bytes(iterable_of_ints) -> bytes
tf.experimental.numpy.string_(
*args, **kwargs
)
bytes(string, encoding[, errors]) -> bytes bytes(bytes_or_buffer) -> immutable copy of bytes_or_buffer bytes(int) -> bytes object of size given by the parameter initialized with null bytes bytes() -> empty bytes object
Construct an immutable array of bytes from:
- an iterable yielding integers in range(256)
- a text string encoded using the specified encoding
- any object implementing the buffer API.
- an integer
Methods
all
all()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
any
any()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
argmax
argmax()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
argmin
argmin()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
argsort
argsort()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
astype
astype()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
byteswap
byteswap()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
capitalize
capitalize()
B.capitalize() -> copy of B
Return a copy of B with only its first character capitalized (ASCII) and the rest lower-cased.
center
center()
B.center(width[, fillchar]) -> copy of B
Return B centered in a string of length width. Padding is done using the specified fill character (default is a space).
choose
choose()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
clip
clip()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
compress
compress()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
conj
conj()
conjugate
conjugate()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
copy
copy()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
count
count()
B.count(sub[, start[, end]]) -> int
Return the number of non-overlapping occurrences of subsection sub in bytes B[start:end]. Optional arguments start and end are interpreted as in slice notation.
cumprod
cumprod()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
cumsum
cumsum()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
decode
decode(
encoding='utf-8', errors='strict'
)
Decode the bytes using the codec registered for encoding.
encoding The encoding with which to decode the bytes. errors The error handling scheme to use for the handling of decoding errors. The default is 'strict' meaning that decoding errors raise a UnicodeDecodeError. Other possible values are 'ignore' and 'replace' as well as any other name registered with codecs.register_error that can handle UnicodeDecodeErrors.
diagonal
diagonal()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
dump
dump()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
dumps
dumps()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
endswith
endswith()
B.endswith(suffix[, start[, end]]) -> bool
Return True if B ends with the specified suffix, False otherwise. With optional start, test B beginning at that position. With optional end, stop comparing B at that position. suffix can also be a tuple of bytes to try.
expandtabs
expandtabs()
B.expandtabs(tabsize=8) -> copy of B
Return a copy of B where all tab characters are expanded using spaces. If tabsize is not given, a tab size of 8 characters is assumed.
fill
fill()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
find
find()
B.find(sub[, start[, end]]) -> int
Return the lowest index in B where subsection sub is found, such that sub is contained within B[start,end]. Optional arguments start and end are interpreted as in slice notation.
Return -1 on failure.
flatten
flatten()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
fromhex
fromhex()
Create a bytes object from a string of hexadecimal numbers.
Spaces between two numbers are accepted. Example: bytes.fromhex('B9 01EF') -> b'\xb9\x01\xef'.
getfield
getfield()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
hex
hex()
B.hex() -> string
Create a string of hexadecimal numbers from a bytes object. Example: b'\xb9\x01\xef'.hex() -> 'b901ef'.
index
index()
B.index(sub[, start[, end]]) -> int
Return the lowest index in B where subsection sub is found, such that sub is contained within B[start,end]. Optional arguments start and end are interpreted as in slice notation.
Raises ValueError when the subsection is not found.
isalnum
isalnum()
B.isalnum() -> bool
Return True if all characters in B are alphanumeric and there is at least one character in B, False otherwise.
isalpha
isalpha()
B.isalpha() -> bool
Return True if all characters in B are alphabetic and there is at least one character in B, False otherwise.
isascii
isascii()
B.isascii() -> bool
Return True if B is empty or all characters in B are ASCII, False otherwise.
isdigit
isdigit()
B.isdigit() -> bool
Return True if all characters in B are digits and there is at least one character in B, False otherwise.
islower
islower()
B.islower() -> bool
Return True if all cased characters in B are lowercase and there is at least one cased character in B, False otherwise.
isspace
isspace()
B.isspace() -> bool
Return True if all characters in B are whitespace and there is at least one character in B, False otherwise.
istitle
istitle()
B.istitle() -> bool
Return True if B is a titlecased string and there is at least one character in B, i.e. uppercase characters may only follow uncased characters and lowercase characters only cased ones. Return False otherwise.
isupper
isupper()
B.isupper() -> bool
Return True if all cased characters in B are uppercase and there is at least one cased character in B, False otherwise.
item
item()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
itemset
itemset()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
join
join(
iterable_of_bytes, /
)
Concatenate any number of bytes objects.
The bytes whose method is called is inserted in between each pair.
The result is returned as a new bytes object.
Example: b'.'.join([b'ab', b'pq', b'rs']) -> b'ab.pq.rs'.
ljust
ljust()
B.ljust(width[, fillchar]) -> copy of B
Return B left justified in a string of length width. Padding is done using the specified fill character (default is a space).
lower
lower()
B.lower() -> copy of B
Return a copy of B with all ASCII characters converted to lowercase.
lstrip
lstrip(
bytes, /
)
Strip leading bytes contained in the argument.
If the argument is omitted or None, strip leading ASCII whitespace.
maketrans
maketrans(
frm, to, /
)
Return a translation table useable for the bytes or bytearray translate method.
The returned table will be one where each byte in frm is mapped to the byte at the same position in to.
The bytes objects frm and to must be of the same length.
max
max()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
mean
mean()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
min
min()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
newbyteorder
newbyteorder()
newbyteorder(new_order='S')
Return a new dtype with a different byte order.
Changes are also made in all fields and sub-arrays of the data type.
The new_order code can be any from the following:
- 'S' - swap dtype from current to opposite endian
'<', 'L'
- little endian'>', 'B'
- big endian'=', 'N'
- native order'|', 'I'
- ignore (no change to byte order)Parameters
new_order : str, optional
Byte order to force; a value from the byte order specifications
above. The default value ('S') results in swapping the current
byte order. The code does a case-insensitive check on the first
letter of new_order for the alternatives above. For example,
any of 'B' or 'b' or 'biggish' are valid to specify big-endian.
Returns
new_dtype : dtype
New dtype object with the given change to the byte order.
nonzero
nonzero()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
partition
partition(
sep, /
)
Partition the bytes into three parts using the given separator.
This will search for the separator sep in the bytes. If the separator is found, returns a 3-tuple containing the part before the separator, the separator itself, and the part after it.
If the separator is not found, returns a 3-tuple containing the original bytes object and two empty bytes objects.
prod
prod()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
ptp
ptp()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
put
put()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
ravel
ravel()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
repeat
repeat()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
replace
replace(
old, new, count, /
)
Return a copy with all occurrences of substring old replaced by new.
count Maximum number of occurrences to replace. -1 (the default value) means replace all occurrences.
If the optional argument count is given, only the first count occurrences are replaced.
reshape
reshape()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
resize
resize()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
rfind
rfind()
B.rfind(sub[, start[, end]]) -> int
Return the highest index in B where subsection sub is found, such that sub is contained within B[start,end]. Optional arguments start and end are interpreted as in slice notation.
Return -1 on failure.
rindex
rindex()
B.rindex(sub[, start[, end]]) -> int
Return the highest index in B where subsection sub is found, such that sub is contained within B[start,end]. Optional arguments start and end are interpreted as in slice notation.
Raise ValueError when the subsection is not found.
rjust
rjust()
B.rjust(width[, fillchar]) -> copy of B
Return B right justified in a string of length width. Padding is done using the specified fill character (default is a space)
round
round()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
rpartition
rpartition(
sep, /
)
Partition the bytes into three parts using the given separator.
This will search for the separator sep in the bytes, starting at the end. If the separator is found, returns a 3-tuple containing the part before the separator, the separator itself, and the part after it.
If the separator is not found, returns a 3-tuple containing two empty bytes objects and the original bytes object.
rsplit
rsplit(
sep=None, maxsplit=-1
)
Return a list of the sections in the bytes, using sep as the delimiter.
sep The delimiter according which to split the bytes. None (the default value) means split on ASCII whitespace characters (space, tab, return, newline, formfeed, vertical tab). maxsplit Maximum number of splits to do. -1 (the default value) means no limit.
Splitting is done starting at the end of the bytes and working to the front.
rstrip
rstrip(
bytes, /
)
Strip trailing bytes contained in the argument.
If the argument is omitted or None, strip trailing ASCII whitespace.
searchsorted
searchsorted()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
setfield
setfield()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
setflags
setflags()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
sort
sort()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
split
split(
sep=None, maxsplit=-1
)
Return a list of the sections in the bytes, using sep as the delimiter.
sep The delimiter according which to split the bytes. None (the default value) means split on ASCII whitespace characters (space, tab, return, newline, formfeed, vertical tab). maxsplit Maximum number of splits to do. -1 (the default value) means no limit.
splitlines
splitlines(
keepends=False
)
Return a list of the lines in the bytes, breaking at line boundaries.
Line breaks are not included in the resulting list unless keepends is given and true.
squeeze
squeeze()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
startswith
startswith()
B.startswith(prefix[, start[, end]]) -> bool
Return True if B starts with the specified prefix, False otherwise. With optional start, test B beginning at that position. With optional end, stop comparing B at that position. prefix can also be a tuple of bytes to try.
std
std()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
strip
strip(
bytes, /
)
Strip leading and trailing bytes contained in the argument.
If the argument is omitted or None, strip leading and trailing ASCII whitespace.
sum
sum()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
swapaxes
swapaxes()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
swapcase
swapcase()
B.swapcase() -> copy of B
Return a copy of B with uppercase ASCII characters converted to lowercase ASCII and vice versa.
take
take()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
title
title()
B.title() -> copy of B
Return a titlecased version of B, i.e. ASCII words start with uppercase characters, all remaining cased characters have lowercase.
tobytes
tobytes()
tofile
tofile()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
tolist
tolist()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
tostring
tostring()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
trace
trace()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
translate
translate(
table, /, delete=b''
)
Return a copy with each character mapped by the given translation table.
table Translation table, which must be a bytes object of length 256.
All characters occurring in the optional argument delete are removed. The remaining characters are mapped through the given translation table.
transpose
transpose()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
upper
upper()
B.upper() -> copy of B
Return a copy of B with all ASCII characters converted to uppercase.
var
var()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
view
view()
Not implemented (virtual attribute)
Class generic exists solely to derive numpy scalars from, and possesses, albeit unimplemented, all the attributes of the ndarray class so as to provide a uniform API.
See also the corresponding attribute of the derived class of interest.
zfill
zfill()
B.zfill(width) -> copy of B
Pad a numeric string B with zeros on the left, to fill a field of the specified width. B is never truncated.
__abs__
__abs__()
abs(self)
__add__
__add__(
value, /
)
Return self+value.
__and__
__and__(
value, /
)
Return self&value.
__bool__
__bool__()
self != 0
__contains__
__contains__(
key, /
)
Return key in self.
__eq__
__eq__(
value, /
)
Return self==value.
__floordiv__
__floordiv__(
value, /
)
Return self//value.
__ge__
__ge__(
value, /
)
Return self>=value.
__getitem__
__getitem__(
key, /
)
Return self[key].
__gt__
__gt__(
value, /
)
Return self>value.
__invert__
__invert__()
~self
__iter__
__iter__()
Implement iter(self).
__le__
__le__(
value, /
)
Return self<=value.
__len__
__len__()
Return len(self).
__lt__
__lt__(
value, /
)
Return self<value.
__mod__
__mod__(
value, /
)
Return self%value.
__mul__
__mul__(
value, /
)
Return self*value.
__ne__
__ne__(
value, /
)
Return self!=value.
__neg__
__neg__()
-self
__or__
__or__(
value, /
)
Return self|value.
__pos__
__pos__()
+self
__pow__
__pow__(
value, mod, /
)
Return pow(self, value, mod).
__radd__
__radd__(
value, /
)
Return value+self.
__rand__
__rand__(
value, /
)
Return value&self.
__rfloordiv__
__rfloordiv__(
value, /
)
Return value//self.
__rmod__
__rmod__(
value, /
)
Return value%self.
__rmul__
__rmul__(
value, /
)
Return value*self.
__ror__
__ror__(
value, /
)
Return value|self.
__rpow__
__rpow__(
value, mod, /
)
Return pow(value, self, mod).
__rsub__
__rsub__(
value, /
)
Return value-self.
__rtruediv__
__rtruediv__(
value, /
)
Return value/self.
__rxor__
__rxor__(
value, /
)
Return value^self.
__sub__
__sub__(
value, /
)
Return self-value.
__truediv__
__truediv__(
value, /
)
Return self/value.
__xor__
__xor__(
value, /
)
Return self^value.