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/usr/share/pyshared/trytond/tools/misc.py is in tryton-server 2.2.1-1.

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The actual contents of the file can be viewed below.

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#This file is part of Tryton.  The COPYRIGHT file at the top level of
#this repository contains the full copyright notices and license terms.
# -*- coding: utf-8 -*-
"""
Miscelleanous tools used by tryton
"""
import os, sys
import subprocess
from threading import local
import smtplib
try:
    import cStringIO as StringIO
except ImportError:
    import StringIO
import dis
from decimal import Decimal
from trytond.config import CONFIG
from trytond.const import OPERATORS

def find_in_path(name):
    if os.name == "nt":
        sep = ';'
    else:
        sep = ':'
    path = [directory for directory in os.environ['PATH'].split(sep)
            if os.path.isdir(directory)]
    for directory in path:
        val = os.path.join(directory, name)
        if os.path.isfile(val) or os.path.islink(val):
            return val
    return name

def find_pg_tool(name):
    if CONFIG['pg_path'] and CONFIG['pg_path'] != 'None':
        return os.path.join(CONFIG['pg_path'], name)
    else:
        return find_in_path(name)

def exec_pg_command(name, *args):
    prog = find_pg_tool(name)
    if not prog:
        raise Exception('Couldn\'t find %s' % name)
    args2 = (os.path.basename(prog),) + args
    return os.spawnv(os.P_WAIT, prog, args2)

def exec_pg_command_pipe(name, *args):
    prog = find_pg_tool(name)
    if not prog:
        raise Exception('Couldn\'t find %s' % name)
    if os.name == "nt":
        cmd = '"' + prog + '" ' + ' '.join(args)
    else:
        cmd = prog + ' ' + ' '.join(args)

    # if db_password is set in configuration we should pass
    # an environment variable PGPASSWORD to our subprocess
    # see libpg documentation
    child_env = dict(os.environ)
    if CONFIG['db_password']:
        child_env['PGPASSWORD'] = CONFIG['db_password']
    pipe = subprocess.Popen(cmd, shell=True, stdin=subprocess.PIPE,
            stdout=subprocess.PIPE, env=child_env)
    return pipe

def exec_command_pipe(name, *args):
    prog = find_in_path(name)
    if not prog:
        raise Exception('Couldn\'t find %s' % name)
    if os.name == "nt":
        cmd = '"'+prog+'" '+' '.join(args)
    else:
        cmd = prog+' '+' '.join(args)
    return os.popen2(cmd, 'b')

def file_open(name, mode="r", subdir='modules'):
    """Open a file from the root dir, using a subdir folder."""
    from trytond.modules import EGG_MODULES
    root_path = os.path.dirname(os.path.dirname(os.path.abspath(__file__)))

    egg_name = False
    if subdir == 'modules':
        module_name = name.split(os.sep)[0]
        if module_name in EGG_MODULES:
            epoint = EGG_MODULES[module_name]
            mod_path = os.path.join(epoint.dist.location,
                    *epoint.module_name.split('.')[:-1])
            egg_name = os.path.join(mod_path, name)
            if not os.path.isfile(egg_name):
                # Find module in path
                for path in sys.path:
                    mod_path = os.path.join(path,
                            *epoint.module_name.split('.')[:-1])
                    egg_name = os.path.join(mod_path, name)
                    if os.path.isfile(egg_name):
                        break
                if not os.path.isfile(egg_name):
                    # When testing modules from setuptools location is the
                    # module directory
                    egg_name = os.path.join(
                        os.path.dirname(epoint.dist.location), name)

    if subdir:
        if subdir == 'modules'\
                and (name.startswith('ir' + os.sep) \
                    or name.startswith('workflow' + os.sep) \
                    or name.startswith('res' + os.sep) \
                    or name.startswith('webdav' + os.sep) \
                    or name.startswith('test' + os.sep)):
            name = os.path.join(root_path, name)
        else:
            name = os.path.join(root_path, subdir, name)
    else:
        name = os.path.join(root_path, name)

    for i in (name, egg_name):
        if i and os.path.isfile(i):
            return open(i, mode)

    raise IOError('File not found : %s ' % name)

def get_smtp_server():
    """
    Instanciate, configure and return a SMTP or SMTP_SSL instance from
    smtplib.
    :return: A SMTP instance. The quit() method must be call when all
    the calls to sendmail() have been made.
    """
    if CONFIG['smtp_ssl']:
        smtp_server = smtplib.SMTP_SSL(CONFIG['smtp_server'],
                CONFIG['smtp_port'])
    else:
        smtp_server = smtplib.SMTP(CONFIG['smtp_server'], CONFIG['smtp_port'])

    if CONFIG['smtp_tls']:
        smtp_server.starttls()

    if CONFIG['smtp_user'] and CONFIG['smtp_password']:
        smtp_server.login(CONFIG['smtp_user'], CONFIG['smtp_password'])

    return smtp_server

def find_language_context(args, kargs=None):
    if kargs is None:
        kargs = {}
    res = 'en_US'
    for arg in args:
        if isinstance(arg, dict):
            res = arg.get('language', 'en_US')
    return kargs.get('context', {}).get('language', res)

def memoize(maxsize):
    """
    Decorator to 'memoize' a function - caching its results with a
    near LRU implementation.

    The cache keeps a list of keys logicaly separated in 4 segment :

    segment 1 | ...        | segment4
    [k,k,k,k,k,k,k, .. ,k,k,k,k,k,k,k]

    For each segment there is a pointer that loops on it.  When a key
    is accessed from the cache it is promoted to the first segment (at
    the pointer place of segment one), the key under the pointer is
    moved to the next segment, the pointer is then incremented and so
    on. A key that is removed from the last segment is removed from
    the cache.

    :param: maxsize the size of the cache (must be greater than or
    equal to 4)
    """
    assert maxsize >= 4, "Memoize cannot work if maxsize is less than 4"

    def wrap(fct):
        cache = {}
        keys = [None for i in xrange(maxsize)]
        seg_size = maxsize // 4

        pointers = [i * seg_size for i in xrange(4)]
        max_pointers = [(i + 1) * seg_size for i in xrange(3)] + [maxsize]

        def wrapper(*args):
            key = repr(args)
            res = cache.get(key)
            if res:
                pos, res = res
                keys[pos] = None
            else:
                res = fct(*args)

            value = res
            for segment, pointer in enumerate(pointers):
                newkey = keys[pointer]
                keys[pointer] = key
                cache[key] = (pointer, value)

                pointers[segment] = pointer + 1
                if pointers[segment] == max_pointers[segment]:
                    pointers[segment] = segment * seg_size

                if newkey is None:
                    break
                segment, value = cache.pop(newkey)
                key = newkey

            return res

        wrapper.__doc__ = fct.__doc__
        wrapper.__name__ = fct.__name__

        return wrapper
    return wrap

def mod10r(number):
    """
    Recursive mod10

    :param number: a number
    :return: the same number completed with the recursive modulo base 10
    """
    codec = [0, 9, 4, 6, 8, 2, 7, 1, 3, 5]
    report = 0
    result = ""
    for digit in number:
        result += digit
        if digit.isdigit():
            report = codec[ (int(digit) + report) % 10 ]
    return result + str((10 - report) % 10)


class LocalDict(local):

    def __init__(self):
        super(LocalDict, self).__init__()
        self._dict = {}

    def __str__(self):
        return str(self._dict)

    def __repr__(self):
        return str(self._dict)

    def clear(self):
        return self._dict.clear()

    def keys(self):
        return self._dict.keys()

    def __setitem__(self, i, y):
        self._dict.__setitem__(i, y)

    def __getitem__(self, i):
        return self._dict.__getitem__(i)

    def copy(self):
        return self._dict.copy()

    def iteritems(self):
        return self._dict.iteritems()

    def iterkeys(self):
        return self._dict.iterkeys()

    def itervalues(self):
        return self._dict.itervalues()

    def pop(self, k, d=None):
        return self._dict.pop(k, d)

    def popitem(self):
        return self._dict.popitem()

    def setdefault(self, k, d=None):
        return self._dict.setdefault(k, d)

    def update(self, E, **F):
        return self._dict.update(E, F)

    def values(self):
        return self._dict.values()

    def get(self, k, d=None):
        return self._dict.get(k, d)

    def has_key(self, k):
        return self._dict.has_key(k)

    def items(self):
        return self._dict.items()

    def __cmp__(self, y):
        return self._dict.__cmp__(y)

    def __contains__(self, k):
        return self._dict.__contains__(k)

    def __delitem__(self, y):
        return self._dict.__delitem__(y)

    def __eq__(self, y):
        return self._dict.__eq__(y)

    def __ge__(self, y):
        return self._dict.__ge__(y)

    def __getitem__(self, y):
        return self._dict.__getitem__(y)

    def __gt__(self, y):
        return self._dict.__gt__(y)

    def __hash__(self):
        return self._dict.__hash__()

    def __iter__(self):
        return self._dict.__iter__()

    def __le__(self, y):
        return self._dict.__le__(y)

    def __len__(self):
        return self._dict.__len__()

    def __lt__(self, y):
        return self._dict.__lt__(y)

    def __ne__(self, y):
        return self._dict.__ne__(y)

def reduce_ids(field, ids):
    '''
    Return a small SQL clause for ids

    :param field: the field of the clause
    :param ids: the list of ids
    :return: sql string and sql param
    '''
    if not ids:
        return '(%s)', [False]
    ids = ids[:]
    ids.sort()
    prev = ids.pop(0)
    continue_list = [prev, prev]
    discontinue_list = []
    sql = []
    args = []
    for i in ids:
        if i == prev:
            continue
        if i != prev + 1:
            if continue_list[-1] - continue_list[0] < 5:
                discontinue_list.extend([continue_list[0] + x for x in
                    range(continue_list[-1] - continue_list[0] + 1)])
            else:
                sql.append('((' + field + ' >= %s) AND (' + field + ' <= %s))')
                args.append(continue_list[0])
                args.append(continue_list[-1])
            continue_list = []
        continue_list.append(i)
        prev = i
    if continue_list[-1] - continue_list[0] < 5:
        discontinue_list.extend([continue_list[0] + x for x in
            range(int(continue_list[-1] - continue_list[0] + 1))])
    else:
        sql.append('((' + field + ' >= %s) AND (' + field + ' <= %s))')
        args.append(continue_list[0])
        args.append(continue_list[-1])
    if discontinue_list:
        sql.append('(' + field + ' IN (' + \
                ','.join(('%s',) * len(discontinue_list)) + '))')
        args.extend(discontinue_list)
    return '(' + ' OR '.join(sql) + ')', args

_ALLOWED_CODES = set(dis.opmap[x] for x in [
    'POP_TOP','ROT_TWO','ROT_THREE','ROT_FOUR','DUP_TOP',
    'BUILD_LIST','BUILD_MAP','BUILD_TUPLE',
    'LOAD_CONST','RETURN_VALUE','STORE_SUBSCR',
    'UNARY_POSITIVE','UNARY_NEGATIVE','UNARY_NOT',
    'UNARY_INVERT','BINARY_POWER','BINARY_MULTIPLY',
    'BINARY_DIVIDE','BINARY_FLOOR_DIVIDE','BINARY_TRUE_DIVIDE',
    'BINARY_MODULO','BINARY_ADD','BINARY_SUBTRACT',
    'BINARY_LSHIFT','BINARY_RSHIFT','BINARY_AND','BINARY_XOR', 'BINARY_OR',
    'STORE_MAP', 'LOAD_NAME', 'CALL_FUNCTION', 'COMPARE_OP', 'LOAD_ATTR',
    'STORE_NAME', 'GET_ITER', 'FOR_ITER', 'LIST_APPEND', 'JUMP_ABSOLUTE',
    'DELETE_NAME', 'JUMP_IF_TRUE', 'JUMP_IF_FALSE', 'JUMP_IF_FALSE_OR_POP',
    'JUMP_IF_TRUE_OR_POP', 'POP_JUMP_IF_FALSE', 'POP_JUMP_IF_TRUE',
    'BINARY_SUBSCR',
    ] if x in dis.opmap)

@memoize(1000)
def _compile_source(source):
    comp = compile(source, '', 'eval')
    codes = []
    co_code = comp.co_code
    i = 0
    while i < len(co_code):
        code = ord(co_code[i])
        codes.append(code)
        if code >= dis.HAVE_ARGUMENT:
            i += 3
        else:
            i += 1
    for code in codes:
        if code not in _ALLOWED_CODES:
            raise ValueError('opcode %s not allowed' % dis.opname[code])
    return comp

def safe_eval(source, data=None):
    if '__subclasses__' in source:
        raise ValueError('__subclasses__ not allowed')

    comp = _compile_source(source)
    return eval(comp, {'__builtins__': {
        'True': True,
        'False': False,
        'str': str,
        'globals': locals,
        'locals': locals,
        'bool': bool,
        'dict': dict,
        'round': round,
        'Decimal': Decimal,
        }}, data)

def reduce_domain(domain):
    '''
    Reduce domain
    '''
    if not domain:
        return []
    operator = 'AND'
    if isinstance(domain[0], basestring):
        operator = domain[0]
        domain = domain[1:]
    result = [operator]
    for arg in domain:
        if (isinstance(arg, tuple) or
                (isinstance(arg, list) and
                    len(arg) > 2 and
                    arg[1] in OPERATORS)):
            #clause
            result.append(arg)
        elif isinstance(arg, list) and arg:
            #sub-domain
            sub_domain = reduce_domain(arg)
            sub_operator = sub_domain[0]
            if sub_operator == operator:
                result.extend(sub_domain[1:])
            else:
                result.append(sub_domain)
        else:
            result.append(arg)
    return result