def test_SciPyPrinter(): p = SciPyPrinter() expr = acos(x) assert 'numpy' not in p.module_imports assert p.doprint(expr) == 'numpy.arccos(x)' assert 'numpy' in p.module_imports assert not any(m.startswith('scipy') for m in p.module_imports) smat = SparseMatrix(2, 5, {(0, 1): 3}) assert p.doprint(smat) == \ 'scipy.sparse.coo_matrix(([3], ([0], [1])), shape=(2, 5))' assert 'scipy.sparse' in p.module_imports assert p.doprint(S.GoldenRatio) == 'scipy.constants.golden_ratio' assert p.doprint(S.Pi) == 'scipy.constants.pi' assert p.doprint(S.Exp1) == 'numpy.e'
def test_airy_prime(): from sympy import airyaiprime, airybiprime expr1 = airyaiprime(x) expr2 = airybiprime(x) prntr = SciPyPrinter() assert prntr.doprint(expr1) == 'scipy.special.airy(x)[1]' assert prntr.doprint(expr2) == 'scipy.special.airy(x)[3]' prntr = NumPyPrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2) prntr = PythonCodePrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2)
def test_airy(): from sympy.functions.special.bessel import (airyai, airybi) expr1 = airyai(x) expr2 = airybi(x) prntr = SciPyPrinter() assert prntr.doprint(expr1) == 'scipy.special.airy(x)[0]' assert prntr.doprint(expr2) == 'scipy.special.airy(x)[2]' prntr = NumPyPrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2) prntr = PythonCodePrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2)
def test_issue_16535_16536(): from sympy import lowergamma, uppergamma a = symbols('a') expr1 = lowergamma(a, x) expr2 = uppergamma(a, x) prntr = SciPyPrinter() assert prntr.doprint(expr1) == 'scipy.special.gamma(a)*scipy.special.gammainc(a, x)' assert prntr.doprint(expr2) == 'scipy.special.gamma(a)*scipy.special.gammaincc(a, x)' prntr = NumPyPrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2) prntr = PythonCodePrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2)
def test_beta(): from sympy import beta expr = beta(x, y) prntr = SciPyPrinter() assert prntr.doprint(expr) == 'scipy.special.beta(x, y)' prntr = NumPyPrinter() assert prntr.doprint(expr) == 'math.gamma(x)*math.gamma(y)/math.gamma(x + y)' prntr = PythonCodePrinter() assert prntr.doprint(expr) == 'math.gamma(x)*math.gamma(y)/math.gamma(x + y)' prntr = PythonCodePrinter({'allow_unknown_functions': True}) assert prntr.doprint(expr) == 'math.gamma(x)*math.gamma(y)/math.gamma(x + y)' prntr = MpmathPrinter() assert prntr.doprint(expr) == 'mpmath.beta(x, y)'
def test_Integral(): from sympy import Integral, exp single = Integral(exp(-x), (x, 0, oo)) double = Integral(x**2*exp(x*y), (x, -z, z), (y, 0, z)) indefinite = Integral(x**2, x) evaluateat = Integral(x**2, (x, 1)) prntr = SciPyPrinter() assert prntr.doprint(single) == 'scipy.integrate.quad(lambda x: numpy.exp(-x), 0, numpy.PINF)[0]' assert prntr.doprint(double) == 'scipy.integrate.nquad(lambda x, y: x**2*numpy.exp(x*y), ((-z, z), (0, z)))[0]' raises(NotImplementedError, lambda: prntr.doprint(indefinite)) raises(NotImplementedError, lambda: prntr.doprint(evaluateat)) prntr = MpmathPrinter() assert prntr.doprint(single) == 'mpmath.quad(lambda x: mpmath.exp(-x), (0, mpmath.inf))' assert prntr.doprint(double) == 'mpmath.quad(lambda x, y: x**2*mpmath.exp(x*y), (-z, z), (0, z))' raises(NotImplementedError, lambda: prntr.doprint(indefinite)) raises(NotImplementedError, lambda: prntr.doprint(evaluateat))
def test_fresnel_integrals(): from sympy import fresnelc, fresnels expr1 = fresnelc(x) expr2 = fresnels(x) prntr = SciPyPrinter() assert prntr.doprint(expr1) == 'scipy.special.fresnel(x)[1]' assert prntr.doprint(expr2) == 'scipy.special.fresnel(x)[0]' prntr = NumPyPrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2) prntr = PythonCodePrinter() assert "Not supported" in prntr.doprint(expr1) assert "Not supported" in prntr.doprint(expr2) prntr = MpmathPrinter() assert prntr.doprint(expr1) == 'mpmath.fresnelc(x)' assert prntr.doprint(expr2) == 'mpmath.fresnels(x)'
def test_numerical_accuracy_functions(): prntr = SciPyPrinter() assert prntr.doprint(expm1(x)) == 'numpy.expm1(x)' assert prntr.doprint(log1p(x)) == 'numpy.log1p(x)' assert prntr.doprint(cosm1(x)) == 'scipy.special.cosm1(x)'