# This file is part of h5py, a Python interface to the HDF5 library. # # http://www.h5py.org # # Copyright 2008-2013 Andrew Collette and contributors # # License: Standard 3-clause BSD; see "license.txt" for full license terms # and contributor agreement. """ File object test module. Tests all aspects of File objects, including their creation. """ from __future__ import absolute_import, with_statement import os, stat from sys import platform import tempfile import six from ..common import ut, TestCase, UNICODE_FILENAMES, closed_tempfile from h5py.highlevel import File import h5py try: import pathlib except ImportError: pathlib = None mpi = h5py.get_config().mpi class TestFileOpen(TestCase): """ Feature: Opening files with Python-style modes. """ def test_default(self): """ Default semantics in the presence or absence of a file """ fname = self.mktemp() # No existing file; create a new file and open RW with File(fname) as f: self.assertTrue(f) self.assertEqual(f.mode, 'r+') # Existing readonly file; open read-only os.chmod(fname, stat.S_IREAD) # Running as root (e.g. in a docker container) gives 'r+' as the file # mode, even for a read-only file. See # https://github.com/h5py/h5py/issues/696 exp_mode = 'r+' if os.stat(fname).st_uid == 0 and platform != "win32" else 'r' try: with File(fname) as f: self.assertTrue(f) self.assertEqual(f.mode, exp_mode) finally: os.chmod(fname, stat.S_IWRITE) # File exists but is not HDF5; raise IOError with open(fname, 'wb') as f: f.write(b'\x00') with self.assertRaises(IOError): File(fname) def test_create(self): """ Mode 'w' opens file in overwrite mode """ fname = self.mktemp() fid = File(fname, 'w') self.assertTrue(fid) fid.create_group('foo') fid.close() fid = File(fname, 'w') self.assertNotIn('foo', fid) fid.close() def test_create_exclusive(self): """ Mode 'w-' opens file in exclusive mode """ fname = self.mktemp() fid = File(fname, 'w-') self.assert_(fid) fid.close() with self.assertRaises(IOError): File(fname, 'w-') def test_append(self): """ Mode 'a' opens file in append/readwrite mode, creating if necessary """ fname = self.mktemp() fid = File(fname, 'a') try: self.assert_(fid) fid.create_group('foo') self.assert_('foo' in fid) finally: fid.close() fid = File(fname, 'a') try: self.assert_('foo' in fid) fid.create_group('bar') self.assert_('bar' in fid) finally: fid.close() def test_readonly(self): """ Mode 'r' opens file in readonly mode """ fname = self.mktemp() fid = File(fname, 'w') fid.close() self.assert_(not fid) fid = File(fname, 'r') self.assert_(fid) with self.assertRaises(ValueError): fid.create_group('foo') fid.close() def test_readwrite(self): """ Mode 'r+' opens existing file in readwrite mode """ fname = self.mktemp() fid = File(fname, 'w') fid.create_group('foo') fid.close() fid = File(fname, 'r+') self.assert_('foo' in fid) fid.create_group('bar') self.assert_('bar' in fid) fid.close() def test_nonexistent_file(self): """ Modes 'r' and 'r+' do not create files """ fname = self.mktemp() with self.assertRaises(IOError): File(fname, 'r') with self.assertRaises(IOError): File(fname, 'r+') def test_invalid_mode(self): """ Invalid modes raise ValueError """ with self.assertRaises(ValueError): File(self.mktemp(), 'mongoose') class TestModes(TestCase): """ Feature: File mode can be retrieved via file.mode """ def test_mode_attr(self): """ Mode equivalent can be retrieved via property """ fname = self.mktemp() with File(fname, 'w') as f: self.assertEqual(f.mode, 'r+') with File(fname, 'r') as f: self.assertEqual(f.mode, 'r') def test_mode_external(self): """ Mode property works for files opened via external links Issue 190. """ fname1 = self.mktemp() fname2 = self.mktemp() f1 = File(fname1,'w') f1.close() f2 = File(fname2,'w') try: f2['External'] = h5py.ExternalLink(fname1, '/') f3 = f2['External'].file self.assertEqual(f3.mode, 'r+') finally: f2.close() f3.close() f2 = File(fname2,'r') try: f3 = f2['External'].file self.assertEqual(f3.mode, 'r') finally: f2.close() f3.close() class TestDrivers(TestCase): """ Feature: Files can be opened with low-level HDF5 drivers """ @ut.skipUnless(os.name == 'posix', "Stdio driver is supported on posix") def test_stdio(self): """ Stdio driver is supported on posix """ fid = File(self.mktemp(), 'w', driver='stdio') self.assertTrue(fid) self.assertEqual(fid.driver, 'stdio') fid.close() @ut.skipUnless(os.name == 'posix', "Sec2 driver is supported on posix") def test_sec2(self): """ Sec2 driver is supported on posix """ fid = File(self.mktemp(), 'w', driver='sec2') self.assert_(fid) self.assertEqual(fid.driver, 'sec2') fid.close() def test_core(self): """ Core driver is supported (no backing store) """ fname = self.mktemp() fid = File(fname, 'w', driver='core', backing_store=False) self.assert_(fid) self.assertEqual(fid.driver, 'core') fid.close() self.assertFalse(os.path.exists(fname)) def test_backing(self): """ Core driver saves to file when backing store used """ fname = self.mktemp() fid = File(fname, 'w', driver='core', backing_store=True) fid.create_group('foo') fid.close() fid = File(fname, 'r') self.assert_('foo' in fid) fid.close() def test_readonly(self): """ Core driver can be used to open existing files """ fname = self.mktemp() fid = File(fname, 'w') fid.create_group('foo') fid.close() fid = File(fname, 'r', driver='core') self.assert_(fid) self.assert_('foo' in fid) with self.assertRaises(ValueError): fid.create_group('bar') fid.close() def test_blocksize(self): """ Core driver supports variable block size """ fname = self.mktemp() fid = File(fname, 'w', driver='core', block_size=1024, backing_store=False) self.assert_(fid) fid.close() @ut.skipUnless(mpi, "Parallel HDF5 is required for MPIO driver test") def test_mpio(self): """ MPIO driver and options """ from mpi4py import MPI fname = self.mktemp() with File(fname, 'w', driver='mpio', comm=MPI.COMM_WORLD) as f: self.assertTrue(f) self.assertEqual(f.driver, 'mpio') @ut.skipUnless(mpi, "Parallel HDF5 required") @ut.skipIf(h5py.version.hdf5_version_tuple < (1,8,9), "mpio atomic file operations were added in HDF5 1.8.9+") def test_mpi_atomic(self): """ Enable atomic mode for MPIO driver """ from mpi4py import MPI fname = self.mktemp() with File(fname, 'w', driver='mpio', comm=MPI.COMM_WORLD) as f: self.assertFalse(f.atomic) f.atomic = True self.assertTrue(f.atomic) #TODO: family driver tests class TestLibver(TestCase): """ Feature: File format compatibility bounds can be specified when opening a file. """ def test_default(self): """ Opening with no libver arg """ f = File(self.mktemp(), 'w') self.assertEqual(f.libver, ('earliest','latest')) f.close() def test_single(self): """ Opening with single libver arg """ f = File(self.mktemp(), 'w', libver='latest') self.assertEqual(f.libver, ('latest','latest')) f.close() def test_multiple(self): """ Opening with two libver args """ f = File(self.mktemp(), 'w', libver=('earliest','latest')) self.assertEqual(f.libver, ('earliest', 'latest')) f.close() def test_none(self): """ Omitting libver arg results in maximum compatibility """ f = File(self.mktemp(), 'w') self.assertEqual(f.libver, ('earliest', 'latest')) f.close() class TestUserblock(TestCase): """ Feature: Files can be create with user blocks """ def test_create_blocksize(self): """ User blocks created with w, w-, x and properties work correctly """ f = File(self.mktemp(),'w-', userblock_size=512) try: self.assertEqual(f.userblock_size, 512) finally: f.close() f = File(self.mktemp(),'x', userblock_size=512) try: self.assertEqual(f.userblock_size, 512) finally: f.close() f = File(self.mktemp(),'w', userblock_size=512) try: self.assertEqual(f.userblock_size, 512) finally: f.close() def test_write_only(self): """ User block only allowed for write """ name = self.mktemp() f = File(name, 'w') f.close() with self.assertRaises(ValueError): f = h5py.File(name, 'r', userblock_size=512) with self.assertRaises(ValueError): f = h5py.File(name, 'r+', userblock_size=512) def test_match_existing(self): """ User block size must match that of file when opening for append """ name = self.mktemp() f = File(name, 'w', userblock_size=512) f.close() with self.assertRaises(ValueError): f = File(name, 'a', userblock_size=1024) f = File(name, 'a', userblock_size=512) try: self.assertEqual(f.userblock_size, 512) finally: f.close() def test_power_of_two(self): """ User block size must be a power of 2 and at least 512 """ name = self.mktemp() with self.assertRaises(ValueError): f = File(name, 'w', userblock_size=128) with self.assertRaises(ValueError): f = File(name, 'w', userblock_size=513) with self.assertRaises(ValueError): f = File(name, 'w', userblock_size=1023) def test_write_block(self): """ Test that writing to a user block does not destroy the file """ name = self.mktemp() f = File(name, 'w', userblock_size=512) f.create_group("Foobar") f.close() pyfile = open(name, 'r+b') try: pyfile.write(b'X'*512) finally: pyfile.close() f = h5py.File(name, 'r') try: self.assert_("Foobar" in f) finally: f.close() pyfile = open(name, 'rb') try: self.assertEqual(pyfile.read(512), b'X'*512) finally: pyfile.close() class TestContextManager(TestCase): """ Feature: File objects can be used as context managers """ def test_context_manager(self): """ File objects can be used in with statements """ with File(self.mktemp(), 'w') as fid: self.assertTrue(fid) self.assertTrue(not fid) @ut.skipIf(not UNICODE_FILENAMES, "Filesystem unicode support required") class TestUnicode(TestCase): """ Feature: Unicode filenames are supported """ def test_unicode(self): """ Unicode filenames can be used, and retrieved properly via .filename """ fname = self.mktemp(prefix = six.unichr(0x201a)) fid = File(fname, 'w') try: self.assertEqual(fid.filename, fname) self.assertIsInstance(fid.filename, six.text_type) finally: fid.close() def test_unicode_hdf5_python_consistent(self): """ Unicode filenames can be used, and seen correctly from python """ fname = self.mktemp(prefix = six.unichr(0x201a)) with File(fname, 'w') as f: self.assertTrue(os.path.exists(fname)) def test_nonexistent_file_unicode(self): """ Modes 'r' and 'r+' do not create files even when given unicode names """ fname = self.mktemp(prefix = six.unichr(0x201a)) with self.assertRaises(IOError): File(fname, 'r') with self.assertRaises(IOError): File(fname, 'r+') class TestFileProperty(TestCase): """ Feature: A File object can be retrieved from any child object, via the .file property """ def test_property(self): """ File object can be retrieved from subgroup """ fname = self.mktemp() hfile = File(fname, 'w') try: hfile2 = hfile['/'].file self.assertEqual(hfile, hfile2) finally: hfile.close() def test_close(self): """ All retrieved File objects are closed at the same time """ fname = self.mktemp() hfile = File(fname, 'w') grp = hfile.create_group('foo') hfile2 = grp.file hfile3 = hfile['/'].file hfile2.close() self.assertFalse(hfile) self.assertFalse(hfile2) self.assertFalse(hfile3) def test_mode(self): """ Retrieved File objects have a meaningful mode attribute """ hfile = File(self.mktemp(),'w') try: grp = hfile.create_group('foo') self.assertEqual(grp.file.mode, hfile.mode) finally: hfile.close() class TestClose(TestCase): """ Feature: Files can be closed """ def test_close(self): """ Close file via .close method """ fid = File(self.mktemp()) self.assert_(fid) fid.close() self.assert_(not fid) def test_closed_file(self): """ Trying to modify closed file raises ValueError """ fid = File(self.mktemp(), 'w') fid.close() with self.assertRaises(ValueError): fid.create_group('foo') def test_close_multiple_default_driver(self): fname = self.mktemp() f = h5py.File(fname, 'w') f.create_group("test") f.close() f.close() @ut.skipUnless(mpi, "Parallel HDF5 is required for MPIO driver test") def test_close_multiple_mpio_driver(self): """ MPIO driver and options """ from mpi4py import MPI fname = self.mktemp() f = File(fname, 'w', driver='mpio', comm=MPI.COMM_WORLD) f.create_group("test") f.close() f.close() class TestFlush(TestCase): """ Feature: Files can be flushed """ def test_flush(self): """ Flush via .flush method """ fid = File(self.mktemp(), 'w') fid.flush() fid.close() class TestRepr(TestCase): """ Feature: File objects provide a helpful __repr__ string """ def test_repr(self): """ __repr__ behaves itself when files are open and closed """ fid = File(self.mktemp()) self.assertIsInstance(repr(fid), six.string_types) fid.close() self.assertIsInstance(repr(fid), six.string_types) class TestFilename(TestCase): """ Feature: The name of a File object can be retrieved via .filename """ def test_filename(self): """ .filename behaves properly for string data """ fname = self.mktemp() fid = File(fname, 'w') try: self.assertEqual(fid.filename, fname) self.assertIsInstance(fid.filename, six.text_type) finally: fid.close() class TestBackwardsCompat(TestCase): """ Feature: Deprecated attributes are included to support 1.3 code """ def test_fid(self): """ File objects provide a .fid attribute aliased to the file ID """ with File(self.mktemp(), 'w') as hfile: self.assertIs(hfile.fid, hfile.id) class TestCloseInvalidatesOpenObjectIDs(TestCase): """ Ensure that closing a file invalidates object IDs, as appropriate """ def test_close(self): """ Closing a file invalidates any of the file's open objects """ with File(self.mktemp(), 'w') as f1: g1 = f1.create_group('foo') self.assertTrue(bool(f1.id)) self.assertTrue(bool(g1.id)) f1.close() self.assertFalse(bool(f1.id)) self.assertFalse(bool(g1.id)) with File(self.mktemp(), 'w') as f2: g2 = f2.create_group('foo') self.assertTrue(bool(f2.id)) self.assertTrue(bool(g2.id)) self.assertFalse(bool(f1.id)) self.assertFalse(bool(g1.id)) @ut.skipIf(pathlib is None, "pathlib module not installed") class TestPathlibSupport(TestCase): """ Check that h5py doesn't break on pathlib """ def test_pathlib_accepted_file(self): """ Check that pathlib is accepted by h5py.File """ with closed_tempfile() as f: path = pathlib.Path(f) with File(path) as f2: self.assertTrue(True) def test_pathlib_name_match(self): """ Check that using pathlib does not affect naming """ with closed_tempfile() as f: path = pathlib.Path(f) with File(path) as h5f1: pathlib_name = h5f1.filename with File(f) as h5f2: normal_name = h5f2.filename self.assertEqual(pathlib_name, normal_name)