Package: src:siconos Version: 4.4.0+dfsg-6 Severity: serious Tags: ftbfs forky sid
Dear maintainer: During a rebuild of all packages in unstable, this package failed to build. Below you will find the last part of the build log (probably the most relevant part, but not necessarily). If required, the full build log is available here: https://people.debian.org/~sanvila/build-logs/202605/ 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 cannot 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:siconos, so that this is still visible in the BTS web page for this package. Thanks. -------------------------------------------------------------------------------- [...] debian/rules clean dh clean --with numpy3 --no-parallel --builddirectory=/<<PKGBUILDDIR>>/obj-x86_64-linux-gnu dh_auto_clean -O--no-parallel -O--builddirectory=/<<BUILDDIR>>/siconos-4.4.0\+dfsg/obj-x86_64-linux-gnu dh_autoreconf_clean -O--no-parallel -O--builddirectory=/<<BUILDDIR>>/siconos-4.4.0\+dfsg/obj-x86_64-linux-gnu dh_clean -O--no-parallel -O--builddirectory=/<<BUILDDIR>>/siconos-4.4.0\+dfsg/obj-x86_64-linux-gnu rm -f debian/debhelper-build-stamp rm -rf debian/.debhelper/ rm -f -- debian/siconos.substvars debian/siconos-mechanics-tools.substvars debian/libsiconos-numerics7.substvars debian/libsiconos-numerics-dev.substvars debian/libsiconos-kernel7.substvars debian/libsiconos-kernel-dev.substvars debian/libsiconos-control7.substvars debian/libsiconos-control-dev.substvars debian/libsiconos-mechanics7.substvars debian/libsiconos-mechanics-dev.substvars debian/libsiconos-io7.substvars debian/libsiconos-io-dev.substvars debian/python3-siconos.substvars debian/files rm -fr -- debian/siconos/ debian/tmp/ debian/siconos-mechanics-tools/ debian/libsiconos-numerics7/ debian/libsiconos-numerics-dev/ debian/libsiconos-kernel7/ debian/libsiconos-kernel-dev/ debian/libsiconos-control7/ debian/libsiconos-control-dev/ debian/libsiconos-mechanics7/ debian/libsiconos-mechanics-dev/ debian/libsiconos-io7/ debian/libsiconos-io-dev/ debian/python3-siconos/ find . \( \( \ \( -path .\*/.git -o -path .\*/.svn -o -path .\*/.bzr -o -path .\*/.hg -o -path .\*/CVS -o -path .\*/.pc -o -path .\*/_darcs \) -prune -o -type f -a \ \( -name '#*#' -o -name '.*~' -o -name '*~' -o -name DEADJOE \ -o -name '*.orig' -o -name '*.rej' -o -name '*.bak' \ -o -name '.*.orig' -o -name .*.rej -o -name '.SUMS' \ -o -name TAGS -o \( -path '*/.deps/*' -a -name '*.P' \) \ [... snipped ...] nslaw = sk.NewtonImpactNSL(e) nslaw_d = sk.NewtonImpactNSL(e) relation = sk.LagrangianLinearTIR(H) relation_d = sk.LagrangianLinearTIR(H) inter = sk.Interaction(nslaw, relation) inter_d = sk.Interaction(nslaw_d, relation_d) # # NSDS # bouncing_ball = sk.NonSmoothDynamicalSystem(t0, T) bouncing_ball_d = sk.NonSmoothDynamicalSystem(t0, T) # add the dynamical system to the non smooth dynamical system bouncing_ball.insertDynamicalSystem(ball) bouncing_ball_d.insertDynamicalSystem(ball_d) # link the interaction and the dynamical system bouncing_ball.link(inter, ball) bouncing_ball_d.link(inter_d, ball_d) # # Simulation # # (1) OneStepIntegrators OSI = sk.MoreauJeanOSI(theta) OSI_d = sk.MoreauJeanOSI(theta) # (2) Time discretisation -- t = sk.TimeDiscretisation(t0, h) t_d = sk.TimeDiscretisation(t0, h) # (3) one step non smooth problem osnspb = sk.LCP() osnspb_d = sk.LCP() # (4) Simulation setup with (1) (2) (3) s = sk.TimeStepping(bouncing_ball,t, OSI, osnspb) s_d = sk.TimeStepping(bouncing_ball_d,t_d, OSI_d, osnspb_d) # end of model definition # # computation # # the number of time steps nb_time_steps = int((T - t0) / h + 1) # Get the values to be plotted # ->saved in a matrix data s_d.computeOneStep() data = np.empty((nb_time_steps + 1, 5)) data_d = np.empty((nb_time_steps + 1, 5)) data[0, 0] = t0 data[0, 1] = ball.q()[0] data[0, 2] = ball.velocity()[0] data[0, 3] = ball.p(1)[0] > data[0, 4] = inter.lambda_(1) ^^^^^^^^^^ E ValueError: setting an array element with a sequence. test_bouncing_ball.py:240: ValueError ----------------------------- Captured stdout call ----------------------------- computing FExt at t= 0 computing FExt at t= 0.0 computing FExt at t= 0.005 computing FExt at t= 0.005 computing FExt at t= 0.005 _____________________________ test_bouncing_ball4 ______________________________ TypeError: only 0-dimensional arrays can be converted to Python scalars The above exception was the direct cause of the following exception: def test_bouncing_ball4(): """Run a complete simulation (Bouncing ball example) LagrangianDS, plugged Fext. """ t0 = 0 # start time r = 0.1 # ball radius g = 9.81 # gravity m = 1 # ball mass # # dynamical system # x = np.zeros(3, dtype=np.float64) x[0] = 1. v = np.zeros_like(x) # mass matrix mass = np.eye(3, dtype=np.float64) mass[2, 2] = 3. / 5 * r * r # the dynamical system ball = sk.LagrangianLinearTIDS(x, v, mass) stiffness = np.eye(3, dtype=np.float64) ball.setKPtr(stiffness) weight = np.zeros(ball.dimension()) weight[0] = -m * g #ball.setFExtPtr(weight) # a ball with its own computeFExt class Ball(sk.LagrangianLinearTIDS): def __init__(self,x, v, mass, stiffness): sk.LagrangianLinearTIDS.__init__(self,x,v,mass) self.setKPtr(stiffness) def computeFExt(self, t): """External forces operator computation """ print("computing FExt at t=", t) #self._fExt[0] = -m * g weight = np.zeros(self.dimension()) weight[0] = -m * g #self.setFExtPtr(weight) ball_d = Ball(x.copy(), v.copy(), mass, stiffness) ball_d.computeFExt(t0) > run_simulation_with_two_ds(ball, ball_d, t0) test_bouncing_ball.py:438: _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ ball = <siconos.kernel.LagrangianLinearTIDS; proxy of <Swig Object of type 'std::shared_ptr< LagrangianLinearTIDS > *' at 0x7f4def19b130> > ball_d = <siconos.tests.test_bouncing_ball.Ball; proxy of <Swig Object of type 'std::shared_ptr< LagrangianLinearTIDS > *' at 0x7f4dee61c3f0> > t0 = 0 def run_simulation_with_two_ds(ball, ball_d, t0): T = 5 # end time h = 0.005 # time step e = 0.9 # restitution coeficient theta = 0.5 # theta scheme # ball-floor H = np.zeros((1, 3), dtype=np.float64) H[0, 0] = 1. nslaw = sk.NewtonImpactNSL(e) nslaw_d = sk.NewtonImpactNSL(e) relation = sk.LagrangianLinearTIR(H) relation_d = sk.LagrangianLinearTIR(H) inter = sk.Interaction(nslaw, relation) inter_d = sk.Interaction(nslaw_d, relation_d) # # NSDS # bouncing_ball = sk.NonSmoothDynamicalSystem(t0, T) bouncing_ball_d = sk.NonSmoothDynamicalSystem(t0, T) # add the dynamical system to the non smooth dynamical system bouncing_ball.insertDynamicalSystem(ball) bouncing_ball_d.insertDynamicalSystem(ball_d) # link the interaction and the dynamical system bouncing_ball.link(inter, ball) bouncing_ball_d.link(inter_d, ball_d) # # Simulation # # (1) OneStepIntegrators OSI = sk.MoreauJeanOSI(theta) OSI_d = sk.MoreauJeanOSI(theta) # (2) Time discretisation -- t = sk.TimeDiscretisation(t0, h) t_d = sk.TimeDiscretisation(t0, h) # (3) one step non smooth problem osnspb = sk.LCP() osnspb_d = sk.LCP() # (4) Simulation setup with (1) (2) (3) s = sk.TimeStepping(bouncing_ball,t, OSI, osnspb) s_d = sk.TimeStepping(bouncing_ball_d,t_d, OSI_d, osnspb_d) # end of model definition # # computation # # the number of time steps nb_time_steps = int((T - t0) / h + 1) # Get the values to be plotted # ->saved in a matrix data s_d.computeOneStep() data = np.empty((nb_time_steps + 1, 5)) data_d = np.empty((nb_time_steps + 1, 5)) data[0, 0] = t0 data[0, 1] = ball.q()[0] data[0, 2] = ball.velocity()[0] data[0, 3] = ball.p(1)[0] > data[0, 4] = inter.lambda_(1) ^^^^^^^^^^ E ValueError: setting an array element with a sequence. test_bouncing_ball.py:240: ValueError ----------------------------- Captured stdout call ----------------------------- computing FExt at t= 0 =========================== short test summary info ============================ FAILED test_bouncing_ball.py::test_bouncing_ball2 - ValueError: setting an ar... FAILED test_bouncing_ball.py::test_bouncing_ball3 - ValueError: setting an ar... FAILED test_bouncing_ball.py::test_bouncing_ball4 - ValueError: setting an ar... ========================= 3 failed, 1 passed in 0.12s ========================== Start 79: python_test_diode_bridge 79/93 Test #79: python_test_diode_bridge .................... Passed 0.32 sec Start 80: python_test_dynamical_systems 80/93 Test #80: python_test_dynamical_systems ............... Passed 0.30 sec Start 81: python_test_lagrangiands_osi 81/93 Test #81: python_test_lagrangiands_osi ................ Passed 0.57 sec Start 82: python_test_matrix_exp 82/93 Test #82: python_test_matrix_exp ...................... Passed 0.41 sec Start 83: python_test_modelingTools 83/93 Test #83: python_test_modelingTools ................... Passed 0.27 sec Start 84: PIDTest 84/93 Test #84: PIDTest ..................................... Passed 0.03 sec Start 85: SMCTest 85/93 Test #85: SMCTest ..................................... Passed 0.09 sec Start 86: ObserverTest 86/93 Test #86: ObserverTest ................................ Passed 0.09 sec Start 87: TwistingTest 87/93 Test #87: TwistingTest ................................ Passed 0.05 sec Start 88: python_test_smc 88/93 Test #88: python_test_smc ............................. Passed 0.42 sec Start 89: MultiBodyTest 89/93 Test #89: MultiBodyTest ............................... Passed 0.02 sec Start 90: Contact2dTest 90/93 Test #90: Contact2dTest ............................... Passed 0.03 sec Start 91: BasicTest 91/93 Test #91: BasicTest ................................... Passed 0.00 sec Start 92: KernelTest 92/93 Test #92: KernelTest .................................. Passed 0.05 sec Start 93: python_test_serialization 93/93 Test #93: python_test_serialization ................... Passed 0.33 sec 99% tests passed, 1 tests failed out of 93 Total Test time (real) = 7.07 sec The following tests FAILED: 78 - python_test_bouncing_ball (Failed) Errors while running CTest make[2]: *** [Makefile:74: test] Error 8 make[2]: Leaving directory '/<<PKGBUILDDIR>>/obj-x86_64-linux-gnu' rm -fr -- /tmp/dh-xdg-rundir-P5BuZA9_ dh_auto_test: error: cd obj-x86_64-linux-gnu && make -j1 test ARGS\+=--verbose ARGS\+=-j1 ARGS="-E 'COLLECTION|collection|python_test_lcp|dr_iso1|ContactTest'" returned exit code 2 make[1]: *** [debian/rules:92: override_dh_auto_test] Error 25 make[1]: Leaving directory '/<<PKGBUILDDIR>>' make: *** [debian/rules:54: binary] Error 2 dpkg-buildpackage: error: debian/rules binary subprocess failed with exit status 2 -------------------------------------------------------------------------------- -- debian-science-maintainers mailing list [email protected] https://alioth-lists.debian.net/cgi-bin/mailman/listinfo/debian-science-maintainers
