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186 lines
6.9 KiB
Python
186 lines
6.9 KiB
Python
6 years ago
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from __future__ import division, absolute_import, print_function
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import numpy as np
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from numpy.random import random
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from numpy.testing import (
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assert_array_almost_equal, assert_array_equal, assert_raises,
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)
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import threading
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import sys
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if sys.version_info[0] >= 3:
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import queue
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else:
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import Queue as queue
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def fft1(x):
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L = len(x)
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phase = -2j*np.pi*(np.arange(L)/float(L))
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phase = np.arange(L).reshape(-1, 1) * phase
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return np.sum(x*np.exp(phase), axis=1)
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class TestFFTShift(object):
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def test_fft_n(self):
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assert_raises(ValueError, np.fft.fft, [1, 2, 3], 0)
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class TestFFT1D(object):
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def test_fft(self):
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x = random(30) + 1j*random(30)
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assert_array_almost_equal(fft1(x), np.fft.fft(x))
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assert_array_almost_equal(fft1(x) / np.sqrt(30),
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np.fft.fft(x, norm="ortho"))
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def test_ifft(self):
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x = random(30) + 1j*random(30)
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assert_array_almost_equal(x, np.fft.ifft(np.fft.fft(x)))
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assert_array_almost_equal(
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x, np.fft.ifft(np.fft.fft(x, norm="ortho"), norm="ortho"))
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def test_fft2(self):
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x = random((30, 20)) + 1j*random((30, 20))
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assert_array_almost_equal(np.fft.fft(np.fft.fft(x, axis=1), axis=0),
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np.fft.fft2(x))
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assert_array_almost_equal(np.fft.fft2(x) / np.sqrt(30 * 20),
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np.fft.fft2(x, norm="ortho"))
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def test_ifft2(self):
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x = random((30, 20)) + 1j*random((30, 20))
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assert_array_almost_equal(np.fft.ifft(np.fft.ifft(x, axis=1), axis=0),
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np.fft.ifft2(x))
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assert_array_almost_equal(np.fft.ifft2(x) * np.sqrt(30 * 20),
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np.fft.ifft2(x, norm="ortho"))
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def test_fftn(self):
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x = random((30, 20, 10)) + 1j*random((30, 20, 10))
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assert_array_almost_equal(
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np.fft.fft(np.fft.fft(np.fft.fft(x, axis=2), axis=1), axis=0),
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np.fft.fftn(x))
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assert_array_almost_equal(np.fft.fftn(x) / np.sqrt(30 * 20 * 10),
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np.fft.fftn(x, norm="ortho"))
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def test_ifftn(self):
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x = random((30, 20, 10)) + 1j*random((30, 20, 10))
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assert_array_almost_equal(
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np.fft.ifft(np.fft.ifft(np.fft.ifft(x, axis=2), axis=1), axis=0),
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np.fft.ifftn(x))
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assert_array_almost_equal(np.fft.ifftn(x) * np.sqrt(30 * 20 * 10),
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np.fft.ifftn(x, norm="ortho"))
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def test_rfft(self):
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x = random(30)
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for n in [x.size, 2*x.size]:
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for norm in [None, 'ortho']:
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assert_array_almost_equal(
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np.fft.fft(x, n=n, norm=norm)[:(n//2 + 1)],
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np.fft.rfft(x, n=n, norm=norm))
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assert_array_almost_equal(np.fft.rfft(x, n=n) / np.sqrt(n),
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np.fft.rfft(x, n=n, norm="ortho"))
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def test_irfft(self):
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x = random(30)
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assert_array_almost_equal(x, np.fft.irfft(np.fft.rfft(x)))
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assert_array_almost_equal(
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x, np.fft.irfft(np.fft.rfft(x, norm="ortho"), norm="ortho"))
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def test_rfft2(self):
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x = random((30, 20))
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assert_array_almost_equal(np.fft.fft2(x)[:, :11], np.fft.rfft2(x))
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assert_array_almost_equal(np.fft.rfft2(x) / np.sqrt(30 * 20),
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np.fft.rfft2(x, norm="ortho"))
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def test_irfft2(self):
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x = random((30, 20))
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assert_array_almost_equal(x, np.fft.irfft2(np.fft.rfft2(x)))
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assert_array_almost_equal(
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x, np.fft.irfft2(np.fft.rfft2(x, norm="ortho"), norm="ortho"))
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def test_rfftn(self):
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x = random((30, 20, 10))
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assert_array_almost_equal(np.fft.fftn(x)[:, :, :6], np.fft.rfftn(x))
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assert_array_almost_equal(np.fft.rfftn(x) / np.sqrt(30 * 20 * 10),
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np.fft.rfftn(x, norm="ortho"))
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def test_irfftn(self):
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x = random((30, 20, 10))
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assert_array_almost_equal(x, np.fft.irfftn(np.fft.rfftn(x)))
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assert_array_almost_equal(
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x, np.fft.irfftn(np.fft.rfftn(x, norm="ortho"), norm="ortho"))
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def test_hfft(self):
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x = random(14) + 1j*random(14)
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x_herm = np.concatenate((random(1), x, random(1)))
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x = np.concatenate((x_herm, x[::-1].conj()))
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assert_array_almost_equal(np.fft.fft(x), np.fft.hfft(x_herm))
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assert_array_almost_equal(np.fft.hfft(x_herm) / np.sqrt(30),
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np.fft.hfft(x_herm, norm="ortho"))
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def test_ihttf(self):
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x = random(14) + 1j*random(14)
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x_herm = np.concatenate((random(1), x, random(1)))
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x = np.concatenate((x_herm, x[::-1].conj()))
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assert_array_almost_equal(x_herm, np.fft.ihfft(np.fft.hfft(x_herm)))
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assert_array_almost_equal(
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x_herm, np.fft.ihfft(np.fft.hfft(x_herm, norm="ortho"),
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norm="ortho"))
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def test_all_1d_norm_preserving(self):
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# verify that round-trip transforms are norm-preserving
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x = random(30)
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x_norm = np.linalg.norm(x)
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n = x.size * 2
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func_pairs = [(np.fft.fft, np.fft.ifft),
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(np.fft.rfft, np.fft.irfft),
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# hfft: order so the first function takes x.size samples
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# (necessary for comparison to x_norm above)
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(np.fft.ihfft, np.fft.hfft),
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]
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for forw, back in func_pairs:
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for n in [x.size, 2*x.size]:
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for norm in [None, 'ortho']:
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tmp = forw(x, n=n, norm=norm)
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tmp = back(tmp, n=n, norm=norm)
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assert_array_almost_equal(x_norm,
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np.linalg.norm(tmp))
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class TestFFTThreadSafe(object):
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threads = 16
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input_shape = (800, 200)
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def _test_mtsame(self, func, *args):
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def worker(args, q):
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q.put(func(*args))
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q = queue.Queue()
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expected = func(*args)
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# Spin off a bunch of threads to call the same function simultaneously
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t = [threading.Thread(target=worker, args=(args, q))
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for i in range(self.threads)]
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[x.start() for x in t]
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[x.join() for x in t]
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# Make sure all threads returned the correct value
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for i in range(self.threads):
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assert_array_equal(q.get(timeout=5), expected,
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'Function returned wrong value in multithreaded context')
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def test_fft(self):
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a = np.ones(self.input_shape) * 1+0j
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self._test_mtsame(np.fft.fft, a)
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def test_ifft(self):
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a = np.ones(self.input_shape) * 1+0j
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self._test_mtsame(np.fft.ifft, a)
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def test_rfft(self):
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a = np.ones(self.input_shape)
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self._test_mtsame(np.fft.rfft, a)
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def test_irfft(self):
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a = np.ones(self.input_shape) * 1+0j
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self._test_mtsame(np.fft.irfft, a)
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