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view roundup/anypy/strings.py @ 6610:db3f0ba75b4a

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Change checkpoint_data and restore_connection_on_error to subtransaction checkpoint_data and restore_connection_on_error used to commit() and rollback() the db connection. This causes additional I/O and load. Changed them to use 'SAVEPOINT name' and 'ROLLBACK TO name' to get a faster method for handling errors within a tranaction. One thing to note is that postgresql (unlike SQL std) doesn't overwrite an older savepoint with he same name. It keeps all savepoints but only rolls back to the newest one with a given name. This could be a resource issue. I left a commented out release statement in case somebody runs into an issue due to too many savepoints. I expect it to slow down the import but....
author John Rouillard <rouilj@ieee.org>
date Sat, 29 Jan 2022 11:29:36 -0500
parents 82f870433b18
children 8e118eb20d86
line wrap: on
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# Roundup represents text internally using the native Python str type.
# In Python 3, these are Unicode strings.  In Python 2, these are
# encoded using UTF-8, and the Python 2 unicode type is only used in a
# few places, generally for interacting with external modules
# requiring that type to be used.

import sys
import io

_py3 = sys.version_info[0] > 2

if _py3:
    StringIO = io.StringIO
else:
    StringIO = io.BytesIO


def b2s(b):
    """Convert a UTF-8 encoded bytes object to the internal string format."""
    if _py3:
        return b.decode('utf-8')
    else:
        return b


def s2b(s):
    """Convert a string object to UTF-8 encoded bytes."""
    if _py3:
        return s.encode('utf-8')
    else:
        return s


def bs2b(s):
    """Convert a string object or UTF-8 encoded bytes to UTF-8 encoded bytes.
    """
    if _py3:
        if isinstance(s, bytes):
            return s
        else:
            return s.encode('utf-8')
    else:
        return s


def s2u(s, errors='strict'):
    """Convert a string object to a Unicode string."""
    if _py3:
        return s
    else:
        return unicode(s, 'utf-8', errors)  # noqa: 821


def u2s(u):
    """Convert a Unicode string to the internal string format."""
    if _py3:
        return u
    else:
        return u.encode('utf-8')


def us2u(s, errors='strict'):
    """Convert a string or Unicode string to a Unicode string."""
    if _py3:
        return s
    else:
        if isinstance(s, unicode):    # noqa: 821
            return s
        else:
            return unicode(s, 'utf-8', errors)    # noqa: 821


def us2s(u):
    """Convert a string or Unicode string to the internal string format."""
    if _py3:
        return u
    else:
        if isinstance(u, unicode):    # noqa: 821
            return u.encode('utf-8')
        else:
            return u


def uany2s(u):
    """Convert a Unicode string or other object to the internal string format.

    Objects that are not Unicode strings are passed to str()."""
    if _py3:
        return str(u)
    else:
        if isinstance(u, unicode):    # noqa: 821
            return u.encode('utf-8')
        else:
            return str(u)


def is_us(s):
    """Return whether an object is a string or Unicode string."""
    if _py3:
        return isinstance(s, str)
    else:
        return isinstance(s, str) or isinstance(s, unicode)  # noqa: 821


def uchr(c):
    """Return the Unicode string containing the given character."""
    if _py3:
        return chr(c)
    else:
        return unichr(c)  # noqa: 821

# CSV files used for export and import represent strings in the style
# used by repr in Python 2; this means that each byte of the UTF-8
# representation is represented by a \x escape if not a printable
# ASCII character.  When such a representation is interpreted by eval
# in Python 3, the effect is that the Unicode characters in the
# resulting string correspond to UTF-8 bytes, so encoding the string
# as ISO-8859-1 produces the correct byte-string which must then be
# decoded as UTF-8 to produce the correct Unicode string.  The same
# representations are also used for journal storage in RDBMS
# databases, so that the database can be compatible between Python 2
# and Python 3.


def repr_export(v):
    """Return a Python-2-style representation of a value for export to CSV."""
    if _py3:
        if isinstance(v, str):
            return repr(s2b(v))[1:]
        elif isinstance(v, dict):
            repr_vals = []
            for key, value in sorted(v.items()):
                repr_vals.append('%s: %s' % (repr_export(key),
                                             repr_export(value)))
            return '{%s}' % ', '.join(repr_vals)
        else:
            return repr(v)
    else:
        return repr(v)


def eval_import(s):
    """Evaluate a Python-2-style value imported from a CSV file."""
    if _py3:
        try:
            v = eval(s)
        except SyntaxError:
            # handle case where link operation reports id a long int
            # ('issue', 5002L, "status") rather than as a string.
            # This was a bug that existed and was fixed before or with v1.2.0
            import re
            v = eval(re.sub(r', ([0-9]+)L,',r', \1,', s))

        if isinstance(v, str):
            return v.encode('iso-8859-1').decode('utf-8')
        elif isinstance(v, dict):
            v_mod = {}
            for key, value in v.items():
                if isinstance(key, str):
                    key = key.encode('iso-8859-1').decode('utf-8')
                if isinstance(value, str):
                    value = value.encode('iso-8859-1').decode('utf-8')
                v_mod[key] = value
            return v_mod
        else:
            return v
    else:
        return eval(s)
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