"""
kombu.utils
===========

Internal utilities.

"""
from __future__ import absolute_import, print_function

import importlib
import numbers
import random
import sys

from contextlib import contextmanager
from itertools import count, repeat
from functools import wraps
from time import sleep
from uuid import UUID, uuid4
try:
    from uuid import _uuid_generate_random
except ImportError:
    _uuid_generate_random = None

from kombu.five import items, reraise, string_t

from .encoding import default_encode, safe_repr as _safe_repr

try:
    import ctypes
except:
    ctypes = None  # noqa

try:
    from io import UnsupportedOperation
    FILENO_ERRORS = (AttributeError, ValueError, UnsupportedOperation)
except ImportError:  # pragma: no cover
    # Py2
    FILENO_ERRORS = (AttributeError, ValueError)  # noqa


__all__ = ['EqualityDict', 'say', 'uuid', 'kwdict', 'maybe_list',
           'fxrange', 'fxrangemax', 'retry_over_time',
           'emergency_dump_state', 'cached_property',
           'reprkwargs', 'reprcall', 'nested', 'fileno', 'maybe_fileno']


def symbol_by_name(name, aliases={}, imp=None, package=None,
                   sep='.', default=None, **kwargs):
    """Get symbol by qualified name.

    The name should be the full dot-separated path to the class::

        modulename.ClassName

    Example::

        celery.concurrency.processes.TaskPool
                                    ^- class name

    or using ':' to separate module and symbol::

        celery.concurrency.processes:TaskPool

    If `aliases` is provided, a dict containing short name/long name
    mappings, the name is looked up in the aliases first.

    Examples:

        >>> symbol_by_name('celery.concurrency.processes.TaskPool')
        <class 'celery.concurrency.processes.TaskPool'>

        >>> symbol_by_name('default', {
        ...     'default': 'celery.concurrency.processes.TaskPool'})
        <class 'celery.concurrency.processes.TaskPool'>

        # Does not try to look up non-string names.
        >>> from celery.concurrency.processes import TaskPool
        >>> symbol_by_name(TaskPool) is TaskPool
        True

    """
    if imp is None:
        imp = importlib.import_module

    if not isinstance(name, string_t):
        return name                                 # already a class

    name = aliases.get(name) or name
    sep = ':' if ':' in name else sep
    module_name, _, cls_name = name.rpartition(sep)
    if not module_name:
        cls_name, module_name = None, package if package else cls_name
    try:
        try:
            module = imp(module_name, package=package, **kwargs)
        except ValueError as exc:
            reraise(ValueError,
                    ValueError("Couldn't import {0!r}: {1}".format(name, exc)),
                    sys.exc_info()[2])
        return getattr(module, cls_name) if cls_name else module
    except (ImportError, AttributeError):
        if default is None:
            raise
    return default


class HashedSeq(list):
    """type used for hash() to make sure the hash is not generated
    multiple times."""
    __slots__ = 'hashvalue'

    def __init__(self, *seq):
        self[:] = seq
        self.hashvalue = hash(seq)

    def __hash__(self):
        return self.hashvalue


def eqhash(o):
    try:
        return o.__eqhash__()
    except AttributeError:
        return hash(o)


class EqualityDict(dict):

    def __getitem__(self, key):
        h = eqhash(key)
        if h not in self:
            return self.__missing__(key)
        return dict.__getitem__(self, h)

    def __setitem__(self, key, value):
        return dict.__setitem__(self, eqhash(key), value)

    def __delitem__(self, key):
        return dict.__delitem__(self, eqhash(key))


def say(m, *fargs, **fkwargs):
    print(str(m).format(*fargs, **fkwargs), file=sys.stderr)


if ctypes and _uuid_generate_random:  # pragma: no cover
    def uuid4():
        # Workaround for http://bugs.python.org/issue4607
        buffer = ctypes.create_string_buffer(16)
        _uuid_generate_random(buffer)
        return UUID(bytes=buffer.raw)


def uuid():
    """Generate a unique id, having - hopefully - a very small chance of
    collision.

    For now this is provided by :func:`uuid.uuid4`.
    """
    return str(uuid4())
gen_unique_id = uuid


if sys.version_info >= (2, 6, 5):

    def kwdict(kwargs):
        return kwargs
else:
    def kwdict(kwargs):  # pragma: no cover  # noqa
        """Make sure keyword arguments are not in Unicode.

        This should be fixed in newer Python versions,
        see: http://bugs.python.org/issue4978.

        """
        return dict((key.encode('utf-8'), value)
                    for key, value in items(kwargs))


def maybe_list(v):
    if v is None:
        return []
    if hasattr(v, '__iter__'):
        return v
    return [v]


def fxrange(start=1.0, stop=None, step=1.0, repeatlast=False):
    cur = start * 1.0
    while 1:
        if not stop or cur <= stop:
            yield cur
            cur += step
        else:
            if not repeatlast:
                break
            yield cur - step


def fxrangemax(start=1.0, stop=None, step=1.0, max=100.0):
    sum_, cur = 0, start * 1.0
    while 1:
        if sum_ >= max:
            break
        yield cur
        if stop:
            cur = min(cur + step, stop)
        else:
            cur += step
        sum_ += cur


def retry_over_time(fun, catch, args=[], kwargs={}, errback=None,
                    max_retries=None, interval_start=2, interval_step=2,
                    interval_max=30, callback=None):
    """Retry the function over and over until max retries is exceeded.

    For each retry we sleep a for a while before we try again, this interval
    is increased for every retry until the max seconds is reached.

    :param fun: The function to try
    :param catch: Exceptions to catch, can be either tuple or a single
        exception class.
    :keyword args: Positional arguments passed on to the function.
    :keyword kwargs: Keyword arguments passed on to the function.
    :keyword errback: Callback for when an exception in ``catch`` is raised.
        The callback must take two arguments: ``exc`` and ``interval``, where
        ``exc`` is the exception instance, and ``interval`` is the time in
        seconds to sleep next..
    :keyword max_retries: Maximum number of retries before we give up.
        If this is not set, we will retry forever.
    :keyword interval_start: How long (in seconds) we start sleeping between
        retries.
    :keyword interval_step: By how much the interval is increased for each
        retry.
    :keyword interval_max: Maximum number of seconds to sleep between retries.

    """
    retries = 0
    interval_range = fxrange(interval_start,
                             interval_max + interval_start,
                             interval_step, repeatlast=True)
    for retries in count():
        try:
            return fun(*args, **kwargs)
        except catch as exc:
            if max_retries and retries >= max_retries:
                raise
            if callback:
                callback()
            tts = float(errback(exc, interval_range, retries) if errback
                        else next(interval_range))
            if tts:
                for _ in range(int(tts)):
                    if callback:
                        callback()
                    sleep(1.0)
                # sleep remainder after int truncation above.
                sleep(abs(int(tts) - tts))


def emergency_dump_state(state, open_file=open, dump=None):
    from pprint import pformat
    from tempfile import mktemp

    if dump is None:
        import pickle
        dump = pickle.dump
    persist = mktemp()
    say('EMERGENCY DUMP STATE TO FILE -> {0} <-', persist)
    fh = open_file(persist, 'w')
    try:
        try:
            dump(state, fh, protocol=0)
        except Exception as exc:
            say('Cannot pickle state: {0!r}. Fallback to pformat.', exc)
            fh.write(default_encode(pformat(state)))
    finally:
        fh.flush()
        fh.close()
    return persist


class cached_property(object):
    """Property descriptor that caches the return value
    of the get function.

    *Examples*

    .. code-block:: python

        @cached_property
        def connection(self):
            return Connection()

        @connection.setter  # Prepares stored value
        def connection(self, value):
            if value is None:
                raise TypeError('Connection must be a connection')
            return value

        @connection.deleter
        def connection(self, value):
            # Additional action to do at del(self.attr)
            if value is not None:
                print('Connection {0!r} deleted'.format(value)

    """

    def __init__(self, fget=None, fset=None, fdel=None, doc=None):
        self.__get = fget
        self.__set = fset
        self.__del = fdel
        self.__doc__ = doc or fget.__doc__
        self.__name__ = fget.__name__
        self.__module__ = fget.__module__

    def __get__(self, obj, type=None):
        if obj is None:
            return self
        try:
            return obj.__dict__[self.__name__]
        except KeyError:
            value = obj.__dict__[self.__name__] = self.__get(obj)
            return value

    def __set__(self, obj, value):
        if obj is None:
            return self
        if self.__set is not None:
            value = self.__set(obj, value)
        obj.__dict__[self.__name__] = value

    def __delete__(self, obj):
        if obj is None:
            return self
        try:
            value = obj.__dict__.pop(self.__name__)
        except KeyError:
            pass
        else:
            if self.__del is not None:
                self.__del(obj, value)

    def setter(self, fset):
        return self.__class__(self.__get, fset, self.__del)

    def deleter(self, fdel):
        return self.__class__(self.__get, self.__set, fdel)


def reprkwargs(kwargs, sep=', ', fmt='{0}={1}'):
    return sep.join(fmt.format(k, _safe_repr(v)) for k, v in items(kwargs))


def reprcall(name, args=(), kwargs={}, sep=', '):
    return '{0}({1}{2}{3})'.format(
        name, sep.join(map(_safe_repr, args or ())),
        (args and kwargs) and sep or '',
        reprkwargs(kwargs, sep),
    )


@contextmanager
def nested(*managers):  # pragma: no cover
    # flake8: noqa
    """Combine multiple context managers into a single nested
    context manager."""
    exits = []
    vars = []
    exc = (None, None, None)
    try:
        try:
            for mgr in managers:
                exit = mgr.__exit__
                enter = mgr.__enter__
                vars.append(enter())
                exits.append(exit)
            yield vars
        except:
            exc = sys.exc_info()
        finally:
            while exits:
                exit = exits.pop()
                try:
                    if exit(*exc):
                        exc = (None, None, None)
                except:
                    exc = sys.exc_info()
            if exc != (None, None, None):
                # Don't rely on sys.exc_info() still containing
                # the right information. Another exception may
                # have been raised and caught by an exit method
                reraise(exc[0], exc[1], exc[2])
    finally:
        del(exc)


def shufflecycle(it):
    it = list(it)  # don't modify callers list
    shuffle = random.shuffle
    for _ in repeat(None):
        shuffle(it)
        yield it[0]


def entrypoints(namespace):
    try:
        from pkg_resources import iter_entry_points
    except ImportError:
        return iter([])
    return ((ep, ep.load()) for ep in iter_entry_points(namespace))


class ChannelPromise(object):

    def __init__(self, contract):
        self.__contract__ = contract

    def __call__(self):
        try:
            return self.__value__
        except AttributeError:
            value = self.__value__ = self.__contract__()
            return value

    def __repr__(self):
        try:
            return repr(self.__value__)
        except AttributeError:
            return '<promise: 0x{0:x}>'.format(id(self.__contract__))


def escape_regex(p, white=''):
    # what's up with re.escape? that code must be neglected or someting
    return ''.join(c if c.isalnum() or c in white
                   else ('\\000' if c == '\000' else '\\' + c)
                   for c in p)


def fileno(f):
    if isinstance(f, numbers.Integral):
        return f
    return f.fileno()


def maybe_fileno(f):
    """Get object fileno, or :const:`None` if not defined."""
    try:
        return fileno(f)
    except FILENO_ERRORS:
        pass