def test_fast_dct_lee_vs_naive(self):
for i in range(1, 12):
n = 2**i
vector = FastDctTest.random_vector(n)
expect = naivedct.transform(vector)
actual = fastdctlee.transform(vector)
self.assertListAlmostEqual(actual, expect)
expect = naivedct.inverse_transform(vector)
actual = fastdctlee.inverse_transform(vector)
self.assertListAlmostEqual(actual, expect)
def test_fast_dct_lee_vs_naive(self): for i in range(1, 12): n = 2**i vector = FastDctTest.random_vector(n) expect = naivedct.transform(vector) actual = fastdctlee.transform(vector) self.assertListAlmostEqual(actual, expect) expect = naivedct.inverse_transform(vector) actual = fastdctlee.inverse_transform(vector) self.assertListAlmostEqual(actual, expect)
def test_fast_dct8_vs_naive(self):
vector = FastDctTest.random_vector(8)
expect = naivedct.transform(vector)
expect = [(val / (math.sqrt(8) if (i == 0) else 2))
for (i, val) in enumerate(expect)]
actual = fastdct8.transform(vector)
self.assertListAlmostEqual(actual, expect)
expect = [(val / (math.sqrt(2) if (i == 0) else 2))
for (i, val) in enumerate(vector)]
expect = naivedct.inverse_transform(expect)
actual = fastdct8.inverse_transform(vector)
self.assertListAlmostEqual(actual, expect)
def test_fast_dct8_vs_naive(self): vector = FastDctTest.random_vector(8) expect = naivedct.transform(vector) expect = [(val / (math.sqrt(8) if (i == 0) else 2)) for (i, val) in enumerate(expect)] actual = fastdct8.transform(vector) self.assertListAlmostEqual(actual, expect) expect = [(val / (math.sqrt(2) if (i == 0) else 2)) for (i, val) in enumerate(vector)] expect = naivedct.inverse_transform(expect) actual = fastdct8.inverse_transform(vector) self.assertListAlmostEqual(actual, expect)
def test_fast_dct8_vs_naive(self):
n = 8
vector = FastDctTest.random_vector(n)
expect = naivedct.transform(vector)
for i in range(n):
expect[i] /= math.sqrt(4 * (2 if (i == 0) else 1))
actual = fastdct8.transform(vector)
self.assertListAlmostEqual(actual, expect)
expect = [(val / math.sqrt(4 / (2 if (i == 0) else 1)))
for (i, val) in enumerate(vector)]
expect = naivedct.inverse_transform(expect)
actual = fastdct8.inverse_transform(vector)
self.assertListAlmostEqual(actual, expect)
def test_fast_dct_fft_vs_naive(self):
prev = 0
for i in range(100 + 1):
n = round(1000**(i / 100.0))
if n <= prev:
continue
prev = n
vector = FastDctTest.random_vector(n)
expect = naivedct.transform(vector)
actual = fastdctfft.transform(vector)
self.assertListAlmostEqual(actual, expect)
expect = naivedct.inverse_transform(vector)
actual = fastdctfft.inverse_transform(vector)
self.assertListAlmostEqual(actual, expect)
def test_fast_dct_fft_vs_naive(self): prev = 0 for i in range(100 + 1): n = int(round(1000**(i / 100.0))) if n <= prev: continue prev = n vector = FastDctTest.random_vector(n) expect = naivedct.transform(vector) actual = fastdctfft.transform(vector) self.assertListAlmostEqual(actual, expect) expect = naivedct.inverse_transform(vector) actual = fastdctfft.inverse_transform(vector) self.assertListAlmostEqual(actual, expect)
