AlkantarClanX12
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Current File : //opt/cloudlinux/venv/lib64/python3.11/site-packages/numpy/lib/tests/test_format.py |
# doctest r''' Test the .npy file format. Set up: >>> import sys >>> from io import BytesIO >>> from numpy.lib import format >>> >>> scalars = [ ... np.uint8, ... np.int8, ... np.uint16, ... np.int16, ... np.uint32, ... np.int32, ... np.uint64, ... np.int64, ... np.float32, ... np.float64, ... np.complex64, ... np.complex128, ... object, ... ] >>> >>> basic_arrays = [] >>> >>> for scalar in scalars: ... for endian in '<>': ... dtype = np.dtype(scalar).newbyteorder(endian) ... basic = np.arange(15).astype(dtype) ... basic_arrays.extend([ ... np.array([], dtype=dtype), ... np.array(10, dtype=dtype), ... basic, ... basic.reshape((3,5)), ... basic.reshape((3,5)).T, ... basic.reshape((3,5))[::-1,::2], ... ]) ... >>> >>> Pdescr = [ ... ('x', 'i4', (2,)), ... ('y', 'f8', (2, 2)), ... ('z', 'u1')] >>> >>> >>> PbufferT = [ ... ([3,2], [[6.,4.],[6.,4.]], 8), ... ([4,3], [[7.,5.],[7.,5.]], 9), ... ] >>> >>> >>> Ndescr = [ ... ('x', 'i4', (2,)), ... ('Info', [ ... ('value', 'c16'), ... ('y2', 'f8'), ... ('Info2', [ ... ('name', 'S2'), ... ('value', 'c16', (2,)), ... ('y3', 'f8', (2,)), ... ('z3', 'u4', (2,))]), ... ('name', 'S2'), ... ('z2', 'b1')]), ... ('color', 'S2'), ... ('info', [ ... ('Name', 'U8'), ... ('Value', 'c16')]), ... ('y', 'f8', (2, 2)), ... ('z', 'u1')] >>> >>> >>> NbufferT = [ ... ([3,2], (6j, 6., ('nn', [6j,4j], [6.,4.], [1,2]), 'NN', True), 'cc', ('NN', 6j), [[6.,4.],[6.,4.]], 8), ... ([4,3], (7j, 7., ('oo', [7j,5j], [7.,5.], [2,1]), 'OO', False), 'dd', ('OO', 7j), [[7.,5.],[7.,5.]], 9), ... ] >>> >>> >>> record_arrays = [ ... np.array(PbufferT, dtype=np.dtype(Pdescr).newbyteorder('<')), ... np.array(NbufferT, dtype=np.dtype(Ndescr).newbyteorder('<')), ... np.array(PbufferT, dtype=np.dtype(Pdescr).newbyteorder('>')), ... np.array(NbufferT, dtype=np.dtype(Ndescr).newbyteorder('>')), ... ] Test the magic string writing. >>> format.magic(1, 0) '\x93NUMPY\x01\x00' >>> format.magic(0, 0) '\x93NUMPY\x00\x00' >>> format.magic(255, 255) '\x93NUMPY\xff\xff' >>> format.magic(2, 5) '\x93NUMPY\x02\x05' Test the magic string reading. >>> format.read_magic(BytesIO(format.magic(1, 0))) (1, 0) >>> format.read_magic(BytesIO(format.magic(0, 0))) (0, 0) >>> format.read_magic(BytesIO(format.magic(255, 255))) (255, 255) >>> format.read_magic(BytesIO(format.magic(2, 5))) (2, 5) Test the header writing. >>> for arr in basic_arrays + record_arrays: ... f = BytesIO() ... format.write_array_header_1_0(f, arr) # XXX: arr is not a dict, items gets called on it ... print(repr(f.getvalue())) ... "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '|u1', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '|u1', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '|u1', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '|i1', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '|i1', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '|i1', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<u2', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<u2', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<u2', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<u2', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<u2', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<u2', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>u2', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>u2', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>u2', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>u2', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>u2', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>u2', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<i2', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<i2', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<i2', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<i2', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<i2', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<i2', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>i2', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>i2', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>i2', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>i2', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>i2', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>i2', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<u4', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<u4', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<u4', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<u4', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<u4', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<u4', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>u4', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>u4', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>u4', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>u4', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>u4', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>u4', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<i4', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<i4', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<i4', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<i4', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<i4', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<i4', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>i4', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>i4', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>i4', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>i4', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>i4', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>i4', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<u8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<u8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<u8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<u8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<u8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<u8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>u8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>u8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>u8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>u8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>u8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>u8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<i8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<i8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<i8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<i8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<i8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<i8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>i8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>i8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>i8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>i8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>i8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>i8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<f4', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<f4', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<f4', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<f4', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<f4', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<f4', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>f4', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>f4', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>f4', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>f4', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>f4', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>f4', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<f8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<f8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<f8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<f8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<f8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<f8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>f8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>f8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>f8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>f8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>f8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>f8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<c8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<c8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<c8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<c8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<c8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<c8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>c8', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>c8', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>c8', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>c8', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>c8', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>c8', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '<c16', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '<c16', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '<c16', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '<c16', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '<c16', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '<c16', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': '>c16', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': '>c16', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': '>c16', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': '>c16', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': '>c16', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': '>c16', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': 'O', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (3, 3)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (0,)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': ()} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (15,)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (3, 5)} \n" "F\x00{'descr': 'O', 'fortran_order': True, 'shape': (5, 3)} \n" "F\x00{'descr': 'O', 'fortran_order': False, 'shape': (3, 3)} \n" "v\x00{'descr': [('x', '<i4', (2,)), ('y', '<f8', (2, 2)), ('z', '|u1')],\n 'fortran_order': False,\n 'shape': (2,)} \n" "\x16\x02{'descr': [('x', '<i4', (2,)),\n ('Info',\n [('value', '<c16'),\n ('y2', '<f8'),\n ('Info2',\n [('name', '|S2'),\n ('value', '<c16', (2,)),\n ('y3', '<f8', (2,)),\n ('z3', '<u4', (2,))]),\n ('name', '|S2'),\n ('z2', '|b1')]),\n ('color', '|S2'),\n ('info', [('Name', '<U8'), ('Value', '<c16')]),\n ('y', '<f8', (2, 2)),\n ('z', '|u1')],\n 'fortran_order': False,\n 'shape': (2,)} \n" "v\x00{'descr': [('x', '>i4', (2,)), ('y', '>f8', (2, 2)), ('z', '|u1')],\n 'fortran_order': False,\n 'shape': (2,)} \n" "\x16\x02{'descr': [('x', '>i4', (2,)),\n ('Info',\n [('value', '>c16'),\n ('y2', '>f8'),\n ('Info2',\n [('name', '|S2'),\n ('value', '>c16', (2,)),\n ('y3', '>f8', (2,)),\n ('z3', '>u4', (2,))]),\n ('name', '|S2'),\n ('z2', '|b1')]),\n ('color', '|S2'),\n ('info', [('Name', '>U8'), ('Value', '>c16')]),\n ('y', '>f8', (2, 2)),\n ('z', '|u1')],\n 'fortran_order': False,\n 'shape': (2,)} \n" ''' import sys import os import warnings import pytest from io import BytesIO import numpy as np from numpy.testing import ( assert_, assert_array_equal, assert_raises, assert_raises_regex, assert_warns, IS_PYPY, IS_WASM ) from numpy.testing._private.utils import requires_memory from numpy.lib import format # Generate some basic arrays to test with. scalars = [ np.uint8, np.int8, np.uint16, np.int16, np.uint32, np.int32, np.uint64, np.int64, np.float32, np.float64, np.complex64, np.complex128, object, ] basic_arrays = [] for scalar in scalars: for endian in '<>': dtype = np.dtype(scalar).newbyteorder(endian) basic = np.arange(1500).astype(dtype) basic_arrays.extend([ # Empty np.array([], dtype=dtype), # Rank-0 np.array(10, dtype=dtype), # 1-D basic, # 2-D C-contiguous basic.reshape((30, 50)), # 2-D F-contiguous basic.reshape((30, 50)).T, # 2-D non-contiguous basic.reshape((30, 50))[::-1, ::2], ]) # More complicated record arrays. # This is the structure of the table used for plain objects: # # +-+-+-+ # |x|y|z| # +-+-+-+ # Structure of a plain array description: Pdescr = [ ('x', 'i4', (2,)), ('y', 'f8', (2, 2)), ('z', 'u1')] # A plain list of tuples with values for testing: PbufferT = [ # x y z ([3, 2], [[6., 4.], [6., 4.]], 8), ([4, 3], [[7., 5.], [7., 5.]], 9), ] # This is the structure of the table used for nested objects (DON'T PANIC!): # # +-+---------------------------------+-----+----------+-+-+ # |x|Info |color|info |y|z| # | +-----+--+----------------+----+--+ +----+-----+ | | # | |value|y2|Info2 |name|z2| |Name|Value| | | # | | | +----+-----+--+--+ | | | | | | | # | | | |name|value|y3|z3| | | | | | | | # +-+-----+--+----+-----+--+--+----+--+-----+----+-----+-+-+ # # The corresponding nested array description: Ndescr = [ ('x', 'i4', (2,)), ('Info', [ ('value', 'c16'), ('y2', 'f8'), ('Info2', [ ('name', 'S2'), ('value', 'c16', (2,)), ('y3', 'f8', (2,)), ('z3', 'u4', (2,))]), ('name', 'S2'), ('z2', 'b1')]), ('color', 'S2'), ('info', [ ('Name', 'U8'), ('Value', 'c16')]), ('y', 'f8', (2, 2)), ('z', 'u1')] NbufferT = [ # x Info color info y z # value y2 Info2 name z2 Name Value # name value y3 z3 ([3, 2], (6j, 6., ('nn', [6j, 4j], [6., 4.], [1, 2]), 'NN', True), 'cc', ('NN', 6j), [[6., 4.], [6., 4.]], 8), ([4, 3], (7j, 7., ('oo', [7j, 5j], [7., 5.], [2, 1]), 'OO', False), 'dd', ('OO', 7j), [[7., 5.], [7., 5.]], 9), ] record_arrays = [ np.array(PbufferT, dtype=np.dtype(Pdescr).newbyteorder('<')), np.array(NbufferT, dtype=np.dtype(Ndescr).newbyteorder('<')), np.array(PbufferT, dtype=np.dtype(Pdescr).newbyteorder('>')), np.array(NbufferT, dtype=np.dtype(Ndescr).newbyteorder('>')), np.zeros(1, dtype=[('c', ('<f8', (5,)), (2,))]) ] #BytesIO that reads a random number of bytes at a time class BytesIOSRandomSize(BytesIO): def read(self, size=None): import random size = random.randint(1, size) return super().read(size) def roundtrip(arr): f = BytesIO() format.write_array(f, arr) f2 = BytesIO(f.getvalue()) arr2 = format.read_array(f2, allow_pickle=True) return arr2 def roundtrip_randsize(arr): f = BytesIO() format.write_array(f, arr) f2 = BytesIOSRandomSize(f.getvalue()) arr2 = format.read_array(f2) return arr2 def roundtrip_truncated(arr): f = BytesIO() format.write_array(f, arr) #BytesIO is one byte short f2 = BytesIO(f.getvalue()[0:-1]) arr2 = format.read_array(f2) return arr2 def assert_equal_(o1, o2): assert_(o1 == o2) def test_roundtrip(): for arr in basic_arrays + record_arrays: arr2 = roundtrip(arr) assert_array_equal(arr, arr2) def test_roundtrip_randsize(): for arr in basic_arrays + record_arrays: if arr.dtype != object: arr2 = roundtrip_randsize(arr) assert_array_equal(arr, arr2) def test_roundtrip_truncated(): for arr in basic_arrays: if arr.dtype != object: assert_raises(ValueError, roundtrip_truncated, arr) def test_long_str(): # check items larger than internal buffer size, gh-4027 long_str_arr = np.ones(1, dtype=np.dtype((str, format.BUFFER_SIZE + 1))) long_str_arr2 = roundtrip(long_str_arr) assert_array_equal(long_str_arr, long_str_arr2) @pytest.mark.skipif(IS_WASM, reason="memmap doesn't work correctly") @pytest.mark.slow def test_memmap_roundtrip(tmpdir): for i, arr in enumerate(basic_arrays + record_arrays): if arr.dtype.hasobject: # Skip these since they can't be mmap'ed. continue # Write it out normally and through mmap. nfn = os.path.join(tmpdir, f'normal{i}.npy') mfn = os.path.join(tmpdir, f'memmap{i}.npy') with open(nfn, 'wb') as fp: format.write_array(fp, arr) fortran_order = ( arr.flags.f_contiguous and not arr.flags.c_contiguous) ma = format.open_memmap(mfn, mode='w+', dtype=arr.dtype, shape=arr.shape, fortran_order=fortran_order) ma[...] = arr ma.flush() # Check that both of these files' contents are the same. with open(nfn, 'rb') as fp: normal_bytes = fp.read() with open(mfn, 'rb') as fp: memmap_bytes = fp.read() assert_equal_(normal_bytes, memmap_bytes) # Check that reading the file using memmap works. ma = format.open_memmap(nfn, mode='r') ma.flush() def test_compressed_roundtrip(tmpdir): arr = np.random.rand(200, 200) npz_file = os.path.join(tmpdir, 'compressed.npz') np.savez_compressed(npz_file, arr=arr) with np.load(npz_file) as npz: arr1 = npz['arr'] assert_array_equal(arr, arr1) # aligned dt1 = np.dtype('i1, i4, i1', align=True) # non-aligned, explicit offsets dt2 = np.dtype({'names': ['a', 'b'], 'formats': ['i4', 'i4'], 'offsets': [1, 6]}) # nested struct-in-struct dt3 = np.dtype({'names': ['c', 'd'], 'formats': ['i4', dt2]}) # field with '' name dt4 = np.dtype({'names': ['a', '', 'b'], 'formats': ['i4']*3}) # titles dt5 = np.dtype({'names': ['a', 'b'], 'formats': ['i4', 'i4'], 'offsets': [1, 6], 'titles': ['aa', 'bb']}) # empty dt6 = np.dtype({'names': [], 'formats': [], 'itemsize': 8}) @pytest.mark.parametrize("dt", [dt1, dt2, dt3, dt4, dt5, dt6]) def test_load_padded_dtype(tmpdir, dt): arr = np.zeros(3, dt) for i in range(3): arr[i] = i + 5 npz_file = os.path.join(tmpdir, 'aligned.npz') np.savez(npz_file, arr=arr) with np.load(npz_file) as npz: arr1 = npz['arr'] assert_array_equal(arr, arr1) @pytest.mark.xfail(IS_WASM, reason="Emscripten NODEFS has a buggy dup") def test_python2_python3_interoperability(): fname = 'win64python2.npy' path = os.path.join(os.path.dirname(__file__), 'data', fname) with pytest.warns(UserWarning, match="Reading.*this warning\\."): data = np.load(path) assert_array_equal(data, np.ones(2)) def test_pickle_python2_python3(): # Test that loading object arrays saved on Python 2 works both on # Python 2 and Python 3 and vice versa data_dir = os.path.join(os.path.dirname(__file__), 'data') expected = np.array([None, range, '\u512a\u826f', b'\xe4\xb8\x8d\xe8\x89\xaf'], dtype=object) for fname in ['py2-objarr.npy', 'py2-objarr.npz', 'py3-objarr.npy', 'py3-objarr.npz']: path = os.path.join(data_dir, fname) for encoding in ['bytes', 'latin1']: data_f = np.load(path, allow_pickle=True, encoding=encoding) if fname.endswith('.npz'): data = data_f['x'] data_f.close() else: data = data_f if encoding == 'latin1' and fname.startswith('py2'): assert_(isinstance(data[3], str)) assert_array_equal(data[:-1], expected[:-1]) # mojibake occurs assert_array_equal(data[-1].encode(encoding), expected[-1]) else: assert_(isinstance(data[3], bytes)) assert_array_equal(data, expected) if fname.startswith('py2'): if fname.endswith('.npz'): data = np.load(path, allow_pickle=True) assert_raises(UnicodeError, data.__getitem__, 'x') data.close() data = np.load(path, allow_pickle=True, fix_imports=False, encoding='latin1') assert_raises(ImportError, data.__getitem__, 'x') data.close() else: assert_raises(UnicodeError, np.load, path, allow_pickle=True) assert_raises(ImportError, np.load, path, allow_pickle=True, fix_imports=False, encoding='latin1') def test_pickle_disallow(tmpdir): data_dir = os.path.join(os.path.dirname(__file__), 'data') path = os.path.join(data_dir, 'py2-objarr.npy') assert_raises(ValueError, np.load, path, allow_pickle=False, encoding='latin1') path = os.path.join(data_dir, 'py2-objarr.npz') with np.load(path, allow_pickle=False, encoding='latin1') as f: assert_raises(ValueError, f.__getitem__, 'x') path = os.path.join(tmpdir, 'pickle-disabled.npy') assert_raises(ValueError, np.save, path, np.array([None], dtype=object), allow_pickle=False) @pytest.mark.parametrize('dt', [ np.dtype(np.dtype([('a', np.int8), ('b', np.int16), ('c', np.int32), ], align=True), (3,)), np.dtype([('x', np.dtype({'names':['a','b'], 'formats':['i1','i1'], 'offsets':[0,4], 'itemsize':8, }, (3,)), (4,), )]), np.dtype([('x', ('<f8', (5,)), (2,), )]), np.dtype([('x', np.dtype(( np.dtype(( np.dtype({'names':['a','b'], 'formats':['i1','i1'], 'offsets':[0,4], 'itemsize':8}), (3,) )), (4,) ))) ]), np.dtype([ ('a', np.dtype(( np.dtype(( np.dtype(( np.dtype([ ('a', int), ('b', np.dtype({'names':['a','b'], 'formats':['i1','i1'], 'offsets':[0,4], 'itemsize':8})), ]), (3,), )), (4,), )), (5,), ))) ]), ]) def test_descr_to_dtype(dt): dt1 = format.descr_to_dtype(dt.descr) assert_equal_(dt1, dt) arr1 = np.zeros(3, dt) arr2 = roundtrip(arr1) assert_array_equal(arr1, arr2) def test_version_2_0(): f = BytesIO() # requires more than 2 byte for header dt = [(("%d" % i) * 100, float) for i in range(500)] d = np.ones(1000, dtype=dt) format.write_array(f, d, version=(2, 0)) with warnings.catch_warnings(record=True) as w: warnings.filterwarnings('always', '', UserWarning) format.write_array(f, d) assert_(w[0].category is UserWarning) # check alignment of data portion f.seek(0) header = f.readline() assert_(len(header) % format.ARRAY_ALIGN == 0) f.seek(0) n = format.read_array(f, max_header_size=200000) assert_array_equal(d, n) # 1.0 requested but data cannot be saved this way assert_raises(ValueError, format.write_array, f, d, (1, 0)) @pytest.mark.skipif(IS_WASM, reason="memmap doesn't work correctly") def test_version_2_0_memmap(tmpdir): # requires more than 2 byte for header dt = [(("%d" % i) * 100, float) for i in range(500)] d = np.ones(1000, dtype=dt) tf1 = os.path.join(tmpdir, f'version2_01.npy') tf2 = os.path.join(tmpdir, f'version2_02.npy') # 1.0 requested but data cannot be saved this way assert_raises(ValueError, format.open_memmap, tf1, mode='w+', dtype=d.dtype, shape=d.shape, version=(1, 0)) ma = format.open_memmap(tf1, mode='w+', dtype=d.dtype, shape=d.shape, version=(2, 0)) ma[...] = d ma.flush() ma = format.open_memmap(tf1, mode='r', max_header_size=200000) assert_array_equal(ma, d) with warnings.catch_warnings(record=True) as w: warnings.filterwarnings('always', '', UserWarning) ma = format.open_memmap(tf2, mode='w+', dtype=d.dtype, shape=d.shape, version=None) assert_(w[0].category is UserWarning) ma[...] = d ma.flush() ma = format.open_memmap(tf2, mode='r', max_header_size=200000) assert_array_equal(ma, d) @pytest.mark.parametrize("mmap_mode", ["r", None]) def test_huge_header(tmpdir, mmap_mode): f = os.path.join(tmpdir, f'large_header.npy') arr = np.array(1, dtype="i,"*10000+"i") with pytest.warns(UserWarning, match=".*format 2.0"): np.save(f, arr) with pytest.raises(ValueError, match="Header.*large"): np.load(f, mmap_mode=mmap_mode) with pytest.raises(ValueError, match="Header.*large"): np.load(f, mmap_mode=mmap_mode, max_header_size=20000) res = np.load(f, mmap_mode=mmap_mode, allow_pickle=True) assert_array_equal(res, arr) res = np.load(f, mmap_mode=mmap_mode, max_header_size=180000) assert_array_equal(res, arr) def test_huge_header_npz(tmpdir): f = os.path.join(tmpdir, f'large_header.npz') arr = np.array(1, dtype="i,"*10000+"i") with pytest.warns(UserWarning, match=".*format 2.0"): np.savez(f, arr=arr) # Only getting the array from the file actually reads it with pytest.raises(ValueError, match="Header.*large"): np.load(f)["arr"] with pytest.raises(ValueError, match="Header.*large"): np.load(f, max_header_size=20000)["arr"] res = np.load(f, allow_pickle=True)["arr"] assert_array_equal(res, arr) res = np.load(f, max_header_size=180000)["arr"] assert_array_equal(res, arr) def test_write_version(): f = BytesIO() arr = np.arange(1) # These should pass. format.write_array(f, arr, version=(1, 0)) format.write_array(f, arr) format.write_array(f, arr, version=None) format.write_array(f, arr) format.write_array(f, arr, version=(2, 0)) format.write_array(f, arr) # These should all fail. bad_versions = [ (1, 1), (0, 0), (0, 1), (2, 2), (255, 255), ] for version in bad_versions: with assert_raises_regex(ValueError, 'we only support format version.*'): format.write_array(f, arr, version=version) bad_version_magic = [ b'\x93NUMPY\x01\x01', b'\x93NUMPY\x00\x00', b'\x93NUMPY\x00\x01', b'\x93NUMPY\x02\x00', b'\x93NUMPY\x02\x02', b'\x93NUMPY\xff\xff', ] malformed_magic = [ b'\x92NUMPY\x01\x00', b'\x00NUMPY\x01\x00', b'\x93numpy\x01\x00', b'\x93MATLB\x01\x00', b'\x93NUMPY\x01', b'\x93NUMPY', b'', ] def test_read_magic(): s1 = BytesIO() s2 = BytesIO() arr = np.ones((3, 6), dtype=float) format.write_array(s1, arr, version=(1, 0)) format.write_array(s2, arr, version=(2, 0)) s1.seek(0) s2.seek(0) version1 = format.read_magic(s1) version2 = format.read_magic(s2) assert_(version1 == (1, 0)) assert_(version2 == (2, 0)) assert_(s1.tell() == format.MAGIC_LEN) assert_(s2.tell() == format.MAGIC_LEN) def test_read_magic_bad_magic(): for magic in malformed_magic: f = BytesIO(magic) assert_raises(ValueError, format.read_array, f) def test_read_version_1_0_bad_magic(): for magic in bad_version_magic + malformed_magic: f = BytesIO(magic) assert_raises(ValueError, format.read_array, f) def test_bad_magic_args(): assert_raises(ValueError, format.magic, -1, 1) assert_raises(ValueError, format.magic, 256, 1) assert_raises(ValueError, format.magic, 1, -1) assert_raises(ValueError, format.magic, 1, 256) def test_large_header(): s = BytesIO() d = {'shape': tuple(), 'fortran_order': False, 'descr': '<i8'} format.write_array_header_1_0(s, d) s = BytesIO() d['descr'] = [('x'*256*256, '<i8')] assert_raises(ValueError, format.write_array_header_1_0, s, d) def test_read_array_header_1_0(): s = BytesIO() arr = np.ones((3, 6), dtype=float) format.write_array(s, arr, version=(1, 0)) s.seek(format.MAGIC_LEN) shape, fortran, dtype = format.read_array_header_1_0(s) assert_(s.tell() % format.ARRAY_ALIGN == 0) assert_((shape, fortran, dtype) == ((3, 6), False, float)) def test_read_array_header_2_0(): s = BytesIO() arr = np.ones((3, 6), dtype=float) format.write_array(s, arr, version=(2, 0)) s.seek(format.MAGIC_LEN) shape, fortran, dtype = format.read_array_header_2_0(s) assert_(s.tell() % format.ARRAY_ALIGN == 0) assert_((shape, fortran, dtype) == ((3, 6), False, float)) def test_bad_header(): # header of length less than 2 should fail s = BytesIO() assert_raises(ValueError, format.read_array_header_1_0, s) s = BytesIO(b'1') assert_raises(ValueError, format.read_array_header_1_0, s) # header shorter than indicated size should fail s = BytesIO(b'\x01\x00') assert_raises(ValueError, format.read_array_header_1_0, s) # headers without the exact keys required should fail # d = {"shape": (1, 2), # "descr": "x"} s = BytesIO( b"\x93NUMPY\x01\x006\x00{'descr': 'x', 'shape': (1, 2), }" + b" \n" ) assert_raises(ValueError, format.read_array_header_1_0, s) d = {"shape": (1, 2), "fortran_order": False, "descr": "x", "extrakey": -1} s = BytesIO() format.write_array_header_1_0(s, d) assert_raises(ValueError, format.read_array_header_1_0, s) def test_large_file_support(tmpdir): if (sys.platform == 'win32' or sys.platform == 'cygwin'): pytest.skip("Unknown if Windows has sparse filesystems") # try creating a large sparse file tf_name = os.path.join(tmpdir, 'sparse_file') try: # seek past end would work too, but linux truncate somewhat # increases the chances that we have a sparse filesystem and can # avoid actually writing 5GB import subprocess as sp sp.check_call(["truncate", "-s", "5368709120", tf_name]) except Exception: pytest.skip("Could not create 5GB large file") # write a small array to the end with open(tf_name, "wb") as f: f.seek(5368709120) d = np.arange(5) np.save(f, d) # read it back with open(tf_name, "rb") as f: f.seek(5368709120) r = np.load(f) assert_array_equal(r, d) @pytest.mark.skipif(IS_PYPY, reason="flaky on PyPy") @pytest.mark.skipif(np.dtype(np.intp).itemsize < 8, reason="test requires 64-bit system") @pytest.mark.slow @requires_memory(free_bytes=2 * 2**30) def test_large_archive(tmpdir): # Regression test for product of saving arrays with dimensions of array # having a product that doesn't fit in int32. See gh-7598 for details. shape = (2**30, 2) try: a = np.empty(shape, dtype=np.uint8) except MemoryError: pytest.skip("Could not create large file") fname = os.path.join(tmpdir, "large_archive") with open(fname, "wb") as f: np.savez(f, arr=a) del a with open(fname, "rb") as f: new_a = np.load(f)["arr"] assert new_a.shape == shape def test_empty_npz(tmpdir): # Test for gh-9989 fname = os.path.join(tmpdir, "nothing.npz") np.savez(fname) with np.load(fname) as nps: pass def test_unicode_field_names(tmpdir): # gh-7391 arr = np.array([ (1, 3), (1, 2), (1, 3), (1, 2) ], dtype=[ ('int', int), ('\N{CJK UNIFIED IDEOGRAPH-6574}\N{CJK UNIFIED IDEOGRAPH-5F62}', int) ]) fname = os.path.join(tmpdir, "unicode.npy") with open(fname, 'wb') as f: format.write_array(f, arr, version=(3, 0)) with open(fname, 'rb') as f: arr2 = format.read_array(f) assert_array_equal(arr, arr2) # notifies the user that 3.0 is selected with open(fname, 'wb') as f: with assert_warns(UserWarning): format.write_array(f, arr, version=None) def test_header_growth_axis(): for is_fortran_array, dtype_space, expected_header_length in [ [False, 22, 128], [False, 23, 192], [True, 23, 128], [True, 24, 192] ]: for size in [10**i for i in range(format.GROWTH_AXIS_MAX_DIGITS)]: fp = BytesIO() format.write_array_header_1_0(fp, { 'shape': (2, size) if is_fortran_array else (size, 2), 'fortran_order': is_fortran_array, 'descr': np.dtype([(' '*dtype_space, int)]) }) assert len(fp.getvalue()) == expected_header_length @pytest.mark.parametrize('dt, fail', [ (np.dtype({'names': ['a', 'b'], 'formats': [float, np.dtype('S3', metadata={'some': 'stuff'})]}), True), (np.dtype(int, metadata={'some': 'stuff'}), False), (np.dtype([('subarray', (int, (2,)))], metadata={'some': 'stuff'}), False), # recursive: metadata on the field of a dtype (np.dtype({'names': ['a', 'b'], 'formats': [ float, np.dtype({'names': ['c'], 'formats': [np.dtype(int, metadata={})]}) ]}), False) ]) @pytest.mark.skipif(IS_PYPY and sys.implementation.version <= (7, 3, 8), reason="PyPy bug in error formatting") def test_metadata_dtype(dt, fail): # gh-14142 arr = np.ones(10, dtype=dt) buf = BytesIO() with assert_warns(UserWarning): np.save(buf, arr) buf.seek(0) if fail: with assert_raises(ValueError): np.load(buf) else: arr2 = np.load(buf) # BUG: assert_array_equal does not check metadata from numpy.lib.utils import drop_metadata assert_array_equal(arr, arr2) assert drop_metadata(arr.dtype) is not arr.dtype assert drop_metadata(arr2.dtype) is arr2.dtype