>>> mpb: Building testing/mpb 1.12.0-r0 (using abuild 3.18.0_rc1-r0) started Tue, 30 Jun 2026 03:34:28 +0000 >>> mpb: Validating /home/buildozer/aports/testing/mpb/APKBUILD... >>> mpb: Analyzing dependencies... >>> mpb: Installing for build: build-base fftw-dev gfortran guile-dev hdf5-dev libctl-dev openblas-dev ( 1/31) Installing fftw-double-libs (3.3.11-r0) ( 2/31) Installing fftw-long-double-libs (3.3.11-r0) ( 3/31) Installing fftw-single-libs (3.3.11-r0) ( 4/31) Installing fftw-dev (3.3.11-r0) ( 5/31) Installing libgfortran (15.2.0-r6) ( 6/31) Installing gfortran (15.2.0-r6) ( 7/31) Installing libffi (3.5.2-r1) ( 8/31) Installing gc (8.2.12-r0) ( 9/31) Installing guile-libs (3.0.9-r2) (10/31) Installing guile (3.0.9-r2) (11/31) Installing libgc++ (8.2.12-r0) (12/31) Installing gc-dev (8.2.12-r0) (13/31) Installing libgmpxx (6.3.0-r4) (14/31) Installing gmp-dev (6.3.0-r4) (15/31) Installing guile-dev (3.0.9-r2) (16/31) Installing zlib-dev (1.3.2-r0) (17/31) Installing libsz (1.1.6-r0) (18/31) Installing hdf5 (1.14.4.2-r1) (19/31) Installing hdf5-cpp (1.14.4.2-r1) (20/31) Installing hdf5-fortran (1.14.4.2-r1) (21/31) Installing hdf5-hl (1.14.4.2-r1) (22/31) Installing hdf5-hl-cpp (1.14.4.2-r1) (23/31) Installing hdf5-hl-fortran (1.14.4.2-r1) (24/31) Installing hdf5-dev (1.14.4.2-r1) (25/31) Installing libctl (4.5.1-r1) (26/31) Installing libctl-dev (4.5.1-r1) (27/31) Installing openblas (0.3.30-r2) (28/31) Installing liblapack (0.3.30-r2) (29/31) Installing liblapacke (0.3.30-r2) (30/31) Installing openblas-dev (0.3.30-r2) (31/31) Installing .makedepends-mpb (20260630.033430) Executing busybox-1.38.0-r1.trigger OK: 393.4 MiB in 136 packages >>> mpb: Cleaning up srcdir >>> mpb: Cleaning up pkgdir >>> mpb: Cleaning up tmpdir >>> mpb: Fetching https://distfiles.alpinelinux.org/distfiles/edge/mpb-1.12.0.tar.gz Connecting to distfiles.alpinelinux.org (172.105.82.32:443) wget: server returned error: HTTP/1.1 404 Not Found >>> mpb: Fetching https://github.com/NanoComp/mpb/releases/download/v1.12.0/mpb-1.12.0.tar.gz /var/cache/distfiles/edge/mpb-1.12.0.tar.gz: OK >>> mpb: Fetching https://distfiles.alpinelinux.org/distfiles/edge/mpb-1.12.0.tar.gz /var/cache/distfiles/edge/mpb-1.12.0.tar.gz: OK >>> mpb: Unpacking /var/cache/distfiles/edge/mpb-1.12.0.tar.gz... checking whether to enable maintainer-specific portions of Makefiles... no checking for a BSD-compatible install... /usr/bin/install -c checking whether sleep supports fractional seconds... yes checking filesystem timestamp resolution... 2 checking whether build environment is sane... yes checking for a race-free mkdir -p... /bin/mkdir -p checking for gawk... no checking for mawk... no checking for nawk... no checking for awk... awk checking whether make sets $(MAKE)... yes checking whether make supports nested variables... yes checking xargs -n works... yes checking build system type... armv7-alpine-linux-musleabihf checking host system type... armv7-alpine-linux-musleabihf checking how to print strings... printf checking whether make supports the include directive... yes (GNU style) checking for armv7-alpine-linux-musleabihf-gcc... cc checking whether the C compiler works... yes checking for C compiler default output file name... a.out checking for suffix of executables... checking whether we are cross compiling... no checking for suffix of object files... o checking whether the compiler supports GNU C... yes checking whether cc accepts -g... yes checking for cc option to enable C11 features... none needed checking whether cc understands -c and -o together... yes checking dependency style of cc... gcc3 checking for a sed that does not truncate output... /bin/sed checking for grep that handles long lines and -e... /bin/grep checking for egrep... /bin/grep -E checking for fgrep... /bin/grep -F checking for ld used by cc... /usr/armv7-alpine-linux-musleabihf/bin/ld checking if the linker (/usr/armv7-alpine-linux-musleabihf/bin/ld) is GNU ld... yes checking for BSD- or MS-compatible name lister (nm)... /usr/bin/nm -B checking the name lister (/usr/bin/nm -B) interface... BSD nm checking whether ln -s works... yes checking the maximum length of command line arguments... 98304 checking how to convert armv7-alpine-linux-musleabihf file names to armv7-alpine-linux-musleabihf format... func_convert_file_noop checking how to convert armv7-alpine-linux-musleabihf file names to toolchain format... func_convert_file_noop checking for /usr/armv7-alpine-linux-musleabihf/bin/ld option to reload object files... -r checking for file... file checking for armv7-alpine-linux-musleabihf-objdump... no checking for objdump... objdump checking how to recognize dependent libraries... pass_all checking for armv7-alpine-linux-musleabihf-dlltool... no checking for dlltool... no checking how to associate runtime and link libraries... printf %s\n checking for armv7-alpine-linux-musleabihf-ranlib... no checking for ranlib... ranlib checking for armv7-alpine-linux-musleabihf-ar... no checking for ar... ar checking for archiver @FILE support... @ checking for armv7-alpine-linux-musleabihf-strip... no checking for strip... strip checking command to parse /usr/bin/nm -B output from cc object... ok checking for sysroot... no checking for a working dd... /bin/dd checking how to truncate binary pipes... /bin/dd bs=4096 count=1 checking for armv7-alpine-linux-musleabihf-mt... no checking for mt... no checking if : is a manifest tool... no checking for stdio.h... yes checking for stdlib.h... yes checking for string.h... yes checking for inttypes.h... yes checking for stdint.h... yes checking for strings.h... yes checking for sys/stat.h... yes checking for sys/types.h... yes checking for unistd.h... yes checking for dlfcn.h... yes checking for objdir... .libs checking if cc supports -fno-rtti -fno-exceptions... no checking for cc option to produce PIC... -fPIC -DPIC checking if cc PIC flag -fPIC -DPIC works... yes checking if cc static flag -static works... yes checking if cc supports -c -o file.o... yes checking if cc supports -c -o file.o... (cached) yes checking whether the cc linker (/usr/armv7-alpine-linux-musleabihf/bin/ld) supports shared libraries... yes checking whether -lc should be explicitly linked in... no checking dynamic linker characteristics... GNU/Linux ld.so checking how to hardcode library paths into programs... immediate checking whether stripping libraries is possible... yes checking if libtool supports shared libraries... yes checking whether to build shared libraries... yes checking whether to build static libraries... yes checking for armv7-alpine-linux-musleabihf-g77... no checking for armv7-alpine-linux-musleabihf-xlf... no checking for armv7-alpine-linux-musleabihf-f77... no checking for armv7-alpine-linux-musleabihf-frt... no checking for armv7-alpine-linux-musleabihf-pgf77... no checking for armv7-alpine-linux-musleabihf-cf77... no checking for armv7-alpine-linux-musleabihf-fort77... no checking for armv7-alpine-linux-musleabihf-fl32... no checking for armv7-alpine-linux-musleabihf-af77... no checking for armv7-alpine-linux-musleabihf-xlf90... no checking for armv7-alpine-linux-musleabihf-f90... no checking for armv7-alpine-linux-musleabihf-pgf90... no checking for armv7-alpine-linux-musleabihf-pghpf... no checking for armv7-alpine-linux-musleabihf-epcf90... no checking for armv7-alpine-linux-musleabihf-gfortran... armv7-alpine-linux-musleabihf-gfortran checking whether the compiler supports GNU Fortran 77... yes checking whether armv7-alpine-linux-musleabihf-gfortran accepts -g... yes checking if libtool supports shared libraries... yes checking whether to build shared libraries... yes checking whether to build static libraries... yes checking for armv7-alpine-linux-musleabihf-gfortran option to produce PIC... -fPIC checking if armv7-alpine-linux-musleabihf-gfortran PIC flag -fPIC works... yes checking if armv7-alpine-linux-musleabihf-gfortran static flag -static works... yes checking if armv7-alpine-linux-musleabihf-gfortran supports -c -o file.o... yes checking if armv7-alpine-linux-musleabihf-gfortran supports -c -o file.o... (cached) yes checking whether the armv7-alpine-linux-musleabihf-gfortran linker (/usr/armv7-alpine-linux-musleabihf/bin/ld) supports shared libraries... yes checking dynamic linker characteristics... (cached) GNU/Linux ld.so checking how to hardcode library paths into programs... immediate checking for perl... ./missing checking for vendor cc to be used instead of gcc... checking for cc... (cached) cc checking for armv7-alpine-linux-musleabihf-gcc... (cached) cc checking whether the compiler supports GNU C... (cached) yes checking whether cc accepts -g... (cached) yes checking for cc option to enable C11 features... (cached) none needed checking whether cc understands -c and -o together... (cached) yes checking dependency style of cc... (cached) gcc3 checking for sqrt in -lm... yes checking how to get verbose linking output from armv7-alpine-linux-musleabihf-gfortran... -v checking for Fortran 77 libraries of armv7-alpine-linux-musleabihf-gfortran... -L/usr/lib/gcc/armv7-alpine-linux-musleabihf/15.2.0 -L/usr/lib/gcc/armv7-alpine-linux-musleabihf/15.2.0/../../../../armv7-alpine-linux-musleabihf/lib -L/usr/lib/gcc/armv7-alpine-linux-musleabihf/15.2.0/../../.. -L/lib -L/usr/lib -lgfortran -lm -lssp_nonshared checking for dummy main to link with Fortran 77 libraries... none checking for Fortran 77 name-mangling scheme... lower case, underscore, no extra underscore checking for fftw_execute in -lfftw3... yes checking for sgemm_ in -lopenblas... yes checking for cheev_ in -lopenblas... yes checking for deflate in -lz... yes checking for H5Pcreate in -lhdf5... yes checking for hdf5.h... yes checking for guile... yes checking for guile-config... guile-config checking if linking to guile works... yes checking for libguile.h... yes checking for guile/gh.h... no checking for scm_make_smob_type... yes checking for scm_new_smob... yes checking for scm_array_get_handle... yes checking for scm_is_array... yes checking for SCM_SMOB_PREDICATE... no checking for SCM_SMOB_DATA... no checking for SCM_NEWSMOB... no checking how to activate readline in Guile... cannot checking for libctl dir... /usr/share/libctl checking for gen-ctl-io... gen-ctl-io checking for ctl_get_vector3 in -lctl... yes checking for ctl.h... yes checking whether libctl version is at least 4.0.0... checking how to run the C preprocessor... cc -E checking for egrep -e... (cached) /bin/grep -E ok checking for libctl_quiet feature... yes checking for vector3_dot in -lctlgeom... yes checking for ctlgeom.h... yes checking for nlopt.h... no checking for nlopt_minimize in -lnlopt... no checking for unistd.h... (cached) yes checking for getopt.h... yes checking for nlopt.h... (cached) no checking for an ANSI C-conforming const... yes checking for inline... inline checking for getopt... yes checking for strncmp... yes checking whether calling BLAS zdotc works... yes checking for bash... sh configure: WARNING: Couldn't find bash or ksh shell on your system. The mpb-split command may not work if your sh doesn't support job control. checking for feenableexcept... no checking whether feenableexcept declaration is usable... no checking that generated files are newer than configure... done configure: creating ./config.status config.status: creating Makefile config.status: creating examples/Makefile config.status: creating tests/Makefile config.status: creating src/Makefile config.status: creating src/util/Makefile config.status: creating src/matrices/Makefile config.status: creating src/matrixio/Makefile config.status: creating src/maxwell/Makefile config.status: creating mpb/Makefile config.status: creating mpb/mpb.scm config.status: creating mpb/mpb-split-preinstall config.status: creating utils/Makefile config.status: creating config.h config.status: creating src/mpbconf.h config.status: executing depfiles commands config.status: executing libtool commands make all-recursive make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' Making all in src make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' cp -f mpbconf.h mpb.h make all-recursive make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' Making all in util make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make all-am make[5]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' CC sphere-quad.o CC debug_malloc.lo CC mpi_utils.lo CC verbosity.lo mpi_utils.c: In function 'mpi_begin_critical_section': mpi_utils.c:202:22: warning: unused variable 'status' [-Wunused-variable] 202 | MPI_Status status; | ^~~~~~ mpi_utils.c: In function 'mpi_end_critical_section': mpi_utils.c:210:35: warning: unused parameter 'tag' [-Wunused-parameter] 210 | void mpi_end_critical_section(int tag) | ~~~~^~~ CCLD libutil.la CCLD sphere_quad make[5]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' Making all in matrices make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' CC libmatrices_la-blasglue.lo CC libmatrices_la-eigensolver.lo CC libmatrices_la-eigensolver_davidson.lo CC libmatrices_la-eigensolver_utils.lo CC libmatrices_la-evectmatrix.lo CC libmatrices_la-linmin.lo CC libmatrices_la-matrices.lo CC libmatrices_la-minpack2-linmin.lo CC libmatrices_la-sqmatrix.lo CCLD libmatrices.la make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' Making all in matrixio make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' CC libmatrixio_a-evectmatrixio.o CC libmatrixio_a-fieldio.o CC libmatrixio_a-matrixio.o fieldio.c:41:46: warning: argument 8 of type 'const real *' {aka 'const double *'} declared as a pointer [-Warray-parameter=] 41 | const real *kvector, | ~~~~~~~~~~~~^~~~~~~ In file included from fieldio.c:28: matrixio.h:95:52: note: previously declared as an array 'const real[3]' {aka 'const double[3]'} 95 | const real kvector[3], | ~~~~~~~~~~~^~~~~~~~~~ matrixio.c: In function 'matrixio_create_sub': matrixio.c:469:24: warning: statement with no effect [-Wunused-value] 469 | IF_EXCLUSIVE(0,if (id.parallel) MPI_Barrier(mpb_comm)); | ^ matrixio.c:58:32: note: in definition of macro 'IF_EXCLUSIVE' 58 | # define IF_EXCLUSIVE(yes,no) yes | ^~~ matrixio.c:472:24: warning: statement with no effect [-Wunused-value] 472 | IF_EXCLUSIVE(0,if (id.parallel) MPI_Barrier(mpb_comm)); | ^ matrixio.c:58:32: note: in definition of macro 'IF_EXCLUSIVE' 58 | # define IF_EXCLUSIVE(yes,no) yes | ^~~ In file included from matrixio.c:29: matrixio.c: In function 'matrixio_open_dataset': matrixio.c:516:30: warning: comparison of integer expressions of different signedness: 'hsize_t' {aka 'long long unsigned int'} and 'int' [-Wsign-compare] 516 | CHECK(dims_copy[i] == dims[i], | ^~ ./../util/check.h:37:12: note: in definition of macro 'CHECK' 37 | if (!(condition)) { \ | ^~~~~~~~~ matrixio.c: In function 'matrixio_create_dataset': matrixio.c:552:24: warning: statement with no effect [-Wunused-value] 552 | IF_EXCLUSIVE(0,if (id.parallel) MPI_Barrier(mpb_comm)); | ^ matrixio.c:58:32: note: in definition of macro 'IF_EXCLUSIVE' 58 | # define IF_EXCLUSIVE(yes,no) yes | ^~~ matrixio.c: In function 'matrixio_read_real_data': matrixio.c:837:35: warning: comparison of integer expressions of different signedness: 'hsize_t' {aka 'long long unsigned int'} and 'int' [-Wsign-compare] 837 | CHECK(dims_copy[i] == dims[i], | ^~ ./../util/check.h:37:12: note: in definition of macro 'CHECK' 37 | if (!(condition)) { \ | ^~~~~~~~~ AR libmatrixio.a make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' Making all in maxwell make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' CC libmaxwell_la-maxwell.lo CC libmaxwell_la-maxwell_constraints.lo CC libmaxwell_la-maxwell_eps.lo CC libmaxwell_la-maxwell_op.lo CC libmaxwell_la-maxwell_pre.lo maxwell_eps.c:181:12: warning: 'sym_matrix_eq' defined but not used [-Wunused-function] 181 | static int sym_matrix_eq(symmetric_matrix V1, symmetric_matrix V2, double tol) | ^~~~~~~~~~~~~ maxwell_op.c: In function 'maxwell_compute_fft': maxwell_op.c:187:21: warning: variable 'np' set but not used [-Wunused-but-set-variable] 187 | ptrdiff_t np[3]; | ^~ maxwell_op.c:177:12: warning: unused variable 'rarray_out' [-Wunused-variable] 177 | real *rarray_out = (real *) array_out; | ^~~~~~~~~~ maxwell_op.c:175:12: warning: unused variable 'rarray_in' [-Wunused-variable] 175 | real *rarray_in = (real *) array_in; | ^~~~~~~~~ maxwell_op.c: In function 'maxwell_vectorfield_otherhalf': maxwell_op.c:637:50: warning: unused parameter 'd' [-Wunused-parameter] 637 | void maxwell_vectorfield_otherhalf(maxwell_data *d, scalar_complex *field, | ~~~~~~~~~~~~~~^ maxwell_op.c:637:69: warning: unused parameter 'field' [-Wunused-parameter] 637 | void maxwell_vectorfield_otherhalf(maxwell_data *d, scalar_complex *field, | ~~~~~~~~~~~~~~~~^~~~~ maxwell_op.c:638:41: warning: unused parameter 'phasex' [-Wunused-parameter] 638 | real phasex, real phasey, real phasez) | ~~~~~^~~~~~ maxwell_op.c:638:54: warning: unused parameter 'phasey' [-Wunused-parameter] 638 | real phasex, real phasey, real phasez) | ~~~~~^~~~~~ maxwell_op.c:638:67: warning: unused parameter 'phasez' [-Wunused-parameter] 638 | real phasex, real phasey, real phasez) | ~~~~~^~~~~~ maxwell_op.c: In function 'maxwell_cscalarfield_otherhalf': maxwell_op.c:841:51: warning: unused parameter 'd' [-Wunused-parameter] 841 | void maxwell_cscalarfield_otherhalf(maxwell_data *d, scalar_complex *field, | ~~~~~~~~~~~~~~^ maxwell_op.c:841:70: warning: unused parameter 'field' [-Wunused-parameter] 841 | void maxwell_cscalarfield_otherhalf(maxwell_data *d, scalar_complex *field, | ~~~~~~~~~~~~~~~~^~~~~ maxwell_op.c:842:42: warning: unused parameter 'phasex' [-Wunused-parameter] 842 | real phasex, real phasey, real phasez) | ~~~~~^~~~~~ maxwell_op.c:842:55: warning: unused parameter 'phasey' [-Wunused-parameter] 842 | real phasex, real phasey, real phasez) | ~~~~~^~~~~~ maxwell_op.c:842:68: warning: unused parameter 'phasez' [-Wunused-parameter] 842 | real phasex, real phasey, real phasez) | ~~~~~^~~~~~ maxwell_op.c: In function 'maxwell_scalarfield_otherhalf': maxwell_op.c:1042:50: warning: unused parameter 'd' [-Wunused-parameter] 1042 | void maxwell_scalarfield_otherhalf(maxwell_data *d, real *field) | ~~~~~~~~~~~~~~^ maxwell_op.c:1042:59: warning: unused parameter 'field' [-Wunused-parameter] 1042 | void maxwell_scalarfield_otherhalf(maxwell_data *d, real *field) | ~~~~~~^~~~~ CCLD libmaxwell.la make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' CCLD libmpb.la make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' Making all in tests make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' CC malloctest.o CC blastest.o CC eigs_test.o CC maxwell_test.o CC normal_vectors-normal_vectors.o eigs_test.c: In function 'Aop': eigs_test.c:293:51: warning: unused parameter 'data' [-Wunused-parameter] 293 | void Aop(evectmatrix Xin, evectmatrix Xout, void *data, | ~~~~~~^~~~ eigs_test.c:294:14: warning: unused parameter 'is_current_eigenvector' [-Wunused-parameter] 294 | int is_current_eigenvector, evectmatrix Work) | ~~~~^~~~~~~~~~~~~~~~~~~~~~ eigs_test.c:294:50: warning: unused parameter 'Work' [-Wunused-parameter] 294 | int is_current_eigenvector, evectmatrix Work) | ~~~~~~~~~~~~^~~~ eigs_test.c: In function 'Bop': eigs_test.c:303:51: warning: unused parameter 'data' [-Wunused-parameter] 303 | void Bop(evectmatrix Xin, evectmatrix Xout, void *data, | ~~~~~~^~~~ eigs_test.c:304:14: warning: unused parameter 'is_current_eigenvector' [-Wunused-parameter] 304 | int is_current_eigenvector, evectmatrix Work) | ~~~~^~~~~~~~~~~~~~~~~~~~~~ eigs_test.c:304:50: warning: unused parameter 'Work' [-Wunused-parameter] 304 | int is_current_eigenvector, evectmatrix Work) | ~~~~~~~~~~~~^~~~ eigs_test.c: In function 'Ainvop': eigs_test.c:313:54: warning: unused parameter 'data' [-Wunused-parameter] 313 | void Ainvop(evectmatrix Xin, evectmatrix Xout, void *data, | ~~~~~~^~~~ eigs_test.c:314:25: warning: unused parameter 'Y' [-Wunused-parameter] 314 | evectmatrix Y, real *eigenvals, sqmatrix YtY) | ~~~~~~~~~~~~^ eigs_test.c:314:34: warning: unused parameter 'eigenvals' [-Wunused-parameter] 314 | evectmatrix Y, real *eigenvals, sqmatrix YtY) | ~~~~~~^~~~~~~~~ eigs_test.c:314:54: warning: unused parameter 'YtY' [-Wunused-parameter] 314 | evectmatrix Y, real *eigenvals, sqmatrix YtY) | ~~~~~~~~~^~~ eigs_test.c: In function 'Cop_old': eigs_test.c:324:55: warning: unused parameter 'data' [-Wunused-parameter] 324 | void Cop_old(evectmatrix Xin, evectmatrix Xout, void *data, | ~~~~~~^~~~ eigs_test.c:325:22: warning: unused parameter 'Y' [-Wunused-parameter] 325 | evectmatrix Y, real *eigenvals, sqmatrix YtY) | ~~~~~~~~~~~~^ eigs_test.c:325:31: warning: unused parameter 'eigenvals' [-Wunused-parameter] 325 | evectmatrix Y, real *eigenvals, sqmatrix YtY) | ~~~~~~^~~~~~~~~ eigs_test.c: In function 'Cop': eigs_test.c:349:51: warning: unused parameter 'data' [-Wunused-parameter] 349 | void Cop(evectmatrix Xin, evectmatrix Xout, void *data, | ~~~~~~^~~~ eigs_test.c:350:23: warning: unused parameter 'Y' [-Wunused-parameter] 350 | evectmatrix Y, real *eigenvals, sqmatrix YtY) | ~~~~~~~~~~~~^ CCLD malloctest CCLD blastest CCLD normal_vectors CCLD maxwell_test CCLD eigs_test make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' Making all in mpb make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' cp -f /usr/share/libctl/base/main.c main.c cp -f /usr/share/libctl/utils/geom.c geom.c gen-ctl-io --header -o ctl-io.h mpb.scm /usr/share/libctl gen-ctl-io --code -o ctl-io.c mpb.scm /usr/share/libctl ;;; note: auto-compilation is enabled, set GUILE_AUTO_COMPILE=0 ;;; or pass the --no-auto-compile argument to disable. ;;; compiling /usr/share/libctl/base/include.scm ;;; compiled /home/buildozer/.cache/guile/ccache/3.0-LE-4-4.6/usr/share/libctl/base/include.scm.go ;;; note: auto-compilation is enabled, set GUILE_AUTO_COMPILE=0 ;;; or pass the --no-auto-compile argument to disable. ;;; compiling /usr/share/libctl/base/include.scm ;;; compiled /home/buildozer/.cache/guile/ccache/3.0-LE-4-4.6/usr/share/libctl/base/include.scm.go make all-am make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' CC mpb-transform.o CC mpb-medium.o CC mpb-epsilon_file.o CC mpb-field-smob.o CC mpb-fields.o CC mpb-material_grid.o CC mpb-material_grid_opt.o CC mpb-matrix-smob.o CC mpb-mpb.o CC mpb-main.o CC mpb-geom.o sed "s%\./mpb%"/usr/bin/"mpb%g" \ mpb-split-preinstall > mpb-split CC mpb-ctl-io.o chmod u+x mpb-split In file included from ctl-io.h:7, from main.c:37: main.c: In function 'main_entry': main.c:194:31: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 194 | gh_new_procedure("subplex", (SCM(*)(void))subplex_scm, 7, 0, 0); | ^ main.c:202:44: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 202 | gh_new_procedure("adaptive-integration", (SCM(*)(void))adaptive_integration_scm, 6, 0, 0); | ^ main.c:205:45: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 205 | gh_new_procedure("cadaptive-integration", (SCM(*)(void))cadaptive_integration_scm, 6, 0, 0); | ^ In file included from /usr/include/guile/3.0/libguile/procs.h:25, from /usr/include/guile/3.0/libguile/threads.h:25, from /usr/include/guile/3.0/libguile/async.h:25, from /usr/include/guile/3.0/libguile.h:35, from /usr/include/ctl.h:28, from ctl-io.h:7, from field-smob.h:21, from field-smob.c:27: field-smob.c: In function 'field_p': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ field-smob.h:45:20: note: in expansion of macro 'T_SMOB_P' 45 | #define FIELD_P(X) T_SMOB_P(field_smob, X) | ^~~~~~~~ field-smob.c:42:40: note: in expansion of macro 'FIELD_P' 42 | return ctl_convert_boolean_to_scm(FIELD_P(obj)); | ^~~~~~~ field-smob.c: In function 'rscalar_field_p': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ field-smob.h:45:20: note: in expansion of macro 'T_SMOB_P' 45 | #define FIELD_P(X) T_SMOB_P(field_smob, X) | ^~~~~~~~ field-smob.h:49:29: note: in expansion of macro 'FIELD_P' 49 | #define RSCALAR_FIELD_P(X) (FIELD_P(X) && ((FIELD(X))->type == RSCALAR_FIELD_SMOB)) | ^~~~~~~ field-smob.c:47:40: note: in expansion of macro 'RSCALAR_FIELD_P' 47 | return ctl_convert_boolean_to_scm(RSCALAR_FIELD_P(obj)); | ^~~~~~~~~~~~~~~ field-smob.c: In function 'cscalar_field_p': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ field-smob.h:45:20: note: in expansion of macro 'T_SMOB_P' 45 | #define FIELD_P(X) T_SMOB_P(field_smob, X) | ^~~~~~~~ field-smob.h:50:29: note: in expansion of macro 'FIELD_P' 50 | #define CSCALAR_FIELD_P(X) (FIELD_P(X) && ((FIELD(X))->type == CSCALAR_FIELD_SMOB)) | ^~~~~~~ field-smob.c:52:40: note: in expansion of macro 'CSCALAR_FIELD_P' 52 | return ctl_convert_boolean_to_scm(CSCALAR_FIELD_P(obj)); | ^~~~~~~~~~~~~~~ ctl-io.c: In function 'block_equal': ctl-io.c:639:6: warning: suggest braces around empty body in an 'else' statement [-Wempty-body] 639 | else ; | ^ field-smob.c: In function 'cvector_field_p': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ field-smob.h:45:20: note: in expansion of macro 'T_SMOB_P' 45 | #define FIELD_P(X) T_SMOB_P(field_smob, X) | ^~~~~~~~ field-smob.h:51:29: note: in expansion of macro 'FIELD_P' 51 | #define CVECTOR_FIELD_P(X) (FIELD_P(X) && ((FIELD(X))->type == CVECTOR_FIELD_SMOB)) | ^~~~~~~ field-smob.c:57:40: note: in expansion of macro 'CVECTOR_FIELD_P' 57 | return ctl_convert_boolean_to_scm(CVECTOR_FIELD_P(obj)); | ^~~~~~~~~~~~~~~ ctl-io.c: In function 'cylinder_equal': ctl-io.c:679:6: warning: suggest braces around empty body in an 'else' statement [-Wempty-body] 679 | else ; | ^ ctl-io.c: In function 'geometric_object_equal': ctl-io.c:716:6: warning: suggest braces around empty body in an 'else' statement [-Wempty-body] 716 | else ; | ^ ctl-io.c: In function 'material_type_equal': ctl-io.c:776:6: warning: suggest braces around empty body in an 'else' statement [-Wempty-body] 776 | else ; | ^ ctl-io.c: In function 'lattice_destroy': ctl-io.c:782:30: warning: unused parameter 'o' [-Wunused-parameter] 782 | void lattice_destroy(lattice o) | ~~~~~~~~^ ctl-io.c: In function 'ellipsoid_destroy': ctl-io.c:786:34: warning: unused parameter 'o' [-Wunused-parameter] 786 | void ellipsoid_destroy(ellipsoid o) | ~~~~~~~~~~^ ctl-io.c: In function 'sphere_destroy': ctl-io.c:845:28: warning: unused parameter 'o' [-Wunused-parameter] 845 | void sphere_destroy(sphere o) | ~~~~~~~^ ctl-io.c: In function 'wedge_destroy': ctl-io.c:849:26: warning: unused parameter 'o' [-Wunused-parameter] 849 | void wedge_destroy(wedge o) | ~~~~~~^ ctl-io.c: In function 'cone_destroy': ctl-io.c:853:24: warning: unused parameter 'o' [-Wunused-parameter] 853 | void cone_destroy(cone o) | ~~~~~^ ctl-io.c: In function 'material_grid_destroy': ctl-io.c:907:42: warning: unused parameter 'o' [-Wunused-parameter] 907 | void material_grid_destroy(material_grid o) | ~~~~~~~~~~~~~~^ ctl-io.c: In function 'material_function_destroy': ctl-io.c:911:50: warning: unused parameter 'o' [-Wunused-parameter] 911 | void material_function_destroy(material_function o) | ~~~~~~~~~~~~~~~~~~^ ctl-io.c: In function 'medium_anisotropic_destroy': ctl-io.c:915:52: warning: unused parameter 'o' [-Wunused-parameter] 915 | void medium_anisotropic_destroy(medium_anisotropic o) | ~~~~~~~~~~~~~~~~~~~^ ctl-io.c: In function 'medium_destroy': ctl-io.c:919:28: warning: unused parameter 'o' [-Wunused-parameter] 919 | void medium_destroy(medium o) | ~~~~~~~^ In file included from field-smob.h:22: field-smob.c: In function 'assert_field_smob': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ my-smob.h:69:28: note: in expansion of macro 'T_SMOB_P' 69 | #define SAFE_T_SMOB(T, X) (T_SMOB_P(T,X) ? T_SMOB(T,X) : NULL) | ^~~~~~~~ field-smob.h:47:65: note: in expansion of macro 'SAFE_T_SMOB' 47 | #define SAFE_FIELD(X) (cur_fieldp(X) ? update_curfield_smob() : SAFE_T_SMOB(field_smob, X)) | ^~~~~~~~~~~ field-smob.c:187:22: note: in expansion of macro 'SAFE_FIELD' 187 | field_smob *f = SAFE_FIELD(fo); | ^~~~~~~~~~ In file included from mpb.c:35: mpb.c: In function 'ctl_start_hook': In file included from medium.c:75: epsilon.c: In function 'get_epsilon': epsilon.c:415:51: warning: variable 'local_y_start' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~ epsilon.c:415:47: warning: variable 'nz' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ epsilon.c:415:43: warning: variable 'nx' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ epsilon.c:415:26: warning: variable 'last_dim_stored' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~~~ epsilon.c:415:16: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~ ../src/util/mpiglue.h:42:29: warning: statement with no effect [-Wunused-value] 42 | #define MPI_Init(argc,argv) 0 | ^ mpb.c:99:6: note: in expansion of macro 'MPI_Init' 99 | MPI_Init(argc, argv); | ^~~~~~~~ mpb.c:97:26: warning: unused parameter 'argc' [-Wunused-parameter] 97 | void ctl_start_hook(int *argc, char ***argv) | ~~~~~^~~~ mpb.c:97:40: warning: unused parameter 'argv' [-Wunused-parameter] 97 | void ctl_start_hook(int *argc, char ***argv) | ~~~~~~~~^~~~ mpb.c: In function 'ctl_stop_hook': ../src/util/mpiglue.h:43:24: warning: statement with no effect [-Wunused-value] 43 | #define MPI_Finalize() 0 | ^ mpb.c:143:6: note: in expansion of macro 'MPI_Finalize' 143 | MPI_Finalize(); | ^~~~~~~~~~~~ epsilon.c: In function 'get_epsilon_tensor': epsilon.c:552:23: warning: cast increases required alignment of target type [-Wcast-align] 552 | *((real *) (((char *) &mdata->eps_inv[i]) + offset)); | ^ epsilon.c:557:31: warning: cast increases required alignment of target type [-Wcast-align] 557 | epsilon[i] = *((real *) (((char *) &eps) + offset)); | ^ field-smob.c: In function 'integrate_fieldL': field-smob.c:407:54: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 407 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~~ field-smob.c:407:48: warning: variable 'rank' set but not used [-Wunused-but-set-variable] 407 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~ field-smob.c:407:40: warning: variable 'n_last' set but not used [-Wunused-but-set-variable] 407 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~ field-smob.c:407:31: warning: variable 'n_other' set but not used [-Wunused-but-set-variable] 407 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~ material_grid_opt.c: In function 'material_grids_min_tetm_gap': material_grid_opt.c:90:43: warning: unused parameter 'func_tol' [-Wunused-parameter] 90 | number func_tol, number eps_tol, | ~~~~~~~^~~~~~~~ material_grid_opt.c:91:44: warning: unused parameter 'maxeval' [-Wunused-parameter] 91 | integer maxeval, number maxtime) | ~~~~~~~~^~~~~~~ material_grid_opt.c:91:60: warning: unused parameter 'maxtime' [-Wunused-parameter] 91 | integer maxeval, number maxtime) | ~~~~~~~^~~~~~~ geom.c: In function 'overlap_integrand': geom.c:1156:10: warning: unused variable 's' [-Wunused-variable] 1156 | double s[2]; | ^ material_grid_opt.c: In function 'material_grids_maxmin_gap': material_grid_opt.c:258:48: warning: unused parameter 'func_tol' [-Wunused-parameter] 258 | number func_tol, number eps_tol, | ~~~~~~~^~~~~~~~ material_grid_opt.c:259:49: warning: unused parameter 'maxeval' [-Wunused-parameter] 259 | integer maxeval, number maxtime) | ~~~~~~~~^~~~~~~ material_grid_opt.c:259:65: warning: unused parameter 'maxtime' [-Wunused-parameter] 259 | integer maxeval, number maxtime) | ~~~~~~~^~~~~~~ In file included from ctl-io.h:7, from ctl-io.c:7: ctl-io.c: In function 'export_external_functions': field-smob.c: At top level: field-smob.c:395:17: warning: 'cvector3_conj' defined but not used [-Wunused-function] 395 | static cvector3 cvector3_conj(cvector3 c) | ^~~~~~~~~~~~~ ctl-io.c:2885:61: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2885 | gh_new_procedure("compute-1-group-velocity-reciprocal-aux", (SCM (*)()) compute_1_group_velocity_reciprocal_aux, 1, 0, 0); | ^ ctl-io.c:2886:50: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2886 | gh_new_procedure("compute-1-group-velocity-aux", (SCM (*)()) compute_1_group_velocity_aux, 1, 0, 0); | ^ ctl-io.c:2887:60: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2887 | gh_new_procedure("compute-1-group-velocity-component-aux", (SCM (*)()) compute_1_group_velocity_component_aux, 2, 0, 0); | ^ ctl-io.c:2888:58: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2888 | gh_new_procedure("compute-group-velocity-component-aux", (SCM (*)()) compute_group_velocity_component_aux, 1, 0, 0); | ^ In file included from medium.c:76: mu.c: In function 'get_mu': mu.c:415:51: warning: variable 'local_y_start' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~ mu.c:415:47: warning: variable 'nz' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ mu.c:415:43: warning: variable 'nx' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ ctl-io.c:2891:53: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2891 | gh_new_procedure("material-grids-min-tetm-gap-aux", (SCM (*)()) material_grids_min_tetm_gap_aux, 6, 0, 0); | ^ mu.c:415:26: warning: variable 'last_dim_stored' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~~~ mu.c:415:16: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 415 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~ ctl-io.c:2892:47: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2892 | gh_new_procedure("material-grids-mingap-aux", (SCM (*)()) material_grids_mingap_aux, 7, 0, 0); | ^ ctl-io.c:2893:47: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2893 | gh_new_procedure("material-grids-maxgap-aux", (SCM (*)()) material_grids_maxgap_aux, 7, 0, 0); | ^ ctl-io.c:2894:56: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2894 | gh_new_procedure("material-grids-approx-gradient-aux", (SCM (*)()) material_grids_approx_gradient_aux, 4, 0, 0); | ^ ctl-io.c:2895:62: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2895 | gh_new_procedure("print-material-grids-deps-du-numeric-aux", (SCM (*)()) print_material_grids_deps_du_numeric_aux, 1, 0, 0); | ^ ctl-io.c:2897:55: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2897 | gh_new_procedure("print-material-grids-gradient-aux", (SCM (*)()) print_material_grids_gradient_aux, 1, 0, 0); | ^ ctl-io.c:2898:60: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2898 | gh_new_procedure("material-grids-match-epsilon-file!-aux", (SCM (*)()) material_grids_match_epsilon_fileB_aux, 2, 0, 0); | ^ mu.c: In function 'get_mu_tensor': mu.c:552:23: warning: cast increases required alignment of target type [-Wcast-align] 552 | *((real *) (((char *) &mdata->mu_inv[i]) + offset)); | ^ ctl-io.c:2899:45: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2899 | gh_new_procedure("load-material-grid!-aux", (SCM (*)()) load_material_gridB_aux, 3, 0, 0); | ^ mu.c:557:26: warning: cast increases required alignment of target type [-Wcast-align] 557 | mu[i] = *((real *) (((char *) &eps) + offset)); | ^ ctl-io.c:2900:44: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2900 | gh_new_procedure("save-material-grid-aux", (SCM (*)()) save_material_grid_aux, 2, 0, 0); | ^ ctl-io.c:2901:50: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2901 | gh_new_procedure("randomize-material-grid!-aux", (SCM (*)()) randomize_material_gridB_aux, 2, 0, 0); | ^ ctl-io.c:2902:55: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2902 | gh_new_procedure("cvector-field-get-point-bloch-aux", (SCM (*)()) cvector_field_get_point_bloch_aux, 2, 0, 0); | ^ ctl-io.c:2903:49: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2903 | gh_new_procedure("cvector-field-get-point-aux", (SCM (*)()) cvector_field_get_point_aux, 2, 0, 0); | ^ ctl-io.c:2904:49: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2904 | gh_new_procedure("cscalar-field-get-point-aux", (SCM (*)()) cscalar_field_get_point_aux, 2, 0, 0); | ^ ctl-io.c:2905:49: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2905 | gh_new_procedure("rscalar-field-get-point-aux", (SCM (*)()) rscalar_field_get_point_aux, 2, 0, 0); | ^ ctl-io.c:2906:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2906 | gh_new_procedure("integrate-fieldL-aux", (SCM (*)()) integrate_fieldL_aux, 2, 0, 0); | ^ ctl-io.c:2907:37: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2907 | gh_new_procedure("field-mapL!-aux", (SCM (*)()) field_mapLB_aux, 3, 0, 0); | ^ ctl-io.c:2908:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2908 | gh_new_procedure("field-load-aux", (SCM (*)()) field_load_aux, 1, 0, 0); | ^ ctl-io.c:2909:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2909 | gh_new_procedure("field-set!-aux", (SCM (*)()) field_setB_aux, 2, 0, 0); | ^ ctl-io.c:2910:41: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2910 | gh_new_procedure("fields-conform?-aux", (SCM (*)()) fields_conformp_aux, 2, 0, 0); | ^ ctl-io.c:2911:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2911 | gh_new_procedure("field-make-aux", (SCM (*)()) field_make_aux, 1, 0, 0); | ^ ctl-io.c:2912:49: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2912 | gh_new_procedure("cvector-field-nonbloch!-aux", (SCM (*)()) cvector_field_nonblochB_aux, 1, 0, 0); | ^ ctl-io.c:2913:44: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2913 | gh_new_procedure("cvector-field-make-aux", (SCM (*)()) cvector_field_make_aux, 1, 0, 0); | ^ ctl-io.c:2914:44: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2914 | gh_new_procedure("rscalar-field-make-aux", (SCM (*)()) rscalar_field_make_aux, 1, 0, 0); | ^ ctl-io.c:2915:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2915 | gh_new_procedure("cur-field?-aux", (SCM (*)()) cur_fieldp_aux, 1, 0, 0); | ^ ctl-io.c:2916:48: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2916 | gh_new_procedure("get-dominant-planewave-aux", (SCM (*)()) get_dominant_planewave_aux, 1, 0, 0); | ^ ctl-io.c:2917:43: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2917 | gh_new_procedure("load-eigenvectors-aux", (SCM (*)()) load_eigenvectors_aux, 1, 0, 0); | ^ ctl-io.c:2918:43: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2918 | gh_new_procedure("save-eigenvectors-aux", (SCM (*)()) save_eigenvectors_aux, 1, 0, 0); | ^ ctl-io.c:2919:44: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2919 | gh_new_procedure("input-eigenvectors-aux", (SCM (*)()) input_eigenvectors_aux, 2, 0, 0); | ^ ctl-io.c:2920:45: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2920 | gh_new_procedure("output-eigenvectors-aux", (SCM (*)()) output_eigenvectors_aux, 2, 0, 0); | ^ ctl-io.c:2921:43: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2921 | gh_new_procedure("scale-eigenvector-aux", (SCM (*)()) scale_eigenvector_aux, 2, 0, 0); | ^ ctl-io.c:2922:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2922 | gh_new_procedure("dot-eigenvectors-aux", (SCM (*)()) dot_eigenvectors_aux, 2, 0, 0); | ^ ctl-io.c:2923:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2923 | gh_new_procedure("set-eigenvectors-aux", (SCM (*)()) set_eigenvectors_aux, 2, 0, 0); | ^ ctl-io.c:2924:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2924 | gh_new_procedure("get-eigenvectors-aux", (SCM (*)()) get_eigenvectors_aux, 2, 0, 0); | ^ ctl-io.c:2925:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2925 | gh_new_procedure("sqmatrix-eigvals-aux", (SCM (*)()) sqmatrix_eigvals_aux, 1, 0, 0); | ^ ctl-io.c:2926:40: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2926 | gh_new_procedure("sqmatrix-diagm-aux", (SCM (*)()) sqmatrix_diagm_aux, 1, 0, 0); | ^ ctl-io.c:2927:39: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2927 | gh_new_procedure("sqmatrix-mult-aux", (SCM (*)()) sqmatrix_mult_aux, 2, 0, 0); | ^ ctl-io.c:2928:38: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2928 | gh_new_procedure("sqmatrix-set-aux", (SCM (*)()) sqmatrix_set_aux, 4, 0, 0); | ^ ctl-io.c:2929:38: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2929 | gh_new_procedure("sqmatrix-ref-aux", (SCM (*)()) sqmatrix_ref_aux, 3, 0, 0); | ^ ctl-io.c:2930:39: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2930 | gh_new_procedure("sqmatrix-size-aux", (SCM (*)()) sqmatrix_size_aux, 1, 0, 0); | ^ ctl-io.c:2931:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2931 | gh_new_procedure("set-kpoint-index-aux", (SCM (*)()) set_kpoint_index_aux, 1, 0, 0); | ^ ctl-io.c:2935:33: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2935 | gh_new_procedure("mpi-max-aux", (SCM (*)()) mpi_max_aux, 1, 0, 0); | ^ ctl-io.c:2940:46: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2940 | gh_new_procedure("output-field-to-file-aux", (SCM (*)()) output_field_to_file_aux, 2, 0, 0); | ^ ctl-io.c:2941:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2941 | gh_new_procedure("compute-symmetry-aux", (SCM (*)()) compute_symmetry_aux, 3, 0, 0); | ^ ctl-io.c:2942:44: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2942 | gh_new_procedure("compute-symmetries-aux", (SCM (*)()) compute_symmetries_aux, 2, 0, 0); | ^ ctl-io.c:2943:45: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2943 | gh_new_procedure("transformed-overlap-aux", (SCM (*)()) transformed_overlap_aux, 2, 0, 0); | ^ ctl-io.c:2944:55: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2944 | gh_new_procedure("compute-energy-in-object-list-aux", (SCM (*)()) compute_energy_in_object_list_aux, 1, 0, 0); | ^ ctl-io.c:2945:49: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2945 | gh_new_procedure("compute-energy-integral-aux", (SCM (*)()) compute_energy_integral_aux, 1, 0, 0); | ^ ctl-io.c:2946:48: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2946 | gh_new_procedure("compute-field-integral-aux", (SCM (*)()) compute_field_integral_aux, 1, 0, 0); | ^ ctl-io.c:2947:54: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2947 | gh_new_procedure("compute-energy-in-dielectric-aux", (SCM (*)()) compute_energy_in_dielectric_aux, 2, 0, 0); | ^ ctl-io.c:2948:43: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2948 | gh_new_procedure("get-cscalar-point-aux", (SCM (*)()) get_cscalar_point_aux, 1, 0, 0); | ^ ctl-io.c:2949:49: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2949 | gh_new_procedure("get-bloch-cscalar-point-aux", (SCM (*)()) get_bloch_cscalar_point_aux, 1, 0, 0); | ^ ctl-io.c:2950:41: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2950 | gh_new_procedure("get-field-point-aux", (SCM (*)()) get_field_point_aux, 1, 0, 0); | ^ ctl-io.c:2951:47: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2951 | gh_new_procedure("get-bloch-field-point-aux", (SCM (*)()) get_bloch_field_point_aux, 1, 0, 0); | ^ ctl-io.c:2952:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2952 | gh_new_procedure("get-energy-point-aux", (SCM (*)()) get_energy_point_aux, 1, 0, 0); | ^ ctl-io.c:2953:58: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2953 | gh_new_procedure("get-epsilon-inverse-tensor-point-aux", (SCM (*)()) get_epsilon_inverse_tensor_point_aux, 1, 0, 0); | ^ ctl-io.c:2954:43: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2954 | gh_new_procedure("get-epsilon-point-aux", (SCM (*)()) get_epsilon_point_aux, 1, 0, 0); | ^ ctl-io.c:2961:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2961 | gh_new_procedure("get-bfield-aux", (SCM (*)()) get_bfield_aux, 1, 0, 0); | ^ ctl-io.c:2962:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2962 | gh_new_procedure("get-hfield-aux", (SCM (*)()) get_hfield_aux, 1, 0, 0); | ^ ctl-io.c:2963:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2963 | gh_new_procedure("get-dfield-aux", (SCM (*)()) get_dfield_aux, 1, 0, 0); | ^ ctl-io.c:2964:38: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2964 | gh_new_procedure("solve-kpoint-aux", (SCM (*)()) solve_kpoint_aux, 1, 0, 0); | ^ ctl-io.c:2966:36: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2966 | gh_new_procedure("set-parity-aux", (SCM (*)()) set_parity_aux, 1, 0, 0); | ^ ctl-io.c:2968:37: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2968 | gh_new_procedure("init-params-aux", (SCM (*)()) init_params_aux, 2, 0, 0); | ^ ctl-io.c:2969:38: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2969 | gh_new_procedure("square-basis-aux", (SCM (*)()) square_basis_aux, 2, 0, 0); | ^ ctl-io.c:2970:51: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2970 | gh_new_procedure("range-overlap-with-object-aux", (SCM (*)()) range_overlap_with_object_aux, 5, 0, 0); | ^ ctl-io.c:2971:55: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2971 | gh_new_procedure("display-geometric-object-info-aux", (SCM (*)()) display_geometric_object_info_aux, 2, 0, 0); | ^ ctl-io.c:2972:51: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2972 | gh_new_procedure("point-in-periodic-object?-aux", (SCM (*)()) point_in_periodic_objectp_aux, 2, 0, 0); | ^ ctl-io.c:2973:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2973 | gh_new_procedure("normal-to-object-aux", (SCM (*)()) normal_to_object_aux, 2, 0, 0); | ^ ctl-io.c:2974:42: warning: cast between incompatible function types from 'struct scm_unused_struct * (*)(struct scm_unused_struct *, struct scm_unused_struct *)' to 'struct scm_unused_struct * (*)(void)' [-Wcast-function-type] 2974 | gh_new_procedure("point-in-object?-aux", (SCM (*)()) point_in_objectp_aux, 2, 0, 0); | ^ geom.c: In function 'point_in_or_on_prism': geom.c:2110:10: warning: unused variable 'height' [-Wunused-variable] 2110 | double height = prsm->height; | ^~~~~~ geom.c: In function 'dcmp': geom.c:2137:17: warning: cast discards 'const' qualifier from pointer target type [-Wcast-qual] 2137 | double d1 = *((double *)pd1), d2 = *((double *)pd2); | ^ geom.c:2137:40: warning: cast discards 'const' qualifier from pointer target type [-Wcast-qual] 2137 | double d1 = *((double *)pd1), d2 = *((double *)pd2); | ^ geom.c: In function 'normal_to_prism': geom.c:2357:11: warning: unused variable 'axisp' [-Wunused-variable] 2357 | vector3 axisp = vector3_scale(height, zhatp); | ^~~~~ geom.c: In function 'triangle_normal': geom.c:2548:10: warning: unused variable 'nvnorm' [-Wunused-variable] 2548 | double nvnorm = vector3_norm(nv); | ^~~~~~ In file included from /usr/include/guile/3.0/libguile/procs.h:25, from /usr/include/guile/3.0/libguile/threads.h:25, from /usr/include/guile/3.0/libguile/async.h:25, from /usr/include/guile/3.0/libguile.h:35, from /usr/include/ctl.h:28, from ctl-io.h:7, from matrix-smob.h:21, from matrix-smob.c:29: matrix-smob.c: In function 'evectmatrix_p': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ matrix-smob.h:29:26: note: in expansion of macro 'T_SMOB_P' 29 | #define EVECTMATRIX_P(X) T_SMOB_P(evectmatrix, X) | ^~~~~~~~ matrix-smob.c:44:40: note: in expansion of macro 'EVECTMATRIX_P' 44 | return ctl_convert_boolean_to_scm(EVECTMATRIX_P(obj)); | ^~~~~~~~~~~~~ matrix-smob.c: In function 'sqmatrix_p': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ matrix-smob.h:33:23: note: in expansion of macro 'T_SMOB_P' 33 | #define SQMATRIX_P(X) T_SMOB_P(sqmatrix, X) | ^~~~~~~~ matrix-smob.c:85:40: note: in expansion of macro 'SQMATRIX_P' 85 | return ctl_convert_boolean_to_scm(SQMATRIX_P(obj)); | ^~~~~~~~~~ In file included from matrix-smob.h:22: matrix-smob.c: In function 'assert_sqmatrix_smob': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ my-smob.h:69:28: note: in expansion of macro 'T_SMOB_P' 69 | #define SAFE_T_SMOB(T, X) (T_SMOB_P(T,X) ? T_SMOB(T,X) : NULL) | ^~~~~~~~ matrix-smob.h:35:26: note: in expansion of macro 'SAFE_T_SMOB' 35 | #define SAFE_SQMATRIX(X) SAFE_T_SMOB(sqmatrix, X) | ^~~~~~~~~~~ matrix-smob.c:186:20: note: in expansion of macro 'SAFE_SQMATRIX' 186 | sqmatrix *m = SAFE_SQMATRIX(mo); | ^~~~~~~~~~~~~ fields.c: In function 'compute_field_energy_internal': fields.c:229:50: warning: variable 'local_y_start' set but not used [-Wunused-but-set-variable] 229 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~ fields.c:229:46: warning: variable 'nz' set but not used [-Wunused-but-set-variable] 229 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ fields.c:229:42: warning: variable 'nx' set but not used [-Wunused-but-set-variable] 229 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ fields.c:229:25: warning: variable 'last_dim_stored' set but not used [-Wunused-but-set-variable] 229 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~~~ fields.c:229:15: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 229 | int i, N, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~ matrix-smob.c: In function 'assert_evectmatrix_smob': my-smob.h:56:44: warning: comparison of integer expressions of different signedness: 'unsigned int' and 'long int' [-Wsign-compare] 56 | && SCM_TYP16 (X) == (scm_tc16_smob_ ## T)) | ^~ my-smob.h:69:28: note: in expansion of macro 'T_SMOB_P' 69 | #define SAFE_T_SMOB(T, X) (T_SMOB_P(T,X) ? T_SMOB(T,X) : NULL) | ^~~~~~~~ matrix-smob.h:31:29: note: in expansion of macro 'SAFE_T_SMOB' 31 | #define SAFE_EVECTMATRIX(X) SAFE_T_SMOB(evectmatrix, X) | ^~~~~~~~~~~ matrix-smob.c:193:23: note: in expansion of macro 'SAFE_EVECTMATRIX' 193 | evectmatrix *m = SAFE_EVECTMATRIX(mo); | ^~~~~~~~~~~~~~~~ In file included from fields.c:25: fields.c: In function 'fix_field_phase': ../src/util/mpiglue.h:54:17: warning: comparison between two arrays [-Warray-compare] 54 | CHECK((sb) != (rb), "MPI_Allreduce doesn't work for sendbuf == recvbuf");\ | ^~ ../src/util/check.h:37:12: note: in definition of macro 'CHECK' 37 | if (!(condition)) { \ | ^~~~~~~~~ fields.c:465:6: note: in expansion of macro 'mpi_allreduce' 465 | mpi_allreduce(sq_sum2, sq_sum, 2, real, SCALAR_MPI_TYPE, | ^~~~~~~~~~~~~ ../src/util/mpiglue.h:54:17: note: use '&sq_sum2[0] != &sq_sum[0]' to compare the addresses 54 | CHECK((sb) != (rb), "MPI_Allreduce doesn't work for sendbuf == recvbuf");\ | ^~ ../src/util/check.h:37:12: note: in definition of macro 'CHECK' 37 | if (!(condition)) { \ | ^~~~~~~~~ fields.c:465:6: note: in expansion of macro 'mpi_allreduce' 465 | mpi_allreduce(sq_sum2, sq_sum, 2, real, SCALAR_MPI_TYPE, | ^~~~~~~~~~~~~ fields.c: In function 'get_val': fields.c:557:25: warning: unused parameter 'nx' [-Wunused-parameter] 557 | int nx, int ny, int nz, int last_dim_size, | ~~~~^~ fields.c:557:49: warning: unused parameter 'last_dim_size' [-Wunused-parameter] 557 | int nx, int ny, int nz, int last_dim_size, | ~~~~^~~~~~~~~~~~~ material_grid.c: In function 'material_grids_addgradient': material_grid.c:390:54: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~~ material_grid.c:390:48: warning: variable 'rank' set but not used [-Wunused-but-set-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~ material_grid.c:390:40: warning: variable 'n_last' set but not used [-Wunused-but-set-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~ material_grid.c:390:31: warning: variable 'n_other' set but not used [-Wunused-but-set-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~ material_grid.c:390:16: warning: unused variable 'k' [-Wunused-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ material_grid.c:390:13: warning: unused variable 'j' [-Wunused-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ material_grid.c:390:10: warning: unused variable 'i' [-Wunused-variable] 390 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ fields.c: At top level: fields.c:709:44: warning: argument 1 of type 'scalar_complex[3]' with mismatched bound [-Warray-parameter=] 709 | void get_bloch_field_point_(scalar_complex field[3], vector3 p) | ~~~~~~~~~~~~~~~^~~~~~~~ In file included from fields.c:35: mpb.h:77:45: note: previously declared as 'scalar_complex *' 77 | void get_bloch_field_point_(scalar_complex *field, vector3 p); | ~~~~~~~~~~~~~~~~^~~~~ fields.c: In function 'get_bloch_field_point': fields.c:721:15: warning: unused variable 'F' [-Wunused-variable] 721 | cvector3 F; | ^ material_grid.c: In function 'print_material_grids_deps_du_numeric': material_grid.c:634:14: warning: unused variable 'foo' [-Wunused-variable] 634 | double *foo; | ^~~ In file included from material_grid.c:25: material_grid.c: In function 'synchronize_material_grid': ../src/util/mpiglue.h:58:40: warning: statement with no effect [-Wunused-value] 58 | #define MPI_Bcast(b, n, t, root, comm) 0 | ^ material_grid.c:693:6: note: in expansion of macro 'MPI_Bcast' 693 | MPI_Bcast(grid, n, MPI_DOUBLE, 0, mpb_comm); | ^~~~~~~~~ material_grid.c:691:10: warning: unused variable 'n' [-Wunused-variable] 691 | int n = ((int) g->size.x) * ((int) g->size.y) * ((int) g->size.z); | ^ material_grid.c:690:14: warning: variable 'grid' set but not used [-Wunused-but-set-variable] 690 | double *grid; | ^~~~ material_grid.c: In function 'match_eps_func': material_grid.c:816:54: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 816 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~~ material_grid.c:816:48: warning: variable 'rank' set but not used [-Wunused-but-set-variable] 816 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~ material_grid.c:816:40: warning: variable 'n_last' set but not used [-Wunused-but-set-variable] 816 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~ material_grid.c:816:31: warning: variable 'n_other' set but not used [-Wunused-but-set-variable] 816 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~ fields.c: In function 'compute_energy_in_dielectric': fields.c:870:51: warning: variable 'local_y_start' set but not used [-Wunused-but-set-variable] 870 | int N, i, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~ fields.c:870:47: warning: variable 'nz' set but not used [-Wunused-but-set-variable] 870 | int N, i, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ fields.c:870:43: warning: variable 'nx' set but not used [-Wunused-but-set-variable] 870 | int N, i, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~ fields.c:870:26: warning: variable 'last_dim_stored' set but not used [-Wunused-but-set-variable] 870 | int N, i, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~~~~~~~~ fields.c:870:16: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 870 | int N, i, last_dim, last_dim_stored, nx, nz, local_y_start; | ^~~~~~~~ fields.c: In function 'output_scalarfield': fields.c:943:36: warning: unused parameter 'last_dim_index' [-Wunused-parameter] 943 | int last_dim_index, | ~~~~^~~~~~~~~~~~~~ fields.c:944:36: warning: unused parameter 'last_dim_start' [-Wunused-parameter] 944 | int last_dim_start, int last_dim_size, | ~~~~^~~~~~~~~~~~~~ fields.c:944:56: warning: unused parameter 'last_dim_size' [-Wunused-parameter] 944 | int last_dim_start, int last_dim_size, | ~~~~^~~~~~~~~~~~~ fields.c:945:36: warning: unused parameter 'first_dim_start' [-Wunused-parameter] 945 | int first_dim_start, int first_dim_size, | ~~~~^~~~~~~~~~~~~~~ fields.c:945:57: warning: unused parameter 'first_dim_size' [-Wunused-parameter] 945 | int first_dim_start, int first_dim_size, | ~~~~^~~~~~~~~~~~~~ fields.c:946:36: warning: unused parameter 'write_start0_special' [-Wunused-parameter] 946 | int write_start0_special) | ~~~~^~~~~~~~~~~~~~~~~~~~ fields.c: In function 'compute_energy_in_object_list': fields.c:1319:6: warning: 'geom_fix_objects0' is deprecated [-Wdeprecated-declarations] 1319 | geom_fix_objects0(objects); | ^~~~~~~~~~~~~~~~~ In file included from fields.c:33: /usr/include/ctlgeom.h:65:13: note: declared here 65 | extern void geom_fix_objects0(GEOMETRIC_OBJECT_LIST geometry) CTLGEOM_DEPRECATED; | ^~~~~~~~~~~~~~~~~ fields.c:1306:54: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~~ fields.c:1306:48: warning: variable 'rank' set but not used [-Wunused-but-set-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~ fields.c:1306:40: warning: variable 'n_last' set but not used [-Wunused-but-set-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~ fields.c:1306:31: warning: variable 'n_other' set but not used [-Wunused-but-set-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~ fields.c:1306:16: warning: unused variable 'k' [-Wunused-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ fields.c:1306:13: warning: unused variable 'j' [-Wunused-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ fields.c:1306:10: warning: unused variable 'i' [-Wunused-variable] 1306 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ fields.c: In function 'compute_field_integral': fields.c:1374:54: warning: variable 'last_dim' set but not used [-Wunused-but-set-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~~ fields.c:1374:48: warning: variable 'rank' set but not used [-Wunused-but-set-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~ fields.c:1374:40: warning: variable 'n_last' set but not used [-Wunused-but-set-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~ fields.c:1374:31: warning: variable 'n_other' set but not used [-Wunused-but-set-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^~~~~~~ fields.c:1374:16: warning: unused variable 'k' [-Wunused-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ fields.c:1374:13: warning: unused variable 'j' [-Wunused-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ fields.c:1374:10: warning: unused variable 'i' [-Wunused-variable] 1374 | int i, j, k, n1, n2, n3, n_other, n_last, rank, last_dim; | ^ material_grid.c: At top level: material_grid.c:807:15: warning: 'match_eps_func' defined but not used [-Wunused-function] 807 | static double match_eps_func(int n, const double *u, double *grad, void *data) | ^~~~~~~~~~~~~~ CCLD mpb make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' Making all in examples make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' make[2]: Nothing to be done for 'all'. make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' Making all in utils make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' CC mpb_data-mpb-data.o CCLD mpb-data make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' Making check in src make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make check-recursive make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' Making check in util make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make check-am make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[4]: Nothing to be done for 'check-am'. make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' Making check in matrices make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' make[3]: Nothing to be done for 'check'. make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' Making check in matrixio make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' make[3]: Nothing to be done for 'check'. make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' Making check in maxwell make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[3]: Nothing to be done for 'check'. make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' Making check in tests make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' make check-local make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' ./blastest | sed 's/\-0\.000\([ ,)]\)/ 0.000\1/g' | sed 's/\-0\.000$/ 0.000/g' > blastest.out ./maxwell_test -1 -c 1e-9 -x 256 -E 1e-3 > maxwell_test.out ./maxwell_test -1 -c 1e-9 -x 256 -E 1e-3 -e -k 0.4 -n 1 > maxwell_test_2.out diff ./blastest.complex.out blastest.out ********************************************************** PASSED tests. ********************************************************** make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' Making check in mpb make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make check-am make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make check-local make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' ./mpb ../examples/check.ctl ************************************************************************** Test case: 1d quarter-wave stack. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-13 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 1e+20, height 0.25, axis (1, 0, 0) epsilon = 9, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Allocating fields... 6 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-9, mean 3, harm. mean 1.32353, 28.125% > 1, 25% "fill" Outputting check-epsilon... Warning! Library version information error. The HDF5 library version information are not consistent in its source code. This is NOT a fatal error but should be corrected. Setting the environment variable 'HDF5_DISABLE_VERSION_CHECK' to a value of 1 will suppress this warning. Library version information are: H5_VERS_MAJOR=1, H5_VERS_MINOR=14, H5_VERS_RELEASE=4, H5_VERS_SUBRELEASE=2, H5_VERS_INFO=HDF5 library version: 1.14.4 solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 38 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.666384, 0.666668, 1.33099, 1.33336, 1.99162, 2.00024, 2.64509 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 74 iterations. tmfreqs:, 2, 0.1, 0, 0, 0.1, 0.0574931, 0.608788, 0.724374, 1.2736, 1.39098, 1.93585, 2.05634, 2.59377 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tmfreqs:, 3, 0.2, 0, 0, 0.2, 0.113352, 0.552761, 0.780756, 1.21673, 1.44856, 1.87756, 2.11569, 2.53392 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tmfreqs:, 4, 0.3, 0, 0, 0.3, 0.164802, 0.501202, 0.832987, 1.16418, 1.5025, 1.82314, 2.17225, 2.4769 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tmfreqs:, 5, 0.4, 0, 0, 0.4, 0.205537, 0.460405, 0.874781, 1.1222, 1.54664, 1.77873, 2.22033, 2.42855 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 6, 0.5, 0, 0, 0.5, 0.222451, 0.443471, 0.892368, 1.10456, 1.56579, 1.75949, 2.24248, 2.40631 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.22245099319196934 at #(0.5 0.0 0.0) Band 2 range: 0.44347071815372174 at #(0.5 0.0 0.0) to 0.6663842825289295 at #(0.0 0.0 0.0) Band 3 range: 0.6666675180320548 at #(0.0 0.0 0.0) to 0.892367814402479 at #(0.5 0.0 0.0) Band 4 range: 1.104558052488972 at #(0.5 0.0 0.0) to 1.3309933766567974 at #(0.0 0.0 0.0) Band 5 range: 1.3333608767284133 at #(0.0 0.0 0.0) to 1.5657937369267079 at #(0.5 0.0 0.0) Band 6 range: 1.7594893273125125 at #(0.5 0.0 0.0) to 1.99161980173025 at #(0.0 0.0 0.0) Band 7 range: 2.0002430264256743 at #(0.0 0.0 0.0) to 2.2424804310085267 at #(0.5 0.0 0.0) Band 8 range: 2.4063119004353672 at #(0.5 0.0 0.0) to 2.64509378521072 at #(0.0 0.0 0.0) Gap from band 1 (0.22245099319196934) to band 2 (0.44347071815372174), 66.3800927935258% Gap from band 2 (0.6663842825289295) to band 3 (0.6666675180320548), 0.042494298121974604% Gap from band 3 (0.892367814402479) to band 4 (1.104558052488972), 21.25168906913931% Gap from band 4 (1.3309933766567974) to band 5 (1.3333608767284133), 0.17771661321746995% Gap from band 5 (1.5657937369267079) to band 6 (1.7594893273125125), 11.649870801607655% Gap from band 6 (1.99161980173025) to band 7 (2.0002430264256743), 0.4320401309685226% Gap from band 7 (2.2424804310085267) to band 8 (2.4063119004353672), 7.04834536568577% total elapsed time for run: 0 seconds. done. check-freqs: PASSED init-params: initializing eigensolver data Computing 8 bands with 1.000000e-13 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 1e+20, height 0.25, axis (1, 0, 0) epsilon = 9, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... 6 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) Solving for band polarization: te. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-9, mean 3, harm. mean 1.32353, 28.125% > 1, 25% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): tefreqs:, k index, k1, k2, k3, kmag/2pi, te band 1, te band 2, te band 3, te band 4, te band 5, te band 6, te band 7, te band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 26 iterations. tefreqs:, 1, 0, 0, 0, 0, 0, 0.666384, 0.666668, 1.33099, 1.33336, 1.99162, 2.00024, 2.64509 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 74 iterations. tefreqs:, 2, 0.1, 0, 0, 0.1, 0.0574931, 0.608788, 0.724374, 1.2736, 1.39098, 1.93585, 2.05634, 2.59377 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tefreqs:, 3, 0.2, 0, 0, 0.2, 0.113352, 0.552761, 0.780756, 1.21673, 1.44856, 1.87756, 2.11569, 2.53392 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tefreqs:, 4, 0.3, 0, 0, 0.3, 0.164802, 0.501202, 0.832987, 1.16418, 1.5025, 1.82314, 2.17225, 2.4769 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tefreqs:, 5, 0.4, 0, 0, 0.4, 0.205537, 0.460405, 0.874781, 1.1222, 1.54664, 1.77873, 2.22033, 2.42855 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tefreqs:, 6, 0.5, 0, 0, 0.5, 0.222451, 0.443471, 0.892368, 1.10456, 1.56579, 1.75949, 2.24248, 2.40631 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.22245099319196923 at #(0.5 0.0 0.0) Band 2 range: 0.4434707181537211 at #(0.5 0.0 0.0) to 0.6663842825288898 at #(0.0 0.0 0.0) Band 3 range: 0.6666675180316748 at #(0.0 0.0 0.0) to 0.8923678144024815 at #(0.5 0.0 0.0) Band 4 range: 1.1045580524889718 at #(0.5 0.0 0.0) to 1.3309933766567736 at #(0.0 0.0 0.0) Band 5 range: 1.33336087672841 at #(0.0 0.0 0.0) to 1.56579373692671 at #(0.5 0.0 0.0) Band 6 range: 1.7594893273125114 at #(0.5 0.0 0.0) to 1.991619801730244 at #(0.0 0.0 0.0) Band 7 range: 2.0002430264256508 at #(0.0 0.0 0.0) to 2.242480431008526 at #(0.5 0.0 0.0) Band 8 range: 2.40631190043537 at #(0.5 0.0 0.0) to 2.645093785208777 at #(0.0 0.0 0.0) Gap from band 1 (0.22245099319196923) to band 2 (0.4434707181537211), 66.38009279352572% Gap from band 2 (0.6663842825288898) to band 3 (0.6666675180316748), 0.042494298070918035% Gap from band 3 (0.8923678144024815) to band 4 (1.1045580524889718), 21.25168906913902% Gap from band 4 (1.3309933766567736) to band 5 (1.33336087672841), 0.17771661321900523% Gap from band 5 (1.56579373692671) to band 6 (1.7594893273125114), 11.64987080160745% Gap from band 6 (1.991619801730244) to band 7 (2.0002430264256508), 0.432040130967647% Gap from band 7 (2.242480431008526) to band 8 (2.40631190043537), 7.04834536568592% total elapsed time for run: 0 seconds. done. check-freqs: PASSED ************************************************************************** Test case: 1d sinusoidal Bragg mirrors. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-13 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 1e+20, height 0.25, axis (1, 0, 0) epsilon = 9, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... 11 k-points: (0,0,0) (0.05,0,0) (0.1,0,0) (0.15,0,0) (0.2,0,0) (0.25,0,0) (0.3,0,0) (0.35,0,0) (0.4,0,0) (0.45,0,0) (0.5,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1.00285-9, mean 4.66295, harm. mean 2.61927, 100% > 1, 45.7676% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 39 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.460648, 0.542428, 0.968587, 1.01617, 1.48337, 1.48387, 1.96764 elapsed time for k point: 0 seconds. solve_kpoint (0.05,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 153 iterations. tmfreqs:, 2, 0.05, 0, 0, 0.05, 0.0231425, 0.454294, 0.548894, 0.95836, 1.02642, 1.45914, 1.50811, 1.94949 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tmfreqs:, 3, 0.1, 0, 0, 0.1, 0.0462091, 0.439084, 0.564453, 0.938267, 1.04658, 1.43467, 1.53261, 1.92548 elapsed time for k point: 0 seconds. solve_kpoint (0.15,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 12 iterations. tmfreqs:, 4, 0.15, 0, 0, 0.15, 0.0691102, 0.420016, 0.584145, 0.91575, 1.06922, 1.41023, 1.55711, 1.9011 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 5, 0.2, 0, 0, 0.2, 0.0917239, 0.399481, 0.605653, 0.892484, 1.09267, 1.38581, 1.58161, 1.87665 elapsed time for k point: 0 seconds. solve_kpoint (0.25,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 6, 0.25, 0, 0, 0.25, 0.113863, 0.378568, 0.628026, 0.868958, 1.11645, 1.36143, 1.6061, 1.85216 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 7, 0.3, 0, 0, 0.3, 0.135213, 0.357979, 0.650805, 0.845399, 1.14036, 1.33713, 1.63058, 1.82769 elapsed time for k point: 0 seconds. solve_kpoint (0.35,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 8, 0.35, 0, 0, 0.35, 0.155194, 0.338479, 0.673671, 0.822003, 1.16428, 1.31295, 1.65502, 1.80325 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 9, 0.4, 0, 0, 0.4, 0.17268, 0.32129, 0.696193, 0.799138, 1.188, 1.28906, 1.67935, 1.77891 elapsed time for k point: 0 seconds. solve_kpoint (0.45,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 8 iterations. tmfreqs:, 10, 0.45, 0, 0, 0.45, 0.185503, 0.308628, 0.717034, 0.778102, 1.21076, 1.26621, 1.70326, 1.755 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 8 iterations. tmfreqs:, 11, 0.5, 0, 0, 0.5, 0.190416, 0.303766, 0.72859, 0.766483, 1.2253, 1.25164, 1.721, 1.73726 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.19041596916806983 at #(0.5 0.0 0.0) Band 2 range: 0.30376617480858825 at #(0.5 0.0 0.0) to 0.46064827521806134 at #(0.0 0.0 0.0) Band 3 range: 0.5424277685173932 at #(0.0 0.0 0.0) to 0.7285900510563748 at #(0.5 0.0 0.0) Band 4 range: 0.7664833049941223 at #(0.5 0.0 0.0) to 0.9685865863610891 at #(0.0 0.0 0.0) Band 5 range: 1.0161706920387517 at #(0.0 0.0 0.0) to 1.2253024188808144 at #(0.5 0.0 0.0) Band 6 range: 1.2516393338141758 at #(0.5 0.0 0.0) to 1.4833733379475014 at #(0.0 0.0 0.0) Band 7 range: 1.4838659375383274 at #(0.0 0.0 0.0) to 1.7209986559263135 at #(0.5 0.0 0.0) Band 8 range: 1.7372592396295963 at #(0.5 0.0 0.0) to 1.9676376863442526 at #(0.0 0.0 0.0) Gap from band 1 (0.19041596916806983) to band 2 (0.30376617480858825), 45.8738572496348% Gap from band 2 (0.46064827521806134) to band 3 (0.5424277685173932), 16.30574148591667% Gap from band 3 (0.7285900510563748) to band 4 (0.7664833049941223), 5.069082902774664% Gap from band 4 (0.9685865863610891) to band 5 (1.0161706920387517), 4.794954647152224% Gap from band 5 (1.2253024188808144) to band 6 (1.2516393338141758), 2.126567159256454% Gap from band 6 (1.4833733379475014) to band 7 (1.4838659375383274), 0.03320255261486342% Gap from band 7 (1.7209986559263135) to band 8 (1.7372592396295963), 0.9403916188077636% total elapsed time for run: 0 seconds. done. check-freqs: PASSED ************************************************************************** Test case: get-dominant-planewave. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-09 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: Geometric object tree has depth 1 and 0 object nodes (vs. 0 actual objects) Initializing epsilon function... 1 k-points: (0.4,0,0) Solving for band polarization: te. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-epsilon... solve_kpoint (0.4,0,0): tefreqs:, k index, k1, k2, k3, kmag/2pi, te band 1, te band 2, te band 3, te band 4, te band 5, te band 6, te band 7, te band 8 Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tefreqs:, 1, 0.4, 0, 0, 0.4, 0.4, 0.6, 1.4, 1.6, 2.4, 2.6, 3.4, 3.6 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED ************************************************************************** Test case: Square lattice of dielectric rods in air. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-09 tolerance. Working in 2 dimensions. Grid size is 32 x 32 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 11.56, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Allocating fields... 16 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) (0.5,0.1,0) (0.5,0.2,0) (0.5,0.3,0) (0.5,0.4,0) (0.5,0.5,0) (0.4,0.4,0) (0.3,0.3,0) (0.2,0.2,0) (0.1,0.1,0) (0,0,0) Solving for band polarization: te. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-11.56, mean 2.327, harm. mean 1.1441, 14.5508% > 1, 12.5663% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): tefreqs:, k index, k1, k2, k3, kmag/2pi, te band 1, te band 2, te band 3, te band 4, te band 5, te band 6, te band 7, te band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 44 iterations. tefreqs:, 1, 0, 0, 0, 0, 0, 0.561945, 0.780843, 0.780846, 0.924372, 1.00804, 1.00804, 1.09859 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 19 iterations. tefreqs:, 2, 0.1, 0, 0, 0.1, 0.0897998, 0.56021, 0.767785, 0.782438, 0.912603, 1.00889, 1.00949, 1.12115 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 92 iterations. tefreqs:, 3, 0.2, 0, 0, 0.2, 0.178853, 0.553301, 0.732522, 0.786672, 0.890463, 1.01386, 1.02078, 1.11301 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 15 iterations. tefreqs:, 4, 0.3, 0, 0, 0.3, 0.266124, 0.534865, 0.689376, 0.79205, 0.872926, 1.0209, 1.04285, 1.10753 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 20 iterations. tefreqs:, 5, 0.4, 0, 0, 0.4, 0.349588, 0.49478, 0.658508, 0.796524, 0.862684, 1.02898, 1.07044, 1.10003 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 34 iterations. tefreqs:, 6, 0.5, 0, 0, 0.5, 0.413346, 0.444623, 0.648672, 0.798265, 0.859327, 1.03311, 1.0958, 1.09742 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 19 iterations. tefreqs:, 7, 0.5, 0.1, 0, 0.509902, 0.424298, 0.448983, 0.644549, 0.802551, 0.854853, 0.98984, 1.05831, 1.11679 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 15 iterations. tefreqs:, 8, 0.5, 0.2, 0, 0.538516, 0.455354, 0.461161, 0.63323, 0.814782, 0.834251, 0.934558, 1.01274, 1.12367 elapsed time for k point: 1 seconds. solve_kpoint (0.5,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 14 iterations. tefreqs:, 9, 0.5, 0.3, 0, 0.583095, 0.478427, 0.501912, 0.61745, 0.784489, 0.83371, 0.906541, 0.967734, 1.12636 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 14 iterations. tefreqs:, 10, 0.5, 0.4, 0, 0.640312, 0.495605, 0.556867, 0.601739, 0.720584, 0.858432, 0.897772, 0.926611, 1.12762 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tefreqs:, 11, 0.5, 0.5, 0, 0.707107, 0.503606, 0.594344, 0.594357, 0.679389, 0.883665, 0.895782, 0.895787, 1.12801 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tefreqs:, 12, 0.4, 0.4, 0, 0.565685, 0.474671, 0.549917, 0.608032, 0.745035, 0.848355, 0.895854, 0.945891, 1.12708 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 15 iterations. tefreqs:, 13, 0.3, 0.3, 0, 0.424264, 0.373254, 0.543225, 0.646251, 0.817389, 0.830457, 0.896516, 1.0176, 1.12198 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 20 iterations. tefreqs:, 14, 0.2, 0.2, 0, 0.282843, 0.252369, 0.551073, 0.700804, 0.797552, 0.899586, 0.90339, 1.08791, 1.10099 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 24 iterations. tefreqs:, 15, 0.1, 0.1, 0, 0.141421, 0.12694, 0.558854, 0.755651, 0.785047, 0.909884, 0.968813, 1.04814, 1.11332 elapsed time for k point: 0 seconds. solve_kpoint (0,0,0): Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 73 iterations. tefreqs:, 16, 0, 0, 0, 0, 0, 0.561945, 0.780843, 0.780846, 0.924372, 1.00804, 1.00804, 1.09859 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.5036058015317008 at #(0.5 0.5 0.0) Band 2 range: 0.4446229135155308 at #(0.5 0.0 0.0) to 0.5943440246130548 at #(0.5 0.5 0.0) Band 3 range: 0.5943566395317805 at #(0.5 0.5 0.0) to 0.7808428124011778 at #(0.0 0.0 0.0) Band 4 range: 0.679388741318616 at #(0.5 0.5 0.0) to 0.8173893720817481 at #(0.30000000000000004 0.30000000000000004 0.0) Band 5 range: 0.8304573822718017 at #(0.30000000000000004 0.30000000000000004 0.0) to 0.924371683405061 at #(0.0 0.0 0.0) Band 6 range: 0.8957817684697055 at #(0.5 0.5 0.0) to 1.03311041395003 at #(0.5 0.0 0.0) Band 7 range: 0.8957868745561716 at #(0.5 0.5 0.0) to 1.0958021498671862 at #(0.5 0.0 0.0) Band 8 range: 1.0974168097704755 at #(0.5 0.0 0.0) to 1.1280127657657413 at #(0.5 0.5 0.0) Gap from band 2 (0.5943440246130548) to band 3 (0.5943566395317805), 0.002122471889893966% Gap from band 4 (0.8173893720817481) to band 5 (0.8304573822718017), 1.5860710536982097% Gap from band 7 (1.0958021498671862) to band 8 (1.0974168097704755), 0.14724110387556616% total elapsed time for run: 1 seconds. done. check-freqs: PASSED init-params: initializing eigensolver data Computing 8 bands with 1.000000e-09 tolerance. Working in 2 dimensions. Grid size is 32 x 32 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 11.56, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... 16 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) (0.5,0.1,0) (0.5,0.2,0) (0.5,0.3,0) (0.5,0.4,0) (0.5,0.5,0) (0.4,0.4,0) (0.3,0.3,0) (0.2,0.2,0) (0.1,0.1,0) (0,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-11.56, mean 2.327, harm. mean 1.1441, 14.5508% > 1, 12.5663% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 26 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.550336, 0.561338, 0.56134, 0.822948, 0.868842, 0.965325, 1.08938 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 24 iterations. tmfreqs:, 2, 0.1, 0, 0, 0.1, 0.0651416, 0.525004, 0.561885, 0.586307, 0.823536, 0.867346, 0.954632, 1.05688 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 3, 0.2, 0, 0, 0.2, 0.127665, 0.49365, 0.563323, 0.617312, 0.822737, 0.86353, 0.924306, 1.03882 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 4, 0.3, 0, 0, 0.3, 0.184047, 0.461592, 0.565122, 0.651397, 0.810839, 0.858984, 0.892949, 1.03589 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 5, 0.4, 0, 0, 0.4, 0.227778, 0.433361, 0.566596, 0.689045, 0.778792, 0.855425, 0.879398, 1.03874 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 6, 0.5, 0, 0, 0.5, 0.245809, 0.420657, 0.567163, 0.720092, 0.747203, 0.85409, 0.877012, 1.0408 elapsed time for k point: 1 seconds. solve_kpoint (0.5,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 8 iterations. tmfreqs:, 7, 0.5, 0.1, 0, 0.509902, 0.249299, 0.427308, 0.560221, 0.718025, 0.756122, 0.855013, 0.877106, 1.02917 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 8, 0.5, 0.2, 0, 0.538516, 0.258693, 0.445541, 0.543385, 0.711698, 0.77935, 0.858136, 0.877357, 1.00092 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 9, 0.5, 0.3, 0, 0.583095, 0.270963, 0.470322, 0.524053, 0.701396, 0.810963, 0.864394, 0.877683, 0.965108 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 10, 0.5, 0.4, 0, 0.640312, 0.281614, 0.493207, 0.508823, 0.689961, 0.846785, 0.874595, 0.878068, 0.926581 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 12 iterations. tmfreqs:, 11, 0.5, 0.5, 0, 0.707107, 0.285906, 0.502981, 0.502983, 0.684476, 0.874359, 0.883317, 0.883317, 0.892993 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tmfreqs:, 12, 0.4, 0.4, 0, 0.565685, 0.276089, 0.491352, 0.508683, 0.69258, 0.839723, 0.856431, 0.907219, 0.907347 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 13, 0.3, 0.3, 0, 0.424264, 0.240239, 0.47923, 0.523499, 0.685362, 0.829266, 0.840451, 0.910791, 0.941595 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 14, 0.2, 0.2, 0, 0.282843, 0.17524, 0.488533, 0.541561, 0.64751, 0.83002, 0.850443, 0.922657, 0.983925 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 15, 0.1, 0.1, 0, 0.141421, 0.0915259, 0.516393, 0.555924, 0.601211, 0.824561, 0.86529, 0.948412, 1.03526 elapsed time for k point: 0 seconds. solve_kpoint (0,0,0): Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 22 iterations. tmfreqs:, 16, 0, 0, 0, 0, 0, 0.550336, 0.561338, 0.56134, 0.822948, 0.868842, 0.965325, 1.08938 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.28590577912716114 at #(0.5 0.5 0.0) Band 2 range: 0.42065733840618613 at #(0.5 0.0 0.0) to 0.5503360754972211 at #(0.0 0.0 0.0) Band 3 range: 0.5029830978387366 at #(0.5 0.5 0.0) to 0.5671632878212799 at #(0.5 0.0 0.0) Band 4 range: 0.5613397939938064 at #(0.0 0.0 0.0) to 0.7200918204690937 at #(0.5 0.0 0.0) Band 5 range: 0.7472029910634789 at #(0.5 0.0 0.0) to 0.8743593805271226 at #(0.5 0.5 0.0) Band 6 range: 0.8404509697715071 at #(0.30000000000000004 0.30000000000000004 0.0) to 0.8833173725850535 at #(0.5 0.5 0.0) Band 7 range: 0.8770118718590366 at #(0.5 0.0 0.0) to 0.9653253809274237 at #(0.0 0.0 0.0) Band 8 range: 0.8929933495601433 at #(0.5 0.5 0.0) to 1.0893780531467065 at #(0.0 0.0 0.0) Gap from band 1 (0.28590577912716114) to band 2 (0.42065733840618613), 38.1428228944218% Gap from band 4 (0.7200918204690937) to band 5 (0.7472029910634789), 3.695395142311975% total elapsed time for run: 1 seconds. done. check-freqs: PASSED **************************************************************************** Test case: square lattice of magneto-electric rods in air. **************************************************************************** init-params: initializing eigensolver data Computing 10 bands with 1.000000e-09 tolerance. Working in 2 dimensions. Grid size is 32 x 32 x 1. Solving for 10 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 0.11, height 1e+20, axis (0, 0, 1) Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 10 k-points: (0,0,0) (0.166667,0,0) (0.333333,0,0) (0.5,0,0) (0.5,0.166667,0) (0.5,0.333333,0) (0.5,0.5,0) (0.333333,0.333333,0) (0.166667,0.166667,0) (0,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-15, mean 1.53164, harm. mean 1.04189, 4.39453% > 1, 3.79742% "fill" Outputting check-epsilon... mu: 1-13.9136, mean 1.42353, harm. mean 1.03906, 4.39453% > 1, 3.27973% "fill" Outputting check-mu... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8, tm band 9, tm band 10 Solving for bands 2 to 10... iteration 52: trace = 4.102143096671558 (1.39195% change) iteration 105: trace = 3.002544278366703 (0.254665% change) iteration 157: trace = 2.706266367952538 (0.0382564% change) iteration 209: trace = 2.560707053820743 (0.176032% change) iteration 261: trace = 2.436067455176 (0.00827268% change) iteration 314: trace = 2.417181546415713 (0.00766801% change) iteration 366: trace = 2.408603497306848 (0.0163741% change) iteration 418: trace = 2.401901292621309 (0.00220542% change) iteration 470: trace = 2.398567233485667 (0.00214568% change) iteration 522: trace = 2.396369088757972 (0.00222806% change) iteration 575: trace = 2.395075226128703 (0.000279703% change) iteration 627: trace = 2.394226183235038 (0.000367632% change) iteration 680: trace = 2.393762090063862 (0.000328693% change) iteration 733: trace = 2.393482571796439 (0.000448007% change) iteration 785: trace = 2.393311503296978 (0.000205969% change) iteration 837: trace = 2.393201013928842 (4.52193e-05% change) iteration 889: trace = 2.393140574070507 (5.94865e-05% change) iteration 942: trace = 2.39310231313566 (2.55746e-05% change) iteration 994: trace = 2.393079412377456 (1.3832e-05% change) iteration 1046: trace = 2.39306409297141 (2.87056e-06% change) iteration 1098: trace = 2.393054294201267 (4.25595e-06% change) iteration 1150: trace = 2.393049033435575 (1.06568e-05% change) iteration 1203: trace = 2.393045344224512 (9.63952e-07% change) iteration 1256: trace = 2.393042926585126 (8.39326e-07% change) iteration 1308: trace = 2.393041611322579 (9.8173e-07% change) iteration 1361: trace = 2.393040780921398 (6.67588e-07% change) Finished solving for bands 2 to 10 after 1375 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.265885, 0.356852, 0.36899, 0.503897, 0.506552, 0.539911, 0.635681, 0.645852, 0.660017 elapsed time for k point: 13 seconds. solve_kpoint (0.166667,0,0): Solving for bands 1 to 10... iteration 47: trace = 2.414183411703452 (0.00135216% change) iteration 95: trace = 2.412996436426806 (0.00016331% change) iteration 143: trace = 2.412708124445292 (1.30658e-05% change) iteration 191: trace = 2.412678179569069 (1.1037e-05% change) iteration 239: trace = 2.412662268979095 (7.95066e-07% change) iteration 287: trace = 2.412650286037396 (1.13492e-05% change) iteration 335: trace = 2.412643815839562 (5.47067e-06% change) iteration 383: trace = 2.412639760998029 (1.00494e-05% change) iteration 431: trace = 2.412636203334529 (9.30839e-06% change) iteration 479: trace = 2.412634267990506 (3.17321e-06% change) iteration 527: trace = 2.412633057456114 (9.9461e-07% change) iteration 575: trace = 2.412631889120374 (1.32987e-06% change) iteration 623: trace = 2.412631282512041 (1.45531e-07% change) Finished solving for bands 1 to 10 after 625 iterations. tmfreqs:, 2, 0.166667, 0, 0, 0.166667, 0.123306, 0.278292, 0.357366, 0.369461, 0.503797, 0.506642, 0.538217, 0.63557, 0.645595, 0.659432 elapsed time for k point: 7 seconds. solve_kpoint (0.333333,0,0): Solving for bands 1 to 10... iteration 47: trace = 2.456265367705591 (0.00232429% change) iteration 95: trace = 2.453856095010106 (0.000308244% change) iteration 143: trace = 2.452780236734204 (0.000390493% change) iteration 191: trace = 2.452350641708687 (0.000376442% change) iteration 239: trace = 2.452176436012592 (4.7535e-05% change) iteration 287: trace = 2.451999412846957 (0.000117307% change) iteration 335: trace = 2.451913788076062 (7.38837e-05% change) iteration 383: trace = 2.451878707860548 (1.25261e-05% change) iteration 431: trace = 2.451838508603264 (5.0289e-05% change) iteration 479: trace = 2.451820046160921 (5.07873e-06% change) iteration 527: trace = 2.451810849908564 (1.46203e-05% change) iteration 575: trace = 2.451801557910042 (3.51662e-06% change) iteration 623: trace = 2.451797067998821 (9.72995e-07% change) iteration 671: trace = 2.451794573454785 (2.94334e-06% change) iteration 719: trace = 2.451792339576409 (1.82711e-06% change) iteration 767: trace = 2.451791365478469 (4.92861e-07% change) iteration 815: trace = 2.451790740341386 (2.47741e-07% change) Finished solving for bands 1 to 10 after 861 iterations. tmfreqs:, 3, 0.333333, 0, 0, 0.333333, 0.194655, 0.331458, 0.361679, 0.377947, 0.502693, 0.506755, 0.527227, 0.633335, 0.644215, 0.653287 elapsed time for k point: 9 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 10... iteration 47: trace = 2.456288742630893 (0.00345923% change) iteration 95: trace = 2.451365972763897 (0.00200275% change) iteration 143: trace = 2.449894079055646 (0.000231736% change) iteration 191: trace = 2.449598173961319 (0.000310806% change) iteration 239: trace = 2.449402803406625 (2.95196e-05% change) iteration 287: trace = 2.449359474643181 (3.92642e-05% change) iteration 335: trace = 2.449332900595863 (1.06782e-05% change) iteration 383: trace = 2.449313623214629 (2.25641e-06% change) iteration 431: trace = 2.449306493132645 (7.78466e-06% change) iteration 479: trace = 2.449301136181495 (3.05047e-06% change) iteration 527: trace = 2.449297365400129 (3.94075e-06% change) iteration 575: trace = 2.449295898592316 (3.92677e-07% change) iteration 623: trace = 2.44929468560951 (5.46719e-07% change) iteration 671: trace = 2.44929380408744 (5.76007e-07% change) Finished solving for bands 1 to 10 after 702 iterations. tmfreqs:, 4, 0.5, 0, 0, 0.5, 0.208799, 0.348978, 0.365278, 0.443856, 0.477902, 0.506845, 0.509076, 0.617527, 0.63971, 0.64689 elapsed time for k point: 7 seconds. solve_kpoint (0.5,0.166667,0): Solving for bands 1 to 10... iteration 47: trace = 2.490528039236961 (0.0101691% change) iteration 95: trace = 2.487626096959473 (0.000915396% change) iteration 143: trace = 2.486421075459687 (0.000118439% change) iteration 191: trace = 2.486076238577247 (0.000222101% change) iteration 239: trace = 2.485975032189544 (3.25627e-05% change) iteration 287: trace = 2.485911997918909 (5.06525e-05% change) iteration 335: trace = 2.485886168197652 (4.0954e-06% change) iteration 383: trace = 2.485876957418068 (9.21818e-06% change) iteration 431: trace = 2.485870359726671 (1.92862e-06% change) iteration 479: trace = 2.485867584514338 (1.04458e-06% change) iteration 527: trace = 2.485866518881493 (1.31452e-06% change) iteration 575: trace = 2.485865677008202 (2.73241e-07% change) Finished solving for bands 1 to 10 after 590 iterations. tmfreqs:, 5, 0.5, 0.166667, 0, 0.527046, 0.210673, 0.351103, 0.364915, 0.453355, 0.500502, 0.507018, 0.510125, 0.616821, 0.642478, 0.646894 elapsed time for k point: 7 seconds. solve_kpoint (0.5,0.333333,0): Solving for bands 1 to 10... iteration 47: trace = 2.586789207646377 (0.0134585% change) iteration 95: trace = 2.580869200784445 (0.00174499% change) iteration 143: trace = 2.579394440346643 (0.000358405% change) iteration 191: trace = 2.579024654673948 (0.00023423% change) iteration 239: trace = 2.578925989393565 (8.20279e-05% change) iteration 287: trace = 2.578894546811516 (1.53119e-05% change) iteration 335: trace = 2.578885357067019 (1.37502e-06% change) iteration 383: trace = 2.578882895280129 (3.45373e-07% change) Finished solving for bands 1 to 10 after 428 iterations. tmfreqs:, 6, 0.5, 0.333333, 0, 0.600925, 0.214081, 0.353217, 0.365001, 0.471977, 0.507165, 0.51079, 0.563894, 0.615052, 0.646178, 0.648357 elapsed time for k point: 4 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 10... iteration 47: trace = 2.662759250009654 (0.00441551% change) iteration 95: trace = 2.655899371132342 (0.00657207% change) iteration 143: trace = 2.653989569444482 (6.10007e-05% change) iteration 191: trace = 2.6538775864414 (1.86093e-05% change) iteration 239: trace = 2.653864476986715 (1.33531e-05% change) iteration 287: trace = 2.653861493380525 (3.98404e-07% change) Finished solving for bands 1 to 10 after 325 iterations. tmfreqs:, 7, 0.5, 0.5, 0, 0.707107, 0.215649, 0.353602, 0.365269, 0.480748, 0.507335, 0.512534, 0.60792, 0.619784, 0.648908, 0.650323 elapsed time for k point: 4 seconds. solve_kpoint (0.333333,0.333333,0): Solving for bands 1 to 10... iteration 47: trace = 2.535453627611631 (0.00752589% change) iteration 95: trace = 2.532879273115523 (0.00176924% change) iteration 143: trace = 2.53235929392004 (4.69106e-05% change) iteration 191: trace = 2.532264301458719 (3.99175e-05% change) iteration 239: trace = 2.532233678212035 (7.92812e-06% change) iteration 287: trace = 2.532228986105302 (2.82927e-06% change) iteration 335: trace = 2.532227311575768 (2.44029e-06% change) Finished solving for bands 1 to 10 after 369 iterations. tmfreqs:, 8, 0.333333, 0.333333, 0, 0.471405, 0.210879, 0.35463, 0.361245, 0.439486, 0.507022, 0.508252, 0.543815, 0.620599, 0.646589, 0.651154 elapsed time for k point: 4 seconds. solve_kpoint (0.166667,0.166667,0): Solving for bands 1 to 10... iteration 47: trace = 2.432297099363501 (0.00794571% change) iteration 95: trace = 2.429805233769304 (0.000503845% change) iteration 143: trace = 2.42927312856859 (5.22331e-05% change) iteration 191: trace = 2.429208777196204 (9.29408e-05% change) iteration 239: trace = 2.429178901003909 (6.36276e-06% change) iteration 287: trace = 2.429168345151783 (6.53923e-06% change) iteration 335: trace = 2.429163639646516 (7.65132e-06% change) iteration 383: trace = 2.429161588384321 (2.04883e-06% change) iteration 431: trace = 2.429160671969816 (4.04872e-07% change) Finished solving for bands 1 to 10 after 443 iterations. tmfreqs:, 9, 0.166667, 0.166667, 0, 0.235702, 0.162353, 0.295875, 0.356214, 0.372161, 0.504258, 0.506735, 0.537355, 0.633231, 0.645916, 0.65717 elapsed time for k point: 4 seconds. solve_kpoint (0,0,0): Solving for bands 2 to 10... iteration 52: trace = 2.394065585248382 (0.000584161% change) iteration 104: trace = 2.39312527294557 (0.000136416% change) iteration 156: trace = 2.393053518219452 (1.54311e-05% change) iteration 209: trace = 2.393045169228044 (4.77415e-06% change) iteration 262: trace = 2.393041755232343 (2.81852e-06% change) Finished solving for bands 2 to 10 after 302 iterations. tmfreqs:, 10, 0, 0, 0, 0, 0, 0.265885, 0.356852, 0.36899, 0.503897, 0.506552, 0.539911, 0.635681, 0.645853, 0.660016 elapsed time for k point: 3 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.21564853029486344 at #(0.5 0.5 0.0) Band 2 range: 0.26588502296209193 at #(0.0 0.0 0.0) to 0.3546302427716933 at #(0.3333333333333333 0.3333333333333333 0.0) Band 3 range: 0.3562142387839336 at #(0.16666666666666666 0.16666666666666666 0.0) to 0.36527833634140316 at #(0.5 0.0 0.0) Band 4 range: 0.3689901413391176 at #(0.0 0.0 0.0) to 0.48074846931402215 at #(0.5 0.5 0.0) Band 5 range: 0.4779015103974145 at #(0.5 0.0 0.0) to 0.5073352898471706 at #(0.5 0.5 0.0) Band 6 range: 0.5065518605077315 at #(0.0 0.0 0.0) to 0.5125343695467781 at #(0.5 0.5 0.0) Band 7 range: 0.509075875868479 at #(0.5 0.0 0.0) to 0.6079200867648407 at #(0.5 0.5 0.0) Band 8 range: 0.6150518976001196 at #(0.5 0.33333333333333337 0.0) to 0.6356807948706655 at #(0.0 0.0 0.0) Band 9 range: 0.6397097795832627 at #(0.5 0.0 0.0) to 0.6489078623439106 at #(0.5 0.5 0.0) Band 10 range: 0.6468904387615456 at #(0.5 0.0 0.0) to 0.6600171497645306 at #(0.0 0.0 0.0) Gap from band 1 (0.21564853029486344) to band 2 (0.26588502296209193), 20.865209631787113% Gap from band 2 (0.3546302427716933) to band 3 (0.3562142387839336), 0.44566597992681783% Gap from band 3 (0.36527833634140316) to band 4 (0.3689901413391176), 1.0110212028819936% Gap from band 7 (0.6079200867648407) to band 8 (0.6150518976001196), 1.1663081291240172% Gap from band 8 (0.6356807948706655) to band 9 (0.6397097795832627), 0.6318040596030299% total elapsed time for run: 1 minute, 2 seconds. done. check-freqs: PASSED ************************************************************************** Test case: 3x3 triangular lattice of rods in air, dipole defect states. ************************************************************************** init-params: initializing eigensolver data Computing 2 bands with 1.000000e-09 tolerance. Target frequency is 0.35 Working in 2 dimensions. Grid size is 80 x 80 x 1. Solving for 2 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (2.59808, 1.5, 0) (2.59808, -1.5, 0) (0, 0, 1) Cell volume = 7.79423 Reciprocal lattice vectors (/ 2 pi): (0.19245, 0.333333, -0) (0.19245, -0.333333, 0) (-0, 0, 1) Geometric objects: cylinder, center = (1,1,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (0,1,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (-1,1,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (1,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (0,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (-1,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (1,-1,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (0,-1,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (-1,-1,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 cylinder, center = (0,0,0) radius 0.33, height 1e+20, axis (0, 0, 1) epsilon = 12, mu = 1 Geometric object tree has depth 4 and 11 object nodes (vs. 10 actual objects) Initializing epsilon function... Allocating fields... 1 k-points: (0,0.5,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-12, mean 2.90162, harm. mean 1.21599, 20.9844% > 1, 17.2875% "fill" Outputting check-epsilon... solve_kpoint (0,0.5,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2 Solving for bands 1 to 2... iteration 41: trace = 0.008553114807372784 (0.588371% change) iteration 82: trace = 0.007244270327512756 (1.12314% change) iteration 123: trace = 0.003166791376613613 (0.576995% change) iteration 164: trace = 0.001155720921248882 (1.22483% change) iteration 205: trace = 0.0002145018227738853 (2.51759% change) iteration 246: trace = 0.0001486029680366585 (0.00366864% change) iteration 287: trace = 0.0001480765544360727 (0.0010779% change) iteration 328: trace = 0.0001480693041788166 (1.04606e-05% change) Finished solving for bands 1 to 2 after 338 iterations. tmfreqs:, 1, 0, 0.5, 0, 0.19245, 0.33627, 0.338821 elapsed time for k point: 4 seconds. total elapsed time for run: 4 seconds. done. check-freqs: PASSED ************************************************************************** Test case: fcc lattice of air spheres in dielectric. ************************************************************************** init-params: initializing eigensolver data Computing 10 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 10 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (0, 0.707107, 0.707107) (0.707107, 0, 0.707107) (0.707107, 0.707107, 0) Cell volume = 0.707107 Reciprocal lattice vectors (/ 2 pi): (-0.707107, 0.707107, 0.707107) (0.707107, -0.707107, 0.707107) (0.707107, 0.707107, -0.707107) Geometric objects: sphere, center = (0,0,0) radius 0.5 epsilon = 1, mu = 1 Geometric object tree has depth 4 and 64 object nodes (vs. 1 actual objects) Initializing epsilon function... Allocating fields... 13 k-points: (0,0.5,0.5) (0,0.5625,0.4375) (0,0.625,0.375) (0,0.5625,0.1875) (0,0.5,0) (0,0.25,0) (0,0,0) (0,0.25,0.25) (0,0.5,0.5) (0.125,0.625,0.5) (0.25,0.75,0.5) (0.3125,0.75,0.4375) (0.375,0.75,0.375) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-11.56, mean 3.72661, harm. mean 1.46352, 45.5811% > 1, 25.8202% "fill" Outputting check-epsilon... solve_kpoint (0,0.5,0.5): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3, band 4, band 5, band 6, band 7, band 8, band 9, band 10 Solving for bands 1 to 10... iteration 29: trace = 2.417954201822663 (0.000683136% change) Finished solving for bands 1 to 10 after 50 iterations. freqs:, 1, 0, 0.5, 0.5, 0.707107, 0.370307, 0.372085, 0.38252, 0.3836, 0.493989, 0.512361, 0.522307, 0.523822, 0.595103, 0.664082 elapsed time for k point: 1 seconds. solve_kpoint (0,0.5625,0.4375): Solving for bands 1 to 10... iteration 29: trace = 2.40671637964164 (1.46449e-07% change) Finished solving for bands 1 to 10 after 30 iterations. freqs:, 2, 0, 0.5625, 0.4375, 0.71807, 0.368359, 0.377487, 0.384992, 0.387438, 0.471895, 0.506546, 0.523725, 0.531091, 0.610293, 0.649714 elapsed time for k point: 1 seconds. solve_kpoint (0,0.625,0.375): Solving for bands 1 to 10... Finished solving for bands 1 to 10 after 23 iterations. freqs:, 3, 0, 0.625, 0.375, 0.75, 0.357533, 0.38095, 0.392789, 0.401454, 0.43935, 0.495158, 0.527478, 0.540892, 0.635515, 0.644621 elapsed time for k point: 0 seconds. solve_kpoint (0,0.5625,0.1875): Solving for bands 1 to 10... iteration 29: trace = 2.408973132090197 (2.28678e-07% change) Finished solving for bands 1 to 10 after 31 iterations. freqs:, 4, 0, 0.5625, 0.1875, 0.649519, 0.323742, 0.331653, 0.39821, 0.401206, 0.462868, 0.514292, 0.533282, 0.546116, 0.631046, 0.644236 elapsed time for k point: 1 seconds. solve_kpoint (0,0.5,0): Solving for bands 1 to 10... Finished solving for bands 1 to 10 after 18 iterations. freqs:, 5, 0, 0.5, 0, 0.612372, 0.307529, 0.308891, 0.387977, 0.389913, 0.491606, 0.536329, 0.536613, 0.538985, 0.624681, 0.629124 elapsed time for k point: 0 seconds. solve_kpoint (0,0.25,0): Solving for bands 1 to 10... Finished solving for bands 1 to 10 after 27 iterations. freqs:, 6, 0, 0.25, 0, 0.306186, 0.179755, 0.180421, 0.473402, 0.475968, 0.50346, 0.53577, 0.538144, 0.540345, 0.624073, 0.627676 elapsed time for k point: 1 seconds. solve_kpoint (0,0,0): Solving for bands 3 to 10... iteration 34: trace = 2.454760608527768 (4.67136e-07% change) Finished solving for bands 3 to 10 after 39 iterations. freqs:, 7, 0, 0, 0, 0, 0, 0, 0.518283, 0.521124, 0.521132, 0.543942, 0.543952, 0.546505, 0.61287, 0.61397 elapsed time for k point: 0 seconds. solve_kpoint (0,0.25,0.25): Solving for bands 1 to 10... iteration 29: trace = 2.428350942539034 (0.00171941% change) Finished solving for bands 1 to 10 after 57 iterations. freqs:, 8, 0, 0.25, 0.25, 0.353553, 0.207258, 0.207841, 0.473224, 0.475268, 0.506873, 0.526874, 0.530366, 0.532023, 0.604689, 0.653955 elapsed time for k point: 1 seconds. solve_kpoint (0,0.5,0.5): Solving for bands 1 to 10... iteration 29: trace = 2.418551447823193 (0.00546475% change) iteration 58: trace = 2.417942476764479 (4.899e-05% change) Finished solving for bands 1 to 10 after 83 iterations. freqs:, 9, 0, 0.5, 0.5, 0.707107, 0.370307, 0.372085, 0.38252, 0.3836, 0.493989, 0.512361, 0.522307, 0.523822, 0.595103, 0.664085 elapsed time for k point: 2 seconds. solve_kpoint (0.125,0.625,0.5): Solving for bands 1 to 10... Finished solving for bands 1 to 10 after 27 iterations. freqs:, 10, 0.125, 0.625, 0.5, 0.728869, 0.372309, 0.377154, 0.385968, 0.392562, 0.463569, 0.502026, 0.505399, 0.549256, 0.621502, 0.639203 elapsed time for k point: 0 seconds. solve_kpoint (0.25,0.75,0.5): Solving for bands 1 to 10... iteration 29: trace = 2.42269728944998 (8.15106e-05% change) Finished solving for bands 1 to 10 after 45 iterations. freqs:, 11, 0.25, 0.75, 0.5, 0.790569, 0.373709, 0.386404, 0.386499, 0.410208, 0.435229, 0.490809, 0.492518, 0.566583, 0.627971, 0.654078 elapsed time for k point: 1 seconds. solve_kpoint (0.3125,0.75,0.4375): Solving for bands 1 to 10... iteration 29: trace = 2.419551534140421 (2.66136e-05% change) Finished solving for bands 1 to 10 after 40 iterations. freqs:, 12, 0.3125, 0.75, 0.4375, 0.760345, 0.364261, 0.382754, 0.390011, 0.405967, 0.438258, 0.493602, 0.505736, 0.559219, 0.634896, 0.645093 elapsed time for k point: 1 seconds. solve_kpoint (0.375,0.75,0.375): Solving for bands 1 to 10... Finished solving for bands 1 to 10 after 25 iterations. freqs:, 13, 0.375, 0.75, 0.375, 0.75, 0.359122, 0.380258, 0.391276, 0.402681, 0.438005, 0.49516, 0.529122, 0.541679, 0.637583, 0.645624 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.3737093804558339 at #(0.25 0.75 0.5) Band 2 range: 0.0 at #(0.0 0.0 0.0) to 0.3864041214981431 at #(0.25 0.75 0.5) Band 3 range: 0.3825201383383972 at #(0.0 0.5 0.5) to 0.5182834488056682 at #(0.0 0.0 0.0) Band 4 range: 0.3836003495641557 at #(0.0 0.5 0.5) to 0.5211243460580532 at #(0.0 0.0 0.0) Band 5 range: 0.43522923853967016 at #(0.25 0.75 0.5) to 0.5211324741377804 at #(0.0 0.0 0.0) Band 6 range: 0.4908086394112832 at #(0.25 0.75 0.5) to 0.5439419096015916 at #(0.0 0.0 0.0) Band 7 range: 0.4925183484876657 at #(0.25 0.75 0.5) to 0.5439517867817077 at #(0.0 0.0 0.0) Band 8 range: 0.5238217224838181 at #(0.0 0.5 0.5) to 0.5665833313384158 at #(0.25 0.75 0.5) Band 9 range: 0.5951030360813976 at #(0.0 0.5 0.5) to 0.6375830839471321 at #(0.375 0.75 0.375) Band 10 range: 0.6139704112371203 at #(0.0 0.0 0.0) to 0.6640850272250423 at #(0.0 0.5 0.5) Gap from band 8 (0.5665833313384158) to band 9 (0.5951030360813976), 4.910052410501482% total elapsed time for run: 9 seconds. done. check-freqs: PASSED ************************************************************************** Test case: simple cubic lattice with anisotropic dielectric. ************************************************************************** init-params: initializing eigensolver data Computing 3 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 3 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: block, center = (0,0,0) size (0.313,0.313,1) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,1,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (1,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) epsilon = 12, mu = 1 Geometric object tree has depth 7 and 16 object nodes (vs. 4 actual objects) Initializing epsilon function... Allocating fields... 4 k-points: (0,0,0) (0.5,0,0) (0.5,0.5,0) (0.5,0.5,0.5) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-12, mean 1.51138, harm. mean 1.14094, 34.9121% > 1, 4.64894% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3 Solving for bands 3 to 3... Finished solving for bands 3 to 3 after 41 iterations. freqs:, 1, 0, 0, 0, 0, 0, 0, 0.546635 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 3... Finished solving for bands 1 to 3 after 30 iterations. freqs:, 2, 0.5, 0, 0, 0.5, 0.259951, 0.259951, 0.444658 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 3... Finished solving for bands 1 to 3 after 44 iterations. freqs:, 3, 0.5, 0.5, 0, 0.707107, 0.300692, 0.345674, 0.497693 elapsed time for k point: 1 seconds. solve_kpoint (0.5,0.5,0.5): Solving for bands 1 to 3... Finished solving for bands 1 to 3 after 36 iterations. freqs:, 4, 0.5, 0.5, 0.5, 0.866025, 0.362782, 0.362782, 0.502237 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.3627824325770781 at #(0.5 0.5 0.5) Band 2 range: 0.0 at #(0.0 0.0 0.0) to 0.36278243263472065 at #(0.5 0.5 0.5) Band 3 range: 0.44465801815354183 at #(0.5 0.0 0.0) to 0.5466349526242761 at #(0.0 0.0 0.0) Gap from band 2 (0.36278243263472065) to band 3 (0.44465801815354183), 20.280278363287415% total elapsed time for run: 1 seconds. done. check-freqs: PASSED ******************************************************************************* Test case: group velocity in simple cubic lattice with anisotropic dielectric. ******************************************************************************* init-params: initializing eigensolver data Computing 3 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 3 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: block, center = (0,0,0) size (0.313,0.313,1) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,1,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (1,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) epsilon = 12, mu = 1 Geometric object tree has depth 7 and 16 object nodes (vs. 4 actual objects) Initializing epsilon function... 1 k-points: (0.12,0.34,0.41) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-12, mean 1.51138, harm. mean 1.14094, 34.9121% > 1, 4.64894% "fill" Outputting check-epsilon... solve_kpoint (0.12,0.34,0.41): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3 Solving for bands 1 to 3... Finished solving for bands 1 to 3 after 54 iterations. freqs:, 1, 0.12, 0.34, 0.41, 0.545985, 0.291848, 0.315613, 0.491642 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED ************************************************************************** Test case: symmetry transformed overlaps & inversion/mirror eigenvalues. ************************************************************************** init-params: initializing eigensolver data Computing 6 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 6 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: sphere, center = (0,0,0) radius 0.25 epsilon = 13, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Allocating fields... 1 k-points: (0.5,0.5,0.5) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-13, mean 1.78533, harm. mean 1.08703, 11.2549% > 1, 6.54442% "fill" Outputting check-epsilon... solve_kpoint (0.5,0.5,0.5): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3, band 4, band 5, band 6 Solving for bands 1 to 6... Finished solving for bands 1 to 6 after 22 iterations. freqs:, 1, 0.5, 0.5, 0.5, 0.866025, 0.529861, 0.529881, 0.529888, 0.638532, 0.638544, 0.638573 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED init-params: initializing eigensolver data Computing 6 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 6 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: sphere, center = (0,0,0) radius 0.25 epsilon = 13, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... 1 k-points: (0,0,0) Solving for band polarization: zeven. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-13, mean 1.78533, harm. mean 1.08703, 11.2549% > 1, 6.54442% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): zevenfreqs:, k index, k1, k2, k3, kmag/2pi, zeven band 1, zeven band 2, zeven band 3, zeven band 4, zeven band 5, zeven band 6 Solving for bands 2 to 6... Finished solving for bands 2 to 6 after 35 iterations. zevenfreqs:, 1, 0, 0, 0, 0, 0, 0.552074, 0.713312, 0.713339, 0.772995, 0.773112 elapsed time for k point: 1 seconds. total elapsed time for run: 1 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED init-params: initializing eigensolver data Computing 6 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 6 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: sphere, center = (0,0,0) radius 0.25 epsilon = 13, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... 1 k-points: (0,0,0) Solving for band polarization: zodd. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-13, mean 1.78533, harm. mean 1.08703, 11.2549% > 1, 6.54442% "fill" Outputting check-epsilon... solve_kpoint (0,0,0): zoddfreqs:, k index, k1, k2, k3, kmag/2pi, zodd band 1, zodd band 2, zodd band 3, zodd band 4, zodd band 5, zodd band 6 Solving for bands 2 to 6... Finished solving for bands 2 to 6 after 33 iterations. zoddfreqs:, 1, 0, 0, 0, 0, 0, 0.552078, 0.552093, 0.71276, 0.770963, 0.785298 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED eigensolver iterations for 88 k-points: 8-2475/2, mean = 92.46969696969697, median = 20.0 mean flops per iteration = 4818549.384646895 mean time per iteration = 0.009708340160576766 s Relative error ranged from 0.0 to 1.9668302201043006e-4, with a mean of 3.8456439427920355e-6 Absolute error ranged to 1.9322526375764593e-4, with a mean of 2.728014661410288e-6 PASSED all tests. ./mpb force-mu?=true ../examples/check.ctl command-line param: force-mu?=true ************************************************************************** Test case: 1d quarter-wave stack. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-13 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 1e+20, height 0.25, axis (1, 0, 0) epsilon = 9, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 6 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-9, mean 3, harm. mean 1.32353, 28.125% > 1, 25% "fill" Outputting check-epsilon... Warning! Library version information error. The HDF5 library version information are not consistent in its source code. This is NOT a fatal error but should be corrected. Setting the environment variable 'HDF5_DISABLE_VERSION_CHECK' to a value of 1 will suppress this warning. Library version information are: H5_VERS_MAJOR=1, H5_VERS_MINOR=14, H5_VERS_RELEASE=4, H5_VERS_SUBRELEASE=2, H5_VERS_INFO=HDF5 library version: 1.14.4 mu: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-mu... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 30 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.666384, 0.666668, 1.33099, 1.33336, 1.99162, 2.00024, 2.64509 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 74 iterations. tmfreqs:, 2, 0.1, 0, 0, 0.1, 0.0574931, 0.608788, 0.724374, 1.2736, 1.39098, 1.93585, 2.05634, 2.59377 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tmfreqs:, 3, 0.2, 0, 0, 0.2, 0.113352, 0.552761, 0.780756, 1.21673, 1.44856, 1.87756, 2.11569, 2.53392 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tmfreqs:, 4, 0.3, 0, 0, 0.3, 0.164802, 0.501202, 0.832987, 1.16418, 1.5025, 1.82314, 2.17225, 2.4769 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tmfreqs:, 5, 0.4, 0, 0, 0.4, 0.205537, 0.460405, 0.874781, 1.1222, 1.54664, 1.77873, 2.22033, 2.42855 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 6, 0.5, 0, 0, 0.5, 0.222451, 0.443471, 0.892368, 1.10456, 1.56579, 1.75949, 2.24248, 2.40631 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.2224509931919693 at #(0.5 0.0 0.0) Band 2 range: 0.4434707181537216 at #(0.5 0.0 0.0) to 0.6663842825289381 at #(0.0 0.0 0.0) Band 3 range: 0.6666675180320902 at #(0.0 0.0 0.0) to 0.8923678144024801 at #(0.5 0.0 0.0) Band 4 range: 1.1045580524889702 at #(0.5 0.0 0.0) to 1.3309933766567883 at #(0.0 0.0 0.0) Band 5 range: 1.3333608767284177 at #(0.0 0.0 0.0) to 1.5657937369267076 at #(0.5 0.0 0.0) Band 6 range: 1.7594893273125114 at #(0.5 0.0 0.0) to 1.9916198017302806 at #(0.0 0.0 0.0) Band 7 range: 2.000243026425904 at #(0.0 0.0 0.0) to 2.242480431008525 at #(0.5 0.0 0.0) Band 8 range: 2.406311900435365 at #(0.5 0.0 0.0) to 2.645093785208364 at #(0.0 0.0 0.0) Gap from band 1 (0.2224509931919693) to band 2 (0.4434707181537216), 66.38009279352579% Gap from band 2 (0.6663842825289381) to band 3 (0.6666675180320902), 0.042494298125987505% Gap from band 3 (0.8923678144024801) to band 4 (1.1045580524889702), 21.25168906913903% Gap from band 4 (1.3309933766567883) to band 5 (1.3333608767284177), 0.177716613218487% Gap from band 5 (1.5657937369267076) to band 6 (1.7594893273125114), 11.649870801607609% Gap from band 6 (1.9916198017302806) to band 7 (2.000243026425904), 0.43204013097846233% Gap from band 7 (2.242480431008525) to band 8 (2.406311900435365), 7.048345365685758% total elapsed time for run: 0 seconds. done. check-freqs: PASSED init-params: initializing eigensolver data Computing 8 bands with 1.000000e-13 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 1e+20, height 0.25, axis (1, 0, 0) epsilon = 9, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... 6 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) Solving for band polarization: te. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-9, mean 3, harm. mean 1.32353, 28.125% > 1, 25% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-mu... solve_kpoint (0,0,0): tefreqs:, k index, k1, k2, k3, kmag/2pi, te band 1, te band 2, te band 3, te band 4, te band 5, te band 6, te band 7, te band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 31 iterations. tefreqs:, 1, 0, 0, 0, 0, 0, 0.666384, 0.666668, 1.33099, 1.33336, 1.99162, 2.00024, 2.64509 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 74 iterations. tefreqs:, 2, 0.1, 0, 0, 0.1, 0.0574931, 0.608788, 0.724374, 1.2736, 1.39098, 1.93585, 2.05634, 2.59377 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tefreqs:, 3, 0.2, 0, 0, 0.2, 0.113352, 0.552761, 0.780756, 1.21673, 1.44856, 1.87756, 2.11569, 2.53392 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tefreqs:, 4, 0.3, 0, 0, 0.3, 0.164802, 0.501202, 0.832987, 1.16418, 1.5025, 1.82314, 2.17225, 2.4769 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 11 iterations. tefreqs:, 5, 0.4, 0, 0, 0.4, 0.205537, 0.460405, 0.874781, 1.1222, 1.54664, 1.77873, 2.22033, 2.42855 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tefreqs:, 6, 0.5, 0, 0, 0.5, 0.222451, 0.443471, 0.892368, 1.10456, 1.56579, 1.75949, 2.24248, 2.40631 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.22245099319196948 at #(0.5 0.0 0.0) Band 2 range: 0.4434707181537209 at #(0.5 0.0 0.0) to 0.6663842825288815 at #(0.0 0.0 0.0) Band 3 range: 0.6666675180316924 at #(0.0 0.0 0.0) to 0.892367814402479 at #(0.5 0.0 0.0) Band 4 range: 1.1045580524889702 at #(0.5 0.0 0.0) to 1.3309933766567785 at #(0.0 0.0 0.0) Band 5 range: 1.333360876728381 at #(0.0 0.0 0.0) to 1.56579373692671 at #(0.5 0.0 0.0) Band 6 range: 1.75948932731251 at #(0.5 0.0 0.0) to 1.9916198017302529 at #(0.0 0.0 0.0) Band 7 range: 2.000243026425654 at #(0.0 0.0 0.0) to 2.242480431008525 at #(0.5 0.0 0.0) Band 8 range: 2.406311900435367 at #(0.5 0.0 0.0) to 2.645093785208233 at #(0.0 0.0 0.0) Gap from band 1 (0.22245099319196948) to band 2 (0.4434707181537209), 66.38009279352559% Gap from band 2 (0.6663842825288815) to band 3 (0.6666675180316924), 0.042494298074815445% Gap from band 3 (0.892367814402479) to band 4 (1.1045580524889702), 21.25168906913915% Gap from band 4 (1.3309933766567785) to band 5 (1.333360876728381), 0.1777166132164733% Gap from band 5 (1.56579373692671) to band 6 (1.75948932731251), 11.649870801607376% Gap from band 6 (1.9916198017302529) to band 7 (2.000243026425654), 0.43204013096735644% Gap from band 7 (2.242480431008525) to band 8 (2.406311900435367), 7.048345365685832% total elapsed time for run: 0 seconds. done. check-freqs: PASSED ************************************************************************** Test case: 1d sinusoidal Bragg mirrors. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-13 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 1e+20, height 0.25, axis (1, 0, 0) epsilon = 9, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... 11 k-points: (0,0,0) (0.05,0,0) (0.1,0,0) (0.15,0,0) (0.2,0,0) (0.25,0,0) (0.3,0,0) (0.35,0,0) (0.4,0,0) (0.45,0,0) (0.5,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1.00285-9, mean 4.66295, harm. mean 2.61927, 100% > 1, 45.7676% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-mu... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 21 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.460648, 0.542428, 0.968587, 1.01617, 1.48337, 1.48387, 1.96764 elapsed time for k point: 0 seconds. solve_kpoint (0.05,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 133 iterations. tmfreqs:, 2, 0.05, 0, 0, 0.05, 0.0231425, 0.454294, 0.548894, 0.95836, 1.02642, 1.45914, 1.50811, 1.94949 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tmfreqs:, 3, 0.1, 0, 0, 0.1, 0.0462091, 0.439084, 0.564453, 0.938267, 1.04658, 1.43467, 1.53261, 1.92548 elapsed time for k point: 0 seconds. solve_kpoint (0.15,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 4, 0.15, 0, 0, 0.15, 0.0691102, 0.420016, 0.584145, 0.91575, 1.06922, 1.41023, 1.55711, 1.9011 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 5, 0.2, 0, 0, 0.2, 0.0917239, 0.399481, 0.605653, 0.892484, 1.09267, 1.38581, 1.58161, 1.87665 elapsed time for k point: 0 seconds. solve_kpoint (0.25,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 6, 0.25, 0, 0, 0.25, 0.113863, 0.378568, 0.628026, 0.868958, 1.11645, 1.36143, 1.6061, 1.85216 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 7, 0.3, 0, 0, 0.3, 0.135213, 0.357979, 0.650805, 0.845399, 1.14036, 1.33713, 1.63058, 1.82769 elapsed time for k point: 0 seconds. solve_kpoint (0.35,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 8, 0.35, 0, 0, 0.35, 0.155194, 0.338479, 0.673671, 0.822003, 1.16428, 1.31295, 1.65502, 1.80325 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 9, 0.4, 0, 0, 0.4, 0.17268, 0.32129, 0.696193, 0.799138, 1.188, 1.28906, 1.67935, 1.77891 elapsed time for k point: 0 seconds. solve_kpoint (0.45,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 8 iterations. tmfreqs:, 10, 0.45, 0, 0, 0.45, 0.185503, 0.308628, 0.717034, 0.778102, 1.21076, 1.26621, 1.70326, 1.755 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 8 iterations. tmfreqs:, 11, 0.5, 0, 0, 0.5, 0.190416, 0.303766, 0.72859, 0.766483, 1.2253, 1.25164, 1.721, 1.73726 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.19041596916806988 at #(0.5 0.0 0.0) Band 2 range: 0.30376617480858914 at #(0.5 0.0 0.0) to 0.4606482752180817 at #(0.0 0.0 0.0) Band 3 range: 0.5424277685173758 at #(0.0 0.0 0.0) to 0.7285900510563755 at #(0.5 0.0 0.0) Band 4 range: 0.766483304994124 at #(0.5 0.0 0.0) to 0.9685865863610712 at #(0.0 0.0 0.0) Band 5 range: 1.0161706920388154 at #(0.0 0.0 0.0) to 1.2253024188808173 at #(0.5 0.0 0.0) Band 6 range: 1.2516393338141791 at #(0.5 0.0 0.0) to 1.483373337947617 at #(0.0 0.0 0.0) Band 7 range: 1.4838659375384982 at #(0.0 0.0 0.0) to 1.7209986559263166 at #(0.5 0.0 0.0) Band 8 range: 1.7372592396295958 at #(0.5 0.0 0.0) to 1.9676376863422218 at #(0.0 0.0 0.0) Gap from band 1 (0.19041596916806988) to band 2 (0.30376617480858914), 45.873857249635044% Gap from band 2 (0.4606482752180817) to band 3 (0.5424277685173758), 16.305741485909103% Gap from band 3 (0.7285900510563755) to band 4 (0.766483304994124), 5.069082902774775% Gap from band 4 (0.9685865863610712) to band 5 (1.0161706920388154), 4.794954647160336% Gap from band 5 (1.2253024188808173) to band 6 (1.2516393338141791), 2.1265671592564845% Gap from band 6 (1.483373337947617) to band 7 (1.4838659375384982), 0.033202552618571884% Gap from band 7 (1.7209986559263166) to band 8 (1.7372592396295958), 0.9403916188075574% total elapsed time for run: 0 seconds. done. check-freqs: PASSED ************************************************************************** Test case: get-dominant-planewave. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-09 tolerance. Working in 1 dimensions. Grid size is 32 x 1 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: Geometric object tree has depth 1 and 0 object nodes (vs. 0 actual objects) Initializing epsilon function... Initializing mu function... 1 k-points: (0.4,0,0) Solving for band polarization: te. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-mu... solve_kpoint (0.4,0,0): tefreqs:, k index, k1, k2, k3, kmag/2pi, te band 1, te band 2, te band 3, te band 4, te band 5, te band 6, te band 7, te band 8 Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 12 iterations. tefreqs:, 1, 0.4, 0, 0, 0.4, 0.4, 0.6, 1.4, 1.6, 2.4, 2.6, 3.4, 3.6 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED ************************************************************************** Test case: Square lattice of dielectric rods in air. ************************************************************************** init-params: initializing eigensolver data Computing 8 bands with 1.000000e-09 tolerance. Working in 2 dimensions. Grid size is 32 x 32 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 11.56, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 16 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) (0.5,0.1,0) (0.5,0.2,0) (0.5,0.3,0) (0.5,0.4,0) (0.5,0.5,0) (0.4,0.4,0) (0.3,0.3,0) (0.2,0.2,0) (0.1,0.1,0) (0,0,0) Solving for band polarization: te. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-11.56, mean 2.327, harm. mean 1.1441, 14.5508% > 1, 12.5663% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 0% "fill" Outputting check-mu... solve_kpoint (0,0,0): tefreqs:, k index, k1, k2, k3, kmag/2pi, te band 1, te band 2, te band 3, te band 4, te band 5, te band 6, te band 7, te band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 42 iterations. tefreqs:, 1, 0, 0, 0, 0, 0, 0.561945, 0.780843, 0.780846, 0.924372, 1.00804, 1.00804, 1.09859 elapsed time for k point: 1 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 19 iterations. tefreqs:, 2, 0.1, 0, 0, 0.1, 0.0897998, 0.56021, 0.767785, 0.782438, 0.912603, 1.00889, 1.00949, 1.12115 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... iteration 58: trace = 5.672313574659233 (0.000251596% change) Finished solving for bands 1 to 8 after 92 iterations. tefreqs:, 3, 0.2, 0, 0, 0.2, 0.178853, 0.553301, 0.732522, 0.786672, 0.890463, 1.01386, 1.02078, 1.11301 elapsed time for k point: 1 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 15 iterations. tefreqs:, 4, 0.3, 0, 0, 0.3, 0.266124, 0.534865, 0.689376, 0.79205, 0.872926, 1.0209, 1.04285, 1.10753 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 20 iterations. tefreqs:, 5, 0.4, 0, 0, 0.4, 0.349588, 0.49478, 0.658508, 0.796524, 0.862684, 1.02898, 1.07044, 1.10003 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 34 iterations. tefreqs:, 6, 0.5, 0, 0, 0.5, 0.413346, 0.444623, 0.648672, 0.798265, 0.859327, 1.03311, 1.0958, 1.09742 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 19 iterations. tefreqs:, 7, 0.5, 0.1, 0, 0.509902, 0.424298, 0.448983, 0.644549, 0.802551, 0.854853, 0.98984, 1.05831, 1.11679 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 15 iterations. tefreqs:, 8, 0.5, 0.2, 0, 0.538516, 0.455354, 0.461161, 0.63323, 0.814782, 0.834251, 0.934558, 1.01274, 1.12367 elapsed time for k point: 1 seconds. solve_kpoint (0.5,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 14 iterations. tefreqs:, 9, 0.5, 0.3, 0, 0.583095, 0.478427, 0.501912, 0.61745, 0.784489, 0.83371, 0.906541, 0.967734, 1.12636 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 14 iterations. tefreqs:, 10, 0.5, 0.4, 0, 0.640312, 0.495605, 0.556867, 0.601739, 0.720584, 0.858432, 0.897772, 0.926611, 1.12762 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tefreqs:, 11, 0.5, 0.5, 0, 0.707107, 0.503606, 0.594344, 0.594357, 0.679389, 0.883665, 0.895782, 0.895787, 1.12801 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tefreqs:, 12, 0.4, 0.4, 0, 0.565685, 0.474671, 0.549917, 0.608032, 0.745035, 0.848355, 0.895854, 0.945891, 1.12708 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 15 iterations. tefreqs:, 13, 0.3, 0.3, 0, 0.424264, 0.373254, 0.543225, 0.646251, 0.817389, 0.830457, 0.896516, 1.0176, 1.12198 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 20 iterations. tefreqs:, 14, 0.2, 0.2, 0, 0.282843, 0.252369, 0.551073, 0.700804, 0.797552, 0.899586, 0.90339, 1.08791, 1.10099 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 24 iterations. tefreqs:, 15, 0.1, 0.1, 0, 0.141421, 0.12694, 0.558854, 0.755651, 0.785047, 0.909884, 0.968813, 1.04814, 1.11332 elapsed time for k point: 1 seconds. solve_kpoint (0,0,0): Solving for bands 2 to 8... iteration 67: trace = 5.62886428229297 (5.30349e-07% change) Finished solving for bands 2 to 8 after 73 iterations. tefreqs:, 16, 0, 0, 0, 0, 0, 0.561945, 0.780843, 0.780846, 0.924372, 1.00804, 1.00804, 1.09859 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.5036058015317004 at #(0.5 0.5 0.0) Band 2 range: 0.44462291351553007 at #(0.5 0.0 0.0) to 0.5943440246130539 at #(0.5 0.5 0.0) Band 3 range: 0.5943566395317795 at #(0.5 0.5 0.0) to 0.7808428124011788 at #(0.0 0.0 0.0) Band 4 range: 0.6793887413186156 at #(0.5 0.5 0.0) to 0.8173893720817477 at #(0.30000000000000004 0.30000000000000004 0.0) Band 5 range: 0.8304573822718015 at #(0.30000000000000004 0.30000000000000004 0.0) to 0.9243716831951038 at #(0.0 0.0 0.0) Band 6 range: 0.8957817684697056 at #(0.5 0.5 0.0) to 1.03311041395003 at #(0.5 0.0 0.0) Band 7 range: 0.895786874556171 at #(0.5 0.5 0.0) to 1.0958021498671808 at #(0.5 0.0 0.0) Band 8 range: 1.0974168097704737 at #(0.5 0.0 0.0) to 1.1280127657657417 at #(0.5 0.5 0.0) Gap from band 2 (0.5943440246130539) to band 3 (0.5943566395317795), 0.00212247188987529% Gap from band 4 (0.8173893720817477) to band 5 (0.8304573822718015), 1.5860710536982505% Gap from band 7 (1.0958021498671808) to band 8 (1.0974168097704737), 0.14724110387589062% total elapsed time for run: 4 seconds. done. check-freqs: PASSED init-params: initializing eigensolver data Computing 8 bands with 1.000000e-09 tolerance. Working in 2 dimensions. Grid size is 32 x 32 x 1. Solving for 8 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 0.2, height 1e+20, axis (0, 0, 1) epsilon = 11.56, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... 16 k-points: (0,0,0) (0.1,0,0) (0.2,0,0) (0.3,0,0) (0.4,0,0) (0.5,0,0) (0.5,0.1,0) (0.5,0.2,0) (0.5,0.3,0) (0.5,0.4,0) (0.5,0.5,0) (0.4,0.4,0) (0.3,0.3,0) (0.2,0.2,0) (0.1,0.1,0) (0,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-11.56, mean 2.327, harm. mean 1.1441, 14.5508% > 1, 12.5663% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 0% "fill" Outputting check-mu... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8 Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 20 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.550336, 0.561338, 0.56134, 0.822948, 0.868842, 0.965325, 1.08938 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 27 iterations. tmfreqs:, 2, 0.1, 0, 0, 0.1, 0.0651416, 0.525004, 0.561885, 0.586307, 0.823536, 0.867346, 0.954632, 1.05688 elapsed time for k point: 1 seconds. solve_kpoint (0.2,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 3, 0.2, 0, 0, 0.2, 0.127665, 0.49365, 0.563323, 0.617312, 0.822737, 0.86353, 0.924306, 1.03882 elapsed time for k point: 0 seconds. solve_kpoint (0.3,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 4, 0.3, 0, 0, 0.3, 0.184047, 0.461592, 0.565122, 0.651397, 0.810839, 0.858984, 0.892949, 1.03589 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 5, 0.4, 0, 0, 0.4, 0.227778, 0.433361, 0.566596, 0.689045, 0.778792, 0.855425, 0.879398, 1.03874 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 6, 0.5, 0, 0, 0.5, 0.245809, 0.420657, 0.567163, 0.720092, 0.747203, 0.85409, 0.877012, 1.0408 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 8 iterations. tmfreqs:, 7, 0.5, 0.1, 0, 0.509902, 0.249299, 0.427308, 0.560221, 0.718025, 0.756122, 0.855013, 0.877106, 1.02917 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 8, 0.5, 0.2, 0, 0.538516, 0.258693, 0.445541, 0.543385, 0.711698, 0.77935, 0.858136, 0.877357, 1.00092 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 9, 0.5, 0.3, 0, 0.583095, 0.270963, 0.470322, 0.524053, 0.701396, 0.810963, 0.864394, 0.877683, 0.965108 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 10, 0.5, 0.4, 0, 0.640312, 0.281614, 0.493207, 0.508823, 0.689961, 0.846785, 0.874595, 0.878068, 0.926581 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 12 iterations. tmfreqs:, 11, 0.5, 0.5, 0, 0.707107, 0.285906, 0.502981, 0.502983, 0.684476, 0.874359, 0.883317, 0.883317, 0.892993 elapsed time for k point: 0 seconds. solve_kpoint (0.4,0.4,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 13 iterations. tmfreqs:, 12, 0.4, 0.4, 0, 0.565685, 0.276089, 0.491352, 0.508683, 0.69258, 0.839723, 0.856431, 0.907219, 0.907347 elapsed time for k point: 1 seconds. solve_kpoint (0.3,0.3,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 13, 0.3, 0.3, 0, 0.424264, 0.240239, 0.47923, 0.523499, 0.685362, 0.829266, 0.840451, 0.910791, 0.941595 elapsed time for k point: 0 seconds. solve_kpoint (0.2,0.2,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 9 iterations. tmfreqs:, 14, 0.2, 0.2, 0, 0.282843, 0.17524, 0.488533, 0.541561, 0.64751, 0.83002, 0.850443, 0.922657, 0.983925 elapsed time for k point: 0 seconds. solve_kpoint (0.1,0.1,0): Solving for bands 1 to 8... Finished solving for bands 1 to 8 after 10 iterations. tmfreqs:, 15, 0.1, 0.1, 0, 0.141421, 0.0915259, 0.516393, 0.555924, 0.601211, 0.824561, 0.86529, 0.948412, 1.03526 elapsed time for k point: 0 seconds. solve_kpoint (0,0,0): Solving for bands 2 to 8... Finished solving for bands 2 to 8 after 22 iterations. tmfreqs:, 16, 0, 0, 0, 0, 0, 0.550336, 0.561338, 0.56134, 0.822948, 0.868842, 0.965325, 1.08938 elapsed time for k point: 0 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.28590577912716103 at #(0.5 0.5 0.0) Band 2 range: 0.4206573384061862 at #(0.5 0.0 0.0) to 0.5503360755016922 at #(0.0 0.0 0.0) Band 3 range: 0.5029830978387361 at #(0.5 0.5 0.0) to 0.5671632878212806 at #(0.5 0.0 0.0) Band 4 range: 0.5613397939938064 at #(0.0 0.0 0.0) to 0.7200918204690934 at #(0.5 0.0 0.0) Band 5 range: 0.7472029910634792 at #(0.5 0.0 0.0) to 0.8743593805271214 at #(0.5 0.5 0.0) Band 6 range: 0.8404509697715067 at #(0.30000000000000004 0.30000000000000004 0.0) to 0.8833173725850538 at #(0.5 0.5 0.0) Band 7 range: 0.8770118718590364 at #(0.5 0.0 0.0) to 0.9653253810282395 at #(0.0 0.0 0.0) Band 8 range: 0.8929933495601431 at #(0.5 0.5 0.0) to 1.0893781347211786 at #(0.0 0.0 0.0) Gap from band 1 (0.28590577912716103) to band 2 (0.4206573384061862), 38.14282289442185% Gap from band 4 (0.7200918204690934) to band 5 (0.7472029910634792), 3.695395142312066% total elapsed time for run: 2 seconds. done. check-freqs: PASSED **************************************************************************** Test case: square lattice of magneto-electric rods in air. **************************************************************************** init-params: initializing eigensolver data Computing 10 bands with 1.000000e-09 tolerance. Working in 2 dimensions. Grid size is 32 x 32 x 1. Solving for 10 bands at a time. Creating Maxwell data... Mesh size is 3. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: cylinder, center = (0,0,0) radius 0.11, height 1e+20, axis (0, 0, 1) Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 10 k-points: (0,0,0) (0.166667,0,0) (0.333333,0,0) (0.5,0,0) (0.5,0.166667,0) (0.5,0.333333,0) (0.5,0.5,0) (0.333333,0.333333,0) (0.166667,0.166667,0) (0,0,0) Solving for band polarization: tm. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-15, mean 1.53164, harm. mean 1.04189, 4.39453% > 1, 3.79742% "fill" Outputting check-epsilon... mu: 1-13.9136, mean 1.42353, harm. mean 1.03906, 4.39453% > 1, 3.27973% "fill" Outputting check-mu... solve_kpoint (0,0,0): tmfreqs:, k index, k1, k2, k3, kmag/2pi, tm band 1, tm band 2, tm band 3, tm band 4, tm band 5, tm band 6, tm band 7, tm band 8, tm band 9, tm band 10 Solving for bands 2 to 10... iteration 52: trace = 3.898852966611106 (1.51572% change) iteration 104: trace = 3.010746813391247 (0.117778% change) iteration 157: trace = 2.702326475003697 (0.0391209% change) iteration 210: trace = 2.54614723842825 (0.185281% change) iteration 262: trace = 2.43577808047567 (0.0240618% change) iteration 315: trace = 2.416412805118972 (0.00299109% change) iteration 368: trace = 2.407771456048674 (0.0137321% change) iteration 421: trace = 2.401637162740378 (0.00126882% change) iteration 473: trace = 2.397204015079089 (0.000602335% change) iteration 526: trace = 2.394603411591969 (0.0010462% change) iteration 579: trace = 2.393860280778362 (0.000384471% change) iteration 631: trace = 2.393543739201396 (0.000211746% change) iteration 683: trace = 2.393341619795529 (0.000249614% change) iteration 735: trace = 2.393220610902485 (0.000219541% change) iteration 787: trace = 2.393145570456594 (8.63924e-05% change) iteration 839: trace = 2.393104101488612 (1.00606e-05% change) iteration 891: trace = 2.393077777603387 (1.34321e-05% change) iteration 943: trace = 2.393049296726011 (3.50455e-06% change) iteration 995: trace = 2.393045595194873 (3.89762e-06% change) iteration 1047: trace = 2.393042545509283 (2.26036e-06% change) iteration 1099: trace = 2.393040890130806 (4.31423e-07% change) Finished solving for bands 2 to 10 after 1111 iterations. tmfreqs:, 1, 0, 0, 0, 0, 0, 0.265885, 0.356852, 0.36899, 0.503897, 0.506552, 0.539911, 0.635681, 0.645852, 0.660017 elapsed time for k point: 11 seconds. solve_kpoint (0.166667,0,0): Solving for bands 1 to 10... iteration 48: trace = 2.414172834282388 (0.000574495% change) iteration 96: trace = 2.412984744166943 (0.000577343% change) iteration 144: trace = 2.412708838352974 (3.67401e-05% change) iteration 192: trace = 2.412679434386913 (1.59427e-06% change) iteration 240: trace = 2.412662992019399 (4.40837e-06% change) iteration 288: trace = 2.412650722340116 (7.97178e-06% change) iteration 336: trace = 2.412644149076695 (5.65001e-06% change) iteration 384: trace = 2.412640107370006 (1.60043e-06% change) iteration 432: trace = 2.412636398042143 (3.2325e-06% change) iteration 480: trace = 2.412634385198337 (2.4724e-06% change) iteration 528: trace = 2.412633145636062 (1.13928e-06% change) iteration 576: trace = 2.41263192706784 (1.06081e-06% change) Finished solving for bands 1 to 10 after 583 iterations. tmfreqs:, 2, 0.166667, 0, 0, 0.166667, 0.123306, 0.278292, 0.357366, 0.369461, 0.503797, 0.506642, 0.538217, 0.63557, 0.645595, 0.659432 elapsed time for k point: 6 seconds. solve_kpoint (0.333333,0,0): Solving for bands 1 to 10... iteration 48: trace = 2.456030322650229 (0.0103779% change) iteration 96: trace = 2.453854360161018 (0.000745238% change) iteration 144: trace = 2.452773666489314 (0.000316214% change) iteration 192: trace = 2.452344930024571 (0.000200059% change) iteration 240: trace = 2.452165712387041 (0.000135814% change) iteration 288: trace = 2.452006125642759 (7.63496e-05% change) iteration 336: trace = 2.451918316796815 (5.73972e-05% change) iteration 384: trace = 2.451880616257785 (4.48767e-05% change) iteration 432: trace = 2.45183457963127 (2.80747e-05% change) iteration 480: trace = 2.45181742666021 (5.43519e-06% change) iteration 528: trace = 2.451808553981401 (1.92846e-05% change) iteration 576: trace = 2.451800154501104 (6.53742e-06% change) iteration 624: trace = 2.451796518534617 (1.30104e-06% change) iteration 672: trace = 2.451794162463859 (8.66392e-07% change) iteration 720: trace = 2.451792081676815 (5.44359e-07% change) iteration 768: trace = 2.451791187675415 (6.74568e-07% change) iteration 816: trace = 2.451790609375061 (3.04237e-07% change) Finished solving for bands 1 to 10 after 818 iterations. tmfreqs:, 3, 0.333333, 0, 0, 0.333333, 0.194655, 0.331458, 0.361679, 0.377947, 0.502693, 0.506755, 0.527227, 0.633335, 0.644215, 0.653288 elapsed time for k point: 8 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 10... iteration 48: trace = 2.45625316270441 (0.00193884% change) iteration 96: trace = 2.451363987070069 (0.000450984% change) iteration 144: trace = 2.449892109711107 (0.000261609% change) iteration 192: trace = 2.449587178410272 (0.000546358% change) iteration 240: trace = 2.44940384979998 (3.9385e-05% change) iteration 288: trace = 2.44936053721304 (1.83517e-05% change) iteration 336: trace = 2.44933313750643 (1.01165e-05% change) iteration 384: trace = 2.449312522602445 (1.06264e-05% change) iteration 432: trace = 2.449305931138221 (1.9314e-06% change) iteration 480: trace = 2.449300722852328 (1.2025e-06% change) iteration 528: trace = 2.449296985469262 (1.57421e-06% change) iteration 576: trace = 2.449295629510432 (8.51539e-07% change) iteration 624: trace = 2.449294492386555 (1.51682e-06% change) iteration 672: trace = 2.449293622818512 (1.80164e-07% change) Finished solving for bands 1 to 10 after 690 iterations. tmfreqs:, 4, 0.5, 0, 0, 0.5, 0.208799, 0.348978, 0.365278, 0.443856, 0.477902, 0.506845, 0.509076, 0.617527, 0.63971, 0.64689 elapsed time for k point: 8 seconds. solve_kpoint (0.5,0.166667,0): Solving for bands 1 to 10... iteration 48: trace = 2.490419141739447 (0.00447664% change) iteration 96: trace = 2.487595578065477 (0.00126535% change) iteration 144: trace = 2.486408145974326 (0.000537564% change) iteration 192: trace = 2.486074205209366 (8.28614e-05% change) iteration 240: trace = 2.485973760303193 (6.38558e-05% change) iteration 288: trace = 2.485911170697426 (3.03602e-05% change) iteration 336: trace = 2.48588591586445 (9.12862e-06% change) iteration 384: trace = 2.485876418120778 (6.48895e-06% change) iteration 432: trace = 2.48587012874922 (4.43544e-06% change) iteration 480: trace = 2.485867540564173 (1.10147e-06% change) iteration 528: trace = 2.485866467064158 (3.54005e-07% change) iteration 576: trace = 2.485865748878159 (5.99645e-07% change) Finished solving for bands 1 to 10 after 599 iterations. tmfreqs:, 5, 0.5, 0.166667, 0, 0.527046, 0.210673, 0.351103, 0.364915, 0.453355, 0.500502, 0.507018, 0.510125, 0.616821, 0.642478, 0.646894 elapsed time for k point: 6 seconds. solve_kpoint (0.5,0.333333,0): Solving for bands 1 to 10... iteration 48: trace = 2.586475755131527 (0.0121944% change) iteration 96: trace = 2.580772914678084 (0.00369409% change) iteration 144: trace = 2.579385509974495 (0.00043758% change) iteration 192: trace = 2.579023359514478 (5.4886e-05% change) iteration 240: trace = 2.578924940612477 (4.12368e-05% change) iteration 288: trace = 2.578893621312978 (6.4596e-06% change) iteration 336: trace = 2.578885015476707 (3.59909e-06% change) iteration 384: trace = 2.578882804767538 (9.10898e-07% change) Finished solving for bands 1 to 10 after 428 iterations. tmfreqs:, 6, 0.5, 0.333333, 0, 0.600925, 0.214081, 0.353217, 0.365001, 0.471977, 0.507165, 0.51079, 0.563894, 0.615052, 0.646178, 0.648357 elapsed time for k point: 5 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 10... iteration 48: trace = 2.662530867711228 (0.00846813% change) iteration 96: trace = 2.655847022979478 (0.00192411% change) iteration 144: trace = 2.653986568315818 (0.00010825% change) iteration 192: trace = 2.653877468088103 (4.18037e-06% change) iteration 240: trace = 2.653864117116366 (1.33699e-05% change) iteration 288: trace = 2.653861491996838 (1.27457e-07% change) Finished solving for bands 1 to 10 after 322 iterations. tmfreqs:, 7, 0.5, 0.5, 0, 0.707107, 0.215649, 0.353602, 0.365269, 0.480748, 0.507335, 0.512534, 0.60792, 0.619784, 0.648908, 0.650323 elapsed time for k point: 3 seconds. solve_kpoint (0.333333,0.333333,0): Solving for bands 1 to 10... iteration 48: trace = 2.535413510176203 (0.00155713% change) iteration 96: trace = 2.5328537482095 (0.000992586% change) iteration 144: trace = 2.532354861977222 (0.000153876% change) iteration 192: trace = 2.532263168177223 (1.65176e-05% change) iteration 240: trace = 2.532233393305549 (5.90269e-06% change) iteration 288: trace = 2.53222895143243 (1.87179e-06% change) iteration 336: trace = 2.532227297134505 (4.62037e-07% change) Finished solving for bands 1 to 10 after 369 iterations. tmfreqs:, 8, 0.333333, 0.333333, 0, 0.471405, 0.210879, 0.35463, 0.361245, 0.439486, 0.507022, 0.508252, 0.543815, 0.620599, 0.646589, 0.651154 elapsed time for k point: 4 seconds. solve_kpoint (0.166667,0.166667,0): Solving for bands 1 to 10... iteration 48: trace = 2.432181451431726 (0.00476097% change) iteration 96: trace = 2.429802553337412 (0.000120244% change) iteration 144: trace = 2.429271822091452 (5.85277e-05% change) iteration 192: trace = 2.429207233843503 (6.50094e-05% change) iteration 240: trace = 2.429178222399291 (1.27192e-05% change) iteration 288: trace = 2.429168090573598 (3.25982e-06% change) iteration 336: trace = 2.429163396097272 (6.27446e-06% change) iteration 384: trace = 2.429161557715512 (1.73695e-06% change) iteration 432: trace = 2.429160659314058 (9.4816e-07% change) Finished solving for bands 1 to 10 after 442 iterations. tmfreqs:, 9, 0.166667, 0.166667, 0, 0.235702, 0.162353, 0.295875, 0.356214, 0.372161, 0.504258, 0.506735, 0.537355, 0.633231, 0.645916, 0.65717 elapsed time for k point: 5 seconds. solve_kpoint (0,0,0): Solving for bands 2 to 10... iteration 52: trace = 2.394061470835616 (0.000603404% change) iteration 105: trace = 2.393109475219588 (9.39041e-05% change) iteration 158: trace = 2.393050345820266 (1.34757e-05% change) iteration 211: trace = 2.393042458409252 (1.3351e-06% change) iteration 264: trace = 2.393040761567453 (1.04423e-06% change) Finished solving for bands 2 to 10 after 300 iterations. tmfreqs:, 10, 0, 0, 0, 0, 0, 0.265885, 0.356852, 0.36899, 0.503897, 0.506552, 0.539911, 0.635681, 0.645852, 0.660016 elapsed time for k point: 3 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.2156485303479158 at #(0.5 0.5 0.0) Band 2 range: 0.26588499510955155 at #(0.0 0.0 0.0) to 0.35463024142879584 at #(0.3333333333333333 0.3333333333333333 0.0) Band 3 range: 0.3562142390773797 at #(0.16666666666666666 0.16666666666666666 0.0) to 0.365278336513324 at #(0.5 0.0 0.0) Band 4 range: 0.3689901439834589 at #(0.0 0.0 0.0) to 0.4807484702391746 at #(0.5 0.5 0.0) Band 5 range: 0.4779015016075784 at #(0.5 0.0 0.0) to 0.5073352900087484 at #(0.5 0.5 0.0) Band 6 range: 0.5065518602231799 at #(0.0 0.0 0.0) to 0.5125343698882155 at #(0.5 0.5 0.0) Band 7 range: 0.5090758754919581 at #(0.5 0.0 0.0) to 0.6079200873397503 at #(0.5 0.5 0.0) Band 8 range: 0.6150518984882232 at #(0.5 0.33333333333333337 0.0) to 0.6356807893152758 at #(0.0 0.0 0.0) Band 9 range: 0.6397097763868406 at #(0.5 0.0 0.0) to 0.648907865978036 at #(0.5 0.5 0.0) Band 10 range: 0.6468903985006641 at #(0.5 0.0 0.0) to 0.6600172801667545 at #(0.0 0.0 0.0) Gap from band 1 (0.2156485303479158) to band 2 (0.26588499510955155), 20.865199246058726% Gap from band 2 (0.35463024142879584) to band 3 (0.3562142390773797), 0.4456664409790253% Gap from band 3 (0.365278336513324) to band 4 (0.3689901439834589), 1.0110218724419848% Gap from band 7 (0.6079200873397503) to band 8 (0.6150518984882232), 1.1663081789472833% Gap from band 8 (0.6356807893152758) to band 9 (0.6397097763868406), 0.6318044338593232% total elapsed time for run: 59 seconds. done. check-freqs: PASSED ************************************************************************** Test case: 3x3 triangular lattice of rods in air, dipole defect states. ************************************************************************** ************************************************************************** Test case: fcc lattice of air spheres in dielectric. ************************************************************************** init-params: initializing eigensolver data Computing 10 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 10 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (0, 0.707107, 0.707107) (0.707107, 0, 0.707107) (0.707107, 0.707107, 0) Cell volume = 0.707107 Reciprocal lattice vectors (/ 2 pi): (-0.707107, 0.707107, 0.707107) (0.707107, -0.707107, 0.707107) (0.707107, 0.707107, -0.707107) Geometric objects: sphere, center = (0,0,0) radius 0.5 epsilon = 1, mu = 1 Geometric object tree has depth 4 and 64 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 13 k-points: (0,0.5,0.5) (0,0.5625,0.4375) (0,0.625,0.375) (0,0.5625,0.1875) (0,0.5,0) (0,0.25,0) (0,0,0) (0,0.25,0.25) (0,0.5,0.5) (0.125,0.625,0.5) (0.25,0.75,0.5) (0.3125,0.75,0.4375) (0.375,0.75,0.375) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-11.56, mean 3.72661, harm. mean 1.46352, 45.5811% > 1, 25.8202% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 44.4444% "fill" Outputting check-mu... solve_kpoint (0,0.5,0.5): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3, band 4, band 5, band 6, band 7, band 8, band 9, band 10 Solving for bands 1 to 10... iteration 11: trace = 2.420292299727952 (0.0213734% change) iteration 23: trace = 2.417958472044804 (0.000246326% change) iteration 35: trace = 2.417924128482893 (1.23121e-05% change) Finished solving for bands 1 to 10 after 42 iterations. freqs:, 1, 0, 0.5, 0.5, 0.707107, 0.370307, 0.372085, 0.38252, 0.3836, 0.493989, 0.512361, 0.522307, 0.523822, 0.595103, 0.664077 elapsed time for k point: 1 seconds. solve_kpoint (0,0.5625,0.4375): Solving for bands 1 to 10... iteration 11: trace = 2.425599716822322 (0.0677043% change) iteration 23: trace = 2.40751386086891 (0.010057% change) iteration 35: trace = 2.406750080299786 (0.000344799% change) iteration 47: trace = 2.406717485224031 (1.24622e-05% change) iteration 59: trace = 2.406716405479926 (3.09428e-07% change) Finished solving for bands 1 to 10 after 64 iterations. freqs:, 2, 0, 0.5625, 0.4375, 0.71807, 0.368359, 0.377487, 0.384992, 0.387438, 0.471895, 0.506546, 0.523725, 0.531091, 0.610293, 0.649714 elapsed time for k point: 3 seconds. solve_kpoint (0,0.625,0.375): Solving for bands 1 to 10... iteration 11: trace = 2.416861769665441 (0.00172724% change) iteration 23: trace = 2.416823960548695 (8.62331e-08% change) Finished solving for bands 1 to 10 after 23 iterations. freqs:, 3, 0, 0.625, 0.375, 0.75, 0.357533, 0.38095, 0.392789, 0.401454, 0.43935, 0.495158, 0.527478, 0.540892, 0.635515, 0.644621 elapsed time for k point: 1 seconds. solve_kpoint (0,0.5625,0.1875): Solving for bands 1 to 10... iteration 11: trace = 2.410201819894137 (0.0555188% change) iteration 23: trace = 2.408973508754703 (1.02646e-05% change) Finished solving for bands 1 to 10 after 31 iterations. freqs:, 4, 0, 0.5625, 0.1875, 0.649519, 0.323742, 0.331653, 0.39821, 0.401206, 0.462868, 0.514292, 0.533282, 0.546116, 0.631046, 0.644236 elapsed time for k point: 2 seconds. solve_kpoint (0,0.5,0): Solving for bands 1 to 10... iteration 11: trace = 2.386353610080708 (0.000116095% change) Finished solving for bands 1 to 10 after 18 iterations. freqs:, 5, 0, 0.5, 0, 0.612372, 0.307529, 0.308891, 0.387977, 0.389913, 0.491606, 0.536329, 0.536613, 0.538985, 0.624681, 0.629124 elapsed time for k point: 1 seconds. solve_kpoint (0,0.25,0): Solving for bands 1 to 10... iteration 11: trace = 2.421086466934002 (0.00164964% change) iteration 23: trace = 2.421056839295379 (2.87274e-07% change) Finished solving for bands 1 to 10 after 27 iterations. freqs:, 6, 0, 0.25, 0, 0.306186, 0.179755, 0.180421, 0.473402, 0.475968, 0.50346, 0.53577, 0.538144, 0.540345, 0.624073, 0.627676 elapsed time for k point: 1 seconds. solve_kpoint (0,0,0): Solving for bands 3 to 10... iteration 13: trace = 2.454814726792181 (0.00202925% change) iteration 27: trace = 2.454766736394692 (0.000187955% change) Finished solving for bands 3 to 10 after 39 iterations. freqs:, 7, 0, 0, 0, 0, 0, 0, 0.518283, 0.521124, 0.521132, 0.543942, 0.543952, 0.546505, 0.61287, 0.61397 elapsed time for k point: 1 seconds. solve_kpoint (0,0.25,0.25): Solving for bands 1 to 10... iteration 11: trace = 2.438729883148052 (0.0154706% change) iteration 23: trace = 2.428783162356977 (0.00203579% change) iteration 35: trace = 2.428205280142006 (0.000902805% change) iteration 47: trace = 2.428132173508486 (2.3334e-06% change) Finished solving for bands 1 to 10 after 57 iterations. freqs:, 8, 0, 0.25, 0.25, 0.353553, 0.207258, 0.207841, 0.473224, 0.475268, 0.506873, 0.526874, 0.530366, 0.532023, 0.604689, 0.653955 elapsed time for k point: 3 seconds. solve_kpoint (0,0.5,0.5): Solving for bands 1 to 10... iteration 11: trace = 2.43359604106743 (0.00244392% change) iteration 23: trace = 2.419912091753966 (0.0172378% change) iteration 35: trace = 2.418162597092027 (0.00152559% change) iteration 47: trace = 2.41797047990875 (0.000224597% change) iteration 59: trace = 2.41794139484865 (4.47453e-05% change) iteration 71: trace = 2.417934958409477 (1.6693e-05% change) iteration 83: trace = 2.417934527219527 (5.30109e-08% change) Finished solving for bands 1 to 10 after 83 iterations. freqs:, 9, 0, 0.5, 0.5, 0.707107, 0.370307, 0.372085, 0.38252, 0.3836, 0.493989, 0.512361, 0.522307, 0.523822, 0.595103, 0.664085 elapsed time for k point: 4 seconds. solve_kpoint (0.125,0.625,0.5): Solving for bands 1 to 10... iteration 11: trace = 2.402898033282709 (0.00351856% change) iteration 23: trace = 2.402816235954629 (1.11287e-06% change) Finished solving for bands 1 to 10 after 27 iterations. freqs:, 10, 0.125, 0.625, 0.5, 0.728869, 0.372309, 0.377154, 0.385968, 0.392562, 0.463569, 0.502026, 0.505399, 0.549256, 0.621502, 0.639203 elapsed time for k point: 1 seconds. solve_kpoint (0.25,0.75,0.5): Solving for bands 1 to 10... iteration 11: trace = 2.432023916649258 (0.128524% change) iteration 23: trace = 2.422746175382991 (0.00105493% change) iteration 35: trace = 2.422693755143507 (9.59673e-06% change) Finished solving for bands 1 to 10 after 45 iterations. freqs:, 11, 0.25, 0.75, 0.5, 0.790569, 0.373709, 0.386404, 0.386499, 0.410208, 0.435229, 0.490809, 0.492518, 0.566583, 0.627971, 0.654078 elapsed time for k point: 2 seconds. solve_kpoint (0.3125,0.75,0.4375): Solving for bands 1 to 10... iteration 11: trace = 2.424306527684633 (0.0888635% change) iteration 23: trace = 2.419566828742069 (0.00028785% change) iteration 35: trace = 2.419550531638262 (1.42064e-06% change) Finished solving for bands 1 to 10 after 40 iterations. freqs:, 12, 0.3125, 0.75, 0.4375, 0.760345, 0.364261, 0.382754, 0.390011, 0.405967, 0.438258, 0.493602, 0.505736, 0.559219, 0.634896, 0.645093 elapsed time for k point: 2 seconds. solve_kpoint (0.375,0.75,0.375): Solving for bands 1 to 10... iteration 11: trace = 2.422603800340657 (0.00153196% change) iteration 23: trace = 2.422573888183194 (2.29916e-07% change) Finished solving for bands 1 to 10 after 25 iterations. freqs:, 13, 0.375, 0.75, 0.375, 0.75, 0.359122, 0.380258, 0.391276, 0.402681, 0.438005, 0.49516, 0.529122, 0.541679, 0.637583, 0.645624 elapsed time for k point: 1 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.3737093804558342 at #(0.25 0.75 0.5) Band 2 range: 0.0 at #(0.0 0.0 0.0) to 0.3864041214981437 at #(0.25 0.75 0.5) Band 3 range: 0.3825201383107505 at #(0.0 0.5 0.5) to 0.5182834488056682 at #(0.0 0.0 0.0) Band 4 range: 0.38360034955512967 at #(0.0 0.5 0.5) to 0.5211243460580544 at #(0.0 0.0 0.0) Band 5 range: 0.4352292385396693 at #(0.25 0.75 0.5) to 0.5211324741377814 at #(0.0 0.0 0.0) Band 6 range: 0.4908086394112828 at #(0.25 0.75 0.5) to 0.5439419096015919 at #(0.0 0.0 0.0) Band 7 range: 0.49251834848766446 at #(0.25 0.75 0.5) to 0.5439517867817079 at #(0.0 0.0 0.0) Band 8 range: 0.5238217224831158 at #(0.0 0.5 0.5) to 0.5665833313384169 at #(0.25 0.75 0.5) Band 9 range: 0.5951030360705488 at #(0.0 0.5 0.5) to 0.6375830839471325 at #(0.375 0.75 0.375) Band 10 range: 0.6139704112371199 at #(0.0 0.0 0.0) to 0.6640850272250307 at #(0.0 0.5 0.5) Gap from band 8 (0.5665833313384169) to band 9 (0.5951030360705488), 4.910052408679378% total elapsed time for run: 23 seconds. done. check-freqs: PASSED ************************************************************************** Test case: simple cubic lattice with anisotropic dielectric. ************************************************************************** init-params: initializing eigensolver data Computing 3 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 3 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: block, center = (0,0,0) size (0.313,0.313,1) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,1,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (1,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) epsilon = 12, mu = 1 Geometric object tree has depth 7 and 16 object nodes (vs. 4 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 4 k-points: (0,0,0) (0.5,0,0) (0.5,0.5,0) (0.5,0.5,0.5) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-12, mean 1.51138, harm. mean 1.14094, 34.9121% > 1, 4.64894% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-mu... solve_kpoint (0,0,0): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3 Solving for bands 3 to 3... Finished solving for bands 3 to 3 after 42 iterations. freqs:, 1, 0, 0, 0, 0, 0, 0, 0.546635 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0,0): Solving for bands 1 to 3... Finished solving for bands 1 to 3 after 30 iterations. freqs:, 2, 0.5, 0, 0, 0.5, 0.259951, 0.259951, 0.444658 elapsed time for k point: 1 seconds. solve_kpoint (0.5,0.5,0): Solving for bands 1 to 3... iteration 40: trace = 0.4576042922529296 (6.75011e-07% change) Finished solving for bands 1 to 3 after 45 iterations. freqs:, 3, 0.5, 0.5, 0, 0.707107, 0.300692, 0.345674, 0.497693 elapsed time for k point: 0 seconds. solve_kpoint (0.5,0.5,0.5): Solving for bands 1 to 3... Finished solving for bands 1 to 3 after 36 iterations. freqs:, 4, 0.5, 0.5, 0.5, 0.866025, 0.362782, 0.362782, 0.502237 elapsed time for k point: 1 seconds. Band 1 range: 0.0 at #(0.0 0.0 0.0) to 0.36278243257714216 at #(0.5 0.5 0.5) Band 2 range: 0.0 at #(0.0 0.0 0.0) to 0.3627824326347072 at #(0.5 0.5 0.5) Band 3 range: 0.44465801695109014 at #(0.5 0.0 0.0) to 0.5466349525754794 at #(0.0 0.0 0.0) Gap from band 2 (0.3627824326347072) to band 3 (0.44465801695109014), 20.280278095649937% total elapsed time for run: 2 seconds. done. check-freqs: PASSED ******************************************************************************* Test case: group velocity in simple cubic lattice with anisotropic dielectric. ******************************************************************************* init-params: initializing eigensolver data Computing 3 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 3 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: block, center = (0,0,0) size (0.313,0.313,1) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,1,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (1,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) block, center = (0,0,0) size (0.313,0.313,0.313) axes (1,0,0), (0,1,0), (0,0,1) epsilon = 12, mu = 1 Geometric object tree has depth 7 and 16 object nodes (vs. 4 actual objects) Initializing epsilon function... Initializing mu function... 1 k-points: (0.12,0.34,0.41) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-12, mean 1.51138, harm. mean 1.14094, 34.9121% > 1, 4.64894% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 100% "fill" Outputting check-mu... solve_kpoint (0.12,0.34,0.41): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3 Solving for bands 1 to 3... iteration 40: trace = 0.4264996186064495 (2.95372e-05% change) Finished solving for bands 1 to 3 after 54 iterations. freqs:, 1, 0.12, 0.34, 0.41, 0.545985, 0.291848, 0.315613, 0.491642 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED ************************************************************************** Test case: symmetry transformed overlaps & inversion/mirror eigenvalues. ************************************************************************** init-params: initializing eigensolver data Computing 6 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 6 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: sphere, center = (0,0,0) radius 0.25 epsilon = 13, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... Allocating fields... 1 k-points: (0.5,0.5,0.5) Solving for band polarization: . Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-13, mean 1.78533, harm. mean 1.08703, 11.2549% > 1, 6.54442% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 33.3333% "fill" Outputting check-mu... solve_kpoint (0.5,0.5,0.5): freqs:, k index, k1, k2, k3, kmag/2pi, band 1, band 2, band 3, band 4, band 5, band 6 Solving for bands 1 to 6... iteration 19: trace = 2.065543021987428 (1.62631e-06% change) Finished solving for bands 1 to 6 after 22 iterations. freqs:, 1, 0.5, 0.5, 0.5, 0.866025, 0.529861, 0.529881, 0.529888, 0.638532, 0.638544, 0.638573 elapsed time for k point: 1 seconds. total elapsed time for run: 1 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED init-params: initializing eigensolver data Computing 6 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 6 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: sphere, center = (0,0,0) radius 0.25 epsilon = 13, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... 1 k-points: (0,0,0) Solving for band polarization: zeven. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-13, mean 1.78533, harm. mean 1.08703, 11.2549% > 1, 6.54442% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 33.3333% "fill" Outputting check-mu... solve_kpoint (0,0,0): zevenfreqs:, k index, k1, k2, k3, kmag/2pi, zeven band 1, zeven band 2, zeven band 3, zeven band 4, zeven band 5, zeven band 6 Solving for bands 2 to 6... Finished solving for bands 2 to 6 after 18 iterations. zevenfreqs:, 1, 0, 0, 0, 0, 0, 0.552074, 0.713314, 0.71334, 0.772993, 0.773109 elapsed time for k point: 0 seconds. total elapsed time for run: 0 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED init-params: initializing eigensolver data Computing 6 bands with 1.000000e-09 tolerance. Working in 3 dimensions. Grid size is 16 x 16 x 16. Solving for 6 bands at a time. Creating Maxwell data... Mesh size is 5. Lattice vectors: (1, 0, 0) (0, 1, 0) (0, 0, 1) Cell volume = 1 Reciprocal lattice vectors (/ 2 pi): (1, -0, 0) (-0, 1, -0) (0, -0, 1) Geometric objects: sphere, center = (0,0,0) radius 0.25 epsilon = 13, mu = 1 Geometric object tree has depth 1 and 1 object nodes (vs. 1 actual objects) Initializing epsilon function... Initializing mu function... 1 k-points: (0,0,0) Solving for band polarization: zodd. Initializing fields to random numbers... elapsed time for initialization: 0 seconds. epsilon: 1-13, mean 1.78533, harm. mean 1.08703, 11.2549% > 1, 6.54442% "fill" Outputting check-epsilon... mu: 1-1, mean 1, harm. mean 1, 0% > 1, 33.3333% "fill" Outputting check-mu... solve_kpoint (0,0,0): zoddfreqs:, k index, k1, k2, k3, kmag/2pi, zodd band 1, zodd band 2, zodd band 3, zodd band 4, zodd band 5, zodd band 6 Solving for bands 2 to 6... iteration 24: trace = 2.328682857696723 (2.1729e-05% change) iteration 48: trace = 2.328682348169665 (3.81235e-07% change) iteration 72: trace = 2.328680603728959 (1.28813e-05% change) Finished solving for bands 2 to 6 after 74 iterations. zoddfreqs:, 1, 0, 0, 0, 0, 0, 0.552078, 0.552093, 0.71276, 0.770963, 0.785285 elapsed time for k point: 2 seconds. total elapsed time for run: 2 seconds. done. check-almost-equal: PASSED check-almost-equal: PASSED eigensolver iterations for 87 k-points: 8-9999/10, mean = 85.89530651340996, median = 19.0 mean flops per iteration = 5210936.259480099 mean time per iteration = 0.01244498169494852 s Relative error ranged from 0.0 to 1.970456583554128e-4, with a mean of 3.7044511442405045e-6 Absolute error ranged to 1.932271646640782e-4, with a mean of 2.7267573473987495e-6 PASSED all tests. make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' Making check in examples make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' make[1]: Nothing to be done for 'check'. make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' Making check in utils make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' make[1]: Nothing to be done for 'check'. make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' >>> mpb: Entering fakeroot... Making install in src make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make install-recursive make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' Making install in util make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make install-am make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[5]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[5]: Nothing to be done for 'install-exec-am'. make[5]: Nothing to be done for 'install-data-am'. make[5]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/util' Making install in matrices make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' make[4]: Nothing to be done for 'install-exec-am'. make[4]: Nothing to be done for 'install-data-am'. make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrices' Making install in matrixio make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' make[4]: Nothing to be done for 'install-exec-am'. make[4]: Nothing to be done for 'install-data-am'. make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/matrixio' Making install in maxwell make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[4]: Nothing to be done for 'install-exec-am'. make[4]: Nothing to be done for 'install-data-am'. make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src/maxwell' make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[4]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib' /bin/sh ../libtool --mode=install /usr/bin/install -c libmpb.la '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/include/mpb' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/include' /usr/bin/install -c -m 644 matrices/eigensolver.h matrices/matrices.h matrices/scalar.h maxwell/maxwell.h util/verbosity.h '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/include/mpb' /usr/bin/install -c -m 644 mpb.h '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/include' libtool: install: /usr/bin/install -c .libs/libmpb.so.6.0.0 /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib/libmpb.so.6.0.0 libtool: install: (cd /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib && { ln -s -f libmpb.so.6.0.0 libmpb.so.6 || { rm -f libmpb.so.6 && ln -s libmpb.so.6.0.0 libmpb.so.6; }; }) libtool: install: (cd /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib && { ln -s -f libmpb.so.6.0.0 libmpb.so || { rm -f libmpb.so && ln -s libmpb.so.6.0.0 libmpb.so; }; }) libtool: install: /usr/bin/install -c .libs/libmpb.lai /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib/libmpb.la libtool: install: /usr/bin/install -c .libs/libmpb.a /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib/libmpb.a libtool: install: chmod 644 /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib/libmpb.a libtool: install: ranlib /home/buildozer/aports/testing/mpb/pkg/mpb/usr/lib/libmpb.a libtool: warning: remember to run 'libtool --finish /usr/lib' make[4]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/src' Making install in tests make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' make[2]: Nothing to be done for 'install-exec-am'. make[2]: Nothing to be done for 'install-data-am'. make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/tests' Making install in mpb make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make install-am make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make[3]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/share/man/man1' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/share/mpb' /bin/sh ../libtool --mode=install /usr/bin/install -c mpb '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin' /usr/bin/install -c mpb-split '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin' /usr/bin/install -c -m 644 mpb-split.1 mpb.1 '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/share/man/man1' /usr/bin/install -c -m 644 mpb.scm '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/share/mpb' libtool: warning: '../src/libmpb.la' has not been installed in '/usr/lib' libtool: install: /usr/bin/install -c .libs/mpb /home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin/mpb make[3]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/mpb' Making install in examples make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' make[2]: Nothing to be done for 'install-exec-am'. make[2]: Nothing to be done for 'install-data-am'. make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/examples' Making install in utils make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin' /bin/mkdir -p '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/share/man/man1' /bin/sh ../libtool --mode=install /usr/bin/install -c mpb-data '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin' /usr/bin/install -c -m 644 mpb-data.1 '/home/buildozer/aports/testing/mpb/pkg/mpb/usr/share/man/man1' libtool: warning: '../src/libmpb.la' has not been installed in '/usr/lib' libtool: install: /usr/bin/install -c .libs/mpb-data /home/buildozer/aports/testing/mpb/pkg/mpb/usr/bin/mpb-data make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0/utils' make[1]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' make[2]: Entering directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' make[2]: Nothing to be done for 'install-exec-am'. make[2]: Nothing to be done for 'install-data-am'. make[2]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' make[1]: Leaving directory '/home/buildozer/aports/testing/mpb/src/mpb-1.12.0' >>> mpb-dev*: Running split function dev... 'usr/include' -> '/home/buildozer/aports/testing/mpb/pkg/mpb-dev/usr/include' 'usr/lib/libmpb.a' -> '/home/buildozer/aports/testing/mpb/pkg/mpb-dev/usr/lib/libmpb.a' 'usr/lib/libmpb.so' -> '/home/buildozer/aports/testing/mpb/pkg/mpb-dev/usr/lib/libmpb.so' >>> mpb-dev*: Preparing subpackage mpb-dev... >>> mpb-dev*: Stripping binaries >>> mpb-dev*: Running postcheck for mpb-dev >>> mpb-doc*: Running split function doc... 'usr/share/man' -> '/home/buildozer/aports/testing/mpb/pkg/mpb-doc/usr/share/man' >>> mpb-doc*: Preparing subpackage mpb-doc... >>> mpb-doc*: Running postcheck for mpb-doc >>> mpb*: Running postcheck for mpb >>> mpb*: Preparing package mpb... >>> mpb*: Stripping binaries >>> mpb*: Scanning shared objects >>> mpb-dev*: Scanning shared objects >>> mpb*: Tracing dependencies... openblas so:libc.musl-armv7.so.1 so:libctl.so.7 so:libctlgeom.so.7 so:libfftw3.so.3 so:libguile-3.0.so.1 so:libhdf5.so.311 >>> mpb*: Package size: 286.5 KB >>> mpb*: Compressing data... >>> mpb*: Create checksum... >>> mpb*: Create mpb-1.12.0-r0.apk >>> mpb-dev*: Tracing dependencies... mpb=1.12.0-r0 >>> mpb-dev*: Package size: 123.1 KB >>> mpb-dev*: Compressing data... >>> mpb-dev*: Create checksum... >>> mpb-dev*: Create mpb-dev-1.12.0-r0.apk >>> mpb-doc*: Tracing dependencies... >>> mpb-doc*: Package size: 5.9 KB >>> mpb-doc*: Compressing data... >>> mpb-doc*: Create checksum... >>> mpb-doc*: Create mpb-doc-1.12.0-r0.apk >>> mpb: Build complete at Tue, 30 Jun 2026 03:37:35 +0000 elapsed time 0h 3m 7s >>> mpb: Cleaning up srcdir >>> mpb: Cleaning up pkgdir >>> mpb: Cleaning up tmpdir >>> mpb: Uninstalling dependencies... ( 1/31) Purging .makedepends-mpb (20260630.033430) ( 2/31) Purging fftw-dev (3.3.11-r0) ( 3/31) Purging fftw-double-libs (3.3.11-r0) ( 4/31) Purging fftw-long-double-libs (3.3.11-r0) ( 5/31) Purging fftw-single-libs (3.3.11-r0) ( 6/31) Purging hdf5-dev (1.14.4.2-r1) ( 7/31) Purging zlib-dev (1.3.2-r0) ( 8/31) Purging hdf5-cpp (1.14.4.2-r1) ( 9/31) Purging hdf5-hl-cpp (1.14.4.2-r1) (10/31) Purging hdf5-hl-fortran (1.14.4.2-r1) (11/31) Purging hdf5-hl (1.14.4.2-r1) (12/31) Purging libctl-dev (4.5.1-r1) (13/31) Purging guile-dev (3.0.9-r2) (14/31) Purging guile (3.0.9-r2) (15/31) Purging gc-dev (8.2.12-r0) (16/31) Purging libgc++ (8.2.12-r0) (17/31) Purging gmp-dev (6.3.0-r4) (18/31) Purging libgmpxx (6.3.0-r4) (19/31) Purging libctl (4.5.1-r1) (20/31) Purging openblas-dev (0.3.30-r2) (21/31) Purging gfortran (15.2.0-r6) (22/31) Purging liblapack (0.3.30-r2) (23/31) Purging liblapacke (0.3.30-r2) (24/31) Purging openblas (0.3.30-r2) (25/31) Purging guile-libs (3.0.9-r2) (26/31) Purging hdf5-fortran (1.14.4.2-r1) (27/31) Purging libffi (3.5.2-r1) (28/31) Purging libgfortran (15.2.0-r6) (29/31) Purging gc (8.2.12-r0) (30/31) Purging hdf5 (1.14.4.2-r1) (31/31) Purging libsz (1.1.6-r0) Executing busybox-1.38.0-r1.trigger OK: 289.2 MiB in 105 packages >>> mpb: Updating the testing/armv7 repository index... >>> mpb: Signing the index...