Exemplo n.º 1
0
def test_conv7():
    x = Symbol("x")
    y = Symbol("y")
    assert sin(x / 3) == sin(sympy.Symbol("x") / 3)
    assert cos(x / 3) == cos(sympy.Symbol("x") / 3)
    assert tan(x / 3) == tan(sympy.Symbol("x") / 3)
    assert cot(x / 3) == cot(sympy.Symbol("x") / 3)
    assert csc(x / 3) == csc(sympy.Symbol("x") / 3)
    assert sec(x / 3) == sec(sympy.Symbol("x") / 3)
    assert asin(x / 3) == asin(sympy.Symbol("x") / 3)
    assert acos(x / 3) == acos(sympy.Symbol("x") / 3)
    assert atan(x / 3) == atan(sympy.Symbol("x") / 3)
    assert acot(x / 3) == acot(sympy.Symbol("x") / 3)
    assert acsc(x / 3) == acsc(sympy.Symbol("x") / 3)
    assert asec(x / 3) == asec(sympy.Symbol("x") / 3)

    assert sin(x / 3)._sympy_() == sympy.sin(sympy.Symbol("x") / 3)
    assert sin(x / 3)._sympy_() != sympy.cos(sympy.Symbol("x") / 3)
    assert cos(x / 3)._sympy_() == sympy.cos(sympy.Symbol("x") / 3)
    assert tan(x / 3)._sympy_() == sympy.tan(sympy.Symbol("x") / 3)
    assert cot(x / 3)._sympy_() == sympy.cot(sympy.Symbol("x") / 3)
    assert csc(x / 3)._sympy_() == sympy.csc(sympy.Symbol("x") / 3)
    assert sec(x / 3)._sympy_() == sympy.sec(sympy.Symbol("x") / 3)
    assert asin(x / 3)._sympy_() == sympy.asin(sympy.Symbol("x") / 3)
    assert acos(x / 3)._sympy_() == sympy.acos(sympy.Symbol("x") / 3)
    assert atan(x / 3)._sympy_() == sympy.atan(sympy.Symbol("x") / 3)
    assert acot(x / 3)._sympy_() == sympy.acot(sympy.Symbol("x") / 3)
    assert acsc(x / 3)._sympy_() == sympy.acsc(sympy.Symbol("x") / 3)
    assert asec(x / 3)._sympy_() == sympy.asec(sympy.Symbol("x") / 3)
Exemplo n.º 2
0
def test_conv7():
    x = Symbol("x")
    y = Symbol("y")
    assert sin(x/3) == sin(sympy.Symbol("x") / 3)
    assert cos(x/3) == cos(sympy.Symbol("x") / 3)
    assert tan(x/3) == tan(sympy.Symbol("x") / 3)
    assert cot(x/3) == cot(sympy.Symbol("x") / 3)
    assert csc(x/3) == csc(sympy.Symbol("x") / 3)
    assert sec(x/3) == sec(sympy.Symbol("x") / 3)
    assert asin(x/3) == asin(sympy.Symbol("x") / 3)
    assert acos(x/3) == acos(sympy.Symbol("x") / 3)
    assert atan(x/3) == atan(sympy.Symbol("x") / 3)
    assert acot(x/3) == acot(sympy.Symbol("x") / 3)
    assert acsc(x/3) == acsc(sympy.Symbol("x") / 3)
    assert asec(x/3) == asec(sympy.Symbol("x") / 3)

    assert sin(x/3)._sympy_() == sympy.sin(sympy.Symbol("x") / 3)
    assert sin(x/3)._sympy_() != sympy.cos(sympy.Symbol("x") / 3)
    assert cos(x/3)._sympy_() == sympy.cos(sympy.Symbol("x") / 3)
    assert tan(x/3)._sympy_() == sympy.tan(sympy.Symbol("x") / 3)
    assert cot(x/3)._sympy_() == sympy.cot(sympy.Symbol("x") / 3)
    assert csc(x/3)._sympy_() == sympy.csc(sympy.Symbol("x") / 3)
    assert sec(x/3)._sympy_() == sympy.sec(sympy.Symbol("x") / 3)
    assert asin(x/3)._sympy_() == sympy.asin(sympy.Symbol("x") / 3)
    assert acos(x/3)._sympy_() == sympy.acos(sympy.Symbol("x") / 3)
    assert atan(x/3)._sympy_() == sympy.atan(sympy.Symbol("x") / 3)
    assert acot(x/3)._sympy_() == sympy.acot(sympy.Symbol("x") / 3)
    assert acsc(x/3)._sympy_() == sympy.acsc(sympy.Symbol("x") / 3)
    assert asec(x/3)._sympy_() == sympy.asec(sympy.Symbol("x") / 3)
Exemplo n.º 3
0
def test_conv7b():
    x = sympy.Symbol("x")
    y = sympy.Symbol("y")
    assert sympify(sympy.sin(x / 3)) == sin(Symbol("x") / 3)
    assert sympify(sympy.sin(x / 3)) != cos(Symbol("x") / 3)
    assert sympify(sympy.cos(x / 3)) == cos(Symbol("x") / 3)
    assert sympify(sympy.tan(x / 3)) == tan(Symbol("x") / 3)
    assert sympify(sympy.cot(x / 3)) == cot(Symbol("x") / 3)
    assert sympify(sympy.csc(x / 3)) == csc(Symbol("x") / 3)
    assert sympify(sympy.sec(x / 3)) == sec(Symbol("x") / 3)
    assert sympify(sympy.asin(x / 3)) == asin(Symbol("x") / 3)
    assert sympify(sympy.acos(x / 3)) == acos(Symbol("x") / 3)
    assert sympify(sympy.atan(x / 3)) == atan(Symbol("x") / 3)
    assert sympify(sympy.acot(x / 3)) == acot(Symbol("x") / 3)
    assert sympify(sympy.acsc(x / 3)) == acsc(Symbol("x") / 3)
    assert sympify(sympy.asec(x / 3)) == asec(Symbol("x") / 3)
Exemplo n.º 4
0
def test_conv7b():
    x = sympy.Symbol("x")
    y = sympy.Symbol("y")
    assert sympify(sympy.sin(x/3)) == sin(Symbol("x") / 3)
    assert sympify(sympy.sin(x/3)) != cos(Symbol("x") / 3)
    assert sympify(sympy.cos(x/3)) == cos(Symbol("x") / 3)
    assert sympify(sympy.tan(x/3)) == tan(Symbol("x") / 3)
    assert sympify(sympy.cot(x/3)) == cot(Symbol("x") / 3)
    assert sympify(sympy.csc(x/3)) == csc(Symbol("x") / 3)
    assert sympify(sympy.sec(x/3)) == sec(Symbol("x") / 3)
    assert sympify(sympy.asin(x/3)) == asin(Symbol("x") / 3)
    assert sympify(sympy.acos(x/3)) == acos(Symbol("x") / 3)
    assert sympify(sympy.atan(x/3)) == atan(Symbol("x") / 3)
    assert sympify(sympy.acot(x/3)) == acot(Symbol("x") / 3)
    assert sympify(sympy.acsc(x/3)) == acsc(Symbol("x") / 3)
    assert sympify(sympy.asec(x/3)) == asec(Symbol("x") / 3)