.\" Copyright 2002 Walter Harms (walter.harms@informatik.uni-oldenburg.de) .\" and Copyright 2008, Linux Foundation, written by Michael Kerrisk .\" .\" .\" SPDX-License-Identifier: GPL-1.0-or-later .\" .\" based on glibc infopages .\" .TH lgamma 3 2023-10-31 "Linux man-pages 6.7" .SH NAME lgamma, lgammaf, lgammal, lgamma_r, lgammaf_r, lgammal_r, signgam \- log gamma function .SH LIBRARY Math library .RI ( libm ", " \-lm ) .SH SYNOPSIS .nf .B #include .P .BI "double lgamma(double " x ); .BI "float lgammaf(float " x ); .BI "long double lgammal(long double " x ); .P .BI "double lgamma_r(double " x ", int *" signp ); .BI "float lgammaf_r(float " x ", int *" signp ); .BI "long double lgammal_r(long double " x ", int *" signp ); .P .BI "extern int " signgam ; .fi .P .RS -4 Feature Test Macro Requirements for glibc (see .BR feature_test_macros (7)): .RE .P .nf .BR lgamma (): _ISOC99_SOURCE || _POSIX_C_SOURCE >= 200112L || _XOPEN_SOURCE || /* Since glibc 2.19: */ _DEFAULT_SOURCE || /* glibc <= 2.19: */ _BSD_SOURCE || _SVID_SOURCE .fi .P .BR lgammaf (), .BR lgammal (): .nf _ISOC99_SOURCE || _POSIX_C_SOURCE >= 200112L || /* Since glibc 2.19: */ _DEFAULT_SOURCE || /* glibc <= 2.19: */ _BSD_SOURCE || _SVID_SOURCE .fi .P .BR lgamma_r (), .BR lgammaf_r (), .BR lgammal_r (): .nf /* Since glibc 2.19: */ _DEFAULT_SOURCE || /* glibc <= 2.19: */ _BSD_SOURCE || _SVID_SOURCE .fi .P .IR signgam : .nf _XOPEN_SOURCE || /* Since glibc 2.19: */ _DEFAULT_SOURCE || /* glibc <= 2.19: */ _BSD_SOURCE || _SVID_SOURCE .fi .SH DESCRIPTION For the definition of the Gamma function, see .BR tgamma (3). .P The .BR lgamma (), .BR lgammaf (), and .BR lgammal () functions return the natural logarithm of the absolute value of the Gamma function. The sign of the Gamma function is returned in the external integer .I signgam declared in .IR . It is 1 when the Gamma function is positive or zero, \-1 when it is negative. .P Since using a constant location .I signgam is not thread-safe, the functions .BR lgamma_r (), .BR lgammaf_r (), and .BR lgammal_r () have been introduced; they return the sign via the argument .IR signp . .SH RETURN VALUE On success, these functions return the natural logarithm of Gamma(x). .P If .I x is a NaN, a NaN is returned. .P If .I x is 1 or 2, +0 is returned. .P If .I x is positive infinity or negative infinity, positive infinity is returned. .P If .I x is a nonpositive integer, a pole error occurs, and the functions return .RB + HUGE_VAL , .RB + HUGE_VALF , or .RB + HUGE_VALL , respectively. .P If the result overflows, a range error occurs, .\" e.g., lgamma(DBL_MAX) and the functions return .BR HUGE_VAL , .BR HUGE_VALF , or .BR HUGE_VALL , respectively, with the correct mathematical sign. .SH ERRORS See .BR math_error (7) for information on how to determine whether an error has occurred when calling these functions. .P The following errors can occur: .TP Pole error: \fIx\fP is a nonpositive integer .I errno is set to .B ERANGE (but see BUGS). A divide-by-zero floating-point exception .RB ( FE_DIVBYZERO ) is raised. .TP Range error: result overflow .I errno is set to .BR ERANGE . An overflow floating-point exception .RB ( FE_OVERFLOW ) is raised. .\" glibc (as at 2.8) also supports an inexact .\" exception for various cases. .SH STANDARDS .TP .BR lgamma () .TQ .BR lgammaf () .TQ .BR lgammal () C11, POSIX.1-2008. .TP .I signgam POSIX.1-2008. .TP .BR lgamma_r () .TQ .BR lgammaf_r () .TQ .BR lgammal_r () None. .SH HISTORY .TP .BR lgamma () .TQ .BR lgammaf () .TQ .BR lgammal () C99, POSIX.1-2001. .TP .I signgam POSIX.1-2001. .TP .BR lgamma_r () .TQ .BR lgammaf_r () .TQ .BR lgammal_r () None. .SH BUGS In glibc 2.9 and earlier, .\" https://www.sourceware.org/bugzilla/show_bug.cgi?id=6777 when a pole error occurs, .I errno is set to .BR EDOM ; instead of the POSIX-mandated .BR ERANGE . Since glibc 2.10, glibc does the right thing. .SH SEE ALSO .BR tgamma (3)