", "multipart/mixed") msg.attach(self.message) self.message = msg self.multipart = True import mimetypes try: from email import encoders except: from email import Encoders as encoders content_type = content_type or mimetypes.guess_type(filename)[0] or "applcation/octet-stream" msg = self.new_message() msg.set_payload(content) msg.add_header('Content-Type', content_type) msg.add_header('Content-Disposition', 'attachment', filename=filename) if not content_type.startswith("text/"): encoders.encode_base64(msg) self.message.attach(msg) def prepare_message(self): for k, v in self.headers.iteritems(): if k.lower() == "content-type": self.message.set_type(v) else: self.message.add_header(k, v) self.headers = {} def send(self): try: import webapi except ImportError: webapi = Storage(config=Storage()) self.prepare_message() message_text = self.message.as_string() if webapi.config.get('smtp_server'): server = webapi.config.get('smtp_server') port = webapi.config.get('smtp_port', 0) username = webapi.config.get('smtp_username') password = webapi.config.get('smtp_password') debug_level = webapi.config.get('smtp_debuglevel', None) starttls = webapi.config.get('smtp_starttls', False) import smtplib smtpserver = smtplib.SMTP(server, port) if debug_level: smtpserver.set_debuglevel(debug_level) if starttls: smtpserver.ehlo() smtpserver.starttls() smtpserver.ehlo() if username and password: smtpserver.login(username, password) smtpserver.sendmail(self.from_address, self.recipients, message_text) smtpserver.quit() elif webapi.config.get('email_engine') == 'aws': import boto.ses c = boto.ses.SESConnection( aws_access_key_id=webapi.config.get('aws_access_key_id'), aws_secret_access_key=web.api.config.get('aws_secret_access_key')) c.send_raw_email(self.from_address, message_text, self.from_recipients) else: sendmail = webapi.config.get('sendmail_path', '/usr/sbin/sendmail') assert not self.from_address.startswith('-'), 'security' for r in self.recipients: assert not r.startswith('-'), 'security' cmd = [sendmail, '-f', self.from_address] + self.recipients if subprocess: p = subprocess.Popen(cmd, stdin=subprocess.PIPE) p.stdin.write(message_text) p.stdin.close() p.wait() else: i, o = os.popen2(cmd) i.write(message) i.close() o.close() del i, o def __repr__(self): return "<EmailMessage>" def __str__(self): return self.message.as_string() if __name__ == "__main__": import doctest doctest.testmod()
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