ai-content-maker/.venv/Lib/site-packages/numba/cuda/tests/cudapy/test_powi.py

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2024-05-03 04:18:51 +03:00
import math
import numpy as np
from numba import cuda, float64, int8, int32, void
from numba.cuda.testing import unittest, CUDATestCase
def cu_mat_power(A, power, power_A):
y, x = cuda.grid(2)
m, n = power_A.shape
if x >= n or y >= m:
return
power_A[y, x] = math.pow(A[y, x], int32(power))
def cu_mat_power_binop(A, power, power_A):
y, x = cuda.grid(2)
m, n = power_A.shape
if x >= n or y >= m:
return
power_A[y, x] = A[y, x] ** power
def vec_pow(r, x, y):
i = cuda.grid(1)
if i < len(r):
r[i] = pow(x[i], y[i])
def vec_pow_binop(r, x, y):
i = cuda.grid(1)
if i < len(r):
r[i] = x[i] ** y[i]
def vec_pow_inplace_binop(r, x):
i = cuda.grid(1)
if i < len(r):
r[i] **= x[i]
def random_complex(N):
np.random.seed(123)
return (np.random.random(1) + np.random.random(1) * 1j)
class TestCudaPowi(CUDATestCase):
def test_powi(self):
dec = cuda.jit(void(float64[:, :], int8, float64[:, :]))
kernel = dec(cu_mat_power)
power = 2
A = np.arange(10, dtype=np.float64).reshape(2, 5)
Aout = np.empty_like(A)
kernel[1, A.shape](A, power, Aout)
self.assertTrue(np.allclose(Aout, A ** power))
def test_powi_binop(self):
dec = cuda.jit(void(float64[:, :], int8, float64[:, :]))
kernel = dec(cu_mat_power_binop)
power = 2
A = np.arange(10, dtype=np.float64).reshape(2, 5)
Aout = np.empty_like(A)
kernel[1, A.shape](A, power, Aout)
self.assertTrue(np.allclose(Aout, A ** power))
# Relative tolerance kwarg is provided because 1.0e-7 (the default for
# assert_allclose) is a bit tight for single precision.
def _test_cpow(self, dtype, func, rtol=1.0e-7):
N = 32
x = random_complex(N).astype(dtype)
y = random_complex(N).astype(dtype)
r = np.zeros_like(x)
cfunc = cuda.jit(func)
cfunc[1, N](r, x, y)
np.testing.assert_allclose(r, x ** y, rtol=rtol)
# Checks special cases
x = np.asarray([0.0j, 1.0j], dtype=dtype)
y = np.asarray([0.0j, 1.0], dtype=dtype)
r = np.zeros_like(x)
cfunc[1, 2](r, x, y)
np.testing.assert_allclose(r, x ** y, rtol=rtol)
def test_cpow_complex64_pow(self):
self._test_cpow(np.complex64, vec_pow, rtol=3.0e-7)
def test_cpow_complex64_binop(self):
self._test_cpow(np.complex64, vec_pow_binop, rtol=3.0e-7)
def test_cpow_complex128_pow(self):
self._test_cpow(np.complex128, vec_pow)
def test_cpow_complex128_binop(self):
self._test_cpow(np.complex128, vec_pow_binop)
def _test_cpow_inplace_binop(self, dtype, rtol=1.0e-7):
N = 32
x = random_complex(N).astype(dtype)
y = random_complex(N).astype(dtype)
r = x ** y
cfunc = cuda.jit(vec_pow_inplace_binop)
cfunc[1, N](x, y)
np.testing.assert_allclose(x, r, rtol=rtol)
def test_cpow_complex64_inplace_binop(self):
self._test_cpow_inplace_binop(np.complex64, rtol=3.0e-7)
def test_cpow_complex128_inplace_binop(self):
self._test_cpow_inplace_binop(np.complex128, rtol=3.0e-7)
if __name__ == '__main__':
unittest.main()