C mathematical functions
Lua error in package.lua at line 80: module 'strict' not found. C mathematical operations are a group of functions in the standard library of the C programming language implementing basic mathematical functions.[1][2] All functions use floating point numbers in one manner or another. Different C standards provide different, albeit backwards-compatible, sets of functions. Most of these functions are also available in the C++ standard library, though in different headers (the C headers are included as well, but only as a deprecated compatibility feature).
Contents
Overview of functions
Most of the mathematical functions are defined in math.h (cmath header in C++). The functions that operate on integers, such as abs, labs, div, and ldiv, are instead defined in the stdlib.h header (cstdlib header in C++).
Any functions that operate on angles use radians as the unit of angle.[1]
Not all of these functions are available in the C89 version of the standard. For those that are, the functions accept only type double for the floating-point arguments, leading to expensive type conversions in code that otherwise used single-precision float values. In C99, this shortcoming was fixed by introducing new sets of functions that work on float and long double arguments. Those functions are identified by f and l suffixes respectively.[3]
| Function | Description | |
|---|---|---|
abslabsllabs |
computes absolute value of an integer value | |
fabs |
computes absolute value of a floating point value | |
divldivlldiv |
computes the quotient and remainder of integer division | |
fmod |
remainder of the floating point division operation | |
remainder |
signed remainder of the division operation | |
remquo |
signed remainder as well as the three last bits of the division operation | |
fma |
fused multiply-add operation | |
fmax |
larger of two floating point values | |
fmin |
smaller of two floating point values | |
fdim |
positive difference of two floating point values | |
nannanfnanl |
returns a not-a-number (NaN) | |
| Exponential functions |
exp |
returns e raised to the given power |
exp2 |
returns 2 raised to the given power | |
expm1 |
returns e raised to the given power, minus one | |
log |
computes natural logarithm (to base e) | |
log2 |
computes binary logarithm (to base 2) | |
log10 |
computes common logarithm (to base 10) | |
log1p |
computes natural logarithm (to base e) of 1 plus the given number | |
ilogb |
extracts exponent of the number | |
logb |
extracts exponent of the number | |
| Power functions |
sqrt |
computes square root |
cbrt |
computes cubic root | |
hypot |
computes square root of the sum of the squares of two given numbers | |
pow |
raises a number to the given power | |
| Trigonometric functions |
sin |
computes sine |
cos |
computes cosine | |
tan |
computes tangent | |
asin |
computes arc sine | |
acos |
computes arc cosine | |
atan |
computes arc tangent | |
atan2 |
computes arc tangent, using signs to determine quadrants | |
| Hyperbolic functions |
sinh |
computes hyperbolic sine |
cosh |
computes hyperbolic cosine | |
tanh |
computes hyperbolic tangent | |
asinh |
computes hyperbolic arc sine | |
acosh |
computes hyperbolic arc cosine | |
atanh |
computes hyperbolic arc tangent | |
| Error and gamma functions |
erf |
computes error function |
erfc |
computes complementary error function | |
lgamma |
computes natural logarithm of the gamma function | |
tgamma |
computes gamma function | |
| Nearest integer floating point operations |
ceil |
returns the nearest integer not less than the given value |
floor |
returns the nearest integer not greater than the given value | |
trunc |
returns the nearest integer not greater in magnitude than the given value | |
roundlroundllround |
returns the nearest integer, rounding away from zero in halfway cases | |
nearbyint |
returns the nearest integer using current rounding mode | |
rintlrintllrint |
returns the nearest integer using current rounding mode with exception if the result differs | |
| Floating point manipulation functions |
frexp |
decomposes a number into significand and a power of 2 |
ldexp |
multiplies a number by 2 raised to a power | |
modf |
decomposes a number into integer and fractional parts | |
scalbnscalbln |
multiplies a number by FLT_RADIX raised to a power | |
nextafternexttoward |
returns next representable floating point value towards the given value | |
copysign |
copies the sign of a floating point value | |
| Classification | fpclassify |
categorizes the given floating point value |
isfinite |
checks if the given number has finite value | |
isinf |
checks if the given number is infinite | |
isnan |
checks if the given number is NaN | |
isnormal |
checks if the given number is normal | |
signbit |
checks if the given number is negative |
Floating point environment
C99 adds several functions and types for fine-grained control of floating point environment.[3] These functions can be used to control a variety of settings that affect floating-point computations, for example, the rounding mode, on what conditions exceptions occur, when numbers are flushed to zero, etc. The floating point environment functions and types are defined in fenv.h header (cfenv in C++).
| Function | Description |
|---|---|
feclearexcept |
clears exceptions (C99) |
fegetenv |
stores current floating-point environment (C99) |
fegetexceptflag |
stores current status flags (C99) |
fegetround |
retrieves current rounding direction (C99) |
feholdexcept |
saves current floating-point environment and clears all exceptions (C99) |
feraiseexcept |
raises a floating-point exception (C99) |
fesetenv |
sets current floating-point environment (C99) |
fesetexceptflag |
sets current status flags (C99) |
fesetround |
sets current rounding direction (C99) |
fetestexcept |
tests whether certain exceptions have been raised (C99) |
feupdateenv |
restores floating-point environment, but keeps current exceptions (C99) |
Complex numbers
C99 adds a new _Complex keyword (and complex convenience macro) that provides support for complex numbers. Any floating point type can be modified with complex, and is then defined as a pair of floating point numbers. Note that C99 and C++ do not implement complex numbers in a code-compatible way - the latter instead provides the class std::complex.
All operations on complex numbers are defined in complex.h header. As with the real-valued functions, an f or l suffix denotes the float complex or long double complex variant of the function.
| Function | Description | |
|---|---|---|
| Basic operations |
cabs |
computes absolute value (C99) |
carg |
computes argument of a complex number (C99) | |
cimag |
computes imaginary part of a complex number (C99) | |
creal |
computes real part of a complex number (C99) | |
|
computes complex conjugate (C99) | |
cproj |
computes complex projection into the Riemann sphere (C99) | |
| Exponentiation operations |
cexp |
computes complex exponential (C99) |
clog |
computes complex logarithm (C99) | |
csqrt |
computes complex square root (C99) | |
cpow |
computes complex power (C99) | |
| Trigonometric operations |
csin |
computes complex sine (C99) |
ccos |
computes complex cosine (C99) | |
ctan |
computes complex tangent (C99) | |
casin |
computes complex arc sine (C99) | |
cacos |
computes complex arc cosine (C99) | |
catan |
computes complex arc tangent (C99) | |
| Hyperbolic operations |
csinh |
computes complex hyperbolic sine (C99) |
ccosh |
computes complex hyperbolic cosine (C99) | |
ctanh |
computes complex hyperbolic tangent (C99) | |
casinh |
computes complex hyperbolic arc sine (C99) | |
cacosh |
computes complex hyperbolic arc cosine (C99) | |
catanh |
computes complex hyperbolic arc tangent (C99) |
A few more complex functions are "reserved for future use in C99".[4] Implementations are provided by open-source projects that are not part of the standard library.
| Function | Description | |
|---|---|---|
| Error functions | cerf |
computes the complex error function (C99) |
cerfc |
computes the complex complementary error function (C99) |
Type-generic functions
The header tgmath.h defines a type-generic macro for each mathematical function defined in math.h and complex.h. This adds a limited support for function overloading of the mathematical functions: the same function name can be used with different types of parameters; the actual function will be selected at compile-time according to the types of the parameters.
Each type-generic macro that corresponds to a function that is defined for both real and complex numbers encapsulates a total of 6 different functions: float, double and long double, and their complex variants. The type-generic macros that correspond to a function that is defined for only real numbers encapsulates a total of 3 different functions: float, double and long double variants of the function.
The C++ language includes native support for function overloading and thus does not provide the tgmath.h header even as a compatibility feature.
Random number generation
The header stdlib.h (cstdlib in C++) defines several functions that can be used for statistically random number generation.[5]
| Function | Description |
|---|---|
rand |
generates a pseudo-random number |
srand |
initializes a pseudo-random number generator |
libm
Under Linux and FreeBSD, the mathematical functions (as declared in math.h) are bundled separately in the mathematical library libm. Therefore, if any of those functions are used, the linker must be given the directive -lm.
There are various libm implementations, including:
- GNU libc's libm
- AMD's libm
- Red Hat's libm
- Sun's FDLIBM, which was used as the basis for FreeBSD's msun, which in turn is the basis of Julia's OpenLibm
- Arénaire project's CRlibm (Correctly Rounded libm)
See also
References
- ↑ 1.0 1.1 Lua error in package.lua at line 80: module 'strict' not found.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
- ↑ 3.0 3.1 Lua error in package.lua at line 80: module 'strict' not found.
- ↑ man cerf(3), man cerfc(3), see e.g. http://linux.die.net/man/3/cerf.
- ↑ Lua error in package.lua at line 80: module 'strict' not found.
External links
 |
The Wikibook C Programming has a page on the topic of: C Programming/C Reference |
- : mathematical declarations – Base Definitions Reference, The Single UNIX® Specification, Issue 7 from The Open Group
- C reference for math functions
| C features | |
|---|---|
| C standard library functions | |
| C standard libraries | |
| Compilers | |
| IDEs | |
| C and other languages | |
| Descendant languages | |
