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#Makefile for GCC
#
#Tom St Denis
CFLAGS += -I./ -Wall -W -Wshadow -Wsign-compare
#for speed
CFLAGS += -O3 -funroll-loops
#for size
#CFLAGS += -Os
#x86 optimizations [should be valid for any GCC install though]
CFLAGS += -fomit-frame-pointer
#debug
#CFLAGS += -g3
VERSION=0.32
default: libtommath.a
#default files to install
LIBNAME=libtommath.a
HEADERS=tommath.h
#LIBPATH-The directory for libtommath to be installed to.
#INCPATH-The directory to install the header files for libtommath.
#DATAPATH-The directory to install the pdf docs.
DESTDIR=
LIBPATH=/usr/lib
INCPATH=/usr/include
DATAPATH=/usr/share/doc/libtommath/pdf
OBJECTS=bncore.o bn_mp_init.o bn_mp_clear.o bn_mp_exch.o bn_mp_grow.o bn_mp_shrink.o \
bn_mp_clamp.o bn_mp_zero.o bn_mp_set.o bn_mp_set_int.o bn_mp_init_size.o bn_mp_copy.o \
bn_mp_init_copy.o bn_mp_abs.o bn_mp_neg.o bn_mp_cmp_mag.o bn_mp_cmp.o bn_mp_cmp_d.o \
bn_mp_rshd.o bn_mp_lshd.o bn_mp_mod_2d.o bn_mp_div_2d.o bn_mp_mul_2d.o bn_mp_div_2.o \
bn_mp_mul_2.o bn_s_mp_add.o bn_s_mp_sub.o bn_fast_s_mp_mul_digs.o bn_s_mp_mul_digs.o \
bn_fast_s_mp_mul_high_digs.o bn_s_mp_mul_high_digs.o bn_fast_s_mp_sqr.o bn_s_mp_sqr.o \
bn_mp_add.o bn_mp_sub.o bn_mp_karatsuba_mul.o bn_mp_mul.o bn_mp_karatsuba_sqr.o \
bn_mp_sqr.o bn_mp_div.o bn_mp_mod.o bn_mp_add_d.o bn_mp_sub_d.o bn_mp_mul_d.o \
bn_mp_div_d.o bn_mp_mod_d.o bn_mp_expt_d.o bn_mp_addmod.o bn_mp_submod.o \
bn_mp_mulmod.o bn_mp_sqrmod.o bn_mp_gcd.o bn_mp_lcm.o bn_fast_mp_invmod.o bn_mp_invmod.o \
bn_mp_reduce.o bn_mp_montgomery_setup.o bn_fast_mp_montgomery_reduce.o bn_mp_montgomery_reduce.o \
bn_mp_exptmod_fast.o bn_mp_exptmod.o bn_mp_2expt.o bn_mp_n_root.o bn_mp_jacobi.o bn_reverse.o \
bn_mp_count_bits.o bn_mp_read_unsigned_bin.o bn_mp_read_signed_bin.o bn_mp_to_unsigned_bin.o \
bn_mp_to_signed_bin.o bn_mp_unsigned_bin_size.o bn_mp_signed_bin_size.o \
bn_mp_xor.o bn_mp_and.o bn_mp_or.o bn_mp_rand.o bn_mp_montgomery_calc_normalization.o \
bn_mp_prime_is_divisible.o bn_prime_tab.o bn_mp_prime_fermat.o bn_mp_prime_miller_rabin.o \
bn_mp_prime_is_prime.o bn_mp_prime_next_prime.o bn_mp_dr_reduce.o \
bn_mp_dr_is_modulus.o bn_mp_dr_setup.o bn_mp_reduce_setup.o \
bn_mp_toom_mul.o bn_mp_toom_sqr.o bn_mp_div_3.o bn_s_mp_exptmod.o \
bn_mp_reduce_2k.o bn_mp_reduce_is_2k.o bn_mp_reduce_2k_setup.o \
bn_mp_radix_smap.o bn_mp_read_radix.o bn_mp_toradix.o bn_mp_radix_size.o \
bn_mp_fread.o bn_mp_fwrite.o bn_mp_cnt_lsb.o bn_error.o \
bn_mp_init_multi.o bn_mp_clear_multi.o bn_mp_exteuclid.o bn_mp_toradix_n.o \
bn_mp_prime_random_ex.o bn_mp_get_int.o bn_mp_sqrt.o bn_mp_is_square.o bn_mp_init_set.o \
bn_mp_init_set_int.o bn_mp_invmod_slow.o bn_mp_prime_rabin_miller_trials.o
libtommath.a: $(OBJECTS)
$(AR) $(ARFLAGS) libtommath.a $(OBJECTS)
ranlib libtommath.a
#make a profiled library (takes a while!!!)
#
# This will build the library with profile generation
# then run the test demo and rebuild the library.
#
# So far I've seen improvements in the MP math
profiled:
make CFLAGS="$(CFLAGS) -fprofile-arcs -DTESTING" timing
./ltmtest
rm -f *.a *.o ltmtest
make CFLAGS="$(CFLAGS) -fbranch-probabilities"
#make a single object profiled library
profiled_single:
perl gen.pl
$(CC) $(CFLAGS) -fprofile-arcs -DTESTING -c mpi.c -o mpi.o
$(CC) $(CFLAGS) -DTESTING -DTIMER demo/timing.c mpi.o -o ltmtest
./ltmtest
rm -f *.o ltmtest
$(CC) $(CFLAGS) -fbranch-probabilities -DTESTING -c mpi.c -o mpi.o
$(AR) $(ARFLAGS) libtommath.a mpi.o
ranlib libtommath.a
install: libtommath.a
install -d -g root -o root $(DESTDIR)$(LIBPATH)
install -d -g root -o root $(DESTDIR)$(INCPATH)
install -g root -o root $(LIBNAME) $(DESTDIR)$(LIBPATH)
install -g root -o root $(HEADERS) $(DESTDIR)$(INCPATH)
test: libtommath.a demo/demo.o
$(CC) demo/demo.o libtommath.a -o test
mtest: test
cd mtest ; $(CC) $(CFLAGS) mtest.c -o mtest -s
timing: libtommath.a
$(CC) $(CFLAGS) -DTIMER demo/timing.c libtommath.a -o ltmtest -s
# makes the LTM book DVI file, requires tetex, perl and makeindex [part of tetex I think]
docdvi: tommath.src
cd pics ; make
echo "hello" > tommath.ind
perl booker.pl
latex tommath > /dev/null
latex tommath > /dev/null
makeindex tommath
latex tommath > /dev/null
# poster, makes the single page PDF poster
poster: poster.tex
pdflatex poster
rm -f poster.aux poster.log
# makes the LTM book PDF file, requires tetex, cleans up the LaTeX temp files
docs: docdvi
dvipdf tommath
rm -f tommath.log tommath.aux tommath.dvi tommath.idx tommath.toc tommath.lof tommath.ind tommath.ilg
cd pics ; make clean
#LTM user manual
mandvi: bn.tex
echo "hello" > bn.ind
latex bn > /dev/null
latex bn > /dev/null
makeindex bn
latex bn > /dev/null
#LTM user manual [pdf]
manual: mandvi
pdflatex bn >/dev/null
rm -f bn.aux bn.dvi bn.log bn.idx bn.lof bn.out bn.toc
pretty:
perl pretty.build
clean:
rm -f *.bat *.pdf *.o *.a *.obj *.lib *.exe *.dll etclib/*.o demo/demo.o test ltmtest mpitest mtest/mtest mtest/mtest.exe \
*.idx *.toc *.log *.aux *.dvi *.lof *.ind *.ilg *.ps *.log *.s mpi.c *.da *.dyn *.dpi tommath.tex `find -type f | grep [~] | xargs` *.lo *.la
rm -rf .libs
cd etc ; make clean
cd pics ; make clean
zipup: clean manual poster docs
perl gen.pl ; mv mpi.c pre_gen/ ; \
cd .. ; rm -rf ltm* libtommath-$(VERSION) ; mkdir libtommath-$(VERSION) ; \
cp -R ./libtommath/* ./libtommath-$(VERSION)/ ; \
tar -c libtommath-$(VERSION)/* | bzip2 -9vvc > ltm-$(VERSION).tar.bz2 ; \
zip -9 -r ltm-$(VERSION).zip libtommath-$(VERSION)/*