Bug#917748: marked as done (octave-msh: FTBFS: tests failed)

Debian Bug Tracking System Sun, 06 Jan 2019 11:27:37 -0800

Your message dated Sun, 6 Jan 2019 20:02:58 +0100
with message-id <[email protected]>
and subject line Re: Bug#917748: octave-msh: FTBFS: tests failed
has caused the Debian Bug report #917748,
regarding octave-msh: FTBFS: tests failed
to be marked as done.


This means that you claim that the problem has been dealt with.
If this is not the case it is now your responsibility to reopen the
Bug report if necessary, and/or fix the problem forthwith.

(NB: If you are a system administrator and have no idea what this
message is talking about, this may indicate a serious mail system
misconfiguration somewhere. Please contact [email protected]
immediately.)


-- 
917748: https://bugs.debian.org/cgi-bin/bugreport.cgi?bug=917748
Debian Bug Tracking System
Contact [email protected] with problems

--- Begin Message ---

Source: octave-msh
Version: 1.0.10-5
Severity: serious
Justification: FTBFS on amd64
Tags: buster sid
Usertags: ftbfs-20181229 ftbfs-buster

Hi,

During a rebuild of all packages in sid, your package failed to build
on amd64.

Relevant part (hopefully):
> make[1]: Entering directory '/<<PKGBUILDDIR>>/src'
> /usr/bin/mkoctfile --verbose -Wdate-time -D_FORTIFY_SOURCE=2  mshm_refine.cc 
> -Wl,-z,relro 
> /usr/bin/mkoctfile --verbose -Wdate-time -D_FORTIFY_SOURCE=2  
> mshm_dolfin_read.cc -Wl,-z,relro 
> g++ -c -Wdate-time -D_FORTIFY_SOURCE=2  -fPIC 
> -I/usr/include/octave-4.4.1/octave/.. -I/usr/include/octave-4.4.1/octave  
> -pthread -fopenmp -g -O2 -fdebug-prefix-map=/<<PKGBUILDDIR>>=. 
> -fstack-protector-strong -Wformat -Werror=format-security  -Wdate-time   
> -D_FORTIFY_SOURCE=2 mshm_refine.cc -o mshm_refine.o
> g++ -c -Wdate-time -D_FORTIFY_SOURCE=2  -fPIC 
> -I/usr/include/octave-4.4.1/octave/.. -I/usr/include/octave-4.4.1/octave  
> -pthread -fopenmp -g -O2 -fdebug-prefix-map=/<<PKGBUILDDIR>>=. 
> -fstack-protector-strong -Wformat -Werror=format-security  -Wdate-time   
> -D_FORTIFY_SOURCE=2 mshm_dolfin_read.cc -o mshm_dolfin_read.o
> g++ -I/usr/include/octave-4.4.1/octave/.. -I/usr/include/octave-4.4.1/octave  
> -pthread -fopenmp -g -O2 -fdebug-prefix-map=/<<PKGBUILDDIR>>=. 
> -fstack-protector-strong -Wformat -Werror=format-security -shared 
> -Wl,-Bsymbolic  -Wdate-time -o mshm_refine.oct  mshm_refine.o   -Wl,-z,relro 
> -L/usr/lib/x86_64-linux-gnu/octave/4.4.1 -L/usr/lib/x86_64-linux-gnu 
> -loctinterp -loctave -Wl,-z,relro 
> g++ -I/usr/include/octave-4.4.1/octave/.. -I/usr/include/octave-4.4.1/octave  
> -pthread -fopenmp -g -O2 -fdebug-prefix-map=/<<PKGBUILDDIR>>=. 
> -fstack-protector-strong -Wformat -Werror=format-security -shared 
> -Wl,-Bsymbolic  -Wdate-time -o mshm_dolfin_read.oct  mshm_dolfin_read.o   
> -Wl,-z,relro -L/usr/lib/x86_64-linux-gnu/octave/4.4.1 
> -L/usr/lib/x86_64-linux-gnu -loctinterp -loctave -Wl,-z,relro 
> /usr/bin/mkoctfile --verbose -Wdate-time -D_FORTIFY_SOURCE=2  
> mshm_dolfin_write.cc -Wl,-z,relro 
> g++ -c -Wdate-time -D_FORTIFY_SOURCE=2  -fPIC 
> -I/usr/include/octave-4.4.1/octave/.. -I/usr/include/octave-4.4.1/octave  
> -pthread -fopenmp -g -O2 -fdebug-prefix-map=/<<PKGBUILDDIR>>=. 
> -fstack-protector-strong -Wformat -Werror=format-security  -Wdate-time   
> -D_FORTIFY_SOURCE=2 mshm_dolfin_write.cc -o mshm_dolfin_write.o
> g++ -I/usr/include/octave-4.4.1/octave/.. -I/usr/include/octave-4.4.1/octave  
> -pthread -fopenmp -g -O2 -fdebug-prefix-map=/<<PKGBUILDDIR>>=. 
> -fstack-protector-strong -Wformat -Werror=format-security -shared 
> -Wl,-Bsymbolic  -Wdate-time -o mshm_dolfin_write.oct  mshm_dolfin_write.o   
> -Wl,-z,relro -L/usr/lib/x86_64-linux-gnu/octave/4.4.1 
> -L/usr/lib/x86_64-linux-gnu -loctinterp -loctave -Wl,-z,relro 
> make[1]: Leaving directory '/<<PKGBUILDDIR>>/src'
> copyfile /<<PKGBUILDDIR>>/./src/mshm_dolfin_read.oct 
> /<<PKGBUILDDIR>>/./src/mshm_dolfin_write.oct 
> /<<PKGBUILDDIR>>/./src/mshm_refine.oct 
> /<<PKGBUILDDIR>>/./inst/x86_64-pc-linux-gnu-api-v52
> For information about changes from previous versions of the msh package, run 
> 'news msh'.
>    dh_octave_check -O--buildsystem=octave
> Checking package...
> Checking m files ...
> [inst/msh2m_submesh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_submesh.m
> ***** test
>  [mesh1] = msh2m_structured_mesh(0:.5:1, 0:.5:1, 1, 1:4, 'left');
>  [mesh2] = msh2m_structured_mesh(1:.5:2, 0:.5:1, 1, 1:4, 'left');
>  [mesh]  = msh2m_join_structured_mesh(mesh1,mesh2,2,4);
>  [omesh,nodelist,elementlist] = msh2m_submesh(mesh,[],2);
>  p = [1.00000   1.00000   1.00000   1.50000   1.50000   1.50000   2.00000   
> 2.00000   2.00000
>       0.00000   0.50000   1.00000   0.00000   0.50000   1.00000   0.00000   
> 0.50000   1.00000];
>  e = [1   1   2   3   4   6   7   8
>       2   4   3   6   7   9   8   9
>       0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0
>       2   5   2   7   5   7   6   6
>       2   0   2   0   0   0   0   0
>       1   2   1   2   2   2   2   2];
>  t = [1   2   4   5   2   3   5   6
>       4   5   7   8   4   5   7   8
>       2   3   5   6   5   6   8   9
>       2   2   2   2   2   2   2   2];
>  nl = [7    8    9   10   11   12   13   14   15];
>  el = [9   10   11   12   13   14   15   16];
>  toll = 1e-4;
>  assert(omesh.p,p,toll);
>  assert(omesh.e,e);
>  assert(omesh.t,t);
>  assert(nodelist,nl);
>  assert(elementlist,el);
> ***** demo
>  name = [tmpnam ".geo"];
>  fid = fopen (name, "w");
>  fputs (fid, "Point(1) = {0, 0, 0, .1};\n");
>  fputs (fid, "Point(2) = {1, 0, 0, .1};\n");
>  fputs (fid, "Point(3) = {1, 0.5, 0, .1};\n");
>  fputs (fid, "Point(4) = {1, 1, 0, .1};\n");
>  fputs (fid, "Point(5) = {0, 1, 0, .1};\n");
>  fputs (fid, "Point(6) = {0, 0.5, 0, .1};\n");
>  fputs (fid, "Line(1) = {1, 2};\n");
>  fputs (fid, "Line(2) = {2, 3};\n");
>  fputs (fid, "Line(3) = {3, 4};\n");
>  fputs (fid, "Line(4) = {4, 5};\n");
>  fputs (fid, "Line(5) = {5, 6};\n");
>  fputs (fid, "Line(6) = {6, 1};\n");
>  fputs (fid, "Point(7) = {0.2, 0.6, 0};\n");
>  fputs (fid, "Point(8) = {0.5, 0.4, 0};\n");
>  fputs (fid, "Point(9) = {0.7, 0.6, 0};\n");
>  fputs (fid, "BSpline(7) = {6, 7, 8, 9, 3};\n");
>  fputs (fid, "Line Loop(8) = {6, 1, 2, -7};\n");
>  fputs (fid, "Plane Surface(9) = {8};\n");
>  fputs (fid, "Line Loop(10) = {7, 3, 4, 5};\n");
>  fputs (fid, "Plane Surface(11) = {10};\n");
>  fclose (fid);
>  mesh  = msh2m_gmsh (canonicalize_file_name (name)(1:end-4), "clscale", ".5");
>  mesh1 = msh2m_submesh (mesh, 7, 9);
>  subplot (1, 2, 1);
>  trimesh (mesh.t(1:3,:)', mesh.p(1,:)', mesh.p(2,:)');
>  axis ("equal"); title ("full mesh")
>  subplot (1, 2, 2);
>  trimesh (mesh1.t(1:3,:)', mesh1.p(1,:)', mesh1.p(2,:)');
>  axis ("equal"); title ("sub-mesh")
>  unlink (canonicalize_file_name (name))
> 1 test, 1 passed, 0 known failure, 0 skipped
> [inst/msh3m_structured_mesh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh3m_structured_mesh.m
> ***** test
> ***** test
>  x = y = z = linspace (0, 1, 3);
>  mesh = msh3m_structured_mesh (x, y, z, 1, 1:6);
>  assert (columns (mesh.p), 27)
>  assert (columns (mesh.t), 48)
>  assert (columns (mesh.e), 48)
> ***** test
>  x = y = z = linspace (0,1,4);
>  [mesh] = msh3m_structured_mesh (x, y, z, 1, 1:6);
>  assert (columns (mesh.p), 64)
>  assert (columns (mesh.t), 162)
>  assert (columns (mesh.e), 108)
> ***** test
>  x = y = z = linspace (0, 1, 1);
>  fail("mesh = msh3m_structured_mesh (x, y, z, 1, 1:6)", 
> "msh3m_structured_mesh: X, Y, Z must be valid numeric vectors.");
> ***** test
>  x = y = z = eye (2);
>  fail("mesh = msh3m_structured_mesh (x, y, z, 1, 1:6)", 
> "msh3m_structured_mesh: X, Y, Z must be valid numeric vectors.");
> 5 tests, 5 passed, 0 known failure, 0 skipped
> [inst/msh2m_topological_properties.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_topological_properties.m
> ***** test
>  [mesh] = msh2m_structured_mesh(0:.5:1, 0:.5:1, 1, 1:4, "left");
>  [mesh.n,mesh.sides,mesh.ts,mesh.tws,mesh.coinc,mesh.boundary] = 
> msh2m_topological_properties(mesh,"n","sides","ts","tws","coinc","boundary");
>  n = [5     6     7     8     3     4   NaN   NaN
>     NaN   NaN     5     6     2   NaN     4   NaN
>     NaN     5   NaN     7     1     2     3     4];
>  sides = [1   1   2   2   2   3   3   4   4   5   5   5   6   6   7   8
>           2   4   3   4   5   5   6   5   7   6   7   8   8   9   8   9];
>  ts = [4    6   11   13    8   10   15   16
>        1    3    8   10    5    7   12   14
>        2    5    9   12    4    6   11   13];
>  tws = [ 1     1     2     5     2     6     6     3     3     4     7     4  
>    8     8     7     8
>        NaN   NaN   NaN     1     5     2   NaN     5   NaN     6     3     7  
>    4   NaN   NaN   NaN];
>  coinc = [1   2   3   4
>           5   6   7   8];
>  boundary =[ 1   3   7   8   6   8   1   2
>              3   3   1   1   2   2   2   2
>              0   0   0   0   0   0   0   0
>              0   0   0   0   0   0   0   0];
>  assert(mesh.n,n);
>  assert(mesh.sides,sides);
>  assert(mesh.ts,ts);
>  assert(mesh.tws,tws);
>  assert(mesh.coinc,coinc);
>  assert(mesh.boundary,boundary);
> ***** test
>  mesh.p = []; mesh.e = [];
>  mesh.t = [3    9   10    1    6    9   10    9    8    9
>            9    3    1   10   10   10    7    5    9    8
>            6    5    7    8    2    6    2    4    4   10
>            6    6    6    6    6    6    6    6    6    6];
>  [mesh.n] = msh2m_topological_properties(mesh,"n");
>  n = [6   NaN   NaN    10     7     5   NaN   NaN     8     4
>       NaN   8     7   NaN   NaN     1     5     9   NaN     6
>       2     1     4     3     6    10     3     2    10     9];
>  assert(mesh.n,n);
> ***** test
>  mesh.p = []; mesh.e = [];
>  mesh.t =[
>    10    3    6   11   10    3    6   11    1    7    5    9    2    5   11   
>  9   13    6
>    14    7   10   15   15    8   11   16    5   11    9   13    6    6   12   
> 10   14    7
>    15    8   11   16   11    4    7   12    2    8    6   10    3    2    8   
>  6   10    3
>     1    1    1    1    1    1    1    1    1    1    1    1    1    1    1   
>  1    1    1];
>  [mesh.n] = msh2m_topological_properties(mesh,"n");
>  n =[
>    NaN    10     5   NaN     4   NaN    10   NaN    14    15    16    17    
> 18    13   NaN     3     1     2
>      5     6     7     8     3   NaN    18    15   NaN     2    14    16   
> NaN     9    10    11    12    13
>     17    18    16     5     1     2     3     4   NaN     7   NaN   NaN    
> 14    11     8    12   NaN     7];
>  assert(mesh.n,n);
> 3 tests, 3 passed, 0 known failure, 0 skipped
> [inst/msh3m_submesh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh3m_submesh.m
> ***** shared mesh1,mesh2,jmesh,exmesh,nodelist,elemlist
> ***** test
> ***** test
> ***** test
> 3 tests, 3 passed, 0 known failure, 0 skipped
> [inst/msh3m_join_structured_mesh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh3m_join_structured_mesh.m
> ***** shared mesh1,mesh2,jmesh
> ***** test
> ***** test
> ***** test
> ***** test
> 4 tests, 4 passed, 0 known failure, 0 skipped
> [inst/msh3m_nodes_on_faces.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh3m_nodes_on_faces.m
> ***** shared x,y,z,mesh
> ***** test
> ***** test
> ***** test
> ***** test
> 4 tests, 4 passed, 0 known failure, 0 skipped
> [inst/msh2m_join_structured_mesh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_join_structured_mesh.m
> ***** test
>  [mesh1] = msh2m_structured_mesh(0:.5:1, 0:.5:1, 1, 1:4, 'left');
>  [mesh2] = msh2m_structured_mesh(1:.5:2, 0:.5:1, 1, 1:4, 'left');
>  [mesh]  = msh2m_join_structured_mesh(mesh1,mesh2,2,4);
>  p = [0.00000   0.00000   0.00000   0.50000   0.50000   0.50000   1.00000   
> 1.00000   1.00000   1.50000   1.50000   1.50000   2.00000   2.00000   2.00000
>       0.00000   0.50000   1.00000   0.00000   0.50000   1.00000   0.00000   
> 0.50000   1.00000   0.00000   0.50000   1.00000   0.00000   0.50000   
> 1.00000];
>  e = [1    4    7    8    3    6    1    2    7   10   13   14    9   12
>       4    7    8    9    6    9    2    3   10   13   14   15   12   15
>       0    0    0    0    0    0    0    0    0    0    0    0    0    0
>       0    0    0    0    0    0    0    0    0    0    0    0    0    0
>       1    1    2    2    3    3    4    4    5    5    6    6    7    7
>       0    0    2    2    0    0    0    0    0    0    0    0    0    0
>       1    1    1    1    1    1    1    1    2    2    2    2    2    2];
>  t = [1    2    4    5    2    3    5    6    7    8   10   11    8    9   11 
>   12
>       4    5    7    8    4    5    7    8   10   11   13   14   10   11   13 
>   14
>       2    3    5    6    5    6    8    9    8    9   11   12   11   12   14 
>   15
>       1    1    1    1    1    1    1    1    2    2    2    2    2    2    2 
>    2];
>  toll = 1e-4;
>  assert(mesh.p,p,toll);
>  assert(mesh.e,e,toll);
>  assert(mesh.t,t,toll);
> 1 test, 1 passed, 0 known failure, 0 skipped
> [inst/msh2m_gmsh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_gmsh.m
> ***** test
>  fid = fopen("circle.geo","w");
>  fprintf(fid,"Point(1) = {0, 0, 0, 1};\n");
>  fprintf(fid,"Point(2) = {1, 0, 0, 1};\n");
>  fprintf(fid,"Point(3) = {-1, 0, 0, 1};\n");
>  fprintf(fid,"Circle(1) = {3, 1, 2};\n");
>  fprintf(fid,"Circle(2) = {2, 1, 3};\n");
>  fprintf(fid,"Line Loop(4) = {2, 1};\n");
>  fprintf(fid,"Plane Surface(4) = {4};");
>  fclose(fid);
>  mesh = msh2m_gmsh("circle","v",0);
>  system("rm circle.geo");
>  nnodest = length(unique(mesh.t));
>  nnodesp = columns(mesh.p);
>  assert(nnodest,nnodesp);
> warning: tmpnam is obsolete and will be removed from a future version of 
> Octave, please use tempname instead
> !!!!! test failed
> msh2m_gmsh: the gmesh subprocess exited abnormally
> ***** demo
>  name = [tmpnam ".geo"];
>  fid = fopen (name, "w");
>  fputs (fid, "Point(1) = {0, 0, 0, .1};\n");
>  fputs (fid, "Point(2) = {1, 0, 0, .1};\n");
>  fputs (fid, "Point(3) = {1, 0.5, 0, .1};\n");
>  fputs (fid, "Point(4) = {1, 1, 0, .1};\n");
>  fputs (fid, "Point(5) = {0, 1, 0, .1};\n");
>  fputs (fid, "Point(6) = {0, 0.5, 0, .1};\n");
>  fputs (fid, "Line(1) = {1, 2};\n");
>  fputs (fid, "Line(2) = {2, 3};\n");
>  fputs (fid, "Line(3) = {3, 4};\n");
>  fputs (fid, "Line(4) = {4, 5};\n");
>  fputs (fid, "Line(5) = {5, 6};\n");
>  fputs (fid, "Line(6) = {6, 1};\n");
>  fputs (fid, "Point(7) = {0.2, 0.6, 0};\n");
>  fputs (fid, "Point(8) = {0.5, 0.4, 0};\n");
>  fputs (fid, "Point(9) = {0.7, 0.6, 0};\n");
>  fputs (fid, "BSpline(7) = {6, 7, 8, 9, 3};\n");
>  fputs (fid, "Line Loop(8) = {6, 1, 2, -7};\n");
>  fputs (fid, "Plane Surface(9) = {8};\n");
>  fputs (fid, "Line Loop(10) = {7, 3, 4, 5};\n");
>  fputs (fid, "Plane Surface(11) = {10};\n");
>  fclose (fid);
>  mesh = msh2m_gmsh (canonicalize_file_name (name)(1:end-4), "clscale", ".5");
>  trimesh (mesh.t(1:3,:)', mesh.p(1,:)', mesh.p(2,:)');
>  unlink (canonicalize_file_name (name));
> 1 test, 0 passed, 0 known failure, 0 skipped
> [inst/msh2m_geometrical_properties.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_geometrical_properties.m
> ***** test
>  [mesh] = msh2m_structured_mesh(0:.5:1, 0:.5:1, 1, 1:4, "left");
>  [mesh.bar, mesh.cir, mesh.emidp, mesh.slength, mesh.cdist, 
> mesh.area,mesh.midedge] = 
> msh2m_geometrical_properties(mesh,"bar","cir","emidp","slength","cdist","area","midedge");
>  bar = [0.16667   0.16667   0.66667   0.66667   0.33333   0.33333   0.83333   
> 0.83333
>         0.16667   0.66667   0.16667   0.66667   0.33333   0.83333   0.33333   
> 0.83333];
>  cir = [0.25000   0.25000   0.75000   0.75000   0.25000   0.25000   0.75000   
> 0.75000
>         0.25000   0.75000   0.25000   0.75000   0.25000   0.75000   0.25000   
> 0.75000];
>  emidp =[0.25000   0.75000   1.00000   1.00000   0.25000   0.75000   0.00000  
>  0.00000
>          0.00000   0.00000   0.25000   0.75000   1.00000   1.00000   0.25000  
>  0.75000];
>  slength =[0.70711   0.70711   0.70711   0.70711   0.50000   0.50000   
> 0.50000   0.50000
>            0.50000   0.50000   0.50000   0.50000   0.50000   0.50000   
> 0.50000   0.50000
>            0.50000   0.50000   0.50000   0.50000   0.70711   0.70711   
> 0.70711   0.70711];
>  cdist = [0.00000   0.00000   0.00000   0.00000   0.50000   0.50000   0.25000 
>   0.25000
>           0.25000   0.25000   0.50000   0.50000   0.50000   0.25000   0.50000 
>   0.25000
>           0.25000   0.50000   0.25000   0.50000   0.00000   0.00000   0.00000 
>   0.00000];
>  area = [ 0.12500 ;  0.12500 ;  0.12500 ;  0.12500 ;  0.12500 ;  0.12500 ;  
> 0.12500 ;  0.12500];
>  midedge = zeros(2,3,8);
>  midedge(:,:,1) = [0.25000   0.00000   0.25000
>                    0.25000   0.25000   0.00000];
>  midedge(:,:,2) = [0.25000   0.00000   0.25000
>                    0.75000   0.75000   0.50000];
>  midedge(:,:,3) = [0.75000   0.50000   0.75000
>                    0.25000   0.25000   0.00000];
>  midedge(:,:,4) = [0.75000   0.50000   0.75000
>                    0.75000   0.75000   0.50000];
>  midedge(:,:,5) = [0.50000   0.25000   0.25000
>                    0.25000   0.50000   0.25000];
>  midedge(:,:,6) = [0.50000   0.25000   0.25000
>                    0.75000   1.00000   0.75000];
>  midedge(:,:,7) = [1.00000   0.75000   0.75000
>                    0.25000   0.50000   0.25000];
>  midedge(:,:,8) = [1.00000   0.75000   0.75000
>                    0.75000   1.00000   0.75000];
>  toll = 1e-4;
>  assert(mesh.bar,bar,toll);
>  assert(mesh.cir,cir,toll);
>  assert(mesh.emidp,emidp,toll);
>  assert(mesh.slength,slength,toll);
>  assert(mesh.cdist,cdist,toll);
>  assert(mesh.area,area,toll);
>  assert(mesh.midedge,midedge,toll);
> 1 test, 1 passed, 0 known failure, 0 skipped
> [inst/msh3m_geometrical_properties.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh3m_geometrical_properties.m
> ***** shared mesh,wjacdet,shg,shp
> ***** test
> ***** test
> ***** test
> ***** test
> 4 tests, 4 passed, 0 known failure, 0 skipped
> [inst/msh2m_structured_mesh.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_structured_mesh.m
> ***** test
>  x = y = linspace(0,1,3);
>  msh = msh2m_structured_mesh(x,y,1,[1:4]);
>  p = [0.00000   0.00000   0.00000   0.50000   0.50000   0.50000 ...
>       1.00000   1.00000   1.00000
>       0.00000   0.50000   1.00000   0.00000   0.50000   1.00000 ...
>       0.00000   0.50000   1.00000];
>  assert(msh.p,p)
>  e = [1   4   7   8   3   6   1   2
>       4   7   8   9   6   9   2   3
>       0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0
>       1   1   2   2   3   3   4   4
>       0   0   0   0   0   0   0   0
>       1   1   1   1   1   1   1   1];
>  assert(msh.e,e)
>  t =[1   2   4   5   1   2   4   5
>      4   5   7   8   5   6   8   9
>      5   6   8   9   2   3   5   6
>      1   1   1   1   1   1   1   1];
>  assert(msh.t,t)
> 1 test, 1 passed, 0 known failure, 0 skipped
> [inst/msh2m_nodes_on_sides.m]
> >>>>> /<<PKGBUILDDIR>>/inst/msh2m_nodes_on_sides.m
> ***** test
>  [mesh1] = msh2m_structured_mesh(0:.5:1, 0:.5:1, 1, 1:4, 'left');
>  [mesh2] = msh2m_structured_mesh(1:.5:2, 0:.5:1, 1, 1:4, 'left');
>  [mesh] = msh2m_join_structured_mesh(mesh1,mesh2,2,4);
>  [nodelist] = msh2m_nodes_on_sides(mesh,[1 2]);
>  reallist = [1   4   7   8   9];
>  assert(nodelist,reallist);
> 1 test, 1 passed, 0 known failure, 0 skipped
> Checking C++ files ...
> [src/mshm_refine.cc]
> >>>>> /<<PKGBUILDDIR>>/src/mshm_refine.cc
> ***** demo
>  # Create a uniform mesh 
>  msh = msh2m_structured_mesh (linspace (0, 1, 4), linspace (0, 1, 4), 1, [1 : 
> 4]);
>  # Refine it only on cells from 1 to 3
>  partially_refined_mesh = mshm_refine (msh,[1:3]);
>  # Refine the original mesh uniformly
>  uniformly_refined_mesh = mshm_refine (msh);
> 
>  # plot the result 
>  clf;
>  subplot (1, 3, 1);
>  msh2p_mesh (msh);
>  title ('original mesh');
>  subplot (1, 3, 2);
>  msh2p_mesh (partially_refined_mesh);
>  title ('partially refined mesh');
>  subplot (1, 3, 3);
>  msh2p_mesh (uniformly_refined_mesh);
>  title ('uniformly refined mesh');
> ***** xtest
>  x = y = linspace (0, 1, 2);
>  msh = msh2m_structured_mesh (x, y, 1, [1 : 4]);
>  msh.t (4, 2) = 2;
>  msh_r = mshm_refine (msh);
>  msh_rr = mshm_refine (msh_r);
>  p = [ 0.00000   0.00000   1.00000   1.00000   0.50000   0.50000   1.00000   
> 0.00000   0.50000
>        0.00000   1.00000   0.00000   1.00000   0.50000   0.00000   0.50000   
> 0.50000   1.00000];
>  assert (msh_rr.p, p)
>  t = [ 1   3   3   4   1   2   2   4
>        5   5   5   5   5   5   5   5
>        6   6   7   7   8   8   9   9
>        1   1   1   1   2   2   2   2];
>  assert (msh_rr.t, t)
>  e =[  1   3   3   4   1   2   2   4
>        6   6   7   7   8   8   9   9
>        0   0   0   0   0   0   0   0
>        0   0   0   0   0   0   0   0
>        1   1   2   2   4   4   3   3
>        0   0   0   0   0   0   0   0
>        0   0   0   0   0   0   0   0];
>  assert (msh_rr.e, e)
> !!!!! known failure
> mshm_refine: the msh package was built without support for dolfin (dolfin.h 
> required)
> 1 test, 0 passed, 1 known failure, 0 skipped
> [src/mshm_dolfin_write.cc]
> >>>>> /<<PKGBUILDDIR>>/src/mshm_dolfin_write.cc
> ***** xtest
>  x = y = z = linspace (0, 1, 2);
>  msh = msh3m_structured_mesh (x, y, z, 1, [1 : 6]);
>  mshm_dolfin_write (msh, "msh");
>  msh = mshm_dolfin_read ("msh.xml");
>  p = [ 0   0   1   1   0   0   1   1
>        0   1   0   1   0   1   0   1
>        0   0   0   0   1   1   1   1];
>  assert (msh.p, p)
>  t = [   1   3   1   2   3   3
>          2   5   3   3   6   4
>          3   6   5   4   7   6
>          6   7   6   6   8   8
>          1   1   1   1   1   1];
>  assert (msh.t, t)
>  e = [1   1   5   3   1   1   2   2   6   3   4   3
>       2   2   6   5   5   3   4   3   7   7   6   4
>       6   3   7   7   6   5   6   4   8   8   8   8
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       1   5   6   3   1   3   4   5   6   2   4   2];
>  assert (msh.e, e)
> !!!!! known failure
> mshm_dolfn_write: the msh package was built without support for dolfin 
> (dolfin.h required)
> 1 test, 0 passed, 1 known failure, 0 skipped
> [src/mshm_dolfin_read.cc]
> >>>>> /<<PKGBUILDDIR>>/src/mshm_dolfin_read.cc
> ***** xtest
>  x = y = z = linspace (0, 1, 2);
>  msh = msh3m_structured_mesh (x, y, z, 1, [1 : 6]);
>  mshm_dolfin_write (msh, "msh");
>  msh = mshm_dolfin_read ("msh.xml");
>  p = [ 0   0   1   1   0   0   1   1
>        0   1   0   1   0   1   0   1
>        0   0   0   0   1   1   1   1];
>  assert (msh.p, p)
>  t = [   1   3   1   2   3   3
>          2   5   3   3   6   4
>          3   6   5   4   7   6
>          6   7   6   6   8   8
>          1   1   1   1   1   1];
>  assert (msh.t, t)
>  e = [1   1   5   3   1   1   2   2   6   3   4   3
>       2   2   6   5   5   3   4   3   7   7   6   4
>       6   3   7   7   6   5   6   4   8   8   8   8
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       0   0   0   0   0   0   0   0   0   0   0   0
>       1   5   6   3   1   3   4   5   6   2   4   2];
>  assert (msh.e, e)
> !!!!! known failure
> mshm_dolfn_write: the msh package was built without support for dolfin 
> (dolfin.h required)
> 1 test, 0 passed, 1 known failure, 0 skipped
> Summary: 32 tests, 28 passed, 3 known failures, 0 skipped
> Some tests failed.  Giving up...
> make: *** [debian/rules:9: binary] Error 1

The full build log is available from:
   http://aws-logs.debian.net/2018/12/29/octave-msh_1.0.10-5_unstable.log

A list of current common problems and possible solutions is available at
http://wiki.debian.org/qa.debian.org/FTBFS . You're welcome to contribute!

About the archive rebuild: The rebuild was done on EC2 VM instances from
Amazon Web Services, using a clean, minimal and up-to-date chroot. Every
failed build was retried once to eliminate random failures.

--- End Message ---

--- Begin Message ---

* Lucas Nussbaum <[email protected]> [2018-12-29 23:53]:

 Source: octave-msh
 Version: 1.0.10-5
 Severity: serious
 Justification: FTBFS on amd64
 Tags: buster sid
 Usertags: ftbfs-20181229 ftbfs-buster
During a rebuild of all packages in sid, your package failed to buildon amd64.
[snip]

Both versions 1.0.10-5 (testing) and 1.0.10-6 (unstable) passed thetests, viz:


https://ci.debian.net/data/autopkgtest/unstable/amd64/o/octave-msh/1641702/log.gz
https://ci.debian.net/data/autopkgtest/unstable/amd64/o/octave-msh/1646901/log.gz

I am hereby closing this bug report.

Thanks,

Rafael

--- End Message ---

Bug#917748: marked as done (octave-msh: FTBFS: tests failed)

Reply via email to