[Debichem-devel] Bug#1057556: elpa: FTBFS: not enough slots available
Santiago Vila
sanvila at debian.org
Tue Dec 5 22:05:01 GMT 2023
Package: src:elpa
Version: 2022.11.001-2
Severity: serious
Tags: ftbfs
Dear maintainer:
During a rebuild of all packages in unstable, your package failed to build:
--------------------------------------------------------------------------------
[...]
debian/rules build
dh build --max-parallel=1 --builddir=build
dh_update_autotools_config -O--max-parallel=1 -O--builddir=build
dh_autoreconf -O--max-parallel=1 -O--builddir=build
libtoolize: putting auxiliary files in '.'.
libtoolize: copying file './ltmain.sh'
libtoolize: putting macros in AC_CONFIG_MACRO_DIRS, 'm4'.
libtoolize: copying file 'm4/libtool.m4'
libtoolize: copying file 'm4/ltoptions.m4'
libtoolize: copying file 'm4/ltsugar.m4'
libtoolize: copying file 'm4/ltversion.m4'
libtoolize: copying file 'm4/lt~obsolete.m4'
configure.ac:298: warning: The macro `AC_PROG_CC_C99' is obsolete.
configure.ac:298: You should run autoupdate.
[... snipped ...]
--------------------------------------------------------------------------
FAIL validate_complex_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_real_double_explicit_invert_triangular_default.sh
================================================================
--------------------------------------------------------------------------
There are not enough slots available in the system to satisfy the 2
slots that were requested by the application:
./validate_real_double_explicit_invert_triangular
Either request fewer slots for your application, or make more slots
available for use.
A "slot" is the Open MPI term for an allocatable unit where we can
launch a process. The number of slots available are defined by the
environment in which Open MPI processes are run:
1. Hostfile, via "slots=N" clauses (N defaults to number of
processor cores if not provided)
2. The --host command line parameter, via a ":N" suffix on the
hostname (N defaults to 1 if not provided)
3. Resource manager (e.g., SLURM, PBS/Torque, LSF, etc.)
4. If none of a hostfile, the --host command line parameter, or an
RM is present, Open MPI defaults to the number of processor cores
In all the above cases, if you want Open MPI to default to the number
of hardware threads instead of the number of processor cores, use the
--use-hwthread-cpus option.
Alternatively, you can use the --oversubscribe option to ignore the
number of available slots when deciding the number of processes to
launch.
--------------------------------------------------------------------------
FAIL validate_real_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_real_double_invert_triangular_default.sh
=======================================================
--------------------------------------------------------------------------
There are not enough slots available in the system to satisfy the 2
slots that were requested by the application:
./validate_real_double_invert_triangular
Either request fewer slots for your application, or make more slots
available for use.
A "slot" is the Open MPI term for an allocatable unit where we can
launch a process. The number of slots available are defined by the
environment in which Open MPI processes are run:
1. Hostfile, via "slots=N" clauses (N defaults to number of
processor cores if not provided)
2. The --host command line parameter, via a ":N" suffix on the
hostname (N defaults to 1 if not provided)
3. Resource manager (e.g., SLURM, PBS/Torque, LSF, etc.)
4. If none of a hostfile, the --host command line parameter, or an
RM is present, Open MPI defaults to the number of processor cores
In all the above cases, if you want Open MPI to default to the number
of hardware threads instead of the number of processor cores, use the
--use-hwthread-cpus option.
Alternatively, you can use the --oversubscribe option to ignore the
number of available slots when deciding the number of processes to
launch.
--------------------------------------------------------------------------
FAIL validate_real_double_invert_triangular_default.sh (exit status: 1)
SKIP: validate_multiple_objs_real_double_extended.sh
====================================================
SKIP validate_multiple_objs_real_double_extended.sh (exit status: 77)
SKIP: validate_multiple_objs_real_double_c_version_extended.sh
==============================================================
SKIP validate_multiple_objs_real_double_c_version_extended.sh (exit status: 77)
SKIP: validate_multiple_objs_real_double_cpp_version_extended.sh
================================================================
SKIP validate_multiple_objs_real_double_cpp_version_extended.sh (exit status: 77)
SKIP: validate_skewsymmetric_real_double_extended.sh
====================================================
SKIP validate_skewsymmetric_real_double_extended.sh (exit status: 77)
SKIP: validate_real_skewsymmetric_double_c_version_extended.sh
==============================================================
SKIP validate_real_skewsymmetric_double_c_version_extended.sh (exit status: 77)
SKIP: validate_real_skewsymmetric_double_cpp_version_extended.sh
================================================================
SKIP validate_real_skewsymmetric_double_cpp_version_extended.sh (exit status: 77)
SKIP: validate_split_comm_real_double_extended.sh
=================================================
SKIP validate_split_comm_real_double_extended.sh (exit status: 77)
FAIL: validate_double_instance_default.sh
=========================================
--------------------------------------------------------------------------
There are not enough slots available in the system to satisfy the 2
slots that were requested by the application:
./validate_double_instance
Either request fewer slots for your application, or make more slots
available for use.
A "slot" is the Open MPI term for an allocatable unit where we can
launch a process. The number of slots available are defined by the
environment in which Open MPI processes are run:
1. Hostfile, via "slots=N" clauses (N defaults to number of
processor cores if not provided)
2. The --host command line parameter, via a ":N" suffix on the
hostname (N defaults to 1 if not provided)
3. Resource manager (e.g., SLURM, PBS/Torque, LSF, etc.)
4. If none of a hostfile, the --host command line parameter, or an
RM is present, Open MPI defaults to the number of processor cores
In all the above cases, if you want Open MPI to default to the number
of hardware threads instead of the number of processor cores, use the
--use-hwthread-cpus option.
Alternatively, you can use the --oversubscribe option to ignore the
number of available slots when deciding the number of processes to
launch.
--------------------------------------------------------------------------
FAIL validate_double_instance_default.sh (exit status: 1)
FAIL: validate_real_2stage_banded_default.sh
============================================
--------------------------------------------------------------------------
There are not enough slots available in the system to satisfy the 2
slots that were requested by the application:
./validate_real_2stage_banded
Either request fewer slots for your application, or make more slots
available for use.
A "slot" is the Open MPI term for an allocatable unit where we can
launch a process. The number of slots available are defined by the
environment in which Open MPI processes are run:
1. Hostfile, via "slots=N" clauses (N defaults to number of
processor cores if not provided)
2. The --host command line parameter, via a ":N" suffix on the
hostname (N defaults to 1 if not provided)
3. Resource manager (e.g., SLURM, PBS/Torque, LSF, etc.)
4. If none of a hostfile, the --host command line parameter, or an
RM is present, Open MPI defaults to the number of processor cores
In all the above cases, if you want Open MPI to default to the number
of hardware threads instead of the number of processor cores, use the
--use-hwthread-cpus option.
Alternatively, you can use the --oversubscribe option to ignore the
number of available slots when deciding the number of processes to
launch.
--------------------------------------------------------------------------
FAIL validate_real_2stage_banded_default.sh (exit status: 1)
FAIL: validate_complex_2stage_banded_default.sh
===============================================
--------------------------------------------------------------------------
There are not enough slots available in the system to satisfy the 2
slots that were requested by the application:
./validate_complex_2stage_banded
Either request fewer slots for your application, or make more slots
available for use.
A "slot" is the Open MPI term for an allocatable unit where we can
launch a process. The number of slots available are defined by the
environment in which Open MPI processes are run:
1. Hostfile, via "slots=N" clauses (N defaults to number of
processor cores if not provided)
2. The --host command line parameter, via a ":N" suffix on the
hostname (N defaults to 1 if not provided)
3. Resource manager (e.g., SLURM, PBS/Torque, LSF, etc.)
4. If none of a hostfile, the --host command line parameter, or an
RM is present, Open MPI defaults to the number of processor cores
In all the above cases, if you want Open MPI to default to the number
of hardware threads instead of the number of processor cores, use the
--use-hwthread-cpus option.
Alternatively, you can use the --oversubscribe option to ignore the
number of available slots when deciding the number of processes to
launch.
--------------------------------------------------------------------------
FAIL validate_complex_2stage_banded_default.sh (exit status: 1)
build/elpa2_print_kernels
This program will give information on the ELPA2 kernels,
which are available with this library and it will give
information if (and how) the kernels can be choosen at
runtime
ELPA supports threads: no
Information on ELPA2 real case:
===============================
choice via environment variable: yes
environment variable name : ELPA_DEFAULT_real_kernel
Available real kernels are:
ELPA_2STAGE_REAL_GENERIC
ELPA_2STAGE_REAL_GENERIC_SIMPLE
ELPA_2STAGE_REAL_GENERIC_SIMPLE_BLOCK4
ELPA_2STAGE_REAL_GENERIC_SIMPLE_BLOCK6
Information on ELPA2 complex case:
===============================
choice via environment variable: yes
environment variable name : ELPA_DEFAULT_complex_kernel
Available complex kernels are:
ELPA_2STAGE_COMPLEX_GENERIC
ELPA_2STAGE_COMPLEX_GENERIC_SIMPLE
# error out in case of test suite failures
if grep ^FAIL build/test-suite.log; then exit 1; fi
FAIL: validate_c_version_complex_double_eigenvalues_1stage_analytic_explicit_default.sh
FAIL validate_c_version_complex_double_eigenvalues_1stage_analytic_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_eigenvalues_1stage_analytic_default.sh
FAIL validate_c_version_complex_double_eigenvalues_1stage_analytic_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_eigenvalues_2stage_default_kernel_analytic_default.sh
FAIL validate_c_version_complex_double_eigenvalues_2stage_default_kernel_analytic_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvalues_1stage_analytic_explicit_default.sh
FAIL validate_c_version_real_double_eigenvalues_1stage_analytic_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvalues_1stage_analytic_default.sh
FAIL validate_c_version_real_double_eigenvalues_1stage_analytic_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvalues_2stage_default_kernel_analytic_default.sh
FAIL validate_c_version_real_double_eigenvalues_2stage_default_kernel_analytic_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_cholesky_1stage_random_explicit_default.sh
FAIL validate_c_version_complex_double_cholesky_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_cholesky_1stage_random_default.sh
FAIL validate_c_version_complex_double_cholesky_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_cholesky_1stage_random_explicit_default.sh
FAIL validate_c_version_real_double_cholesky_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_cholesky_1stage_random_default.sh
FAIL validate_c_version_real_double_cholesky_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_eigenvectors_1stage_random_explicit_default.sh
FAIL validate_c_version_complex_double_eigenvectors_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_eigenvectors_1stage_random_default.sh
FAIL validate_c_version_complex_double_eigenvectors_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh
FAIL validate_c_version_complex_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_eigenvectors_2stage_default_kernel_random_default.sh
FAIL validate_c_version_complex_double_eigenvectors_2stage_default_kernel_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvectors_1stage_random_explicit_default.sh
FAIL validate_c_version_real_double_eigenvectors_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvectors_1stage_random_default.sh
FAIL validate_c_version_real_double_eigenvectors_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh
FAIL validate_c_version_real_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_eigenvectors_2stage_default_kernel_random_default.sh
FAIL validate_c_version_real_double_eigenvectors_2stage_default_kernel_random_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_generalized_1stage_random_default.sh
FAIL validate_c_version_complex_double_generalized_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_generalized_1stage_random_default.sh
FAIL validate_c_version_real_double_generalized_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_generalized_decomp_1stage_random_default.sh
FAIL validate_c_version_complex_double_generalized_decomp_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_generalized_decomp_1stage_random_default.sh
FAIL validate_c_version_real_double_generalized_decomp_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_hermitian_multiply_1stage_random_explicit_default.sh
FAIL validate_c_version_complex_double_hermitian_multiply_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_hermitian_multiply_1stage_random_default.sh
FAIL validate_c_version_complex_double_hermitian_multiply_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_hermitian_multiply_1stage_random_explicit_default.sh
FAIL validate_c_version_real_double_hermitian_multiply_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_hermitian_multiply_1stage_random_default.sh
FAIL validate_c_version_real_double_hermitian_multiply_1stage_random_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_solve_tridiagonal_1stage_toeplitz_default.sh
FAIL validate_c_version_real_double_solve_tridiagonal_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_eigenvalues_1stage_analytic_default.sh
FAIL validate_cpp_version_complex_double_eigenvalues_1stage_analytic_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_eigenvalues_2stage_default_kernel_analytic_default.sh
FAIL validate_cpp_version_complex_double_eigenvalues_2stage_default_kernel_analytic_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_eigenvalues_1stage_analytic_default.sh
FAIL validate_cpp_version_real_double_eigenvalues_1stage_analytic_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_eigenvalues_2stage_default_kernel_analytic_default.sh
FAIL validate_cpp_version_real_double_eigenvalues_2stage_default_kernel_analytic_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_cholesky_1stage_random_explicit_default.sh
FAIL validate_cpp_version_complex_double_cholesky_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_cholesky_1stage_random_default.sh
FAIL validate_cpp_version_complex_double_cholesky_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_cholesky_1stage_random_explicit_default.sh
FAIL validate_cpp_version_real_double_cholesky_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_cholesky_1stage_random_default.sh
FAIL validate_cpp_version_real_double_cholesky_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_eigenvectors_1stage_random_explicit_default.sh
FAIL validate_cpp_version_complex_double_eigenvectors_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_eigenvectors_1stage_random_default.sh
FAIL validate_cpp_version_complex_double_eigenvectors_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh
FAIL validate_cpp_version_complex_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_eigenvectors_2stage_default_kernel_random_default.sh
FAIL validate_cpp_version_complex_double_eigenvectors_2stage_default_kernel_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_eigenvectors_1stage_random_explicit_default.sh
FAIL validate_cpp_version_real_double_eigenvectors_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_eigenvectors_1stage_random_default.sh
FAIL validate_cpp_version_real_double_eigenvectors_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh
FAIL validate_cpp_version_real_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_eigenvectors_2stage_default_kernel_random_default.sh
FAIL validate_cpp_version_real_double_eigenvectors_2stage_default_kernel_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_generalized_1stage_random_default.sh
FAIL validate_cpp_version_complex_double_generalized_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_generalized_1stage_random_default.sh
FAIL validate_cpp_version_real_double_generalized_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_generalized_decomp_1stage_random_default.sh
FAIL validate_cpp_version_complex_double_generalized_decomp_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_generalized_decomp_1stage_random_default.sh
FAIL validate_cpp_version_real_double_generalized_decomp_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_hermitian_multiply_1stage_random_explicit_default.sh
FAIL validate_cpp_version_complex_double_hermitian_multiply_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_hermitian_multiply_1stage_random_default.sh
FAIL validate_cpp_version_complex_double_hermitian_multiply_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_hermitian_multiply_1stage_random_explicit_default.sh
FAIL validate_cpp_version_real_double_hermitian_multiply_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_hermitian_multiply_1stage_random_default.sh
FAIL validate_cpp_version_real_double_hermitian_multiply_1stage_random_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_solve_tridiagonal_1stage_toeplitz_default.sh
FAIL validate_cpp_version_real_double_solve_tridiagonal_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_1stage_analytic_default.sh
FAIL validate_complex_double_eigenvectors_1stage_analytic_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_2stage_default_kernel_analytic_default.sh
FAIL validate_complex_double_eigenvectors_2stage_default_kernel_analytic_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_analytic_default.sh
FAIL validate_real_double_eigenvectors_1stage_analytic_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_analytic_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_analytic_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvalues_1stage_frank_default.sh
FAIL validate_real_double_eigenvalues_1stage_frank_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvalues_2stage_default_kernel_frank_default.sh
FAIL validate_real_double_eigenvalues_2stage_default_kernel_frank_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_frank_default.sh
FAIL validate_real_double_eigenvectors_1stage_frank_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_frank_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_frank_default.sh (exit status: 1)
FAIL: validate_real_double_hermitian_multiply_1stage_frank_default.sh
FAIL validate_real_double_hermitian_multiply_1stage_frank_default.sh (exit status: 1)
FAIL: validate_complex_double_cholesky_1stage_random_explicit_default.sh
FAIL validate_complex_double_cholesky_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_complex_double_cholesky_1stage_random_default.sh
FAIL validate_complex_double_cholesky_1stage_random_default.sh (exit status: 1)
FAIL: validate_real_double_cholesky_1stage_random_explicit_default.sh
FAIL validate_real_double_cholesky_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_cholesky_1stage_random_default.sh
FAIL validate_real_double_cholesky_1stage_random_default.sh (exit status: 1)
FAIL: validate_real_double_cholesky_1stage_random_split_comm_myself_explicit_default.sh
FAIL validate_real_double_cholesky_1stage_random_split_comm_myself_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_cholesky_1stage_random_split_comm_myself_default.sh
FAIL validate_real_double_cholesky_1stage_random_split_comm_myself_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_1stage_random_explicit_default.sh
FAIL validate_complex_double_eigenvectors_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_1stage_random_default.sh
FAIL validate_complex_double_eigenvectors_1stage_random_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh
FAIL validate_complex_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_2stage_default_kernel_random_default.sh
FAIL validate_complex_double_eigenvectors_2stage_default_kernel_random_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_random_explicit_default.sh
FAIL validate_real_double_eigenvectors_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_random_default.sh
FAIL validate_real_double_eigenvectors_1stage_random_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_random_split_comm_myself_explicit_default.sh
FAIL validate_real_double_eigenvectors_1stage_random_split_comm_myself_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_random_split_comm_myself_default.sh
FAIL validate_real_double_eigenvectors_1stage_random_split_comm_myself_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_random_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_random_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_random_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_random_split_comm_myself_explicit_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_random_split_comm_myself_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_random_split_comm_myself_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_random_split_comm_myself_default.sh (exit status: 1)
FAIL: validate_complex_double_generalized_1stage_random_all_layouts_default.sh
FAIL validate_complex_double_generalized_1stage_random_all_layouts_default.sh (exit status: 1)
FAIL: validate_complex_double_generalized_1stage_random_default.sh
FAIL validate_complex_double_generalized_1stage_random_default.sh (exit status: 1)
FAIL: validate_real_double_generalized_1stage_random_all_layouts_default.sh
FAIL validate_real_double_generalized_1stage_random_all_layouts_default.sh (exit status: 1)
FAIL: validate_real_double_generalized_1stage_random_default.sh
FAIL validate_real_double_generalized_1stage_random_default.sh (exit status: 1)
FAIL: validate_complex_double_generalized_decomp_1stage_random_default.sh
FAIL validate_complex_double_generalized_decomp_1stage_random_default.sh (exit status: 1)
FAIL: validate_real_double_generalized_decomp_1stage_random_default.sh
FAIL validate_real_double_generalized_decomp_1stage_random_default.sh (exit status: 1)
FAIL: validate_complex_double_hermitian_multiply_1stage_random_explicit_default.sh
FAIL validate_complex_double_hermitian_multiply_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_complex_double_hermitian_multiply_1stage_random_default.sh
FAIL validate_complex_double_hermitian_multiply_1stage_random_default.sh (exit status: 1)
FAIL: validate_real_double_hermitian_multiply_1stage_random_explicit_default.sh
FAIL validate_real_double_hermitian_multiply_1stage_random_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_hermitian_multiply_1stage_random_default.sh
FAIL validate_real_double_hermitian_multiply_1stage_random_default.sh (exit status: 1)
FAIL: validate_complex_double_cholesky_1stage_toeplitz_default.sh
FAIL validate_complex_double_cholesky_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_real_double_cholesky_1stage_toeplitz_default.sh
FAIL validate_real_double_cholesky_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvalues_1stage_toeplitz_explicit_default.sh
FAIL validate_complex_double_eigenvalues_1stage_toeplitz_explicit_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvalues_1stage_toeplitz_default.sh
FAIL validate_complex_double_eigenvalues_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvalues_2stage_default_kernel_toeplitz_default.sh
FAIL validate_complex_double_eigenvalues_2stage_default_kernel_toeplitz_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvalues_1stage_toeplitz_explicit_default.sh
FAIL validate_real_double_eigenvalues_1stage_toeplitz_explicit_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvalues_1stage_toeplitz_default.sh
FAIL validate_real_double_eigenvalues_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvalues_2stage_default_kernel_toeplitz_default.sh
FAIL validate_real_double_eigenvalues_2stage_default_kernel_toeplitz_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_1stage_toeplitz_default.sh
FAIL validate_complex_double_eigenvectors_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_complex_double_eigenvectors_2stage_default_kernel_toeplitz_default.sh
FAIL validate_complex_double_eigenvectors_2stage_default_kernel_toeplitz_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_1stage_toeplitz_default.sh
FAIL validate_real_double_eigenvectors_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_real_double_eigenvectors_2stage_default_kernel_toeplitz_default.sh
FAIL validate_real_double_eigenvectors_2stage_default_kernel_toeplitz_default.sh (exit status: 1)
FAIL: validate_real_double_solve_tridiagonal_1stage_toeplitz_default.sh
FAIL validate_real_double_solve_tridiagonal_1stage_toeplitz_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_explicit_invert_triangular_default.sh
FAIL validate_c_version_complex_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_c_version_complex_double_invert_triangular_default.sh
FAIL validate_c_version_complex_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_explicit_invert_triangular_default.sh
FAIL validate_c_version_real_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_c_version_real_double_invert_triangular_default.sh
FAIL validate_c_version_real_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_explicit_invert_triangular_default.sh
FAIL validate_cpp_version_complex_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_cpp_version_complex_double_invert_triangular_default.sh
FAIL validate_cpp_version_complex_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_explicit_invert_triangular_default.sh
FAIL validate_cpp_version_real_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_cpp_version_real_double_invert_triangular_default.sh
FAIL validate_cpp_version_real_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_complex_double_explicit_invert_triangular_default.sh
FAIL validate_complex_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_complex_double_invert_triangular_default.sh
FAIL validate_complex_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_real_double_explicit_invert_triangular_default.sh
FAIL validate_real_double_explicit_invert_triangular_default.sh (exit status: 1)
FAIL: validate_real_double_invert_triangular_default.sh
FAIL validate_real_double_invert_triangular_default.sh (exit status: 1)
FAIL: validate_double_instance_default.sh
FAIL validate_double_instance_default.sh (exit status: 1)
FAIL: validate_real_2stage_banded_default.sh
FAIL validate_real_2stage_banded_default.sh (exit status: 1)
FAIL: validate_complex_2stage_banded_default.sh
FAIL validate_complex_2stage_banded_default.sh (exit status: 1)
make[1]: *** [debian/rules:47: override_dh_auto_test] Error 1
make[1]: Leaving directory '/<<PKGBUILDDIR>>'
make: *** [debian/rules:36: build] Error 2
dpkg-buildpackage: error: debian/rules build subprocess returned exit status 2
--------------------------------------------------------------------------------
The above is just how the build ends and not necessarily the most relevant part.
If required, the full build log is available here:
https://people.debian.org/~sanvila/build-logs/202312/
About the archive rebuild: The build was made using virtual machines
from AWS, with enough memory, enough disk, and either one or two
CPUs, using a reduced chroot with only build-essential packages.
If you could not reproduce the bug please contact me privately, as I
am willing to provide ssh access to a virtual machine where the bug is
fully reproducible.
If this is really a bug in one of the build-depends, please use
reassign and affects, so that this is still visible in the BTS web
page for this package.
Thanks.
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