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File: pickletools.py
'''"Executable documentation" for the pickle module.
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Extensive comments about the pickle protocols and pickle-machine opcodes
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can be found here. Some functions meant for external use:
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genops(pickle)
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Generate all the opcodes in a pickle, as (opcode, arg, position) triples.
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dis(pickle, out=None, memo=None, indentlevel=4)
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Print a symbolic disassembly of a pickle.
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'''
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__all__ = ['dis', 'genops', 'optimize']
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# Other ideas:
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#
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# - A pickle verifier: read a pickle and check it exhaustively for
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# well-formedness. dis() does a lot of this already.
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#
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# - A protocol identifier: examine a pickle and return its protocol number
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# (== the highest .proto attr value among all the opcodes in the pickle).
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# dis() already prints this info at the end.
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#
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# - A pickle optimizer: for example, tuple-building code is sometimes more
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# elaborate than necessary, catering for the possibility that the tuple
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# is recursive. Or lots of times a PUT is generated that's never accessed
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# by a later GET.
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"""
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"A pickle" is a program for a virtual pickle machine (PM, but more accurately
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called an unpickling machine). It's a sequence of opcodes, interpreted by the
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PM, building an arbitrarily complex Python object.
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For the most part, the PM is very simple: there are no looping, testing, or
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conditional instructions, no arithmetic and no function calls. Opcodes are
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executed once each, from first to last, until a STOP opcode is reached.
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The PM has two data areas, "the stack" and "the memo".
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Many opcodes push Python objects onto the stack; e.g., INT pushes a Python
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integer object on the stack, whose value is gotten from a decimal string
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literal immediately following the INT opcode in the pickle bytestream. Other
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opcodes take Python objects off the stack. The result of unpickling is
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whatever object is left on the stack when the final STOP opcode is executed.
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The memo is simply an array of objects, or it can be implemented as a dict
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mapping little integers to objects. The memo serves as the PM's "long term
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memory", and the little integers indexing the memo are akin to variable
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names. Some opcodes pop a stack object into the memo at a given index,
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and others push a memo object at a given index onto the stack again.
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At heart, that's all the PM has. Subtleties arise for these reasons:
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+ Object identity. Objects can be arbitrarily complex, and subobjects
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may be shared (for example, the list [a, a] refers to the same object a
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twice). It can be vital that unpickling recreate an isomorphic object
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graph, faithfully reproducing sharing.
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+ Recursive objects. For example, after "L = []; L.append(L)", L is a
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list, and L[0] is the same list. This is related to the object identity
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point, and some sequences of pickle opcodes are subtle in order to
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get the right result in all cases.
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+ Things pickle doesn't know everything about. Examples of things pickle
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does know everything about are Python's builtin scalar and container
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types, like ints and tuples. They generally have opcodes dedicated to
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them. For things like module references and instances of user-defined
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classes, pickle's knowledge is limited. Historically, many enhancements
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have been made to the pickle protocol in order to do a better (faster,
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and/or more compact) job on those.
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+ Backward compatibility and micro-optimization. As explained below,
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pickle opcodes never go away, not even when better ways to do a thing
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get invented. The repertoire of the PM just keeps growing over time.
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For example, protocol 0 had two opcodes for building Python integers (INT
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and LONG), protocol 1 added three more for more-efficient pickling of short
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integers, and protocol 2 added two more for more-efficient pickling of
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long integers (before protocol 2, the only ways to pickle a Python long
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took time quadratic in the number of digits, for both pickling and
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unpickling). "Opcode bloat" isn't so much a subtlety as a source of
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wearying complication.
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Pickle protocols:
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For compatibility, the meaning of a pickle opcode never changes. Instead new
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pickle opcodes get added, and each version's unpickler can handle all the
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pickle opcodes in all protocol versions to date. So old pickles continue to
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be readable forever. The pickler can generally be told to restrict itself to
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the subset of opcodes available under previous protocol versions too, so that
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users can create pickles under the current version readable by older
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versions. However, a pickle does not contain its version number embedded
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within it. If an older unpickler tries to read a pickle using a later
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protocol, the result is most likely an exception due to seeing an unknown (in
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the older unpickler) opcode.
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The original pickle used what's now called "protocol 0", and what was called
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"text mode" before Python 2.3. The entire pickle bytestream is made up of
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printable 7-bit ASCII characters, plus the newline character, in protocol 0.
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That's why it was called text mode. Protocol 0 is small and elegant, but
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sometimes painfully inefficient.
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The second major set of additions is now called "protocol 1", and was called
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"binary mode" before Python 2.3. This added many opcodes with arguments
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consisting of arbitrary bytes, including NUL bytes and unprintable "high bit"
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bytes. Binary mode pickles can be substantially smaller than equivalent
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text mode pickles, and sometimes faster too; e.g., BININT represents a 4-byte
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int as 4 bytes following the opcode, which is cheaper to unpickle than the
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(perhaps) 11-character decimal string attached to INT. Protocol 1 also added
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a number of opcodes that operate on many stack elements at once (like APPENDS
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and SETITEMS), and "shortcut" opcodes (like EMPTY_DICT and EMPTY_TUPLE).
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The third major set of additions came in Python 2.3, and is called "protocol
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2". This added:
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- A better way to pickle instances of new-style classes (NEWOBJ).
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- A way for a pickle to identify its protocol (PROTO).
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- Time- and space- efficient pickling of long ints (LONG{1,4}).
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- Shortcuts for small tuples (TUPLE{1,2,3}}.
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- Dedicated opcodes for bools (NEWTRUE, NEWFALSE).
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- The "extension registry", a vector of popular objects that can be pushed
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efficiently by index (EXT{1,2,4}). This is akin to the memo and GET, but
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the registry contents are predefined (there's nothing akin to the memo's
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PUT).
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Another independent change with Python 2.3 is the abandonment of any
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pretense that it might be safe to load pickles received from untrusted
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parties -- no sufficient security analysis has been done to guarantee
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this and there isn't a use case that warrants the expense of such an
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analysis.
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To this end, all tests for __safe_for_unpickling__ or for
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copy_reg.safe_constructors are removed from the unpickling code.
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References to these variables in the descriptions below are to be seen
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as describing unpickling in Python 2.2 and before.
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"""
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# Meta-rule: Descriptions are stored in instances of descriptor objects,
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# with plain constructors. No meta-language is defined from which
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# descriptors could be constructed. If you want, e.g., XML, write a little
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# program to generate XML from the objects.
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##############################################################################
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# Some pickle opcodes have an argument, following the opcode in the
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# bytestream. An argument is of a specific type, described by an instance
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# of ArgumentDescriptor. These are not to be confused with arguments taken
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# off the stack -- ArgumentDescriptor applies only to arguments embedded in
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# the opcode stream, immediately following an opcode.
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# Represents the number of bytes consumed by an argument delimited by the
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# next newline character.
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UP_TO_NEWLINE = -1
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# Represents the number of bytes consumed by a two-argument opcode where
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# the first argument gives the number of bytes in the second argument.
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TAKEN_FROM_ARGUMENT1 = -2 # num bytes is 1-byte unsigned int
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TAKEN_FROM_ARGUMENT4 = -3 # num bytes is 4-byte signed little-endian int
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class ArgumentDescriptor(object):
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__slots__ = (
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# name of descriptor record, also a module global name; a string
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'name',
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# length of argument, in bytes; an int; UP_TO_NEWLINE and
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# TAKEN_FROM_ARGUMENT{1,4} are negative values for variable-length
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# cases
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'n',
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# a function taking a file-like object, reading this kind of argument
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# from the object at the current position, advancing the current
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# position by n bytes, and returning the value of the argument
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'reader',
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# human-readable docs for this arg descriptor; a string
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'doc',
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)
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def __init__(self, name, n, reader, doc):
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assert isinstance(name, str)
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self.name = name
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assert isinstance(n, (int, long)) and (n >= 0 or
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n in (UP_TO_NEWLINE,
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TAKEN_FROM_ARGUMENT1,
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TAKEN_FROM_ARGUMENT4))
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self.n = n
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self.reader = reader
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assert isinstance(doc, str)
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self.doc = doc
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from struct import unpack as _unpack
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def read_uint1(f):
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r"""
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>>> import StringIO
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>>> read_uint1(StringIO.StringIO('\xff'))
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255
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"""
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data = f.read(1)
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if data:
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return ord(data)
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raise ValueError("not enough data in stream to read uint1")
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uint1 = ArgumentDescriptor(
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name='uint1',
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n=1,
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reader=read_uint1,
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doc="One-byte unsigned integer.")
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def read_uint2(f):
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r"""
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>>> import StringIO
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>>> read_uint2(StringIO.StringIO('\xff\x00'))
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255
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>>> read_uint2(StringIO.StringIO('\xff\xff'))
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65535
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"""
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data = f.read(2)
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if len(data) == 2:
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return _unpack("<H", data)[0]
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raise ValueError("not enough data in stream to read uint2")
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uint2 = ArgumentDescriptor(
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name='uint2',
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n=2,
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reader=read_uint2,
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doc="Two-byte unsigned integer, little-endian.")
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def read_int4(f):
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r"""
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>>> import StringIO
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>>> read_int4(StringIO.StringIO('\xff\x00\x00\x00'))
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255
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>>> read_int4(StringIO.StringIO('\x00\x00\x00\x80')) == -(2**31)
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True
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"""
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data = f.read(4)
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if len(data) == 4:
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return _unpack("<i", data)[0]
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raise ValueError("not enough data in stream to read int4")
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int4 = ArgumentDescriptor(
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name='int4',
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n=4,
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reader=read_int4,
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doc="Four-byte signed integer, little-endian, 2's complement.")
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def read_stringnl(f, decode=True, stripquotes=True):
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r"""
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>>> import StringIO
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>>> read_stringnl(StringIO.StringIO("'abcd'\nefg\n"))
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'abcd'
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>>> read_stringnl(StringIO.StringIO("\n"))
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Traceback (most recent call last):
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...
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ValueError: no string quotes around ''
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>>> read_stringnl(StringIO.StringIO("\n"), stripquotes=False)
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''
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>>> read_stringnl(StringIO.StringIO("''\n"))
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''
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>>> read_stringnl(StringIO.StringIO('"abcd"'))
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Traceback (most recent call last):
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...
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ValueError: no newline found when trying to read stringnl
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Embedded escapes are undone in the result.
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>>> read_stringnl(StringIO.StringIO(r"'a\n\\b\x00c\td'" + "\n'e'"))
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'a\n\\b\x00c\td'
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"""
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data = f.readline()
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if not data.endswith('\n'):
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raise ValueError("no newline found when trying to read stringnl")
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data = data[:-1] # lose the newline
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if stripquotes:
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for q in "'\"":
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if data.startswith(q):
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if not data.endswith(q):
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raise ValueError("strinq quote %r not found at both "
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"ends of %r" % (q, data))
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data = data[1:-1]
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break
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else:
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raise ValueError("no string quotes around %r" % data)
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# I'm not sure when 'string_escape' was added to the std codecs; it's
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# crazy not to use it if it's there.
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if decode:
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data = data.decode('string_escape')
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return data
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stringnl = ArgumentDescriptor(
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name='stringnl',
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n=UP_TO_NEWLINE,
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reader=read_stringnl,
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doc="""A newline-terminated string.
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This is a repr-style string, with embedded escapes, and
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bracketing quotes.
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""")
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def read_stringnl_noescape(f):
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return read_stringnl(f, decode=False, stripquotes=False)
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stringnl_noescape = ArgumentDescriptor(
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name='stringnl_noescape',
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n=UP_TO_NEWLINE,
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reader=read_stringnl_noescape,
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doc="""A newline-terminated string.
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This is a str-style string, without embedded escapes,
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or bracketing quotes. It should consist solely of
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printable ASCII characters.
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""")
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def read_stringnl_noescape_pair(f):
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r"""
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>>> import StringIO
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>>> read_stringnl_noescape_pair(StringIO.StringIO("Queue\nEmpty\njunk"))
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'Queue Empty'
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"""
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return "%s %s" % (read_stringnl_noescape(f), read_stringnl_noescape(f))
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stringnl_noescape_pair = ArgumentDescriptor(
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name='stringnl_noescape_pair',
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n=UP_TO_NEWLINE,
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reader=read_stringnl_noescape_pair,
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doc="""A pair of newline-terminated strings.
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These are str-style strings, without embedded
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escapes, or bracketing quotes. They should
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consist solely of printable ASCII characters.
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The pair is returned as a single string, with
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a single blank separating the two strings.
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""")
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def read_string4(f):
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r"""
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>>> import StringIO
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>>> read_string4(StringIO.StringIO("\x00\x00\x00\x00abc"))
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''
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>>> read_string4(StringIO.StringIO("\x03\x00\x00\x00abcdef"))
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'abc'
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>>> read_string4(StringIO.StringIO("\x00\x00\x00\x03abcdef"))
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Traceback (most recent call last):
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...
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ValueError: expected 50331648 bytes in a string4, but only 6 remain
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"""
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n = read_int4(f)
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if n < 0:
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raise ValueError("string4 byte count < 0: %d" % n)
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data = f.read(n)
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if len(data) == n:
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return data
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raise ValueError("expected %d bytes in a string4, but only %d remain" %
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(n, len(data)))
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string4 = ArgumentDescriptor(
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name="string4",
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n=TAKEN_FROM_ARGUMENT4,
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reader=read_string4,
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doc="""A counted string.
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The first argument is a 4-byte little-endian signed int giving
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the number of bytes in the string, and the second argument is
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that many bytes.
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""")
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def read_string1(f):
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r"""
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>>> import StringIO
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>>> read_string1(StringIO.StringIO("\x00"))
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''
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>>> read_string1(StringIO.StringIO("\x03abcdef"))
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'abc'
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"""
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n = read_uint1(f)
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assert n >= 0
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data = f.read(n)
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if len(data) == n:
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return data
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raise ValueError("expected %d bytes in a string1, but only %d remain" %
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(n, len(data)))
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string1 = ArgumentDescriptor(
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name="string1",
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n=TAKEN_FROM_ARGUMENT1,
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reader=read_string1,
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doc="""A counted string.
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The first argument is a 1-byte unsigned int giving the number
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of bytes in the string, and the second argument is that many
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bytes.
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""")
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def read_unicodestringnl(f):
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r"""
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>>> import StringIO
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>>> read_unicodestringnl(StringIO.StringIO("abc\uabcd\njunk"))
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u'abc\uabcd'
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"""
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data = f.readline()
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if not data.endswith('\n'):
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raise ValueError("no newline found when trying to read "
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"unicodestringnl")
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data = data[:-1] # lose the newline
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return unicode(data, 'raw-unicode-escape')
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unicodestringnl = ArgumentDescriptor(
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name='unicodestringnl',
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n=UP_TO_NEWLINE,
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reader=read_unicodestringnl,
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doc="""A newline-terminated Unicode string.
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This is raw-unicode-escape encoded, so consists of
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printable ASCII characters, and may contain embedded
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escape sequences.
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""")
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def read_unicodestring4(f):
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r"""
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>>> import StringIO
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>>> s = u'abcd\uabcd'
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>>> enc = s.encode('utf-8')
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>>> enc
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'abcd\xea\xaf\x8d'
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>>> n = chr(len(enc)) + chr(0) * 3 # little-endian 4-byte length
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>>> t = read_unicodestring4(StringIO.StringIO(n + enc + 'junk'))
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>>> s == t
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True
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>>> read_unicodestring4(StringIO.StringIO(n + enc[:-1]))
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Traceback (most recent call last):
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...
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ValueError: expected 7 bytes in a unicodestring4, but only 6 remain
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"""
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n = read_int4(f)
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if n < 0:
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raise ValueError("unicodestring4 byte count < 0: %d" % n)
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data = f.read(n)
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if len(data) == n:
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return unicode(data, 'utf-8')
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raise ValueError("expected %d bytes in a unicodestring4, but only %d "
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"remain" % (n, len(data)))
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unicodestring4 = ArgumentDescriptor(
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name="unicodestring4",
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n=TAKEN_FROM_ARGUMENT4,
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reader=read_unicodestring4,
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doc="""A counted Unicode string.
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The first argument is a 4-byte little-endian signed int
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giving the number of bytes in the string, and the second
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argument-- the UTF-8 encoding of the Unicode string --
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contains that many bytes.
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""")
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[483] Fix | Delete
def read_decimalnl_short(f):
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r"""
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>>> import StringIO
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>>> read_decimalnl_short(StringIO.StringIO("1234\n56"))
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1234
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>>> read_decimalnl_short(StringIO.StringIO("1234L\n56"))
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Traceback (most recent call last):
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...
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ValueError: trailing 'L' not allowed in '1234L'
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"""
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s = read_stringnl(f, decode=False, stripquotes=False)
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if s.endswith("L"):
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raise ValueError("trailing 'L' not allowed in %r" % s)
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[499] Fix | Delete
It is recommended that you Edit text format, this type of Fix handles quite a lot in one request
Function