>>> libsamplerate: Building main/libsamplerate 0.2.2-r2 (using abuild 3.11.0_rc12-r0) started Wed, 19 Apr 2023 23:31:19 +0000
>>> libsamplerate: Checking sanity of /home/buildozer/aports/main/libsamplerate/APKBUILD...
>>> libsamplerate: Analyzing dependencies...
>>> libsamplerate: Installing for build: build-base fftw-dev libsndfile-dev linux-headers
(1/17) Installing fftw-double-libs (3.3.10-r2)
(2/17) Installing fftw-long-double-libs (3.3.10-r2)
(3/17) Installing fftw-single-libs (3.3.10-r2)
(4/17) Installing fftw-dev (3.3.10-r2)
(5/17) Installing opus (1.3.1-r2)
(6/17) Installing opus-dev (1.3.1-r2)
(7/17) Installing libogg (1.3.5-r4)
(8/17) Installing flac-libs (1.4.2-r2)
(9/17) Installing alsa-lib (1.2.8-r1)
(10/17) Installing libvorbis (1.3.7-r1)
(11/17) Installing libsndfile (1.2.0-r2)
(12/17) Installing libogg-dev (1.3.5-r4)
(13/17) Installing flac-dev (1.4.2-r2)
(14/17) Installing libvorbis-dev (1.3.7-r1)
(15/17) Installing libsndfile-dev (1.2.0-r2)
(16/17) Installing linux-headers (6.2-r0)
(17/17) Installing .makedepends-libsamplerate (20230419.233120)
Executing busybox-1.36.0-r7.trigger
OK: 394 MiB in 114 packages
>>> libsamplerate: Cleaning up srcdir
>>> libsamplerate: Cleaning up pkgdir
>>> libsamplerate: Fetching https://distfiles.alpinelinux.org/distfiles/v3.18/libsamplerate-0.2.2.tar.xz
% Total % Received % Xferd Average Speed Time Time Time Current
Dload Upload Total Spent Left Speed
0 0 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0
0 146 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0
curl: (22) The requested URL returned error: 404
>>> libsamplerate: Fetching https://github.com/libsndfile/libsamplerate/releases/download/0.2.2/libsamplerate-0.2.2.tar.xz
% Total % Received % Xferd Average Speed Time Time Time Current
Dload Upload Total Spent Left Speed
0 0 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0
0 0 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0
0 0 0 0 0 0 0 0 --:--:-- --:--:-- --:--:-- 0
100 3241k 100 3241k 0 0 4752k 0 --:--:-- --:--:-- --:--:-- 4752k
>>> libsamplerate: Fetching https://distfiles.alpinelinux.org/distfiles/v3.18/libsamplerate-0.2.2.tar.xz
>>> libsamplerate: Checking sha512sums...
libsamplerate-0.2.2.tar.xz: OK
>>> libsamplerate: Unpacking /var/cache/distfiles/v3.18/libsamplerate-0.2.2.tar.xz...
checking whether configure should try to set CFLAGS/CPPFLAGS/LDFLAGS... no
checking build system type... s390x-alpine-linux-musl
checking host system type... s390x-alpine-linux-musl
checking for a BSD-compatible install... /usr/bin/install -c
checking whether build environment is sane... yes
checking for a race-free mkdir -p... ./build-aux/install-sh -c -d
checking for gawk... no
checking for mawk... no
checking for nawk... no
checking for awk... awk
checking whether make sets $(MAKE)... yes
checking whether make supports nested variables... yes
checking whether make supports nested variables... (cached) yes
checking for s390x-alpine-linux-musl-gcc... gcc
checking whether the C compiler works... yes
checking for C compiler default output file name... a.out
checking for suffix of executables...
checking whether we are cross compiling... no
checking for suffix of object files... o
checking whether the compiler supports GNU C... yes
checking whether gcc accepts -g... yes
checking for gcc option to enable C11 features... none needed
checking whether gcc understands -c and -o together... yes
checking whether make supports the include directive... yes (GNU style)
checking dependency style of gcc... gcc3
checking for C compiler vendor... gnu
checking for a sed that does not truncate output... /bin/sed
checking for C compiler version... 12.2.1
checking for a sed that does not truncate output... (cached) /bin/sed
checking whether ln -s works... yes
checking whether make sets $(MAKE)... (cached) yes
checking for s390x-alpine-linux-musl-pkg-config... no
checking for pkg-config... /usr/bin/pkg-config
checking pkg-config is at least version 0.9.0... yes
checking how to print strings... printf
checking for a sed that does not truncate output... (cached) /bin/sed
checking for grep that handles long lines and -e... /bin/grep
checking for egrep... /bin/grep -E
checking for fgrep... /bin/grep -F
checking for ld used by gcc... /usr/s390x-alpine-linux-musl/bin/ld
checking if the linker (/usr/s390x-alpine-linux-musl/bin/ld) is GNU ld... yes
checking for BSD- or MS-compatible name lister (nm)... /usr/bin/nm -B
checking the name lister (/usr/bin/nm -B) interface... BSD nm
checking the maximum length of command line arguments... 98304
checking how to convert s390x-alpine-linux-musl file names to s390x-alpine-linux-musl format... func_convert_file_noop
checking how to convert s390x-alpine-linux-musl file names to toolchain format... func_convert_file_noop
checking for /usr/s390x-alpine-linux-musl/bin/ld option to reload object files... -r
checking for s390x-alpine-linux-musl-objdump... no
checking for objdump... objdump
checking how to recognize dependent libraries... pass_all
checking for s390x-alpine-linux-musl-dlltool... no
checking for dlltool... no
checking how to associate runtime and link libraries... printf %s\n
checking for s390x-alpine-linux-musl-ar... no
checking for ar... ar
checking for archiver @FILE support... @
checking for s390x-alpine-linux-musl-strip... no
checking for strip... strip
checking for s390x-alpine-linux-musl-ranlib... no
checking for ranlib... ranlib
checking command to parse /usr/bin/nm -B output from gcc object... ok
checking for sysroot... no
checking for a working dd... /bin/dd
checking how to truncate binary pipes... /bin/dd bs=4096 count=1
checking for s390x-alpine-linux-musl-mt... no
checking for mt... no
checking if : is a manifest tool... no
checking for stdio.h... yes
checking for stdlib.h... yes
checking for string.h... yes
checking for inttypes.h... yes
checking for stdint.h... yes
checking for strings.h... yes
checking for sys/stat.h... yes
checking for sys/types.h... yes
checking for unistd.h... yes
checking for dlfcn.h... yes
checking for objdir... .libs
checking if gcc supports -fno-rtti -fno-exceptions... no
checking for gcc option to produce PIC... -fPIC -DPIC
checking if gcc PIC flag -fPIC -DPIC works... yes
checking if gcc static flag -static works... yes
checking if gcc supports -c -o file.o... yes
checking if gcc supports -c -o file.o... (cached) yes
checking whether the gcc linker (/usr/s390x-alpine-linux-musl/bin/ld -m elf64_s390) supports shared libraries... yes
checking whether -lc should be explicitly linked in... no
checking dynamic linker characteristics... GNU/Linux ld.so
checking how to hardcode library paths into programs... immediate
checking whether stripping libraries is possible... yes
checking if libtool supports shared libraries... yes
checking whether to build shared libraries... yes
checking whether to build static libraries... yes
checking for s390x-alpine-linux-musl-windres... no
checking for windres... no
checking for stdbool.h... yes
checking for stdint.h... (cached) yes
checking for sys/times.h... yes
checking for unistd.h... (cached) yes
checking size of int... 4
checking size of long... 8
checking size of float... 4
checking size of double... 8
checking whether byte ordering is bigendian... yes
checking for malloc... yes
checking for calloc... yes
checking for free... yes
checking for memcpy... yes
checking for memmove... yes
checking for alarm... yes
checking for signal... yes
checking for library containing floor... none required
checking for floor... yes
checking for ceil... yes
checking for fmod... yes
checking for lrint... yes
checking for lrintf... yes
checking for SIGALRM... yes
checking processor clipping capabilities... none
checking for SNDFILE... yes
checking for ALSA... no
checking for FFTW3... yes
checking if compiler supports visibility attributes... yes
checking whether C compiler accepts -W... yes
checking whether C compiler accepts -Wstrict-prototypes... yes
checking whether C compiler accepts -Wmissing-prototypes... yes
checking whether C compiler accepts -Wall... yes
checking whether C compiler accepts -Waggregate-return... yes
checking whether C compiler accepts -Wcast-align... yes
checking whether C compiler accepts -Wcast-qual... yes
checking whether C compiler accepts -Wnested-externs... yes
checking whether C compiler accepts -Wshadow... yes
checking whether C compiler accepts -Wpointer-arith... yes
checking that generated files are newer than configure... done
configure: creating ./config.status
config.status: creating Makefile
config.status: creating src/Version_script
config.status: creating libsamplerate.spec
config.status: creating samplerate.pc
config.status: creating src/config.h
config.status: executing depfiles commands
config.status: executing libtool commands
-=-=-=-=-=-=-=-=-=-= Configuration Complete =-=-=-=-=-=-=-=-=-=-=-
Configuration summary :
libsamplerate version : ............... 0.2.2
Host CPU : ............................ s390x
Host Vendor : ......................... alpine
Host OS : ............................. linux-musl
CFLAGS : .............................. -Os -Wformat -Werror=format-security -Werror=int-conversion -W -Wstrict-prototypes -Wmissing-prototypes -Wall -Waggregate-return -Wcast-align -Wcast-qual -Wnested-externs -Wshadow -Wpointer-arith
CPPFLAGS : ............................ -Os -Wformat -Werror=format-security
LDFLAGS : ............................. -Wl,--as-needed,-O1,--sort-common
Tools :
C Compiler Vendor is : ................ gnu (12.2.1)
Extra tools required for testing and examples :
Have libsndfile : ..................... yes
Have ALSA : ........................... no (auto)
Have FFTW : ........................... yes
Converter configuration :
Sinc fast : ........................... yes
Sinc balanced : ....................... yes
Sinc best : ........................... yes
Installation directories :
Library directory : ................... /usr/lib
Program directory : ................... /usr/bin
Pkgconfig directory : ................. /usr/lib/pkgconfig
HTML docs directory : ................. /usr/share/doc/libsamplerate
Compiling some other packages against libsamplerate may require
the addition of '/usr/lib/pkgconfig' to the
PKG_CONFIG_PATH environment variable.
CC examples/varispeed_play-varispeed-play.o
CC examples/varispeed_play-audio_out.o
CC src/samplerate.lo
CC src/src_sinc.lo
CC src/src_zoh.lo
CC src/src_linear.lo
CC examples/timewarp_file-timewarp-file.o
CCLD src/libsamplerate.la
ar: `u' modifier ignored since `D' is the default (see `U')
CCLD examples/varispeed-play
CCLD examples/timewarp-file
make tests/callback_hang_test tests/callback_test tests/clone_test tests/downsample_test tests/float_short_test tests/misc_test tests/multi_channel_test tests/nullptr_test tests/reset_test tests/simple_test tests/snr_bw_test tests/termination_test tests/throughput_test tests/varispeed_test tests/multichan_throughput_test tests/src-evaluate
make[1]: Entering directory '/home/buildozer/aports/main/libsamplerate/src/libsamplerate-0.2.2'
CC tests/callback_hang_test.o
CC tests/util.o
CC tests/callback_test.o
CC tests/clone_test.o
CC tests/float_short_test.o
CC tests/downsample_test.o
CC tests/misc_test.o
CC tests/multi_channel_test-multi_channel_test.o
CC tests/multi_channel_test-util.o
CC tests/multi_channel_test-calc_snr.o
CC tests/nullptr_test.o
CC tests/reset_test.o
CC tests/simple_test.o
CC tests/snr_bw_test-snr_bw_test.o
CC tests/snr_bw_test-calc_snr.o
CC tests/snr_bw_test-util.o
CC tests/termination_test.o
CC tests/throughput_test-throughput_test.o
CC tests/throughput_test-util.o
CC tests/throughput_test-calc_snr.o
CC tests/varispeed_test-varispeed_test.o
CC tests/varispeed_test-util.o
CC tests/varispeed_test-calc_snr.o
CC tests/multichan_throughput_test-multichan_throughput_test.o
CC tests/multichan_throughput_test-util.o
CC tests/multichan_throughput_test-calc_snr.o
CC tests/src_evaluate-src-evaluate.o
CC tests/src_evaluate-calc_snr.o
CC tests/src_evaluate-util.o
CCLD tests/callback_hang_test
CCLD tests/callback_test
CCLD tests/clone_test
CCLD tests/downsample_test
CCLD tests/float_short_test
CCLD tests/misc_test
CCLD tests/multi_channel_test
CCLD tests/nullptr_test
CCLD tests/reset_test
CCLD tests/simple_test
CCLD tests/snr_bw_test
CCLD tests/termination_test
CCLD tests/throughput_test
CCLD tests/varispeed_test
CCLD tests/multichan_throughput_test
CCLD tests/src-evaluate
make[1]: Leaving directory '/home/buildozer/aports/main/libsamplerate/src/libsamplerate-0.2.2'
make check-TESTS
make[1]: Entering directory '/home/buildozer/aports/main/libsamplerate/src/libsamplerate-0.2.2'
callback_hang_test (ZOH Interpolator ) ....... ok
callback_hang_test (Linear Interpolator ) ....... ok
callback_hang_test (Fastest Sinc Interpolator ) ....... ok
PASS: tests/callback_hang_test
Zero Order Hold interpolator :
callback_test (SRC ratio = 1.0000) ........... ok
callback_test (SRC ratio = 0.0990) ........... ok
callback_test (SRC ratio = 0.1000) ........... ok
callback_test (SRC ratio = 0.3333) ........... ok
callback_test (SRC ratio = 0.7890) ........... ok
callback_test (SRC ratio = 1.0001) ........... ok
callback_test (SRC ratio = 1.9000) ........... ok
callback_test (SRC ratio = 3.1000) ........... ok
callback_test (SRC ratio = 9.9000) ........... ok
Linear interpolator :
callback_test (SRC ratio = 1.0000) ........... ok
callback_test (SRC ratio = 0.0990) ........... ok
callback_test (SRC ratio = 0.1000) ........... ok
callback_test (SRC ratio = 0.3333) ........... ok
callback_test (SRC ratio = 0.7890) ........... ok
callback_test (SRC ratio = 1.0001) ........... ok
callback_test (SRC ratio = 1.9000) ........... ok
callback_test (SRC ratio = 3.1000) ........... ok
callback_test (SRC ratio = 9.9000) ........... ok
Sinc interpolator :
callback_test (SRC ratio = 1.0000) ........... ok
callback_test (SRC ratio = 0.0990) ........... ok
callback_test (SRC ratio = 0.1000) ........... ok
callback_test (SRC ratio = 0.3333) ........... ok
callback_test (SRC ratio = 0.7890) ........... ok
callback_test (SRC ratio = 1.0001) ........... ok
callback_test (SRC ratio = 1.9000) ........... ok
callback_test (SRC ratio = 3.1000) ........... ok
callback_test (SRC ratio = 9.9000) ........... ok
End of stream test :
ZOH Interpolator ........... ok
Linear Interpolator ........... ok
Fastest Sinc Interpolator ........... ok
PASS: tests/callback_test
clone_test (ZOH Interpolator ) ....... ok
clone_test (Linear Interpolator ) ....... ok
clone_test (Fastest Sinc Interpolator ) ....... ok
PASS: tests/clone_test
downsample_test (ZOH Interpolator ) ....... ok
downsample_test (Linear Interpolator ) ....... ok
downsample_test (Fastest Sinc Interpolator ) ....... ok
downsample_test (Medium Sinc Interpolator ) ....... ok
downsample_test (Best Sinc Interpolator ) ....... ok
PASS: tests/downsample_test
float_to_short_test ............................. ok
short_to_float_test ............................. ok
float_to_int_test ............................... ok
int_to_float_test ............................... ok
PASS: tests/float_short_test
version : libsamplerate-0.2.2 (c) 2002-2008 Erik de Castro Lopo
name_test :
Name 0 : Best Sinc Interpolator
Desc 0 : Band limited sinc interpolation, best quality, 144dB SNR, 96% BW.
Name 1 : Medium Sinc Interpolator
Desc 1 : Band limited sinc interpolation, medium quality, 121dB SNR, 90% BW.
Name 2 : Fastest Sinc Interpolator
Desc 2 : Band limited sinc interpolation, fastest, 97dB SNR, 80% BW.
Name 3 : ZOH Interpolator
Desc 3 : Zero order hold interpolator, very fast, poor quality.
Name 4 : Linear Interpolator
Desc 4 : Linear interpolator, very fast, poor quality.
error_test :
0 : No error.
1 : Malloc failed.
2 : SRC_STATE pointer is NULL.
3 : SRC_DATA pointer is NULL.
4 : SRC_DATA->data_out or SRC_DATA->data_in is NULL.
5 : Internal error. No private data.
6 : SRC ratio outside [1/256, 256] range.
7 : Internal error. No process pointer.
8 : Internal error. SHIFT_BITS too large.
9 : Internal error. Filter length too large.
10 : Bad converter number.
11 : Channel count must be >= 1.
12 : Internal error. Bad buffer length. Please report this.
13 : Internal error. Input data / internal buffer size difference. Please report this.
14 : Internal error. Private pointer is NULL. Please report this.
15 : src_process() called without reset after end_of_input.
16 : Input and output data arrays overlap.
17 : Supplied callback function pointer is NULL.
18 : Calling mode differs from initialisation mode (ie process v callback).
19 : Callback function pointer is NULL in src_callback_read ().
20 : This converter only allows constant conversion ratios.
21 : Internal error : Bad length in prepare_data ().
22 : Error : Someone is trampling on my internal state.
23 : Placeholder. No error defined for this error number.
src_ratio_test (SRC ratio must be in range [1/256, 256]):
SRC ratio ( 0.00390) : fail ................... ok
SRC ratio ( 0.00391) : pass ................... ok
SRC ratio ( 1.00000) : pass ................... ok
SRC ratio (256.00000) : pass ................... ok
SRC ratio (256.10000) : fail ................... ok
SRC ratio ( -1.00000) : fail ................... ok
zero_input_test (ZOH Interpolator ) ........ ok
zero_input_test (Linear Interpolator ) ........ ok
zero_input_test (Fastest Sinc Interpolator ) ........ ok
PASS: tests/misc_test
Zero Order Hold interpolator :
simple_test ( 1 channel ) ............ ok
process_test ( 1 channel ) ............ ok
callback_test ( 1 channel ) ............ ok
simple_test ( 2 channels) ............ ok
process_test ( 2 channels) ............ ok
callback_test ( 2 channels) ............ ok
simple_test ( 3 channels) ............ ok
process_test ( 3 channels) ............ ok
callback_test ( 3 channels) ............ ok
Linear interpolator :
simple_test ( 1 channel ) ............ ok
process_test ( 1 channel ) ............ ok
callback_test ( 1 channel ) ............ ok
simple_test ( 2 channels) ............ ok
process_test ( 2 channels) ............ ok
callback_test ( 2 channels) ............ ok
simple_test ( 3 channels) ............ ok
process_test ( 3 channels) ............ ok
callback_test ( 3 channels) ............ ok
Sinc interpolator :
simple_test ( 1 channel ) ............ ok
process_test ( 1 channel ) ............ ok
callback_test ( 1 channel ) ............ ok
simple_test ( 2 channels) ............ ok
process_test ( 2 channels) ............ ok
callback_test ( 2 channels) ............ ok
simple_test ( 3 channels) ............ ok
process_test ( 3 channels) ............ ok
callback_test ( 3 channels) ............ ok
simple_test ( 4 channels) ............ ok
process_test ( 4 channels) ............ ok
callback_test ( 4 channels) ............ ok
simple_test ( 5 channels) ............ ok
process_test ( 5 channels) ............ ok
callback_test ( 5 channels) ............ ok
simple_test ( 6 channels) ............ ok
process_test ( 6 channels) ............ ok
callback_test ( 6 channels) ............ ok
simple_test ( 7 channels) ............ ok
process_test ( 7 channels) ............ ok
callback_test ( 7 channels) ............ ok
simple_test ( 8 channels) ............ ok
process_test ( 8 channels) ............ ok
callback_test ( 8 channels) ............ ok
simple_test ( 9 channels) ............ ok
process_test ( 9 channels) ............ ok
callback_test ( 9 channels) ............ ok
simple_test (10 channels) ............ ok
process_test (10 channels) ............ ok
callback_test (10 channels) ............ ok
PASS: tests/multi_channel_test
nullptr_test (ZOH Interpolator ) ....... ok
nullptr_test (Linear Interpolator ) ....... ok
nullptr_test (Fastest Sinc Interpolator ) ....... ok
PASS: tests/nullptr_test
process_reset_test (ZOH Interpolator ) ....... ok
process_reset_test (Linear Interpolator ) ....... ok
process_reset_test (Fastest Sinc Interpolator ) ....... ok
callback_reset_test (ZOH Interpolator ) ....... ok
callback_reset_test (Linear Interpolator ) ....... ok
callback_reset_test (Fastest Sinc Interpolator ) ....... ok
PASS: tests/reset_test
Zero Order Hold interpolator :
simple_test (SRC ratio = 1.0001) ................. ok
produces_output (SRC ratio = 1.0001, channels = 1) ... ok
produces_output (SRC ratio = 1.0001, channels = 2) ... ok
produces_output (SRC ratio = 1.0001, channels = 3) ... ok
produces_output (SRC ratio = 1.0001, channels = 4) ... ok
produces_output (SRC ratio = 1.0001, channels = 5) ... ok
produces_output (SRC ratio = 1.0001, channels = 6) ... ok
produces_output (SRC ratio = 1.0001, channels = 7) ... ok
produces_output (SRC ratio = 1.0001, channels = 8) ... ok
produces_output (SRC ratio = 1.0001, channels = 9) ... ok
simple_test (SRC ratio = 0.0990) ................. ok
produces_output (SRC ratio = 0.0990, channels = 1) ... ok
produces_output (SRC ratio = 0.0990, channels = 2) ... ok
produces_output (SRC ratio = 0.0990, channels = 3) ... ok
produces_output (SRC ratio = 0.0990, channels = 4) ... ok
produces_output (SRC ratio = 0.0990, channels = 5) ... ok
produces_output (SRC ratio = 0.0990, channels = 6) ... ok
produces_output (SRC ratio = 0.0990, channels = 7) ... ok
produces_output (SRC ratio = 0.0990, channels = 8) ... ok
produces_output (SRC ratio = 0.0990, channels = 9) ... ok
simple_test (SRC ratio = 0.1000) ................. ok
produces_output (SRC ratio = 0.1000, channels = 1) ... ok
produces_output (SRC ratio = 0.1000, channels = 2) ... ok
produces_output (SRC ratio = 0.1000, channels = 3) ... ok
produces_output (SRC ratio = 0.1000, channels = 4) ... ok
produces_output (SRC ratio = 0.1000, channels = 5) ... ok
produces_output (SRC ratio = 0.1000, channels = 6) ... ok
produces_output (SRC ratio = 0.1000, channels = 7) ... ok
produces_output (SRC ratio = 0.1000, channels = 8) ... ok
produces_output (SRC ratio = 0.1000, channels = 9) ... ok
simple_test (SRC ratio = 0.3333) ................. ok
produces_output (SRC ratio = 0.3333, channels = 1) ... ok
produces_output (SRC ratio = 0.3333, channels = 2) ... ok
produces_output (SRC ratio = 0.3333, channels = 3) ... ok
produces_output (SRC ratio = 0.3333, channels = 4) ... ok
produces_output (SRC ratio = 0.3333, channels = 5) ... ok
produces_output (SRC ratio = 0.3333, channels = 6) ... ok
produces_output (SRC ratio = 0.3333, channels = 7) ... ok
produces_output (SRC ratio = 0.3333, channels = 8) ... ok
produces_output (SRC ratio = 0.3333, channels = 9) ... ok
simple_test (SRC ratio = 0.7890) ................. ok
produces_output (SRC ratio = 0.7890, channels = 1) ... ok
produces_output (SRC ratio = 0.7890, channels = 2) ... ok
produces_output (SRC ratio = 0.7890, channels = 3) ... ok
produces_output (SRC ratio = 0.7890, channels = 4) ... ok
produces_output (SRC ratio = 0.7890, channels = 5) ... ok
produces_output (SRC ratio = 0.7890, channels = 6) ... ok
produces_output (SRC ratio = 0.7890, channels = 7) ... ok
produces_output (SRC ratio = 0.7890, channels = 8) ... ok
produces_output (SRC ratio = 0.7890, channels = 9) ... ok
simple_test (SRC ratio = 1.9000) ................. ok
produces_output (SRC ratio = 1.9000, channels = 1) ... ok
produces_output (SRC ratio = 1.9000, channels = 2) ... ok
produces_output (SRC ratio = 1.9000, channels = 3) ... ok
produces_output (SRC ratio = 1.9000, channels = 4) ... ok
produces_output (SRC ratio = 1.9000, channels = 5) ... ok
produces_output (SRC ratio = 1.9000, channels = 6) ... ok
produces_output (SRC ratio = 1.9000, channels = 7) ... ok
produces_output (SRC ratio = 1.9000, channels = 8) ... ok
produces_output (SRC ratio = 1.9000, channels = 9) ... ok
simple_test (SRC ratio = 3.1000) ................. ok
produces_output (SRC ratio = 3.1000, channels = 1) ... ok
produces_output (SRC ratio = 3.1000, channels = 2) ... ok
produces_output (SRC ratio = 3.1000, channels = 3) ... ok
produces_output (SRC ratio = 3.1000, channels = 4) ... ok
produces_output (SRC ratio = 3.1000, channels = 5) ... ok
produces_output (SRC ratio = 3.1000, channels = 6) ... ok
produces_output (SRC ratio = 3.1000, channels = 7) ... ok
produces_output (SRC ratio = 3.1000, channels = 8) ... ok
produces_output (SRC ratio = 3.1000, channels = 9) ... ok
simple_test (SRC ratio = 9.9000) ................. ok
produces_output (SRC ratio = 9.9000, channels = 1) ... ok
produces_output (SRC ratio = 9.9000, channels = 2) ... ok
produces_output (SRC ratio = 9.9000, channels = 3) ... ok
produces_output (SRC ratio = 9.9000, channels = 4) ... ok
produces_output (SRC ratio = 9.9000, channels = 5) ... ok
produces_output (SRC ratio = 9.9000, channels = 6) ... ok
produces_output (SRC ratio = 9.9000, channels = 7) ... ok
produces_output (SRC ratio = 9.9000, channels = 8) ... ok
produces_output (SRC ratio = 9.9000, channels = 9) ... ok
simple_test (SRC ratio = 256.0000) ................. ok
produces_output (SRC ratio = 256.0000, channels = 1) ... ok
produces_output (SRC ratio = 256.0000, channels = 2) ... ok
produces_output (SRC ratio = 256.0000, channels = 3) ... ok
produces_output (SRC ratio = 256.0000, channels = 4) ... ok
produces_output (SRC ratio = 256.0000, channels = 5) ... ok
produces_output (SRC ratio = 256.0000, channels = 6) ... ok
produces_output (SRC ratio = 256.0000, channels = 7) ... ok
produces_output (SRC ratio = 256.0000, channels = 8) ... ok
produces_output (SRC ratio = 256.0000, channels = 9) ... ok
simple_test (SRC ratio = 0.0039) ................. ok
produces_output (SRC ratio = 0.0039, channels = 1) ... ok
produces_output (SRC ratio = 0.0039, channels = 2) ... ok
produces_output (SRC ratio = 0.0039, channels = 3) ... ok
produces_output (SRC ratio = 0.0039, channels = 4) ... ok
produces_output (SRC ratio = 0.0039, channels = 5) ... ok
produces_output (SRC ratio = 0.0039, channels = 6) ... ok
produces_output (SRC ratio = 0.0039, channels = 7) ... ok
produces_output (SRC ratio = 0.0039, channels = 8) ... ok
produces_output (SRC ratio = 0.0039, channels = 9) ... ok
Linear interpolator :
simple_test (SRC ratio = 1.0001) ................. ok
produces_output (SRC ratio = 1.0001, channels = 1) ... ok
produces_output (SRC ratio = 1.0001, channels = 2) ... ok
produces_output (SRC ratio = 1.0001, channels = 3) ... ok
produces_output (SRC ratio = 1.0001, channels = 4) ... ok
produces_output (SRC ratio = 1.0001, channels = 5) ... ok
produces_output (SRC ratio = 1.0001, channels = 6) ... ok
produces_output (SRC ratio = 1.0001, channels = 7) ... ok
produces_output (SRC ratio = 1.0001, channels = 8) ... ok
produces_output (SRC ratio = 1.0001, channels = 9) ... ok
simple_test (SRC ratio = 0.0990) ................. ok
produces_output (SRC ratio = 0.0990, channels = 1) ... ok
produces_output (SRC ratio = 0.0990, channels = 2) ... ok
produces_output (SRC ratio = 0.0990, channels = 3) ... ok
produces_output (SRC ratio = 0.0990, channels = 4) ... ok
produces_output (SRC ratio = 0.0990, channels = 5) ... ok
produces_output (SRC ratio = 0.0990, channels = 6) ... ok
produces_output (SRC ratio = 0.0990, channels = 7) ... ok
produces_output (SRC ratio = 0.0990, channels = 8) ... ok
produces_output (SRC ratio = 0.0990, channels = 9) ... ok
simple_test (SRC ratio = 0.1000) ................. ok
produces_output (SRC ratio = 0.1000, channels = 1) ... ok
produces_output (SRC ratio = 0.1000, channels = 2) ... ok
produces_output (SRC ratio = 0.1000, channels = 3) ... ok
produces_output (SRC ratio = 0.1000, channels = 4) ... ok
produces_output (SRC ratio = 0.1000, channels = 5) ... ok
produces_output (SRC ratio = 0.1000, channels = 6) ... ok
produces_output (SRC ratio = 0.1000, channels = 7) ... ok
produces_output (SRC ratio = 0.1000, channels = 8) ... ok
produces_output (SRC ratio = 0.1000, channels = 9) ... ok
simple_test (SRC ratio = 0.3333) ................. ok
produces_output (SRC ratio = 0.3333, channels = 1) ... ok
produces_output (SRC ratio = 0.3333, channels = 2) ... ok
produces_output (SRC ratio = 0.3333, channels = 3) ... ok
produces_output (SRC ratio = 0.3333, channels = 4) ... ok
produces_output (SRC ratio = 0.3333, channels = 5) ... ok
produces_output (SRC ratio = 0.3333, channels = 6) ... ok
produces_output (SRC ratio = 0.3333, channels = 7) ... ok
produces_output (SRC ratio = 0.3333, channels = 8) ... ok
produces_output (SRC ratio = 0.3333, channels = 9) ... ok
simple_test (SRC ratio = 0.7890) ................. ok
produces_output (SRC ratio = 0.7890, channels = 1) ... ok
produces_output (SRC ratio = 0.7890, channels = 2) ... ok
produces_output (SRC ratio = 0.7890, channels = 3) ... ok
produces_output (SRC ratio = 0.7890, channels = 4) ... ok
produces_output (SRC ratio = 0.7890, channels = 5) ... ok
produces_output (SRC ratio = 0.7890, channels = 6) ... ok
produces_output (SRC ratio = 0.7890, channels = 7) ... ok
produces_output (SRC ratio = 0.7890, channels = 8) ... ok
produces_output (SRC ratio = 0.7890, channels = 9) ... ok
simple_test (SRC ratio = 1.9000) ................. ok
produces_output (SRC ratio = 1.9000, channels = 1) ... ok
produces_output (SRC ratio = 1.9000, channels = 2) ... ok
produces_output (SRC ratio = 1.9000, channels = 3) ... ok
produces_output (SRC ratio = 1.9000, channels = 4) ... ok
produces_output (SRC ratio = 1.9000, channels = 5) ... ok
produces_output (SRC ratio = 1.9000, channels = 6) ... ok
produces_output (SRC ratio = 1.9000, channels = 7) ... ok
produces_output (SRC ratio = 1.9000, channels = 8) ... ok
produces_output (SRC ratio = 1.9000, channels = 9) ... ok
simple_test (SRC ratio = 3.1000) ................. ok
produces_output (SRC ratio = 3.1000, channels = 1) ... ok
produces_output (SRC ratio = 3.1000, channels = 2) ... ok
produces_output (SRC ratio = 3.1000, channels = 3) ... ok
produces_output (SRC ratio = 3.1000, channels = 4) ... ok
produces_output (SRC ratio = 3.1000, channels = 5) ... ok
produces_output (SRC ratio = 3.1000, channels = 6) ... ok
produces_output (SRC ratio = 3.1000, channels = 7) ... ok
produces_output (SRC ratio = 3.1000, channels = 8) ... ok
produces_output (SRC ratio = 3.1000, channels = 9) ... ok
simple_test (SRC ratio = 9.9000) ................. ok
produces_output (SRC ratio = 9.9000, channels = 1) ... ok
produces_output (SRC ratio = 9.9000, channels = 2) ... ok
produces_output (SRC ratio = 9.9000, channels = 3) ... ok
produces_output (SRC ratio = 9.9000, channels = 4) ... ok
produces_output (SRC ratio = 9.9000, channels = 5) ... ok
produces_output (SRC ratio = 9.9000, channels = 6) ... ok
produces_output (SRC ratio = 9.9000, channels = 7) ... ok
produces_output (SRC ratio = 9.9000, channels = 8) ... ok
produces_output (SRC ratio = 9.9000, channels = 9) ... ok
simple_test (SRC ratio = 256.0000) ................. ok
produces_output (SRC ratio = 256.0000, channels = 1) ... ok
produces_output (SRC ratio = 256.0000, channels = 2) ... ok
produces_output (SRC ratio = 256.0000, channels = 3) ... ok
produces_output (SRC ratio = 256.0000, channels = 4) ... ok
produces_output (SRC ratio = 256.0000, channels = 5) ... ok
produces_output (SRC ratio = 256.0000, channels = 6) ... ok
produces_output (SRC ratio = 256.0000, channels = 7) ... ok
produces_output (SRC ratio = 256.0000, channels = 8) ... ok
produces_output (SRC ratio = 256.0000, channels = 9) ... ok
simple_test (SRC ratio = 0.0039) ................. ok
produces_output (SRC ratio = 0.0039, channels = 1) ... ok
produces_output (SRC ratio = 0.0039, channels = 2) ... ok
produces_output (SRC ratio = 0.0039, channels = 3) ... ok
produces_output (SRC ratio = 0.0039, channels = 4) ... ok
produces_output (SRC ratio = 0.0039, channels = 5) ... ok
produces_output (SRC ratio = 0.0039, channels = 6) ... ok
produces_output (SRC ratio = 0.0039, channels = 7) ... ok
produces_output (SRC ratio = 0.0039, channels = 8) ... ok
produces_output (SRC ratio = 0.0039, channels = 9) ... ok
Sinc interpolator :
simple_test (SRC ratio = 1.0001) ................. ok
produces_output (SRC ratio = 1.0001, channels = 1) ... ok
produces_output (SRC ratio = 1.0001, channels = 2) ... ok
produces_output (SRC ratio = 1.0001, channels = 3) ... ok
produces_output (SRC ratio = 1.0001, channels = 4) ... ok
produces_output (SRC ratio = 1.0001, channels = 5) ... ok
produces_output (SRC ratio = 1.0001, channels = 6) ... ok
produces_output (SRC ratio = 1.0001, channels = 7) ... ok
produces_output (SRC ratio = 1.0001, channels = 8) ... ok
produces_output (SRC ratio = 1.0001, channels = 9) ... ok
simple_test (SRC ratio = 0.0990) ................. ok
produces_output (SRC ratio = 0.0990, channels = 1) ... ok
produces_output (SRC ratio = 0.0990, channels = 2) ... ok
produces_output (SRC ratio = 0.0990, channels = 3) ... ok
produces_output (SRC ratio = 0.0990, channels = 4) ... ok
produces_output (SRC ratio = 0.0990, channels = 5) ... ok
produces_output (SRC ratio = 0.0990, channels = 6) ... ok
produces_output (SRC ratio = 0.0990, channels = 7) ... ok
produces_output (SRC ratio = 0.0990, channels = 8) ... ok
produces_output (SRC ratio = 0.0990, channels = 9) ... ok
simple_test (SRC ratio = 0.1000) ................. ok
produces_output (SRC ratio = 0.1000, channels = 1) ... ok
produces_output (SRC ratio = 0.1000, channels = 2) ... ok
produces_output (SRC ratio = 0.1000, channels = 3) ... ok
produces_output (SRC ratio = 0.1000, channels = 4) ... ok
produces_output (SRC ratio = 0.1000, channels = 5) ... ok
produces_output (SRC ratio = 0.1000, channels = 6) ... ok
produces_output (SRC ratio = 0.1000, channels = 7) ... ok
produces_output (SRC ratio = 0.1000, channels = 8) ... ok
produces_output (SRC ratio = 0.1000, channels = 9) ... ok
simple_test (SRC ratio = 0.3333) ................. ok
produces_output (SRC ratio = 0.3333, channels = 1) ... ok
produces_output (SRC ratio = 0.3333, channels = 2) ... ok
produces_output (SRC ratio = 0.3333, channels = 3) ... ok
produces_output (SRC ratio = 0.3333, channels = 4) ... ok
produces_output (SRC ratio = 0.3333, channels = 5) ... ok
produces_output (SRC ratio = 0.3333, channels = 6) ... ok
produces_output (SRC ratio = 0.3333, channels = 7) ... ok
produces_output (SRC ratio = 0.3333, channels = 8) ... ok
produces_output (SRC ratio = 0.3333, channels = 9) ... ok
simple_test (SRC ratio = 0.7890) ................. ok
produces_output (SRC ratio = 0.7890, channels = 1) ... ok
produces_output (SRC ratio = 0.7890, channels = 2) ... ok
produces_output (SRC ratio = 0.7890, channels = 3) ... ok
produces_output (SRC ratio = 0.7890, channels = 4) ... ok
produces_output (SRC ratio = 0.7890, channels = 5) ... ok
produces_output (SRC ratio = 0.7890, channels = 6) ... ok
produces_output (SRC ratio = 0.7890, channels = 7) ... ok
produces_output (SRC ratio = 0.7890, channels = 8) ... ok
produces_output (SRC ratio = 0.7890, channels = 9) ... ok
simple_test (SRC ratio = 1.9000) ................. ok
produces_output (SRC ratio = 1.9000, channels = 1) ... ok
produces_output (SRC ratio = 1.9000, channels = 2) ... ok
produces_output (SRC ratio = 1.9000, channels = 3) ... ok
produces_output (SRC ratio = 1.9000, channels = 4) ... ok
produces_output (SRC ratio = 1.9000, channels = 5) ... ok
produces_output (SRC ratio = 1.9000, channels = 6) ... ok
produces_output (SRC ratio = 1.9000, channels = 7) ... ok
produces_output (SRC ratio = 1.9000, channels = 8) ... ok
produces_output (SRC ratio = 1.9000, channels = 9) ... ok
simple_test (SRC ratio = 3.1000) ................. ok
produces_output (SRC ratio = 3.1000, channels = 1) ... ok
produces_output (SRC ratio = 3.1000, channels = 2) ... ok
produces_output (SRC ratio = 3.1000, channels = 3) ... ok
produces_output (SRC ratio = 3.1000, channels = 4) ... ok
produces_output (SRC ratio = 3.1000, channels = 5) ... ok
produces_output (SRC ratio = 3.1000, channels = 6) ... ok
produces_output (SRC ratio = 3.1000, channels = 7) ... ok
produces_output (SRC ratio = 3.1000, channels = 8) ... ok
produces_output (SRC ratio = 3.1000, channels = 9) ... ok
simple_test (SRC ratio = 9.9000) ................. ok
produces_output (SRC ratio = 9.9000, channels = 1) ... ok
produces_output (SRC ratio = 9.9000, channels = 2) ... ok
produces_output (SRC ratio = 9.9000, channels = 3) ... ok
produces_output (SRC ratio = 9.9000, channels = 4) ... ok
produces_output (SRC ratio = 9.9000, channels = 5) ... ok
produces_output (SRC ratio = 9.9000, channels = 6) ... ok
produces_output (SRC ratio = 9.9000, channels = 7) ... ok
produces_output (SRC ratio = 9.9000, channels = 8) ... ok
produces_output (SRC ratio = 9.9000, channels = 9) ... ok
simple_test (SRC ratio = 256.0000) ................. ok
produces_output (SRC ratio = 256.0000, channels = 1) ... ok
produces_output (SRC ratio = 256.0000, channels = 2) ... ok
produces_output (SRC ratio = 256.0000, channels = 3) ... ok
produces_output (SRC ratio = 256.0000, channels = 4) ... ok
produces_output (SRC ratio = 256.0000, channels = 5) ... ok
produces_output (SRC ratio = 256.0000, channels = 6) ... ok
produces_output (SRC ratio = 256.0000, channels = 7) ... ok
produces_output (SRC ratio = 256.0000, channels = 8) ... ok
produces_output (SRC ratio = 256.0000, channels = 9) ... ok
simple_test (SRC ratio = 0.0039) ................. ok
produces_output (SRC ratio = 0.0039, channels = 1) ... ok
produces_output (SRC ratio = 0.0039, channels = 2) ... ok
produces_output (SRC ratio = 0.0039, channels = 3) ... ok
produces_output (SRC ratio = 0.0039, channels = 4) ... ok
produces_output (SRC ratio = 0.0039, channels = 5) ... ok
produces_output (SRC ratio = 0.0039, channels = 6) ... ok
produces_output (SRC ratio = 0.0039, channels = 7) ... ok
produces_output (SRC ratio = 0.0039, channels = 8) ... ok
produces_output (SRC ratio = 0.0039, channels = 9) ... ok
PASS: tests/simple_test
Converter 3 : ZOH Interpolator
Zero order hold interpolator, very fast, poor quality.
Signal-to-Noise Ratio Test 0 : Pass
Signal-to-Noise Ratio Test 1 : Pass
Signal-to-Noise Ratio Test 2 : Pass
Signal-to-Noise Ratio Test 3 : Pass
Signal-to-Noise Ratio Test 4 : Pass
Signal-to-Noise Ratio Test 5 : Pass
Signal-to-Noise Ratio Test 6 : Pass
Signal-to-Noise Ratio Test 7 : Pass
Worst case Signal-to-Noise Ratio : 10.55 dB.
Bandwith test not performed on this converter.
Converter 4 : Linear Interpolator
Linear interpolator, very fast, poor quality.
Signal-to-Noise Ratio Test 0 : Pass
Signal-to-Noise Ratio Test 1 : Pass
Signal-to-Noise Ratio Test 2 : Pass
Signal-to-Noise Ratio Test 3 : Pass
Signal-to-Noise Ratio Test 4 : Pass
Signal-to-Noise Ratio Test 5 : Pass
Signal-to-Noise Ratio Test 6 : Pass
Signal-to-Noise Ratio Test 7 : Pass
Worst case Signal-to-Noise Ratio : 15.80 dB.
Bandwith test not performed on this converter.
Converter 2 : Fastest Sinc Interpolator
Band limited sinc interpolation, fastest, 97dB SNR, 80% BW.
Signal-to-Noise Ratio Test 0 : Pass
Signal-to-Noise Ratio Test 1 : Pass
Signal-to-Noise Ratio Test 2 : Pass
Signal-to-Noise Ratio Test 3 : Pass
Signal-to-Noise Ratio Test 4 : Pass
Signal-to-Noise Ratio Test 5 : Pass
Signal-to-Noise Ratio Test 6 : Pass
Signal-to-Noise Ratio Test 7 : Pass
Signal-to-Noise Ratio Test 8 : Pass
Worst case Signal-to-Noise Ratio : 101.71 dB.
Measured -3dB rolloff point : 80.23 %.
Converter 1 : Medium Sinc Interpolator
Band limited sinc interpolation, medium quality, 121dB SNR, 90% BW.
Signal-to-Noise Ratio Test 0 : Pass
Signal-to-Noise Ratio Test 1 : Pass
Signal-to-Noise Ratio Test 2 : Pass
Signal-to-Noise Ratio Test 3 : Pass
Signal-to-Noise Ratio Test 4 : Pass
Signal-to-Noise Ratio Test 5 : Pass
Signal-to-Noise Ratio Test 6 : Pass
Signal-to-Noise Ratio Test 7 : Pass
Signal-to-Noise Ratio Test 8 : Pass
Worst case Signal-to-Noise Ratio : 121.18 dB.
Measured -3dB rolloff point : 90.55 %.
Converter 0 : Best Sinc Interpolator
Band limited sinc interpolation, best quality, 144dB SNR, 96% BW.
Signal-to-Noise Ratio Test 0 : Pass
Signal-to-Noise Ratio Test 1 : Pass
Signal-to-Noise Ratio Test 2 : Pass
Signal-to-Noise Ratio Test 3 : Pass
Signal-to-Noise Ratio Test 4 : Pass
Signal-to-Noise Ratio Test 5 : Pass
Signal-to-Noise Ratio Test 6 : Pass
Signal-to-Noise Ratio Test 7 : Pass
Signal-to-Noise Ratio Test 8 : Pass
Worst case Signal-to-Noise Ratio : 144.07 dB.
Measured -3dB rolloff point : 96.08 %.
PASS: tests/snr_bw_test
Zero Order Hold interpolator:
init_term_test (SRC ratio = 0.9999) .......... ok
init_term_test (SRC ratio = 1.0001) .......... ok
init_term_test (SRC ratio = 0.7890) .......... ok
init_term_test (SRC ratio = 1.2000) .......... ok
init_term_test (SRC ratio = 0.3333) .......... ok
init_term_test (SRC ratio = 3.1000) .......... ok
init_term_test (SRC ratio = 0.1250) .......... ok
init_term_test (SRC ratio = 8.0000) .......... ok
init_term_test (SRC ratio = 0.0999) .......... ok
init_term_test (SRC ratio = 9.9900) .......... ok
init_term_test (SRC ratio = 0.1000) .......... ok
init_term_test (SRC ratio = 10.0000) .......... ok
stream_test (SRC ratio = 0.9999) .......... ok
stream_test (SRC ratio = 1.0001) .......... ok
stream_test (SRC ratio = 0.7890) .......... ok
stream_test (SRC ratio = 1.2000) .......... ok
stream_test (SRC ratio = 0.3333) .......... ok
stream_test (SRC ratio = 3.1000) .......... ok
stream_test (SRC ratio = 0.1250) .......... ok
stream_test (SRC ratio = 8.0000) .......... ok
stream_test (SRC ratio = 0.0999) .......... ok
stream_test (SRC ratio = 9.9900) .......... ok
stream_test (SRC ratio = 0.1000) .......... ok
stream_test (SRC ratio = 10.0000) .......... ok
Linear interpolator:
init_term_test (SRC ratio = 0.9999) .......... ok
init_term_test (SRC ratio = 1.0001) .......... ok
init_term_test (SRC ratio = 0.7890) .......... ok
init_term_test (SRC ratio = 1.2000) .......... ok
init_term_test (SRC ratio = 0.3333) .......... ok
init_term_test (SRC ratio = 3.1000) .......... ok
init_term_test (SRC ratio = 0.1250) .......... ok
init_term_test (SRC ratio = 8.0000) .......... ok
init_term_test (SRC ratio = 0.0999) .......... ok
init_term_test (SRC ratio = 9.9900) .......... ok
init_term_test (SRC ratio = 0.1000) .......... ok
init_term_test (SRC ratio = 10.0000) .......... ok
stream_test (SRC ratio = 0.9999) .......... ok
stream_test (SRC ratio = 1.0001) .......... ok
stream_test (SRC ratio = 0.7890) .......... ok
stream_test (SRC ratio = 1.2000) .......... ok
stream_test (SRC ratio = 0.3333) .......... ok
stream_test (SRC ratio = 3.1000) .......... ok
stream_test (SRC ratio = 0.1250) .......... ok
stream_test (SRC ratio = 8.0000) .......... ok
stream_test (SRC ratio = 0.0999) .......... ok
stream_test (SRC ratio = 9.9900) .......... ok
stream_test (SRC ratio = 0.1000) .......... ok
stream_test (SRC ratio = 10.0000) .......... ok
Sinc interpolator:
init_term_test (SRC ratio = 0.9999) .......... ok
init_term_test (SRC ratio = 1.0001) .......... ok
init_term_test (SRC ratio = 0.7890) .......... ok
init_term_test (SRC ratio = 1.2000) .......... ok
init_term_test (SRC ratio = 0.3333) .......... ok
init_term_test (SRC ratio = 3.1000) .......... ok
init_term_test (SRC ratio = 0.1250) .......... ok
init_term_test (SRC ratio = 8.0000) .......... ok
init_term_test (SRC ratio = 0.0999) .......... ok
init_term_test (SRC ratio = 9.9900) .......... ok
init_term_test (SRC ratio = 0.1000) .......... ok
init_term_test (SRC ratio = 10.0000) .......... ok
stream_test (SRC ratio = 0.9999) .......... ok
stream_test (SRC ratio = 1.0001) .......... ok
stream_test (SRC ratio = 0.7890) .......... ok
stream_test (SRC ratio = 1.2000) .......... ok
stream_test (SRC ratio = 0.3333) .......... ok
stream_test (SRC ratio = 3.1000) .......... ok
stream_test (SRC ratio = 0.1250) .......... ok
stream_test (SRC ratio = 8.0000) .......... ok
stream_test (SRC ratio = 0.0999) .......... ok
stream_test (SRC ratio = 9.9900) .......... ok
stream_test (SRC ratio = 0.1000) .......... ok
stream_test (SRC ratio = 10.0000) .......... ok
PASS: tests/termination_test
CPU name : Unknown
Converter Duration Throughput
-----------------------------------------------------------
ZOH Interpolator 3.00 64304143
Linear Interpolator 3.00 63259684
Fastest Sinc Interpolator 3.00 4689719
Medium Sinc Interpolator 3.01 2136487
Best Sinc Interpolator 3.01 711796
Duration is in seconds.
Throughput is in samples/sec (more is better).
PASS: tests/throughput_test
Varispeed SNR test
Zero Order Hold interpolator : ok
Linear interpolator : ok
Sinc interpolator : ok
Varispeed bounds test
Zero Order Hold interpolator : ok
Linear interpolator : ok
Sinc interpolator : ok
PASS: tests/varispeed_test
===================
All 14 tests passed
===================
make[1]: Leaving directory '/home/buildozer/aports/main/libsamplerate/src/libsamplerate-0.2.2'
>>> libsamplerate: Entering fakeroot...
make[1]: Entering directory '/home/buildozer/aports/main/libsamplerate/src/libsamplerate-0.2.2'
./build-aux/install-sh -c -d '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib'
./build-aux/install-sh -c -d '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/share/doc/libsamplerate'
./build-aux/install-sh -c -d '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/include'
./build-aux/install-sh -c -d '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/pkgconfig'
/bin/sh ./libtool --mode=install /usr/bin/install -c src/libsamplerate.la '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib'
/usr/bin/install -c -m 644 include/samplerate.h '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/include'
/usr/bin/install -c -m 644 docs/SRC.png docs/SRC.css docs/index.md docs/license.md docs/history.md docs/download.md docs/lists.md docs/quality.md docs/win32.md docs/faq.md docs/api.md docs/api_simple.md docs/api_callback.md docs/api_full.md docs/api_misc.md docs/bugs.md '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/share/doc/libsamplerate'
/usr/bin/install -c -m 644 samplerate.pc '/home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/pkgconfig'
libtool: install: /usr/bin/install -c src/.libs/libsamplerate.so.0.2.2 /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/libsamplerate.so.0.2.2
libtool: install: (cd /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib && { ln -s -f libsamplerate.so.0.2.2 libsamplerate.so.0 || { rm -f libsamplerate.so.0 && ln -s libsamplerate.so.0.2.2 libsamplerate.so.0; }; })
libtool: install: (cd /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib && { ln -s -f libsamplerate.so.0.2.2 libsamplerate.so || { rm -f libsamplerate.so && ln -s libsamplerate.so.0.2.2 libsamplerate.so; }; })
libtool: install: /usr/bin/install -c src/.libs/libsamplerate.lai /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/libsamplerate.la
libtool: install: /usr/bin/install -c src/.libs/libsamplerate.a /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/libsamplerate.a
libtool: install: chmod 644 /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/libsamplerate.a
libtool: install: ranlib /home/buildozer/aports/main/libsamplerate/pkg/libsamplerate/usr/lib/libsamplerate.a
libtool: warning: remember to run 'libtool --finish /usr/lib'
make[1]: Leaving directory '/home/buildozer/aports/main/libsamplerate/src/libsamplerate-0.2.2'
>>> libsamplerate-static*: Running split function static...
>>> libsamplerate-static*: Preparing subpackage libsamplerate-static...
>>> libsamplerate-static*: Stripping binaries
>>> libsamplerate-static*: Running postcheck for libsamplerate-static
>>> libsamplerate-dev*: Running split function dev...
>>> libsamplerate-dev*: Preparing subpackage libsamplerate-dev...
>>> libsamplerate-dev*: Stripping binaries
>>> libsamplerate-dev*: Running postcheck for libsamplerate-dev
>>> libsamplerate-doc*: Running split function doc...
>>> libsamplerate-doc*: Preparing subpackage libsamplerate-doc...
>>> libsamplerate-doc*: Running postcheck for libsamplerate-doc
>>> libsamplerate*: Running postcheck for libsamplerate
>>> libsamplerate*: Preparing package libsamplerate...
>>> libsamplerate*: Stripping binaries
>>> libsamplerate-dev*: Scanning shared objects
>>> libsamplerate-doc*: Scanning shared objects
>>> libsamplerate-static*: Scanning shared objects
>>> libsamplerate*: Scanning shared objects
>>> libsamplerate-dev*: Tracing dependencies...
libsamplerate=0.2.2-r2
pkgconfig
>>> libsamplerate-dev*: Package size: 32.0 KB
>>> libsamplerate-dev*: Compressing data...
>>> libsamplerate-dev*: Create checksum...
>>> libsamplerate-dev*: Create libsamplerate-dev-0.2.2-r2.apk
>>> libsamplerate-doc*: Tracing dependencies...
>>> libsamplerate-doc*: Package size: 128.0 KB
>>> libsamplerate-doc*: Compressing data...
>>> libsamplerate-doc*: Create checksum...
>>> libsamplerate-doc*: Create libsamplerate-doc-0.2.2-r2.apk
>>> libsamplerate-static*: Tracing dependencies...
>>> libsamplerate-static*: Package size: 1.4 MB
>>> libsamplerate-static*: Compressing data...
>>> libsamplerate-static*: Create checksum...
>>> libsamplerate-static*: Create libsamplerate-static-0.2.2-r2.apk
>>> libsamplerate*: Tracing dependencies...
so:libc.musl-s390x.so.1
>>> libsamplerate*: Package size: 1.4 MB
>>> libsamplerate*: Compressing data...
>>> libsamplerate*: Create checksum...
>>> libsamplerate*: Create libsamplerate-0.2.2-r2.apk
>>> libsamplerate: Build complete at Wed, 19 Apr 2023 23:32:02 +0000 elapsed time 0h 0m 43s
>>> libsamplerate: Cleaning up srcdir
>>> libsamplerate: Cleaning up pkgdir
>>> libsamplerate: Uninstalling dependencies...
(1/17) Purging .makedepends-libsamplerate (20230419.233120)
(2/17) Purging fftw-dev (3.3.10-r2)
(3/17) Purging fftw-double-libs (3.3.10-r2)
(4/17) Purging fftw-long-double-libs (3.3.10-r2)
(5/17) Purging fftw-single-libs (3.3.10-r2)
(6/17) Purging libsndfile-dev (1.2.0-r2)
(7/17) Purging libsndfile (1.2.0-r2)
(8/17) Purging linux-headers (6.2-r0)
(9/17) Purging alsa-lib (1.2.8-r1)
(10/17) Purging flac-dev (1.4.2-r2)
(11/17) Purging flac-libs (1.4.2-r2)
(12/17) Purging libvorbis-dev (1.3.7-r1)
(13/17) Purging libvorbis (1.3.7-r1)
(14/17) Purging opus-dev (1.3.1-r2)
(15/17) Purging opus (1.3.1-r2)
(16/17) Purging libogg-dev (1.3.5-r4)
(17/17) Purging libogg (1.3.5-r4)
Executing busybox-1.36.0-r7.trigger
OK: 370 MiB in 97 packages
>>> libsamplerate: Updating the main/s390x repository index...
>>> libsamplerate: Signing the index...