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Showing content from https://timsong-cpp.github.io/cppwp/n4659/complex.transcendentals below:

[complex.transcendentals]

template<class T> complex<T> acos(const complex<T>& x);

Returns: The complex arc cosine of x.

Remarks: Behaves the same as C function cacos, defined in 7.3.5.1.

template<class T> complex<T> asin(const complex<T>& x);

Returns: The complex arc sine of x.

Remarks: Behaves the same as C function casin, defined in 7.3.5.2.

template<class T> complex<T> atan(const complex<T>& x);

Returns: The complex arc tangent of x.

Remarks: Behaves the same as C function catan, defined in 7.3.5.3.

template<class T> complex<T> acosh(const complex<T>& x);

Returns: The complex arc hyperbolic cosine of x.

Remarks: Behaves the same as C function cacosh, defined in 7.3.6.1.

template<class T> complex<T> asinh(const complex<T>& x);

Returns: The complex arc hyperbolic sine of x.

Remarks: Behaves the same as C function casinh, defined in 7.3.6.2.

template<class T> complex<T> atanh(const complex<T>& x);

Returns: The complex arc hyperbolic tangent of x.

Remarks: Behaves the same as C function catanh, defined in 7.3.6.3.

template<class T> complex<T> cos(const complex<T>& x);

Returns: The complex cosine of x.

template<class T> complex<T> cosh(const complex<T>& x);

Returns: The complex hyperbolic cosine of x.

template<class T> complex<T> exp(const complex<T>& x);

Returns: The complex base-e exponential of x.

template<class T> complex<T> log(const complex<T>& x);

Returns: The complex natural (base-e) logarithm of x. For all x, imag(log(x)) lies in the interval [−π, π], and when x is a negative real number, imag(log(x)) is π.

Remarks: The branch cuts are along the negative real axis.

template<class T> complex<T> log10(const complex<T>& x);

Returns: The complex common (base-10) logarithm of x, defined as log(x) / log(10).

Remarks: The branch cuts are along the negative real axis.

template<class T> complex<T> pow(const complex<T>& x, const complex<T>& y); template<class T> complex<T> pow(const complex<T>& x, const T& y); template<class T> complex<T> pow(const T& x, const complex<T>& y);

Returns: The complex power of base x raised to the yth power, defined as exp(y * log(x)). The value returned for pow(0, 0) is implementation-defined.

Remarks: The branch cuts are along the negative real axis.

template<class T> complex<T> sin(const complex<T>& x);

Returns: The complex sine of x.

template<class T> complex<T> sinh(const complex<T>& x);

Returns: The complex hyperbolic sine of x.

template<class T> complex<T> sqrt(const complex<T>& x);

Returns: The complex square root of x, in the range of the right half-plane. If the argument is a negative real number, the value returned lies on the positive imaginary axis.

Remarks: The branch cuts are along the negative real axis.

template<class T> complex<T> tan(const complex<T>& x);

Returns: The complex tangent of x.

template<class T> complex<T> tanh(const complex<T>& x);

Returns: The complex hyperbolic tangent of x.

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