import collections
from functools import partial
import string
import subprocess
import sys
import textwrap

import numpy as np
import pytest

import pandas as pd
from pandas import Series
import pandas._testing as tm
from pandas.core import ops
import pandas.core.common as com
from pandas.util.version import Version


def test_get_callable_name():
    getname = com.get_callable_name

    def fn(x):
        return x

    lambda_ = lambda x: x
    part1 = partial(fn)
    part2 = partial(part1)

    class somecall:
        def __call__(self):
            # This shouldn't actually get called below; somecall.__init__
            #  should.
            raise NotImplementedError

    assert getname(fn) == "fn"
    assert getname(lambda_)
    assert getname(part1) == "fn"
    assert getname(part2) == "fn"
    assert getname(somecall()) == "somecall"
    assert getname(1) is None


def test_any_none():
    assert com.any_none(1, 2, 3, None)
    assert not com.any_none(1, 2, 3, 4)


def test_all_not_none():
    assert com.all_not_none(1, 2, 3, 4)
    assert not com.all_not_none(1, 2, 3, None)
    assert not com.all_not_none(None, None, None, None)


def test_random_state():
    # Check with seed
    state = com.random_state(5)
    assert state.uniform() == np.random.RandomState(5).uniform()

    # Check with random state object
    state2 = np.random.RandomState(10)
    assert com.random_state(state2).uniform() == np.random.RandomState(10).uniform()

    # check with no arg random state
    assert com.random_state() is np.random

    # check array-like
    # GH32503
    state_arr_like = np.random.default_rng(None).integers(
        0, 2**31, size=624, dtype="uint32"
    )
    assert (
        com.random_state(state_arr_like).uniform()
        == np.random.RandomState(state_arr_like).uniform()
    )

    # Check BitGenerators
    # GH32503
    assert (
        com.random_state(np.random.MT19937(3)).uniform()
        == np.random.RandomState(np.random.MT19937(3)).uniform()
    )
    assert (
        com.random_state(np.random.PCG64(11)).uniform()
        == np.random.RandomState(np.random.PCG64(11)).uniform()
    )

    # Error for floats or strings
    msg = (
        "random_state must be an integer, array-like, a BitGenerator, Generator, "
        "a numpy RandomState, or None"
    )
    with pytest.raises(ValueError, match=msg):
        com.random_state("test")

    with pytest.raises(ValueError, match=msg):
        com.random_state(5.5)


@pytest.mark.parametrize(
    "left, right, expected",
    [
        (Series([1], name="x"), Series([2], name="x"), "x"),
        (Series([1], name="x"), Series([2], name="y"), None),
        (Series([1]), Series([2], name="x"), None),
        (Series([1], name="x"), Series([2]), None),
        (Series([1], name="x"), [2], "x"),
        ([1], Series([2], name="y"), "y"),
        # matching NAs
        (Series([1], name=np.nan), pd.Index([], name=np.nan), np.nan),
        (Series([1], name=np.nan), pd.Index([], name=pd.NaT), None),
        (Series([1], name=pd.NA), pd.Index([], name=pd.NA), pd.NA),
        # tuple name GH#39757
        (
            Series([1], name=np.int64(1)),
            pd.Index([], name=(np.int64(1), np.int64(2))),
            None,
        ),
        (
            Series([1], name=(np.int64(1), np.int64(2))),
            pd.Index([], name=(np.int64(1), np.int64(2))),
            (np.int64(1), np.int64(2)),
        ),
        pytest.param(
            Series([1], name=(np.float64("nan"), np.int64(2))),
            pd.Index([], name=(np.float64("nan"), np.int64(2))),
            (np.float64("nan"), np.int64(2)),
            marks=pytest.mark.xfail(
                reason="Not checking for matching NAs inside tuples."
            ),
        ),
    ],
)
def test_maybe_match_name(left, right, expected):
    res = ops.common._maybe_match_name(left, right)
    assert res is expected or res == expected


def test_standardize_mapping():
    # No uninitialized defaultdicts
    msg = r"to_dict\(\) only accepts initialized defaultdicts"
    with pytest.raises(TypeError, match=msg):
        com.standardize_mapping(collections.defaultdict)

    # No non-mapping subtypes, instance
    msg = "unsupported type: <class 'list'>"
    with pytest.raises(TypeError, match=msg):
        com.standardize_mapping([])

    # No non-mapping subtypes, class
    with pytest.raises(TypeError, match=msg):
        com.standardize_mapping(list)

    fill = {"bad": "data"}
    assert com.standardize_mapping(fill) == dict

    # Convert instance to type
    assert com.standardize_mapping({}) == dict

    dd = collections.defaultdict(list)
    assert isinstance(com.standardize_mapping(dd), partial)


def test_git_version():
    # GH 21295
    git_version = pd.__git_version__
    assert len(git_version) == 40
    assert all(c in string.hexdigits for c in git_version)


def test_version_tag():
    version = Version(pd.__version__)
    try:
        version > Version("0.0.1")
    except TypeError:
        raise ValueError(
            "No git tags exist, please sync tags between upstream and your repo"
        )


@pytest.mark.parametrize(
    "obj", [(obj,) for obj in pd.__dict__.values() if callable(obj)]
)
def test_serializable(obj):
    # GH 35611
    unpickled = tm.round_trip_pickle(obj)
    assert type(obj) == type(unpickled)


class TestIsBoolIndexer:
    def test_non_bool_array_with_na(self):
        # in particular, this should not raise
        arr = np.array(["A", "B", np.nan], dtype=object)
        assert not com.is_bool_indexer(arr)

    def test_list_subclass(self):
        # GH#42433

        class MyList(list):
            pass

        val = MyList(["a"])

        assert not com.is_bool_indexer(val)

        val = MyList([True])
        assert com.is_bool_indexer(val)

    def test_frozenlist(self):
        # GH#42461
        data = {"col1": [1, 2], "col2": [3, 4]}
        df = pd.DataFrame(data=data)

        frozen = df.index.names[1:]
        assert not com.is_bool_indexer(frozen)

        result = df[frozen]
        expected = df[[]]
        tm.assert_frame_equal(result, expected)


@pytest.mark.parametrize("with_exception", [True, False])
def test_temp_setattr(with_exception):
    # GH#45954
    ser = Series(dtype=object)
    ser.name = "first"
    # Raise a ValueError in either case to satisfy pytest.raises
    match = "Inside exception raised" if with_exception else "Outside exception raised"
    with pytest.raises(ValueError, match=match):
        with com.temp_setattr(ser, "name", "second"):
            assert ser.name == "second"
            if with_exception:
                raise ValueError("Inside exception raised")
        raise ValueError("Outside exception raised")
    assert ser.name == "first"


@pytest.mark.single_cpu
def test_str_size():
    # GH#21758
    a = "a"
    expected = sys.getsizeof(a)
    pyexe = sys.executable.replace("\\", "/")
    call = [
        pyexe,
        "-c",
        "a='a';import sys;sys.getsizeof(a);import pandas;print(sys.getsizeof(a));",
    ]
    result = subprocess.check_output(call).decode()[-4:-1].strip("\n")
    assert int(result) == int(expected)


@pytest.mark.single_cpu
def test_bz2_missing_import():
    # Check whether bz2 missing import is handled correctly (issue #53857)
    code = """
        import sys
        sys.modules['bz2'] = None
        import pytest
        import pandas as pd
        from pandas.compat import get_bz2_file
        msg = 'bz2 module not available.'
        with pytest.raises(RuntimeError, match=msg):
            get_bz2_file()
    """
    code = textwrap.dedent(code)
    call = [sys.executable, "-c", code]
    subprocess.check_output(call)