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	# 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.

	import numpy as np

	import h5py
	from h5py import h5t

	from .common import TestCase, ut


	class TestCompound(ut.TestCase):

	"""
	Feature: Compound types can be created from Python dtypes
	"""

	def test_ref(self):
	""" Reference types are correctly stored in compound types (issue 144)
	"""
	dt = np.dtype([('a', h5py.ref_dtype), ('b', '<f4')])
	tid = h5t.py_create(dt, logical=True)
	t1, t2 = tid.get_member_type(0), tid.get_member_type(1)
	self.assertEqual(t1, h5t.STD_REF_OBJ)
	self.assertEqual(t2, h5t.IEEE_F32LE)
	self.assertEqual(tid.get_member_offset(0), 0)
	self.assertEqual(tid.get_member_offset(1), h5t.STD_REF_OBJ.get_size())

	def test_out_of_order_offsets(self):
	size = 20
	type_dict = {
	'names': ['f1', 'f2', 'f3'],
	'formats': ['<f4', '<i4', '<f8'],
	'offsets': [0, 16, 8]
	}

	expected_dtype = np.dtype(type_dict)

	tid = h5t.create(h5t.COMPOUND, size)
	for name, offset, dt in zip(
	type_dict["names"], type_dict["offsets"], type_dict["formats"]
	):
	tid.insert(
	name.encode("utf8") if isinstance(name, str) else name,
	offset,
	h5t.py_create(dt)
	)

	self.assertEqual(tid.dtype, expected_dtype)
	self.assertEqual(tid.dtype.itemsize, size)


	class TestTypeFloatID(TestCase):
	"""Test TypeFloatID."""

	def test_custom_float_promotion(self):
	"""Custom floats are correctly promoted to standard floats on read."""

	# This test uses the low-level API, so we need names as byte strings
	test_filename = self.mktemp().encode()
	dataset = b'DS1'
	dataset2 = b'DS2'
	dataset3 = b'DS3'
	dataset4 = b'DS4'
	dataset5 = b'DS5'

	dims = (4, 7)

	wdata = np.array([[-1.50066626e-09, 1.40062184e-09, 1.81216819e-10,
	4.01087163e-10, 4.27917257e-10, -7.04858394e-11,
	5.74800652e-10],
	[-1.50066626e-09, 4.86579665e-10, 3.42879503e-10,
	5.12045517e-10, 5.10226528e-10, 2.24190444e-10,
	3.93356459e-10],
	[-1.50066626e-09, 5.24778443e-10, 8.19454726e-10,
	1.28966349e-09, 1.68483894e-10, 5.71276360e-11,
	-1.08684617e-10],
	[-1.50066626e-09, -1.08343556e-10, -1.58934199e-10,
	8.52196536e-10, 6.18456397e-10, 6.16637408e-10,
	1.31694833e-09]], dtype=np.float32)

	wdata2 = np.array([[-1.50066626e-09, 5.63886715e-10, -8.74251782e-11,
	1.32558853e-10, 1.59161573e-10, 2.29420039e-10,
	-7.24185156e-11],
	[-1.50066626e-09, 1.87810656e-10, 7.74889486e-10,
	3.95630195e-10, 9.42236511e-10, 8.38554115e-10,
	-8.71978045e-11],
	[-1.50066626e-09, 6.20275387e-10, 7.34871719e-10,
	6.64840627e-10, 2.64662958e-10, 1.05319486e-09,
	1.68256520e-10],
	[-1.50066626e-09, 1.67347025e-10, 5.12045517e-10,
	3.36513040e-10, 1.02545528e-10, 1.28784450e-09,
	4.06089384e-10]], dtype=np.float32)

	# Create a new file using the default properties.
	fid = h5py.h5f.create(test_filename)
	# Create the dataspace. No maximum size parameter needed.
	space = h5py.h5s.create_simple(dims)

	# create a custom type with larger bias
	mytype = h5t.IEEE_F16LE.copy()
	mytype.set_fields(14, 9, 5, 0, 9)
	mytype.set_size(2)
	mytype.set_ebias(53)
	mytype.lock()

	dset = h5py.h5d.create(fid, dataset, mytype, space)
	dset.write(h5py.h5s.ALL, h5py.h5s.ALL, wdata)

	del dset

	# create a custom type with larger exponent
	mytype2 = h5t.IEEE_F16LE.copy()
	mytype2.set_fields(15, 9, 6, 0, 9)
	mytype2.set_size(2)
	mytype2.set_ebias(53)
	mytype2.lock()

	dset = h5py.h5d.create(fid, dataset2, mytype2, space)
	dset.write(h5py.h5s.ALL, h5py.h5s.ALL, wdata2)

	del dset

	# create a custom type which reimplements 16-bit floats
	mytype3 = h5t.IEEE_F16LE.copy()
	mytype3.set_fields(15, 10, 5, 0, 10)
	mytype3.set_size(2)
	mytype3.set_ebias(15)
	mytype3.lock()

	dset = h5py.h5d.create(fid, dataset3, mytype3, space)
	dset.write(h5py.h5s.ALL, h5py.h5s.ALL, wdata2)

	del dset

	# create a custom type with larger bias
	mytype4 = h5t.IEEE_F16LE.copy()
	mytype4.set_fields(15, 10, 5, 0, 10)
	mytype4.set_size(2)
	mytype4.set_ebias(258)
	mytype4.lock()

	dset = h5py.h5d.create(fid, dataset4, mytype4, space)
	dset.write(h5py.h5s.ALL, h5py.h5s.ALL, wdata2)

	del dset

	# create a dataset with long doubles
	dset = h5py.h5d.create(fid, dataset5, h5t.NATIVE_LDOUBLE, space)
	dset.write(h5py.h5s.ALL, h5py.h5s.ALL, wdata2)

	# Explicitly close and release resources.
	del space
	del dset
	del fid

	f = h5py.File(test_filename, 'r')

	# ebias promotion to float32
	values = f[dataset][:]
	np.testing.assert_array_equal(values, wdata)
	self.assertEqual(values.dtype, np.dtype('<f4'))

	# esize promotion to float32
	values = f[dataset2][:]
	np.testing.assert_array_equal(values, wdata2)
	self.assertEqual(values.dtype, np.dtype('<f4'))

	# regular half floats
	dset = f[dataset3]
	try:
	self.assertEqual(dset.dtype, np.dtype('<f2'))
	except AttributeError:
	self.assertEqual(dset.dtype, np.dtype('<f4'))

	# ebias promotion to float64
	dset = f[dataset4]
	self.assertEqual(dset.dtype, np.dtype('<f8'))

	# long double floats
	dset = f[dataset5]
	self.assertEqual(dset.dtype, np.longdouble)