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737 lines
25 KiB
737 lines
25 KiB
from collections.abc import Generator
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from contextlib import contextmanager
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import re
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import struct
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import tracemalloc
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import numpy as np
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import pytest
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from pandas._libs import hashtable as ht
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import pandas as pd
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import pandas._testing as tm
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from pandas.core.algorithms import isin
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@contextmanager
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def activated_tracemalloc() -> Generator[None, None, None]:
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tracemalloc.start()
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try:
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yield
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finally:
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tracemalloc.stop()
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def get_allocated_khash_memory():
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snapshot = tracemalloc.take_snapshot()
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snapshot = snapshot.filter_traces(
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(tracemalloc.DomainFilter(True, ht.get_hashtable_trace_domain()),)
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)
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return sum(x.size for x in snapshot.traces)
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@pytest.mark.parametrize(
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"table_type, dtype",
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[
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(ht.PyObjectHashTable, np.object_),
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(ht.Complex128HashTable, np.complex128),
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(ht.Int64HashTable, np.int64),
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(ht.UInt64HashTable, np.uint64),
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(ht.Float64HashTable, np.float64),
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(ht.Complex64HashTable, np.complex64),
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(ht.Int32HashTable, np.int32),
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(ht.UInt32HashTable, np.uint32),
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(ht.Float32HashTable, np.float32),
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(ht.Int16HashTable, np.int16),
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(ht.UInt16HashTable, np.uint16),
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(ht.Int8HashTable, np.int8),
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(ht.UInt8HashTable, np.uint8),
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(ht.IntpHashTable, np.intp),
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],
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)
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class TestHashTable:
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def test_get_set_contains_len(self, table_type, dtype):
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index = 5
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table = table_type(55)
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assert len(table) == 0
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assert index not in table
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table.set_item(index, 42)
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assert len(table) == 1
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assert index in table
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assert table.get_item(index) == 42
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table.set_item(index + 1, 41)
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assert index in table
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assert index + 1 in table
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assert len(table) == 2
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assert table.get_item(index) == 42
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assert table.get_item(index + 1) == 41
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table.set_item(index, 21)
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assert index in table
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assert index + 1 in table
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assert len(table) == 2
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assert table.get_item(index) == 21
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assert table.get_item(index + 1) == 41
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assert index + 2 not in table
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table.set_item(index + 1, 21)
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assert index in table
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assert index + 1 in table
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assert len(table) == 2
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assert table.get_item(index) == 21
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assert table.get_item(index + 1) == 21
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with pytest.raises(KeyError, match=str(index + 2)):
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table.get_item(index + 2)
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def test_get_set_contains_len_mask(self, table_type, dtype):
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if table_type == ht.PyObjectHashTable:
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pytest.skip("Mask not supported for object")
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index = 5
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table = table_type(55, uses_mask=True)
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assert len(table) == 0
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assert index not in table
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table.set_item(index, 42)
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assert len(table) == 1
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assert index in table
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assert table.get_item(index) == 42
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with pytest.raises(KeyError, match="NA"):
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table.get_na()
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table.set_item(index + 1, 41)
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table.set_na(41)
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assert pd.NA in table
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assert index in table
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assert index + 1 in table
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assert len(table) == 3
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assert table.get_item(index) == 42
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assert table.get_item(index + 1) == 41
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assert table.get_na() == 41
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table.set_na(21)
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assert index in table
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assert index + 1 in table
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assert len(table) == 3
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assert table.get_item(index + 1) == 41
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assert table.get_na() == 21
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assert index + 2 not in table
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with pytest.raises(KeyError, match=str(index + 2)):
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table.get_item(index + 2)
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def test_map_keys_to_values(self, table_type, dtype, writable):
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# only Int64HashTable has this method
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if table_type == ht.Int64HashTable:
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N = 77
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table = table_type()
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keys = np.arange(N).astype(dtype)
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vals = np.arange(N).astype(np.int64) + N
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keys.flags.writeable = writable
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vals.flags.writeable = writable
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table.map_keys_to_values(keys, vals)
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for i in range(N):
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assert table.get_item(keys[i]) == i + N
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def test_map_locations(self, table_type, dtype, writable):
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N = 8
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table = table_type()
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keys = (np.arange(N) + N).astype(dtype)
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keys.flags.writeable = writable
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table.map_locations(keys)
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for i in range(N):
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assert table.get_item(keys[i]) == i
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def test_map_locations_mask(self, table_type, dtype, writable):
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if table_type == ht.PyObjectHashTable:
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pytest.skip("Mask not supported for object")
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N = 3
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table = table_type(uses_mask=True)
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keys = (np.arange(N) + N).astype(dtype)
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keys.flags.writeable = writable
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table.map_locations(keys, np.array([False, False, True]))
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for i in range(N - 1):
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assert table.get_item(keys[i]) == i
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with pytest.raises(KeyError, match=re.escape(str(keys[N - 1]))):
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table.get_item(keys[N - 1])
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assert table.get_na() == 2
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def test_lookup(self, table_type, dtype, writable):
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N = 3
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table = table_type()
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keys = (np.arange(N) + N).astype(dtype)
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keys.flags.writeable = writable
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table.map_locations(keys)
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result = table.lookup(keys)
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expected = np.arange(N)
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tm.assert_numpy_array_equal(result.astype(np.int64), expected.astype(np.int64))
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def test_lookup_wrong(self, table_type, dtype):
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if dtype in (np.int8, np.uint8):
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N = 100
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else:
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N = 512
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table = table_type()
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keys = (np.arange(N) + N).astype(dtype)
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table.map_locations(keys)
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wrong_keys = np.arange(N).astype(dtype)
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result = table.lookup(wrong_keys)
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assert np.all(result == -1)
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def test_lookup_mask(self, table_type, dtype, writable):
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if table_type == ht.PyObjectHashTable:
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pytest.skip("Mask not supported for object")
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N = 3
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table = table_type(uses_mask=True)
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keys = (np.arange(N) + N).astype(dtype)
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mask = np.array([False, True, False])
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keys.flags.writeable = writable
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table.map_locations(keys, mask)
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result = table.lookup(keys, mask)
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expected = np.arange(N)
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tm.assert_numpy_array_equal(result.astype(np.int64), expected.astype(np.int64))
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result = table.lookup(np.array([1 + N]).astype(dtype), np.array([False]))
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tm.assert_numpy_array_equal(
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result.astype(np.int64), np.array([-1], dtype=np.int64)
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)
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def test_unique(self, table_type, dtype, writable):
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if dtype in (np.int8, np.uint8):
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N = 88
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else:
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N = 1000
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table = table_type()
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expected = (np.arange(N) + N).astype(dtype)
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keys = np.repeat(expected, 5)
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keys.flags.writeable = writable
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unique = table.unique(keys)
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tm.assert_numpy_array_equal(unique, expected)
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def test_tracemalloc_works(self, table_type, dtype):
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if dtype in (np.int8, np.uint8):
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N = 256
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else:
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N = 30000
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keys = np.arange(N).astype(dtype)
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with activated_tracemalloc():
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table = table_type()
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table.map_locations(keys)
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used = get_allocated_khash_memory()
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my_size = table.sizeof()
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assert used == my_size
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del table
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assert get_allocated_khash_memory() == 0
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def test_tracemalloc_for_empty(self, table_type, dtype):
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with activated_tracemalloc():
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table = table_type()
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used = get_allocated_khash_memory()
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my_size = table.sizeof()
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assert used == my_size
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del table
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assert get_allocated_khash_memory() == 0
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def test_get_state(self, table_type, dtype):
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table = table_type(1000)
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state = table.get_state()
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assert state["size"] == 0
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assert state["n_occupied"] == 0
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assert "n_buckets" in state
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assert "upper_bound" in state
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@pytest.mark.parametrize("N", range(1, 110))
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def test_no_reallocation(self, table_type, dtype, N):
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keys = np.arange(N).astype(dtype)
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preallocated_table = table_type(N)
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n_buckets_start = preallocated_table.get_state()["n_buckets"]
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preallocated_table.map_locations(keys)
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n_buckets_end = preallocated_table.get_state()["n_buckets"]
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# original number of buckets was enough:
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assert n_buckets_start == n_buckets_end
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# check with clean table (not too much preallocated)
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clean_table = table_type()
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clean_table.map_locations(keys)
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assert n_buckets_start == clean_table.get_state()["n_buckets"]
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class TestHashTableUnsorted:
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# TODO: moved from test_algos; may be redundancies with other tests
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def test_string_hashtable_set_item_signature(self):
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# GH#30419 fix typing in StringHashTable.set_item to prevent segfault
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tbl = ht.StringHashTable()
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tbl.set_item("key", 1)
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assert tbl.get_item("key") == 1
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with pytest.raises(TypeError, match="'key' has incorrect type"):
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# key arg typed as string, not object
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tbl.set_item(4, 6)
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with pytest.raises(TypeError, match="'val' has incorrect type"):
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tbl.get_item(4)
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def test_lookup_nan(self, writable):
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# GH#21688 ensure we can deal with readonly memory views
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xs = np.array([2.718, 3.14, np.nan, -7, 5, 2, 3])
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xs.setflags(write=writable)
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m = ht.Float64HashTable()
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m.map_locations(xs)
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tm.assert_numpy_array_equal(m.lookup(xs), np.arange(len(xs), dtype=np.intp))
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def test_add_signed_zeros(self):
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# GH#21866 inconsistent hash-function for float64
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# default hash-function would lead to different hash-buckets
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# for 0.0 and -0.0 if there are more than 2^30 hash-buckets
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# but this would mean 16GB
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N = 4 # 12 * 10**8 would trigger the error, if you have enough memory
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m = ht.Float64HashTable(N)
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m.set_item(0.0, 0)
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m.set_item(-0.0, 0)
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assert len(m) == 1 # 0.0 and -0.0 are equivalent
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def test_add_different_nans(self):
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# GH#21866 inconsistent hash-function for float64
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# create different nans from bit-patterns:
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NAN1 = struct.unpack("d", struct.pack("=Q", 0x7FF8000000000000))[0]
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NAN2 = struct.unpack("d", struct.pack("=Q", 0x7FF8000000000001))[0]
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assert NAN1 != NAN1
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assert NAN2 != NAN2
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# default hash function would lead to different hash-buckets
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# for NAN1 and NAN2 even if there are only 4 buckets:
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m = ht.Float64HashTable()
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m.set_item(NAN1, 0)
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m.set_item(NAN2, 0)
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assert len(m) == 1 # NAN1 and NAN2 are equivalent
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def test_lookup_overflow(self, writable):
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xs = np.array([1, 2, 2**63], dtype=np.uint64)
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# GH 21688 ensure we can deal with readonly memory views
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xs.setflags(write=writable)
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m = ht.UInt64HashTable()
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m.map_locations(xs)
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tm.assert_numpy_array_equal(m.lookup(xs), np.arange(len(xs), dtype=np.intp))
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@pytest.mark.parametrize("nvals", [0, 10]) # resizing to 0 is special case
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@pytest.mark.parametrize(
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"htable, uniques, dtype, safely_resizes",
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[
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(ht.PyObjectHashTable, ht.ObjectVector, "object", False),
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(ht.StringHashTable, ht.ObjectVector, "object", True),
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(ht.Float64HashTable, ht.Float64Vector, "float64", False),
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(ht.Int64HashTable, ht.Int64Vector, "int64", False),
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(ht.Int32HashTable, ht.Int32Vector, "int32", False),
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(ht.UInt64HashTable, ht.UInt64Vector, "uint64", False),
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],
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)
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def test_vector_resize(
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self, writable, htable, uniques, dtype, safely_resizes, nvals
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):
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# Test for memory errors after internal vector
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# reallocations (GH 7157)
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# Changed from using np.random.default_rng(2).rand to range
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# which could cause flaky CI failures when safely_resizes=False
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vals = np.array(range(1000), dtype=dtype)
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# GH 21688 ensures we can deal with read-only memory views
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vals.setflags(write=writable)
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# initialise instances; cannot initialise in parametrization,
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# as otherwise external views would be held on the array (which is
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# one of the things this test is checking)
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htable = htable()
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uniques = uniques()
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# get_labels may append to uniques
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htable.get_labels(vals[:nvals], uniques, 0, -1)
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# to_array() sets an external_view_exists flag on uniques.
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tmp = uniques.to_array()
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oldshape = tmp.shape
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# subsequent get_labels() calls can no longer append to it
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# (except for StringHashTables + ObjectVector)
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if safely_resizes:
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htable.get_labels(vals, uniques, 0, -1)
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else:
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with pytest.raises(ValueError, match="external reference.*"):
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htable.get_labels(vals, uniques, 0, -1)
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uniques.to_array() # should not raise here
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assert tmp.shape == oldshape
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@pytest.mark.parametrize(
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"hashtable",
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[
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ht.PyObjectHashTable,
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ht.StringHashTable,
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ht.Float64HashTable,
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ht.Int64HashTable,
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ht.Int32HashTable,
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ht.UInt64HashTable,
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],
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)
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def test_hashtable_large_sizehint(self, hashtable):
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# GH#22729 smoketest for not raising when passing a large size_hint
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size_hint = np.iinfo(np.uint32).max + 1
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hashtable(size_hint=size_hint)
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class TestPyObjectHashTableWithNans:
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def test_nan_float(self):
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nan1 = float("nan")
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nan2 = float("nan")
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assert nan1 is not nan2
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table = ht.PyObjectHashTable()
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table.set_item(nan1, 42)
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assert table.get_item(nan2) == 42
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def test_nan_complex_both(self):
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nan1 = complex(float("nan"), float("nan"))
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nan2 = complex(float("nan"), float("nan"))
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assert nan1 is not nan2
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table = ht.PyObjectHashTable()
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table.set_item(nan1, 42)
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assert table.get_item(nan2) == 42
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def test_nan_complex_real(self):
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nan1 = complex(float("nan"), 1)
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nan2 = complex(float("nan"), 1)
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other = complex(float("nan"), 2)
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assert nan1 is not nan2
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table = ht.PyObjectHashTable()
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table.set_item(nan1, 42)
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assert table.get_item(nan2) == 42
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with pytest.raises(KeyError, match=None) as error:
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table.get_item(other)
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assert str(error.value) == str(other)
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def test_nan_complex_imag(self):
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nan1 = complex(1, float("nan"))
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nan2 = complex(1, float("nan"))
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other = complex(2, float("nan"))
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assert nan1 is not nan2
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table = ht.PyObjectHashTable()
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table.set_item(nan1, 42)
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assert table.get_item(nan2) == 42
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with pytest.raises(KeyError, match=None) as error:
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table.get_item(other)
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assert str(error.value) == str(other)
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def test_nan_in_tuple(self):
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nan1 = (float("nan"),)
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nan2 = (float("nan"),)
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assert nan1[0] is not nan2[0]
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table = ht.PyObjectHashTable()
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table.set_item(nan1, 42)
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assert table.get_item(nan2) == 42
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def test_nan_in_nested_tuple(self):
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nan1 = (1, (2, (float("nan"),)))
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nan2 = (1, (2, (float("nan"),)))
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other = (1, 2)
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table = ht.PyObjectHashTable()
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table.set_item(nan1, 42)
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assert table.get_item(nan2) == 42
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with pytest.raises(KeyError, match=None) as error:
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table.get_item(other)
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assert str(error.value) == str(other)
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def test_hash_equal_tuple_with_nans():
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a = (float("nan"), (float("nan"), float("nan")))
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b = (float("nan"), (float("nan"), float("nan")))
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assert ht.object_hash(a) == ht.object_hash(b)
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assert ht.objects_are_equal(a, b)
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def test_get_labels_groupby_for_Int64(writable):
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table = ht.Int64HashTable()
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vals = np.array([1, 2, -1, 2, 1, -1], dtype=np.int64)
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vals.flags.writeable = writable
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arr, unique = table.get_labels_groupby(vals)
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expected_arr = np.array([0, 1, -1, 1, 0, -1], dtype=np.intp)
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expected_unique = np.array([1, 2], dtype=np.int64)
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tm.assert_numpy_array_equal(arr, expected_arr)
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tm.assert_numpy_array_equal(unique, expected_unique)
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def test_tracemalloc_works_for_StringHashTable():
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N = 1000
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keys = np.arange(N).astype(np.str_).astype(np.object_)
|
|
with activated_tracemalloc():
|
|
table = ht.StringHashTable()
|
|
table.map_locations(keys)
|
|
used = get_allocated_khash_memory()
|
|
my_size = table.sizeof()
|
|
assert used == my_size
|
|
del table
|
|
assert get_allocated_khash_memory() == 0
|
|
|
|
|
|
def test_tracemalloc_for_empty_StringHashTable():
|
|
with activated_tracemalloc():
|
|
table = ht.StringHashTable()
|
|
used = get_allocated_khash_memory()
|
|
my_size = table.sizeof()
|
|
assert used == my_size
|
|
del table
|
|
assert get_allocated_khash_memory() == 0
|
|
|
|
|
|
@pytest.mark.parametrize("N", range(1, 110))
|
|
def test_no_reallocation_StringHashTable(N):
|
|
keys = np.arange(N).astype(np.str_).astype(np.object_)
|
|
preallocated_table = ht.StringHashTable(N)
|
|
n_buckets_start = preallocated_table.get_state()["n_buckets"]
|
|
preallocated_table.map_locations(keys)
|
|
n_buckets_end = preallocated_table.get_state()["n_buckets"]
|
|
# original number of buckets was enough:
|
|
assert n_buckets_start == n_buckets_end
|
|
# check with clean table (not too much preallocated)
|
|
clean_table = ht.StringHashTable()
|
|
clean_table.map_locations(keys)
|
|
assert n_buckets_start == clean_table.get_state()["n_buckets"]
|
|
|
|
|
|
@pytest.mark.parametrize(
|
|
"table_type, dtype",
|
|
[
|
|
(ht.Float64HashTable, np.float64),
|
|
(ht.Float32HashTable, np.float32),
|
|
(ht.Complex128HashTable, np.complex128),
|
|
(ht.Complex64HashTable, np.complex64),
|
|
],
|
|
)
|
|
class TestHashTableWithNans:
|
|
def test_get_set_contains_len(self, table_type, dtype):
|
|
index = float("nan")
|
|
table = table_type()
|
|
assert index not in table
|
|
|
|
table.set_item(index, 42)
|
|
assert len(table) == 1
|
|
assert index in table
|
|
assert table.get_item(index) == 42
|
|
|
|
table.set_item(index, 41)
|
|
assert len(table) == 1
|
|
assert index in table
|
|
assert table.get_item(index) == 41
|
|
|
|
def test_map_locations(self, table_type, dtype):
|
|
N = 10
|
|
table = table_type()
|
|
keys = np.full(N, np.nan, dtype=dtype)
|
|
table.map_locations(keys)
|
|
assert len(table) == 1
|
|
assert table.get_item(np.nan) == N - 1
|
|
|
|
def test_unique(self, table_type, dtype):
|
|
N = 1020
|
|
table = table_type()
|
|
keys = np.full(N, np.nan, dtype=dtype)
|
|
unique = table.unique(keys)
|
|
assert np.all(np.isnan(unique)) and len(unique) == 1
|
|
|
|
|
|
def test_unique_for_nan_objects_floats():
|
|
table = ht.PyObjectHashTable()
|
|
keys = np.array([float("nan") for i in range(50)], dtype=np.object_)
|
|
unique = table.unique(keys)
|
|
assert len(unique) == 1
|
|
|
|
|
|
def test_unique_for_nan_objects_complex():
|
|
table = ht.PyObjectHashTable()
|
|
keys = np.array([complex(float("nan"), 1.0) for i in range(50)], dtype=np.object_)
|
|
unique = table.unique(keys)
|
|
assert len(unique) == 1
|
|
|
|
|
|
def test_unique_for_nan_objects_tuple():
|
|
table = ht.PyObjectHashTable()
|
|
keys = np.array(
|
|
[1] + [(1.0, (float("nan"), 1.0)) for i in range(50)], dtype=np.object_
|
|
)
|
|
unique = table.unique(keys)
|
|
assert len(unique) == 2
|
|
|
|
|
|
@pytest.mark.parametrize(
|
|
"dtype",
|
|
[
|
|
np.object_,
|
|
np.complex128,
|
|
np.int64,
|
|
np.uint64,
|
|
np.float64,
|
|
np.complex64,
|
|
np.int32,
|
|
np.uint32,
|
|
np.float32,
|
|
np.int16,
|
|
np.uint16,
|
|
np.int8,
|
|
np.uint8,
|
|
np.intp,
|
|
],
|
|
)
|
|
class TestHelpFunctions:
|
|
def test_value_count(self, dtype, writable):
|
|
N = 43
|
|
expected = (np.arange(N) + N).astype(dtype)
|
|
values = np.repeat(expected, 5)
|
|
values.flags.writeable = writable
|
|
keys, counts = ht.value_count(values, False)
|
|
tm.assert_numpy_array_equal(np.sort(keys), expected)
|
|
assert np.all(counts == 5)
|
|
|
|
def test_value_count_stable(self, dtype, writable):
|
|
# GH12679
|
|
values = np.array([2, 1, 5, 22, 3, -1, 8]).astype(dtype)
|
|
values.flags.writeable = writable
|
|
keys, counts = ht.value_count(values, False)
|
|
tm.assert_numpy_array_equal(keys, values)
|
|
assert np.all(counts == 1)
|
|
|
|
def test_duplicated_first(self, dtype, writable):
|
|
N = 100
|
|
values = np.repeat(np.arange(N).astype(dtype), 5)
|
|
values.flags.writeable = writable
|
|
result = ht.duplicated(values)
|
|
expected = np.ones_like(values, dtype=np.bool_)
|
|
expected[::5] = False
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
def test_ismember_yes(self, dtype, writable):
|
|
N = 127
|
|
arr = np.arange(N).astype(dtype)
|
|
values = np.arange(N).astype(dtype)
|
|
arr.flags.writeable = writable
|
|
values.flags.writeable = writable
|
|
result = ht.ismember(arr, values)
|
|
expected = np.ones_like(values, dtype=np.bool_)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
def test_ismember_no(self, dtype):
|
|
N = 17
|
|
arr = np.arange(N).astype(dtype)
|
|
values = (np.arange(N) + N).astype(dtype)
|
|
result = ht.ismember(arr, values)
|
|
expected = np.zeros_like(values, dtype=np.bool_)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
def test_mode(self, dtype, writable):
|
|
if dtype in (np.int8, np.uint8):
|
|
N = 53
|
|
else:
|
|
N = 11111
|
|
values = np.repeat(np.arange(N).astype(dtype), 5)
|
|
values[0] = 42
|
|
values.flags.writeable = writable
|
|
result = ht.mode(values, False)
|
|
assert result == 42
|
|
|
|
def test_mode_stable(self, dtype, writable):
|
|
values = np.array([2, 1, 5, 22, 3, -1, 8]).astype(dtype)
|
|
values.flags.writeable = writable
|
|
keys = ht.mode(values, False)
|
|
tm.assert_numpy_array_equal(keys, values)
|
|
|
|
|
|
def test_modes_with_nans():
|
|
# GH42688, nans aren't mangled
|
|
nulls = [pd.NA, np.nan, pd.NaT, None]
|
|
values = np.array([True] + nulls * 2, dtype=np.object_)
|
|
modes = ht.mode(values, False)
|
|
assert modes.size == len(nulls)
|
|
|
|
|
|
def test_unique_label_indices_intp(writable):
|
|
keys = np.array([1, 2, 2, 2, 1, 3], dtype=np.intp)
|
|
keys.flags.writeable = writable
|
|
result = ht.unique_label_indices(keys)
|
|
expected = np.array([0, 1, 5], dtype=np.intp)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
|
|
def test_unique_label_indices():
|
|
a = np.random.default_rng(2).integers(1, 1 << 10, 1 << 15).astype(np.intp)
|
|
|
|
left = ht.unique_label_indices(a)
|
|
right = np.unique(a, return_index=True)[1]
|
|
|
|
tm.assert_numpy_array_equal(left, right, check_dtype=False)
|
|
|
|
a[np.random.default_rng(2).choice(len(a), 10)] = -1
|
|
left = ht.unique_label_indices(a)
|
|
right = np.unique(a, return_index=True)[1][1:]
|
|
tm.assert_numpy_array_equal(left, right, check_dtype=False)
|
|
|
|
|
|
@pytest.mark.parametrize(
|
|
"dtype",
|
|
[
|
|
np.float64,
|
|
np.float32,
|
|
np.complex128,
|
|
np.complex64,
|
|
],
|
|
)
|
|
class TestHelpFunctionsWithNans:
|
|
def test_value_count(self, dtype):
|
|
values = np.array([np.nan, np.nan, np.nan], dtype=dtype)
|
|
keys, counts = ht.value_count(values, True)
|
|
assert len(keys) == 0
|
|
keys, counts = ht.value_count(values, False)
|
|
assert len(keys) == 1 and np.all(np.isnan(keys))
|
|
assert counts[0] == 3
|
|
|
|
def test_duplicated_first(self, dtype):
|
|
values = np.array([np.nan, np.nan, np.nan], dtype=dtype)
|
|
result = ht.duplicated(values)
|
|
expected = np.array([False, True, True])
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
def test_ismember_yes(self, dtype):
|
|
arr = np.array([np.nan, np.nan, np.nan], dtype=dtype)
|
|
values = np.array([np.nan, np.nan], dtype=dtype)
|
|
result = ht.ismember(arr, values)
|
|
expected = np.array([True, True, True], dtype=np.bool_)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
def test_ismember_no(self, dtype):
|
|
arr = np.array([np.nan, np.nan, np.nan], dtype=dtype)
|
|
values = np.array([1], dtype=dtype)
|
|
result = ht.ismember(arr, values)
|
|
expected = np.array([False, False, False], dtype=np.bool_)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
def test_mode(self, dtype):
|
|
values = np.array([42, np.nan, np.nan, np.nan], dtype=dtype)
|
|
assert ht.mode(values, True) == 42
|
|
assert np.isnan(ht.mode(values, False))
|
|
|
|
|
|
def test_ismember_tuple_with_nans():
|
|
# GH-41836
|
|
values = [("a", float("nan")), ("b", 1)]
|
|
comps = [("a", float("nan"))]
|
|
|
|
msg = "isin with argument that is not not a Series"
|
|
with tm.assert_produces_warning(FutureWarning, match=msg):
|
|
result = isin(values, comps)
|
|
expected = np.array([True, False], dtype=np.bool_)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|
|
|
|
def test_float_complex_int_are_equal_as_objects():
|
|
values = ["a", 5, 5.0, 5.0 + 0j]
|
|
comps = list(range(129))
|
|
result = isin(np.array(values, dtype=object), np.asarray(comps))
|
|
expected = np.array([False, True, True, True], dtype=np.bool_)
|
|
tm.assert_numpy_array_equal(result, expected)
|
|
|