def test_MpmathPrinter(): p = MpmathPrinter() assert p.doprint(sign(x)) == 'mpmath.sign(x)' assert p.doprint(Rational(1, 2)) == 'mpmath.mpf(1)/mpmath.mpf(2)' assert p.doprint(loggamma(x)) == 'mpmath.loggamma(x)' assert p.doprint(fresnels(x)) == 'mpmath.fresnels(x)' assert p.doprint(fresnelc(x)) == 'mpmath.fresnelc(x)'
def test_MpmathPrinter(): p = MpmathPrinter() assert p.doprint(sign(x)) == 'mpmath.sign(x)' assert p.doprint(Rational(1, 2)) == 'mpmath.mpf(1)/mpmath.mpf(2)' assert p.doprint(S.Exp1) == 'mpmath.e' assert p.doprint(S.Pi) == 'mpmath.pi' assert p.doprint(S.GoldenRatio) == 'mpmath.phi' assert p.doprint(S.EulerGamma) == 'mpmath.euler' assert p.doprint(S.NaN) == 'mpmath.nan' assert p.doprint(S.Infinity) == 'mpmath.inf' assert p.doprint(S.NegativeInfinity) == 'mpmath.ninf' assert p.doprint(loggamma(x)) == 'mpmath.loggamma(x)'
def test_MpmathPrinter(): p = MpmathPrinter() assert p.doprint(sign(x)) == "mpmath.sign(x)" assert p.doprint(Rational(1, 2)) == "mpmath.mpf(1)/mpmath.mpf(2)" assert p.doprint(S.Exp1) == "mpmath.e" assert p.doprint(S.Pi) == "mpmath.pi" assert p.doprint(S.GoldenRatio) == "mpmath.phi" assert p.doprint(S.EulerGamma) == "mpmath.euler" assert p.doprint(S.NaN) == "mpmath.nan" assert p.doprint(S.Infinity) == "mpmath.inf" assert p.doprint(S.NegativeInfinity) == "mpmath.ninf"
def test_MpmathPrinter(): p = MpmathPrinter() assert p.doprint(sign(x)) == 'mpmath.sign(x)' assert p.doprint(Rational(1, 2)) == 'mpmath.mpf(1)/mpmath.mpf(2)'
def test_MpmathPrinter(): p = MpmathPrinter() assert p.doprint(sign(x)) == 'mpmath.sign(x)'