## The `mpgen' tool for dealing with these things.
mpgen = $(srcdir)/mpgen
EXTRA_DIST += mpgen
-AM_V_MPGEN = $(AM_V_MPGEN_$(V))
-AM_V_MPGEN_ = $(AM_V_MPGEN_$(AM_DEFAULT_VERBOSITY))
-AM_V_MPGEN_0 = @echo " 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'.
mpx_mul4_t_CPPFLAGS = \
$(AM_CPPFLAGS) \
-DTEST_MUL4 -DSRCDIR="\"$(srcdir)\""
+mpx_mul4_t_LDFLAGS = $(TEST_LDFLAGS)
mpx_mul4_t_LDADD = $(top_builddir)/libcatacomb.la $(mLib_LIBS)
EXTRA_DIST += t/mpx-mul4
pkginclude_HEADERS += pgen.h
libmath_la_SOURCES += pgen.c
libmath_la_SOURCES += pgen-gcd.c
+libmath_la_SOURCES += pgen-granfrob.c
libmath_la_SOURCES += pgen-simul.c
libmath_la_SOURCES += pgen-stdev.c
-TESTS += pgen.t$(EXEEXT)
+TESTS += pgen.t$(EXEEXT) pgen-granfrob.t$(EXEEXT)
EXTRA_DIST += t/pgen
## Finding primitive elements in finite fields.
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)
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)