"""
Useful functions. If non-original, see function for citation.
"""
from __future__ import print_function
#-----------------------------------------------------------------------------
# Copyright (c) 2013, yt Development Team.
#
# Distributed under the terms of the Modified BSD License.
#
# The full license is in the file COPYING.txt, distributed with this software.
#-----------------------------------------------------------------------------
from yt.extern.six import string_types
import time, types, signal, inspect, traceback, sys, pdb, os, re
import contextlib
import warnings, struct, subprocess
import numpy as np
from distutils.version import LooseVersion
from math import floor, ceil
from numbers import Number as numeric_type
from yt.extern.six.moves import builtins, urllib
from yt.utilities.exceptions import *
from yt.utilities.logger import ytLogger as mylog
import yt.extern.progressbar as pb
import yt.utilities.rpdb as rpdb
from yt.units.yt_array import YTArray, YTQuantity
from collections import defaultdict
from functools import wraps
# Some functions for handling sequences and other types
[docs]def iterable(obj):
"""
Grabbed from Python Cookbook / matploblib.cbook. Returns true/false for
*obj* iterable.
"""
try: len(obj)
except: return False
return True
[docs]def ensure_list(obj):
"""
This function ensures that *obj* is a list. Typically used to convert a
string to a list, for instance ensuring the *fields* as an argument is a
list.
"""
if obj is None:
return [obj]
if not isinstance(obj, list):
return [obj]
return obj
def ensure_numpy_array(obj):
"""
This function ensures that *obj* is a numpy array. Typically used to
convert scalar, list or tuple argument passed to functions using Cython.
"""
if isinstance(obj, np.ndarray):
if obj.shape == ():
return np.array([obj])
# We cast to ndarray to catch ndarray subclasses
return np.array(obj)
elif isinstance(obj, (list, tuple)):
return np.asarray(obj)
else:
return np.asarray([obj])
def ensure_tuple(obj):
"""
This function ensures that *obj* is a tuple. Typically used to convert
scalar, list, or array arguments specified by a user in a context where
we assume a tuple internally
"""
if isinstance(obj, tuple):
return obj
elif isinstance(obj, (list, np.ndarray)):
return tuple(obj)
else:
return (obj,)
def read_struct(f, fmt):
"""
This reads a struct, and only that struct, from an open file.
"""
s = f.read(struct.calcsize(fmt))
return struct.unpack(fmt, s)
[docs]def just_one(obj):
# If we have an iterable, sometimes we only want one item
if hasattr(obj,'flat'):
if isinstance(obj, YTArray):
return YTQuantity(obj.flat[0], obj.units, registry=obj.units.registry)
return obj.flat[0]
elif iterable(obj):
return obj[0]
return obj
def compare_dicts(dict1, dict2):
if not set(dict1) <= set(dict2):
return False
for key in dict1.keys():
if dict1[key] is not None and dict2[key] is not None:
if isinstance(dict1[key], dict):
if compare_dicts(dict1[key], dict2[key]):
continue
else:
return False
try:
comparison = (dict1[key] == dict2[key]).all()
except AttributeError:
comparison = (dict1[key] == dict2[key])
if not comparison:
return False
return True
# Taken from
# http://www.goldb.org/goldblog/2008/02/06/PythonConvertSecsIntoHumanReadableTimeStringHHMMSS.aspx
[docs]def humanize_time(secs):
"""
Takes *secs* and returns a nicely formatted string
"""
mins, secs = divmod(secs, 60)
hours, mins = divmod(mins, 60)
return '%02d:%02d:%02d' % (hours, mins, secs)
#
# Some function wrappers that come in handy once in a while
#
# we use the resource module to get the memory page size
try:
import resource
except ImportError:
pass
def get_memory_usage(subtract_share = False):
"""
Returning resident size in megabytes
"""
pid = os.getpid()
try:
pagesize = resource.getpagesize()
except NameError:
return -1024
status_file = "/proc/%s/statm" % (pid)
if not os.path.isfile(status_file):
return -1024
line = open(status_file).read()
size, resident, share, text, library, data, dt = [int(i) for i in line.split()]
if subtract_share: resident -= share
return resident * pagesize / (1024 * 1024) # return in megs
[docs]def time_execution(func):
r"""
Decorator for seeing how long a given function takes, depending on whether
or not the global 'yt.timefunctions' config parameter is set.
"""
@wraps(func)
def wrapper(*arg, **kw):
t1 = time.time()
res = func(*arg, **kw)
t2 = time.time()
mylog.debug('%s took %0.3f s', func.__name__, (t2-t1))
return res
from yt.config import ytcfg
if ytcfg.getboolean("yt","timefunctions") == True:
return wrapper
else:
return func
[docs]def print_tb(func):
"""
This function is used as a decorate on a function to have the calling stack
printed whenever that function is entered.
This can be used like so:
.. code-block:: python
@print_tb
def some_deeply_nested_function(...):
"""
@wraps(func)
def run_func(*args, **kwargs):
traceback.print_stack()
return func(*args, **kwargs)
return run_func
[docs]def rootonly(func):
"""
This is a decorator that, when used, will only call the function on the
root processor and then broadcast the results of the function to all other
processors.
This can be used like so:
.. code-block:: python
@rootonly
def some_root_only_function(...):
"""
from yt.config import ytcfg
@wraps(func)
def check_parallel_rank(*args, **kwargs):
if ytcfg.getint("yt","__topcomm_parallel_rank") > 0:
return
return func(*args, **kwargs)
return check_parallel_rank
def rootloginfo(*args):
from yt.config import ytcfg
if ytcfg.getint("yt", "__topcomm_parallel_rank") > 0: return
mylog.info(*args)
[docs]def deprecate(func):
"""
This decorator issues a deprecation warning.
This can be used like so:
.. code-block:: python
@deprecate
def some_really_old_function(...):
"""
@wraps(func)
def run_func(*args, **kwargs):
warnings.warn("%s has been deprecated and may be removed without notice!" \
% func.__name__, DeprecationWarning, stacklevel=2)
func(*args, **kwargs)
return run_func
[docs]def pdb_run(func):
"""
This decorator inserts a pdb session on top of the call-stack into a
function.
This can be used like so:
.. code-block:: python
@pdb_run
def some_function_to_debug(...):
"""
@wraps(func)
def wrapper(*args, **kw):
pdb.runcall(func, *args, **kw)
return wrapper
__header = """
== Welcome to the embedded IPython Shell ==
You are currently inside the function:
%(fname)s
Defined in:
%(filename)s:%(lineno)s
"""
def get_ipython_api_version():
import IPython
if LooseVersion(IPython.__version__) <= LooseVersion('0.10'):
api_version = '0.10'
elif LooseVersion(IPython.__version__) <= LooseVersion('1.0'):
api_version = '0.11'
else:
api_version = '1.0'
return api_version
[docs]def insert_ipython(num_up=1):
"""
Placed inside a function, this will insert an IPython interpreter at that
current location. This will enabled detailed inspection of the current
exeuction environment, as well as (optional) modification of that environment.
*num_up* refers to how many frames of the stack get stripped off, and
defaults to 1 so that this function itself is stripped off.
"""
api_version = get_ipython_api_version()
frame = inspect.stack()[num_up]
loc = frame[0].f_locals.copy()
glo = frame[0].f_globals
dd = dict(fname = frame[3], filename = frame[1],
lineno = frame[2])
if api_version == '0.10':
ipshell = IPython.Shell.IPShellEmbed()
ipshell(header = __header % dd,
local_ns = loc, global_ns = glo)
else:
from IPython.config.loader import Config
cfg = Config()
cfg.InteractiveShellEmbed.local_ns = loc
cfg.InteractiveShellEmbed.global_ns = glo
IPython.embed(config=cfg, banner2 = __header % dd)
if api_version == '0.11':
from IPython.frontend.terminal.embed import InteractiveShellEmbed
else:
from IPython.terminal.embed import InteractiveShellEmbed
ipshell = InteractiveShellEmbed(config=cfg)
del ipshell
#
# Our progress bar types and how to get one
#
class DummyProgressBar(object):
# This progressbar gets handed if we don't
# want ANY output
def __init__(self, *args, **kwargs):
return
def update(self, *args, **kwargs):
return
def finish(self, *args, **kwargs):
return
class ParallelProgressBar(object):
# This is just a simple progress bar
# that prints on start/stop
def __init__(self, title, maxval):
self.title = title
mylog.info("Starting '%s'", title)
def update(self, *args, **kwargs):
return
def finish(self):
mylog.info("Finishing '%s'", self.title)
class GUIProgressBar(object):
def __init__(self, title, maxval):
import wx
self.maxval = maxval
self.last = 0
self._pbar = wx.ProgressDialog("Working...",
title, maximum=maxval,
style=wx.PD_REMAINING_TIME|wx.PD_ELAPSED_TIME|wx.PD_APP_MODAL)
def update(self, val):
# An update is only meaningful if it's on the order of 1/100 or greater
if ceil(100*self.last / self.maxval) + 1 == \
floor(100*val / self.maxval) or val == self.maxval:
self._pbar.Update(val)
self.last = val
def finish(self):
self._pbar.Destroy()
[docs]def get_pbar(title, maxval):
"""
This returns a progressbar of the most appropriate type, given a *title*
and a *maxval*.
"""
maxval = max(maxval, 1)
from yt.config import ytcfg
if ytcfg.getboolean("yt", "suppressStreamLogging") or \
"__IPYTHON__" in dir(builtins) or \
ytcfg.getboolean("yt", "__withintesting"):
return DummyProgressBar()
elif ytcfg.getboolean("yt", "__withinreason"):
from yt.gui.reason.extdirect_repl import ExtProgressBar
return ExtProgressBar(title, maxval)
elif ytcfg.getboolean("yt", "__parallel"):
return ParallelProgressBar(title, maxval)
widgets = [ title,
pb.Percentage(), ' ',
pb.Bar(marker=pb.RotatingMarker()),
' ', pb.ETA(), ' ']
pbar = pb.ProgressBar(widgets=widgets,
maxval=maxval).start()
return pbar
[docs]def only_on_root(func, *args, **kwargs):
"""
This function accepts a *func*, a set of *args* and *kwargs* and then only
on the root processor calls the function. All other processors get "None"
handed back.
"""
from yt.config import ytcfg
if kwargs.pop("global_rootonly", False):
cfg_option = "__global_parallel_rank"
else:
cfg_option = "__topcomm_parallel_rank"
if not ytcfg.getboolean("yt","__parallel"):
return func(*args,**kwargs)
if ytcfg.getint("yt", cfg_option) > 0: return
return func(*args, **kwargs)
[docs]def is_root():
"""
This function returns True if it is on the root processor of the
topcomm and False otherwise.
"""
from yt.config import ytcfg
cfg_option = "__topcomm_parallel_rank"
if not ytcfg.getboolean("yt","__parallel"):
return True
if ytcfg.getint("yt", cfg_option) > 0:
return False
return True
#
# Our signal and traceback handling functions
#
def signal_print_traceback(signo, frame):
print(traceback.print_stack(frame))
def signal_problem(signo, frame):
raise RuntimeError()
def signal_ipython(signo, frame):
insert_ipython(2)
[docs]def paste_traceback(exc_type, exc, tb):
"""
This is a traceback handler that knows how to paste to the pastebin.
Should only be used in sys.excepthook.
"""
sys.__excepthook__(exc_type, exc, tb)
from yt.extern.six.moves import StringIO, xmlrpc_client
p = xmlrpc_client.ServerProxy(
"http://paste.yt-project.org/xmlrpc/",
allow_none=True)
s = StringIO()
traceback.print_exception(exc_type, exc, tb, file=s)
s = s.getvalue()
ret = p.pastes.newPaste('pytb', s, None, '', '', True)
print()
print("Traceback pasted to http://paste.yt-project.org/show/%s" % (ret))
print()
def paste_traceback_detailed(exc_type, exc, tb):
"""
This is a traceback handler that knows how to paste to the pastebin.
Should only be used in sys.excepthook.
"""
import cgitb
from yt.extern.six.moves import StringIO, xmlrpc_client
s = StringIO()
handler = cgitb.Hook(format="text", file = s)
handler(exc_type, exc, tb)
s = s.getvalue()
print(s)
p = xmlrpc_client.ServerProxy(
"http://paste.yt-project.org/xmlrpc/",
allow_none=True)
ret = p.pastes.newPaste('text', s, None, '', '', True)
print()
print("Traceback pasted to http://paste.yt-project.org/show/%s" % (ret))
print()
_ss = "fURbBUUBE0cLXgETJnZgJRMXVhVGUQpQAUBuehQMUhJWRFFRAV1ERAtBXw1dAxMLXT4zXBFfABNN\nC0ZEXw1YUURHCxMXVlFERwxWCQw=\n"
def _rdbeta(key):
import itertools, base64
enc_s = base64.decodestring(_ss)
dec_s = ''.join([ chr(ord(a) ^ ord(b)) for a, b in zip(enc_s, itertools.cycle(key)) ])
print(dec_s)
#
# Some exceptions
#
class NoCUDAException(Exception):
pass
class YTEmptyClass(object):
pass
def update_hg(path, skip_rebuild = False):
if sys.version_info >= (3,0,0):
print("python-hglib does not currently work with Python 3,")
print("so this function is currently disabled.")
return -1
try:
import hglib
except ImportError:
print("Updating requires python-hglib to be installed.")
print("Try: pip install python-hglib")
return -1
f = open(os.path.join(path, "yt_updater.log"), "a")
repo = hglib.open(path)
repo.pull()
ident = repo.identify()
if "+" in ident:
print("Can't rebuild modules by myself.")
print("You will have to do this yourself. Here's a sample commands:")
print("")
print(" $ cd %s" % (path))
print(" $ hg up")
print(" $ %s setup.py develop" % (sys.executable))
return 1
print("Updating the repository")
f.write("Updating the repository\n\n")
repo.update(check=True)
f.write("Updated from %s to %s\n\n" % (ident, repo.identify()))
if skip_rebuild: return
f.write("Rebuilding modules\n\n")
p = subprocess.Popen([sys.executable, "setup.py", "build_ext", "-i"], cwd=path,
stdout = subprocess.PIPE, stderr = subprocess.STDOUT)
stdout, stderr = p.communicate()
f.write(stdout)
f.write("\n\n")
if p.returncode:
print("BROKEN: See %s" % (os.path.join(path, "yt_updater.log")))
sys.exit(1)
f.write("Successful!\n")
print("Updated successfully.")
def get_hg_version(path):
if sys.version_info >= (3,0,0):
print("python-hglib does not currently work with Python 3,")
print("so this function is currently disabled.")
return -1
try:
import hglib
except ImportError:
print("Updating and precise version information requires ")
print("python-hglib to be installed.")
print("Try: pip install python-hglib")
return -1
repo = hglib.open(path)
return repo.identify()
def get_yt_version():
try:
from yt.__hg_version__ import hg_version
return hg_version
except ImportError:
pass
import pkg_resources
yt_provider = pkg_resources.get_provider("yt")
path = os.path.dirname(yt_provider.module_path)
version = get_hg_version(path)[:12]
return version
def get_version_stack():
import numpy, matplotlib, h5py
version_info = {}
version_info['yt'] = get_yt_version()
version_info['numpy'] = numpy.version.version
version_info['matplotlib'] = matplotlib.__version__
version_info['h5py'] = h5py.version.version
return version_info
def get_script_contents():
top_frame = inspect.stack()[-1]
finfo = inspect.getframeinfo(top_frame[0])
if finfo[2] != "<module>": return None
if not os.path.exists(finfo[0]): return None
try:
contents = open(finfo[0]).read()
except:
contents = None
return contents
def download_file(url, filename):
class MyURLopener(urllib.request.FancyURLopener):
def http_error_default(self, url, fp, errcode, errmsg, headers):
raise RuntimeError("Attempt to download file from %s failed with error %s: %s." % \
(url, errcode, errmsg))
fn, h = MyURLopener().retrieve(url, filename)
return fn
# This code snippet is modified from Georg Brandl
def bb_apicall(endpoint, data, use_pass = True):
uri = 'https://api.bitbucket.org/1.0/%s/' % endpoint
# since bitbucket doesn't return the required WWW-Authenticate header when
# making a request without Authorization, we cannot use the standard urllib2
# auth handlers; we have to add the requisite header from the start
if data is not None:
data = urllib.parse.urlencode(data)
req = urllib.request.Request(uri, data)
if use_pass:
username = raw_input("Bitbucket Username? ")
password = getpass.getpass()
upw = '%s:%s' % (username, password)
req.add_header('Authorization', 'Basic %s' % base64.b64encode(upw).strip())
return urllib.request.urlopen(req).read()
def get_yt_supp():
supp_path = os.path.join(os.environ["YT_DEST"], "src",
"yt-supplemental")
# Now we check that the supplemental repository is checked out.
if not os.path.isdir(supp_path):
print()
print("*** The yt-supplemental repository is not checked ***")
print("*** out. I can do this for you, but because this ***")
print("*** is a delicate act, I require you to respond ***")
print("*** to the prompt with the word 'yes'. ***")
print()
response = raw_input("Do you want me to try to check it out? ")
if response != "yes":
print()
print("Okay, I understand. You can check it out yourself.")
print("This command will do it:")
print()
print("$ hg clone http://bitbucket.org/yt_analysis/yt-supplemental/ ", end=' ')
print("%s" % (supp_path))
print()
sys.exit(1)
rv = commands.clone(uu,
"http://bitbucket.org/yt_analysis/yt-supplemental/", supp_path)
if rv:
print("Something has gone wrong. Quitting.")
sys.exit(1)
# Now we think we have our supplemental repository.
return supp_path
def fix_length(length, ds=None):
assert ds is not None
if ds is not None:
registry = ds.unit_registry
else:
registry = None
if isinstance(length, YTArray):
if registry is not None:
length.units.registry = registry
return length.in_units("code_length")
if isinstance(length, numeric_type):
return YTArray(length, 'code_length', registry=registry)
length_valid_tuple = isinstance(length, (list, tuple)) and len(length) == 2
unit_is_string = isinstance(length[1], str)
if length_valid_tuple and unit_is_string:
return YTArray(*length, registry=registry)
else:
raise RuntimeError("Length %s is invalid" % str(length))
@contextlib.contextmanager
def parallel_profile(prefix):
r"""A context manager for profiling parallel code execution using cProfile
This is a simple context manager that automatically profiles the execution
of a snippet of code.
Parameters
----------
prefix : string
A string name to prefix outputs with.
Examples
--------
>>> with parallel_profile('my_profile'):
... yt.PhasePlot(ds.all_data(), 'density', 'temperature', 'cell_mass')
"""
import cProfile
from yt.config import ytcfg
fn = "%s_%04i_%04i.cprof" % (prefix,
ytcfg.getint("yt", "__topcomm_parallel_size"),
ytcfg.getint("yt", "__topcomm_parallel_rank"))
p = cProfile.Profile()
p.enable()
yield fn
p.disable()
p.dump_stats(fn)
def get_num_threads():
from .config import ytcfg
nt = ytcfg.getint("yt","numthreads")
if nt < 0:
return os.environ.get("OMP_NUM_THREADS", 0)
return nt
def fix_axis(axis, ds):
return ds.coordinates.axis_id.get(axis, axis)
def get_image_suffix(name):
suffix = os.path.splitext(name)[1]
return suffix if suffix in ['.png', '.eps', '.ps', '.pdf'] else ''
def ensure_dir_exists(path):
r"""Create all directories in path recursively in a parallel safe manner"""
my_dir = os.path.dirname(path)
if not my_dir:
return
if not os.path.exists(my_dir):
only_on_root(os.makedirs, my_dir)
def ensure_dir(path):
r"""Parallel safe directory maker."""
if not os.path.exists(path):
only_on_root(os.makedirs, path)
return path
def validate_width_tuple(width):
if not iterable(width) or len(width) != 2:
raise YTInvalidWidthError("width (%s) is not a two element tuple" % width)
if not isinstance(width[0], numeric_type) and isinstance(width[1], string_types):
msg = "width (%s) is invalid. " % str(width)
msg += "Valid widths look like this: (12, 'au')"
raise YTInvalidWidthError(msg)
def camelcase_to_underscore(name):
s1 = re.sub('(.)([A-Z][a-z]+)', r'\1_\2', name)
return re.sub('([a-z0-9])([A-Z])', r'\1_\2', s1).lower()
def set_intersection(some_list):
if len(some_list) == 0: return set([])
# This accepts a list of iterables, which we get the intersection of.
s = set(some_list[0])
for l in some_list[1:]:
s.intersection_update(l)
return s
@contextlib.contextmanager
def memory_checker(interval = 15, dest = None):
r"""This is a context manager that monitors memory usage.
Parameters
----------
interval : int
The number of seconds between printing the current memory usage in
gigabytes of the current Python interpreter.
Examples
--------
>>> with memory_checker(10):
... arr = np.zeros(1024*1024*1024, dtype="float64")
... time.sleep(15)
... del arr
"""
import threading
if dest is None:
dest = sys.stdout
class MemoryChecker(threading.Thread):
def __init__(self, event, interval):
self.event = event
self.interval = interval
threading.Thread.__init__(self)
def run(self):
while not self.event.wait(self.interval):
print("MEMORY: %0.3e gb" % (get_memory_usage()/1024.), file=dest)
e = threading.Event()
mem_check = MemoryChecker(e, interval)
mem_check.start()
try:
yield
finally:
e.set()
def deprecated_class(cls):
@wraps(cls)
def _func(*args, **kwargs):
# Note we use SyntaxWarning because by default, DeprecationWarning is
# not shown.
warnings.warn(
"This usage is deprecated. Please use %s instead." % cls.__name__,
SyntaxWarning, stacklevel=2)
return cls(*args, **kwargs)
return _func
def enable_plugins():
import yt
from yt.fields.my_plugin_fields import my_plugins_fields
from yt.config import ytcfg
my_plugin_name = ytcfg.get("yt","pluginfilename")
# We assume that it is with respect to the $HOME/.yt directory
if os.path.isfile(my_plugin_name):
_fn = my_plugin_name
else:
_fn = os.path.expanduser("~/.yt/%s" % my_plugin_name)
if os.path.isfile(_fn):
mylog.info("Loading plugins from %s", _fn)
execdict = yt.__dict__.copy()
execdict['add_field'] = my_plugins_fields.add_field
with open(_fn) as f:
code = compile(f.read(), _fn, 'exec')
exec(code, execdict)
def fix_unitary(u):
if u == '1':
return 'unitary'
else:
return u