1 |
AC_INIT(configure.in) |
2 |
|
3 |
#------------------------------------------------------------------------------------ |
4 |
# LinuxSampler's / liblinuxsampler's "official" release version: |
5 |
|
6 |
LINUXSAMPLER_RELEASE_MAJOR=0 |
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LINUXSAMPLER_RELEASE_MINOR=3 |
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LINUXSAMPLER_RELEASE_BUILD=3cvs |
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|
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#------------------------------------------------------------------------------------ |
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# The following is the libtool / shared library version. This doesn't have to |
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# do anything with the release version. It MUST conform to the following rules: |
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# |
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# 1. Start with version information of `0:0:0' for each libtool library. |
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# 2. Update the version information only immediately before a public release of |
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# your software. More frequent updates are unnecessary, and only guarantee |
17 |
# that the current interface number gets larger faster. |
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# 3. If the library source code has changed at all since the last update, then |
19 |
# increment revision (`c:r:a' becomes `c:r+1:a'). |
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# 4. If any interfaces have been added, removed, or changed since the last update, |
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# increment current, and set revision to 0. |
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# 5. If any interfaces have been added since the last public release, then increment |
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# age. |
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# 6. If any interfaces have been removed since the last public release, then set age |
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# to 0. |
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|
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LIBLINUXSAMPLER_LT_CURRENT=0 |
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LIBLINUXSAMPLER_LT_REVISION=0 |
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LIBLINUXSAMPLER_LT_AGE=0 |
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SHARED_VERSION_INFO="$LIBLINUXSAMPLER_LT_CURRENT:$LIBLINUXSAMPLER_LT_REVISION:$LIBLINUXSAMPLER_LT_AGE" |
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|
32 |
AM_PROG_LIBTOOL |
33 |
|
34 |
AC_SUBST(SHLIB_VERSION_ARG) |
35 |
AC_SUBST(SHARED_VERSION_INFO) |
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|
37 |
AC_C_BIGENDIAN |
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AC_CANONICAL_SYSTEM |
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|
40 |
AC_SUBST(target) |
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AC_SUBST(target_alias) |
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AC_SUBST(target_cpu) |
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AC_SUBST(target_os) |
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AC_SUBST(target_vendor) |
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|
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|
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########################################################################### |
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# General Checks |
49 |
|
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AC_MSG_CHECKING([whether x86 architecture]) |
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def_arch_x86=0 |
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case $target_cpu in |
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"i386" | "i486" | "i586" | "i686" | "i786") |
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echo "yes" |
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def_arch_x86=1;; |
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*) |
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echo "no";; |
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esac |
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AC_DEFINE_UNQUOTED(ARCH_X86,$def_arch_x86,[Define to 1 if you build for x86 architecture.]) |
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|
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# determine the right gcc switch for CPU specific optimizations |
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# (only if the user did not provide one) |
63 |
CXX_CPU_SWITCH= |
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if ! echo "X $CXXFLAGS " | grep -q -- " \(-march=\|-mcpu=\|-mtune=\|-arch=\)" ; then |
65 |
if test "$def_arch_x86" = 1; then |
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CXX_CPU_SWITCH="-march=$target_cpu" |
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elif test "$target_cpu" = "powerpc"; then |
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CXX_CPU_SWITCH="-arch=$target_cpu" |
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fi |
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fi |
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AC_SUBST([CXX_CPU_SWITCH]) |
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|
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AC_MSG_CHECKING([whether UNIX98 compatible]) |
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AC_LANG_SAVE |
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AC_LANG_C |
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AC_TRY_RUN([ |
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#ifndef _GNU_SOURCE |
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#define _GNU_SOURCE 1 |
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#endif |
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#include <features.h> |
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void main(void) { |
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#if _XOPEN_SOURCE >= 500 |
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exit(0); /* UNIX98 compatible */ |
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#else |
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exit(-1); /* not UNIX98 compatible */ |
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#endif |
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} |
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], |
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have_unix98="yes", |
90 |
have_unix98="no", |
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have_unix98="no" |
92 |
) |
93 |
AC_LANG_RESTORE |
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AC_MSG_RESULT([$have_unix98]) |
95 |
if test "$have_unix98" = "no"; then |
96 |
if test "x$HAVE_UNIX98" = "x"; then |
97 |
echo "LinuxSampler only runs on UNIX98 compatible systems, which is mandatory for" |
98 |
echo "pthread_mutexattr_settype() call in Mutex.cpp. You may want to run |
99 |
echo "./configure with environment variable HAVE_UNIX98=1 in case you think you |
100 |
echo "have a UNIX98 compatible system." |
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exit -1; |
102 |
fi |
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fi |
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|
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# check for <features.h> |
106 |
AC_CHECK_HEADERS(features.h) |
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|
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# Checks for available audio and MIDI systems / drivers |
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# (we throw an error if there's not at least one system for audio output and MIDI input available) |
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have_midi_input_driver="false" |
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have_audio_output_driver="false" |
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|
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AC_CHECK_HEADER(alsa/asoundlib.h, |
114 |
AC_CHECK_LIB(asound, main, |
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have_alsa=1 |
116 |
, |
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have_alsa=0 |
118 |
) |
119 |
, |
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have_alsa=0 |
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) |
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if test "$have_alsa" = "1"; then |
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have_midi_input_driver="true" |
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have_audio_output_driver="true"; |
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fi |
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AM_CONDITIONAL(HAVE_ALSA, test $have_alsa = "1") |
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AC_DEFINE_UNQUOTED(HAVE_ALSA,$have_alsa,[Define to 1 if you have ALSA installed.]) |
128 |
|
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echo -n "checking Alsa version... " |
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AC_LANG_SAVE |
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AC_LANG_C |
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AC_TRY_RUN([ |
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#include <alsa/asoundlib.h> |
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void main(void) { |
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/* ensure backward compatibility */ |
136 |
#if !defined(SND_LIB_MAJOR) && defined(SOUNDLIB_VERSION_MAJOR) |
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#define SND_LIB_MAJOR SOUNDLIB_VERSION_MAJOR |
138 |
#endif |
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exit(SND_LIB_MAJOR); |
140 |
} |
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], |
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alsa_major=0, |
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alsa_major=$?, |
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alsa_major=0 |
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) |
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AC_TRY_RUN([ |
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#include <alsa/asoundlib.h> |
148 |
void main(void) { |
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/* ensure backward compatibility */ |
150 |
#if !defined(SND_LIB_MINOR) && defined(SOUNDLIB_VERSION_MINOR) |
151 |
#define SND_LIB_MINOR SOUNDLIB_VERSION_MINOR |
152 |
#endif |
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exit(SND_LIB_MINOR); |
154 |
} |
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], |
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alsa_minor=0, |
157 |
alsa_minor=$?, |
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alsa_minor=0 |
159 |
) |
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AC_TRY_RUN([ |
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#include <alsa/asoundlib.h> |
162 |
void main(void) { |
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/* ensure backward compatibility */ |
164 |
#if !defined(SND_LIB_SUBMINOR) && defined(SOUNDLIB_VERSION_SUBMINOR) |
165 |
#define SND_LIB_SUBMINOR SOUNDLIB_VERSION_SUBMINOR |
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#endif |
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exit(SND_LIB_SUBMINOR); |
168 |
} |
169 |
], |
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alsa_subminor=0, |
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alsa_subminor=$?, |
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alsa_subminor=0 |
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) |
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AC_LANG_RESTORE |
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echo "$alsa_major.$alsa_minor.$alsa_subminor"; |
176 |
AC_DEFINE_UNQUOTED(ALSA_MAJOR,$alsa_major,[Define to the major version number of your Alsa installation.]) |
177 |
AC_DEFINE_UNQUOTED(ALSA_MINOR,$alsa_minor,[Define to the minor version number of your Alsa installation.]) |
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AC_DEFINE_UNQUOTED(ALSA_SUBMINOR,$alsa_subminor,[Define to the subminor version number of your Alsa installation.]) |
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|
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# JACK |
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PKG_CHECK_MODULES(JACK, jack, HAVE_JACK=true, HAVE_JACK=false) |
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AC_SUBST(JACK_LIBS) |
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AC_SUBST(JACK_CFLAGS) |
184 |
if test $HAVE_JACK = false; then |
185 |
HAVE_JACK=0; |
186 |
else |
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HAVE_JACK=1 |
188 |
have_audio_output_driver="true"; |
189 |
AC_CHECK_LIB(jack, jack_client_name_size, [AC_DEFINE(HAVE_JACK_CLIENT_NAME_SIZE, 1, [Define to 1 if you have the `jack_client_name_size' function.])], , $JACK_LIBS) |
190 |
fi |
191 |
AM_CONDITIONAL(HAVE_JACK, test $HAVE_JACK = 1) |
192 |
AC_DEFINE_UNQUOTED(HAVE_JACK,$HAVE_JACK,[Define to 1 if you have JACK installed.]) |
193 |
|
194 |
# MidiShare (Linux, OS X, Windows) |
195 |
AC_CHECK_HEADER(MidiShare.h, |
196 |
AC_CHECK_LIB(MidiShare, MidiCountEvs, |
197 |
have_midishare=1, |
198 |
have_midishare=0 |
199 |
) |
200 |
, |
201 |
have_midishare=0 |
202 |
) |
203 |
if test "$have_midishare" = "1"; then |
204 |
have_midi_input_driver="true" |
205 |
fi |
206 |
AM_CONDITIONAL(HAVE_MIDISHARE, test $have_midishare = "1") |
207 |
AC_DEFINE_UNQUOTED(HAVE_MIDISHARE,$have_midishare,[Define to 1 if you have MidiShare installed.]) |
208 |
|
209 |
# CoreMIDI (OS X) |
210 |
AC_CHECK_HEADER(CoreMIDI/CoreMIDI.h, |
211 |
have_coremidi=1, |
212 |
have_coremidi=0 |
213 |
) |
214 |
if test "$have_coremidi" = "1"; then |
215 |
have_midi_input_driver="true" |
216 |
fi |
217 |
AM_CONDITIONAL(HAVE_COREMIDI, test $have_coremidi = "1") |
218 |
AC_DEFINE_UNQUOTED(HAVE_COREMIDI,$have_coremidi,[Define to 1 if you have CoreMIDI installed.]) |
219 |
|
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# Check presence of libgig |
221 |
libgig_version="2.0.2" |
222 |
PKG_CHECK_MODULES(GIG, gig >= $libgig_version, HAVE_GIG=true, HAVE_GIG=false) |
223 |
if test "$HAVE_GIG" = "false"; then |
224 |
echo "Required libgig version not found!" |
225 |
echo "You need to have libgig version ${libgig_version} installed!" |
226 |
exit -1; |
227 |
else |
228 |
echo "yes, found libgig $libgig_version" |
229 |
fi |
230 |
AC_SUBST(GIG_CFLAGS) |
231 |
AC_SUBST(GIG_LIBS) |
232 |
|
233 |
# SQLITE3 |
234 |
PKG_CHECK_MODULES(SQLITE3, sqlite3, HAVE_SQLITE3=true, HAVE_SQLITE3=false) |
235 |
AC_SUBST(SQLITE3_LIBS) |
236 |
AC_SUBST(SQLITE3_CFLAGS) |
237 |
if test $HAVE_SQLITE3 = false; then |
238 |
HAVE_SQLITE3=0; |
239 |
echo "no, support for instrument DB will be disabled!" |
240 |
else |
241 |
HAVE_SQLITE3=1 |
242 |
echo "yes" |
243 |
fi |
244 |
AM_CONDITIONAL(HAVE_SQLITE3, test $HAVE_SQLITE3 = 1) |
245 |
AC_DEFINE_UNQUOTED(HAVE_SQLITE3,$HAVE_SQLITE3,[Define to 1 if you have SQLITE3 installed.]) |
246 |
|
247 |
if test "$have_midi_input_driver" = "false"; then |
248 |
echo "No supported MIDI input system found!" |
249 |
echo "Sorry, LinuxSampler only supports the following MIDI drivers at the moment:" |
250 |
echo "ALSA, MIDIShare, CoreMIDI." |
251 |
echo "If you think you have one of those available on your system, make sure you" |
252 |
echo "also have the respective development (header) files installed." |
253 |
exit -1; |
254 |
fi |
255 |
if test "$have_audio_output_driver" = "false"; then |
256 |
echo "No supported audio output system found!" |
257 |
echo "Sorry, LinuxSampler only supports ALSA and JACK as audio output driver at the moment!" |
258 |
exit -1; |
259 |
fi |
260 |
|
261 |
|
262 |
########################################################################### |
263 |
# Handle Configuration Options |
264 |
|
265 |
# TODO: should we use AC_ARG_VAR(variable, description) instead? |
266 |
|
267 |
AC_ARG_ENABLE(asm, |
268 |
[ --enable-asm |
269 |
Enable hand-crafted assembly optimizations |
270 |
(default=off). LinuxSampler provides CPU specific |
271 |
assembly optimizations for the most important |
272 |
synthesis algorithms. This is currently disabled |
273 |
by default since current asm code is broken.], |
274 |
[config_asm="yes"], |
275 |
[config_asm="no"] |
276 |
) |
277 |
if test "$config_asm" = "yes"; then |
278 |
AC_DEFINE_UNQUOTED(CONFIG_ASM, 1, [Define to 1 if you want to enable hand-crafted asm optimizations.]) |
279 |
fi |
280 |
|
281 |
AC_ARG_ENABLE(dev-mode, |
282 |
[ --disable-dev-mode |
283 |
Disable development mode (default=on). In that mode |
284 |
we do some extra sanity checks here and there. |
285 |
This helps to spot possible problems, but reduces |
286 |
efficiency a bit], |
287 |
[config_dev_mode="no"], |
288 |
[config_dev_mode="yes"] |
289 |
) |
290 |
if test "$config_dev_mode" = "yes"; then |
291 |
AC_DEFINE_UNQUOTED(CONFIG_DEVMODE, 1, [Define to 1 if you want to enable development mode.]) |
292 |
fi |
293 |
|
294 |
AC_ARG_ENABLE(debug-level, |
295 |
[ --enable-debug-level |
296 |
Specify verbosity of console messages (default=1). |
297 |
The higher the value, the higher will be verbosity. |
298 |
A value of 0 means no console output at all. |
299 |
There's not really an upper limit but the usual |
300 |
level of all messages is currently somewhere less |
301 |
than 10.], |
302 |
[config_debug_level="${enableval}"], |
303 |
[config_debug_level="1"] |
304 |
) |
305 |
AC_DEFINE_UNQUOTED(CONFIG_DEBUG_LEVEL, $config_debug_level, [Define console verbosity.]) |
306 |
|
307 |
AC_ARG_ENABLE(rt-exceptions, |
308 |
[ --enable-rt-exceptions |
309 |
Enable exceptions in the realtime thread |
310 |
(default=no). If this is enabled, exceptions will |
311 |
be thrown on critical errors in the realtime |
312 |
context as well. Otherwise if disabled |
313 |
segmentation faults will be forced by the |
314 |
application on critical errors.], |
315 |
[config_rt_exceptions="yes"], |
316 |
[config_rt_exceptions="no"] |
317 |
) |
318 |
if test "$config_rt_exceptions" = "yes"; then |
319 |
AC_DEFINE_UNQUOTED(CONFIG_RT_EXCEPTIONS, 1, [Define to 1 to allow exceptions in the realtime context.]) |
320 |
fi |
321 |
|
322 |
AC_ARG_ENABLE(preload-samples, |
323 |
[ --enable-preload-samples |
324 |
Due to seeking and latency issues with hard drives |
325 |
we have to cache a small part of samples' head in |
326 |
RAM (default=32768). The higher this value the |
327 |
more memory will be occupied for each sample, but |
328 |
the safer this will be in regards of possible |
329 |
droputs. A 'good' value depends on the running |
330 |
system and usage dependant factors.], |
331 |
[config_preload_samples="${enableval}"], |
332 |
[config_preload_samples="32768"] |
333 |
) |
334 |
AC_DEFINE_UNQUOTED(CONFIG_PRELOAD_SAMPLES, $config_preload_samples, [Define amount of sample points to be cached in RAM.]) |
335 |
|
336 |
AC_ARG_ENABLE(max-pitch, |
337 |
[ --enable-max-pitch |
338 |
Specify the maximum allowed pitch value in octaves |
339 |
(default=4). To lower memory usage you might want |
340 |
set a smaller value.], |
341 |
[config_max_pitch="${enableval}"], |
342 |
[config_max_pitch="4"] |
343 |
) |
344 |
AC_DEFINE_UNQUOTED(CONFIG_MAX_PITCH, $config_max_pitch, [Define max. allowed pitch.]) |
345 |
|
346 |
AC_ARG_ENABLE(max-events, |
347 |
[ --enable-max-events |
348 |
Specify the maximum allowed amount of events to be |
349 |
processed per fragment (default=1024).], |
350 |
[config_max_events="${enableval}"], |
351 |
[config_max_events="1024"] |
352 |
) |
353 |
AC_DEFINE_UNQUOTED(CONFIG_MAX_EVENTS_PER_FRAGMENT, $config_max_events, [Define max. allowed events per fragment.]) |
354 |
|
355 |
AC_ARG_ENABLE(eg-bottom, |
356 |
[ --enable-eg-bottom |
357 |
Bottom limit of envelope generators |
358 |
(default=0.001). Certain kinds of curve types like |
359 |
exponential curves converge against 0 but never |
360 |
reach 0. So we have to define a certain low value |
361 |
after which we should consider all smaller values |
362 |
to be 'almost zero'. The smaller this value, the |
363 |
longer will voices survive in EG's release stage |
364 |
and thus waste voices. If this value is too high |
365 |
will cause click sounds though.], |
366 |
[config_eg_bottom="${enableval}"], |
367 |
[config_eg_bottom="0.001"] |
368 |
) |
369 |
AC_DEFINE_UNQUOTED(CONFIG_EG_BOTTOM, $config_eg_bottom, [Define bottom limit of envelopes.]) |
370 |
|
371 |
AC_ARG_ENABLE(eg-min-release-time, |
372 |
[ --enable-eg-min-release-time |
373 |
Specify the lowest allowed release time in seconds |
374 |
(default=0.0025). This value will also be used to |
375 |
ramp down voices on voice stealing. This value |
376 |
should always be less than the period time of the |
377 |
used audio driver, as in case of voice stealing |
378 |
the killed voice needs to be completely ramped |
379 |
down in the same fragment.], |
380 |
[config_eg_min_release_time="${enableval}"], |
381 |
[config_eg_min_release_time="0.0025"] |
382 |
) |
383 |
AC_DEFINE_UNQUOTED(CONFIG_EG_MIN_RELEASE_TIME, $config_eg_min_release_time, [Define min. release time.]) |
384 |
|
385 |
AC_ARG_ENABLE(refill-streams, |
386 |
[ --enable-refill-streams |
387 |
Number of streams that should be refilled in each |
388 |
disk thread cycle (default=4).], |
389 |
[config_refill_streams="${enableval}"], |
390 |
[config_refill_streams="4"] |
391 |
) |
392 |
AC_DEFINE_UNQUOTED(CONFIG_REFILL_STREAMS_PER_RUN, $config_refill_streams, [Define amount of streams to be refilled per cycle.]) |
393 |
|
394 |
AC_ARG_ENABLE(stream-min-refill, |
395 |
[ --enable-stream-min-refill |
396 |
Minimum refill size for disk streams (default=1024). |
397 |
The disk thread will go to sleep for a while if no |
398 |
stream had to be refilled more than this value in |
399 |
a disk thread cycle.], |
400 |
[config_stream_min_refill="${enableval}"], |
401 |
[config_stream_min_refill="1024"] |
402 |
) |
403 |
AC_DEFINE_UNQUOTED(CONFIG_STREAM_MIN_REFILL_SIZE, $config_stream_min_refill, [Define min. stream refill size.]) |
404 |
|
405 |
AC_ARG_ENABLE(stream-max-refill, |
406 |
[ --enable-stream-max-refill |
407 |
Maximum refill size for disk streams |
408 |
(default=65536). The disk thread will refill |
409 |
each stream only by a size of this value per |
410 |
disk thread cycle.], |
411 |
[config_stream_max_refill="${enableval}"], |
412 |
[config_stream_max_refill="65536"] |
413 |
) |
414 |
AC_DEFINE_UNQUOTED(CONFIG_STREAM_MAX_REFILL_SIZE, $config_stream_max_refill, [Define max. stream refill size.]) |
415 |
|
416 |
AC_ARG_ENABLE(stream-size, |
417 |
[ --enable-stream-size |
418 |
Size of each stream's ring buffer in sample points |
419 |
(default=262144).], |
420 |
[config_stream_size="${enableval}"], |
421 |
[config_stream_size="262144"] |
422 |
) |
423 |
AC_DEFINE_UNQUOTED(CONFIG_STREAM_BUFFER_SIZE, $config_stream_size, [Define each stream's ring buffer size.]) |
424 |
|
425 |
AC_ARG_ENABLE(max-streams, |
426 |
[ --enable-max-streams |
427 |
Maximum amount of disk streams (default=90). This |
428 |
value should always be higher than the maximum |
429 |
amount of voices.], |
430 |
[config_max_streams="${enableval}"], |
431 |
[config_max_streams="90"] |
432 |
) |
433 |
AC_DEFINE_UNQUOTED(CONFIG_MAX_STREAMS, $config_max_streams, [Define max. streams.]) |
434 |
|
435 |
AC_ARG_ENABLE(max-voices, |
436 |
[ --enable-max-voices |
437 |
Maximum amount of voices (default=64). This value |
438 |
should always be lower than the maximum amount of |
439 |
disk streams.], |
440 |
[config_max_voices="${enableval}"], |
441 |
[config_max_voices="64"] |
442 |
) |
443 |
AC_DEFINE_UNQUOTED(CONFIG_MAX_VOICES, $config_max_voices, [Define max. voices.]) |
444 |
|
445 |
AC_ARG_ENABLE(subfragment-size, |
446 |
[ --enable-subfragment-size |
447 |
Every audio fragment will be splitted into |
448 |
subfragments. Where each subfragment renders |
449 |
audio with constant synthesis parameters. This is |
450 |
done for efficiency reasons. This parameter |
451 |
defines the default size of a subfragment in |
452 |
sample points. A large value means less CPU time |
453 |
whereas a low value means better audio quality |
454 |
(default=32).], |
455 |
[config_subfragment_size="${enableval}"], |
456 |
[config_subfragment_size="32"] |
457 |
) |
458 |
AC_DEFINE_UNQUOTED(CONFIG_DEFAULT_SUBFRAGMENT_SIZE, $config_subfragment_size, [Define default subfragment size (in sample points).]) |
459 |
|
460 |
AC_ARG_ENABLE(global-attenuation, |
461 |
[ --enable-global-attenuation |
462 |
To prevent clipping all samples will be lowered |
463 |
in amplitude by this given factor. |
464 |
(default=0.35)], |
465 |
[config_global_attenuation="${enableval}"], |
466 |
[config_global_attenuation="0.35"] |
467 |
) |
468 |
AC_DEFINE_UNQUOTED(CONFIG_GLOBAL_ATTENUATION, $config_global_attenuation, [Define global volume attenuation (as floating point factor).]) |
469 |
|
470 |
AC_ARG_ENABLE(voice-steal-algo, |
471 |
[ --enable-voice-steal-algo |
472 |
Voice stealing algorithm to be used. Currently |
473 |
available options: |
474 |
none: |
475 |
Disable voice stealing completely. |
476 |
oldestvoiceonkey (default): |
477 |
Try to kill a voice on the same key first, |
478 |
if no success, proceed with the oldest key. |
479 |
oldestkey: |
480 |
Try to kill a voice from the oldest active |
481 |
key.], |
482 |
[ if test ! "(" "${enableval}" = "none" \ |
483 |
-o "${enableval}" = "oldestvoiceonkey" \ |
484 |
-o "${enableval}" = "oldestkey" ")" ; then |
485 |
AC_MSG_ERROR([Unknown voice stealing algorithm for parameter --enable-voice-steal-algo]) |
486 |
else |
487 |
config_voice_steal_algo="${enableval}" |
488 |
fi |
489 |
], |
490 |
[config_voice_steal_algo="oldestvoiceonkey"] |
491 |
) |
492 |
AC_DEFINE_UNQUOTED(CONFIG_VOICE_STEAL_ALGO, voice_steal_algo_${config_voice_steal_algo}, [Define voice stealing algorithm to be used.]) |
493 |
|
494 |
AC_ARG_ENABLE(sysex-buffer-size, |
495 |
[ --enable-sysex-buffer-size |
496 |
System Exclusive Message buffer size in kB |
497 |
(default=2048).], |
498 |
[config_sysex_buffer_size="${enableval}"], |
499 |
[config_sysex_buffer_size="2048"] |
500 |
) |
501 |
AC_DEFINE_UNQUOTED(CONFIG_SYSEX_BUFFER_SIZE, $config_sysex_buffer_size, [Define SysEx buffer size.]) |
502 |
|
503 |
AC_ARG_ENABLE(force-filter, |
504 |
[ --enable-force-filter |
505 |
If enabled will force filter to be used even if |
506 |
no usage was define in instrument patch files. |
507 |
(default=no).], |
508 |
[config_force_filter="yes"], |
509 |
[config_force_filter="no"] |
510 |
) |
511 |
if test "$config_force_filter" = "yes"; then |
512 |
AC_DEFINE_UNQUOTED(CONFIG_FORCE_FILTER, 1, [Define to 1 to force filter usage.]) |
513 |
fi |
514 |
|
515 |
AC_ARG_ENABLE(filter-cutoff-min, |
516 |
[ --enable-filter-cutoff-min |
517 |
Minimum filter cutoff frequency in Hz |
518 |
(default=100.0).], |
519 |
[config_filter_cutoff_min="${enableval}"], |
520 |
[config_filter_cutoff_min="100.0"] |
521 |
) |
522 |
AC_DEFINE_UNQUOTED(CONFIG_FILTER_CUTOFF_MIN, ${config_filter_cutoff_min}f, [Define min. filter cutoff frequency.]) |
523 |
|
524 |
AC_ARG_ENABLE(filter-cutoff-max, |
525 |
[ --enable-filter-cutoff-max |
526 |
Maximum filter cutoff frequency in Hz |
527 |
(default=10000.0).], |
528 |
[config_filter_cutoff_max="${enableval}"], |
529 |
[config_filter_cutoff_max="10000.0"] |
530 |
) |
531 |
AC_DEFINE_UNQUOTED(CONFIG_FILTER_CUTOFF_MAX, ${config_filter_cutoff_max}f, [Define max. filter cutoff frequency.]) |
532 |
|
533 |
AC_ARG_ENABLE(override-cutoff-ctrl, |
534 |
[ --enable-override-cutoff-ctrl |
535 |
Override filter cutoff MIDI controller (default=no). |
536 |
Note: you have to define the MIDI controller number |
537 |
here, it's not a boolean parameter type! If this |
538 |
option is used, controller number given by |
539 |
instrument patch will be ignored and instead this |
540 |
supplied value will be used.], |
541 |
[config_override_cutoff_ctrl="${enableval}"], |
542 |
[config_override_cutoff_ctrl="no"] |
543 |
) |
544 |
if test ! "$config_override_cutoff_ctrl" = "no"; then |
545 |
AC_DEFINE_UNQUOTED(CONFIG_OVERRIDE_CUTOFF_CTRL, $config_override_cutoff_ctrl, [Define to a MIDI controller number to override cutoff control.]) |
546 |
fi |
547 |
|
548 |
AC_ARG_ENABLE(override-resonance-ctrl, |
549 |
[ --enable-override-resonance-ctrl |
550 |
Override filter resonance MIDI controller |
551 |
(default=no). Note: you have to define the MIDI |
552 |
controller number here, it's not a boolean |
553 |
parameter type! If this option is used, controller |
554 |
number given by instrument patch will be ignored |
555 |
and instead this supplied value will be used.], |
556 |
[config_override_resonance_ctrl="${enableval}"], |
557 |
[config_override_resonance_ctrl="no"] |
558 |
) |
559 |
if test ! "$config_override_resonance_ctrl" = "no"; then |
560 |
AC_DEFINE_UNQUOTED(CONFIG_OVERRIDE_RESONANCE_CTRL, $config_override_resonance_ctrl, [Define to a MIDI controller number to override resonance control.]) |
561 |
fi |
562 |
|
563 |
AC_ARG_ENABLE(override-filter-type, |
564 |
[ --enable-override-filter-type |
565 |
Override filter type (default=no). Options: |
566 |
hp: for highpass |
567 |
bp: for bandpass |
568 |
br: for bandreject |
569 |
lp: for lowpass |
570 |
lpt: for lowpass turbo], |
571 |
[ if test "${enableval}" = "hp" ; then |
572 |
config_override_filter_type="::gig::vcf_type_highpass" |
573 |
elif test "${enableval}" = "bp" ; then |
574 |
config_override_filter_type="::gig::vcf_type_bandpass" |
575 |
elif test "${enableval}" = "br" ; then |
576 |
config_override_filter_type="::gig::vcf_type_bandreject" |
577 |
elif test "${enableval}" = "lp" ; then |
578 |
config_override_filter_type="::gig::vcf_type_lowpass" |
579 |
elif test "${enableval}" = "lpt" ; then |
580 |
config_override_filter_type="::gig::vcf_type_lowpassturbo" |
581 |
elif test ! "${enableval}" = "no"; then |
582 |
AC_MSG_ERROR([Unknown filter type for parameter --enable-override-filter-type]) |
583 |
fi |
584 |
], |
585 |
[config_override_filter_type="no"] |
586 |
) |
587 |
if test ! "$config_override_filter_type" = "no"; then |
588 |
AC_DEFINE_UNQUOTED(CONFIG_OVERRIDE_FILTER_TYPE, $config_override_filter_type, [Define to a filter type to always force that filter type.]) |
589 |
fi |
590 |
|
591 |
AC_ARG_ENABLE(gs-checksum, |
592 |
[ --enable-gs-checksum |
593 |
Enable Roland General Synth SysEx checksum check |
594 |
(default=no). If this is enabled, all GS SysEx |
595 |
messages which do not provide a correct checksum |
596 |
will be ignored. This is disabled by default as |
597 |
not all devices honor GS checksums.], |
598 |
[config_assert_gs_sysex_checksum="yes"], |
599 |
[config_assert_gs_sysex_checksum="no"] |
600 |
) |
601 |
if test "config_assert_gs_sysex_checksum" = "yes"; then |
602 |
AC_DEFINE_UNQUOTED(CONFIG_ASSERT_GS_SYSEX_CHECKSUM, 1, [Define to 1 if you want to enable GS SysEx check.]) |
603 |
fi |
604 |
|
605 |
AC_ARG_ENABLE(portamento-time-min, |
606 |
[ --enable-portamento-time-min |
607 |
Minimum Portamento time in seconds |
608 |
(default=0.1).], |
609 |
[config_portamento_time_min="${enableval}"], |
610 |
[config_portamento_time_min="0.1"] |
611 |
) |
612 |
AC_DEFINE_UNQUOTED(CONFIG_PORTAMENTO_TIME_MIN, $config_portamento_time_min, [Define min. portamento time.]) |
613 |
|
614 |
AC_ARG_ENABLE(portamento-time-max, |
615 |
[ --enable-portamento-time-max |
616 |
Maximum Portamento time in seconds |
617 |
(default=32).], |
618 |
[config_portamento_time_max="${enableval}"], |
619 |
[config_portamento_time_max="32"] |
620 |
) |
621 |
AC_DEFINE_UNQUOTED(CONFIG_PORTAMENTO_TIME_MAX, $config_portamento_time_max, [Define max. portamento time.]) |
622 |
|
623 |
AC_ARG_ENABLE(portamento-time-default, |
624 |
[ --enable-portamento-time-default |
625 |
Default Portamento time in seconds |
626 |
(default=1).], |
627 |
[config_portamento_time_default="${enableval}"], |
628 |
[config_portamento_time_default="1"] |
629 |
) |
630 |
AC_DEFINE_UNQUOTED(CONFIG_PORTAMENTO_TIME_DEFAULT, $config_portamento_time_default, [Define default portamento time.]) |
631 |
|
632 |
AC_ARG_ENABLE(signed-triang-algo, |
633 |
[ --enable-signed-triang-algo |
634 |
Signed triangular wave algorithm to be used (e.g. for LFOs). |
635 |
Currently available options: |
636 |
intmath: |
637 |
Uses integer math without any branch will then be |
638 |
converted to floating point value for each sample point. |
639 |
This int->float conversion might hurt on some systems. |
640 |
intmathabs: |
641 |
Similar to intmath but uses abs() function. |
642 |
Depending on compiler and platrofm this could |
643 |
perform better than integer math as it avoids |
644 |
an extra integer multiply instruction. |
645 |
|
646 |
diharmonic: |
647 |
The triangular wave will be approximated by adding two |
648 |
sinusoidials. This solution might especially hurt on |
649 |
systems with weak floating point unit. |
650 |
benchmark (default): |
651 |
This is not an algorithm. Use this option if the |
652 |
appropriate algorithm should be automatically |
653 |
chosen by the configure script by performing a |
654 |
benchmark between the algorithms mentioned above. |
655 |
This will NOT work for cross compilation!], |
656 |
[ if test ! "(" "${enableval}" = "intmath" \ |
657 |
-o "${enableval}" = "intmathabs" \ |
658 |
-o "${enableval}" = "diharmonic" ")" ; then |
659 |
AC_MSG_ERROR([Unknown triangular wave algorithm for parameter --enable-signed-triang-algo]) |
660 |
else |
661 |
config_signed_triang_algo="${enableval}" |
662 |
fi |
663 |
], |
664 |
[config_signed_triang_algo="benchmark"] |
665 |
) |
666 |
|
667 |
AC_ARG_ENABLE(unsigned-triang-algo, |
668 |
[ --enable-unsigned-triang-algo |
669 |
Unsigned triangular wave algorithm to be used (e.g. for LFOs). |
670 |
Currently available options: |
671 |
intmath: |
672 |
Uses integer math without any branch will then be |
673 |
converted to floating point value for each sample point. |
674 |
This int->float conversion might hurt on some systems. |
675 |
intmathabs: |
676 |
Similar to intmath but uses abs() function. |
677 |
Depending on compiler and platrofm this could |
678 |
perform better than integer math as it avoids |
679 |
an extra integer multiply instruction. |
680 |
|
681 |
diharmonic: |
682 |
The triangular wave will be approximated by adding two |
683 |
sinusoidials. This solution might especially hurt on |
684 |
systems with weak floating point unit. |
685 |
benchmark (default): |
686 |
This is not an algorithm. Use this option if the |
687 |
appropriate algorithm should be automatically |
688 |
chosen by the configure script by performing a |
689 |
benchmark between the algorithms mentioned above. |
690 |
This will NOT work for cross compilation!], |
691 |
[ if test ! "(" "${enableval}" = "intmath" \ |
692 |
-o "${enableval}" = "intmathabs" \ |
693 |
-o "${enableval}" = "diharmonic" ")" ; then |
694 |
AC_MSG_ERROR([Unknown triangular wave algorithm for parameter --enable-unsigned-triang-algo]) |
695 |
else |
696 |
config_unsigned_triang_algo="${enableval}" |
697 |
fi |
698 |
], |
699 |
[config_unsigned_triang_algo="benchmark"] |
700 |
) |
701 |
|
702 |
AC_ARG_ENABLE(process-muted-channels, |
703 |
[ --enable-process-muted-channels |
704 |
Enable processing of muted channels (default=no). |
705 |
In that mode all MIDI events in the muted channels |
706 |
will be processed. This will provide information |
707 |
about the active voices in the muted channels and |
708 |
will not discard notes, triggered in mute mode, |
709 |
when the channel is unmuted. But also will reduce |
710 |
the efficiency.], |
711 |
[config_process_muted_channels="yes"], |
712 |
[config_process_muted_channels="no"] |
713 |
) |
714 |
if test "$config_process_muted_channels" = "yes"; then |
715 |
AC_DEFINE_UNQUOTED(CONFIG_PROCESS_MUTED_CHANNELS, 1, [Define to 1 if you want to enable processing of muted channels.]) |
716 |
fi |
717 |
|
718 |
AC_ARG_ENABLE(interpolate-volume, |
719 |
[ --disable-interpolate-volume |
720 |
Disable interpolation of volume modulation |
721 |
(default=on). With this enabled, the volume changes |
722 |
generated by for example the envelope generator |
723 |
will be smoother, minimizing the risk for audio |
724 |
clicks. Disable it to reduce CPU usage.], |
725 |
[config_interpolate_volume="no"], |
726 |
[config_interpolate_volume="yes"] |
727 |
) |
728 |
if test "$config_interpolate_volume" = "yes"; then |
729 |
AC_DEFINE_UNQUOTED(CONFIG_INTERPOLATE_VOLUME, 1, [Define to 1 if you want to enable interpolation of volume modulation.]) |
730 |
fi |
731 |
|
732 |
|
733 |
########################################################################### |
734 |
# Automatic Benchmarks (to detect the best algorithms for the system) |
735 |
|
736 |
AC_LANG_SAVE |
737 |
|
738 |
if test "$config_signed_triang_algo" = "benchmark"; then |
739 |
echo -n "benchmarking for the best (signed) triangular oscillator algorithm... " |
740 |
AC_LANG_CPLUSPLUS |
741 |
AC_TRY_RUN([ |
742 |
#define SIGNED 1 |
743 |
#define SILENT 1 |
744 |
#include "${srcdir}/benchmarks/triang.cpp" |
745 |
], |
746 |
triang_signed=0, |
747 |
triang_signed=$?, |
748 |
triang_signed=0 |
749 |
) |
750 |
if test "$triang_signed" = "2"; then |
751 |
config_signed_triang_algo="intmath" |
752 |
echo "integer math" |
753 |
elif test "$triang_signed" = "3"; then |
754 |
config_signed_triang_algo="diharmonic" |
755 |
echo "di harmonics" |
756 |
elif test "$triang_signed" = "5"; then |
757 |
config_signed_triang_algo="intmathabs" |
758 |
echo "integer math using abs()" |
759 |
else |
760 |
echo "Benchmark of signed triangular wave algorithms failed!" |
761 |
echo "Maybe you are doing cross compilation? In that case you have to select" |
762 |
echo "an algorithm manually with './configure --enable-signed-triang-algo=...'" |
763 |
echo "Call './configure --help' for further information or read configure.in." |
764 |
exit -1; |
765 |
fi |
766 |
fi |
767 |
AC_DEFINE_UNQUOTED(CONFIG_SIGNED_TRIANG_ALGO, ${triang_signed}, [Define signed triangular wave algorithm to be used.]) |
768 |
|
769 |
if test "$config_unsigned_triang_algo" = "benchmark"; then |
770 |
echo -n "benchmarking for the best (unsigned) triangular oscillator algorithm... " |
771 |
AC_LANG_CPLUSPLUS |
772 |
AC_TRY_RUN([ |
773 |
#define SIGNED 0 |
774 |
#define SILENT 1 |
775 |
#include "${srcdir}/benchmarks/triang.cpp" |
776 |
], |
777 |
triang_unsigned=0, |
778 |
triang_unsigned=$?, |
779 |
triang_unsigned=0 |
780 |
) |
781 |
if test "$triang_unsigned" = "2"; then |
782 |
config_unsigned_triang_algo="intmath" |
783 |
echo "integer math" |
784 |
elif test "$triang_unsigned" = "3"; then |
785 |
config_unsigned_triang_algo="diharmonic" |
786 |
echo "di harmonics" |
787 |
elif test "$triang_unsigned" = "5"; then |
788 |
config_unsigned_triang_algo="intmathabs" |
789 |
echo "integer math using abs()" |
790 |
else |
791 |
echo "Benchmark of unsigned triangular wave algorithms failed!" |
792 |
echo "Maybe you are doing cross compilation? In that case you have to select" |
793 |
echo "an algorithm manually with './configure --enable-unsigned-triang-algo=...'" |
794 |
echo "Call './configure --help' for further information or read configure.in." |
795 |
exit -1; |
796 |
fi |
797 |
fi |
798 |
AC_DEFINE_UNQUOTED(CONFIG_UNSIGNED_TRIANG_ALGO, ${triang_unsigned}, [Define unsigned triangular wave algorithm to be used.]) |
799 |
|
800 |
AC_LANG_RESTORE |
801 |
|
802 |
|
803 |
########################################################################### |
804 |
# Create Build Files |
805 |
|
806 |
AM_CONFIG_HEADER(config.h) |
807 |
AM_INIT_AUTOMAKE(linuxsampler, "$LINUXSAMPLER_RELEASE_MAJOR.$LINUXSAMPLER_RELEASE_MINOR.$LINUXSAMPLER_RELEASE_BUILD") |
808 |
|
809 |
AC_LANG_CPLUSPLUS |
810 |
AC_PROG_CXX |
811 |
|
812 |
# some gcc 4.0 versions need -msse for SSE register allocations |
813 |
if test "$config_asm" = "yes"; then |
814 |
if test "$def_arch_x86" = 1; then |
815 |
CXXFLAGS="$CXXFLAGS -msse" |
816 |
fi |
817 |
fi |
818 |
|
819 |
# autoconf 2.59/libtool 1.5.12 bug? work-around. Without a check like |
820 |
# this, the dlfcn.h check in am_prog_libtool may fail. |
821 |
AC_CHECK_HEADER(stdlib.h) |
822 |
|
823 |
AC_OUTPUT( \ |
824 |
Makefile \ |
825 |
man/Makefile \ |
826 |
man/linuxsampler.1 \ |
827 |
src/Makefile \ |
828 |
src/network/Makefile \ |
829 |
src/engines/Makefile \ |
830 |
src/engines/gig/Makefile \ |
831 |
src/engines/common/Makefile \ |
832 |
src/common/Makefile src/lib/Makefile \ |
833 |
src/lib/fileloader/Makefile \ |
834 |
src/lib/fileloader/libgig/Makefile \ |
835 |
src/testcases/Makefile \ |
836 |
src/drivers/Makefile \ |
837 |
src/drivers/audio/Makefile \ |
838 |
src/drivers/midi/Makefile \ |
839 |
linuxsampler.spec \ |
840 |
debian/Makefile \ |
841 |
Artwork/Makefile \ |
842 |
scripts/Makefile \ |
843 |
osx/Makefile \ |
844 |
osx/LinuxSampler.xcode/Makefile \ |
845 |
Documentation/Makefile \ |
846 |
Documentation/Engines/Makefile \ |
847 |
Documentation/Engines/gig/Makefile \ |
848 |
linuxsampler.pc \ |
849 |
Doxyfile \ |
850 |
) |
851 |
|
852 |
|
853 |
########################################################################### |
854 |
# Output All Configuration Options |
855 |
|
856 |
echo "" |
857 |
echo "#####################################################################" |
858 |
echo "# LinuxSampler Configuration #" |
859 |
echo "#-------------------------------------------------------------------#" |
860 |
echo "# Assembly Optimizations: ${config_asm}" |
861 |
echo "# Development Mode: ${config_dev_mode}" |
862 |
echo "# Debug Level: ${config_debug_level}" |
863 |
echo "# Use Exceptions in RT Context: ${config_rt_exceptions}" |
864 |
echo "# Preload Samples: ${config_preload_samples}" |
865 |
echo "# Maximum Pitch: ${config_max_pitch} (octaves)" |
866 |
echo "# Maximum Events: ${config_max_events}" |
867 |
echo "# Envelope Bottom Level: ${config_eg_bottom} (linear)" |
868 |
echo "# Envelope Minimum Release Time: ${config_eg_min_release_time} s" |
869 |
echo "# Streams to be refilled per Disk Thread Cycle: ${config_refill_streams}" |
870 |
echo "# Minimum Stream Refill Size: ${config_stream_min_refill}" |
871 |
echo "# Maximum Stream Refill Size: ${config_stream_max_refill}" |
872 |
echo "# Stream Size: ${config_stream_size}" |
873 |
echo "# Maximum Disk Streams: ${config_max_streams}" |
874 |
echo "# Maximum Voices: ${config_max_voices}" |
875 |
echo "# Default Subfragment Size: ${config_subfragment_size}" |
876 |
echo "# Global Volume Attenuation: ${config_global_attenuation}" |
877 |
echo "# Voice Stealing Algorithm: ${config_voice_steal_algo}" |
878 |
echo "# Signed Triangular Oscillator Algorithm: ${config_signed_triang_algo}" |
879 |
echo "# Unsigned Triangular Oscillator Algorithm: ${config_unsigned_triang_algo}" |
880 |
echo "# SysEx Buffer Size: ${config_sysex_buffer_size} Byte" |
881 |
echo "# Min. Portamento Time: ${config_portamento_time_min} s" |
882 |
echo "# Max. Portamento Time: ${config_portamento_time_max} s" |
883 |
echo "# Default Portamento Time: ${config_portamento_time_default} s" |
884 |
echo "# Force Filter Usage: ${config_force_filter}" |
885 |
echo "# Filter Cutoff Minimum: ${config_filter_cutoff_min} Hz" |
886 |
echo "# Filter Cutoff Maximum: ${config_filter_cutoff_max} Hz" |
887 |
echo "# Override Filter Cutoff Controller: ${config_override_cutoff_ctrl}" |
888 |
echo "# Override Filter Resonance Controller: ${config_override_resonance_ctrl}" |
889 |
echo "# Override Filter Type: ${config_override_filter_type}" |
890 |
echo "# Assert GS SysEx Checksum: ${config_assert_gs_sysex_checksum}" |
891 |
echo "# Process Muted Channels: ${config_process_muted_channels}" |
892 |
echo "# Interpolate Volume: ${config_interpolate_volume}" |
893 |
echo "#-------------------------------------------------------------------#" |
894 |
echo "# Read './configure --help' or file 'configure.in' for details. #" |
895 |
echo "#####################################################################" |
896 |
echo "" |
897 |
echo "Good. Now type 'make' to compile, followed by 'make install' as root." |
898 |
echo "" |