本文整理汇总了Python中sympy.var函数的典型用法代码示例。如果您正苦于以下问题:Python var函数的具体用法?Python var怎么用?Python var使用的例子?那么恭喜您, 这里精选的函数代码示例或许可以为您提供帮助。
在下文中一共展示了var函数的20个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的Python代码示例。
示例1: setUp
def setUp(self):
# setup params for symbolic computation
th1 = var('th1')
l1 = var('L1')
self.sym_gamma = 0
self.sym_b = 0
self.sym_alpha = 0
self.sym_d = l1
self.sym_theta = th1
self.sym_r = 0
self.sym_tmat = Matrix([
[cos(th1), -sin(th1), 0, l1],
[sin(th1), cos(th1), 0, 0],
[0, 0, 1, 0],
[0, 0, 0, 1]
])
# setup params for numeric computation
th1 = pi/2
l1 = 1
self.num_gamma = 0
self.num_b = 0
self.num_alpha = 0
self.num_d = l1
self.num_theta = th1
self.num_r = 0
self.num_tmat = Matrix([
[cos(th1), -sin(th1), 0, l1],
[sin(th1), cos(th1), 0, 0],
[0, 0, 1, 0],
[0, 0, 0, 1]
])
开发者ID:ELZo3,项目名称:symoro,代码行数:31,代码来源:test_transform.py
示例2: test_var
def test_var():
var("a")
assert a == Symbol("a")
var("b bb cc zz _x")
assert b == Symbol("b")
assert bb == Symbol("bb")
assert cc == Symbol("cc")
assert zz == Symbol("zz")
assert _x == Symbol("_x")
v = var(['d','e','fg'])
assert d == Symbol('d')
assert e == Symbol('e')
assert fg == Symbol('fg')
# check return value
assert v == (d, e, fg)
# see if var() really injects into global namespace
raises(NameError, "z1")
make_z1()
assert z1 == Symbol("z1")
raises(NameError, "z2")
make_z2()
assert z2 == Symbol("z2")
开发者ID:Aang,项目名称:sympy,代码行数:27,代码来源:test_var.py
示例3: eq_sympy
def eq_sympy(input_dim, output_dim, ARD=False):
"""
Latent force model covariance, exponentiated quadratic with multiple outputs. Derived from a diffusion equation with the initial spatial condition layed down by a Gaussian process with lengthscale given by shared_lengthscale.
See IEEE Trans Pattern Anal Mach Intell. 2013 Nov;35(11):2693-705. doi: 10.1109/TPAMI.2013.86. Linear latent force models using Gaussian processes. Alvarez MA, Luengo D, Lawrence ND.
:param input_dim: Dimensionality of the kernel
:type input_dim: int
:param output_dim: number of outputs in the covariance function.
:type output_dim: int
:param ARD: whether or not to user ARD (default False).
:type ARD: bool
"""
real_input_dim = input_dim
if output_dim>1:
real_input_dim -= 1
X = sp.symbols('x_:' + str(real_input_dim))
Z = sp.symbols('z_:' + str(real_input_dim))
scale = sp.var('scale_i scale_j',positive=True)
if ARD:
lengthscales = [sp.var('lengthscale%i_i lengthscale%i_j' % i, positive=True) for i in range(real_input_dim)]
shared_lengthscales = [sp.var('shared_lengthscale%i' % i, positive=True) for i in range(real_input_dim)]
dist_string = ' + '.join(['(x_%i-z_%i)**2/(shared_lengthscale%i**2 + lengthscale%i_i**2 + lengthscale%i_j**2)' % (i, i, i) for i in range(real_input_dim)])
dist = parse_expr(dist_string)
f = variance*sp.exp(-dist/2.)
else:
lengthscales = sp.var('lengthscale_i lengthscale_j',positive=True)
shared_lengthscale = sp.var('shared_lengthscale',positive=True)
dist_string = ' + '.join(['(x_%i-z_%i)**2' % (i, i) for i in range(real_input_dim)])
dist = parse_expr(dist_string)
f = scale_i*scale_j*sp.exp(-dist/(2*(lengthscale_i**2 + lengthscale_j**2 + shared_lengthscale**2)))
return kern(input_dim, [spkern(input_dim, f, output_dim=output_dim, name='eq_sympy')])
开发者ID:Dalar,项目名称:GPy,代码行数:33,代码来源:constructors.py
示例4: compute_psi_stats
def compute_psi_stats(self):
# define some normal distributions
mus = [sp.var("mu_%i" % i, real=True) for i in range(self.input_dim)]
Ss = [sp.var("S_%i" % i, positive=True) for i in range(self.input_dim)]
normals = [
(2 * sp.pi * Si) ** (-0.5) * sp.exp(-0.5 * (xi - mui) ** 2 / Si) for xi, mui, Si in zip(self._sp_x, mus, Ss)
]
# do some integration!
# self._sp_psi0 = ??
self._sp_psi1 = self._sp_k
for i in range(self.input_dim):
print "perfoming integrals %i of %i" % (i + 1, 2 * self.input_dim)
sys.stdout.flush()
self._sp_psi1 *= normals[i]
self._sp_psi1 = sp.integrate(self._sp_psi1, (self._sp_x[i], -sp.oo, sp.oo))
clear_cache()
self._sp_psi1 = self._sp_psi1.simplify()
# and here's psi2 (eek!)
zprime = [sp.Symbol("zp%i" % i) for i in range(self.input_dim)]
self._sp_psi2 = self._sp_k.copy() * self._sp_k.copy().subs(zip(self._sp_z, zprime))
for i in range(self.input_dim):
print "perfoming integrals %i of %i" % (self.input_dim + i + 1, 2 * self.input_dim)
sys.stdout.flush()
self._sp_psi2 *= normals[i]
self._sp_psi2 = sp.integrate(self._sp_psi2, (self._sp_x[i], -sp.oo, sp.oo))
clear_cache()
self._sp_psi2 = self._sp_psi2.simplify()
开发者ID:rajivsam,项目名称:GPy,代码行数:29,代码来源:sympykern.py
示例5: test_symbolic_twoport
def test_symbolic_twoport():
circuit.default_toolkit = symbolic
cir = SubCircuit()
k = symbolic.kboltzmann
var('R1 R0 C1 w T', real=True, positive=True)
s = 1j*w
cir['R0'] = R(1, gnd, r=R0)
cir['R1'] = R(1, 2, r=R1)
# cir['C1'] = C(2, gnd, c=C1)
## Add an AC source to verify that the source will not affect results
# cir['IS'] = IS(1, gnd, iac=1)
## Run symbolic 2-port analysis
twoport_ana = TwoPortAnalysis(cir, Node('1'), gnd, Node('2'), gnd,
noise = True, toolkit=symbolic,
noise_outquantity = 'v')
result = twoport_ana.solve(freqs=s, complexfreq=True)
ABCD = Matrix(result['twoport'].A)
ABCD.simplify()
assert_array_equal(ABCD, np.array([[1 + 0*R1*C1*s, R1],
[(1 + 0*R0*C1*s + 0*R1*C1*s) / R0, (R0 + R1)/R0]]))
assert_array_equal(simplify(result['Sin'] - (4*k*T/R0 + 4*R1*k*T/R0**2)), 0)
assert_array_equal(simplify(result['Svn']), 4*k*T*R1)
开发者ID:gadamc,项目名称:pycircuit,代码行数:29,代码来源:test_analysis_nport.py
示例6: test_coeff2_0
def test_coeff2_0():
var('r, kappa')
psi = Function("psi")
g = 1/r**2 * (2*r*psi(r).diff(r, 1) + r**2 * psi(r).diff(r, 2))
g = g.expand()
assert g.coeff(psi(r).diff(r, 2)) == 1
开发者ID:KevinGoodsell,项目名称:sympy,代码行数:7,代码来源:test_basic.py
示例7: test_var_return
def test_var_return():
raises(ValueError, lambda: var(''))
v2 = var('q')
v3 = var('q p')
assert v2 == Symbol('q')
assert v3 == (Symbol('q'), Symbol('p'))
开发者ID:BDGLunde,项目名称:sympy,代码行数:7,代码来源:test_var.py
示例8: test_geteqsys
def test_geteqsys():
var('R1 V0 Isat T')
k = symbolic.kboltzmann
qelectron = symbolic.qelectron
c = SubCircuit(toolkit=symbolic)
c['V0'] = VS('net1', gnd, v=V0, toolkit=symbolic)
c['R1'] = R('net1', 'net2', r=R1)
c['D1'] = Diode('net2', gnd, IS=Isat, toolkit=symbolic)
dc = SymbolicDC(c)
dc.epar.T = T
eqsys, x = dc.get_eqsys()
x0, x2, x3 = x
eqsys_ref = np.array([x3 + x0/R1 - x2/R1,
-Isat*(1 - sympy.exp(qelectron*x2/(T*k))) + x2/R1 - x0/R1,
x0 - V0])
assert sympy.simplify(eqsys_ref[0] - eqsys_ref[0]) == 0
assert sympy.simplify(eqsys_ref[0] - eqsys_ref[0]) == 0
assert sympy.simplify(eqsys_ref[0] - eqsys_ref[0]) == 0
开发者ID:gadamc,项目名称:pycircuit,代码行数:26,代码来源:test_analysis_symbolicdc.py
示例9: test_symbolic_noise_kt_over_C
def test_symbolic_noise_kt_over_C():
pycircuit.circuit.circuit.default_toolkit = symbolic
cir = SubCircuit(toolkit = symbolic)
k = symbolic.kboltzmann
var('r c w w1 V', real=True, positive=True)
s = I * w
cir['vs'] = VS(1, gnd, vac=V)
cir['R'] = R(1, 2, r=r)
cir['C'] = C(2, gnd, c=c)
noise = Noise(cir, inputsrc='vs', outputnodes=('2', gnd),
toolkit = symbolic)
res = noise.solve(s, complexfreq=True)
T = noise.par.epar.T
svnout = simplify(res['Svnout'])
noise_voltage_power = simplify(integrate(svnout, (w, 0, oo)))
assert_equal(noise_voltage_power, 2*pi*k*T/c)
assert_equal(simplify(res['gain'] - 1/(1 + s*r*c)), 0)
开发者ID:gadamc,项目名称:pycircuit,代码行数:26,代码来源:test_analysis_symbolic.py
示例10: S2
def S2():
var("x y z")
e = (x**sin(x) + y**cos(y) + z**(x + y))**100
t1 = clock()
f = e.expand()
t2 = clock()
return t2 - t1
开发者ID:cbehan,项目名称:symengine,代码行数:7,代码来源:symbench_def.py
示例11: planar2r
def planar2r():
robo = Robot('planar2r', 2, 2, 3, False, tools.SIMPLE)
# update geometric params
params = {
1: {'sigma': 0, 'mu': 1, 'theta': var('th1')},
2: {'sigma': 0, 'mu': 1, 'alpha': 0, 'd': var('L1'), 'theta': var('th2')},
3: {'sigma': 2, 'd': var('L2')}
}
robo.update_params('geos', params)
# update dynamic params
params = {
1: {'xx': 0, 'xy': 0, 'xz': 0, 'yy': 0, 'yz': 0, 'ia': 0}
}
robo.update_params('dyns', params)
# update joint params
params = {
0: {'qdots': 0, 'qddots': 0, 'torques': 0}
}
robo.update_params('misc', params)
# update gravity vector
params = {
0: {'gravity': 0},
1: {'gravity': 0},
2: {'gravity': var('G3')},
}
robo.update_params('misc', params)
return robo
开发者ID:ELZo3,项目名称:symoro,代码行数:27,代码来源:check_dynmodel.py
示例12: R3
def R3():
var('x y z')
f = x+y+z
t1 = clock()
a = [bool(f==f) for _ in range(10)]
t2 = clock()
return t2 - t1
开发者ID:cbehan,项目名称:symengine,代码行数:7,代码来源:symbench_def.py
示例13: R7
def R7():
var('x')
f = x**24+34*x**12+45*x**3+9*x**18 +34*x**10+ 32*x**21
t1 = clock()
a = [f.subs({x : random()}) for _ in xrange(10^4)]
t2 = clock()
return t2 - t1
开发者ID:rohanaru53,项目名称:symengine,代码行数:7,代码来源:symbench_def.py
示例14: create_layer_sympy_var_and_maps
def create_layer_sympy_var_and_maps(layer_prop=['z','kv','kh','et', 'mv',
'surz', 'vacz']):
"""Create sympy variables and maps for use with integrating \
to generate 1d spectral equations.
Each x in layer prop will get a 'top', and 'bot', suffix
Each 'xtop' will get mapped to 'xt[layer]', each 'xbot' to 'xb[layer]
and added to `prop_map` dict.
Each s in layer prop will get a linear representation added to the
`linear_expression` dict:
x = (xbot-xtop)/(zbot-ztop)*(z-zbot) +xtop
`prop_map` will also get a 'mi' to m[i], and mj to m[j] map.
'z, mi, mj' will become global variables
Parameters
----------
layer_prop : ``list`` of ``str``, optional
label for properties that vary in a layer
(default is ['z','kv','kh','et', 'mv', 'surz',' vacz'])
Returns
-------
prop_map : ``dict``
maps the string version of a variable to the sympy.tensor.IndexedBase
version e.g. prop_map['kvtop'] = kvt[layer]
linear_expressions : ``dict``
maps the string version of a variable to an expression describing how
that varibale varies linearly within a layer
Examples
--------
>>> prop_map, linear_expressions = create_layer_sympy_var_and_maps(layer_prop=['z','kv'])
>>> prop_map
{'kvtop': kvt[layer], 'mi': m[i], 'mj': m[j], 'zbot': zb[layer], 'ztop': zt[layer], 'kvbot': kvb[layer]}
>>> linear_expressions
{'z': z, 'kv': kvtop + (kvbot - kvtop)*(z - ztop)/(zbot - ztop)}
"""
#http://www.daniweb.com/software-development/python/threads/111526/setting-a-string-as-a-variable-name
m = sympy.tensor.IndexedBase('m')
i = sympy.tensor.Idx('i')
j = sympy.tensor.Idx('j')
layer = sympy.tensor.Idx('layer')
sympy.var('z, mi, mj')
suffix={'t':'top','b': 'bot'}
prop_map = {}
linear_expressions ={}
prop_map['mi'] = m[i]
prop_map['mj'] = m[j]
for prop in layer_prop:
for s1, s3 in suffix.iteritems():
vars()[prop + s1] = string_to_IndexedBase(prop + s1)
sympy.var(prop + s3)
prop_map[prop + s3] = vars()[prop + s1][layer]
linear_expressions[prop]=linear(z, ztop, eval(prop+suffix['t']), zbot, eval(prop+suffix['b']))
return (prop_map, linear_expressions)
开发者ID:rtrwalker,项目名称:spec1d,代码行数:60,代码来源:spec1d_generate_code.py
示例15: test__validate_production_function
def test__validate_production_function():
"""Testing validation of production function attribute."""
# production function must have type sym.Basic
def invalid_F(x, y, l, r, A, kappa, nu, rho, gamma):
"""Valid F must return a SymPy expression."""
return r * A * kappa * (nu * x**rho + (1 - nu) * (y * (l / r))**rho)**(gamma / rho)
with nose.tools.assert_raises(AttributeError):
models.Model('positive', workers, firms, production=invalid_F,
params=valid_F_params)
# production function must share vars with workers and firms
m, n = sym.var('m, n')
invalid_F = r * A * kappa * (nu * m**rho + (1 - nu) * (n * (l / r))**rho)**(gamma / rho)
with nose.tools.assert_raises(AttributeError):
models.Model('negative', workers, firms, production=invalid_F,
params=valid_F_params)
# production function must depend on r and l
m, n = sym.var('m, n')
invalid_F = r * A * kappa * (nu * x**rho + (1 - nu) * (y * (m / n))**rho)**(gamma / rho)
with nose.tools.assert_raises(AttributeError):
models.Model('positive', workers, firms, production=invalid_F,
params=valid_F_params)
开发者ID:davidrpugh,项目名称:assortative-matching-large-firms,代码行数:27,代码来源:test_models.py
示例16: symList
def symList(string, imin, imax):
outlist = []
for i in range(imin, imax+1):
string2 = (string+('%d' % i))
sympy.var(string2)
outlist.append(eval(string2))
return outlist
开发者ID:heartvalve,项目名称:mapy,代码行数:7,代码来源:doperator.py
示例17: test_FunctionWrapper
def test_FunctionWrapper():
import sympy
sympy.var("n, m, theta, phi")
r = sympy.Ynm(n, m, theta, phi)
s = Integer(2)*r
assert isinstance(s, Mul)
assert isinstance(s.args[1]._sympy_(), sympy.Ynm)
开发者ID:rohanaru53,项目名称:symengine,代码行数:7,代码来源:test_functions.py
示例18: test_2d5pt_ECMCPU
def test_2d5pt_ECMCPU(self):
store_file = os.path.join(self.temp_dir, 'test_2d5pt_ECMCPU.pickle')
output_stream = StringIO()
parser = kc.create_parser()
args = parser.parse_args(['-m', self._find_file('phinally_gcc.yaml'),
'-p', 'ECMCPU',
self._find_file('2d-5pt.c'),
'-D', 'N', '2000',
'-D', 'M', '1000',
'-vvv',
'--unit=cy/CL',
'--store', store_file])
kc.check_arguments(args, parser)
kc.run(parser, args, output_file=output_stream)
results = pickle.load(open(store_file, 'rb'))
# Check if results contains correct kernel
self.assertEqual(list(results), ['2d-5pt.c'])
# Check for correct variations of constants
six.assertCountEqual(self,
[sorted(map(str, r)) for r in results['2d-5pt.c']],
[sorted(map(str, r)) for r in [((sympy.var('M'), 1000), (sympy.var('N'), 2000))]])
# Output of first result:
result = list(results['2d-5pt.c'].values())[0]
six.assertCountEqual(self, result, ['ECMCPU'])
ecmd = result['ECMCPU']
self.assertAlmostEqual(ecmd['T_OL'], 24.8, places=1)
self.assertAlmostEqual(ecmd['T_nOL'], 20, places=1)
开发者ID:arita37,项目名称:kerncraft,代码行数:34,代码来源:test_kerncraft.py
示例19: main
def main():
var("mu nu rho theta phi sigma tau a t x y z w")
transform("polar", Matrix([rho*cos(phi), rho*sin(phi)]), [rho, phi])
transform("cylindrical", Matrix([rho*cos(phi), rho*sin(phi), z]),
[rho, phi, z])
transform("spherical",
Matrix([rho*sin(theta)*cos(phi), rho*sin(theta)*sin(phi),
rho*cos(theta)]),
[rho, theta, phi],
recursive=True
)
transform("rotating disk",
Matrix([t, x*cos(w*t)-y*sin(w*t), x*sin(w*t)+y*cos(w*t), z]),
[t, x, y, z])
transform("parabolic",
Matrix([sigma*tau, (tau**2-sigma**2)/2]),
[sigma, tau])
# too complex:
#transform("bipolar",
# Matrix([a*sinh(tau)/(cosh(tau)-cos(sigma)),
# a*sin(sigma)/(cosh(tau)-cos(sigma))]),
# [sigma, tau]
# )
transform("elliptic",
Matrix([a*cosh(mu)*cos(nu), a*sinh(mu)*sin(nu)]),
[mu, nu]
)
开发者ID:101man,项目名称:sympy,代码行数:34,代码来源:curvilinear_coordinates.py
示例20: test_2d5pt_RooflineIACA
def test_2d5pt_RooflineIACA(self):
store_file = os.path.join(self.temp_dir, 'test_2d5pt_RooflineIACA.pickle')
output_stream = StringIO()
parser = kc.create_parser()
args = parser.parse_args(['-m', self._find_file('phinally_gcc.yaml'),
'-p', 'RooflineIACA',
self._find_file('2d-5pt.c'),
'-D', 'N', '4000',
'-D', 'M', '1000',
'-vvv',
'--unit=FLOP/s',
'--store', store_file])
kc.check_arguments(args, parser)
kc.run(parser, args, output_file=output_stream)
results = pickle.load(open(store_file, 'rb'))
# Check if results contains correct kernel
self.assertEqual(list(results), ['2d-5pt.c'])
# Check for correct variations of constants
six.assertCountEqual(self,
[sorted(map(str, r)) for r in results['2d-5pt.c']],
[sorted(map(str, r)) for r in [((sympy.var('M'), 1000), (sympy.var('N'), 4000))]])
# Output of first result:
result = list(results['2d-5pt.c'].values())[0]
six.assertCountEqual(self, result, ['RooflineIACA'])
roofline = result['RooflineIACA']
self.assertAlmostEqual(roofline['min performance'], 2900000000.0, places=0)
self.assertEqual(roofline['bottleneck level'], 3)
开发者ID:arita37,项目名称:kerncraft,代码行数:34,代码来源:test_kerncraft.py
注:本文中的sympy.var函数示例由纯净天空整理自Github/MSDocs等源码及文档管理平台,相关代码片段筛选自各路编程大神贡献的开源项目,源码版权归原作者所有,传播和使用请参考对应项目的License;未经允许,请勿转载。 |
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