Пример #1
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def test_fibonacci():
    assert [fibonacci(n) for n in range(-3, 5)] == [2, -1, 1, 0, 1, 1, 2, 3]
    assert fibonacci(100) == 354224848179261915075
    assert [lucas(n) for n in range(-3, 5)] == [-4, 3, -1, 2, 1, 3, 4, 7]
    assert lucas(100) == 792070839848372253127

    assert fibonacci(1, x) == 1
    assert fibonacci(2, x) == x
    assert fibonacci(3, x) == x**2 + 1
    assert fibonacci(4, x) == x**3 + 2*x
Пример #2
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def test_fibonacci():
    assert [fibonacci(n) for n in range(-3, 5)] == [2, -1, 1, 0, 1, 1, 2, 3]
    assert fibonacci(100) == 354224848179261915075
    assert [lucas(n) for n in range(-3, 5)] == [-4, 3, -1, 2, 1, 3, 4, 7]
    assert lucas(100) == 792070839848372253127

    assert fibonacci(1, x) == 1
    assert fibonacci(2, x) == x
    assert fibonacci(3, x) == x**2 + 1
    assert fibonacci(4, x) == x**3 + 2 * x
Пример #3
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def test_fibonacci():
    assert [fibonacci(n) for n in range(-3, 5)] == [2, -1, 1, 0, 1, 1, 2, 3]
    assert fibonacci(100) == 354224848179261915075
    assert [lucas(n) for n in range(-3, 5)] == [-4, 3, -1, 2, 1, 3, 4, 7]
    assert lucas(100) == 792070839848372253127

    assert fibonacci(1, x) == 1
    assert fibonacci(2, x) == x
    assert fibonacci(3, x) == x**2 + 1
    assert fibonacci(4, x) == x**3 + 2 * x

    # issue #8800
    n = Dummy('n')
    assert fibonacci(n).limit(n, S.Infinity) == S.Infinity
    assert lucas(n).limit(n, S.Infinity) == S.Infinity
Пример #4
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def test_fibonacci():
    assert [fibonacci(n) for n in range(-3, 5)] == [2, -1, 1, 0, 1, 1, 2, 3]
    assert fibonacci(100) == 354224848179261915075
    assert [lucas(n) for n in range(-3, 5)] == [-4, 3, -1, 2, 1, 3, 4, 7]
    assert lucas(100) == 792070839848372253127

    assert fibonacci(1, x) == 1
    assert fibonacci(2, x) == x
    assert fibonacci(3, x) == x**2 + 1
    assert fibonacci(4, x) == x**3 + 2*x

    # issue #8800
    n = Dummy('n')
    assert fibonacci(n).limit(n, S.Infinity) == S.Infinity
    assert lucas(n).limit(n, S.Infinity) == S.Infinity
Пример #5
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def test_fibonacci():
    assert [fibonacci(n) for n in range(-3, 5)] == [2, -1, 1, 0, 1, 1, 2, 3]
    assert fibonacci(100) == 354224848179261915075
    assert [lucas(n) for n in range(-3, 5)] == [-4, 3, -1, 2, 1, 3, 4, 7]
    assert lucas(100) == 792070839848372253127

    assert fibonacci(1, x) == 1
    assert fibonacci(2, x) == x
    assert fibonacci(3, x) == x**2 + 1
    assert fibonacci(4, x) == x**3 + 2 * x

    # issue #8800
    n = Dummy('n')
    assert fibonacci(n).limit(n, S.Infinity) is S.Infinity
    assert lucas(n).limit(n, S.Infinity) is S.Infinity

    assert fibonacci(n).rewrite(sqrt) == \
        2**(-n)*sqrt(5)*((1 + sqrt(5))**n - (-sqrt(5) + 1)**n) / 5
    assert fibonacci(n).rewrite(sqrt).subs(n, 10).expand() == fibonacci(10)
    assert fibonacci(n).rewrite(GoldenRatio).subs(n,10).evalf() == \
        fibonacci(10)
    assert lucas(n).rewrite(sqrt) == \
        (fibonacci(n-1).rewrite(sqrt) + fibonacci(n+1).rewrite(sqrt)).simplify()
    assert lucas(n).rewrite(sqrt).subs(n, 10).expand() == lucas(10)
    raises(ValueError, lambda: fibonacci(-3, x))
Пример #6
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def test_ccode_functions2():
    assert ccode(ceiling(x)) == "ceil(x)"
    assert ccode(Abs(x)) == "fabs(x)"
    assert ccode(gamma(x)) == "tgamma(x)"
    r, s = symbols('r,s', real=True)
    assert ccode(Mod(ceiling(r), ceiling(s))) == '((ceil(r) % ceil(s)) + '\
                                                 'ceil(s)) % ceil(s)'
    assert ccode(Mod(r, s)) == "fmod(r, s)"
    p1, p2 = symbols('p1 p2', integer=True, positive=True)
    assert ccode(Mod(p1, p2)) == 'p1 % p2'
    assert ccode(Mod(p1, p2 + 3)) == 'p1 % (p2 + 3)'
    assert ccode(Mod(-3, -7, evaluate=False)) == '(-3) % (-7)'
    assert ccode(-Mod(3, 7, evaluate=False)) == '-(3 % 7)'
    assert ccode(r * Mod(p1, p2)) == 'r*(p1 % p2)'
    assert ccode(Mod(p1, p2)**s) == 'pow(p1 % p2, s)'
    n = symbols('n', integer=True, negative=True)
    assert ccode(Mod(-n, p2)) == '(-n) % p2'
    assert ccode(
        fibonacci(n)
    ) == '(1.0/5.0)*pow(2, -n)*sqrt(5)*(-pow(1 - sqrt(5), n) + pow(1 + sqrt(5), n))'
    assert ccode(
        lucas(n)) == 'pow(2, -n)*(pow(1 - sqrt(5), n) + pow(1 + sqrt(5), n))'
Пример #7
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def test_fibonacci():
    assert [fibonacci(n) for n in range(-3, 5)] == [2, -1, 1, 0, 1, 1, 2, 3]
    assert fibonacci(100) == 354224848179261915075
    assert [lucas(n) for n in range(-3, 5)] == [-4, 3, -1, 2, 1, 3, 4, 7]
    assert lucas(100) == 792070839848372253127

    assert fibonacci(1, x) == 1
    assert fibonacci(2, x) == x
    assert fibonacci(3, x) == x**2 + 1
    assert fibonacci(4, x) == x**3 + 2*x

    # issue #8800
    n = Dummy('n')
    assert fibonacci(n).limit(n, S.Infinity) == S.Infinity
    assert lucas(n).limit(n, S.Infinity) == S.Infinity

    assert fibonacci(n).rewrite(sqrt) == \
        2**(-n)*sqrt(5)*((1 + sqrt(5))**n - (-sqrt(5) + 1)**n) / 5
    assert fibonacci(n).rewrite(sqrt).subs(n, 10).expand() == fibonacci(10)
    assert lucas(n).rewrite(sqrt) == \
        (fibonacci(n-1).rewrite(sqrt) + fibonacci(n+1).rewrite(sqrt)).simplify()
    assert lucas(n).rewrite(sqrt).subs(n, 10).expand() == lucas(10)
Пример #8
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def test_automatic_rewrites():
    assert maple_code(lucas(x)) == '2^(-x)*((1 - sqrt(5))^x + (1 + sqrt(5))^x)'
    assert maple_code(sinc(x)) == 'piecewise(x <> 0, sin(x)/x, 1)'