Input buildinfo: https://buildinfos.debian.net/buildinfo-pool/o/octave-sparsersb/octave-sparsersb_1.0.8-3_amd64.buildinfo Use metasnap for getting required timestamps New buildinfo file: /tmp/octave-sparsersb-1.0.8-3f88i2vjw/octave-sparsersb_1.0.8-3_amd64.buildinfo Get source package info: octave-sparsersb=1.0.8-3 Source URL: http://snapshot.notset.fr/mr/package/octave-sparsersb/1.0.8-3/srcfiles?fileinfo=1 env -i PATH=/usr/sbin:/usr/bin:/sbin:/bin TMPDIR=/tmp mmdebstrap --arch=amd64 --include=aglfn=1.7+git20191031.4036a9c-2 autoconf=2.69-11.1 automake=1:1.16.3-1 autopoint=0.19.8.1-10 autotools-dev=20180224.1 base-files=11 base-passwd=3.5.48 bash=5.1-1 binutils=2.35.1-4 binutils-common=2.35.1-4 binutils-x86-64-linux-gnu=2.35.1-4 bsdextrautils=2.36.1-2 bsdutils=1:2.36.1-2 build-essential=12.8 bzip2=1.0.8-4 ca-certificates=20200601 cme=1.032-1 coreutils=8.32-4+b1 cpp=4:10.2.0-1 cpp-10=10.2.1-1 dash=0.5.11+git20200708+dd9ef66-2 debconf=1.5.74 debhelper=13.3 debianutils=4.11.2 dh-autoreconf=19 dh-octave=1.0.2 dh-octave-autopkgtest=1.0.2 dh-strip-nondeterminism=1.9.0-1 diffstat=1.63-1 diffutils=1:3.7-3 dpkg=1.20.5 dpkg-dev=1.20.5 dwz=0.13+20201015-2 file=1:5.39-3 findutils=4.7.0+git20201010-2 fontconfig=2.13.1-4.2 fontconfig-config=2.13.1-4.2 fonts-dejavu-core=2.37-2 fonts-freefont-otf=20120503-10 g++=4:10.2.0-1 g++-10=10.2.1-1 gcc=4:10.2.0-1 gcc-10=10.2.1-1 gcc-10-base=10.2.1-1 gettext=0.19.8.1-10 gettext-base=0.19.8.1-10 gfortran=4:10.2.0-1 gfortran-10=10.2.1-1 gnuplot-data=5.4.1+dfsg1-1 gnuplot-nox=5.4.1+dfsg1-1 gpg=2.2.20-1 gpgconf=2.2.20-1 grep=3.6-1 groff-base=1.22.4-5 gzip=1.10-2 hdf5-helpers=1.10.6+repack-2 hostname=3.23 init-system-helpers=1.59 intltool-debian=0.35.0+20060710.5 libacl1=2.2.53-8 libaec-dev=1.0.4-1 libaec0=1.0.4-1 libalgorithm-c3-perl=0.11-1 libaliased-perl=0.34-1 libamd2=1:5.8.1+dfsg-2 libapp-cmd-perl=0.331-1 libapt-pkg-perl=0.1.36+b4 libapt-pkg6.0=2.1.12 libarchive-zip-perl=1.68-1 libarpack2=3.8.0-1 libarray-intspan-perl=2.004-1 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libuuid1=2.36.1-2 libvariable-magic-perl=0.62-1+b3 libvorbis0a=1.3.7-1 libvorbisenc2=1.3.7-1 libvulkan1=1.2.154.1-1 libwacom-common=1.6-1 libwacom2=1.6-1 libwayland-client0=1.18.0-2~exp1.1 libwayland-server0=1.18.0-2~exp1.1 libwebp6=0.6.1-2+b1 libwebpmux3=0.6.1-2+b1 libwmf0.2-7=0.2.8.4-17 libwww-perl=6.49-1 libwww-robotrules-perl=6.02-1 libx11-6=2:1.6.12-1 libx11-data=2:1.6.12-1 libx11-dev=2:1.6.12-1 libx11-xcb1=2:1.6.12-1 libxau-dev=1:1.0.8-1+b2 libxau6=1:1.0.8-1+b2 libxcb-dri2-0=1.14-2 libxcb-dri3-0=1.14-2 libxcb-glx0=1.14-2 libxcb-icccm4=0.4.1-1.1 libxcb-image0=0.4.0-1+b3 libxcb-keysyms1=0.4.0-1+b2 libxcb-present0=1.14-2 libxcb-randr0=1.14-2 libxcb-render-util0=0.3.9-1+b1 libxcb-render0=1.14-2 libxcb-shape0=1.14-2 libxcb-shm0=1.14-2 libxcb-sync1=1.14-2 libxcb-util1=0.4.0-1+b1 libxcb-xfixes0=1.14-2 libxcb-xinerama0=1.14-2 libxcb-xinput0=1.14-2 libxcb-xkb1=1.14-2 libxcb1=1.14-2 libxcb1-dev=1.14-2 libxcursor1=1:1.2.0-2 libxdamage1=1:1.1.5-2 libxdmcp-dev=1:1.1.2-3 libxdmcp6=1:1.1.2-3 libxext6=2:1.3.3-1+b2 libxfixes3=1:5.0.3-2 libxft2=2.3.2-2 libxinerama1=2:1.1.4-2 libxkbcommon-x11-0=1.0.3-2 libxkbcommon0=1.0.3-2 libxml-libxml-perl=2.0134+dfsg-2+b1 libxml-namespacesupport-perl=1.12-1 libxml-sax-base-perl=1.09-1 libxml-sax-perl=1.02+dfsg-1 libxml2=2.9.10+dfsg-6.3+b1 libxpm4=1:3.5.12-1 libxrender1=1:0.9.10-1 libxshmfence1=1.3-1 libxxf86vm1=1:1.1.4-1+b2 libyaml-0-2=0.2.2-1 libyaml-libyaml-perl=0.82+repack-1+b1 libyaml-perl=1.30-1 libyaml-tiny-perl=1.73-1 libz3-4=4.8.9-1 libzstd1=1.4.5+dfsg-4 licensecheck=3.0.47-1 lintian=2.104.0 linux-libc-dev=5.9.11-1 login=1:4.8.1-1 lsb-base=11.1.0 lzip=1.21-8 lzop=1.04-2 m4=1.4.18-4 make=4.3-4 man-db=2.9.3-2 mawk=1.3.4.20200120-2 ncurses-base=6.2+20201114-1 ncurses-bin=6.2+20201114-1 netbase=6.2 octave=6.1.0-2 octave-common=6.1.0-2 openssl=1.1.1i-1 patch=2.7.6-6 patchutils=0.4.2-1 perl=5.32.0-5 perl-base=5.32.0-5 perl-modules-5.32=5.32.0-5 perl-openssl-defaults=5 po-debconf=1.0.21 readline-common=8.1-1 sed=4.7-1 sensible-utils=0.0.12+nmu1 shared-mime-info=2.0-1 sysvinit-utils=2.96-5 t1utils=1.41-4 tar=1.32+dfsg-1 tex-common=6.15 texinfo=6.7.0.dfsg.2-5+b1 ucf=3.0043 unzip=6.0-25 util-linux=2.36.1-2 x11-common=1:7.7+21 x11proto-core-dev=2020.1-1 x11proto-dev=2020.1-1 xkb-data=2.29-2 xorg-sgml-doctools=1:1.11-1 xtrans-dev=1.4.0-1 xz-utils=5.2.4-1+b1 zlib1g=1:1.2.11.dfsg-2 zlib1g-dev=1:1.2.11.dfsg-2 --variant=apt --aptopt=Acquire::Check-Valid-Until "false" --aptopt=Acquire::http::Dl-Limit "1000"; --aptopt=Acquire::https::Dl-Limit "1000"; --aptopt=Acquire::Retries "5"; --aptopt=APT::Get::allow-downgrades "true"; --keyring=/usr/share/keyrings/ --essential-hook=chroot "$1" sh -c "apt-get --yes install fakeroot util-linux" --essential-hook=copy-in /usr/share/keyrings/debian-archive-bullseye-automatic.gpg /usr/share/keyrings/debian-archive-bullseye-security-automatic.gpg /usr/share/keyrings/debian-archive-bullseye-stable.gpg /usr/share/keyrings/debian-archive-buster-automatic.gpg /usr/share/keyrings/debian-archive-buster-security-automatic.gpg /usr/share/keyrings/debian-archive-buster-stable.gpg /usr/share/keyrings/debian-archive-keyring.gpg /usr/share/keyrings/debian-archive-removed-keys.gpg /usr/share/keyrings/debian-archive-stretch-automatic.gpg /usr/share/keyrings/debian-archive-stretch-security-automatic.gpg /usr/share/keyrings/debian-archive-stretch-stable.gpg /usr/share/keyrings/debian-ports-archive-keyring-removed.gpg /usr/share/keyrings/debian-ports-archive-keyring.gpg /usr/share/keyrings/debian-keyring.gpg /etc/apt/trusted.gpg.d/ --essential-hook=chroot "$1" sh -c "rm /etc/apt/sources.list && echo 'deb http://snapshot.notset.fr/archive/debian/20210814T212851Z/ bookworm main deb-src http://snapshot.notset.fr/archive/debian/20210814T212851Z/ bookworm main deb http://snapshot.notset.fr/archive/debian/20201210T083846Z/ unstable main' >> /etc/apt/sources.list && apt-get update" --customize-hook=chroot "$1" useradd --no-create-home -d /nonexistent -p "" builduser -s /bin/bash --customize-hook=chroot "$1" env sh -c "apt-get source --only-source -d octave-sparsersb=1.0.8-3 && mkdir -p /build/octave-sparsersb-APVAoN && dpkg-source --no-check -x /*.dsc /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8 && chown -R builduser:builduser /build/octave-sparsersb-APVAoN" --customize-hook=chroot "$1" env --unset=TMPDIR runuser builduser -c "cd /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8 && env DEB_BUILD_OPTIONS="parallel=4" LC_ALL="C.UTF-8" SOURCE_DATE_EPOCH="1607534514" dpkg-buildpackage -uc -a amd64 --build=any" --customize-hook=sync-out /build/octave-sparsersb-APVAoN /tmp/octave-sparsersb-1.0.8-3f88i2vjw bullseye /dev/null deb http://snapshot.notset.fr/archive/debian/20201210T083846Z unstable main I: automatically chosen mode: root I: chroot architecture amd64 is equal to the host's architecture I: automatically chosen format: tar I: using /tmp/mmdebstrap.Yvz0lxVlFM as tempdir I: running apt-get update... I: downloading packages with apt... I: extracting archives... I: installing essential packages... I: running --essential-hook in shell: sh -c 'chroot "$1" sh -c "apt-get --yes install fakeroot util-linux"' exec /tmp/mmdebstrap.Yvz0lxVlFM Reading package lists... Building dependency tree... util-linux is already the newest version (2.36.1-2). The following NEW packages will be installed: fakeroot libfakeroot 0 upgraded, 2 newly installed, 0 to remove and 0 not upgraded. Need to get 134 kB of archives. After this operation, 397 kB of additional disk space will be used. Get:1 http://snapshot.notset.fr/archive/debian/20201210T083846Z unstable/main amd64 libfakeroot amd64 1.25.3-1.1 [47.0 kB] Get:2 http://snapshot.notset.fr/archive/debian/20201210T083846Z unstable/main amd64 fakeroot amd64 1.25.3-1.1 [87.0 kB] debconf: delaying package configuration, since apt-utils is not installed Fetched 134 kB in 0s (1032 kB/s) Selecting previously unselected package libfakeroot:amd64. (Reading database ... (Reading database ... 5% (Reading database ... 10% (Reading database ... 15% (Reading database ... 20% (Reading database ... 25% (Reading database ... 30% (Reading database ... 35% (Reading database ... 40% (Reading database ... 45% (Reading database ... 50% (Reading database ... 55% (Reading database ... 60% (Reading database ... 65% (Reading database ... 70% (Reading database ... 75% (Reading database ... 80% (Reading database ... 85% (Reading database ... 90% (Reading database ... 95% (Reading database ... 100% (Reading database ... 4616 files and directories currently installed.) Preparing to unpack .../libfakeroot_1.25.3-1.1_amd64.deb ... Unpacking libfakeroot:amd64 (1.25.3-1.1) ... Selecting previously unselected package fakeroot. Preparing to unpack .../fakeroot_1.25.3-1.1_amd64.deb ... Unpacking fakeroot (1.25.3-1.1) ... Setting up libfakeroot:amd64 (1.25.3-1.1) ... Setting up fakeroot (1.25.3-1.1) ... update-alternatives: using /usr/bin/fakeroot-sysv to provide /usr/bin/fakeroot (fakeroot) in auto mode Processing triggers for libc-bin (2.31-5) ... I: running special hook: copy-in /usr/share/keyrings/debian-archive-bullseye-automatic.gpg /usr/share/keyrings/debian-archive-bullseye-security-automatic.gpg /usr/share/keyrings/debian-archive-bullseye-stable.gpg /usr/share/keyrings/debian-archive-buster-automatic.gpg /usr/share/keyrings/debian-archive-buster-security-automatic.gpg /usr/share/keyrings/debian-archive-buster-stable.gpg /usr/share/keyrings/debian-archive-keyring.gpg /usr/share/keyrings/debian-archive-removed-keys.gpg /usr/share/keyrings/debian-archive-stretch-automatic.gpg /usr/share/keyrings/debian-archive-stretch-security-automatic.gpg /usr/share/keyrings/debian-archive-stretch-stable.gpg /usr/share/keyrings/debian-ports-archive-keyring-removed.gpg /usr/share/keyrings/debian-ports-archive-keyring.gpg /usr/share/keyrings/debian-keyring.gpg /etc/apt/trusted.gpg.d/ I: running --essential-hook in shell: sh -c 'chroot "$1" sh -c "rm /etc/apt/sources.list && echo 'deb http://snapshot.notset.fr/archive/debian/20210814T212851Z/ bookworm main deb-src http://snapshot.notset.fr/archive/debian/20210814T212851Z/ bookworm main deb http://snapshot.notset.fr/archive/debian/20201210T083846Z/ unstable main' >> /etc/apt/sources.list && apt-get update"' exec /tmp/mmdebstrap.Yvz0lxVlFM Get:1 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm InRelease [81.6 kB] Hit:2 http://snapshot.notset.fr/archive/debian/20201210T083846Z unstable InRelease Ign:3 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main Sources Ign:4 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main amd64 Packages Ign:3 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main Sources Ign:4 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main amd64 Packages Ign:3 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main Sources Ign:4 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main amd64 Packages Get:3 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main Sources [11.4 MB] Get:4 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main amd64 Packages [11.1 MB] Fetched 22.6 MB in 19s (1158 kB/s) Reading package lists... I: installing remaining packages inside the chroot... I: running --customize-hook in shell: sh -c 'chroot "$1" useradd --no-create-home -d /nonexistent -p "" builduser -s /bin/bash' exec /tmp/mmdebstrap.Yvz0lxVlFM I: running --customize-hook in shell: sh -c 'chroot "$1" env sh -c "apt-get source --only-source -d octave-sparsersb=1.0.8-3 && mkdir -p /build/octave-sparsersb-APVAoN && dpkg-source --no-check -x /*.dsc /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8 && chown -R builduser:builduser /build/octave-sparsersb-APVAoN"' exec /tmp/mmdebstrap.Yvz0lxVlFM Reading package lists... NOTICE: 'octave-sparsersb' packaging is maintained in the 'Git' version control system at: https://salsa.debian.org/pkg-octave-team/octave-sparsersb.git Please use: git clone https://salsa.debian.org/pkg-octave-team/octave-sparsersb.git to retrieve the latest (possibly unreleased) updates to the package. Need to get 111 kB of source archives. Get:1 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main octave-sparsersb 1.0.8-3 (dsc) [2103 B] Get:2 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main octave-sparsersb 1.0.8-3 (tar) [105 kB] Get:3 http://snapshot.notset.fr/archive/debian/20210814T212851Z bookworm/main octave-sparsersb 1.0.8-3 (diff) [3908 B] Fetched 111 kB in 0s (492 kB/s) Download complete and in download only mode W: Download is performed unsandboxed as root as file 'octave-sparsersb_1.0.8-3.dsc' couldn't be accessed by user '_apt'. - pkgAcquire::Run (13: Permission denied) dpkg-source: info: extracting octave-sparsersb in /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8 dpkg-source: info: unpacking octave-sparsersb_1.0.8.orig.tar.gz dpkg-source: info: unpacking octave-sparsersb_1.0.8-3.debian.tar.xz dpkg-source: info: using patch list from debian/patches/series dpkg-source: info: applying build-against-octave-6.patch I: running --customize-hook in shell: sh -c 'chroot "$1" env --unset=TMPDIR runuser builduser -c "cd /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8 && env DEB_BUILD_OPTIONS="parallel=4" LC_ALL="C.UTF-8" SOURCE_DATE_EPOCH="1607534514" dpkg-buildpackage -uc -a amd64 --build=any"' exec /tmp/mmdebstrap.Yvz0lxVlFM dpkg-buildpackage: info: source package octave-sparsersb dpkg-buildpackage: info: source version 1.0.8-3 dpkg-buildpackage: info: source distribution unstable dpkg-buildpackage: info: source changed by Sébastien Villemot dpkg-source --before-build . dpkg-buildpackage: info: host architecture amd64 dpkg-source: info: using options from octave-sparsersb-1.0.8/debian/source/options: --extend-diff-ignore=.*\.oct|sparsersb_temporary_matrix_file\.mtx|.*\.eps|src/Makeconf|src/config\.log|src/config\.status|src/configure$ debian/rules clean dh clean --buildsystem=octave --with=octave dh_auto_clean -O--buildsystem=octave dh_octave_clean make[1]: Entering directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src' rm -f *.o octave-core core *.oct *~ tags make[1]: -p: No such file or directory make[1]: Leaving directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src' dh_autoreconf_clean -O--buildsystem=octave dh_clean -O--buildsystem=octave debian/rules binary-arch dh binary-arch --buildsystem=octave --with=octave dh_update_autotools_config -a -O--buildsystem=octave dh_autoreconf -a -O--buildsystem=octave dh_octave_version -a -O--buildsystem=octave Checking the Octave version... ok debian/rules override_dh_auto_configure make[1]: Entering directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8' ( cd src ; autoconf ) make[1]: Leaving directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8' dh_auto_build -a -O--buildsystem=octave dh_auto_test -a -O--buildsystem=octave create-stamp debian/debhelper-build-stamp dh_testroot -a -O--buildsystem=octave dh_prep -a -O--buildsystem=octave debian/rules override_dh_auto_install make[1]: Entering directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8' dh_auto_install octave --no-gui --no-history --silent --no-init-file --no-window-system /usr/share/dh-octave/install-pkg.m warning: creating installation directory /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/debian/octave-sparsersb/usr/share/octave/packages warning: called from install at line 36 column 5 pkg at line 568 column 9 /usr/share/dh-octave/install-pkg.m at line 47 column 1 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 we are using the GNU C++ compiler... yes checking whether g++ accepts -g... yes checking for octave... /usr/bin/octave checking for mkoctfile... /usr/bin/mkoctfile --verbose configure: No user-set LIBRSB_TARBALL environment variable detected (set it to build using a custom librsb tarball). configure: No librsb tarball provided: following the default procedure. checking for librsb-config... yes configure: Setting SPARSERSB_CXXFLAGS from librsb-config --I_opts... configure: Adding -D RSBOI_DETECTED_LONG_IDX to SPARSERSB_CXXFLAGS ... configure: Setting SPARSERSB_LDFLAGS from --L_opts --libs configure: SPARSERSB_CXXFLAGS is -I/usr/include/ -D RSBOI_DETECTED_LONG_IDX=1 configure: SPARSERSB_LDFLAGS is -L/usr/lib/x86_64-linux-gnu -lrsb checking for octave_value function iscomplex... yes configure: creating ./config.status config.status: creating Makeconf configure: octave sparsersb package is configured with: SPARSERSB_LDFLAGS: -L/usr/lib/x86_64-linux-gnu -lrsb SPARSERSB_CXXFLAGS: -I/usr/include/ -D RSBOI_DETECTED_LONG_IDX=1 SPARSERSB_CXX11: -std=gnu++11 OCTAVE: /usr/bin/octave MKOCTFILE: /usr/bin/mkoctfile --verbose -g You can build it with 'make' and after on, test with 'make tests'. make[2]: Entering directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src' LFLAGS="-Wl,-z,relro -L/usr/lib/x86_64-linux-gnu -lrsb" LDFLAGS="-Wl,-z,relro -L/usr/lib/x86_64-linux-gnu -lrsb" CXXFLAGS="-I/usr/include/ -D RSBOI_DETECTED_LONG_IDX=1 -DHAVE_OCTAVE_VALUE_ISCOMPLEX -std=gnu++11" /usr/bin/mkoctfile --verbose -g -v -D'RSB_SPARSERSB_LABEL=sparsersb' -o sparsersb.oct sparsersb.cc warning: LFLAGS is deprecated and will be removed in a future version of Octave, use LDFLAGS instead g++ -c -Wdate-time -D_FORTIFY_SOURCE=2 -fPIC -I/usr/include/octave-6.1.0/octave/.. -I/usr/include/octave-6.1.0/octave -pthread -fopenmp -I/usr/include/ -D RSBOI_DETECTED_LONG_IDX=1 -DHAVE_OCTAVE_VALUE_ISCOMPLEX -std=gnu++11 -g -DRSB_SPARSERSB_LABEL=sparsersb sparsersb.cc -o /tmp/oct-cGNpg2.o g++ -I/usr/include/octave-6.1.0/octave/.. -I/usr/include/octave-6.1.0/octave -pthread -fopenmp -I/usr/include/ -D RSBOI_DETECTED_LONG_IDX=1 -DHAVE_OCTAVE_VALUE_ISCOMPLEX -std=gnu++11 -g -o sparsersb.oct /tmp/oct-cGNpg2.o -shared -Wl,-Bsymbolic -Wl,-z,relro -L/usr/lib/x86_64-linux-gnu -lrsb -Wl,-z,relro -L/usr/lib/x86_64-linux-gnu -lrsb -Wl,-z,relro make[2]: Leaving directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src' copyfile /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/./src/sparsersbtg.m/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/./inst copyfile /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/./src/sparsersb.oct /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/./src/sparsersb.cc-tst /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/./inst/x86_64-pc-linux-gnu-api-v55 For information about changes from previous versions of the sparsersb package, run 'news sparsersb'. chmod: cannot access 'debian/*/usr/lib/*/octave/packages/*/*/*.mex': No such file or directory mkdir -p debian/octave-sparsersb/usr/share/doc/octave-sparsersb/examples mv debian/octave-sparsersb/usr/share/octave/packages/sparsersb-*/sparsersb*.m debian/octave-sparsersb/usr/share/octave/packages/sparsersb-*/bin/*.m debian/octave-sparsersb/usr/share/octave/packages/sparsersb-*/bin/pd.mtx debian/octave-sparsersb/usr/share/doc/octave-sparsersb/examples chmod -x debian/octave-sparsersb/usr/share/doc/octave-sparsersb/examples/* rm -rf debian/octave-sparsersb/usr/share/octave/packages/sparsersb-*/bin rm -f debian/octave-sparsersb/usr/share/octave/packages/sparsersb-*/doc-cache debian/octave-sparsersb/usr/share/octave/packages/sparsersb-*/bin/doc-cache make[1]: Leaving directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8' dh_octave_check -a -O--buildsystem=octave Checking package... Checking m files ... [inst/sparsersbtg.m] >>>>> /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/inst/sparsersbtg.m ***** test sparsersbtg ('p', [1]); assert ( strcmp (sparsersbtg ('p', [1]) , ["[1,;]"])) ***** test sparsersbtg ('p', [1,1,2,2]); assert ( strcmp (sparsersbtg ('p', [1,1,2,2]), ["[1,1,2,2,;]"])) ***** test sparsersbtg ('p', [1,1;2,2]); assert ( strcmp (sparsersbtg ('p', [1,1;2,2]), ["[1,1,;2,2,;]"])) ***** test sparsersbtg ('p', [1+i]); assert ( strcmp (sparsersbtg ('p', [1+i]) , ["[1+1*i,;]"])) ***** test sparsersbtg ('p', [1+i,1,2+i,2]); assert ( strcmp (sparsersbtg ('p', [1+i,1,2+i,2]), ["[1+1*i,1,2+1*i,2,;]"])) ***** test sparsersbtg ('p', [1+i,1;2+i,2]); assert ( strcmp (sparsersbtg ('p', [1+i,1;2+i,2]), ["[1+1*i,1,;2+1*i,2,;]"])) ***** test assert( length( sparsersbtg () ) >= 57846 ) assert( length( sparsersbtg ([1,1,1,1,1,1]) ) >= 11218 ) assert( length( sparsersbtg ([1,1,1]) ) >= 11218 ) assert( length( sparsersbtg ([1]) ) == 0 ) 7 tests, 7 passed, 0 known failure, 0 skipped Checking C++ files ... [src/sparsersb.cc] >>>>> /build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src/sparsersb.cc ***** test assert( 0==nnz(sparsersb(3,3) .- sparse(3,3)) ) ***** test assert( 0==nnz(sparsersb([],[],[],3,3 ) .- sparse([],[],[],3,3 )) ) ***** test assert( 0==nnz(sparsersb([],[],[],3,3,123) .- sparse([],[],[],3,3,321)) ) ***** test s=sparsersb([2]); assert(s==2); assert(s!=1) ***** test s=sparsersb([1,2],[1,1],[11,21],2,2 ); assert(nnz(s)==2) ***** test s=sparsersb([1,2],[1,1],[11,21],2,2,-1 ); assert(nnz(s)==2) ***** test s=sparsersb([1,2],[1,1],[11,21] ); assert(nnz(s)==2) ***** test s=sparsersb(10,10 ); assert(nnz(s)==0) ***** test s=sparsersb([1,1],[1,1],[11,21] ); assert(nnz(s)==1) assert(s(1,1)==32) ***** test s=sparsersb([1,1],[1,1],[11,21],2,2,"unique"); assert(nnz(s)==1), assert(s(1,1)==21) ***** test sparsersb("set","RSB_IO_WANT_VERBOSE_TUNING","1"); ***** test wvt=0; try sparsersb("set","...") wvt=1; end_try_catch assert(wvt==0) ***** test sparsersb("set","FIXME: WE UNFORTUNATELY STILL SILENTLY IGNORE ERRORS HERE (NO RETURN VALUE)","1"); ***** test wvt=-1; try wvt=sparsersb("get","RSB_IO_WANT_VERBOSE_TUNING") assert(wvt==0 || wvt ==1) end_try_catch assert(wvt==-1) ***** test s=sparsersb([1]); assert(sparsersb(s,"get","RSB_MIF_LEAVES_COUNT__TO__RSB_BLK_INDEX_T")=="1") ***** test s=sparsersb([1]); assert(str2num(sparsersb(s,"get","RSB_MIF_LEAVES_COUNT__TO__RSB_BLK_INDEX_T"))==1) ***** test s=sparsersb([1]); assert(str2num(sparsersb(s,"get","RSB_MIF_INDEX_STORAGE_IN_BYTES__TO__SIZE_T"))>1) ***** test s=sparsersb([1]); assert(str2num(sparsersb(s,"get","RSB_MIF_INDEX_STORAGE_IN_BYTES_PER_NNZ__TO__RSB_REAL_T"))>1) ***** test s=sparsersb([1]); assert(str2num(sparsersb(1*s,"get","RSB_MIF_MATRIX_TYPECODE__TO__RSB_TYPE_T"))==68) # D ***** test s=sparsersb([1]); assert(str2num(sparsersb(i*s,"get","RSB_MIF_MATRIX_TYPECODE__TO__RSB_TYPE_T"))==90) # Z ***** test s=sparsersb([1,1],[1,1],[11,21],2,2,"unique"); assert(str2num(sparsersb(s,"get","RSB_MIF_LEAVES_COUNT__TO__RSB_BLK_INDEX_T"))>0) ***** test s=sparsersb([1]); v=1; assert(strfind(sparsersb(sparsersb([1]),"get","WRONG SPEC STRING"),"Error")==1) ***** test assert(sparsersb(sparsersb([11,0;21,22]),"get","RSB_MIF_TOTAL_SIZE__TO__SIZE_T")>1) ***** test assert(length(sparsersb(sparsersb([11,0;21,22]),"RSB_MIF_TOTAL_SIZE__TO__SIZE_T"))>1) ***** test s=sparsersb([11,0;21,22]); assert(sparsersb(s,"RSB_MIF_TOTAL_SIZE__TO__SIZE_T") == sparsersb(s,"XXXXXXXXXXXXXXXXXXXXXXXXXXXXXX")) ***** test s=sparsersb([1]); sparsersb(sparsersb([11,0;21,22]),"save","sparsersb_temporary_matrix_file.mtx") ***** test [S, NROWS, NCOLS, NNZ, REPINFO, FIELD, SYMMETRY] = sparsersb("sparsersb_temporary_matrix_file.mtx" ); assert(NROWS==2) assert(NCOLS==2) assert(NNZ==3) assert(FIELD=="real"); assert(SYMMETRY=='U'); ***** test [S, NROWS, NCOLS, NNZ, REPINFO, FIELD, SYMMETRY] = sparsersb("sparsersb_temporary_matrix_file.mtx", "Z"); assert(NROWS==2); assert(NCOLS==2); assert(NNZ==3); assert(FIELD=="complex"); assert(SYMMETRY=='U'); ***** test [S, NROWS, NCOLS, NNZ, REPINFO, FIELD] = sparsersb("sparsersb_temporary_matrix_file.mtx", "D"); assert(NROWS==2); assert(NCOLS==2); assert(NNZ==3); assert(FIELD=="real"); ***** test [S, NROWS, NCOLS, NNZ, REPINFO] = sparsersb("sparsersb_temporary_matrix_file.mtx", "D"); assert(NROWS==2); assert(NCOLS==2); assert(NNZ==3); ***** test [S, NROWS, NCOLS] = sparsersb("sparsersb_temporary_matrix_file.mtx", "D"); assert(NROWS==2); assert(NCOLS==2); ***** test [S, NROWS] = sparsersb("sparsersb_temporary_matrix_file.mtx", "D"); assert(NROWS==2); ***** test rrm=sparsersb(sprand(1000,1000,0.001)); sparsersb(rrm,"render", "sparsersb_temporary_render.eps" ,1024); # will use defaults for rWidth ***** test rrm=sparsersb(sprand(1000,1000,0.001)); sparsersb(rrm,"render", "sparsersb_temporary_render.eps" ,1024,1024); # sparsersb(rrm,"renderb", "sparsersb_temporary_renderb.eps"); sparsersb(rrm,"renders", "sparsersb_temporary_renders.eps"); # FIXME ***** test a=sparsersb(sprand(100,100,0.4)); sparsersb(a,"autotune"); ***** test a=sparsersb(sprand(100,100,0.4)); o=sparsersb(a,"AUTOTUNE"); v=0; try assert(o==a) v=1 end_try_catch assert(v==0) assert(length(o)>10) ***** test a=sparsersb(sprand(100,100,0.4)); o=sparsersb(a,"autotune"); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=2; o=sparsersb(a,"autotune","n",nrhs); assert(o==a) ***** test a=1*sparsersb(sprand(100,100,0.4)); nrhs=2; o=sparsersb(a,"autotune","c",nrhs); assert(o==a) ***** test a=i*sparsersb(sprand(100,100,0.4)); nrhs=2; o=sparsersb(a,"autotune","c",nrhs); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=1; maxr=1; o=sparsersb(a,"autotune","N",nrhs,maxr); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=1; maxr=1; tmax=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=1; maxr=1; tmax=1; tn=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax,tn); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=1; maxr=1; tmax=1; tn=1; sf=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax,tn,sf); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=1; maxr=1; tmax=1; tn=2; sf=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax,tn,sf); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=20; maxr=1; tmax=1; tn=1; o=sparsersb(a,"autotune","t",nrhs,maxr,tmax,tn); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=20; maxr=1; tmax=1; tn=1; sf=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax,tn,sf); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=20; maxr=1; tmax=1; tn=0; sf=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax,tn,sf); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=20; maxr=0; tmax=0; tn=0; sf=1; o=sparsersb(a,"autotune","n",nrhs,maxr,tmax,tn,sf); assert(o==a) ***** test a=sparsersb(sprand(100,100,0.4)); nrhs=1; maxr=0; tmax=0; tn=0; sf=1; wvt=0; try o=sparsersb(a,"autotune","?",nrhs,maxr,tmax,tn,sf); wvt=1; end_try_catch assert(wvt==0) # assert(o==a) # o undefined ***** test assert( nnz(sparse((toeplitz(sparsersb([0,1,2,3]))-toeplitz(sparse([0,1,2,3])))))==0 ); ***** test assert( prod(sparsersb([11,12,13;21,22,23])(:) - [11,21,12,22,13,23]')==0); ***** test A = sprand(4,4,.5); assert(prod(reshape(sparsersb(A),[8,2]) - reshape(sparse(A),[8,2]))==0); ***** test assert(sparsersb([-1,1,2])() == sparsersb([-1,1,2])); ***** test % symmetry expansion A=sparsersb([1+i,0,1;0,1,0;1,0,1]); assert(nnz(A)==4 && nnz(full(A))==5); ***** test % 1-D indexing access is meant to be like in sparse A=sparsersb([1+i,0,1;0,1,0;1,0,1]); assert(A(1)==(1+i) && A(3)==1 && sparse(A)(3)==1) A=sparsersb([1+i,0,1;0,1,0;1,0,1]); assert(A(1)==(1+i) && A(2)==0 && sparse(A)(2)==0) ***** test A=sparsersb([1+i,0,1;0,1,0;1,0,1]); assert(0==A(2:5)-sparsersb([1,1],[2,4],[1+0i,1+0i],1,4)) ***** test assert( nnz(sparse([2,1;1,2])) == 4 && nnz(sparsersb([2,1;1,2])) == 3 ) # symmetry assert( nnz(sparse([2,0;1,2])) == 3 && nnz(sparsersb([2,0;1,2])) == 3 ) # no symmetry ***** test assert( (sparse([2,0;1,2]) \ [1;1]) == (sparsersb([2,0;1,2]) \ [1;1]) ) assert( (sparse([2,0;0,2]) \ [1;1]) == (sparsersb([2,0;0,2]) \ [1;1]) ) ***** test assert( (sparse([2,0;1,2]) * [1;1]) == (sparsersb([2,0;1,2]) * [1;1]) ) assert( (sparse([2,0;0,2]) * [1;1]) == (sparsersb([2,0;0,2]) * [1;1]) ) ***** test % symmetry expansion assert ( nnz(sparse(sparsersb([1 ,1;1,1])) - sparse([1 ,1;1,1])) == 0 ) assert ( nnz(sparse(sparsersb([1+i,1;1,1])) - sparse([1+i,1;1,1])) == 0 ) % hermitianness expansion assert ( nnz(sparsersb([1,1+i;1-i,1]) - sparse([1,1+i;1-i,1])) == 0 ) % no symmetric complex expansion assert ( nnz(sparsersb([1,1+i;1+i,1]) - sparse([1,1+i;1-i,1])) == 1 ) ***** test assert( (sparse([2, 0; 1, 2])(:,:)) == (sparsersb([2, 0; 1, 2])(:,:)) ) assert( (sparse([2, 0; i, 2])(:,:)) == (sparsersb([2, 0; i, 2])(:,:)) ) ***** test assert( (sparse([2, 0; 1, 2])(2,:)) == (sparsersb([2, 0; 1, 2])(2,:)) ) assert( (sparse([2, 0; i, 2])(2,:)) == (sparsersb([2, 0; i, 2])(2,:)) ) ***** test assert( (sparse([2, 0; 1, 2])(:,2)) == (sparsersb([2, 0; 1, 2])(:,2)) ) assert( (sparse([2, 0; i, 2])(:,2)) == (sparsersb([2, 0; i, 2])(:,2)) ) ***** test assert( (sparse([2,0;1,2]) * [1;1]) == (sparsersb([2,0;1,2]) * [1;1]) ) assert( (sparse([2,0;0,2]) * [1;1]) == (sparsersb([2,0;0,2]) * [1;1]) ) ***** test assert( (sparse([2,0;1,2]) * [i;1]) == (sparsersb([2,0;1,2]) * [i;1]) ) assert( (sparse([2,0;0,2]) * [i;1]) == (sparsersb([2,0;0,2]) * [i;1]) ) ***** test assert( (sparse([2,0;1,2])'* [1;1]) == (sparsersb([2,0;1,2])'* [1;1]) ) assert( (sparse([2,0;0,2])'* [1;1]) == (sparsersb([2,0;0,2])'* [1;1]) ) ***** test assert( (sparse([2,0;1,2])'* [i;1]) == (sparsersb([2,0;1,2])'* [i;1]) ) assert( (sparse([2,0;0,2])'* [i;1]) == (sparsersb([2,0;0,2])'* [i;1]) ) ***** test assert( (sparse([2,0;1,2]).'* [1;1]) == (sparsersb([2,0;1,2]).'* [1;1]) ) assert( (sparse([2,0;0,2]).'* [1;1]) == (sparsersb([2,0;0,2]).'* [1;1]) ) ***** test assert( (sparse([2,0;1,2]).'* [i;1]) == (sparsersb([2,0;1,2]).'* [i;1]) ) assert( (sparse([2,0;0,2]).'* [i;1]) == (sparsersb([2,0;0,2]).'* [i;1]) ) ***** test assert( (sparse([2,0;1,2]) * 1 ) == (sparsersb([2,0;1,2]) * 1 ) ) assert( (sparse([2,0;0,2]) * 1 ) == (sparsersb([2,0;0,2]) * 1 ) ) ***** test assert( (sparse([2,0;1,2]) * i ) == (sparsersb([2,0;1,2]) * i ) ) assert( (sparse([2,0;0,2]) * i ) == (sparsersb([2,0;0,2]) * i ) ) ***** test assert( (sparse([2,0;1,2]).* 1 ) == (sparsersb([2,0;1,2]).* 1 ) ) assert( (sparse([2,0;0,2]).* 1 ) == (sparsersb([2,0;0,2]).* 1 ) ) ***** test assert( (sparse([2,0;1,2]).* i ) == (sparsersb([2,0;1,2]).* i ) ) assert( (sparse([2,0;0,2]).* i ) == (sparsersb([2,0;0,2]).* i ) ) ***** test assert( ( sparse([2,0;1,2]) + 1*sparse([2,0;1,2]) ) == (sparsersb([2,0;1,2]) + 1*sparsersb([2,0;1,2]) ) ) ***** test assert( ( sparse([2,0;0,2]) + 1*sparse([2,0;0,2]) ) == (sparsersb([2,0;0,2]) + 1*sparsersb([2,0;0,2]) ) ) ***** test assert( ( sparse([2,0;1,2]) + i*sparse([2,0;1,2]) ) == (sparsersb([2,0;1,2]) + i*sparsersb([2,0;1,2]) ) ) ***** test assert( ( sparse([2,0;0,2]) + i*sparse([2,0;0,2]) ) == (sparsersb([2,0;0,2]) + i*sparsersb([2,0;0,2]) ) ) ***** test A = [0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [0,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,0,0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,0,0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,;0,;0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;0,;0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;0,;0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;0,;0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;0,;0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;0,;0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;0,;0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;0,;0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;0,;0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;0,;0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;0,;0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,;0,;0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,;0,;0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;0,;0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;0,;0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;0,;0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;0,;0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;0,;0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;0,;0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;0,;0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;0,;0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;0,;0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;0,;0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,;0,;0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [0,0,0,;0,0,0,;0,3,0,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [0,0,0,;0,0,0,;0,0,0,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [22,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [22,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [22,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [22,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [22,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [22,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [22,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [22,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [22,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [22,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [22,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [22,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [22,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [22,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [22,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [22,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [22,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [22,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [22,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [22,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [22,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [22,0,0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [22,0,0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,0,0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,;0,;68,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;0,;68,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;0,;68,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;0,;68,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;0,;68,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;0,;68,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;0,;68,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;0,;68,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;0,;68,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;0,;68,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;0,;68,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;0,;68,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;0,;68,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;0,;68,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,;0,;68,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,;0,;0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;0,;0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;0,;0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;0,;0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;0,;0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;0,;0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;0,;0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;0,;0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;0,;0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;0,;0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;0,;0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;0,;0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;0,;0,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,;0,;0,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [0,0,0,;3,0,0,;0,0,42,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [0+20*i,0,0,;51,0,0,;0,0,0,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [54,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [54,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [54,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [54,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [54,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [54,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [54,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [54,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [54,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [54,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [54,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [54,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [54,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [54,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [54,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [54,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [54,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [54,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [54,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [54,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [54,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [54,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [54,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [54,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [54,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [54,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [81,0,1,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [81,0,1,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [81,0,1,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [81,0,1,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [81,0,1,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [81,0,1,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [81,0,1,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [81,0,1,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [81,0,1,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [81,0,1,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [81,0,1,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [81,0,1,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [81,0,1,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [81,0,1,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [81,0,1,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [81,0,1,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [81,0,1,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [81,0,1,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [81,0,1,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [81,0,1,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [81,0,1,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [81,0,1,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [81,0,1,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,0+16*i,70,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,0+16*i,70,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,0+16*i,70,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,0+16*i,70,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,;10,;9,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;10,;9,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;10,;9,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;10,;9,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;10,;9,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;10,;9,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;10,;9,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;10,;9,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;10,;9,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;10,;9,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;10,;9,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;10,;9,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;10,;9,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;10,;9,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,;10,;9,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0,;0,;60+73*i,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0,;0,;60+73*i,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0,;0,;60+73*i,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0,;0,;60+73*i,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [58,0,70,;5,62,0,;0,0,86,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [0+64*i,23+36*i,0,;0,0,0,;8,0,0,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [21,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [21,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [21,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [21,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [21,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [21,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [21,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [21,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [21,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [21,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [21,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [21,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [21,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [21,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [21,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [21,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [21,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [21,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [21,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [21,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [21,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [21,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [21,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [21,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [21,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [21,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [94+61*i,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [94+61*i,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [94+61*i,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [94+61*i,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [94+61*i,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [94+61*i,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [94+61*i,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [94+61*i,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [94+61*i,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [94+61*i,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [94+61*i,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [94+61*i,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [94+61*i,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [94+61*i,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [94+61*i,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [94+61*i,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [94+61*i,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [94+61*i,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [94+61*i,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [94+61*i,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [94+61*i,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [94+61*i,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [94+61*i,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [94+61*i,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [94+61*i,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [94+61*i,;]; assert (reshape (sparsersb (A), 1, 1) == reshape (sparse (A), 1, 1)); ***** test A = [38,64,99,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [38,64,99,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [38,64,99,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [38,64,99,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [38,64,99,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [38,64,99,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [38,64,99,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [38,64,99,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [38,64,99,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [38,64,99,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [38,64,99,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [38,64,99,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [38,64,99,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [38,64,99,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [38,64,99,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [38,64,99,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [38,64,99,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [38,64,99,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [38,64,99,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [38,64,99,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [38,64,99,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [38,64,99,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [38,64,99,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0+32*i,84+27*i,78,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(1,3) == sparse (A)(1,3)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(1,:) == sparse (A)(1,:)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0+32*i,84+27*i,78,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0+32*i,84+27*i,78,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0+32*i,84+27*i,78,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [31,;40,;66,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [31,;40,;66,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [31,;40,;66,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [31,;40,;66,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [31,;40,;66,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [31,;40,;66,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [31,;40,;66,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [31,;40,;66,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [31,;40,;66,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [31,;40,;66,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [31,;40,;66,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [31,;40,;66,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [31,;40,;66,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [31,;40,;66,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [31,;40,;66,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(3) == sparse (A)(3)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(3,1) == sparse (A)(3,1)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(:,1) == sparse (A)(:,1)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (reshape (sparsersb (A), 1, 3) == reshape (sparse (A), 1, 3)); ***** test A = [0+90*i,;25+58*i,;26,;]; assert (reshape (sparsersb (A), 3, 1) == reshape (sparse (A), 3, 1)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [86,42,100,;1,53,72,;6,97,38,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert ( (sparsersb (A)) == (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (istril (sparsersb (A)) == istril (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (istriu (sparsersb (A)) == istriu (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (isreal (sparsersb (A)) == isreal (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (iscomplex (sparsersb (A)) == iscomplex (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (issymmetric (sparsersb (A)) == issymmetric (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (ishermitian (sparsersb (A)) == ishermitian (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (nnz (sparsersb (A)) == nnz (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (rows (sparsersb (A)) == rows (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (columns (sparsersb (A)) == columns (sparse (A))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)'*(1*ones(size(A,1))) == sparse (A)'*(1*ones(size(A,1)))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)'*(i*ones(size(A,1))) == sparse (A)'*(i*ones(size(A,1)))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)( ) == sparse (A)( )); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(1) == sparse (A)(1)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(1,1) == sparse (A)(1,1)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(3,3) == sparse (A)(3,3)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(3,:) == sparse (A)(3,:)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(9) == sparse (A)(9)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(:) == sparse (A)(:)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(:,3) == sparse (A)(:,3)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)(:,:) == sparse (A)(:,:)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)*(1*ones(size(A,2))) == sparse (A)*(1*ones(size(A,2)))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)*(i*ones(size(A,2))) == sparse (A)*(i*ones(size(A,2)))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)*1 == sparse (A)*1); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A)*i == sparse (A)*i); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A).'*(1*ones(size(A,1))) == sparse (A).'*(1*ones(size(A,1)))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (sparsersb (A).'*(i*ones(size(A,1))) == sparse (A).'*(i*ones(size(A,1)))); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (reshape (sparsersb (A), 1, 9) == reshape (sparse (A), 1, 9)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (reshape (sparsersb (A), 3, 3) == reshape (sparse (A), 3, 3)); ***** test A = [88,95,43,;0+76*i,26+64*i,0,;0+61*i,45+54*i,0+15*i,;]; assert (reshape (sparsersb (A), 9, 1) == reshape (sparse (A), 9, 1)); ***** test % REAL/REAL A = sprandn(1e3,1e3,1/1e3); Arsb = sparsersb(A); v = randn(1e3,1); assert(A*v,Arsb*v,1e-14); assert(A.'*v,Arsb.'*v,1e-14); assert(A'*v,Arsb'*v,1e-14); ***** test % REAL/COMPLEX A = sprandn(1e6,1e6,1/1e6); Arsb = sparsersb(A); v = 1i*randn(1e6,1) + randn(1e6,1); assert(A*v,Arsb*v,1e-14); assert(A.'*v,Arsb.'*v,1e-14); assert(A'*v,Arsb'*v,1e-14); ***** test % COMPLEX/REAL A = 1i*sprandn(1e3,1e3,1/1e3) + sprandn(1e3,1e3,1/1e3); Arsb = sparsersb(A); v = randn(1e3,1); assert(A*v,Arsb*v,1e-14); assert(A.'*v,Arsb.'*v,1e-14); assert(A'*v,Arsb'*v,1e-14); ***** test % COMPLEX/COMPLEX A = 1i*sprandn(1e3,1e3,1/1e3) + sprandn(1e3,1e3,1/1e3); Arsb = sparsersb(A); v = 1i*randn(1e3,1) + randn(1e3,1); assert(A*v,Arsb*v,1e-14); assert(A.'*v,Arsb.'*v,1e-14); assert(A'*v,Arsb'*v,1e-14); ***** demo disp("'sparsersb' behaves pretty like 'sparse':") R=(rand(3)>.6) A_octave=sparse(R) A_librsb=sparsersb(R) ***** demo disp("The interface of 'sparsersb' is almost like the one of 'sparse'") disp("Create a 1x1 matrix:") sparsersb([2]) disp("Create a 2x1 matrix:") sparsersb([1,2],[1,1],[11,21]) disp("Create a 2x2 matrix:") sparsersb([1,2],[1,1],[11,21],2,2) disp("Create a 2x2 lower triangular matrix:") sparsersb([1,2,2 ],[1,1,2 ],[11,21, 22],2,2) ***** demo disp("'sparsersb' has an option to handle duplicates.") disp("Create a 2x2 lower triangular matrix (last element summed by default):") sparsersb([1,2,2,2],[1,1,2,2],[11,21,11,11],2,2) disp("Create a 2x2 lower triangular matrix (last two elements summed explicitly):") sparsersb([1,2,2,2],[1,1,2,2],[11,21,11,11],2,2,"sum") disp("Create a 2x2 lower triangular matrix (last element ignored, explicitly):") sparsersb([1,2,2,2],[1,1,2,2],[11,21,11,11],2,2,"unique") ***** demo disp("'sparsersb' support symmetric and hermitian matrices:\n") disp("2x2 lower tringular:") sparsersb([1,2,2 ],[1,1,2 ],[11,21 , 22],2,2,"general") disp("2x2 symmetric (only lower triangle stored):") sparsersb([1,2,2 ],[1,1,2 ],[11,21 , 22],2,2,"symmetric") disp("2x2 hermitian (only lower triangle stored):") sparsersb([1,2,2 ],[1,1,2 ],[11,21i, 22],2,2,"hermitian") ***** demo disp("Any 'sparse' or 'dense' matrix can be converted to 'sparsersb':") d=sparsersb( [1,2;3,4] ) f=sparsersb( full ([1,2;3,4])) s=sparsersb(sparse([1,2;3,4])) ***** demo disp("'sparsersb' detects symmetry:") d=sparsersb( [1,2;2,1] ) s=sparsersb(sparse([1,2;2,1])) ***** demo disp("'sparsersb' detects hermitianness:") d=sparsersb( [1,i;-i,1] ) s=sparsersb(sparse([1,i;-i,1])) ***** demo disp("The most important use of 'sparsersb' is for multiplying sparse matrices...\n") a=sparsersb( [1,2;3,4] ) disp("...by dense matrices or vectors:\n") x=[1,2;1,2] disp("Untransposed sparse matrix-vector multiplication:") a*x disp("Transposed sparse matrix-vector multiplication:") a'*x ***** demo d=sparsersb( [1,2;3,4] ); s=sparsersb(sparse([1,2;3,4])); disp("Many sparse-sparse matrix operators work on 'sparsersb'\n") disp("'+' operator:") s+d disp("'.+' operator:") s.+d disp("'-' operator:") s-d disp("'.-' operator:") s.-d disp("'*' operator:") s*d disp("'.*' operator:") s.*d disp("'/' operator:") s/d disp("'./' operator:") s./d disp("'\\' operator:") s\[1;1] disp("And others. Not all operators are native: certain use a conversion; see the printout.\n") ***** demo o=sparse( [1,2;3,4] ); s=sparsersb([1,2;3,4] ); disp("Most of these operators hide a conversion; see the printout:\n") s(:,:) o(:,:) s(:,2) o(:,2) s(2,:) o(2,:) s(:) o(:) ***** demo disp("On large matrices 'sparsersb' may be faster than 'sparse' in sparse matrix-vector multiplication.") disp("In addition to that, 'sparsersb' has an 'empirical online auto-tuning' functionality.") disp("It means you run the autotuning on a specific input, and just after, the multiplication might be faster.") disp("See this case with two different right hand sides (NRHS) count.\n") M=100000; N=100000; P=100 / M; s=sparse(sprand(M,N,P)); for NRHSc = {1,7} r=sparsersb(s); # repeat tuning from 'vanilla' matrix assert(nnz(s)==nnz(r)) NRHS=cell2mat(NRHSc); x=ones(M,NRHS); printf("Here, a %.2e x %.2e matrix with %.2e nonzeroes, %d NRHS.\n",M,N,nnz(s),NRHS) tic(); sc=0; while(toc()<3) s*x; sc=sc+1; endwhile st=toc()/sc; printf("Each multiplication with 'sparse' took %.1es.\n",st); tic(); rc=0; while(toc()<3) r*x; rc=rc+1; endwhile rt=toc()/rc; ut=rt; # untuned time printf("Each multiplication with 'sparsersb' took %.3es, this is %.4g%% of the time taken by 'sparse'.\n",rt,100*rt/st); nsb=str2num(sparsersb(r,"get","RSB_MIF_LEAVES_COUNT__TO__RSB_BLK_INDEX_T")); tic; r=sparsersb(r,"autotune","n",NRHS); at_t=toc; nnb=str2num(sparsersb(r,"get","RSB_MIF_LEAVES_COUNT__TO__RSB_BLK_INDEX_T")); printf ("Autotuning for %d NRHS took %.2es (%d -> %d RSB blocks).\n", NRHS, at_t, nsb, nnb); tic(); rc=0; while(toc()<3) r*x; rc=rc+1; endwhile rt=toc()/rc; printf("After tuning, each 'sparsersb' multiplication took %.3es.\n",rt); printf("This is %.4g%% of the time taken by 'sparse' (%.2fx speedup).\n",100*rt/st,st/rt); if ut > rt; printf ("Autotuning brought a %.2fx speedup over original RSB structure.\n", ut/rt); printf ("Time spent in autotuning can be amortized in %.1d iterations.\n", at_t/(ut-rt) ); else printf ("RSB autotuning brought no further speedup for NRHS=%d.\n",NRHS); endif disp("") endfor ***** demo disp("'sparsersb' can render sparse matrices into Encapsulated Postscript files showing the RSB blocks layout.") rm = sparsersb(sprand(100000,100000,.0001)); sparsersb(rm,'render','sptest.eps') disp("You can open sptest.eps now.") 994 tests, 994 passed, 0 known failure, 0 skipped Run tests in debian/check.m make[1]: Entering directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src' SPARSERSB_TEST=1 octave-cli --norc --silent ../inst/sparsersbtester.m will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 RM = Recursive Sparse Blocks (rows = 1, cols = 1, nnz = 1, symm = U [100%]) (1, 1) -> 1 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 0 0 1 RM = Recursive Sparse Blocks (rows = 2, cols = 2, nnz = 2, symm = U [50%]) (1, 1) -> 1 (2, 2) -> 1 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 0 0 0 1 0 0 0 1 RM = Recursive Sparse Blocks (rows = 3, cols = 3, nnz = 3, symm = U [33%]) (1, 1) -> 1 (2, 2) -> 1 (3, 3) -> 1 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 0 0 0 0 1 0 0 0 0 1 0 0 0 0 1 RM = Recursive Sparse Blocks (rows = 4, cols = 4, nnz = 4, symm = U [25%]) (1, 1) -> 1 (2, 2) -> 1 (3, 3) -> 1 (4, 4) -> 1 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 0 0 0 0 0 1 0 0 0 0 0 1 0 0 0 0 0 1 0 0 0 0 0 1 RM = Recursive Sparse Blocks (rows = 5, cols = 5, nnz = 5, symm = U [20%]) (1, 1) -> 1 (2, 2) -> 1 (3, 3) -> 1 (4, 4) -> 1 (5, 5) -> 1 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 0 1 0 0 0 0 0 0 1 RM = Recursive Sparse Blocks (rows = 6, cols = 6, nnz = 6, symm = U [17%]) (1, 1) -> 1 (2, 2) -> 1 (3, 3) -> 1 (4, 4) -> 1 (5, 5) -> 1 (6, 6) -> 1 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 3, cols = 3, nnz = 4, symm = U [44%]) (1, 1) -> 11 (2, 1) -> 21 (2, 2) -> 22 (3, 3) -> 33 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 4, cols = 4, nnz = 5, symm = U [31%]) (1, 1) -> 11 (2, 1) -> 21 (2, 2) -> 22 (3, 3) -> 33 (4, 4) -> 44 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 5, cols = 5, nnz = 6, symm = U [24%]) (1, 1) -> 11 (2, 1) -> 21 (2, 2) -> 22 (3, 3) -> 33 (4, 4) -> 44 (5, 5) -> 55 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 6, cols = 6, nnz = 7, symm = U [19%]) (1, 1) -> 11 (2, 1) -> 21 (2, 2) -> 22 (3, 3) -> 33 (4, 4) -> 44 (5, 5) -> 55 (6, 6) -> 66 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 1, cols = 1, nnz = 1, symm = U [100%]) (1, 1) -> 10 [*] constructors test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. will test types "sparse matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 + 1i RM = Recursive Sparse Blocks (rows = 1, cols = 1, nnz = 1, symm = U [100%]) (1, 1) -> 1 + 1i ans = Compressed Column Sparse (rows = 1, cols = 1, nnz = 1 [100%]) (1, 1) -> 0 + 2i ans = Recursive Sparse Blocks (rows = 1, cols = 1, nnz = 1, symm = U [100%]) (1, 1) -> 1.22e-16 + 2i warning: tiny mismatch (norm: 1.22465e-16) when computing matrix squares (see above) warning: called from are_spm_equal at line 70 column 4 testsprsb at line 155 column 7 tests at line 444 column 7 ../inst/sparsersbtester.m at line 489 column 6 [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 + 1i 0 + 0i 0 + 0i 1 + 1i RM = Recursive Sparse Blocks (rows = 2, cols = 2, nnz = 2, symm = U [50%]) (1, 1) -> 1 + 1i (2, 2) -> 1 + 1i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 + 1i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 1 + 1i RM = Recursive Sparse Blocks (rows = 3, cols = 3, nnz = 3, symm = U [33%]) (1, 1) -> 1 + 1i (2, 2) -> 1 + 1i (3, 3) -> 1 + 1i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i RM = Recursive Sparse Blocks (rows = 4, cols = 4, nnz = 4, symm = U [25%]) (1, 1) -> 1 + 1i (2, 2) -> 1 + 1i (3, 3) -> 1 + 1i (4, 4) -> 1 + 1i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i RM = Recursive Sparse Blocks (rows = 5, cols = 5, nnz = 5, symm = U [20%]) (1, 1) -> 1 + 1i (2, 2) -> 1 + 1i (3, 3) -> 1 + 1i (4, 4) -> 1 + 1i (5, 5) -> 1 + 1i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. M = 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 0 + 0i 1 + 1i RM = Recursive Sparse Blocks (rows = 6, cols = 6, nnz = 6, symm = U [17%]) (1, 1) -> 1 + 1i (2, 2) -> 1 + 1i (3, 3) -> 1 + 1i (4, 4) -> 1 + 1i (5, 5) -> 1 + 1i (6, 6) -> 1 + 1i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 3, cols = 3, nnz = 4, symm = U [44%]) (1, 1) -> 11 + 11i (2, 1) -> 21 + 21i (2, 2) -> 22 + 22i (3, 3) -> 33 + 33i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 4, cols = 4, nnz = 5, symm = U [31%]) (1, 1) -> 11 + 11i (2, 1) -> 21 + 21i (2, 2) -> 22 + 22i (3, 3) -> 33 + 33i (4, 4) -> 44 + 44i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 5, cols = 5, nnz = 6, symm = U [24%]) (1, 1) -> 11 + 11i (2, 1) -> 21 + 21i (2, 2) -> 22 + 22i (3, 3) -> 33 + 33i (4, 4) -> 44 + 44i (5, 5) -> 55 + 55i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 6, cols = 6, nnz = 7, symm = U [19%]) (1, 1) -> 11 + 11i (2, 1) -> 21 + 21i (2, 2) -> 22 + 22i (3, 3) -> 33 + 33i (4, 4) -> 44 + 44i (5, 5) -> 55 + 55i (6, 6) -> 66 + 66i [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [~] ilu does not work; probably UMFPACK is not installed: skipping some tests. . [*] multiply test passed. [*] triangular solve test passed. [*] norms test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. RM = Recursive Sparse Blocks (rows = 1, cols = 1, nnz = 1, symm = U [100%]) (1, 1) -> 10 + 10i ans = Compressed Column Sparse (rows = 1, cols = 1, nnz = 1 [100%]) (1, 1) -> 0 + 200i ans = Recursive Sparse Blocks (rows = 1, cols = 1, nnz = 1, symm = U [100%]) (1, 1) -> 1.22e-14 + 200i warning: tiny mismatch (norm: 8.61401e-14) when computing matrix squares (see above) warning: called from are_spm_equal at line 70 column 4 testsprsb at line 155 column 7 tests at line 444 column 7 ../inst/sparsersbtester.m at line 515 column 6 [*] constructors test passed. will test types "sparse complex matrix" and "rsb sparse matrix" [*] dimensions test passed. [*] diagonal test passed. [*] find test passed. [*] elems test passed. [*] asgn test passed. [*] scale test passed. [*] add and subtract test passed. [*] overall (for this matrix) test passed. A = Recursive Sparse Blocks (rows = 3, cols = 3, nnz = 3, symm = U [33%]) (1, 1) -> 11 (2, 2) -> 22 (2, 3) -> 23 O = Compressed Column Sparse (rows = 3, cols = 3, nnz = 3 [33%]) (1, 1) -> 11 (2, 2) -> 22 (2, 3) -> 23 A = Recursive Sparse Blocks (rows = 3, cols = 3, nnz = 3, symm = U [33%]) (1, 1) -> 11 (2, 2) -> 22 (2, 3) -> 2.2e+02 O = Compressed Column Sparse (rows = 3, cols = 3, nnz = 3 [33%]) (1, 1) -> 11 (2, 2) -> 22 (2, 3) -> 222 All tests passed. error: ignoring const execution_exception& while preparing to exit SPARSERSB_TEST=1 octave-cli --norc --silent ../bin/octavebench.m ../bin/pd.mtx *********************************************************************** ** A small 'sparse' vs 'sparsersb' test / benchmark. ** ** This is meant to be a demo, but not really an example. ** ** You can invoke it supplying a Matrix Market matrix (e.g. pd.mtx). ** ** Without arguments, will generate a test matrix. ** ** p.s.: Invoke 'demo sparsersb' to get just a first working overview. ** *********************************************************************** ** Will read Matrix Market matrix file  ... ../bin/pd.mtx: 0.00 MBytes read in 1.6127 s ( 0.00 MB/s) *** Benchmarking 'sparse'. *** Benchmarking 'sparse' instantiation from 'ia,ja,va'. ../bin/pd.mtx 'sparse' 10 Instantiations for 36 nnz in 0.0008 secs, so 0.46 nnz/s *** Benchmarking 'sparse' SPMV.. ../bin/pd.mtx 'sparse' 10 SPMV for 36 nnz in 0.0001 secs, so 6.27 Mflops *** Benchmarking sparse SPMV_T.. ../bin/pd.mtx 'sparse' 10 spMVT for 36 nnz in 0.0001 secs, so 6.27 Mflops *** Benchmarking 'sparsersb'. *** Benchmarking 'sparsersb' instantiation from 'ia,ja,va'. ../bin/pd.mtx 'sparsersb' 10 Instantiations for 36 nnz in 15.8700 secs, so 0.00 nnz/s ** Assembled 'sparsersb' matrix has 22 RSB blocks. *** Benchmarking 'sparsersb' SPMV.. ../bin/pd.mtx 'sparsersb' 10 SPMV for 36 nnz in 1.9279 secs, so 0.00 Mflops *** Benchmarking sparsersb SPMV_T.. ../bin/pd.mtx 'sparsersb' 10 spMVT for 36 nnz in 2.0020 secs, so 0.00 Mflops *********************************************************************** error: ignoring const execution_exception& while preparing to exit SPARSERSB_TEST=1 octave-cli --norc --silent ../bin/octavebench.m *********************************************************************** ** A small 'sparse' vs 'sparsersb' test / benchmark. ** ** This is meant to be a demo, but not really an example. ** ** You can invoke it supplying a Matrix Market matrix (e.g. pd.mtx). ** ** Without arguments, will generate a test matrix. ** ** p.s.: Invoke 'demo sparsersb' to get just a first working overview. ** *********************************************************************** ** Will generate a matrix... ** 10 GEMV for order 1024 in 0.0207601 secs, so 1010.185936 Mflops *********************************************************************** error: ignoring const execution_exception& while preparing to exit SPARSERSB_TEST=1 octave-cli --norc --silent --eval 'test sparsersbtg' PASSES 7 out of 7 tests error: ignoring const execution_exception& while preparing to exit SPARSERSB_TEST=1 octave-cli --norc --silent --eval 'test sparsersb' PASSES 994 out of 994 tests error: ignoring const execution_exception& while preparing to exit make[1]: Leaving directory '/build/octave-sparsersb-APVAoN/octave-sparsersb-1.0.8/src' Summary: 1002 tests, 1002 passed, 0 known failures, 0 skipped dh_installdocs -a -O--buildsystem=octave dh_installchangelogs -a -O--buildsystem=octave dh_octave_changelogs -a -O--buildsystem=octave dh_octave_examples -a -O--buildsystem=octave dh_octave_examples: warning: skipping link from usr/share/doc/octave-sparsersb/examples to self dh_installsystemduser -a -O--buildsystem=octave dh_perl -a -O--buildsystem=octave dh_link -a -O--buildsystem=octave dh_strip_nondeterminism -a -O--buildsystem=octave dh_compress -a -O--buildsystem=octave dh_fixperms -a -O--buildsystem=octave dh_missing -a -O--buildsystem=octave dh_dwz -a -a -O--buildsystem=octave dh_strip -a -a -O--buildsystem=octave dh_makeshlibs -a -a -O--buildsystem=octave dh_shlibdeps -a -a -O--buildsystem=octave dh_octave_substvar -a -O--buildsystem=octave dh_installdeb -a -O--buildsystem=octave dh_gencontrol -a -O--buildsystem=octave dpkg-gencontrol: warning: package octave-sparsersb: substitution variable ${octave:Upstream-Description} unused, but is defined dpkg-gencontrol: warning: package octave-sparsersb: substitution variable ${octave:Upstream-Description} unused, but is defined dh_md5sums -a -O--buildsystem=octave dh_builddeb -a -O--buildsystem=octave dpkg-deb: building package 'octave-sparsersb' in '../octave-sparsersb_1.0.8-3_amd64.deb'. dpkg-deb: building package 'octave-sparsersb-dbgsym' in '../octave-sparsersb-dbgsym_1.0.8-3_amd64.deb'. dpkg-genbuildinfo --build=any dpkg-genchanges --build=any >../octave-sparsersb_1.0.8-3_amd64.changes dpkg-genchanges: info: binary-only arch-specific upload (source code and arch-indep packages not included) dpkg-source --after-build . dpkg-source: info: using options from octave-sparsersb-1.0.8/debian/source/options: --extend-diff-ignore=.*\.oct|sparsersb_temporary_matrix_file\.mtx|.*\.eps|src/Makeconf|src/config\.log|src/config\.status|src/configure$ dpkg-buildpackage: info: binary-only upload (no source included) I: running special hook: sync-out /build/octave-sparsersb-APVAoN /tmp/octave-sparsersb-1.0.8-3f88i2vjw I: cleaning package lists and apt cache... I: creating tarball... I: done I: removing tempdir /tmp/mmdebstrap.Yvz0lxVlFM... I: success in 5072.4312 seconds md5: octave-sparsersb-dbgsym_1.0.8-3_amd64.deb: OK md5: octave-sparsersb_1.0.8-3_amd64.deb: OK sha1: octave-sparsersb-dbgsym_1.0.8-3_amd64.deb: OK sha1: octave-sparsersb_1.0.8-3_amd64.deb: OK sha256: octave-sparsersb-dbgsym_1.0.8-3_amd64.deb: OK sha256: octave-sparsersb_1.0.8-3_amd64.deb: OK Checksums: OK