NAME

    GCC::Builtins - access GCC compiler builtin functions via XS

VERSION

    Version 0.05

SYNOPSIS

    This module provides Perl access to GCC C compiler builtin functions.

        use GCC::Builtins qw/:all/;
        # or use GCC::Builtins qw/ ... clz ... /;
        my $leading_zeros = GCC::Builtins::clz(10);
        # 28

EXPORT

      * uint16_t bswap16(uint16_t)

      * uint32_t bswap32(uint32_t)

      * uint64_t bswap64(uint64_t)

      * int clrsb(int)

      * int clrsbl(long)

      * int clrsbll(long long)

      * int clz(unsigned int)

      * int clzl(unsigned long)

      * int clzll(unsigned long long)

      * int ctz(unsigned int)

      * int ctzl(unsigned long)

      * int ctzll(unsigned long long)

      * int ffs(int)

      * int ffsl(long)

      * int ffsll(long long)

      * double huge_val()

      * float huge_valf()

      * long double huge_vall()

      * double inf()

      * _Decimal128 infd128()

      * _Decimal32 infd32()

      * _Decimal64 infd64()

      * float inff()

      * long double infl()

      * double nan(const char)

      * float nanf(const char)

      * long double nanl(const char)

      * int parity(unsigned int)

      * int parityl(unsigned long)

      * int parityll(unsigned long long)

      * int popcount(unsigned int)

      * int popcountl(unsigned long)

      * int popcountll(unsigned long long)

      * double powi(double,int)

      * float powif(float,int)

      * long double powil(long double,int)

    Export tag :all imports all exportable functions, like:

      use GCC::Builtins qw/:all/;

SUBROUTINES

 uint16_t bswap16(uint16_t)

    Returns x with the order of the bytes reversed; for example, 0xaabb
    becomes 0xbbaa. Byte here always means exactly 8 bits.

 uint32_t bswap32(uint32_t)

    Similar to __builtin_bswap16, except the argument and return types are
    32-bit.

 uint64_t bswap64(uint64_t)

    Similar to __builtin_bswap32, except the argument and return types are
    64-bit.

 int clrsb(int)

    Returns the number of leading redundant sign bits in x, i.e. the number
    of bits following the most significant bit that are identical to it.
    There are no special cases for 0 or other values.

 int clrsbl(long)

    Similar to __builtin_clrsb, except the argument type is long.

 int clrsbll(long long)

    Similar to __builtin_clrsb, except the argument type is long long.

 int clz(unsigned int)

    Returns the number of leading 0-bits in x, starting at the most
    significant bit position. If x is 0, the result is undefined.

 int clzl(unsigned long)

    Similar to __builtin_clz, except the argument type is unsigned long.

 int clzll(unsigned long long)

    Similar to __builtin_clz, except the argument type is unsigned long
    long.

 int ctz(unsigned int)

    Returns the number of trailing 0-bits in x, starting at the least
    significant bit position. If x is 0, the result is undefined.

 int ctzl(unsigned long)

    Similar to __builtin_ctz, except the argument type is unsigned long.

 int ctzll(unsigned long long)

    Similar to __builtin_ctz, except the argument type is unsigned long
    long.

 int ffs(int)

    Returns one plus the index of the least significant 1-bit of x, or if x
    is zero, returns zero.

 int ffsl(long)

    Similar to __builtin_ffs, except the argument type is long.

 int ffsll(long long)

    Similar to __builtin_ffs, except the argument type is long long.

 double huge_val()

    Returns a positive infinity, if supported by the floating-point format,
    else DBL_MAX. This function is suitable for implementing the ISO C
    macro HUGE_VAL.

 float huge_valf()

    Similar to __builtin_huge_val, except the return type is float.

 long double huge_vall()

    Similar to __builtin_huge_val, except the return type is long double.

 double inf()

    Similar to __builtin_huge_val, except a warning is generated if the
    target floating-point format does not support infinities.

 _Decimal128 infd128()

    Similar to __builtin_inf, except the return type is _Decimal128.

 _Decimal32 infd32()

    Similar to __builtin_inf, except the return type is _Decimal32.

 _Decimal64 infd64()

    Similar to __builtin_inf, except the return type is _Decimal64.

 float inff()

    Similar to __builtin_inf, except the return type is float. This
    function is suitable for implementing the ISO C99 macro INFINITY.

 long double infl()

    Similar to __builtin_inf, except the return type is long double.

 double nan(const char)

    This is an implementation of the ISO C99 function nan.

 float nanf(const char)

    Similar to __builtin_nan, except the return type is float.

 long double nanl(const char)

    Similar to __builtin_nan, except the return type is long double.

 int parity(unsigned int)

    Returns the parity of x, i.e. the number of 1-bits in x modulo 2.

 int parityl(unsigned long)

    Similar to __builtin_parity, except the argument type is unsigned long.

 int parityll(unsigned long long)

    Similar to __builtin_parity, except the argument type is unsigned long
    long.

 int popcount(unsigned int)

    Returns the number of 1-bits in x.

 int popcountl(unsigned long)

    Similar to __builtin_popcount, except the argument type is unsigned
    long.

 int popcountll(unsigned long long)

    Similar to __builtin_popcount, except the argument type is unsigned
    long long.

 double powi(double,int)

    Returns the first argument raised to the power of the second. Unlike
    the pow function no guarantees about precision and rounding are made.

 float powif(float,int)

    Returns the first argument raised to the power of the second. Unlike
    the pow function no guarantees about precision and rounding are made.

 long double powil(long double,int)

    Returns the first argument raised to the power of the second. Unlike
    the pow function no guarantees about precision and rounding are made.

UPDATING THE LIST OF FUNCTIONS

    The list of functions was extracted from
    https://gcc.gnu.org/onlinedocs/gcc/Other-Builtins.html using the script
    sbin/build-gcc-builtins-package.pl This script is part of the
    distribution but it is not installed in the host system. This file is
    HTML documenting these functions. I found it easier to parse this file
    than to parse GCC header files, mainly because the latter contain
    macros and typedef which I could not parse without the help of the C
    pre-processor.

    And so the list of provided files may not be perfect. Certainly there
    are some functions missing. Simply because some functions do not make
    sense when called from Perl. For example FUNCTION(), LINE() etc. Some
    others are missing because they have exotic data types for function
    arguments and/or return which I did not know how to implement that in
    Perl. Others have reported missing symbols, perhaps they need a higher
    C standard (adjusted via the CFLAGS in Makefile.PL).

    If you need another builtin function to be supported please raise an
    issue <https://rt.cpan.org/NoAuth/ReportBug.html?Queue=GCC-Builtins>.
    Please make sure you provide me with a way to include this function.
    What CFLAGS, how to typemap its return type and arguments. And also
    provide a test script to test it (similar to those found in t/
    directory).

TESTING

    For each exported sub there is a corresponding auto-generated test
    file. The test goes as far as loading the library and calling the
    function from Perl.

    However, there may be errors in the expected results because that was
    done without verifying with a C test program.

BENCHMARKS

    Counting leading zeros (clz) will be used to benchmark the GCC builtin
    __builtin_clz() and a pure Perl implementation as suggested by Perl
    Monk coldr3ality <https://perlmonks.org/?node_id=1232041> in this
    discussion <https://perlmonks.org/?node_id=11158279>

    clz() operating on the binary representation of a number counts the
    zeros starting from the most significant end until it finds the first
    bit set (to 1). Which essentially gives the zero-based index of the MSB
    set to 1.

    The benchmarks favour the GCC builtin __builtin_clz() which is about
    twice as fast as the pure Perl implementation.

    The benchmarks can be run with make benchmarks An easy way to let Perl
    fetch and unpack the distribution for you is to use cpanm to open a
    shell

       cpanm --look GCC::Builtins

    and then

       perl Makefile.PL && make all && make test && make benchmarks

CAVEATS

    If you observe weird return results or core-dumps it is very likely
    that the fault is mine while compiling the XS typemap. The file in the
    distribution typemap was compiled by me to translate C's data types
    into Perls. And for some of this I am not sure what the right type is.
    For example, is C's uint_fast16_t equivalent to Perl's T_UV? How about
    C's long double mapping to Perl's T_DOUBLE and unsigned long long to
    T_U_LONG?

    Please report
    <https://rt.cpan.org/NoAuth/ReportBug.html?Queue=GCC-Builtins> any
    corrections.

    Also note that most parts (pod of subs, list of exported subs) of the
    package file, XS code (e.g. XS functions) and test files were
    automatically generated by the procedure mentioned in "UPDATING THE
    LIST OF FUNCTIONS". It is possible to contain mistakes.

AUTHOR

    Andreas Hadjiprocopis, <bliako ta cpan.org / andreashad2 ta gmail.com>

BUGS

    Please report any bugs or feature requests to bug-gcc-builtins at
    rt.cpan.org, or through the web interface at
    https://rt.cpan.org/NoAuth/ReportBug.html?Queue=GCC-Builtins. I will be
    notified, and then you'll automatically be notified of progress on your
    bug as I make changes.

SUPPORT

    You can find documentation for this module with the perldoc command.

        perldoc GCC::Builtins

    You can also look for information at:

      * RT: CPAN's request tracker (report bugs here)

      https://rt.cpan.org/NoAuth/Bugs.html?Dist=GCC-Builtins

      * Review this module at PerlMonks

      https://www.perlmonks.org/?node_id=21144

      * Search CPAN

      https://metacpan.org/release/GCC-Builtins

ACKNOWLEDGEMENTS

      * This module started by this discussion at PerlMonks:

      Most Significant Set Bit <https://perlmonks.org/?node_id=11158279>

      * Hackers of Free Software.

      * GNU and the Free Software Foundation, providers of GNU Compiler
      Collection.

HUGS

    !Almaz!

LICENSE AND COPYRIGHT

    This software is Copyright (c) 2024 by Andreas Hadjiprocopis.

    This is free software, licensed under:

      The Artistic License 2.0 (GPL Compatible)