def framesToFrameRange(frames, sort=True, zfill=0, compress=False):
"""
Converts an iterator of frames into a
:class:`fileseq.framerange.FrameRange`.
:type frames: iterable
:param frames: sequence of frames to process
:type sort: bool
:param sort: sort the sequence before processing
:type zfill: int
:param zfill: width for zero padding
:type compress: bool
:param compress: remove any duplicates before processing
:rtype: str
"""
if compress:
frames = unique(set(), frames)
frames = list(frames)
if not frames:
return ''
if len(frames) == 1:
return pad(frames[0], zfill)
if sort:
frames.sort()
return ','.join(FrameSet.framesToFrameRanges(frames, zfill))
def framesToFrameRange(frames, sort=True, zfill=0, compress=False):
"""
Converts an iterator of frames into a
frame range string.
Args:
frames (collections.Iterable): sequence of frames to process
sort (bool): sort the sequence before processing
zfill (int): width for zero padding
compress (bool): remove any duplicates before processing
Returns:
str:
"""
if compress:
frames = unique(set(), frames)
frames = list(frames)
if not frames:
return ''
if len(frames) == 1:
return pad(frames[0], zfill)
if sort:
frames.sort()
ret = ','.join(FrameSet.framesToFrameRanges(frames, zfill))
return futils.native_str(ret)
def framesToFrameRange(frames, sort=True, zfill=0, compress=False):
"""
Converts an iterator of frames into a
:class:`fileseq.framerange.FrameRange`.
:type frames: iterable
:param frames: sequence of frames to process
:type sort: bool
:param sort: sort the sequence before processing
:type zfill: int
:param zfill: width for zero padding
:type compress: bool
:param compress: remove any duplicates before processing
:rtype: str
"""
if compress:
frames = unique(set(), frames)
frames = list(frames)
if not frames:
return ''
if len(frames) == 1:
return pad(frames[0], zfill)
if sort:
frames.sort()
return ','.join(FrameSet.framesToFrameRanges(frames, zfill))
def framesToFrameRange(frames, sort=True, zfill=0, compress=False):
"""
Converts an iterator of frames into a FrameRange.
:param frames: sequence of frames to process (iter)
:param sort: sort the sequence before processing (bool)
:param zfill: width for zero padding (int)
:param compress: remove any duplicates before processing (bool)
:return: str
"""
if compress:
frames = unique(set(), frames)
frames = list(frames)
if not frames:
return ''
if len(frames) == 1:
return pad(frames[0], zfill)
if sort:
frames.sort()
return ','.join(FrameSet.framesToFrameRanges(frames, zfill))
def framesToFrameRange(frames, sort=True, zfill=0, compress=False):
"""
Converts an iterator of frames into a
frame range string.
Args:
frames (collections.Iterable): sequence of frames to process
sort (bool): sort the sequence before processing
zfill (int): width for zero padding
compress (bool): remove any duplicates before processing
Returns:
str:
"""
if compress:
frames = unique(set(), frames)
frames = list(frames)
if not frames:
return u''
if len(frames) == 1:
return pad(frames[0], zfill)
if sort:
frames.sort()
return u','.join(FrameSet.framesToFrameRanges(frames, zfill))
def __init__(self, frange):
# if the user provides anything but a string, short-circuit the build
if not isinstance(frange, basestring):
# if it's apparently a FrameSet already, short-circuit the build
if set(dir(frange)).issuperset(self.__slots__):
for attr in self.__slots__:
setattr(self, attr, getattr(frange, attr))
return
# if it's inherently disordered, sort and build
elif isinstance(frange, Set):
self._maxSizeCheck(frange)
self._items = frozenset(map(int, frange))
self._order = tuple(sorted(self._items))
self._frange = FrameSet.framesToFrameRange(self._order,
sort=False,
compress=False)
return
# if it's ordered, find unique and build
elif isinstance(frange, Sequence):
self._maxSizeCheck(frange)
items = set()
order = unique(items, map(int, frange))
self._order = tuple(order)
self._items = frozenset(items)
self._frange = FrameSet.framesToFrameRange(self._order,
sort=False,
compress=False)
return
# in all other cases, cast to a string
else:
try:
frange = str(frange)
except Exception as err:
msg = 'Could not parse "{0}": cast to string raised: {1}'
raise ParseException(msg.format(frange, err))
# we're willing to trim padding characters from consideration
# this translation is orders of magnitude faster than prior method
self._frange = str(frange).translate(None, ''.join(PAD_MAP.keys()))
# because we're acting like a set, we need to support the empty set
if not self._frange:
self._items = frozenset()
self._order = tuple()
return
# build the mutable stores, then cast to immutable for storage
items = set()
order = []
maxSize = constants.MAX_FRAME_SIZE
for part in self._frange.split(","):
# this is to deal with leading / trailing commas
if not part:
continue
# parse the partial range
start, end, modifier, chunk = FrameSet._parse_frange_part(part)
# handle batched frames (1-100x5)
if modifier == 'x':
frames = xfrange(start, end, chunk, maxSize=maxSize)
frames = [f for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# handle staggered frames (1-100:5)
elif modifier == ':':
for stagger in xrange(chunk, 0, -1):
frames = xfrange(start, end, stagger, maxSize=maxSize)
frames = [f for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# handle filled frames (1-100y5)
elif modifier == 'y':
not_good = frozenset(
xfrange(start, end, chunk, maxSize=maxSize))
frames = xfrange(start, end, 1, maxSize=maxSize)
frames = (f for f in frames if f not in not_good)
frames = [f for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# handle full ranges and single frames
else:
frames = xfrange(start,
end,
1 if start < end else -1,
maxSize=maxSize)
frames = [f for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# lock the results into immutable internals
# this allows for hashing and fast equality checking
self._items = frozenset(items)
self._order = tuple(order)
def __init__(self, frange):
"""Initialize the :class:`FrameSet` object.
"""
# if the user provides anything but a string, short-circuit the build
if not isinstance(frange, futils.string_types):
# if it's apparently a FrameSet already, short-circuit the build
if set(dir(frange)).issuperset(self.__slots__):
for attr in self.__slots__:
setattr(self, attr, getattr(frange, attr))
return
# if it's inherently disordered, sort and build
elif isinstance(frange, Set):
self._maxSizeCheck(frange)
self._items = frozenset(normalizeFrames(frange))
self._order = tuple(sorted(self._items))
self._frange = self.framesToFrameRange(
self._order, sort=False, compress=False)
return
# if it's ordered, find unique and build
elif isinstance(frange, Sequence):
self._maxSizeCheck(frange)
items = set()
order = unique(items, normalizeFrames(frange))
self._order = tuple(order)
self._items = frozenset(items)
self._frange = self.framesToFrameRange(
self._order, sort=False, compress=False)
return
# if it's an individual number build directly
elif isinstance(frange, futils.integer_types + (float, decimal.Decimal)):
frame = normalizeFrame(frange)
self._order = (frame, )
self._items = frozenset([frame])
self._frange = self.framesToFrameRange(
self._order, sort=False, compress=False)
# in all other cases, cast to a string
else:
try:
frange = asString(frange)
except Exception as err:
msg = 'Could not parse "{0}": cast to string raised: {1}'
raise ParseException(msg.format(frange, err))
# we're willing to trim padding characters from consideration
# this translation is orders of magnitude faster than prior method
if futils.PY2:
frange = bytes(frange).translate(None, ''.join(self.PAD_MAP.keys()))
self._frange = asString(frange)
else:
frange = str(frange)
for key in self.PAD_MAP:
frange = frange.replace(key, '')
self._frange = asString(frange)
# because we're acting like a set, we need to support the empty set
if not self._frange:
self._items = frozenset()
self._order = tuple()
return
# build the mutable stores, then cast to immutable for storage
items = set()
order = []
maxSize = constants.MAX_FRAME_SIZE
frange_parts = []
frange_types = []
for part in self._frange.split(","):
# this is to deal with leading / trailing commas
if not part:
continue
# parse the partial range
start, end, modifier, chunk = self._parse_frange_part(part)
frange_parts.append((start, end, modifier, chunk))
frange_types.extend(map(type, (start, end, chunk)))
# Determine best type for numbers in range. Note that
# _parse_frange_part will always return decimal.Decimal for subframes
FrameType = int
if decimal.Decimal in frange_types:
FrameType = decimal.Decimal
for start, end, modifier, chunk in frange_parts:
# handle batched frames (1-100x5)
if modifier == 'x':
frames = xfrange(start, end, chunk, maxSize=maxSize)
frames = [FrameType(f) for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# handle staggered frames (1-100:5)
elif modifier == ':':
if '.' in futils.native_str(chunk):
raise ValueError("Unable to stagger subframes")
for stagger in range(chunk, 0, -1):
frames = xfrange(start, end, stagger, maxSize=maxSize)
frames = [f for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# handle filled frames (1-100y5)
elif modifier == 'y':
if '.' in futils.native_str(chunk):
raise ValueError("Unable to fill subframes")
not_good = frozenset(xfrange(start, end, chunk, maxSize=maxSize))
frames = xfrange(start, end, 1, maxSize=maxSize)
frames = (f for f in frames if f not in not_good)
frames = [f for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# handle full ranges and single frames
else:
frames = xfrange(start, end, 1 if start < end else -1, maxSize=maxSize)
frames = [FrameType(f) for f in frames if f not in items]
self._maxSizeCheck(len(frames) + len(items))
order.extend(frames)
items.update(frames)
# lock the results into immutable internals
# this allows for hashing and fast equality checking
self._items = frozenset(items)
self._order = tuple(order)
def __init__(self, frange):
# if the user provides anything but a string, short-circuit the build
if not isinstance(frange, basestring):
# if it's apparently a FrameSet already, short-circuit the build
if set(dir(frange)).issuperset(self.__slots__):
for attr in self.__slots__:
setattr(self, attr, getattr(frange, attr))
return
# if it's inherently disordered, sort and build
elif isinstance(frange, Set):
self._items = frozenset(map(int, frange))
self._order = tuple(sorted(self._items))
self._frange = FrameSet.framesToFrameRange(
self._order, sort=False, compress=False)
return
# if it's ordered, find unique and build
elif isinstance(frange, Sequence):
items = set()
order = unique(items, map(int, frange))
self._order = tuple(order)
self._items = frozenset(items)
self._frange = FrameSet.framesToFrameRange(
self._order, sort=False, compress=False)
return
# in all other cases, cast to a string
else:
try:
frange = str(frange)
except Exception as err:
msg = 'Could not parse "{0}": cast to string raised: {1}'
raise ParseException(msg.format(frange, err))
# we're willing to trim padding characters from consideration
# this translation is orders of magnitude faster than prior method
self._frange = str(frange).translate(None, ''.join(PAD_MAP.keys()))
# because we're acting like a set, we need to support the empty set
if not self._frange:
self._items = frozenset()
self._order = tuple()
return
# build the mutable stores, then cast to immutable for storage
items = set()
order = []
for part in self._frange.split(","):
# this is to deal with leading / trailing commas
if not part:
continue
# parse the partial range
start, end, modifier, chunk = FrameSet._parse_frange_part(part)
# handle batched frames (1-100x5)
if modifier == 'x':
frames = xfrange(start, end, chunk)
frames = [f for f in frames if f not in items]
order.extend(frames)
items.update(frames)
# handle staggered frames (1-100:5)
elif modifier == ':':
for stagger in xrange(chunk, 0, -1):
frames = xfrange(start, end, stagger)
frames = [f for f in frames if f not in items]
order.extend(frames)
items.update(frames)
# handle filled frames (1-100y5)
elif modifier == 'y':
not_good = frozenset(xfrange(start, end, chunk))
frames = xfrange(start, end, 1)
frames = (f for f in frames if f not in not_good)
frames = [f for f in frames if f not in items]
order.extend(frames)
items.update(frames)
# handle full ranges and single frames
else:
frames = xfrange(start, end, 1 if start < end else -1)
frames = [f for f in frames if f not in items]
order.extend(frames)
items.update(frames)
# lock the results into immutable internals
# this allows for hashing and fast equality checking
self._items = frozenset(items)
self._order = tuple(order)
