Package: src:octave-bim Version: 1.1.8-2 Severity: serious Tags: ftbfs forky sid
Dear maintainer: During a rebuild of all packages in unstable, your package failed to build. Below you will find how the build ends (probably the most relevant part, but not necessarily). If required, the full build log is available here: https://people.debian.org/~sanvila/build-logs/202509/ About the archive rebuild: The build was made on virtual machines from AWS, using sbuild and 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 add an affects on src:octave-bim, so that this is still visible in the BTS web page for this package. Thanks. -------------------------------------------------------------------------------- [...] debian/rules clean dh clean --buildsystem=octave dh_auto_clean -O--buildsystem=octave dh_octave_clean make[1]: Entering directory '/<<PKGBUILDDIR>>' make[1]: *** No rule to make target 'clean'. make[1]: *** No rule to make target 'distclean'. make[1]: Leaving directory '/<<PKGBUILDDIR>>' make[1]: Entering directory '/<<PKGBUILDDIR>>' make[1]: *** src: No such file or directory. Stop. make[1]: Leaving directory '/<<PKGBUILDDIR>>' dh_autoreconf_clean -O--buildsystem=octave dh_clean -O--buildsystem=octave debian/rules binary dh binary --buildsystem=octave dh_update_autotools_config -O--buildsystem=octave [... snipped ...] uex = @(r,z) exp(r); duexdr = @(r,z) uex(r,z); d2uexdr2 = @(r,z) uex(r,z); duexdz = @(r,z) 0*uex(r,z); d2uexdz2 = @(r,z) 0*uex(r,z); Dnodes = bim2c_unknowns_on_side(mesh,[2,4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); Varnodes = setdiff(1:Nnodes,Dnodes); D = 1; vr = 1; vz = 0; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D*[vr*ones(1,Nelements); vz*ones(1,Nelements)]; f = @(r,z) -D./r.*duexdr(r,z) - D.*d2uexdr2(r,z) ... + vr./r .* uex(r,z) + vr * duexdr(r,z) ... - D.*d2uexdz2(r,z) + vz * duexdz(r,z); rhs = bim2a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh.p(1,:), mesh.p(2,:))); S = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(Dnodes) = uex(mesh.p(1,Dnodes), mesh.p(2,Dnodes)); u(Varnodes) = S(Varnodes,Varnodes)\(rhs(Varnodes) - S(Varnodes,Dnodes)*u(Dnodes)); assert(u,uex(mesh.p(1,:), mesh.p(2,:))',1e-7) ***** test n = 20; [mesh] = msh2m_structured_mesh(linspace(1,2,n+1),linspace(0,1,n+1),1,1:4); mesh = bim2c_mesh_properties(mesh); uex = @(r,z) exp(r) .* exp(1-z); duexdr = @(r,z) uex(r,z); d2uexdr2 = @(r,z) uex(r,z); duexdz = @(r,z) -uex(r,z); d2uexdz2 = @(r,z) uex(r,z); Dnodes = bim2c_unknowns_on_side(mesh,[1,2,3,4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); Varnodes = setdiff(1:Nnodes,Dnodes); D = 1; vr = 1; vz = 1; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D*[vr*ones(1,Nelements); vz*ones(1,Nelements)]; f = @(r,z) -D./r.*duexdr(r,z) - D.*d2uexdr2(r,z) ... + vr./r .* uex(r,z) + vr * duexdr(r,z) ... - D.*d2uexdz2(r,z) + vz * duexdz(r,z); rhs = bim2a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh.p(1,:), mesh.p(2,:))); S = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(Dnodes) = uex(mesh.p(1,Dnodes), mesh.p(2,Dnodes)); u(Varnodes) = S(Varnodes,Varnodes)\(rhs(Varnodes) - S(Varnodes,Dnodes)*u(Dnodes)); assert(u,uex(mesh.p(1,:), mesh.p(2,:))',1e-3) ***** test n = 10; [mesh] = msh2m_structured_mesh(linspace(1,2,n+1),linspace(0,1,n+1),1,1:4); mesh = bim2c_mesh_properties(mesh); uex = @(r,z) exp(r) .* exp(1-z); duexdr = @(r,z) uex(r,z); d2uexdr2 = @(r,z) uex(r,z); duexdz = @(r,z) -uex(r,z); d2uexdz2 = @(r,z) uex(r,z); Dnodes = bim2c_unknowns_on_side(mesh,[1,2,3,4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); Varnodes = setdiff(1:Nnodes,Dnodes); D = 1; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D * mesh.p(1,:)'; f = @(r,z) -D./r.*duexdr(r,z) - D.*d2uexdr2(r,z) ... + 1./r .* uex(r,z) + duexdr(r,z) ... - D.*d2uexdz2(r,z); rhs = bim2a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh.p(1,:), mesh.p(2,:))); S = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(Dnodes) = uex(mesh.p(1,Dnodes), mesh.p(2,Dnodes)); u(Varnodes) = S(Varnodes,Varnodes)\(rhs(Varnodes) - S(Varnodes,Dnodes)*u(Dnodes)); assert(u,uex(mesh.p(1,:), mesh.p(2,:))',1e-3) ***** test n = 10; [mesh] = msh2m_structured_mesh(linspace(1,2,n+1),linspace(0,1,n+1),1,1:4); mesh = bim2c_mesh_properties(mesh); uex = @(r,z) exp(r) .* exp(1-z); duexdr = @(r,z) uex(r,z); d2uexdr2 = @(r,z) uex(r,z); duexdz = @(r,z) -uex(r,z); d2uexdz2 = @(r,z) uex(r,z); Dnodes = bim2c_unknowns_on_side(mesh,[1,2,3,4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); Varnodes = setdiff(1:Nnodes,Dnodes); D = 1; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D * 1/2*(mesh.p(1,:)').^2; f = @(r,z) 1./r.*(1+r).*(r-D) .* uex(r,z); rhs = bim2a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh.p(1,:), mesh.p(2,:))); S = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(Dnodes) = uex(mesh.p(1,Dnodes), mesh.p(2,Dnodes)); u(Varnodes) = S(Varnodes,Varnodes)\(rhs(Varnodes) - S(Varnodes,Dnodes)*u(Dnodes)); assert(u,uex(mesh.p(1,:), mesh.p(2,:))',1e-3) ***** test n = 3; [mesh] = msh2m_structured_mesh(linspace(-2,-1,n+1),linspace(0,1,n+1),1,1:4); mesh = bim2c_mesh_properties(mesh); uex = @(r,z) exp(r); duexdr = @(r,z) uex(r,z); d2uexdr2 = @(r,z) uex(r,z); duexdz = @(r,z) 0*uex(r,z); d2uexdz2 = @(r,z) 0*uex(r,z); Dnodes = bim2c_unknowns_on_side(mesh,[2,4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); Varnodes = setdiff(1:Nnodes,Dnodes); D = 1; vr = 1; vz = 0; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D*[vr*ones(1,Nelements); vz*ones(1,Nelements)]; f = @(r,z) -D./r.*duexdr(r,z) - D.*d2uexdr2(r,z) ... + vr./r .* uex(r,z) + vr * duexdr(r,z) ... - D.*d2uexdz2(r,z) + vz * duexdz(r,z); rhs = bim2a_axisymmetric_rhs(mesh, ones(Nelements,1), f(abs(mesh.p(1,:)), mesh.p(2,:))); S = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(Dnodes) = uex(abs(mesh.p(1,Dnodes)), mesh.p(2,Dnodes)); u(Varnodes) = S(Varnodes,Varnodes)\(rhs(Varnodes) - S(Varnodes,Dnodes)*u(Dnodes)); assert(u,uex(abs(mesh.p(1,:)), mesh.p(2,:))',1e-7) ***** test n = 10; [mesh] = msh2m_structured_mesh(linspace(-2,-1,n+1),linspace(0,1,n+1),1,1:4); mesh = bim2c_mesh_properties(mesh); uex = @(r,z) exp(r) .* exp(1-z); duexdr = @(r,z) uex(r,z); d2uexdr2 = @(r,z) uex(r,z); duexdz = @(r,z) -uex(r,z); d2uexdz2 = @(r,z) uex(r,z); Dnodes = bim2c_unknowns_on_side(mesh,[1,2,3,4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); Varnodes = setdiff(1:Nnodes,Dnodes); D = 1; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D * 1/2*(mesh.p(1,:)').^2; f = @(r,z) 1./r.*(1+r).*(r-D) .* uex(r,z); rhs = bim2a_axisymmetric_rhs(mesh, ones(Nelements,1), f(abs(mesh.p(1,:)), mesh.p(2,:))); S = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(Dnodes) = uex(abs(mesh.p(1,Dnodes)), mesh.p(2,Dnodes)); u(Varnodes) = S(Varnodes,Varnodes)\(rhs(Varnodes) - S(Varnodes,Dnodes)*u(Dnodes)); assert(u,uex(abs(mesh.p(1,:)), mesh.p(2,:))',1e-3) ***** test [mesh] = msh2m_structured_mesh([0:.1:1],[0:.1:1],1,1:4); mesh = bim2c_mesh_properties(mesh); x = mesh.p(1,:)'; y = mesh.p(2,:)'; Dnodes = bim2c_unknowns_on_side(mesh,[1:4]); Nnodes = columns(mesh.p); Nelements = columns(mesh.t); alpha = ones(Nelements,1); eta=ones(Nnodes,1); beta = 0; gamma = ones(Nnodes,1); A = bim2a_axisymmetric_advection_diffusion(mesh,1,1,1,0); B = bim2a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); assert(A,B) 7 tests, 7 passed, 0 known failure, 0 skipped [inst/bim3c_unknowns_on_faces.m] >>>>> /<<PKGBUILDDIR>>/inst/bim3c_unknowns_on_faces.m ***** shared mesh ***** test ***** test ***** test 3 tests, 3 passed, 0 known failure, 0 skipped [inst/bim1a_axisymmetric_rhs.m] >>>>> /<<PKGBUILDDIR>>/inst/bim1a_axisymmetric_rhs.m ***** test x = linspace(0,1,101); A = bim1a_axisymmetric_rhs(x,1,1); delta = ones(100,1); zeta = ones(101,1); B = bim1a_axisymmetric_rhs(x,delta,zeta); assert(A,B) 1 test, 1 passed, 0 known failure, 0 skipped [inst/bim1a_axisymmetric_advection_diffusion.m] >>>>> /<<PKGBUILDDIR>>/inst/bim1a_axisymmetric_advection_diffusion.m ***** test n = 3; mesh = linspace(1,2,n+1)'; uex = @(r) exp(r); duexdr = @(r) uex(r); d2uexdr2 = @(r) uex(r); Nnodes = numel(mesh); Nelements = Nnodes-1; D = 1; v = 1; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D*v*ones(Nelements,1); f = @(r) -D./r.*duexdr(r) - D.*d2uexdr2(r) ... + v./r .* uex(r) + v * duexdr(r); rhs = bim1a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh)); S = bim1a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u([1,end]) = uex(mesh([1 end])); u(2:end-1) = S(2:end-1,2:end-1)\(rhs(2:end-1) - S(2:end-1,[1 end])*u([1 end])); assert(u,uex(mesh),1e-7) ***** test n = 100; mesh = linspace(0,1,n+1)'; cm = (mesh(1:end-1) + mesh(2:end))/2; uex = @(r) - r.^2 + 1; Nnodes = numel(mesh); Nelements = Nnodes-1; D = 1; v = 0; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = v; f = @(r) 4*D; rhs = bim1a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh)); S = bim1a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(end) = uex(mesh(end)); u(1:end-1) = S(1:end-1,1:end-1)\(rhs(1:end-1) - S(1:end-1,end)*u(end)); assert(u,uex(mesh),1e-3) ***** test n = 100; mesh = linspace(0,1,n+1)'; cm = (mesh(1:end-1) + mesh(2:end))/2; uex = @(r) - r.^2 + 1; Nnodes = numel(mesh); Nelements = Nnodes-1; D = 1; v = cm; alpha = D*ones(Nelements,1); gamma = ones(Nnodes,1); eta = ones(Nnodes,1); beta = 1/D*v; f = @(r) 4*D + 2 - 4*r.^2; rhs = bim1a_axisymmetric_rhs(mesh, ones(Nelements,1), f(mesh)); S = bim1a_axisymmetric_advection_diffusion(mesh,alpha,gamma,eta,beta); u = zeros(Nnodes,1); u(end) = uex(mesh(end)); u(1:end-1) = S(1:end-1,1:end-1)\(rhs(1:end-1) - S(1:end-1,end)*u(end)); assert(u,uex(mesh),1e-3) ***** test x = linspace(0,1,101); A = bim1a_axisymmetric_advection_diffusion(x,1,1,1,0); alpha = ones(100,1); gamma = ones(101,1); eta = gamma; B = bim1a_axisymmetric_advection_diffusion(x,alpha,gamma,eta,0); assert(A,B) 4 tests, 4 passed, 0 known failure, 0 skipped [inst/bim3c_mesh_properties.m] >>>>> /<<PKGBUILDDIR>>/inst/bim3c_mesh_properties.m ***** shared mesh ***** test ***** test ***** test ***** test 4 tests, 4 passed, 0 known failure, 0 skipped Checking C++ files ... Done running the unit tests. Summary: 93 tests, 93 passed, 0 known failures, 0 skipped dh_installdocs -O--buildsystem=octave dh_installchangelogs -O--buildsystem=octave dh_octave_changelogs -O--buildsystem=octave dh_octave_examples -O--buildsystem=octave dh_installsystemduser -O--buildsystem=octave dh_perl -O--buildsystem=octave dh_link -O--buildsystem=octave dh_strip_nondeterminism -O--buildsystem=octave dh_compress -O--buildsystem=octave dh_fixperms -O--buildsystem=octave dh_missing -O--buildsystem=octave dh_octave_substvar -O--buildsystem=octave dh_installdeb -O--buildsystem=octave debian/rules execute_after_dh_installdeb make[1]: Entering directory '/<<PKGBUILDDIR>>' rmdir $(find debian/octave-bim/ -name doc -empty) rmdir: missing operand Try 'rmdir --help' for more information. make[1]: *** [debian/rules:8: execute_after_dh_installdeb] Error 1 make[1]: Leaving directory '/<<PKGBUILDDIR>>' make: *** [debian/rules:5: binary] Error 2 dpkg-buildpackage: error: debian/rules binary subprocess returned exit status 2 --------------------------------------------------------------------------------
