AutoMath¶

Note

All Chapel programs automatically use this module by default. An explicit use statement is not necessary.

This module provides mathematical constants and functions.

It includes wrappers for many of the constants and functions in the C Math library, which is part of the C Language Standard (ISO/IEC 9899) as described in Section 7.12. Please consult that standard for an authoritative description of the expected properties of those constants and routines.

In general, where the C math library provides a double and a float version of a function, the float version has a suffix ‘f’. In the Chapel interface, the suffix is dropped, and the type of the operand determines which version is called – according to the usual function overloading and resolution rules. Normally, the result has the same precision as the argument(s). Please consult the C standard for specifics.

Rounding – The rounding mode for floating-point addition (subtraction) is implementation-defined.

Error Handling – At present, Chapel does not provide control over error handling in the AutoMath module. The default behavior is as if the macro math_errhandling is set to 0: Given erroneous input at run-time, all math functions will return an implementation-defined value; no exception will be generated.

Roots¶

cbrt sqrt

Rounding¶

ceil divceil divceilpos divfloor divfloorpos floor nearbyint rint round trunc

Computations Involving Complex Numbers¶

carg conjg cproj

Infinity and NaN¶

INFINITY NAN isfinite isinf isnan

Comparison Functions¶

max min isclose

Sign Functions¶

sgn signbit

Remaining Functions¶

abs mod

Constant and Function Definitions¶

proc abs(i: int(?w))¶

Returns the absolute value of the integer argument.

Return type: The type of i.

proc abs(i: uint(?w))

Returns the absolute value of the unsigned integer argument.

Return type: The type of i.

proc abs(param i: integral) param: Returns the absolute value of the integer param argument i.

proc abs(r: real(64)): real(64): Returns the magnitude of the real argument r.

proc abs(x: real(32)): real(32): Returns the magnitude of the real argument x.

proc abs(im: imag(64)): real(64): Returns the real magnitude of the imaginary argument im.

proc abs(im: imag(32)): real(32): Returns the real magnitude of the imaginary argument im.

proc abs(z: complex(?w)): real(w/2)

Returns the magnitude (often called modulus) of complex z.

In concert with the related carg, the phase (a.k.a. argument) of z, it can be used to recompute z.

Return type: real(w/2) when z has a type of complex(w).

proc carg(z: complex(?w)): real(w/2)¶

Returns the phase (often called argument) of complex z, an angle (in radians).

In concert with the related abs, the magnitude (a.k.a. modulus) of z, it can be used to recompute z.

Return type: real(w/2) when z has a type of complex(w).

proc acos(x: real(64)): real(64)¶

Returns the arc cosine of the argument x.

It is an error if x is less than -1 or greater than 1.

Warning

In an upcoming release ‘acos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acos(x: real(32)): real(32)

Returns the arc cosine of the argument x.

It is an error if x is less than -1 or greater than 1.

Warning

In an upcoming release ‘acos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acos(z: complex(64)): complex(64): Returns the arc cosine of the argument z.

Warning

In an upcoming release ‘acos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acos(z: complex(128)): complex(128): Returns the arc cosine of the argument z.

Warning

In an upcoming release ‘acos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acosh(x: real(64)): real(64)¶

Returns the inverse hyperbolic cosine of the argument x.

It is an error if x is less than 1.

Warning

In an upcoming release ‘acosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acosh(x: real(32)): real(32)

Returns the inverse hyperbolic cosine of the argument x.

It is an error if x is less than 1.

Warning

In an upcoming release ‘acosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acosh(z: complex(64)): complex(64): Returns the inverse hyperbolic cosine of the argument z.

Warning

In an upcoming release ‘acosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc acosh(z: complex(128)): complex(128): Returns the inverse hyperbolic cosine of the argument z.

Warning

In an upcoming release ‘acosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asin(x: real(64)): real(64)¶

Returns the arc sine of the argument x.

It is an error if x is less than -1 or greater than 1.

Warning

In an upcoming release ‘asin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asin(x: real(32)): real(32)

Returns the arc sine of the argument x.

It is an error if x is less than -1 or greater than 1.

Warning

In an upcoming release ‘asin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asin(z: complex(64)): complex(64): Returns the arc sine of the argument z.

Warning

In an upcoming release ‘asin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asin(z: complex(128)): complex(128): Returns the arc sine of the argument z.

Warning

In an upcoming release ‘asin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asinh(x: real(64)): real(64)¶: Returns the inverse hyperbolic sine of the argument x.

Warning

In an upcoming release ‘asinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asinh(x: real(32)): real(32): Returns the inverse hyperbolic sine of the argument x.

Warning

In an upcoming release ‘asinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asinh(z: complex(64)): complex(64): Returns the inverse hyperbolic sine of the argument z.

Warning

In an upcoming release ‘asinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc asinh(z: complex(128)): complex(128): Returns the inverse hyperbolic sine of the argument z.

Warning

In an upcoming release ‘asinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atan(x: real(64)): real(64)¶: Returns the arc tangent of the argument x.

Warning

In an upcoming release ‘atan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atan(x: real(32)): real(32): Returns the arc tangent of the argument x.

Warning

In an upcoming release ‘atan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atan(z: complex(64)): complex(64): Returns the arc tangent of the argument z.

Warning

In an upcoming release ‘atan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atan(z: complex(128)): complex(128): Returns the arc tangent of the argument z.

Warning

In an upcoming release ‘atan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atan2(y: real(64), x: real(64)): real(64)¶

Returns the arc tangent of the ratio of the two arguments.

This is equivalent to the arc tangent of y / x except that the signs of y and x are used to determine the quadrant of the result.

Warning

In an upcoming release ‘atan2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atan2(y: real(32), x: real(32)): real(32)

Returns the arc tangent of the two arguments.

This is equivalent to the arc tangent of y / x except that the signs of y and x are used to determine the quadrant of the result.

Warning

In an upcoming release ‘atan2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atanh(x: real(64)): real(64)¶

Returns the inverse hyperbolic tangent of the argument x.

It is an error if x is less than -1 or greater than 1.

Warning

In an upcoming release ‘atanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atanh(x: real(32)): real(32)

Returns the inverse hyperbolic tangent of the argument x.

It is an error if x is less than -1 or greater than 1.

Warning

In an upcoming release ‘atanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atanh(z: complex(64)): complex(64): Returns the inverse hyperbolic tangent of the argument z.

Warning

In an upcoming release ‘atanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc atanh(z: complex(128)): complex(128): Returns the inverse hyperbolic tangent of the argument z.

Warning

In an upcoming release ‘atanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cbrt(x: real(64)): real(64)¶: Returns the cube root of the argument x.

proc cbrt(x: real(32)): real(32): Returns the cube root of the argument x.

proc ceil(x: real(64)): real(64)¶: Returns the value of the argument x rounded up to the nearest integer.

proc ceil(x: real(32)): real(32): Returns the value of the argument x rounded up to the nearest integer.

proc conjg(z: complex(?w))¶

Returns the complex conjugate of the complex argument z.

Return type: A complex number of the same type as z.

proc conjg(z: imag(?w))

Returns the complex conjugate of the imaginary argument z.

Return type: An imaginary number of the same type as z.

proc conjg(z: int(?w))

Returns the argument z.

Return type: A number that is not complex or imaginary of the same type as z.

proc conjg(z: uint(?w))

proc conjg(z: real(?w))

proc cproj(z: complex(?w)): complex(w)¶: Returns the projection of z on a Riemann sphere.

proc cos(x: real(64)): real(64)¶: Returns the cosine of the argument x.

Warning

In an upcoming release ‘cos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cos(x: real(32)): real(32): Returns the cosine of the argument x.

Warning

In an upcoming release ‘cos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cos(z: complex(64)): complex(64): Returns the cosine of the argument z.

Warning

In an upcoming release ‘cos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cos(z: complex(128)): complex(128): Returns the cosine of the argument z.

Warning

In an upcoming release ‘cos’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cosh(x: real(64)): real(64)¶: Returns the hyperbolic cosine of the argument x.

Warning

In an upcoming release ‘cosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cosh(x: real(32)): real(32): Returns the hyperbolic cosine of the argument x.

Warning

In an upcoming release ‘cosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cosh(z: complex(64)): complex(64): Returns the hyperbolic cosine of the argument z.

Warning

In an upcoming release ‘cosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc cosh(z: complex(128)): complex(128): Returns the hyperbolic cosine of the argument z.

Warning

In an upcoming release ‘cosh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc divceil(param m: integral, param n: integral) param¶

Returns ceil(m/n), i.e., the fraction m/n rounded up to the nearest integer.

If the arguments are of unsigned type, then fewer conditionals will be evaluated at run time.

proc divceil(m: integral, n: integral)

Returns ceil(m/n), i.e., the fraction m/n rounded up to the nearest integer.

If the arguments are of unsigned type, then fewer conditionals will be evaluated at run time.

proc divceilpos(m: integral, n: integral)¶: A variant of divceil that performs no runtime checks. The user must ensure that both arguments are strictly positive (not 0) and are of a signed integer type (not uint).

proc divfloor(param m: integral, param n: integral) param¶

Returns floor(m/n), i.e., the fraction m/n rounded down to the nearest integer.

If the arguments are of unsigned type, then fewer conditionals will be evaluated at run time.

proc divfloor(m: integral, n: integral)

Returns floor(m/n), i.e., the fraction m/n rounded down to the nearest integer.

If the arguments are of unsigned type, then fewer conditionals will be evaluated at run time.

proc divfloorpos(m: integral, n: integral)¶: A variant of divfloor that performs no runtime checks. The user must ensure that both arguments are strictly positive (not 0) and are of a signed integer type (not uint).

proc erf(x: real(64)): real(64)¶: Warning

In an upcoming release ‘erf’ will no longer be included by default, please ‘use’ or ‘import’ the ‘Math’ module to call it

proc erf(x: real(32)): real(32): Warning

In an upcoming release ‘erf’ will no longer be included by default, please ‘use’ or ‘import’ the ‘Math’ module to call it

proc erfc(x: real(64)): real(64)¶: Warning

In an upcoming release ‘erfc’ will no longer be included by default, please ‘use’ or ‘import’ the ‘Math’ module to call it

proc erfc(x: real(32)): real(32): Warning

In an upcoming release ‘erfc’ will no longer be included by default, please ‘use’ or ‘import’ the ‘Math’ module to call it

proc exp(x: real(64)): real(64)¶: Returns the value of the Napierian e raised to the power of the argument x.

Warning

In an upcoming release ‘exp’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc exp(x: real(32)): real(32): Returns the value of the Napierian e raised to the power of the argument.

Warning

In an upcoming release ‘exp’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc exp(z: complex(64)): complex(64): Returns the value of the Napierian e raised to the power of the argument.

Warning

In an upcoming release ‘exp’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc exp(z: complex(128)): complex(128): Returns the value of the Napierian e raised to the power of the argument.

Warning

In an upcoming release ‘exp’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc exp2(x: real(64)): real(64)¶: Returns the value of 2 raised to the power of the argument x.

Warning

In an upcoming release ‘exp2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc exp2(x: real(32)): real(32): Returns the value of 2 raised to the power of the argument x.

Warning

In an upcoming release ‘exp2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc expm1(x: real(64)): real(64)¶: Returns one less than the value of the Napierian e raised to the power of the argument x.

Warning

In an upcoming release ‘expm1’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc expm1(x: real(32)): real(32): Returns one less than the value of the Napierian e raised to the power of the argument x.

Warning

In an upcoming release ‘expm1’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc floor(x: real(64)): real(64)¶: Returns the value of the argument x rounded down to the nearest integer.

proc floor(x: real(32)): real(32): Returns the value of the argument x rounded down to the nearest integer.

proc INFINITY param: real(64)¶: Returns a value for which isinf will return true.

proc isfinite(x: real(64)): bool¶: Returns true if the argument x is a representation of a finite value; false otherwise.

proc isfinite(x: real(32)): bool: Returns true if the argument x is a representation of a finite value; false otherwise.

proc isinf(x: real(64)): bool¶: Returns true if the argument x is a representation of infinity; false otherwise.

proc isinf(x: real(32)): bool: Returns true if the argument x is a representation of infinity; false otherwise.

proc isnan(x: real(64)): bool¶: Returns true if the argument x does not represent a valid number; false otherwise.

proc isnan(x: real(32)): bool: Returns true if the argument x does not represent a valid number; false otherwise.

proc ldexp(x: real(64), n: int(32)): real(64)¶: Warning

In an upcoming release ‘ldexp’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc ldexp(x: real(32), n: int(32)): real(32): Warning

In an upcoming release ‘ldexp’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc lgamma(x: real(64)): real(64)¶: Warning

In an upcoming release ‘lgamma’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc lgamma(x: real(32)): real(32): Warning

In an upcoming release ‘lgamma’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log(x: real(64)): real(64)¶

Returns the natural logarithm of the argument x.

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log(x: real(32)): real(32)

Returns the natural logarithm of the argument x.

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log(z: complex(64)): complex(64): Returns the natural logarithm of the argument z.

Warning

In an upcoming release ‘log’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log(z: complex(128)): complex(128): Returns the natural logarithm of the argument z.

Warning

In an upcoming release ‘log’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log10(x: real(64)): real(64)¶

Returns the base 10 logarithm of the argument x.

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log10’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log10(x: real(32)): real(32)

Returns the base 10 logarithm of the argument x.

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log10’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log2(x: real(64)): real(64)¶

Returns the base 2 logarithm of the argument x.

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log2(x: real(32)): real(32)

Returns the base 2 logarithm of the argument x.

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log2(val: int(?w))

Returns the base 2 logarithm of the argument x, rounded down.

Return type: int

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc log2(val: uint(?w))

Returns the base 2 logarithm of the argument x, rounded down.

Return type: int

It is an error if x is less than or equal to zero.

Warning

In an upcoming release ‘log2’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc max(x, y)¶

Returns the maximum value of two arguments using the > operator for comparison. If one of the arguments is AutoMath.NAN, the result is also NAN.

Return type: The type of x.

proc max(x, y, z ...?k): Returns the maximum value of 3 or more arguments using the above call.

proc max(param x: numeric, param y: numeric) param: Returns the maximum of 2 param int, uint, real, or imag values as a param.

proc min(x, y)¶

Returns the minimum value of two arguments using the < operator for comparison.

If one of the arguments is AutoMath.NAN, the result is also NAN.

Return type: The type of x.

proc min(x, y, z ...?k): Returns the minimum value of 3 or more arguments using the above call.

proc min(param x: numeric, param y: numeric) param: Returns the minimum of 2 param int, uint, real, or imag values as a param.

proc mod(param m: integral, param n: integral) param¶

Computes the mod operator on the two arguments, defined as mod(m,n) = m - n * floor(m / n).

The result is always >= 0 if n > 0. It is an error if n == 0.

proc mod(m: integral, n: integral)

Computes the mod operator on the two arguments, defined as mod(m,n) = m - n * floor(m / n).

If the arguments are of unsigned type, then fewer conditionals will be evaluated at run time.

The result is always >= 0 if n > 0. It is an error if n == 0.

proc mod(x: real(32), y: real(32)): real(32): Computes the mod operator on the two numbers, defined as mod(x,y) = x - y * floor(x / y).

proc mod(x: real(64), y: real(64)): real(64): Computes the mod operator on the two numbers, defined as mod(x,y) = x - y * floor(x / y).

proc NAN param: real(64)¶: Returns a value for which isnan will return true.

proc nearbyint(x: real(64)): real(64)¶: Returns the rounded integral value of the argument x determined by the current rounding direction. nearbyint will not raise the “inexact” floating-point exception.

proc nearbyint(x: real(32)): real(32): Returns the rounded integral value of the argument x determined by the current rounding direction. nearbyint will not raise the “inexact” floating-point exception.

proc rint(x: real(64)): real(64)¶: Returns the rounded integral value of the argument x determined by the current rounding direction. rint may raise the “inexact” floating-point exception.

proc rint(x: real(32)): real(32): Returns the rounded integral value of the argument x determined by the current rounding direction. rint may raise the “inexact” floating-point exception.

proc round(x: real(64)): real(64)¶: Returns the nearest integral value of the argument x, returning that value which is larger than x in absolute value for the half-way case.

proc round(x: real(32)): real(32): Returns the nearest integral value of the argument x, returning that value which is larger than x in absolute value for the half-way case.

proc sgn(i: int(?w)): int(8)¶: Returns the signum function of the integer argument i: 1 if positive, -1 if negative, 0 if zero.

proc sgn(i: uint(?w)): uint(8): Returns the signum function of the unsigned integer argument i: 1 if positive, -1 if negative, 0 if zero.

proc sgn(param i: integral) param: Returns the signum function of the integer param argument i: 1 if positive, -1 if negative, 0 if zero.

proc sgn(x: real(?w)): int(8): Returns the signum function of the real argument x: 1 if positive, -1 if negative, 0 if zero.

proc sin(x: real(64)): real(64)¶: Returns the sine of the argument x.

Warning

In an upcoming release ‘sin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sin(x: real(32)): real(32): Returns the sine of the argument x.

Warning

In an upcoming release ‘sin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sin(z: complex(64)): complex(64): Returns the sine of the argument z.

Warning

In an upcoming release ‘sin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sin(z: complex(128)): complex(128): Returns the sine of the argument z.

Warning

In an upcoming release ‘sin’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sinh(x: real(64)): real(64)¶: Returns the hyperbolic sine of the argument x.

Warning

In an upcoming release ‘sinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sinh(x: real(32)): real(32): Returns the hyperbolic sine of the argument x.

Warning

In an upcoming release ‘sinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sinh(z: complex(64)): complex(64): Returns the hyperbolic sine of the argument z.

Warning

In an upcoming release ‘sinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sinh(z: complex(128)): complex(128): Returns the hyperbolic sine of the argument z.

Warning

In an upcoming release ‘sinh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc sqrt(x: real(64)): real(64)¶

Returns the square root of the argument x.

It is an error if the x is less than zero.

proc sqrt(x: real(32)): real(32)

Returns the square root of the argument x.

It is an error if x is less than zero.

proc sqrt(z: complex(64)): complex(64): Returns the square root of the argument z.

proc sqrt(z: complex(128)): complex(128): Returns the square root of the argument z.

proc tan(x: real(64)): real(64)¶: Returns the tangent of the argument x.

Warning

In an upcoming release ‘tan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tan(x: real(32)): real(32): Returns the tangent of the argument x.

Warning

In an upcoming release ‘tan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tan(z: complex(64)): complex(64): Returns the tangent of the argument z.

Warning

In an upcoming release ‘tan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tan(z: complex(128)): complex(128): Returns the tangent of the argument z.

Warning

In an upcoming release ‘tan’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tanh(x: real(64)): real(64)¶: Returns the hyperbolic tangent of the argument x.

Warning

In an upcoming release ‘tanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tanh(x: real(32)): real(32): Returns the hyperbolic tangent of the argument x.

Warning

In an upcoming release ‘tanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tanh(z: complex(64)): complex(64): Returns the hyperbolic tangent of the argument z.

Warning

In an upcoming release ‘tanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tanh(z: complex(128)): complex(128): Returns the hyperbolic tangent of the argument z.

Warning

In an upcoming release ‘tanh’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tgamma(x: real(64)): real(64)¶: Warning

In an upcoming release ‘tgamma’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc tgamma(x: real(32)): real(32): Warning

In an upcoming release ‘tgamma’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc trunc(x: real(64)): real(64)¶: Returns the nearest integral value to the argument x that is not larger than x in absolute value.

proc trunc(x: real(32)): real(32): Returns the nearest integral value to the argument x that is not larger than x in absolute value.

proc gcd(in a: int, in b: int): int¶: Returns the greatest common divisor of the integer argument a and b.

Warning

In an upcoming release ‘gcd’ will no longer be included by default, please ‘use’ or ‘import’ the Math module to call it

proc isclose(x, y, rtol = 1e-5, atol = 0.0): bool¶: Returns true if x and y are approximately equal, else returns false.

proc signbit(x: real(32)): bool¶: Returns true if the sign of x is negative, else returns false. It detects the sign bit of zeroes, infinities, and NANs

proc signbit(x: real(64)): bool: Returns true if the sign of x is negative, else returns false. It detects the sign bit of zeroes, infinities, and NANs