Merge branch '2.4.x' into 2.5.x

[catacomb] / math / Makefile.am

### -*-makefile-*-
###
### Build script for mathematical infrastructure
###
### (c) 2013 Straylight/Edgeware
###

###----- Licensing notice ---------------------------------------------------
###
### This file is part of Catacomb.
###
### Catacomb is free software; you can redistribute it and/or modify
### it under the terms of the GNU Library General Public License as
### published by the Free Software Foundation; either version 2 of the
### License, or (at your option) any later version.
###
### Catacomb 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 Library General Public License for more details.
###
### You should have received a copy of the GNU Library General Public
### License along with Catacomb; if not, write to the Free
### Software Foundation, Inc., 59 Temple Place - Suite 330, Boston,
### MA 02111-1307, USA.

include $(top_srcdir)/vars.am

noinst_LTLIBRARIES       = libmath.la
libmath_la_SOURCES       =
nodist_libmath_la_SOURCES =
libmath_la_LIBADD        =

TEST_LIBS                = libmath.la

###--------------------------------------------------------------------------
### Representation of multiprecision integers.

## The `mpgen' tool for dealing with these things.
mpgen                    = $(srcdir)/mpgen
EXTRA_DIST              += mpgen
AM_V_MPGEN               = $(AM_V_MPGEN_@AM_V@)
AM_V_MPGEN_              = $(AM_V_MPGEN_@AM_DEFAULT_V@)
AM_V_MPGEN_0             = @echo "  MPGEN    $@";
MPGEN                    = $(AM_V_MPGEN)$(PYTHON) $(mpgen)

## The type information collected by `configure'.
CLEANFILES              += typeinfo.py
EXTRA_DIST              += typeinfo.py.in
typeinfo.py: $(srcdir)/typeinfo.py.in Makefile
        $(SUBST) $(srcdir)/typeinfo.py.in >typeinfo.py.new \
                type_bits="@type_bits@" \
                limits="@limits@" && \
        mv typeinfo.py.new typeinfo.py

## The header file containing our representation choices.
BUILT_SOURCES           += mptypes.h
CLEANFILES              += mptypes.h
nodist_archinclude_HEADERS += mptypes.h
mptypes.h: $(mpgen) typeinfo.py
        $(MPGEN) mptypes >mptypes.h.in && mv mptypes.h.in mptypes.h

## Limits of C types as multiprecision integers.
BUILT_SOURCES           += mplimits.h mplimits.c
CLEANFILES              += mplimits.h mplimits.c
nodist_archinclude_HEADERS += mplimits.h
nodist_libmath_la_SOURCES += mplimits.c
mplimits.h: $(mpgen) typeinfo.py
        $(MPGEN) mplimits_h >mplimits.h.in && mv mplimits.h.in mplimits.h
mplimits.c: $(mpgen) typeinfo.py
        $(MPGEN) mplimits_c >mplimits.c.in && mv mplimits.c.in mplimits.c

###--------------------------------------------------------------------------
### Main multiprecision integer library.

## Additional buffer I/O functions for mathematical objects.
pkginclude_HEADERS      += buf.h
libmath_la_SOURCES      += buf.c

## Infrastructure for fast exponentiation.
pkginclude_HEADERS      += exp.h
libmath_la_SOURCES      += exp.c

## Main user-visible multiprecision arithmetic.
pkginclude_HEADERS      += mp.h
libmath_la_SOURCES      += mp-arith.c
TESTS                   += mp-arith.t$(EXEEXT)
libmath_la_SOURCES      += mp-const.c
libmath_la_SOURCES      += mp-exp.c mp-exp.h
libmath_la_SOURCES      += mp-gcd.c
TESTS                   += mp-gcd.t$(EXEEXT)
libmath_la_SOURCES      += mp-io.c
libmath_la_SOURCES      += mp-jacobi.c
TESTS                   += mp-jacobi.t$(EXEEXT)
libmath_la_SOURCES      += mp-mem.c
libmath_la_SOURCES      += mp-misc.c
libmath_la_SOURCES      += mp-modexp.c
TESTS                   += mp-modexp.t$(EXEEXT)
libmath_la_SOURCES      += mp-modsqrt.c
TESTS                   += mp-modsqrt.t$(EXEEXT)
libmath_la_SOURCES      += mp-sqrt.c
TESTS                   += mp-sqrt.t$(EXEEXT)
libmath_la_SOURCES      += mp-test.c
EXTRA_DIST              += t/mp

## Computing Fibonacci numbers.
pkginclude_HEADERS      += mp-fibonacci.h
libmath_la_SOURCES      += mp-fibonacci.c
TESTS                   += mp-fibonacci.t$(EXEEXT)

## Special memory allocation for multiprecision integers.
pkginclude_HEADERS      += mparena.h
libmath_la_SOURCES      += mparena.c

## Barrett reduction, an efficient method for modular reduction.
pkginclude_HEADERS      += mpbarrett.h
libmath_la_SOURCES      += mpbarrett.c
TESTS                   += mpbarrett.t$(EXEEXT)
libmath_la_SOURCES      += mpbarrett-exp.c mpbarrett-mexp.c mpbarrett-exp.h
TESTS                   += mpbarrett-exp.t$(EXEEXT) mpbarrett-mexp.t$(EXEEXT)
TESTS                   += mpbarrett.t$(EXEEXT)
EXTRA_DIST              += t/mpbarrett

## Solving congruences using the Chinese Remainder Theorem.
pkginclude_HEADERS      += mpcrt.h
libmath_la_SOURCES      += mpcrt.c
TESTS                   += mpcrt.t$(EXEEXT)
EXTRA_DIST              += t/mpcrt

## Conversions between machine-native and multiprecision integers.
pkginclude_HEADERS      += mpint.h
libmath_la_SOURCES      += mpint.c
TESTS                   += mpint.t$(EXEEXT)
EXTRA_DIST              += t/mpint

## Montgomery reduction, a clever method for modular arithmetic.
pkginclude_HEADERS      += mpmont.h
libmath_la_SOURCES      += mpmont.c
TESTS                   += mpmont.t$(EXEEXT)
libmath_la_SOURCES      += mpmont-exp.c mpmont-mexp.c mpmont-exp.h
TESTS                   += mpmont-exp.t$(EXEEXT) mpmont-mexp.t$(EXEEXT)
EXTRA_DIST              += t/mpmont

## Efficient multiplication of many small numbers.
pkginclude_HEADERS      += mpmul.h
libmath_la_SOURCES      += mpmul.c
TESTS                   += mpmul.t$(EXEEXT)

## Generating random numbers.
pkginclude_HEADERS      += mprand.h
libmath_la_SOURCES      += mprand.c

## Efficient reduction modulo numbers with conveninent binary
## representations.
pkginclude_HEADERS      += mpreduce.h
libmath_la_SOURCES      += mpreduce.c mpreduce-exp.h
TESTS                   += mpreduce.t$(EXEEXT)
EXTRA_DIST              += t/mpreduce

## Iteratiion over the bianry representation of multiprecision integers.
pkginclude_HEADERS      += mpscan.h
libmath_la_SOURCES      += mpscan.c

## Conversion between multiprecision integers and their textual
## representations.
pkginclude_HEADERS      += mptext.h
libmath_la_SOURCES      += mptext.c
TESTS                   += mptext.t$(EXEEXT)
libmath_la_SOURCES      += mptext-dstr.c
libmath_la_SOURCES      += mptext-file.c
libmath_la_SOURCES      += mptext-len.c
libmath_la_SOURCES      += mptext-string.c
EXTRA_DIST              += t/mptext

## Low-level multiprecision arithmetic.
pkginclude_HEADERS      += mpx.h bitops.h mpw.h
libmath_la_SOURCES      += mpx.c
TESTS                   += mpx.t$(EXEEXT)
libmath_la_SOURCES      += karatsuba.h mpx-kmul.c mpx-ksqr.c
TESTS                   += mpx-kmul.t$(EXEEXT) mpx-ksqr.t$(EXEEXT)
noinst_PROGRAMS         += bittest
TESTS                   += bittest
EXTRA_DIST              += t/mpx

if CPUFAM_X86
MPX_MUL4_SOURCES         = mpx-mul4-x86-sse2.S
check_PROGRAMS          += mpx-mul4.t
TESTS                   += mpx-mul4.t$(EXEEXT)
endif
if CPUFAM_AMD64
MPX_MUL4_SOURCES         = mpx-mul4-amd64-sse2.S
check_PROGRAMS          += mpx-mul4.t
TESTS                   += mpx-mul4.t$(EXEEXT)
endif
libmath_la_SOURCES      += $(MPX_MUL4_SOURCES)
mpx_mul4_t_SOURCES       = mpx-mul4-test.c $(MPX_MUL4_SOURCES)
mpx_mul4_t_CPPFLAGS      = \
        $(AM_CPPFLAGS) \
        -DTEST_MUL4 -DSRCDIR="\"$(srcdir)\""
mpx_mul4_t_LDFLAGS       = $(TEST_LDFLAGS)
mpx_mul4_t_LDADD         = $(top_builddir)/libcatacomb.la $(mLib_LIBS)
EXTRA_DIST              += t/mpx-mul4

## A quick-and-dirty parser, used for parsing descriptions of groups, fields,
## etc.
pkginclude_HEADERS      += qdparse.h
libmath_la_SOURCES      += qdparse.c

## Pollard's `rho' algorithm for determining discrete logarithms.
pkginclude_HEADERS      += rho.h
libmath_la_SOURCES      += rho.c
TESTS                   += rho.t$(EXEEXT)

###--------------------------------------------------------------------------
### Prime number checking, searching, and related jobs.

## Generating Lim--Lee groups, i.e., unit groups of finite fields without
## small subgroups (except for the obvious ones).
pkginclude_HEADERS      += limlee.h
libmath_la_SOURCES      += limlee.c

## A table of small prime numbers.
pkginclude_HEADERS      += $(precomp)/math/primetab.h
nodist_libmath_la_SOURCES += ../precomp/math/primetab.c
PRECOMPS                += $(precomp)/math/primetab.h \
                           $(precomp)/math/primetab.c
PRECOMP_PROGS           += genprimes
genprimes_LDADD          = $(mLib_LIBS)
if !CROSS_COMPILING
$(precomp)/math/primetab.h: $(precomp)/math/primetab.c
$(precomp)/math/primetab.c:
        $(AM_V_at)$(MKDIR_P) $(precomp)/math
        $(AM_V_at)$(MAKE) genprimes$(EXEEXT)
        $(AM_V_GEN)./genprimes -sCATACOMB_PRIMETAB_H \
                -h$(precomp)/math/primetab.h -c$(precomp)/math/primetab.c \
                -n256 -t"unsigned short" -iprimetab
endif

## Filtering candidate prime numbers by checking for small factors
## efficiently.
pkginclude_HEADERS      += pfilt.h
libmath_la_SOURCES      += pfilt.c

## Generating prime numbers (and other kinds of numbers which need searching
## for).
pkginclude_HEADERS      += pgen.h
libmath_la_SOURCES      += pgen.c
libmath_la_SOURCES      += pgen-gcd.c
libmath_la_SOURCES      += pgen-granfrob.c
libmath_la_SOURCES      += pgen-simul.c
libmath_la_SOURCES      += pgen-stdev.c
TESTS                   += pgen.t$(EXEEXT) pgen-granfrob.t$(EXEEXT)
EXTRA_DIST              += t/pgen

## Finding primitive elements in finite fields.
pkginclude_HEADERS      += prim.h
libmath_la_SOURCES      += prim.c

## Iterating over all prime numbers from a given starting point.
pkginclude_HEADERS      += primeiter.h
libmath_la_SOURCES      += primeiter.c
TESTS                   += primeiter.t$(EXEEXT)
primeiter.lo: $(precomp)/math/wheel.h

## The Miller--Rabin primality test.
pkginclude_HEADERS      += rabin.h
libmath_la_SOURCES      += rabin.c

## Finding `strong' primes, using Gordon's algorithm.  Once upon a time,
## products of these kinds of numbers were harder to factor.
pkginclude_HEADERS      += strongprime.h
libmath_la_SOURCES      += strongprime.c

## A `wheel', used by the prime iteration machinery.
pkginclude_HEADERS      += $(precomp)/math/wheel.h
nodist_libmath_la_SOURCES += ../precomp/math/wheel.c
PRECOMPS                += $(precomp)/math/wheel.h $(precomp)/math/wheel.c
PRECOMP_PROGS           += genwheel
genwheel_LDADD           = $(mLib_LIBS)
if !CROSS_COMPILING
$(precomp)/math/wheel.h: $(precomp)/math/wheel.c
$(precomp)/math/wheel.c:
        $(AM_V_at)$(MKDIR_P) $(precomp)/math
        $(AM_V_at)$(MAKE) genwheel$(EXEEXT)
        $(AM_V_GEN)./genwheel -sCATACOMB_WHEEL_H \
                -h$(precomp)/math/wheel.h -c$(precomp)/math/wheel.c \
                -n5 -t"unsigned char" -iwheel
endif

###--------------------------------------------------------------------------
### Binary polynomial arithmetic.

## User-visible binary polynomial arithmetic.
pkginclude_HEADERS      += gf.h
libmath_la_SOURCES      += gf-arith.c
TESTS                   += gf-arith.t$(EXEEXT)
libmath_la_SOURCES      += gf-exp.c gf-exp.h
libmath_la_SOURCES      += gf-gcd.c
TESTS                   += gf-gcd.t$(EXEEXT)
EXTRA_DIST              += t/gf

## Low-level binary polynomial arithmetic.
pkginclude_HEADERS      += gfx.h
libmath_la_SOURCES      += gfx.c
TESTS                   += gfx.t$(EXEEXT)
libmath_la_SOURCES      += gfx-kmul.c
TESTS                   += gfx-kmul.t$(EXEEXT)
libmath_la_SOURCES      += gfx-sqr.c
nodist_libmath_la_SOURCES += ../precomp/math/gfx-sqrtab.c
PRECOMPS                += $(precomp)/math/gfx-sqrtab.c
PRECOMP_PROGS           += gfx-sqr-mktab
if !CROSS_COMPILING
$(precomp)/math/gfx-sqrtab.c:
        $(AM_V_at)$(MKDIR_P) $(precomp)/math
        $(AM_V_at)$(MAKE) gfx-sqr-mktab$(EXEEXT)
        $(AM_V_GEN)./gfx-sqr-mktab >$(precomp)/math/gfx-sqrtab.c.new && \
                mv $(precomp)/math/gfx-sqrtab.c.new \
                        $(precomp)/math/gfx-sqrtab.c
endif
TESTS                   += gfx-sqr.t$(EXEEXT)
EXTRA_DIST              += t/gfx

## Conversions between normal and polynomial basis representations for binary
## fields.
pkginclude_HEADERS      += gfn.h
libmath_la_SOURCES      += gfn.c
TESTS                   += gfn.t$(EXEEXT)
EXTRA_DIST              += t/gfn

## Efficient reduction modulo sparse polynomials.
pkginclude_HEADERS      += gfreduce.h
libmath_la_SOURCES      += gfreduce.c gfreduce-exp.h
TESTS                   += gfreduce.t$(EXEEXT)
EXTRA_DIST              += t/gfreduce

###--------------------------------------------------------------------------
### Abstractions for various kinds of algebraic objects.

## Abstract cyclic groups.
pkginclude_HEADERS      += group.h group-guts.h
libmath_la_SOURCES      += group-dstr.c
libmath_la_SOURCES      += group-exp.c group-exp.h
libmath_la_SOURCES      += group-file.c
libmath_la_SOURCES      += group-parse.c
libmath_la_SOURCES      += group-stdops.c
libmath_la_SOURCES      += group-string.c
libmath_la_SOURCES      += g-bin.c
libmath_la_SOURCES      += g-prime.c
libmath_la_SOURCES      += g-ec.c
EXTRA_DIST              += group-test.c
TESTS                   += group-test.t$(EXEEXT)
EXTRA_DIST              += t/group

## Abstract finite fields.
pkginclude_HEADERS      += field.h field-guts.h
libmath_la_SOURCES      += field.c
libmath_la_SOURCES      += field-exp.c field-exp.h
libmath_la_SOURCES      += field-parse.c
libmath_la_SOURCES      += f-binpoly.c
libmath_la_SOURCES      += f-niceprime.c
libmath_la_SOURCES      += f-prime.c

## Table of built-in binary fields.
pkginclude_HEADERS      += bintab.h
nodist_libmath_la_SOURCES += bintab.c
CLEANFILES              += bintab.c
EXTRA_DIST              += bintab.in
bintab.c: $(mpgen) typeinfo.py bintab.in
        $(MPGEN) bintab $(srcdir)/bintab.in >bintab.c.new && \
                mv bintab.c.new bintab.c

## Table of built-in prime fields.
pkginclude_HEADERS      += ptab.h
nodist_libmath_la_SOURCES += ptab.c
CLEANFILES              += ptab.c
EXTRA_DIST              += ptab.in
ptab.c: $(mpgen) typeinfo.py ptab.in
        $(MPGEN) ptab $(srcdir)/ptab.in >ptab.c.new && \
                mv ptab.c.new ptab.c

###--------------------------------------------------------------------------
### Elliptic curve arithmetic.

## Basic elliptic curve arithmetic.
pkginclude_HEADERS      += ec.h ec-guts.h
libmath_la_SOURCES      += ec.c
libmath_la_SOURCES      += ec-exp.c ec-exp.h
libmath_la_SOURCES      += ec-info.c
TESTS                   += ec-info.t$(EXEEXT)
libmath_la_SOURCES      += ec-bin.c
TESTS                   += ec-bin.t$(EXEEXT)
libmath_la_SOURCES      += ec-prime.c
TESTS                   += ec-prime.t$(EXEEXT)
EXTRA_DIST              += t/ec

## The standard `raw' encoding (`EC2OSP') of elliptic curve points.
pkginclude_HEADERS      += ec-raw.h
libmath_la_SOURCES      += ec-raw.c

## Assistance for elliptic-curve keys.
pkginclude_HEADERS      += ec-keys.h
libmath_la_SOURCES      += ec-fetch.c

## Test infrastructure for elliptic curves.
pkginclude_HEADERS      += ec-test.h
libmath_la_SOURCES      += ec-test.c
TESTS                   += ec-test.t$(EXEEXT)

## Table of built-in elliptic-curve groups.
pkginclude_HEADERS      += ectab.h
nodist_libmath_la_SOURCES += ectab.c
CLEANFILES              += ectab.c
EXTRA_DIST              += ectab.in
ectab.c: $(mpgen) typeinfo.py ectab.in
        $(MPGEN) ectab $(srcdir)/ectab.in >ectab.c.new && \
                mv ectab.c.new ectab.c

###--------------------------------------------------------------------------
### Other strange things.

pkginclude_HEADERS      += qfarith.h

pkginclude_HEADERS      += f25519.h
libmath_la_SOURCES      += f25519.c
TESTS                   += f25519.t$(EXEEXT)
TESTS                   += f25519-p10.t$(EXEEXT)
EXTRA_DIST              += t/f25519

check_PROGRAMS          += f25519-p10.t
f25519_p10_t_SOURCES     = f25519.c
f25519_p10_t_CPPFLAGS    = $(AM_CPPFLAGS) -DTEST_RIG -DSRCDIR="\"$(srcdir)\""
f25519_p10_t_CPPFLAGS   += -DF25519_IMPL=10
f25519_p10_t_LDFLAGS     = $(TEST_LDFLAGS)
f25519_p10_t_LDADD       = $(TEST_LIBS) $(top_builddir)/libcatacomb.la
f25519_p10_t_LDADD      += $(mLib_LIBS) $(CATACOMB_LIBS) $(LIBS)

pkginclude_HEADERS      += fgoldi.h
libmath_la_SOURCES      += fgoldi.c
TESTS                   += fgoldi.t$(EXEEXT)
TESTS                   += fgoldi-p12.t$(EXEEXT)
EXTRA_DIST              += t/fgoldi

check_PROGRAMS          += fgoldi-p12.t
fgoldi_p12_t_SOURCES     = fgoldi.c
fgoldi_p12_t_CPPFLAGS    = $(AM_CPPFLAGS) -DTEST_RIG -DSRCDIR="\"$(srcdir)\""
fgoldi_p12_t_CPPFLAGS   += -DFGOLDI_IMPL=12
fgoldi_p12_t_LDFLAGS     = $(TEST_LDFLAGS)
fgoldi_p12_t_LDADD       = $(TEST_LIBS) $(top_builddir)/libcatacomb.la
fgoldi_p12_t_LDADD      += $(mLib_LIBS) $(CATACOMB_LIBS) $(LIBS)

pkginclude_HEADERS      += scaf.h
libmath_la_SOURCES      += scaf.c

pkginclude_HEADERS      += montladder.h
pkginclude_HEADERS      += scmul.h

###----- That's all, folks --------------------------------------------------