#! /usr/bin/perl -w # Copyright 2000, 2001, 2002 Free Software Foundation, Inc. # # This file is part of the GNU MP Library. # # The GNU MP Library is free software; you can redistribute it and/or modify # it under the terms of the GNU Lesser General Public License as published by # the Free Software Foundation; either version 2.1 of the License, or (at your # option) any later version. # # The GNU MP Library is distributed in the hope that it will be useful, but # WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY # or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Lesser General Public # License for more details. # # You should have received a copy of the GNU Lesser General Public License # along with the GNU MP Library; see the file COPYING.LIB. If not, write to # the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, # MA 02110-1301, USA. # Usage: cd $builddir/tune # perl $srcdir/tune/many.pl [-t] ... # # Output: speed-many.c # try-many.c # Makefile.many # # Make alternate versions of various mpn routines available for measuring # and testing. # # The $srcdir and $builddir in the invocation above just means the script # lives in the tune source directory, but should be run in the tune build # directory. When not using a separate object directory this just becomes # # cd tune # perl many.pl [-t] ... # # # SINGLE FILES # # Suppose $HOME/newcode/mul_1_experiment.asm is a new implementation of # mpn_mul_1, then # # cd $builddir/tune # perl $srcdir/tune/many.pl $HOME/newcode/mul_1_experiment.asm # # will produce rules and renaming so that a speed program incorporating it # can be built, # # make -f Makefile.many speed-many # # then for example it can be compared to the standard mul_1, # # ./speed-many -s 1-30 mpn_mul_1 mpn_mul_1_experiment # # An expanded try program can be used to check correctness, # # make -f Makefile.many try-many # # and run # # ./try-many mpn_mul_1_experiment # # Files can be ".c", ".S" or ".asm". ".s" files can't be used because they # don't get any preprocessing so there's no way to do renaming of their # functions. # # # WHOLE DIRECTORIES # # If a directory is given, then all files in it will be made available. # For example, # # cd $builddir/tune # perl $srcdir/tune/many.pl $HOME/newcode # # Each file should have a suffix, like "_experiment" above. # # # MPN DIRECTORIES # # mpn directories from the GMP source tree can be included, and this is a # convenient way to compare multiple implementations suiting different chips # in a CPU family. For example the following would make all x86 routines # available, # # cd $builddir/tune # perl $srcdir/tune/many.pl `find $srcdir/mpn/x86 -type d` # # On a new x86 chip a comparison could then be made to see how existing code # runs. For example, # # make -f Makefile.many speed-many # ./speed-many -s 1-30 -c \ # mpn_add_n_x86 mpn_add_n_pentium mpn_add_n_k6 mpn_add_n_k7 # # Files in "mpn" subdirectories don't need the "_experiment" style suffix # described above, instead a suffix is constructed from the subdirectory. # For example "mpn/x86/k7/mmx/mod_1.asm" will generate a function # mpn_mod_1_k7_mmx. The rule is to take the last directory name after the # "mpn", or the last two if there's three or more. (Check the generated # speed-many.c if in doubt.) # # # GENERIC C # # The mpn/generic directory can be included too, just like any processor # specific directory. This is a good way to compare assembler and generic C # implementations. For example, # # cd $builddir/tune # perl $srcdir/tune/many.pl $srcdir/mpn/generic # # or if just a few routines are of interest, then for example # # cd $builddir/tune # perl $srcdir/tune/many.pl \ # $srcdir/mpn/generic/lshift.c \ # $srcdir/mpn/generic/mod_1.c \ # $srcdir/mpn/generic/aorsmul_1.c # # giving mpn_lshift_generic etc. # # # TESTS/DEVEL PROGRAMS # # Makefile.many also has rules to build the tests/devel programs with suitable # renaming, and with some parameters for correctness or speed. This is less # convenient than the speed and try programs, but provides an independent # check. For example, # # make -f Makefile.many tests_mul_1_experimental # ./tests_mul_1_experimental # # and for speed # # make -f Makefile.many tests_mul_1_experimental_sp # ./tests_mul_1_experimental_sp # # Not all the programs support speed measuring, in which case only the # correctness test will be useful. # # The parameters for repetitions and host clock speed are -D defines. Some # defaults are provided at the end of Makefile.many, but probably these will # want to be overridden. For example, # # rm tests_mul_1_experimental.o # make -f Makefile.many \ # CFLAGS_TESTS="-DSIZE=50 -DTIMES=1000 -DRANDOM -DCLOCK=175000000" \ # tests_mul_1_experimental # ./tests_mul_1_experimental # # # OTHER NOTES # # The mappings of file names to functions, and the macros to then use for # speed measuring etc are driven by @table below. The scheme isn't # completely general, it's only got as many variations as have been needed # so far. # # Some functions are only made available in speed-many, or others only in # try-many. An @table entry speed=>none means no speed measuring is # available, or try=>none no try program testing. These can be removed # if/when the respective programs get the necessary support. # # If a file has "1c" or "nc" carry-in entrypoints, they're renamed and made # available too. These are recognised from PROLOGUE or MULFUNC_PROLOGUE in # .S and .asm files, or from a line starting with "mpn_foo_1c" in a .c file # (possibly via a #define), and on that basis are entirely optional. This # entrypoint matching is done for the standard entrypoints too, but it would # be very unusual to have for instance a mul_1c without a mul_1. # # Some mpz files are recognized. For example an experimental copy of # mpz/powm.c could be included as powm_new.c and would be called # mpz_powm_new. So far only speed measuring is available for these. # # For the ".S" and ".asm" files, both PIC and non-PIC objects are built. # The PIC functions have a "_pic" suffix, for example "mpn_mod_1_k7_mmx_pic". # This can be ignored for routines that don't differ for PIC, or for CPUs # where everything is PIC anyway. # # The "-t" option can be used to print a trace of the files found and what's # done with them. A great deal of obscure output is produced, but it can # indicate where or why some files aren't being recognised etc. For # example, # # cd $builddir/tune # perl $srcdir/tune/many.pl -t $HOME/newcode/add_n_weird.asm # # In general, when including new code, all that's really necessary is that # it will compile or assemble under the current configuration. It's fine if # some code doesn't actually run due to bugs, or to needing a newer CPU or # whatever, simply don't ask for the offending routines when invoking # speed-many or try-many, or don't try to run them on sizes they don't yet # support, or whatever. # # # CPU SPECIFICS # # x86 - All the x86 code will assemble on any system, but code for newer # chips might not run on older chips. Expect SIGILLs from new # instructions on old chips. # # A few "new" instructions, like cmov for instance, are done as macros # and will generate some equivalent plain i386 code when HAVE_HOST_CPU # in config.m4 indicates an old CPU. It won't run fast, but it does # make it possible to test correctness. # # # INTERNALS # # The nonsense involving $ENV is some hooks used during development to add # additional functions temporarily. # # # FUTURE # # Maybe the C files should be compiled pic and non-pic too. Wait until # there's a difference that might be of interest. # # Warn if a file provides no functions. # # Allow mpz and mpn files of the same name. Currently the mpn fib2_ui # matching hides the mpz version of that. Will need to check the file # contents to see which it is. Would be worth allowing an "mpz_" or "mpn_" # prefix on the filenames to have working versions of both in one directory. # # # LIMITATIONS # # Some of the command lines can become very long when a lot of files are # included. If this is a problem on a given system the only suggestion is # to run many.pl for just those that are actually wanted at a particular # time. # # DOS 8.3 or SysV 14 char filesystems won't work, since the long filenames # generated will almost certainly fail to be unique. use strict; use File::Basename; use Getopt::Std; my %opt; getopts('t', \%opt); my @DIRECTORIES = @ARGV; if (defined $ENV{directories}) { push @DIRECTORIES, @{$ENV{directories}} } # regexp - matched against the start of the filename. If a grouping "(...)" # is present then only the first such part is used. # # mulfunc - filenames to be generated from a multi-function file. # # funs - functions provided by the file, defaulting to the filename with mpn # (or mpX). # # mpX - prefix like "mpz", defaulting to "mpn". # # ret - return value type. # # args, args_ - arguments for the given function. If an args_ is # set then it's used, otherwise plain args is used. "mp_limb_t # carry" is appended for carry-in variants. # # try - try.c TYPE_ to use, defaulting to TYPE_fun with the function name # in upper case. "C" is appended for carry-in variants. Can be # 'none' for no try program entry. # # speed - SPEED_ROUTINE_ to use, handled like "try". # # speed_flags - SPEED_ROUTINE_ to use, handled like "try". my @table = ( { 'regexp'=> 'add_n|sub_n|addlsh1_n|sublsh1_n|rsh1add_n|rsh1sub_n', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_srcptr yp, mp_size_t size', 'speed' => 'SPEED_ROUTINE_MPN_BINARY_N', 'speed_flags'=> 'FLAG_R_OPTIONAL', }, { 'regexp'=> 'addmul_1|submul_1', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_limb_t mult', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_1', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'addmul_2|submul_2', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_2', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 2, }, { 'regexp'=> 'addmul_3|submul_3', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_3', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 3, }, { 'regexp'=> 'addmul_4|submul_4', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_4', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 4, }, { 'regexp'=> 'addmul_5|submul_5', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_5', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 5, }, { 'regexp'=> 'addmul_6|submul_6', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_6', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 6, }, { 'regexp'=> 'addmul_7|submul_7', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_7', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 7, }, { 'regexp'=> 'addmul_8|submul_8', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr yp', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_8', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try-minsize' => 8, }, { 'regexp'=> 'sumdiff_n', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr sum, mp_ptr diff, mp_srcptr xp, mp_srcptr yp, mp_size_t size', 'speed_flags'=> 'FLAG_R_OPTIONAL', }, { 'regexp'=> 'bdivmod', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr qp, mp_ptr up, mp_size_t usize, mp_srcptr vp, mp_size_t vsize, unsigned long int d', 'carrys'=> [''], 'try' => 'none', 'speed' => 'none', }, { 'regexp'=> 'com_n|copyi|copyd', 'ret' => 'void', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size', 'speed' => 'SPEED_ROUTINE_MPN_COPY', }, { 'regexp'=> 'divexact_1', 'ret' => 'void', 'args' => 'mp_ptr dst, mp_srcptr src, mp_size_t size, mp_limb_t divisor', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'divexact_by3c', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr dst, mp_srcptr src, mp_size_t size', 'carrys'=> [''], 'speed' => 'SPEED_ROUTINE_MPN_COPY', }, # mpn_preinv_divrem_1 is an optional extra entrypoint { 'regexp'=> 'divrem_1', 'funs' => ['divrem_1', 'preinv_divrem_1'], 'ret' => 'mp_limb_t', 'args_divrem_1' => 'mp_ptr rp, mp_size_t xsize, mp_srcptr sp, mp_size_t size, mp_limb_t divisor', 'args_preinv_divrem_1' => 'mp_ptr rp, mp_size_t xsize, mp_srcptr sp, mp_size_t size, mp_limb_t divisor, mp_limb_t inverse, unsigned shift', 'speed_flags'=> 'FLAG_R', 'speed_suffixes' => ['f'], }, { 'regexp'=> 'preinv_divrem_1', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr qp, mp_size_t qxn, mp_srcptr ap, mp_size_t asize, mp_limb_t divisor, mp_limb_t inverse, int shift', 'speed_flags' => 'FLAG_R', }, { 'regexp'=> 'divrem_2', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr qp, mp_size_t qxn, mp_srcptr np, mp_size_t nsize, mp_srcptr dp', 'try' => 'none', }, { 'regexp'=> 'tdiv_qr', 'ret' => 'void', 'args' => 'mp_ptr qp, mp_size_t qxn, mp_ptr np, mp_size_t nsize, mp_srcptr dp, mp_size_t dsize', 'speed' => 'none', }, { 'regexp'=> 'get_str', 'ret' => 'size_t', 'args' => 'unsigned char *str, int base, mp_ptr mptr, mp_size_t msize', 'speed_flags' => 'FLAG_R_OPTIONAL', 'try' => 'none', }, { 'regexp'=> 'set_str', 'ret' => 'mp_size_t', 'args' => 'mp_ptr xp, const unsigned char *str, size_t str_len, int base', 'speed_flags' => 'FLAG_R_OPTIONAL', 'try' => 'none', }, { 'regexp'=> 'fac_ui', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr r, unsigned long n', 'speed_flags' => 'FLAG_NODATA', 'try' => 'none', }, { 'regexp'=> 'fib2_ui', 'ret' => 'void', 'args' => 'mp_ptr fp, mp_ptr f1p, unsigned long n', 'rename'=> ['__gmp_fib_table'], 'speed_flags' => 'FLAG_NODATA', 'try' => 'none', }, { 'regexp'=> 'fib_ui', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr fn, unsigned long n', 'speed_flags' => 'FLAG_NODATA', 'try' => 'none', }, { 'regexp'=> 'fib2_ui', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr fn, mpz_ptr fnsub1, unsigned long n', 'speed_flags' => 'FLAG_NODATA', 'try' => 'none', }, { 'regexp'=> 'lucnum_ui', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr ln, unsigned long n', 'speed_flags' => 'FLAG_NODATA', 'try' => 'none', }, { 'regexp'=> 'lucnum2_ui', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr ln, mpz_ptr lnsub1, unsigned long n', 'speed_flags' => 'FLAG_NODATA', 'try' => 'none', }, { 'regexp'=> 'gcd_1', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr xp, mp_size_t xsize, mp_limb_t y', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'speed_suffixes' => ['N'], }, { 'regexp'=> '(gcd)(?!(_1|ext|_finda))', 'ret' => 'mp_size_t', 'args' => 'mp_ptr gp, mp_ptr up, mp_size_t usize, mp_ptr vp, mp_size_t vsize', }, { 'regexp'=> 'jacobi', 'funs' => ['jacobi', 'legendre', 'kronecker'], 'mpX' => 'mpz', 'ret' => 'int', 'args' => 'mpz_srcptr a, mpz_srcptr b', 'try-legendre' => 'TYPE_MPZ_JACOBI', }, { 'regexp'=> 'jacobi_base', 'ret' => 'mp_limb_t', 'args' => 'mp_limb_t a, mp_limb_t b, int bit1', 'speed' => 'SPEED_ROUTINE_MPN_JACBASE', 'try' => 'none', }, { 'regexp'=> '[lr]shift', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, unsigned shift', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_1', 'speed_flags'=> 'FLAG_R', }, # mpn_preinv_mod_1 is an optional extra entrypoint { 'regexp'=> '(mod_1)(?!_rs)', 'funs' => ['mod_1','preinv_mod_1'], 'ret' => 'mp_limb_t', 'args_mod_1' => 'mp_srcptr xp, mp_size_t size, mp_limb_t divisor', 'args_preinv_mod_1'=> 'mp_srcptr xp, mp_size_t size, mp_limb_t divisor, mp_limb_t inverse', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'preinv_mod_1', 'ret' => 'mp_limb_t', 'args' => 'mp_srcptr xp, mp_size_t size, mp_limb_t divisor, mp_limb_t inverse', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'mod_34lsub1', 'ret' => 'mp_limb_t', 'args' => 'mp_srcptr src, mp_size_t len', }, { 'regexp'=> 'invert_limb', 'ret' => 'mp_limb_t', 'args' => 'mp_limb_t divisor', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try' => 'none', }, { # not for use with hppa reversed argument versions of mpn_umul_ppmm 'regexp'=> 'udiv', 'funs' => ['udiv_qrnnd','udiv_qrnnd_r'], 'ret' => 'mp_limb_t', 'args_udiv_qrnnd' => 'mp_limb_t *, mp_limb_t, mp_limb_t, mp_limb_t', 'args_udiv_qrnnd_r' => 'mp_limb_t, mp_limb_t, mp_limb_t, mp_limb_t *', 'speed' => 'none', 'try-minsize' => 2, }, { 'regexp'=> 'mode1o', 'funs' => ['modexact_1_odd'], 'ret' => 'mp_limb_t', 'args' => 'mp_srcptr src, mp_size_t size, mp_limb_t divisor', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'modlinv', 'funs' => ['modlimb_invert'], 'ret' => 'mp_limb_t', 'args' => 'mp_limb_t v', 'carrys'=> [''], 'try' => 'none', }, { 'regexp'=> 'mul_1', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_limb_t mult', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_1', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'mul_2', 'ret' => 'mp_limb_t', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size, mp_srcptr mult', 'speed' => 'SPEED_ROUTINE_MPN_UNARY_2', 'speed_flags'=> 'FLAG_R', }, { 'regexp'=> 'mul_basecase', 'ret' => 'void', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t xsize, mp_srcptr yp, mp_size_t ysize', 'speed_flags' => 'FLAG_R_OPTIONAL | FLAG_RSIZE', }, { 'regexp'=> '(mul_n)[_.]', 'ret' => 'void', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_srcptr yp, mp_size_t size', 'rename'=> ['kara_mul_n','kara_sqr_n','toom3_mul_n','toom3_sqr_n'], }, { 'regexp'=> 'umul', 'funs' => ['umul_ppmm','umul_ppmm_r'], 'ret' => 'mp_limb_t', 'args_umul_ppmm' => 'mp_limb_t *lowptr, mp_limb_t m1, mp_limb_t m2', 'args_umul_ppmm_r' => 'mp_limb_t m1, mp_limb_t m2, mp_limb_t *lowptr', 'speed' => 'none', 'try-minsize' => 3, }, { 'regexp'=> 'popcount', 'ret' => 'unsigned long', 'args' => 'mp_srcptr xp, mp_size_t size', }, { 'regexp'=> 'hamdist', 'ret' => 'unsigned long', 'args' => 'mp_srcptr xp, mp_srcptr yp, mp_size_t size', # extra renaming to support sharing a data table with mpn_popcount 'rename'=> ['popcount'], }, { 'regexp'=> 'sqr_basecase', 'ret' => 'void', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size', 'speed' => 'SPEED_ROUTINE_MPN_SQR', 'try' => 'TYPE_SQR', }, { 'regexp'=> 'sqr_diagonal', 'ret' => 'void', 'args' => 'mp_ptr wp, mp_srcptr xp, mp_size_t size', 'try' => 'none', }, { 'regexp'=> 'sqrtrem', 'ret' => 'mp_size_t', 'args' => 'mp_ptr root, mp_ptr rem, mp_srcptr src, mp_size_t size', 'try' => 'none', }, { 'regexp'=> 'cntlz', 'funs' => ['count_leading_zeros'], 'ret' => 'unsigned', 'args' => 'mp_limb_t', 'macro-before' => "#undef COUNT_LEADING_ZEROS_0", 'macro-speed' => '#ifdef COUNT_LEADING_ZEROS_0 #define COUNT_LEADING_ZEROS_0_ALLOWED 1 #else #define COUNT_LEADING_ZEROS_0_ALLOWED 0 #endif SPEED_ROUTINE_COUNT_ZEROS_A (1, COUNT_LEADING_ZEROS_0_ALLOWED); $fun (c, n); SPEED_ROUTINE_COUNT_ZEROS_B ()', 'speed_flags'=> 'FLAG_R_OPTIONAL', 'try' => 'none', }, { 'regexp'=> 'cnttz', 'funs' => ['count_trailing_zeros'], 'ret' => 'unsigned', 'args' => 'mp_limb_t', 'macro-speed' => ' SPEED_ROUTINE_COUNT_ZEROS_A (0, 0); $fun (c, n); SPEED_ROUTINE_COUNT_ZEROS_B ()', 'speed_flags' => 'FLAG_R_OPTIONAL', 'try' => 'none', }, { 'regexp'=> 'zero', 'ret' => 'void', 'args' => 'mp_ptr ptr, mp_size_t size', }, { 'regexp'=> '(powm)(?!_ui)', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr r, mpz_srcptr b, mpz_srcptr e, mpz_srcptr m', 'try' => 'none', }, { 'regexp'=> 'powm_ui', 'mpX' => 'mpz', 'ret' => 'void', 'args' => 'mpz_ptr r, mpz_srcptr b, unsigned long e, mpz_srcptr m', 'try' => 'none', }, # special for use during development { 'regexp'=> 'back', 'funs' => ['back_to_back'], 'ret' => 'void', 'args' => 'void', 'pic' => 'no', 'try' => 'none', 'speed_flags'=> 'FLAG_NODATA', }, ); if (defined $ENV{table2}) { my @newtable = @{$ENV{table2}}; push @newtable, @table; @table = @newtable; } my %pictable = ( 'yes' => { 'suffix' => '_pic', 'asmflags'=> '$(ASMFLAGS_PIC)', 'cflags' => '$(CFLAGS_PIC)', }, 'no' => { 'suffix' => '', 'asmflags'=> '', 'cflags' => '', }, ); my $builddir = $ENV{builddir}; $builddir = "." if (! defined $builddir); my $top_builddir = "${builddir}/.."; open(MAKEFILE, "<${builddir}/Makefile") or die "Cannot open ${builddir}/Makefile: $!\n" . "Is this a tune build directory?"; my ($srcdir, $top_srcdir); while () { if (/^srcdir = (.*)/) { $srcdir = $1; } if (/^top_srcdir = (.*)/) { $top_srcdir = $1; } } die "Cannot find \$srcdir in Makefile\n" if (! defined $srcdir); die "Cannot find \$top_srcdir in Makefile\n" if (! defined $top_srcdir); print "srcdir $srcdir\n" if $opt{'t'}; print "top_srcdir $top_srcdir\n" if $opt{'t'}; close(MAKEFILE); open(SPEED, ">speed-many.c") or die; print SPEED "/* speed-many.c generated by many.pl - DO NOT EDIT, CHANGES WILL BE LOST */ "; my $SPEED_EXTRA_ROUTINES = "#define SPEED_EXTRA_ROUTINES \\\n"; my $SPEED_EXTRA_PROTOS = "#define SPEED_EXTRA_PROTOS \\\n"; my $SPEED_CODE = ""; open(TRY, ">try-many.c") or die; print TRY "/* try-many.c generated by many.pl - DO NOT EDIT, CHANGES WILL BE LOST */\n" . "\n"; my $TRY_EXTRA_ROUTINES = "#define EXTRA_ROUTINES \\\n"; my $TRY_EXTRA_PROTOS = "#define EXTRA_PROTOS \\\n"; open(FD,"<${top_builddir}/libtool") or die "Cannot open \"${top_builddir}/libtool\": $!\n"; my $pic_flag; while () { if (/^pic_flag="?([^"]*)"?$/) { $pic_flag=$1; last; } } close FD; if (! defined $pic_flag) { die "Cannot find pic_flag in ${top_builddir}/libtool"; } my $CFLAGS_PIC = $pic_flag; my $ASMFLAGS_PIC = ""; foreach (split /[ \t]/, $pic_flag) { if (/^-D/) { $ASMFLAGS_PIC .= " " . $_; } } open(MAKEFILE, ">Makefile.many") or die; print MAKEFILE "# Makefile.many generated by many.pl - DO NOT EDIT, CHANGES WILL BE LOST\n" . "\n" . "all: speed-many try-many\n" . "\n" . "#--------- begin included copy of basic Makefile ----------\n" . "\n"; open(FD,"<${builddir}/Makefile") or die "Cannot open \"${builddir}/Makefile\": $!\n"; print MAKEFILE ; close FD; print MAKEFILE "\n" . "#--------- end included copy of basic Makefile ----------\n" . "\n" . "CFLAGS_PIC = $CFLAGS_PIC\n" . "ASMFLAGS_PIC = $ASMFLAGS_PIC\n" . "\n"; my $CLEAN=""; my $MANY_OBJS=""; sub print_ansi2knr { my ($base,$file,$includes) = @_; if (! defined $file) { $file = "$base.c"; } if (! defined $includes) { $includes = ""; } print MAKEFILE <${base}_.c EOF } # Spawning a glob is a touch slow when there's lots of files. my @files = (); foreach my $dir (@DIRECTORIES) { print "dir $dir\n" if $opt{'t'}; if (-f $dir) { push @files,$dir; } else { if (! opendir DD,$dir) { print "Cannot open $dir: $!\n"; } else { push @files, map {$_="$dir/$_"} grep /\.(c|asm|S|h)$/, readdir DD; closedir DD; } } } @files = sort @files; print "@files ",join(" ",@files),"\n" if $opt{'t'}; my $count_files = 0; my $count_functions = 0; my %seen_obj; my %seen_file; foreach my $file_full (@files) { if (! -f $file_full) { print "Not a file: $file_full\n"; next; } if (defined $seen_file{$file_full}) { print "Skipping duplicate file: $file_full\n"; next; } $seen_file{$file_full} = 1; my ($FILE,$path,$lang) = fileparse($file_full,"\.[a-zA-Z]+"); $path =~ s/\/$//; print "file $FILE path $path lang $lang\n" if $opt{'t'}; my @pic_choices; if ($lang eq '.asm') { @pic_choices=('no','yes'); } elsif ($lang eq '.c') { @pic_choices=('no'); } elsif ($lang eq '.S') { @pic_choices=('no','yes'); } elsif ($lang eq '.h') { @pic_choices=('no'); } else { next }; my ($t, $file_match); foreach my $p (@table) { # print " ",$p->{'regexp'},"\n" if $opt{'t'}; if ($FILE =~ "^($p->{'regexp'})") { $t = $p; $file_match = $1; $file_match = $2 if defined $2; last; } } next if ! defined $t; print "match $t->{'regexp'} $FILE ($file_full)\n" if $opt{'t'}; if (! open FD,"<$file_full") { print "Can't open $file_full: $!\n"; next } my @file_contents = ; close FD; my $objs; if (defined $t->{'mulfunc'}) { $objs = $t->{'mulfunc'}; } else { $objs = [$file_match]; } print "objs @$objs\n" if $opt{'t'}; my $ret = $t->{'ret'}; if (! defined $ret && $lang eq '.h') { $ret = ''; } if (! defined $ret) { die "$FILE return type not defined\n" }; print "ret $ret\n" if $opt{'t'}; my $mpX = $t->{'mpX'}; if (! defined $mpX) { $mpX = ($lang eq '.h' ? '' : 'mpn'); } $mpX = "${mpX}_" if $mpX ne ''; print "mpX $mpX\n" if $opt{'t'}; my $carrys; if (defined $t->{'carrys'}) { $carrys = $t->{'carrys'}; } else { $carrys = ['','c']; } print "carrys $carrys @$carrys\n" if $opt{'t'}; # some restriction functions are implemented, but they're not very useful my $restriction=''; my $suffix; if ($FILE =~ ("${file_match}_(.+)")) { $suffix = $1; } elsif ($path =~ /\/mp[zn]\/(.*)$/) { # derive the suffix from the path $suffix = $1; $suffix =~ s/\//_/g; # use last directory name, or if there's 3 or more then the last two if ($suffix =~ /([^_]*_)+([^_]+_[^_]+)$/) { $suffix = $2; } elsif ($suffix =~ /([^_]*_)*([^_]+)$/) { $suffix = $2; } } else { die "Can't determine suffix for: $file_full (path $path)\n"; } print "suffix $suffix\n" if $opt{'t'}; $count_files++; foreach my $obj (@{$objs}) { print "obj $obj\n" if $opt{'t'}; my $obj_with_suffix = "${obj}_$suffix"; if (defined $seen_obj{$obj_with_suffix}) { print "Skipping duplicate object: $obj_with_suffix\n"; print " first from: $seen_obj{$obj_with_suffix}\n"; print " now from: $file_full\n"; next; } $seen_obj{$obj_with_suffix} = $file_full; my $funs = $t->{'funs'}; $funs = [$obj] if ! defined $funs; print "funs @$funs\n" if $opt{'t'}; if (defined $t->{'pic'}) { @pic_choices = ('no'); } foreach my $pic (map {$pictable{$_}} @pic_choices) { print "pic $pic->{'suffix'}\n" if $opt{'t'}; my $objbase = "${obj}_$suffix$pic->{'suffix'}"; print "objbase $objbase\n" if $opt{'t'}; if ($path !~ "." && -f "${objbase}.c") { die "Already have ${objbase}.c"; } my $tmp_file = "tmp-$objbase.c"; my $renaming; foreach my $fun (@{$funs}) { if ($mpX eq 'mpn_' && $lang eq '.c') { $renaming .= "\t\t-DHAVE_NATIVE_mpn_$fun=1 \\\n"; } # The carry-in variant is with a "c" appended, unless there's a "_1" # somewhere, eg. "modexact_1_odd", in which case that becomes "_1c". my $fun_carry = $fun; if (! ($fun_carry =~ s/_1/_1c/)) { $fun_carry = "${fun}c"; } $renaming .= "\t\t-D__g$mpX$fun=$mpX${fun}_$suffix$pic->{'suffix'} \\\n" . "\t\t-D__g$mpX$fun_carry=$mpX${fun_carry}_$suffix$pic->{'suffix'} \\\n"; } foreach my $r (@{$t->{'rename'}}) { if ($r =~ /^__gmp/) { $renaming .= "\\\n" . "\t\t-D$r=${r}_$suffix$pic->{'suffix'}"; } else { $renaming .= "\\\n" . "\t\t-D__g$mpX$r=$mpX${r}_$suffix$pic->{'suffix'}"; } } print "renaming $renaming\n" if $opt{'t'}; print MAKEFILE "\n"; if ($lang eq '.asm') { print MAKEFILE "$objbase.o: $file_full \$(ASM_HEADERS)\n" . " \$(M4) \$(M4FLAGS) -DOPERATION_$obj $pic->{'asmflags'} \\\n" . "$renaming" . " $file_full >tmp-$objbase.s\n" . " \$(CCAS) \$(COMPILE_FLAGS) $pic->{'cflags'} tmp-$objbase.s -o $objbase.o\n" . " \$(RM_TMP) tmp-$objbase.s\n"; $MANY_OBJS .= " $objbase.o"; } elsif ($lang eq '.c') { print MAKEFILE "$objbase.o: $file_full\n" . " \$(COMPILE) -DOPERATION_$obj $pic->{'cflags'} \\\n" . "$renaming" . " -c $file_full -o $objbase.o\n"; print_ansi2knr($objbase, $file_full, " -DOPERATION_$obj\\\n$renaming\t\t"); $MANY_OBJS .= " $objbase\$U.o"; } elsif ($lang eq '.S') { print MAKEFILE "$objbase.o: $file_full\n" . " \$(COMPILE) -g $pic->{'asmflags'} \\\n" . "$renaming" . " -c $file_full -o $objbase.o\n"; $MANY_OBJS .= " $objbase.o"; } elsif ($lang eq '.h') { print MAKEFILE "$objbase.o: tmp-$objbase.c $file_full\n" . " \$(COMPILE) -DOPERATION_$obj $pic->{'cflags'} \\\n" . "$renaming" . " -c tmp-$objbase.c -o $objbase.o\n"; print_ansi2knr($objbase, "tmp-$objbase.c", " -DOPERATION_$obj\\\n$renaming\t\t"); $MANY_OBJS .= " $objbase\$U.o"; $CLEAN .= " tmp-$objbase.c"; open(TMP_C,">tmp-$objbase.c") or die "Can't create tmp-$objbase.c: $!\n"; print TMP_C "/* tmp-$objbase.c generated by many.pl - DO NOT EDIT, CHANGES WILL BE LOST */ #include \"mpir.h\" #include \"gmp-impl.h\" #include \"longlong.h\" #include \"speed.h\" "; } my $tests_program = "$top_srcdir/tests/devel/$obj.c"; if (-f $tests_program) { $tests_program = "\$(top_srcdir)/tests/devel/$obj.c"; print_ansi2knr("tests_${objbase}", $tests_program, "\\\n$renaming\t\t\$(CFLAGS_TESTS_SP)"); print_ansi2knr("tests_${objbase}_sp", $tests_program, "\\\n$renaming\t\t\$(CFLAGS_TESTS_SP)"); print MAKEFILE <{'macro_before'}; $macro_before = "" if ! defined $macro_before; print TMP_C "$macro_before #undef $fun #include \"$file_full\" "; } my $args = $t->{"args_$fun"}; if (! defined $args) { $args = $t->{'args'}; } if (! defined $args) { die "Need args for $fun\n"; } print "args $args\n" if $opt{'t'}; foreach my $carry (@$carrys) { print "carry $carry\n" if $opt{'t'}; my $fun_carry = $fun; if (! ($fun_carry =~ s/_1/_1$carry/)) { $fun_carry = "$fun$carry"; } print "fun_carry $fun_carry\n" if $opt{'t'}; if ($lang =~ /\.(asm|S)/ && ! grep(m"PROLOGUE\((.* )?$mpX$fun_carry[ ,)]",@file_contents)) { print "no PROLOGUE $mpX$fun_carry\n" if $opt{'t'}; next; } if ($lang eq '.c' && ! grep(m"^(#define FUNCTION\s+)?$mpX$fun_carry\W", @file_contents)) { print "no mention of $mpX$fun_carry\n" if $opt{'t'}; next; } if ($lang eq '.h' && ! grep(m"^#define $fun_carry\W", @file_contents)) { print "no mention of #define $fun_carry\n" if $opt{'t'}; next; } $count_functions++; my $carryarg; if (defined $t->{'carryarg'}) { $carryarg = $t->{'carryarg'}; } if ($carry eq '') { $carryarg = ''; } else { $carryarg = ', mp_limb_t carry'; } print "carryarg $carryarg\n" if $opt{'t'}; my $funfull="$mpX${fun_carry}_$suffix$pic->{'suffix'}"; print "funfull $funfull\n" if $opt{'t'}; if ($lang ne '.h') { my $proto = "$t->{'ret'} $funfull _PROTO (($args$carryarg)); \\\n"; $SPEED_EXTRA_PROTOS .= $proto; $TRY_EXTRA_PROTOS .= $proto; } my $try_type = $t->{"try-$fun"}; $try_type = $t->{'try'} if ! defined $try_type; if (! defined $try_type) { if ($mpX eq 'mpn_') { $try_type = "TYPE_\U$fun_carry"; } else { $try_type = "TYPE_\U$mpX\U$fun_carry"; } } print "try_type $try_type\n" if $opt{'t'}; my $try_minsize = $t->{'try-minsize'}; if (defined $try_minsize) { $try_minsize = ", " . $try_minsize; } else { $try_minsize = ""; } print "try_minsize $try_minsize\n" if $opt{'t'}; if ($try_type ne 'none') { $TRY_EXTRA_ROUTINES .= " { TRY($mpX${fun_carry}_$suffix$pic->{'suffix'}), $try_type$try_minsize }, \\\n"; } my $speed_flags = $t->{'speed_flags'}; $speed_flags = '0' if ! defined $speed_flags; print "speed_flags $speed_flags\n" if $opt{'t'}; my $speed_routine = $t->{'speed'}; $speed_routine = "SPEED_ROUTINE_\U$mpX\U$fun" if !defined $speed_routine; if (! ($speed_routine =~ s/_1/_1\U$carry/)) { $speed_routine = "$speed_routine\U$carry"; } print "speed_routine $speed_routine\n" if $opt{'t'}; my @speed_suffixes = (); push (@speed_suffixes, '') if $speed_routine ne 'none'; push (@speed_suffixes, @{$t->{'speed_suffixes'}}) if defined $t->{'speed_suffixes'}; my $macro_speed = $t->{'macro-speed'}; $macro_speed = "$speed_routine ($fun_carry)" if ! defined $macro_speed; $macro_speed =~ s/\$fun/$fun_carry/g; foreach my $S (@speed_suffixes) { my $Sfunfull="$mpX${fun_carry}${S}_$suffix$pic->{'suffix'}"; $SPEED_EXTRA_PROTOS .= "double speed_$Sfunfull _PROTO ((struct speed_params *s)); \\\n"; $SPEED_EXTRA_ROUTINES .= " { \"$Sfunfull\", speed_$Sfunfull, $speed_flags }, \\\n"; if ($lang eq '.h') { print TMP_C "double speed_$Sfunfull (struct speed_params *s) { $macro_speed } "; } else { $SPEED_CODE .= "double\n" . "speed_$Sfunfull (struct speed_params *s)\n" . "{\n" . "$restriction" . " $speed_routine\U$S\E ($funfull)\n" . "}\n"; } } } } } } } print SPEED $SPEED_EXTRA_PROTOS . "\n"; print SPEED $SPEED_EXTRA_ROUTINES . "\n"; if (defined $ENV{speedinc}) { print SPEED $ENV{speedinc} . "\n"; } print SPEED "#include \"speed.c\"\n" . "\n"; print SPEED $SPEED_CODE; print TRY $TRY_EXTRA_ROUTINES . "\n"; print TRY $TRY_EXTRA_PROTOS . "\n"; my $tryinc = ""; if (defined $ENV{tryinc}) { $tryinc = $ENV{tryinc}; print TRY "#include \"$tryinc\"\n"; } print "tryinc $tryinc\n" if $opt{'t'}; print TRY "#include \"try.c\"\n" . "\n"; my $extra_libraries = ""; if (defined $ENV{extra_libraries}) { $extra_libraries = $ENV{extra_libraries};} my $trydeps = ""; if (defined $ENV{trydeps}) { $trydeps = $ENV{trydeps}; } $trydeps .= " $tryinc"; print "trydeps $trydeps\n" if $opt{'t'}; print MAKEFILE <