def test_other_functions(self):
order = GaussQuadratures.orders[-1]
for name, function, integral in FUNCTIONS:
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), '{} integral wrong: {} vs {} (quadrature order {})'.format(
name, integral, ret, order)
def test_other_functions(self):
order = GaussQuadratures.orders[-1]
for name, function, integral in FUNCTIONS:
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), '{} integral wrong: {} vs {} (quadrature order {})'.format(
name, integral, ret, order)
def test_other_functions(self):
order = GaussQuadratures.orders[-1]
for name, function, integral in FUNCTIONS:
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), \
f'{name} integral wrong: {integral} vs {ret} (quadrature order {order})'
def test_other_functions(self):
order = GaussQuadratures.orders[-1]
for name, function, integral in FUNCTIONS:
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), \
f'{name} integral wrong: {integral} vs {ret} (quadrature order {order})'
def test_polynomials(self):
for n, function, _, integral in polynomials(GaussQuadratures.orders[-1]):
name = 'x^{}'.format(n)
for order in GaussQuadratures.orders:
if n > order / 2:
continue
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), '{} integral wrong: {} vs {} (quadrature order {})'.format(
name, integral, ret, order)
def test_polynomials(self):
for n, function, _, integral in polynomials(GaussQuadratures.orders[-1]):
name = 'x^{}'.format(n)
for order in GaussQuadratures.orders:
if n > order / 2:
continue
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), '{} integral wrong: {} vs {} (quadrature order {})'.format(
name, integral, ret, order)
def test_polynomials(self):
for n, function, _, integral in polynomials(GaussQuadratures.orders[-1]):
name = f'x^{n}'
for order in GaussQuadratures.orders:
if n > order / 2:
continue
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), \
f'{name} integral wrong: {integral} vs {ret} (quadrature order {order})'
def test_polynomials(self):
for n, function, _, integral in polynomials(
GaussQuadratures.orders[-1]):
name = f'x^{n}'
for order in GaussQuadratures.orders:
if n > order / 2:
continue
Q = GaussQuadratures.iter_quadrature(order)
ret = sum([function(p) * w for (p, w) in Q])
assert float_cmp(ret, integral), \
f'{name} integral wrong: {integral} vs {ret} (quadrature order {order})'
