libm/Makefile.in

   1 # Makefile for uClibc
   2 #
   3 # Copyright (C) 2000-2008 Erik Andersen <andersen@uclibc.org>
   4 #
   5 # Licensed under the LGPL v2.1, see the file COPYING.LIB in this tarball.
   6 #
   7 # The routines included in this math library are derived from the
   8 # math library for Apple's MacOS X/Darwin math library, which was
   9 # itself swiped from FreeBSD.  The original copyright information
  10 # is as follows:
  11 #
  12 #     Copyright (C) 1993 by Sun Microsystems, Inc. All rights reserved.
  13 #
  14 #     Developed at SunPro, a Sun Microsystems, Inc. business.
  15 #     Permission to use, copy, modify, and distribute this
  16 #     software is freely granted, provided that this notice
  17 #     is preserved.
  18 #
  19 # It has been ported to work with uClibc and generally behave
  20 # by Erik Andersen <andersen@codepoet.org>
  21 #
  22
  23 subdirs += libm
  24
  25 CFLAGS-libm := -DNOT_IN_libc -DIS_IN_libm $(SSP_ALL_CFLAGS)
  26 CFLAGS-libm += -D_IEEE_LIBM
  27
  28 LDFLAGS-libm.so := $(LDFLAGS)
  29
  30 LIBS-libm.so := $(LIBS)
  31
  32 libm_FULL_NAME := libm-$(VERSION).so
  33
  34 libm_DIR:=$(top_srcdir)libm
  35 libm_OUT:=$(top_builddir)libm
  36
  37 # Fix builds for powerpc as there are different cores in this
  38 # section now.`
  39 ifeq ($(TARGET_ARCH)-$(CONFIG_E500),powerpc-y)
  40 libm_ARCH_DIR:=$(libm_DIR)/$(TARGET_ARCH)/e500
  41 libm_ARCH_OUT:=$(libm_OUT)/$(TARGET_ARCH)/e500
  42 else
  43 libm_ARCH_DIR:=$(libm_DIR)/$(TARGET_ARCH)
  44 libm_ARCH_OUT:=$(libm_OUT)/$(TARGET_ARCH)
  45 endif
  46
  47 ifeq ($(UCLIBC_HAS_FPU),y)
  48 ifeq ($(DO_C99_MATH),y)
  49 -include $(libm_ARCH_DIR)/Makefile.arch
  50 endif
  51 endif
  52
  53 FL_MSRC := float_wrappers.c
  54 LD_MSRC := ldouble_wrappers.c
  55
  56 ifeq ($(DO_C99_MATH),y)
  57 libm_CSRC := \
  58         e_acos.c e_acosh.c e_asin.c e_atan2.c e_atanh.c e_cosh.c \
  59         e_exp.c e_fmod.c e_hypot.c e_j0.c \
  60         e_j1.c e_jn.c e_lgamma_r.c e_log.c e_log2.c e_log10.c \
  61         e_pow.c e_remainder.c e_rem_pio2.c e_scalb.c e_sinh.c \
  62         e_sqrt.c k_cos.c k_rem_pio2.c k_sin.c k_standard.c k_tan.c \
  63         s_asinh.c s_atan.c s_cbrt.c s_ceil.c s_copysign.c s_cos.c \
  64         s_erf.c s_expm1.c s_fabs.c s_finite.c s_floor.c s_frexp.c \
  65         s_ilogb.c s_ldexp.c s_lib_version.c s_lrint.c s_lround.c s_llround.c \
  66         s_log1p.c s_logb.c s_matherr.c s_modf.c s_nextafter.c \
  67         s_nextafterf.c s_round.c \
  68         s_rint.c s_scalbn.c s_signgam.c s_significand.c s_sin.c s_tan.c \
  69         s_tanh.c s_trunc.c \
  70         w_cabs.c \
  71         nan.c carg.c s_llrint.c \
  72         s_fpclassify.c s_fpclassifyf.c s_signbit.c s_signbitf.c \
  73         s_isnan.c s_isnanf.c s_isinf.c s_isinff.c s_finitef.c \
  74         s_fdim.c s_fma.c s_fmax.c s_fmin.c \
  75         s_remquo.c w_exp2.c
  76
  77 # Not implemented [yet?], see comment in float_wrappers.c:
  78 # exp2f.o fdimf.o fmaf.o fmaxf.o fminf.o log2f.o
  79 # nearbyintf.o remquof.o scalblnf.o tgammaf.o
  80 FL_MOBJ := \
  81         acosf.o \
  82         acoshf.o \
  83         asinf.o \
  84         asinhf.o \
  85         atan2f.o \
  86         atanf.o \
  87         atanhf.o \
  88         cargf.o \
  89         cbrtf.o \
  90         ceilf.o \
  91         copysignf.o \
  92         cosf.o \
  93         coshf.o \
  94         erfcf.o \
  95         erff.o \
  96         expf.o \
  97         expm1f.o \
  98         fabsf.o \
  99         floorf.o \
 100         fmodf.o \
 101         frexpf.o \
 102         gammaf.o \
 103         hypotf.o \
 104         ilogbf.o \
 105         ldexpf.o \
 106         lgammaf.o \
 107         llrintf.o \
 108         llroundf.o \
 109         log10f.o \
 110         log1pf.o \
 111         logbf.o \
 112         logf.o \
 113         lrintf.o \
 114         lroundf.o \
 115         modff.o \
 116         powf.o \
 117         remainderf.o \
 118         rintf.o \
 119         roundf.o \
 120         scalbf.o \
 121         scalbnf.o \
 122         significandf.o \
 123         sinf.o \
 124         sinhf.o \
 125         sqrtf.o \
 126         tanf.o \
 127         tanhf.o \
 128         truncf.o \
 129
 130 # Not implemented [yet?]: nexttowardl.o
 131 LD_MOBJ := \
 132         __finitel.o \
 133         __fpclassifyl.o \
 134         __isinfl.o \
 135         __isnanl.o \
 136         __signbitl.o \
 137         acoshl.o \
 138         acosl.o \
 139         asinhl.o \
 140         asinl.o \
 141         atan2l.o \
 142         atanhl.o \
 143         atanl.o \
 144         cargl.o \
 145         cbrtl.o \
 146         ceill.o \
 147         copysignl.o \
 148         coshl.o \
 149         cosl.o \
 150         erfcl.o \
 151         erfl.o \
 152         exp2l.o \
 153         expl.o \
 154         expm1l.o \
 155         fabsl.o \
 156         fdiml.o \
 157         floorl.o \
 158         fmal.o \
 159         fmaxl.o \
 160         fminl.o \
 161         fmodl.o \
 162         frexpl.o \
 163         gammal.o \
 164         hypotl.o \
 165         ilogbl.o \
 166         ldexpl.o \
 167         lgammal.o \
 168         llrintl.o \
 169         llroundl.o \
 170         log10l.o \
 171         log1pl.o \
 172         log2l.o \
 173         logbl.o \
 174         logl.o \
 175         lrintl.o \
 176         lroundl.o \
 177         modfl.o \
 178         nearbyintl.o \
 179         nextafterl.o \
 180         powl.o \
 181         remainderl.o \
 182         remquol.o \
 183         rintl.o \
 184         roundl.o \
 185         scalblnl.o \
 186         scalbnl.o \
 187         significandl.o \
 188         sinhl.o \
 189         sinl.o \
 190         sqrtl.o \
 191         tanhl.o \
 192         tanl.o \
 193         tgammal.o \
 194         truncl.o \
 195
 196 else
 197
 198 # This list of math functions was taken from POSIX/IEEE 1003.1b-1993
 199 libm_CSRC := \
 200         s_atan.c s_ceil.c s_cos.c \
 201         s_fabs.c s_floor.c s_frexp.c \
 202         s_ldexp.c s_modf.c s_sin.c \
 203         s_tan.c s_tanh.c \
 204         s_expm1.c s_scalbn.c s_copysign.c e_acos.c e_asin.c e_atan2.c \
 205         k_cos.c e_cosh.c e_exp.c e_fmod.c e_log.c e_log10.c e_pow.c \
 206         k_sin.c e_sinh.c e_sqrt.c k_tan.c e_rem_pio2.c k_rem_pio2.c \
 207         s_finite.c
 208 # We'll add sqrtf to avoid problems with libstdc++
 209 FL_MOBJ := sqrtf.o
 210 endif
 211
 212 # assume that arch specific versions are provided as single sources/objects
 213 ifeq ($(UCLIBC_HAS_FPU),y)
 214 ifeq ($(DO_C99_MATH),y)
 215 ifneq ($(strip $(libm_ARCH_OBJS)),)
 216 ifeq ($(TARGET_ARCH)-$(CONFIG_E500),powerpc-y)
 217 CFLAGS-libm/$(TARGET_ARCH)/e500/ := $(CFLAGS-libm)
 218 else
 219 CFLAGS-libm/$(TARGET_ARCH)/ := $(CFLAGS-libm)
 220 endif
 221
 222 # remove generic sources, if arch specific version is present
 223 ifneq ($(strip $(libm_ARCH_SRC)),)
 224 libm_CSRC := $(filter-out $(notdir $(libm_ARCH_SRC)),$(libm_CSRC))
 225 endif
 226
 227 # remove generic objects built from multi-sources, if arch specific version is present
 228 FL_MOBJ := $(filter-out $(notdir $(libm_ARCH_OBJS)),$(FL_MOBJ))
 229 LD_MOBJ := $(filter-out $(notdir $(libm_ARCH_OBJS)),$(LD_MOBJ))
 230
 231 # we also try to remove % if s_% is in arch specific subdir
 232 FL_MOBJ := $(filter-out $(patsubst s_%.o,%.o,$(notdir $(libm_ARCH_OBJS))),$(FL_MOBJ))
 233 LD_MOBJ := $(filter-out $(patsubst s_%.o,%.o,$(notdir $(libm_ARCH_OBJS))),$(LD_MOBJ))
 234 endif
 235 endif
 236 endif
 237
 238 libm_SRC := $(patsubst %.c,$(libm_DIR)/%.c,$(libm_CSRC))
 239 libm_OBJ := $(patsubst $(libm_DIR)/%.c,$(libm_OUT)/%.o,$(libm_SRC))
 240
 241 ifeq ($(strip $(UCLIBC_HAS_LONG_DOUBLE_MATH)),y)
 242 libm_MSRC_LD := $(libm_DIR)/$(LD_MSRC)
 243 libm_MOBJ_LD := $(patsubst %.o,$(libm_OUT)/%.o,$(LD_MOBJ))
 244 endif
 245 libm_MSRC_FL := $(libm_DIR)/$(FL_MSRC)
 246 libm_MOBJ_FL := $(patsubst %.o,$(libm_OUT)/%.o,$(FL_MOBJ))
 247
 248
 249 ifneq ($(DOMULTI),n)
 250 CFLAGS-libm += $(patsubst %,-DL_%,$(subst .o,,$(notdir $(libm_MOBJ_FL))))
 251 ifeq ($(strip $(UCLIBC_HAS_LONG_DOUBLE_MATH)),y)
 252 CFLAGS-libm += $(patsubst %,-DL_%,$(subst .o,,$(notdir $(libm_MOBJ_LD))))
 253 endif
 254 endif
 255
 256 libm_OBJS := $(libm_OBJ) $(libm_MOBJ_FL) $(libm_MOBJ_LD)
 257
 258 ifeq ($(DOPIC),y)
 259 libm-a-y += $(libm_OBJS:.o=.os)
 260 else
 261 libm-a-y += $(libm_OBJS)
 262 endif
 263 libm-so-y += $(libm_OBJS:.o=.os)
 264
 265 lib-a-$(UCLIBC_HAS_FLOATS) += $(top_builddir)lib/libm.a
 266 lib-so-$(UCLIBC_HAS_FLOATS) += $(top_builddir)lib/libm.so
 267 objclean-y += libm_clean
 268
 269 ifeq ($(DOMULTI),n)
 270 ifeq ($(DOPIC),y)
 271 $(top_builddir)lib/libm.so: $(top_builddir)lib/libm.a $(libc.depend)
 272 else
 273 $(top_builddir)lib/libm.so: $(libm_OUT)/libm_so.a $(libc.depend)
 274 endif
 275         $(call link.so,$(libm_FULL_NAME),$(MAJOR_VERSION))
 276 else
 277 $(top_builddir)lib/libm.so: $(libm_OUT)/libm.oS | $(libc.depend)
 278         $(call linkm.so,$(libm_FULL_NAME),$(MAJOR_VERSION))
 279 endif
 280
 281 $(libm_OUT)/libm_so.a: $(libm-so-y)
 282         $(Q)$(RM) $@
 283         $(do_ar)
 284
 285 $(libm_OUT)/libm.oS: $(libm_SRC) $(libm_MSRC_FL) $(libm_MSRC_LD) $(libm_ARCH_SRC)
 286         $(Q)$(RM) $@
 287         $(compile-m)
 288
 289 $(top_builddir)lib/libm.a: $(libm-a-y)
 290         $(Q)$(INSTALL) -d $(dir $@)
 291         $(Q)$(RM) $@
 292         $(do_ar)
 293
 294 $(libm_MOBJ_FL): $(libm_MSRC_FL)
 295         $(compile.m)
 296
 297 $(libm_MOBJ_LD): $(libm_MSRC_LD)
 298         $(compile.m)
 299
 300 $(libm_MOBJ_FL:.o=.os): $(libm_MSRC_FL)
 301         $(compile.m)
 302
 303 $(libm_MOBJ_LD:.o=.os): $(libm_MSRC_LD)
 304         $(compile.m)
 305
 306 # spare us from adding a gazillion dummy two-liner files
 307 $(libm_MOBJ_FL:.o=.i): $(libm_MSRC_FL)
 308         $(compile.mi)
 309
 310 $(libm_MOBJ_LD:.o=.i): $(libm_MSRC_LD)
 311         $(compile.mi)
 312
 313 libm_clean:
 314         $(do_rm) $(addprefix $(libm_OUT)/,$(foreach e, o os oS a,$(foreach d, *. */*. */*/*.,$(d)$(e))))