from os import path import warnings import numpy as np from numpy.testing import (assert_equal, assert_array_equal, assert_, suppress_warnings) import pytest from scipy.io import readsav from scipy.io import _idl DATA_PATH = path.join(path.dirname(__file__), 'data') def assert_identical(a, b): """Assert whether value AND type are the same""" assert_equal(a, b) if isinstance(b, str): assert_equal(type(a), type(b)) else: assert_equal(np.asarray(a).dtype.type, np.asarray(b).dtype.type) def assert_array_identical(a, b): """Assert whether values AND type are the same""" assert_array_equal(a, b) assert_equal(a.dtype.type, b.dtype.type) # Define vectorized ID function for pointer arrays vect_id = np.vectorize(id) class TestIdict: def test_idict(self): custom_dict = {'a': np.int16(999)} original_id = id(custom_dict) s = readsav(path.join(DATA_PATH, 'scalar_byte.sav'), idict=custom_dict, verbose=False) assert_equal(original_id, id(s)) assert_('a' in s) assert_identical(s['a'], np.int16(999)) assert_identical(s['i8u'], np.uint8(234)) class TestScalars: # Test that scalar values are read in with the correct value and type def test_byte(self): s = readsav(path.join(DATA_PATH, 'scalar_byte.sav'), verbose=False) assert_identical(s.i8u, np.uint8(234)) def test_int16(self): s = readsav(path.join(DATA_PATH, 'scalar_int16.sav'), verbose=False) assert_identical(s.i16s, np.int16(-23456)) def test_int32(self): s = readsav(path.join(DATA_PATH, 'scalar_int32.sav'), verbose=False) assert_identical(s.i32s, np.int32(-1234567890)) def test_float32(self): s = readsav(path.join(DATA_PATH, 'scalar_float32.sav'), verbose=False) assert_identical(s.f32, np.float32(-3.1234567e+37)) def test_float64(self): s = readsav(path.join(DATA_PATH, 'scalar_float64.sav'), verbose=False) assert_identical(s.f64, np.float64(-1.1976931348623157e+307)) def test_complex32(self): s = readsav(path.join(DATA_PATH, 'scalar_complex32.sav'), verbose=False) assert_identical(s.c32, np.complex64(3.124442e13-2.312442e31j)) def test_bytes(self): s = readsav(path.join(DATA_PATH, 'scalar_string.sav'), verbose=False) msg = "The quick brown fox jumps over the lazy python" assert_identical(s.s, np.bytes_(msg)) def test_structure(self): pass def test_complex64(self): s = readsav(path.join(DATA_PATH, 'scalar_complex64.sav'), verbose=False) assert_identical( s.c64, np.complex128(1.1987253647623157e+112-5.1987258887729157e+307j) ) def test_heap_pointer(self): pass def test_object_reference(self): pass def test_uint16(self): s = readsav(path.join(DATA_PATH, 'scalar_uint16.sav'), verbose=False) assert_identical(s.i16u, np.uint16(65511)) def test_uint32(self): s = readsav(path.join(DATA_PATH, 'scalar_uint32.sav'), verbose=False) assert_identical(s.i32u, np.uint32(4294967233)) def test_int64(self): s = readsav(path.join(DATA_PATH, 'scalar_int64.sav'), verbose=False) assert_identical(s.i64s, np.int64(-9223372036854774567)) def test_uint64(self): s = readsav(path.join(DATA_PATH, 'scalar_uint64.sav'), verbose=False) assert_identical(s.i64u, np.uint64(18446744073709529285)) class TestCompressed(TestScalars): # Test that compressed .sav files can be read in def test_compressed(self): s = readsav(path.join(DATA_PATH, 'various_compressed.sav'), verbose=False) assert_identical(s.i8u, np.uint8(234)) assert_identical(s.f32, np.float32(-3.1234567e+37)) assert_identical( s.c64, np.complex128(1.1987253647623157e+112-5.1987258887729157e+307j) ) assert_equal(s.array5d.shape, (4, 3, 4, 6, 5)) assert_identical(s.arrays.a[0], np.array([1, 2, 3], dtype=np.int16)) assert_identical(s.arrays.b[0], np.array([4., 5., 6., 7.], dtype=np.float32)) assert_identical(s.arrays.c[0], np.array([np.complex64(1+2j), np.complex64(7+8j)])) assert_identical(s.arrays.d[0], np.array([b"cheese", b"bacon", b"spam"], dtype=object)) class TestArrayDimensions: # Test that multi-dimensional arrays are read in with the correct dimensions def test_1d(self): s = readsav(path.join(DATA_PATH, 'array_float32_1d.sav'), verbose=False) assert_equal(s.array1d.shape, (123, )) def test_2d(self): s = readsav(path.join(DATA_PATH, 'array_float32_2d.sav'), verbose=False) assert_equal(s.array2d.shape, (22, 12)) def test_3d(self): s = readsav(path.join(DATA_PATH, 'array_float32_3d.sav'), verbose=False) assert_equal(s.array3d.shape, (11, 22, 12)) def test_4d(self): s = readsav(path.join(DATA_PATH, 'array_float32_4d.sav'), verbose=False) assert_equal(s.array4d.shape, (4, 5, 8, 7)) def test_5d(self): s = readsav(path.join(DATA_PATH, 'array_float32_5d.sav'), verbose=False) assert_equal(s.array5d.shape, (4, 3, 4, 6, 5)) def test_6d(self): s = readsav(path.join(DATA_PATH, 'array_float32_6d.sav'), verbose=False) assert_equal(s.array6d.shape, (3, 6, 4, 5, 3, 4)) def test_7d(self): s = readsav(path.join(DATA_PATH, 'array_float32_7d.sav'), verbose=False) assert_equal(s.array7d.shape, (2, 1, 2, 3, 4, 3, 2)) def test_8d(self): s = readsav(path.join(DATA_PATH, 'array_float32_8d.sav'), verbose=False) assert_equal(s.array8d.shape, (4, 3, 2, 1, 2, 3, 5, 4)) class TestStructures: def test_scalars(self): s = readsav(path.join(DATA_PATH, 'struct_scalars.sav'), verbose=False) assert_identical(s.scalars.a, np.array(np.int16(1))) assert_identical(s.scalars.b, np.array(np.int32(2))) assert_identical(s.scalars.c, np.array(np.float32(3.))) assert_identical(s.scalars.d, np.array(np.float64(4.))) assert_identical(s.scalars.e, np.array([b"spam"], dtype=object)) assert_identical(s.scalars.f, np.array(np.complex64(-1.+3j))) def test_scalars_replicated(self): s = readsav(path.join(DATA_PATH, 'struct_scalars_replicated.sav'), verbose=False) assert_identical(s.scalars_rep.a, np.repeat(np.int16(1), 5)) assert_identical(s.scalars_rep.b, np.repeat(np.int32(2), 5)) assert_identical(s.scalars_rep.c, np.repeat(np.float32(3.), 5)) assert_identical(s.scalars_rep.d, np.repeat(np.float64(4.), 5)) assert_identical(s.scalars_rep.e, np.repeat(b"spam", 5).astype(object)) assert_identical(s.scalars_rep.f, np.repeat(np.complex64(-1.+3j), 5)) def test_scalars_replicated_3d(self): s = readsav(path.join(DATA_PATH, 'struct_scalars_replicated_3d.sav'), verbose=False) assert_identical(s.scalars_rep.a, np.repeat(np.int16(1), 24).reshape(4, 3, 2)) assert_identical(s.scalars_rep.b, np.repeat(np.int32(2), 24).reshape(4, 3, 2)) assert_identical(s.scalars_rep.c, np.repeat(np.float32(3.), 24).reshape(4, 3, 2)) assert_identical(s.scalars_rep.d, np.repeat(np.float64(4.), 24).reshape(4, 3, 2)) assert_identical(s.scalars_rep.e, np.repeat(b"spam", 24).reshape(4, 3, 2).astype(object)) assert_identical(s.scalars_rep.f, np.repeat(np.complex64(-1.+3j), 24).reshape(4, 3, 2)) def test_arrays(self): s = readsav(path.join(DATA_PATH, 'struct_arrays.sav'), verbose=False) assert_array_identical(s.arrays.a[0], np.array([1, 2, 3], dtype=np.int16)) assert_array_identical(s.arrays.b[0], np.array([4., 5., 6., 7.], dtype=np.float32)) assert_array_identical(s.arrays.c[0], np.array([np.complex64(1+2j), np.complex64(7+8j)])) assert_array_identical(s.arrays.d[0], np.array([b"cheese", b"bacon", b"spam"], dtype=object)) def test_arrays_replicated(self): s = readsav(path.join(DATA_PATH, 'struct_arrays_replicated.sav'), verbose=False) # Check column types assert_(s.arrays_rep.a.dtype.type is np.object_) assert_(s.arrays_rep.b.dtype.type is np.object_) assert_(s.arrays_rep.c.dtype.type is np.object_) assert_(s.arrays_rep.d.dtype.type is np.object_) # Check column shapes assert_equal(s.arrays_rep.a.shape, (5, )) assert_equal(s.arrays_rep.b.shape, (5, )) assert_equal(s.arrays_rep.c.shape, (5, )) assert_equal(s.arrays_rep.d.shape, (5, )) # Check values for i in range(5): assert_array_identical(s.arrays_rep.a[i], np.array([1, 2, 3], dtype=np.int16)) assert_array_identical(s.arrays_rep.b[i], np.array([4., 5., 6., 7.], dtype=np.float32)) assert_array_identical(s.arrays_rep.c[i], np.array([np.complex64(1+2j), np.complex64(7+8j)])) assert_array_identical(s.arrays_rep.d[i], np.array([b"cheese", b"bacon", b"spam"], dtype=object)) def test_arrays_replicated_3d(self): s = readsav(path.join(DATA_PATH, 'struct_arrays_replicated_3d.sav'), verbose=False) # Check column types assert_(s.arrays_rep.a.dtype.type is np.object_) assert_(s.arrays_rep.b.dtype.type is np.object_) assert_(s.arrays_rep.c.dtype.type is np.object_) assert_(s.arrays_rep.d.dtype.type is np.object_) # Check column shapes assert_equal(s.arrays_rep.a.shape, (4, 3, 2)) assert_equal(s.arrays_rep.b.shape, (4, 3, 2)) assert_equal(s.arrays_rep.c.shape, (4, 3, 2)) assert_equal(s.arrays_rep.d.shape, (4, 3, 2)) # Check values for i in range(4): for j in range(3): for k in range(2): assert_array_identical(s.arrays_rep.a[i, j, k], np.array([1, 2, 3], dtype=np.int16)) assert_array_identical(s.arrays_rep.b[i, j, k], np.array([4., 5., 6., 7.], dtype=np.float32)) assert_array_identical(s.arrays_rep.c[i, j, k], np.array([np.complex64(1+2j), np.complex64(7+8j)])) assert_array_identical(s.arrays_rep.d[i, j, k], np.array([b"cheese", b"bacon", b"spam"], dtype=object)) def test_inheritance(self): s = readsav(path.join(DATA_PATH, 'struct_inherit.sav'), verbose=False) assert_identical(s.fc.x, np.array([0], dtype=np.int16)) assert_identical(s.fc.y, np.array([0], dtype=np.int16)) assert_identical(s.fc.r, np.array([0], dtype=np.int16)) assert_identical(s.fc.c, np.array([4], dtype=np.int16)) def test_arrays_corrupt_idl80(self): # test byte arrays with missing nbyte information from IDL 8.0 .sav file with suppress_warnings() as sup: sup.filter(UserWarning, "Not able to verify number of bytes from header") s = readsav(path.join(DATA_PATH,'struct_arrays_byte_idl80.sav'), verbose=False) assert_identical(s.y.x[0], np.array([55,66], dtype=np.uint8)) class TestPointers: # Check that pointers in .sav files produce references to the same object in Python def test_pointers(self): s = readsav(path.join(DATA_PATH, 'scalar_heap_pointer.sav'), verbose=False) assert_identical( s.c64_pointer1, np.complex128(1.1987253647623157e+112-5.1987258887729157e+307j) ) assert_identical( s.c64_pointer2, np.complex128(1.1987253647623157e+112-5.1987258887729157e+307j) ) assert_(s.c64_pointer1 is s.c64_pointer2) class TestPointerArray: # Test that pointers in arrays are correctly read in def test_1d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_1d.sav'), verbose=False) assert_equal(s.array1d.shape, (123, )) assert_(np.all(s.array1d == np.float32(4.))) assert_(np.all(vect_id(s.array1d) == id(s.array1d[0]))) def test_2d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_2d.sav'), verbose=False) assert_equal(s.array2d.shape, (22, 12)) assert_(np.all(s.array2d == np.float32(4.))) assert_(np.all(vect_id(s.array2d) == id(s.array2d[0,0]))) def test_3d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_3d.sav'), verbose=False) assert_equal(s.array3d.shape, (11, 22, 12)) assert_(np.all(s.array3d == np.float32(4.))) assert_(np.all(vect_id(s.array3d) == id(s.array3d[0,0,0]))) def test_4d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_4d.sav'), verbose=False) assert_equal(s.array4d.shape, (4, 5, 8, 7)) assert_(np.all(s.array4d == np.float32(4.))) assert_(np.all(vect_id(s.array4d) == id(s.array4d[0,0,0,0]))) def test_5d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_5d.sav'), verbose=False) assert_equal(s.array5d.shape, (4, 3, 4, 6, 5)) assert_(np.all(s.array5d == np.float32(4.))) assert_(np.all(vect_id(s.array5d) == id(s.array5d[0,0,0,0,0]))) def test_6d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_6d.sav'), verbose=False) assert_equal(s.array6d.shape, (3, 6, 4, 5, 3, 4)) assert_(np.all(s.array6d == np.float32(4.))) assert_(np.all(vect_id(s.array6d) == id(s.array6d[0,0,0,0,0,0]))) def test_7d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_7d.sav'), verbose=False) assert_equal(s.array7d.shape, (2, 1, 2, 3, 4, 3, 2)) assert_(np.all(s.array7d == np.float32(4.))) assert_(np.all(vect_id(s.array7d) == id(s.array7d[0,0,0,0,0,0,0]))) def test_8d(self): s = readsav(path.join(DATA_PATH, 'array_float32_pointer_8d.sav'), verbose=False) assert_equal(s.array8d.shape, (4, 3, 2, 1, 2, 3, 5, 4)) assert_(np.all(s.array8d == np.float32(4.))) assert_(np.all(vect_id(s.array8d) == id(s.array8d[0,0,0,0,0,0,0,0]))) class TestPointerStructures: # Test that structures are correctly read in def test_scalars(self): s = readsav(path.join(DATA_PATH, 'struct_pointers.sav'), verbose=False) assert_identical(s.pointers.g, np.array(np.float32(4.), dtype=np.object_)) assert_identical(s.pointers.h, np.array(np.float32(4.), dtype=np.object_)) assert_(id(s.pointers.g[0]) == id(s.pointers.h[0])) def test_pointers_replicated(self): s = readsav(path.join(DATA_PATH, 'struct_pointers_replicated.sav'), verbose=False) assert_identical(s.pointers_rep.g, np.repeat(np.float32(4.), 5).astype(np.object_)) assert_identical(s.pointers_rep.h, np.repeat(np.float32(4.), 5).astype(np.object_)) assert_(np.all(vect_id(s.pointers_rep.g) == vect_id(s.pointers_rep.h))) def test_pointers_replicated_3d(self): s = readsav(path.join(DATA_PATH, 'struct_pointers_replicated_3d.sav'), verbose=False) s_expect = np.repeat(np.float32(4.), 24).reshape(4, 3, 2).astype(np.object_) assert_identical(s.pointers_rep.g, s_expect) assert_identical(s.pointers_rep.h, s_expect) assert_(np.all(vect_id(s.pointers_rep.g) == vect_id(s.pointers_rep.h))) def test_arrays(self): s = readsav(path.join(DATA_PATH, 'struct_pointer_arrays.sav'), verbose=False) assert_array_identical(s.arrays.g[0], np.repeat(np.float32(4.), 2).astype(np.object_)) assert_array_identical(s.arrays.h[0], np.repeat(np.float32(4.), 3).astype(np.object_)) assert_(np.all(vect_id(s.arrays.g[0]) == id(s.arrays.g[0][0]))) assert_(np.all(vect_id(s.arrays.h[0]) == id(s.arrays.h[0][0]))) assert_(id(s.arrays.g[0][0]) == id(s.arrays.h[0][0])) def test_arrays_replicated(self): s = readsav(path.join(DATA_PATH, 'struct_pointer_arrays_replicated.sav'), verbose=False) # Check column types assert_(s.arrays_rep.g.dtype.type is np.object_) assert_(s.arrays_rep.h.dtype.type is np.object_) # Check column shapes assert_equal(s.arrays_rep.g.shape, (5, )) assert_equal(s.arrays_rep.h.shape, (5, )) # Check values for i in range(5): assert_array_identical(s.arrays_rep.g[i], np.repeat(np.float32(4.), 2).astype(np.object_)) assert_array_identical(s.arrays_rep.h[i], np.repeat(np.float32(4.), 3).astype(np.object_)) assert_(np.all(vect_id(s.arrays_rep.g[i]) == id(s.arrays_rep.g[0][0]))) assert_(np.all(vect_id(s.arrays_rep.h[i]) == id(s.arrays_rep.h[0][0]))) def test_arrays_replicated_3d(self): pth = path.join(DATA_PATH, 'struct_pointer_arrays_replicated_3d.sav') s = readsav(pth, verbose=False) # Check column types assert_(s.arrays_rep.g.dtype.type is np.object_) assert_(s.arrays_rep.h.dtype.type is np.object_) # Check column shapes assert_equal(s.arrays_rep.g.shape, (4, 3, 2)) assert_equal(s.arrays_rep.h.shape, (4, 3, 2)) # Check values for i in range(4): for j in range(3): for k in range(2): assert_array_identical(s.arrays_rep.g[i, j, k], np.repeat(np.float32(4.), 2).astype(np.object_)) assert_array_identical(s.arrays_rep.h[i, j, k], np.repeat(np.float32(4.), 3).astype(np.object_)) g0 = vect_id(s.arrays_rep.g[i, j, k]) g1 = id(s.arrays_rep.g[0, 0, 0][0]) assert np.all(g0 == g1) h0 = vect_id(s.arrays_rep.h[i, j, k]) h1 = id(s.arrays_rep.h[0, 0, 0][0]) assert np.all(h0 == h1) class TestTags: '''Test that sav files with description tag read at all''' def test_description(self): s = readsav(path.join(DATA_PATH, 'scalar_byte_descr.sav'), verbose=False) assert_identical(s.i8u, np.uint8(234)) def test_null_pointer(): # Regression test for null pointers. s = readsav(path.join(DATA_PATH, 'null_pointer.sav'), verbose=False) assert_identical(s.point, None) assert_identical(s.check, np.int16(5)) def test_invalid_pointer(): # Regression test for invalid pointers (gh-4613). # In some files in the wild, pointers can sometimes refer to a heap # variable that does not exist. In that case, we now gracefully fail for # that variable and replace the variable with None and emit a warning. # Since it's difficult to artificially produce such files, the file used # here has been edited to force the pointer reference to be invalid. with warnings.catch_warnings(record=True) as w: warnings.simplefilter("always") s = readsav(path.join(DATA_PATH, 'invalid_pointer.sav'), verbose=False) assert_(len(w) == 1) assert_(str(w[0].message) == ("Variable referenced by pointer not found in " "heap: variable will be set to None")) assert_identical(s['a'], np.array([None, None])) def test_attrdict(): d = _idl.AttrDict({'one': 1}) assert d['one'] == 1 assert d.one == 1 with pytest.raises(KeyError): d['two'] with pytest.raises(AttributeError, match='has no attribute'): d.two