コード例 #1
0
    def _get_load_task(self):
        self.fold_task.x_1

        dof_constraints = fix(
            [0, 2, 6], [2]) + fix([0, 2], [1]) + fix([6], [0])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      use_f_du=True,
                                      acc=1e-8, MAX_ITER=1000,
                                      debug_level=0)

        FN = lambda F: lambda t: t * F

        F_ext_list = [(n, 2, FN(-1)) for n in [1, 3]]

        print 'F_ext_list', F_ext_list
        fu_tot_poteng = FuPotEngTotal(kappa=10, fu_factor=1,
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=1)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.u[:, :] = 0.0
        #cp.u[(4, 5), 2] = -0.001
        #cp.u[(1, 3), 2] = -0.001
        fu_tot_poteng.forming_task = st
        return st
コード例 #2
0
    def _get_fold_task(self):
        self.init_displ_task.x_1
        cp = self.factory_task

        n_t_h = cp.N_h[:, -1].flatten()
        n_b_h = cp.N_h[:, 0].flatten()
        n_lr_h = cp.N_h[(0, -1), :].flatten()

        u_max = self.u_x
        dof_constraints = fix(n_b_h, [1], lambda t: t * u_max) + fix(n_lr_h, [2]) + \
            fix(n_t_h, [1], lambda t: t * -u_max)

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_steps)

        st.formed_object.u[(4, 5), 2] = 0.001

        return st
コード例 #3
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    def _get_fold_task(self):
        x_1 = self.init_displ_task.x_1
        cp = self.factory_task

        n_l_h = cp.N_h[0, :].flatten()
        n_r_h = cp.N_h[-1, :].flatten()
        n_lr_h = cp.N_h[(0, -1), :].flatten()
        n_fixed_y = cp.N_h[(0, -1), 1].flatten()

        u_max = self.u_x
        dof_constraints = fix(n_l_h, [0], lambda t: t * u_max) + fix(n_lr_h, [2]) + \
            fix(n_fixed_y, [1]) + fix(n_r_h, [0], lambda t: t * -u_max) + \
            link(cp.N_v[0, :].flatten(), 0, 1.0,
                 cp.N_v[1, :].flatten(), 0, 1.0)

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=500,
            debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config,
                              n_steps=self.n_steps)
コード例 #4
0
ファイル: ex04_canopy.py プロジェクト: bmcs-group/oricreate
    def _get_turn_task2(self):

        self.fold_task.x_1

        u_z = 0.1
        fixed_nodes_xzy = fix([7, 19], (0, 1, 2))
        lift_nodes_z = fix([3, 15], (2), lambda t: t * u_z)

        dof_constraints = fixed_nodes_xzy + lift_nodes_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='total potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=1000,
            debug_level=0)
        load_nodes = []
        FN = lambda F: lambda t: t * F
        F_ext_list = [(n, 2, FN(-10)) for n in load_nodes]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([1000]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config,
                            n_steps=1)
        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.u[(3, 15), 2] = u_z
        return st
コード例 #5
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ファイル: ex04_canopy.py プロジェクト: bmcs-group/oricreate
    def _get_turn_task(self):
        self.fold_task.x_1
        fixed_nodes_z = fix([0, 1, 2, 20, 21, 22], (0, 2))
        fixed_nodes_y = fix([1, 21], (1))
        front_nodes = fix([8, 14], (0, 1, 2))

        dof_constraints = fixed_nodes_z + fixed_nodes_y + \
            front_nodes
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=500,
            debug_level=0)
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config,
                            n_steps=2)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.x_0[:, 2] *= -1
        cp.u[:, :] = 0.0

        if self.stiffening_boundary:
            cp.u[tuple(np.arange(47, 47 + 32)), 2] = -0.2

        return st
コード例 #6
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    def _get_load_task(self):
        self.fold_task.x_1

        dof_constraints = fix(
            [0, 2, 6], [2]) + fix([0, 2], [1]) + fix([6], [0])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      use_f_du=True,
                                      acc=1e-8, MAX_ITER=1000,
                                      debug_level=0)

        FN = lambda F: lambda t: t * F

        F_ext_list = [(n, 2, FN(-1)) for n in [1, 3]]

        print('F_ext_list', F_ext_list)
        fu_tot_poteng = FuPotEngTotal(kappa=10, fu_factor=1,
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=1)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.u[:, :] = 0.0
        #cp.u[(4, 5), 2] = -0.001
        #cp.u[(1, 3), 2] = -0.001
        fu_tot_poteng.forming_task = st
        return st
コード例 #7
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    def _get_fold_angle_cntl(self):

        # Link the crease factory it with the constraint client
        gu_constant_length = GuConstantLength()

        psi_max = np.pi * 0.3
        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=[([(1, 1.0)], lambda t: -psi_max * t),
                                              ])

        dof_constraints = fix([2], [0, 1, 2]) + fix([0], [1, 2]) \
            + fix([3], [2])
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={
                                          'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                      },
                                      acc=1e-5,
                                      MAX_ITER=100)
        sim_task = SimulationTask(previous_task=self.factory_task,
                                  config=sim_config,
                                  n_steps=5)
        return sim_task
コード例 #8
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    def _get_fold_task(self):
        self.init_displ_task.x_1

        fixed_z = fix(self.fixed_z, (2))
        fixed_y = fix(self.fixed_y, (1))
        fixed_x = fix(self.fixed_x, (0))
        link_z = link(self.link_z[0], [2], 1, self.link_z[1], [2], -1)

        dof_constraints = fixed_x + fixed_z + fixed_y + \
            link_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi): return lambda t: psi * t

        psi_constr = [([(i, 1.0)], FN(self.psi_max))
                      for i in self.psi_lines]

        gu_constant_length = GuConstantLength()

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=psi_constr)

        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                          },
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #9
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    def _get_load_task(self):
        self.fold_task.x_1
        cp = self.factory_task

        n_l_h = cp.N_h[0, (0, -1)].flatten()
        n_r_h = cp.N_h[-1, (0, -1)].flatten()

        dof_constraints = fix(n_l_h, [0, 1, 2]) + fix(n_r_h, [0, 1, 2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      use_f_du=True,
                                      acc=1e-4, MAX_ITER=1000,
                                      debug_level=0)
        F_ext_list = [(n, 2, 100.0) for n in cp.N_h[1, :]]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([10]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=1)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.u[:, :] = 0.0
        fu_tot_poteng.forming_task = st
        return st
コード例 #10
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    def _get_fold_task(self):
        self.init_displ_task.x_1
#        cp = self.init_displ_task.formed_object

#        print 'nodes', x_1[(0, 1, 2, 20, 21, 22), 2]

#        cp.u[(26, 25, 24, 23), 2] = -0.01
#        cp.x[(0, 1, 2, 20, 21, 22), 2] = 0.0
        u_max = self.u_x
        fixed_nodes_z = fix(
            [0, 1, 2, 20, 21, 22], (2))
#         fixed_nodes_x = fix(
#             [8, 9, 10, 11, 12, 13, 14], (0))
        fixed_nodes_y = fix(
            [1, 21], (1))  # 5, 11, 17,
        control_left = fix(
            [0, 1, 2], (0),
            lambda t: t * u_max)
        control_right = fix(
            [20, 21, 22], (0),
            lambda t: -t * u_max)

        dof_constraints = fixed_nodes_z + fixed_nodes_y + \
            control_left + control_right
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #11
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    def _get_load_task(self):
        self.fold_task.x_1
        cp = self.factory_task

        n_l_h = cp.N_h[0, (0, -1)].flatten()
        n_r_h = cp.N_h[-1, (0, -1)].flatten()

        dof_constraints = fix(n_l_h, [0, 1, 2]) + fix(n_r_h, [0, 1, 2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='total potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            use_f_du=True,
            acc=1e-4,
            MAX_ITER=1000,
            debug_level=0)
        F_ext_list = [(n, 2, 100.0) for n in cp.N_h[1, :]]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([10]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config,
                            n_steps=1)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.u[:, :] = 0.0
        fu_tot_poteng.forming_task = st
        return st
コード例 #12
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    def _get_fold_task(self):
        self.init_displ_task.x_1
        cp = self.factory_task

        n_t_h = cp.N_h[:, -1].flatten()
        n_b_h = cp.N_h[:, 0].flatten()
        n_lr_h = cp.N_h[(0, -1), :].flatten()

        u_max = self.u_x
        dof_constraints = fix(n_b_h, [1], lambda t: t * u_max) + fix(n_lr_h, [2]) + \
            fix(n_t_h, [1], lambda t: t * -u_max)

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_steps)

        st.formed_object.u[(4, 5), 2] = 0.001

        return st
コード例 #13
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    def _get_turn_task(self):
        self.fold_task.x_1
        fixed_nodes_z = fix(
            [0, 1, 2, 20, 21, 22], (0, 2))
        fixed_nodes_y = fix(
            [1, 21], (1))
        front_nodes = fix(
            [8, 14], (0, 1, 2))

        dof_constraints = fixed_nodes_z + fixed_nodes_y + \
            front_nodes
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=1)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.x_0[:, 2] *= -1
        cp.u[:, :] = 0.0

        cp.u[tuple(np.arange(47, 47 + 32)), 2] = -0.2

        return st
コード例 #14
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    def _get_fold_task(self):

        psi_max = self.fix_psi

        cp = self.factory_task.formed_object
        inner_lines = cp.iL

        psi_constr = [([(i, 1.0)], lambda t: psi_max * t)
                      for i in inner_lines]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        F_u_fix = cp.F_N[1]
        dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
            fix([F_u_fix[1]], [1, 2]) + \
            fix([F_u_fix[2]], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #15
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    def _get_fold_task(self):

        psi_max = self.fix_psi

        cp = self.factory_task.formed_object
        inner_lines = cp.iL

        psi_constr = [([(i, 1.0)], lambda t: psi_max * t) for i in inner_lines]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        F_u_fix = cp.F_N[1]
        dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
            fix([F_u_fix[1]], [1, 2]) + \
            fix([F_u_fix[2]], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={
                                          'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                      },
                                      acc=1e-5,
                                      MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config,
                              n_steps=self.n_steps)
コード例 #16
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    def _get_load_task(self):
        self.turn_task.x_1

        fixed_nodes_yz = fix([0, 2, 20,  22], (1, 2))  # + \
        fixed_nodes_x = fix([0, 2, 20, 22], (0))  # + \
        #    fix([1, 21], [0, 2])

        link_bnd = link([48, 49, 50, 56, 57, 58, 64, 65, 66, 72, 73, 74],
                        [0, 1, 2], 1.0,
                        [51, 52, 53, 59, 60, 61, 67, 68, 69, 75, 76, 77],
                        [0, 1, 2], -1.0)

        dof_constraints = fixed_nodes_x + fixed_nodes_yz + link_bnd
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=1000,
                                      debug_level=0)
        load_nodes = [10, 11, 12]
        FN = lambda F: lambda t: t * F
        F_ext_list = [(n, 2, FN(-10)) for n in load_nodes]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([10]),
                                      F_ext_list=F_ext_list)  # (2 * n, 2, -1)])
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.turn_task,
                            config=sim_config, n_steps=1)
        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.x_0 = self.turn_task.x_1
        cp.u[:, :] = 0.0
        return st
コード例 #17
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    def get_merge_nodes_task(self,
                             prev_ft,
                             merge_nodes=[[]],
                             link_nodes=[],
                             fix_node=[],
                             stiff_lines=[],
                             init_nodes=(),
                             init_val=0.0):

        cp = self.factory_task.formed_object

        psi_constr = [
            ([(i, 1.0)], lambda t: self.fix_psi * t)  # fold_step(t, i))
            for i in stiff_lines
        ]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=prev_ft,
                             psi_constraints=psi_constr)

        F_u_fix = cp.F_N[1]
        dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
            fix([F_u_fix[1]], [1, 2]) + \
            fix([F_u_fix[2]], [2])

        if len(link_nodes) > 0:
            ln = np.array(link_nodes, dtype=np.int_)
            link_nodes1, link_nodes2 = ln.T
            ldofs = link(link_nodes1, [0, 1, 2], 1.0, link_nodes2, [0, 1, 2],
                         -1.0)
            dof_constraints += ldofs

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()

        sim_config = SimulationConfig(
            goal_function_type='total potential energy',
            gu={
                'cl': gu_constant_length,
                'gu': gu_dof_constraints,
                'psi': gu_psi_constraints
            },
            acc=1e-5,
            MAX_ITER=500)

        fu_node_dist = \
            FuNodeDist(forming_task=prev_ft,
                       L=merge_nodes,
                       )

        sim_config._fu = fu_node_dist

        st = SimulationTask(previous_task=prev_ft,
                            config=sim_config,
                            n_steps=1)

        fu_node_dist.forming_task = st

        cp = st.formed_object
        return st
コード例 #18
0
ファイル: ex03_3b_4x8.py プロジェクト: bmcs-group/oricreate
    def _get_load_task(self):
        self.fold_task.x_1
        cp = self.factory_task

        n_l_h = cp.N_h[0, (0, -1)].flatten()
        n_r_h = cp.N_h[-1, (0, -1)].flatten()

        dof_constraints = fix(
            [0, 2, 4], [0, 1, 2]) + fix([20, 22, 24], [0, 1, 2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-6, MAX_ITER=1000,
                                      debug_level=0)
        FN = lambda F: lambda t: t * F
        F_max = 20

        F_ext_list = [(cp.N_h[2, :], 2, FN(F_max))]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([10]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=10)
        cp = st.formed_object
        cp.x_0 = self.fold_task.x_1
        cp.u[:, :] = 0.0
        cp.u[[10, 11, 12, 13, 14], 2] = 0.001
        fu_tot_poteng.forming_task = st
        return st
コード例 #19
0
ファイル: ex10_hp_shell.py プロジェクト: bmcs-group/oricreate
    def _get_fold_task(self):
        self.init_displ_task.x_1

        fixed_z = fix(self.fixed_z, (2))
        fixed_y = fix(self.fixed_y, (1))
        fixed_x = fix(self.fixed_x, (0))
        link_z = link(self.link_z[0], [2], 1, self.link_z[1], [2], -1)

        dof_constraints = fixed_x + fixed_z + fixed_y + \
            link_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        FN = lambda psi: lambda t: psi * t

        psi_constr = [([(i, 1.0)], FN(self.psi_max)) for i in self.psi_lines]

        gu_constant_length = GuConstantLength()

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=psi_constr)

        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints,
                'psi': gu_psi_constraints
            },
            acc=1e-5,
            MAX_ITER=500,
            debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config,
                              n_steps=self.n_steps)
コード例 #20
0
    def _get_turn_task2(self):

        self.fold_task.x_1

        u_z = 0.1
        fixed_nodes_xzy = fix([7, 19], (0, 1, 2))
        lift_nodes_z = fix([3, 15], (2), lambda t: t * u_z)

        dof_constraints = fixed_nodes_xzy + lift_nodes_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=1000,
                                      debug_level=0)
        load_nodes = []
        FN = lambda F: lambda t: t * F
        F_ext_list = [(n, 2, FN(-10)) for n in load_nodes]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([1000]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=1)
        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.u[(3, 15), 2] = u_z
        return st
コード例 #21
0
    def get_single_step_fold_task(self, seq_fold_task):

        ft = self.factory_task
        seq_cp = seq_fold_task.formed_object
        iL = seq_cp.iL
        iL_psi = seq_cp.iL_psi

        def fold_step(t, start_t=0.0, end_t=1.0):
            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        def FN(psi, start_t, end_t):            return lambda t: psi * \
fold_step(t, start_t, end_t)

        print('iL', iL)

        trange = np.zeros((len(iL), 2), dtype=np.float_)
        trange[:, 0] = 0.0
        trange[:, 1] = 0.4
        trange[2, :] = [0.3, 0.6]
        trange[7, :] = [0.5, 0.8]
        trange[10, :] = [0.5, 0.8]
        trange[11, :] = [0.6, 0.8]
        trange[15, :] = [0.6, 0.8]
        trange[16, :] = [0.8, 1.0]
        trange[18, :] = [0.6, 0.8]
        trange[14, :] = [0.8, 1.0]

        psi_constraints = [([(i, 1.0)], FN(i_psi, i_start, i_end))
                           for i, i_psi, i_start, i_end in zip(
                               iL, iL_psi, trange[:, 0], trange[:, 1])]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=ft,
                             psi_constraints=psi_constraints)

        F_u_fix = cp.F_N[1]
        dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
            fix([F_u_fix[1]], [1, 2]) + \
            fix([F_u_fix[2]], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={
                                          'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                      },
                                      acc=1e-5,
                                      MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=ft, config=sim_config, n_steps=50)
コード例 #22
0
    def _get_fold_deform_task(self):
        ft = self.factory_task

        self.init_displ_task.x_1

        fixed_z = fix(self.fixed_z, (2))
        fixed_y = fix(self.fixed_y, (1))
        fixed_x = fix(self.fixed_x, (0))
        link_z = link(self.link_z[0], [2], 1, self.link_z[1], [2], -1)

        dof_constraints = fixed_x + fixed_z + fixed_y + \
            link_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi):
            return lambda t: psi * t

        psi_constr = [([(i, 1.0)], FN(self.psi_max)) for i in self.psi_lines]

        gu_constant_length = GuConstantLength()

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=ft,
                             psi_constraints=psi_constr)

        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints,
                'psi': gu_psi_constraints
            },
            acc=1e-5,
            MAX_ITER=self.MAXITER,
            debug_level=0)

        fu_tot_poteng = FuPotEngTotal(kappa=np.array([self.kappa]),
                                      F_ext_list=[],
                                      rho=self.rho,
                                      exclude_lines=self.psi_lines)

        sim_config._fu = fu_tot_poteng

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config,
                            n_steps=self.n_steps)

        #
        #         st = SimulationTask(previous_task=ft,
        #                             config=sim_config, n_steps=self.n_steps)
        fu_tot_poteng.forming_task = st
        #         gu_psi_constraints.forming_task = st
        #
        #         cp = st.formed_object
        #         cp.u = it.u_1

        return st
コード例 #23
0
ファイル: ex04_canopy.py プロジェクト: bmcs-group/oricreate
    def _get_load_task(self):
        self.turn_task.x_1

        fixed_nodes_yz = fix([0, 2, 20, 22], (1, 2))  # + \
        fixed_nodes_x = fix([0, 2, 20, 22], (0))  # + \
        #    fix([1, 21], [0, 2])
        link_bnd = []
        if self.stiffening_boundary:
            link_bnd = link([48, 49, 50, 56, 57, 58, 64, 65, 66, 72, 73, 74],
                            [0, 1, 2], 1.0,
                            [51, 52, 53, 59, 60, 61, 67, 68, 69, 75, 76, 77],
                            [0, 1, 2], -1.0)

        dof_constraints = fixed_nodes_x + fixed_nodes_yz + link_bnd
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='total potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=1000,
            debug_level=0)

        def FN(F):
            return lambda t: t * F

        H = 0
        P = 3.5 * self.load_factor
        F_ext_list = [(33, 2, FN(-P)), (34, 2, FN(-P)), (11, 2, FN(-P)),
                      (39, 2, FN(-P)), (40, 2, FN(-P)), (4, 0, FN(0.1609 * H)),
                      (4, 2, FN(-0.2385 * H)), (10, 2, FN(-0.3975 * H)),
                      (16, 0, FN(-0.1609 * H)), (16, 2, FN(-0.2385 * H)),
                      (6, 0, FN(0.1609 * H)), (6, 2, FN(-0.2385 * H)),
                      (12, 2, FN(-0.3975 * H)), (18, 0, FN(-0.1609 * H)),
                      (18, 2, FN(-0.2385 * H))]

        fu_tot_poteng = FuPotEngTotal(kappa=np.array([5.28]),
                                      F_ext_list=F_ext_list)

        #         load_nodes = [10, 11, 12]
        #         FN = lambda F: lambda t: t * F
        #         F_ext_list = [(n, 2, FN(-10)) for n in load_nodes]
        #         fu_tot_poteng = FuPotEngTotal(kappa=np.array([10]),
        # F_ext_list=F_ext_list)  # (2 * n, 2, -1)])
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.turn_task,
                            config=sim_config,
                            n_steps=self.n_load_steps)
        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.x_0 = self.turn_task.x_1
        cp.u[:, :] = 0.0
        return st
コード例 #24
0
    def _get_fold_seq_task(self):

        psi_max = -self.phi_max
        dt = 1.0 / 7.0

        def fold_step(t, fold_index):

            n_steps = 7.0
            dt = 1.0 / n_steps
            start_t = fold_index * dt
            end_t = (fold_index + 1) * dt

            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=[([(0, 1.0)],
                                               lambda t: psi_max * fold_step(t, 0)),
                                              ([(1, 1.0)],
                                               lambda t: psi_max * fold_step(t, 1)),
                                              ([(6, 1.0)],
                                               lambda t: psi_max * fold_step(t, 2)),
                                              ([(7, 1.0)],
                                               lambda t: psi_max * fold_step(t, 3)),
                                              ([(3, 1.0)],
                                               lambda t: psi_max * fold_step(t, 4)),
                                              ([(12, 1.0)],
                                               lambda t: psi_max * fold_step(t, 5)),
                                              ([(13, 1.0)],
                                               lambda t: psi_max * fold_step(t, 6)),
                                              ]
                             )

        dof_constraints = fix([0], [0, 1, 2]) + fix([1], [1, 2]) \
            + fix([3], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={
                                          'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                      },
                                      acc=1e-5,
                                      MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config,
                              n_steps=self.n_steps)
コード例 #25
0
    def _get_load_task(self):
        self.turn_task.x_1

        fixed_nodes_yz = fix([0, 2, 20,  22], (1, 2))  # + \
        fixed_nodes_x = fix([0, 2, 20, 22], (0))  # + \
        fixed_nodes_middle = fix([1, 21], [0, 1, 2])

#         'Gesamter Randbereich'
#         link_bnd = link([48, 49, 50, 56, 57, 58, 64, 65, 66, 72, 73, 74, 71, 55],
#                         [0, 1, 2], 1.0,
#                         [51, 52, 53, 59, 60, 61, 67,
#                             68, 69, 75, 76, 77, 63, 47],
#                         [0, 1, 2], -1.0)

#         'Ohne mittlere Randknoten'
#         link_bnd = link([48, 49, 50, 56, 57, 58, 64, 65, 66, 72, 73, 74],
#                         [0, 1, 2], 1.0,
#                         [51, 52, 53, 59, 60, 61, 67,
#                             68, 69, 75, 76, 77],
#                         [0, 1, 2], -1.0)

#         'Ohne aeussere Randknoten'
#         link_bnd = link([48, 49, 56, 57, 64, 65, 72, 73, 71, 55],
#                         [0, 1, 2], 1.0,
#                         [51, 52, 59, 60, 67,
#                             68, 75, 76, 63, 47],
#                         [0, 1, 2], -1.0)

        # + link_bnd + # fixed_nodes_middle
        dof_constraints = fixed_nodes_x + fixed_nodes_yz
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-8, MAX_ITER=1000,
                                      debug_level=0)
        FN = lambda F: lambda t: t * F

        H = 0
        P = 3.5
        F_ext_list = [(33, 2, FN(-P)), (34, 2, FN(-P)), (11, 2, FN(-P)), (39, 2, FN(-P)), (40, 2, FN(-P)), (4, 0, FN(0.1609 * H)), (4, 2, FN(-0.2385 * H)), (10, 2, FN(-0.3975 * H)), (16, 0, FN(-0.1609 * H)), (16, 2, FN(-0.2385 * H)),
                      (6, 0, FN(0.1609 * H)), (6, 2, FN(-0.2385 * H)), (12, 2, FN(-0.3975 * H)), (18, 0, FN(-0.1609 * H)), (18, 2, FN(-0.2385 * H))]

        fu_tot_poteng = FuPotEngTotal(kappa=np.array([5.28]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.turn_task,
                            config=sim_config, n_steps=1)

        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.x_0 = self.turn_task.x_1
        cp.u[:, :] = 0.0
        return st
コード例 #26
0
    def get_single_step_fold_task(self, seq_fold_task):

        ft = self.factory_task
        seq_cp = seq_fold_task.formed_object
        iL = seq_cp.iL
        iL_psi = seq_cp.iL_psi

        def fold_step(t, start_t=0.0, end_t=1.0):
            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        FN = lambda psi, start_t, end_t: lambda t: psi * \
            fold_step(t, start_t, end_t)

        print 'iL', iL

        trange = np.zeros((len(iL), 2), dtype=np.float_)
        trange[:, 0] = 0.0
        trange[:, 1] = 0.4
        trange[2, :] = [0.3, 0.6]
        trange[7, :] = [0.5, 0.8]
        trange[10, :] = [0.5, 0.8]
        trange[11, :] = [0.6, 0.8]
        trange[15, :] = [0.6, 0.8]
        trange[16, :] = [0.8, 1.0]
        trange[18, :] = [0.6, 0.8]
        trange[14, :] = [0.8, 1.0]

        psi_constraints = [([(i, 1.0)], FN(i_psi, i_start, i_end))
                           for i, i_psi, i_start, i_end
                           in zip(iL, iL_psi, trange[:, 0], trange[:, 1])]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=ft,
                             psi_constraints=psi_constraints)

        F_u_fix = cp.F_N[1]
        dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
            fix([F_u_fix[1]], [1, 2]) + \
            fix([F_u_fix[2]], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=ft,
                              config=sim_config, n_steps=50)
コード例 #27
0
    def _get_fold_deform_task(self):
        ft = self.factory_task

        self.init_displ_task.x_1

        fixed_z = fix(self.fixed_z, (2))
        fixed_y = fix(self.fixed_y, (1))
        fixed_x = fix(self.fixed_x, (0))
        link_z = link(self.link_z[0], [2], 1, self.link_z[1], [2], -1)

        dof_constraints = fixed_x + fixed_z + fixed_y + \
            link_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi): return lambda t: psi * t

        psi_constr = [([(i, 1.0)], FN(self.psi_max))
                      for i in self.psi_lines]

        gu_constant_length = GuConstantLength()

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=ft,
                             psi_constraints=psi_constr)

        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                          },
                                      acc=1e-5, MAX_ITER=self.MAXITER,
                                      debug_level=0)

        fu_tot_poteng = FuPotEngTotal(kappa=np.array([self.kappa]),
                                      F_ext_list=[],
                                      rho=self.rho,
                                      exclude_lines=self.psi_lines)

        sim_config._fu = fu_tot_poteng

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_steps)

#
#         st = SimulationTask(previous_task=ft,
#                             config=sim_config, n_steps=self.n_steps)
        fu_tot_poteng.forming_task = st
#         gu_psi_constraints.forming_task = st
#
#         cp = st.formed_object
#         cp.u = it.u_1

        return st
コード例 #28
0
    def _get_fold_task(self):

        psi_max = np.pi - 138.19 / 180.0 * np.pi
        print(psi_max)
        inner_lines = [
            1, 7, 10, 11, 12, 13, 14, 16, 17, 18, 19, 22, 24, 25, 26, 32, 34,
            35, 37
        ]

        def fold_step(t, fold_index):

            n_steps = len(inner_lines)
            dt = 1.0 / float(n_steps)
            start_t = fold_index * dt
            end_t = (fold_index + 1) * dt

            print('t', t, start_t, end_t)
            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        np.random.shuffle(inner_lines)

        psi_constr = [
            ([(i, 1.0)], lambda t: psi_max * t)  # fold_step(t, i))
            for i in inner_lines
        ]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        dof_constraints = fix([6], [0, 1, 2]) + \
            fix([7], [1, 2]) + \
            fix([13], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={
                                          'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                      },
                                      acc=1e-5,
                                      MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config,
                              n_steps=self.n_steps)
コード例 #29
0
    def _get_fold_task(self):
        self.init_displ_task.x_1
        u_max = self.u_max
        fixed_nodes_x = fix([12, 14], (0))
        fixed_nodes_z = fix([1, 7, 10, 16, 19, 25], (2))
        fixed_nodes_y = fix([1, 25], (1))
        link_mid = link((6, 7, 8, 15, 16, 17, 24, 25, 26), (0), 1.0,
                        (0, 1, 2, 9, 10, 11, 18, 19, 20), (0), -1.0,
                        lambda t: -t * u_max)
        sym_y = link([0, 6, 9, 15, 18, 24], [2], 1.0, [2, 8, 11, 17, 20, 26],
                     [2], -1.0)

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y + \
            link_mid + sym_y
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=500,
            debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config,
                            n_steps=self.n_fold_steps)

        cp = st.formed_object
        cp.u[(
            4,
            13,
            22,
            3,
            12,
            21,
            5,
            14,
            23,
            28,
            30,
            36,
            42,
            27,
            29,
            35,
            41,
        ), 2] -= 0.2

        return st
コード例 #30
0
    def _get_fold_seq_task(self):

        psi_max = -self.phi_max
        dt = 1.0 / 7.0

        def fold_step(t, fold_index):

            n_steps = 7.0
            dt = 1.0 / n_steps
            start_t = fold_index * dt
            end_t = (fold_index + 1) * dt

            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=[([(0, 1.0)],
                                               lambda t: psi_max * fold_step(t, 0)),
                                              ([(1, 1.0)],
                                               lambda t: psi_max * fold_step(t, 1)),
                                              ([(6, 1.0)],
                                               lambda t: psi_max * fold_step(t, 2)),
                                              ([(7, 1.0)],
                                               lambda t: psi_max * fold_step(t, 3)),
                                              ([(3, 1.0)],
                                               lambda t: psi_max * fold_step(t, 4)),
                                              ([(12, 1.0)],
                                               lambda t: psi_max * fold_step(t, 5)),
                                              ([(13, 1.0)],
                                               lambda t: psi_max * fold_step(t, 6)),
                                              ]
                             )

        dof_constraints = fix([0], [0, 1, 2]) + fix([1], [1, 2]) \
            + fix([3], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #31
0
    def get_merge_nodes_task(self, prev_ft, merge_nodes=[[]],
                             link_nodes=[], fix_node=[],
                             stiff_lines=[], init_nodes=(), init_val=0.0):

        cp = self.factory_task.formed_object

        psi_constr = [([(i, 1.0)], lambda t: self.fix_psi * t)  # fold_step(t, i))
                      for i in stiff_lines]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=prev_ft,
                             psi_constraints=psi_constr)

        F_u_fix = cp.F_N[1]
        dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
            fix([F_u_fix[1]], [1, 2]) + \
            fix([F_u_fix[2]], [2])

        if len(link_nodes) > 0:
            ln = np.array(link_nodes, dtype=np.int_)
            link_nodes1, link_nodes2 = ln.T
            ldofs = link(
                link_nodes1, [0, 1, 2], 1.0,
                link_nodes2, [0, 1, 2], -1.0)
            dof_constraints += ldofs

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()

        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'gu': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500)

        fu_node_dist = \
            FuNodeDist(forming_task=prev_ft,
                       L=merge_nodes,
                       )

        sim_config._fu = fu_node_dist

        st = SimulationTask(previous_task=prev_ft,
                            config=sim_config,
                            n_steps=1)

        fu_node_dist.forming_task = st

        cp = st.formed_object
        return st
コード例 #32
0
    def _get_load_task(self):
        self.turn_task.x_1

        fixed_nodes_yz = fix([0, 2, 20,  22], (1, 2))  # + \
        fixed_nodes_x = fix([0, 2, 20, 22], (0))  # + \
        #    fix([1, 21], [0, 2])
        link_bnd = []
        if self.stiffening_boundary:
            link_bnd = link([48, 49, 50, 56, 57, 58, 64, 65, 66, 72, 73, 74],
                            [0, 1, 2], 1.0,
                            [51, 52, 53, 59, 60, 61, 67, 68, 69, 75, 76, 77],
                            [0, 1, 2], -1.0)

        dof_constraints = fixed_nodes_x + fixed_nodes_yz + link_bnd
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=1000,
                                      debug_level=0)

        FN = lambda F: lambda t: t * F

        H = 0
        P = 3.5 * self.load_factor
        F_ext_list = [(33, 2, FN(-P)), (34, 2, FN(-P)), (11, 2, FN(-P)), (39, 2, FN(-P)), (40, 2, FN(-P)), (4, 0, FN(0.1609 * H)), (4, 2, FN(-0.2385 * H)), (10, 2, FN(-0.3975 * H)), (16, 0, FN(-0.1609 * H)), (16, 2, FN(-0.2385 * H)),
                      (6, 0, FN(0.1609 * H)), (6, 2, FN(-0.2385 * H)), (12, 2, FN(-0.3975 * H)), (18, 0, FN(-0.1609 * H)), (18, 2, FN(-0.2385 * H))]

        fu_tot_poteng = FuPotEngTotal(kappa=np.array([5.28]),
                                      F_ext_list=F_ext_list)


#         load_nodes = [10, 11, 12]
#         FN = lambda F: lambda t: t * F
#         F_ext_list = [(n, 2, FN(-10)) for n in load_nodes]
#         fu_tot_poteng = FuPotEngTotal(kappa=np.array([10]),
# F_ext_list=F_ext_list)  # (2 * n, 2, -1)])
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.turn_task,
                            config=sim_config, n_steps=self.n_load_steps)
        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.x_0 = self.turn_task.x_1
        cp.u[:, :] = 0.0
        return st
コード例 #33
0
    def _get_fold_task(self):

        psi_max = np.pi - 138.19 / 180.0 * np.pi
        print psi_max
        inner_lines = [1, 7, 10, 11, 12, 13, 14, 16, 17, 18, 19,
                       22, 24, 25, 26, 32, 34, 35, 37]

        def fold_step(t, fold_index):

            n_steps = len(inner_lines)
            dt = 1.0 / float(n_steps)
            start_t = fold_index * dt
            end_t = (fold_index + 1) * dt

            print 't', t, start_t, end_t
            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        np.random.shuffle(inner_lines)

        psi_constr = [([(i, 1.0)], lambda t: psi_max * fold_step(t, i))
                      for i in inner_lines]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        dof_constraints = fix([6], [0, 1, 2]) + \
            fix([7], [1, 2]) + \
            fix([13], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #34
0
    def _get_fold_task(self):

        psi_max = np.pi - 138.19 / 180.0 * np.pi
        inner_lines = self.factory_task.formed_object.iL

        def fold_step(t, fold_index):

            n_steps = len(inner_lines)
            print('n_steps', n_steps, fold_index)
            dt = 1.0 / float(n_steps)
            start_t = fold_index * dt
            end_t = (fold_index + 1) * dt

            print('t', t, start_t, end_t)
            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        FN = lambda i: lambda t: psi_max * fold_step(t, i)

        psi_constr = [([(L_idx, 1.0)], FN(i))
                      for i, L_idx in enumerate(inner_lines)]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        dof_constraints = fix([6], [0, 1, 2]) + \
            fix([7], [1, 2]) + \
            fix([13], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #35
0
    def _get_fold_task(self):

        psi_max = np.pi - 138.19 / 180.0 * np.pi
        inner_lines = self.factory_task.formed_object.iL

        def fold_step(t, fold_index):

            n_steps = len(inner_lines)
            print 'n_steps', n_steps, fold_index
            dt = 1.0 / float(n_steps)
            start_t = fold_index * dt
            end_t = (fold_index + 1) * dt

            print 't', t, start_t, end_t
            if t < start_t:
                return 0.0
            elif t > end_t:
                return 1.0
            else:
                return (t - start_t) / (end_t - start_t)

        FN = lambda i: lambda t: psi_max * fold_step(t, i)

        psi_constr = [([(L_idx, 1.0)], FN(i))
                      for i, L_idx in enumerate(inner_lines)]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        dof_constraints = fix([6], [0, 1, 2]) + \
            fix([7], [1, 2]) + \
            fix([13], [2])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.factory_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #36
0
ファイル: ex04_canopy.py プロジェクト: bmcs-group/oricreate
    def _get_fold_task(self):
        self.init_displ_task.x_1
        #        cp = self.init_displ_task.formed_object

        #        print 'nodes', x_1[(0, 1, 2, 20, 21, 22), 2]

        #        cp.u[(26, 25, 24, 23), 2] = -0.01
        #        cp.x[(0, 1, 2, 20, 21, 22), 2] = 0.0
        u_max = self.u_x
        fixed_nodes_z = fix([0, 1, 2, 20, 21, 22], (2))
        #         fixed_nodes_x = fix(
        #             [8, 9, 10, 11, 12, 13, 14], (0))
        fixed_nodes_y = fix([1, 21], (1))  # 5, 11, 17,
        control_left = fix([0, 1, 2], (0), lambda t: t * u_max)
        control_right = fix([20, 21, 22], (0), lambda t: -t * u_max)
        front_node = fix([8], (1), lambda t: t * 0.03)
        back_node = fix([14], (1), lambda t: -t * 0.03)

        dof_constraints = fixed_nodes_z + fixed_nodes_y + \
            control_left + control_right + front_node + back_node
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=500,
            debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config,
                              n_steps=self.n_fold_steps)
コード例 #37
0
    def _get_fold_angle_cntl(self):
        fixed_nodes_x = fix(
            [2], (0))
        fixed_nodes_y = fix(
            [2, 3], (1))
        fixed_nodes_z = fix(
            [2, 3, 6], (2))

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y

        def FN(psi): return lambda t: psi * t
        psi_constr = [([(i, 1.0)], FN(self.psi_max))
                      for i in self.psi_lines]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        gu_dof_constraints = GuDofConstraints(
            dof_constraints=dof_constraints)

        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                          },
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.factory_task,
                            config=sim_config, n_steps=self.n_fold_steps)

        cp = st.formed_object
        cp.u[(0, 12), 2] -= 0.4
        cp.u[(7, 1, 4), 2] += 0.4
        cp.u[(8, 9), 2] -= 0.4

        return st
コード例 #38
0
    def _get_fold_angle_cntl(self):
        fixed_nodes_x = fix(
            [2], (0))
        fixed_nodes_y = fix(
            [2, 3], (1))
        fixed_nodes_z = fix(
            [2, 3, 6], (2))

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y

        def FN(psi): return lambda t: psi * t
        psi_constr = [([(i, 1.0)], FN(self.psi_max))
                      for i in self.psi_lines]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=psi_constr)

        gu_dof_constraints = GuDofConstraints(
            dof_constraints=dof_constraints)

        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                          },
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.factory_task,
                            config=sim_config, n_steps=self.n_fold_steps)

        cp = st.formed_object
        cp.u[(0, 12), 2] -= 0.4
        cp.u[(7, 1, 4), 2] += 0.4
        cp.u[(8, 9), 2] -= 0.4

        return st
コード例 #39
0
ファイル: ex03_2b_4x4.py プロジェクト: bmcs-group/oricreate
    def _get_load_task(self):
        self.fold_task.x_1
        cp = self.factory_task

        n_l_h = cp.N_h[0, (0, -1)].flatten()
        n_r_h = cp.N_h[-1, (0, -1)].flatten()
        n_fixed_y = cp.N_h[(0, -1), 1].flatten()
        n_scheitel = cp.N_h[2, :]
        n_aussen = cp.N_v

        dof_constraints = fix(
            n_l_h, [0, 2]) + fix(n_r_h, [0, 2]) + fix(n_fixed_y, [0, 1])

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-10, MAX_ITER=1000,
                                      debug_level=0)
        FN = lambda F: lambda t: t * F
        F_max = 2
        F_min = 1

        F_ext_list = [(7, 2, FN(F_max)), (6, 2, FN(F_min)), (8, 2, FN(F_min))]
        fu_tot_poteng = FuPotEngTotal(kappa=np.array([4.97]),
                                      F_ext_list=F_ext_list)
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.fold_task,
                            config=sim_config, n_steps=10)
        cp = st.formed_object
        cp.L = np.vstack([cp.L, np.array([[6, 7], [7, 8]], dtype='int_')])

        cp.x_0 = self.fold_task.x_1
        cp.u[:, :] = 0.0
        cp.u[[6, 7, 8], 2] = 0.0001
        fu_tot_poteng.forming_task = st
        return st
コード例 #40
0
    def _get_fold_task(self):
        pt = self.init_displ_task

        cp = self.init_displ_task.formed_object
        cp.u[(26, 25, 24, 23), 2] = 0.5

        H = pt.x_1[42, 2]
        Z0_r = pt.x_1[7, 2]

        fixed_nodes_z = fix(
            [31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42], (2),
            lambda t: H)
        fixed_nodes_xr = fix(
            [3, 4, 5, 6, 7], (2),
            lambda t: Z0_r - t * 0.32)
        fixed_nodes_xl = fix(
            [15, 16, 17, 18, 19], (2),
            lambda t: Z0_r - t * 0.32)
        fixed_nodes_y = fix(
            [42, 36], (1))
        fixed_nodes_x = fix(
            [36], (0))
        front_facet = link([13], 2, 1.0, [14], 2, -1.0)
        back_facet = link([8], 2, 1.0, [9], 2, -1.0)

        dof_constraints = fixed_nodes_z + fixed_nodes_xl + fixed_nodes_xr +\
            front_facet + back_facet +\
            fixed_nodes_y + fixed_nodes_x
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #41
0
    def _get_fold_task(self):
        pt = self.init_displ_task

        cp = self.init_displ_task.formed_object
        cp.u[(26, 25, 24, 23), 2] = 0.5

        H = pt.x_1[42, 2]
        Z0_r = pt.x_1[7, 2]

        fixed_nodes_z = fix([31, 32, 33, 34, 35, 36, 37, 38, 39, 40, 41, 42],
                            (2), lambda t: H)
        fixed_nodes_xr = fix([3, 4, 5, 6, 7], (2), lambda t: Z0_r - t * 0.32)
        fixed_nodes_xl = fix([15, 16, 17, 18, 19], (2),
                             lambda t: Z0_r - t * 0.32)
        fixed_nodes_y = fix([42, 36], (1))
        fixed_nodes_x = fix([36], (0))
        front_facet = link([13], 2, 1.0, [14], 2, -1.0)
        back_facet = link([8], 2, 1.0, [9], 2, -1.0)

        dof_constraints = fixed_nodes_z + fixed_nodes_xl + fixed_nodes_xr +\
            front_facet + back_facet +\
            fixed_nodes_y + fixed_nodes_x
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(
            goal_function_type='gravity potential energy',
            gu={
                'cl': gu_constant_length,
                'dofs': gu_dof_constraints
            },
            acc=1e-5,
            MAX_ITER=500,
            debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config,
                              n_steps=self.n_steps)
コード例 #42
0
    def _get_fold_angle_cntl(self):

        # Link the crease factory it with the constraint client
        gu_constant_length = GuConstantLength()

        psi_max = np.pi * 0.3
        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.factory_task,
                             psi_constraints=[([(1, 1.0)], lambda t: -psi_max * t),
                                              ])

        dof_constraints = fix([2], [0, 1, 2]) + fix([0], [1, 2]) \
            + fix([3], [2])
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'u': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=100)
        sim_task = SimulationTask(previous_task=self.factory_task,
                                  config=sim_config,
                                  n_steps=5)
        return sim_task
コード例 #43
0
    def _get_fold_task(self):
        x_1 = self.init_displ_task.x_1
        cp = self.factory_task

        n_l_h = cp.N_h[0, :].flatten()
        n_r_h = cp.N_h[-1, :].flatten()
        n_lr_h = cp.N_h[(0, -1), :].flatten()
        n_fixed_y = cp.N_h[(0, -1), 1].flatten()

        u_max = self.u_x
        dof_constraints = fix([0, 2, 4], [0], lambda t: t * u_max) + fix([0, 2, 4, 20, 22, 24], [2]) + \
            fix([2, 22], [1]) + fix([20, 22, 24], [0], lambda t: t * -u_max) + \
            link(cp.N_v[0, :].flatten(), 0, 1.0,
                 cp.N_v[1, :].flatten(), 0, 1.0)

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)
        return SimulationTask(previous_task=self.init_displ_task,
                              config=sim_config, n_steps=self.n_steps)
コード例 #44
0
    def _get_fold_angle_cntl(self):

        self.init_displ_task.x_1

        corner2_i_x = np.array([0, 0, -1, -1], dtype=np.int_)
        corner2_i_y = np.array([0, -1, 0, -1], dtype=np.int_)
        corner2_h_x = np.array([0, 0, -1, -1], dtype=np.int_)
        corner2_h_y = np.array([0, -1, 0, -1], dtype=np.int_)

        tb2_i_x = np.array([1, 1, 1], dtype=np.int_)
        tb2_i_y = np.array([0, -1, -1], dtype=np.int_)
        tb2_h_x = np.array([1, 1, 2], dtype=np.int_)
        tb2_h_y = np.array([0, -1, -1], dtype=np.int_)

        up2_i_x = np.array([0, 0, -1, -1], dtype=np.int_)
        up2_i_y = np.array([0, 1, 0, 1], dtype=np.int_)
        up2_h_x = np.array([0, 0, -1, -1], dtype=np.int_)
        up2_h_y = np.array([1, 1, 1, 1], dtype=np.int_)

        right2_i_x = np.array([2, 2, 3], dtype=np.int_)
        right2_i_y = np.array([0, 0, 0], dtype=np.int_)
        right2_h_x = np.array([3, 3, 3], dtype=np.int_)
        right2_h_y = np.array([0, 1, 0], dtype=np.int_)

        base_i_x = corner2_i_x
        base_i_y = corner2_i_y
        base_h_x = corner2_h_x
        base_h_y = corner2_h_y

        for c_x in range(0, self.n_cell_x):
            base_i_x = np.hstack([base_i_x, 3 * c_x + tb2_i_x])
            base_i_y = np.hstack([base_i_y, tb2_i_y])
            base_h_x = np.hstack([base_h_x, 3 * c_x + tb2_h_x])
            base_h_y = np.hstack([base_h_y, tb2_h_y])

        for c_x in range(0, self.n_cell_x - 1):
            base_i_x = np.hstack([base_i_x, 3 * c_x + right2_i_x])
            base_i_y = np.hstack([base_i_y, right2_i_y])
            base_h_x = np.hstack([base_h_x, 3 * c_x + right2_h_x])
            base_h_y = np.hstack([base_h_y, right2_h_y])

        for c_y in range(0, self.n_cell_y - 1):
            print 'c_y', c_y
            base_i_x = np.hstack([base_i_x, up2_i_x])
            base_i_y = np.hstack([base_i_y, c_y + up2_i_y])
            base_h_x = np.hstack([base_h_x, up2_h_x])
            base_h_y = np.hstack([base_h_y, c_y + up2_h_y])

        f = self.factory_task
        cp = f.formed_object
        m_nodes = f.N_i[base_i_x, base_i_y]
        n_nodes = f.N_h[base_h_x, base_h_y]

        psi_lines = cp.NN_L[[m_nodes], n_nodes].flatten()

        print 'psi_lines', psi_lines

        N_h = f.N_h
        N_i = f.N_i
        N_v = f.N_v
        fixed_nodes_x = fix(
            N_h[0, 0], (0))
        fixed_nodes_y = fix(
            N_h[(0, -1), 0], (1))
        fixed_nodes_z = fix(
            [N_h[0, 0], N_h[-1, 0], N_h[0, -1]], (2))

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi): return lambda t: psi * t
        psi_constr = [([(i, 1.0)], FN(self.psi_max))
                      for i in psi_lines]
        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=psi_constr)

        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_fold_steps)

        cp = st.formed_object

        N_down = np.hstack([N_h[::3, :].flatten(),
                            N_i[1::3, :].flatten()
                            ])
        print 'N_down', N_down
        N_up = np.hstack([N_i[::3, :].flatten(),
                          N_i[2::3, :].flatten(),
                          N_v[:, :].flatten()])
        print 'N_up', N_up
        cp.u[N_down, 2] -= self.d_down
        cp.u[N_up, 2] += self.d_up

        return st
コード例 #45
0
    cp_factory = CustomCPFactory(formed_object=cp)
    return cp_factory

if __name__ == '__main__':

    n = 10
    cp_factory_task = create_cp_factory(n=n, b=2.0)
    cp = cp_factory_task.formed_object

    #cp.x_0[4, 2] = 0.3

    # Link the crease factory it with the constraint client
    gu_constant_length = GuConstantLength()

    dof_constraints = fix([0], [0, 1, 2]) + fix([1], [1, 2]) \
        + fix([n + 1], [2])  # + fix([n * 2], [1])
    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

    sim_config = SimulationConfig(goal_function_type='total potential energy',
                                  debug_level=0,
                                  use_f_du=True,
                                  gu={'cl': gu_constant_length,
                                      'dofs': gu_dof_constraints},
                                  acc=1e-7, MAX_ITER=1000)

    F_nodes = np.linspace(0, -10, n)
    FN = lambda F: lambda t: t * F
    F_ext_list = [(i + 1, 2, FN(F_n)) for i, F_n in enumerate(F_nodes)]

    fu_tot_poteng = FuPotEngTotal(kappa=np.array([5000.0]), fu_factor=1,
コード例 #46
0
    def _get_fold_task(self):
        L_rigid = self.factory_task.L_rigid
        N_up = self.factory_task.N_up
        N_down = self.factory_task.N_down
        print 'N_up', N_up
        print 'N_down', N_down
        N_x_sym = self.factory_task.N_x_sym[2]
        print 'N_x_sym', N_x_sym
#        N_x_sym = []  # self.factory_task.N_x_sym[[0, -1]]

        print 'n_dofs', self.factory_task.formed_object.n_dofs

        self.init_displ_task.x_1

        fixed_z = fix(self.fixed_z, (2))
        fixed_x = fix(self.fixed_x, (1))
        fixed_y = fix(self.fixed_y, (1))
        fixed_y_plus = fix(self.fixed_y_plus, (1),
                           lambda t: t * self.u_max)
        fixed_y_minus = fix(self.fixed_y_minus, (1),
                            lambda t: -t * self.u_max)
        link_x1 = link([2], 0, 1, [6], 0, 1)
        link_x2 = link([10], 0, 1, [14], 0, 1)

        dof_constraints = fixed_y_minus + \
            fixed_y_plus + fixed_x + fixed_z + fixed_y + link_x1 + link_x2
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi): return lambda t: psi * t

        psi_constr = [([(i, 1.0)], FN(0))
                      for i in L_rigid]

        gu_constant_length = GuConstantLength()

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=psi_constr)

        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                          },
                                      acc=1e-4, MAX_ITER=self.MAXITER,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_steps,
                            record_iter=False)

        gu_dof_constraints.forming_task = st

        st.sim_step.print_gu_lst()
        print 'dofs', st.formed_object.n_dofs

        cp = st.formed_object
        cp.u[N_up, 2] += 0.1
        cp.u[N_down, 2] -= 0.1
        cp.u[(1, 3, 13, 15), 2] += 0.2
        cp.u[(5, 7, 9, 11), 2] -= 0.2
        cp.u[(0, 16), 2] += 0.5
        cp.u[(0), 1] += 0.5
        cp.u[(16), 1] -= 0.5
        cp.u[(4), 1] += 0.3
        cp.u[(12), 1] -= 0.3
        cp.u[(4, 12), 2] -= 0.2
        return st
コード例 #47
0
    def _get_load_self_weight(self):
        self.fold_kinem_cntl.x_1

        f = self.factory_task

        exclude_lines = np.arange(9, 17)
        cp = f.formed_object

        N_h = f.N_h
        N_i = f.N_i
        N_v = f.N_v

        fixed_nodes = np.hstack([N_h[[-1, -1], [0, -1]]])
        fixed_nodes = [25, 27]
        fixed_nodes_xyz = fix(
            list(N_h[[0, 0, -1, -1], [0, -1, 0, -1]].flatten()), (2)
            #fixed_nodes, (0, 2)
        )

        slided_nodes = np.hstack([N_h[[0, -1], [0, 0]]])  # , [22, 25]])
        #slide_y = fix(slided_nodes, [1], lambda t: 1.8 * self.L_y * t)
        slide_x = fix([22, 24], [2],
                      lambda t: 0.95 * (self.L_x) * t)
        slide_z = fix(N_h[[1, -2], [1, 1]], [2], lambda t: -0.3 * t)

        dof_constraints = fixed_nodes_xyz + slide_z
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()

        fix_psi_constr = [([(i, 1.0)], 0.0)
                          for i in exclude_lines]
        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.fold_kinem_cntl,
                             psi_constraints=fix_psi_constr)

        sim_config = SimulationConfig(
            goal_function_type='total potential energy',
            gu={'cl': gu_constant_length,
                'dofs': gu_dof_constraints,
                'psi': gu_psi_constraints
                },
            acc=1e-7, MAX_ITER=1000,
            debug_level=0
        )

        loaded_n = N_h[:, 1].flatten()

        def FN(F): return lambda t: t * F

        P = 0.0 * 30.5
        F_ext_list = []  # (loaded_n, 2, FN(-P))]

        thickness = 0.01
        E_mod = 21.0e+4
        I = 1.0 * thickness**3 / 12.0
        kappa = E_mod * I
        print('kappa', kappa)

        sig_tu = 3000.0
        m_u = sig_tu * 1.0 * thickness**2 / 6.0
        print('m_u', m_u)

        fu_tot_poteng = FuPotEngTotal(
            exclude_lines=exclude_lines,
            kappa=np.array([kappa]),
            thickness=thickness,
            rho=23.6,
            m_u=m_u,
            F_ext_list=F_ext_list
        )
        sim_config._fu = fu_tot_poteng
        st = SimulationTask(
            previous_task=self.fold_kinem_cntl,
            config=sim_config, n_steps=self.n_load_steps
        )
        fu_tot_poteng.forming_task = st
        cp = st.formed_object
        cp.x_0 = self.fold_kinem_cntl.x_1
        cp.u[:, :] = 0.0
        return st
コード例 #48
0
    def _get_fold_self_weight_cntl(self):

        self.init_displ_task.x_1

        f = self.factory_task
        cp = f.formed_object

        N_h = f.N_h
        N_i = f.N_i
        N_v = f.N_v
        fixed_nodes_x = fix(
            N_i[1, (0, 1)], (0))
        fixed_nodes_y = fix(
            [N_h[1, 1].flatten()], (1))
        fixed_nodes_z = fix(
            list(N_v[[0, 0, -1, -1], [0, -1, 0, -1]].flatten()) +
            list(N_i[[0, 0, -1, -1], [0, -1, 0, -1]].flatten()), (2)
        )
        cntl_z = fix(N_h[(1, 2), 1], 2, lambda t: 0.1 * t)
        link_nodes_y = link(
            list(N_v[[0, -1], [0, -1]].flatten()), 1, 1.0,
            list(N_i[[0, -1], [0, -1]].flatten()), 1, -1.0,
        )
        link_nodes_z = link(
            list(N_h[[1, 1, 1], [0, 1, -1]].flatten()), 2, 1.0,
            list(N_h[[2, 2, 2], [0, 1, -1]].flatten()), 2, -1.0,
        )
#         link_nodes_z = link(
#             N_h[1, 1], 2, 1.0,
#             N_h[2, 1], 2, -1.0,
#         )

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y + \
            link_nodes_z + \
            link_nodes_y

        # link_nodes_yz + link_nodes_z

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='total potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          },
                                      acc=1e-5, MAX_ITER=1000,
                                      debug_level=0)

        def FN(F): return lambda t: t * F

        H = 0
        P = 0.1
        F_ext_list = [(N_i[1, 1], 2, FN(-P)), (N_i[1, -1], 2, FN(-P)),
                      (N_h[(0, -1), 0], 2, FN(-P)),
                      (N_h[(0, -1), -1], 2, FN(-P))
                      ]

        fu_tot_poteng = FuPotEngTotal(kappa=0.0, thickness=0.01,
                                      rho=23.6,
                                      F_ext_list=F_ext_list)

        sim_config._fu = fu_tot_poteng
        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_fold_steps)
        fu_tot_poteng.forming_task = st

        cp = st.formed_object

        N_down = np.hstack([N_h[::3, :].flatten(),
                            N_i[1::3, :].flatten()
                            ])
        print('N_down', N_down)
        N_up = np.hstack([N_i[::3, :].flatten(),
                          N_i[2::3, :].flatten(),
                          N_v[:, :].flatten()])
        print('N_up', N_up)
        cp.u[N_down, 2] -= self.d_down
        cp.u[N_up, 2] += self.d_up
        cp.u[:, 2] += self.d_down

        return st
コード例 #49
0
    def _get_fold_kinem_cntl(self):

        self.init_displ_task.x_1

        base_i_x = np.array([0, 0, -1, -1], dtype=np.int_)
        base_i_y = np.array([0, -1, 0, -1], dtype=np.int_)
        base_h_x = np.array([0, 0, -1, -1], dtype=np.int_)
        base_h_y = np.array([0, -1, 0, -1], dtype=np.int_)

        f = self.factory_task
        cp = f.formed_object
        m_n = f.N_h[(0, 0, -1, -1), (0, -1, 0, -1)]
        n_n = f.N_v[(0, 0, -1, -1), (0, -1, 0, -1)]
        print(m_n.flatten())
        print(n_n.flatten())

        fix_psi_lines = cp.NN_L[m_n, n_n].flatten()
        print('psi_lines', fix_psi_lines)

        cm_nodes = [f.N_i[0, 0], f.N_i[-1, 1]]
        cn_nodes = [f.N_h[1, 1], f.N_h[2, 1]]
        cpsi_lines = cp.NN_L[cm_nodes, cn_nodes]
        print('cpsi_lines', cpsi_lines)

        N_h = f.N_h
        N_i = f.N_i
        N_v = f.N_v
        fixed_nodes_x = fix(
            N_i[1, (0, 1)], (0))
        fixed_nodes_y = fix(
            [N_h[1, 1].flatten()], (1))
        fixed_nodes_z = fix(
            list(N_v[[0, 0, -1], [0, -1, 0]].flatten()), (2)
        )
        link_nodes_yz = link(
            list(N_v[[0, 0], [0, -1]].flatten()) +
            list(N_h[[0, 0], [0, -1]].flatten()), (1, 2), 1.0,
            list(N_i[[0, 0], [0, -1]].flatten()) +
            list(N_h[[-1, -1], [0, -1]].flatten()), (1, 2), -1.0,
        )
        link_nodes_z = link(
            N_h[1, 1], 2, 1.0,
            N_h[2, 1], 2, -1.0,
        )

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y + \
            link_nodes_yz + link_nodes_z

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi): return lambda t: psi * t
        cpsi_constr = [([(cpsi_line, 1.0)], FN(0.502 * np.pi))
                       for cpsi_line in cpsi_lines]

        fix_psi_constr = [([(i, 1.0)], 0.0)
                          for i in fix_psi_lines]

        print('fix_psi_lines', fix_psi_lines)
        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=fix_psi_constr + cpsi_constr)

        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_fold_steps)

        cp = st.formed_object

        N_down = np.hstack([N_h[::3, :].flatten(),
                            N_i[1::3, :].flatten(),
                            [23, 26]
                            ])
        print('N_down', N_down)
        N_up = np.hstack([N_i[::3, :].flatten(),
                          N_i[2::3, :].flatten(),
                          N_v[:, :].flatten()])
        print('N_up', N_up)
        cp.u[N_down, 2] -= self.d_down
        cp.u[N_up, 2] += self.d_up
        cp.u[:, 2] += self.d_down

        return st
コード例 #50
0
    def _get_fold_angle_cntl(self):

        self.init_displ_task.x_1

        corner2_i_x = np.array([0, 0, -1, -1], dtype=np.int_)
        corner2_i_y = np.array([0, -1, 0, -1], dtype=np.int_)
        corner2_h_x = np.array([0, 0, -1, -1], dtype=np.int_)
        corner2_h_y = np.array([0, -1, 0, -1], dtype=np.int_)

        tb2_i_x = np.array([1, 1, 1], dtype=np.int_)
        tb2_i_y = np.array([0, -1, -1], dtype=np.int_)
        tb2_h_x = np.array([1, 1, 2], dtype=np.int_)
        tb2_h_y = np.array([0, -1, -1], dtype=np.int_)

        up2_i_x = np.array([0, 0, -1, -1], dtype=np.int_)
        up2_i_y = np.array([0, 1, 0, 1], dtype=np.int_)
        up2_h_x = np.array([0, 0, -1, -1], dtype=np.int_)
        up2_h_y = np.array([1, 1, 1, 1], dtype=np.int_)

        right2_i_x = np.array([2, 2, 3], dtype=np.int_)
        right2_i_y = np.array([0, 0, 0], dtype=np.int_)
        right2_h_x = np.array([3, 3, 3], dtype=np.int_)
        right2_h_y = np.array([0, 1, 0], dtype=np.int_)

        base_i_x = corner2_i_x
        base_i_y = corner2_i_y
        base_h_x = corner2_h_x
        base_h_y = corner2_h_y

        for c_x in range(0, self.n_cell_x):
            base_i_x = np.hstack([base_i_x, 3 * c_x + tb2_i_x])
            base_i_y = np.hstack([base_i_y, tb2_i_y])
            base_h_x = np.hstack([base_h_x, 3 * c_x + tb2_h_x])
            base_h_y = np.hstack([base_h_y, tb2_h_y])

        for c_x in range(0, self.n_cell_x - 1):
            base_i_x = np.hstack([base_i_x, 3 * c_x + right2_i_x])
            base_i_y = np.hstack([base_i_y, right2_i_y])
            base_h_x = np.hstack([base_h_x, 3 * c_x + right2_h_x])
            base_h_y = np.hstack([base_h_y, right2_h_y])

        for c_y in range(0, self.n_cell_y - 1):
            print('c_y', c_y)
            base_i_x = np.hstack([base_i_x, up2_i_x])
            base_i_y = np.hstack([base_i_y, c_y + up2_i_y])
            base_h_x = np.hstack([base_h_x, up2_h_x])
            base_h_y = np.hstack([base_h_y, c_y + up2_h_y])

        f = self.factory_task
        cp = f.formed_object
        m_nodes = f.N_i[base_i_x, base_i_y]
        n_nodes = f.N_h[base_h_x, base_h_y]

        psi_lines = cp.NN_L[[m_nodes], n_nodes].flatten()
        print('psi_lines', psi_lines)

        cm_node = f.N_i[0, 0]
        cn_node = f.N_h[1, 1]
        cpsi_line = cp.NN_L[cm_node, cn_node]
        print('cpsi_lines', cpsi_line)

        N_h = f.N_h
        N_i = f.N_i
        N_v = f.N_v
        y_mid = N_i.shape[1] / 2
        fixed_nodes_x = fix(
            N_h[0, 0], (0))
        fixed_nodes_y = fix(
            N_h[(0, -1), 0], (1))
        fixed_nodes_z = fix(
            [N_h[0, 0], N_h[-1, 0], N_h[0, -1]], (2))

        u_max = (1.999 * self.c * self.t_max)
        link_mid = link(
            N_i[0, 0], (0), 1.0,
            N_i[2, 0], (0), -1.0,
            lambda t: t * u_max
        )

        print('--------------------------')
        print(N_i[0, 0].flatten())
        print(N_i[2, 0].flatten())
        print('--------------------------')

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y  # + \
        # link_mid

        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi): return lambda t: psi * t
        cpsi_constr = [([(cpsi_line, 1.0)], FN(0.99 * np.pi))]

        lpsi_constr = [([(psi_lines[0], 1.0), (i, -1.0)], 0.0)
                       for i in psi_lines[1:]]

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=lpsi_constr + cpsi_constr)

        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(node='Fold angle control',
                            previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_fold_steps)

        cp = st.formed_object

        N_down = np.hstack([N_h[::3, :].flatten(),
                            N_i[1::3, :].flatten()
                            ])
        print('N_down', N_down)
        N_up = np.hstack([N_i[::3, :].flatten(),
                          N_i[2::3, :].flatten(),
                          N_v[:, :].flatten()])
        print('N_up', N_up)
        cp.u[N_down, 2] -= self.d_down
        cp.u[N_up, 2] += self.d_up
        cp.u[:, 2] += self.d_down

        return st
コード例 #51
0
    def _get_fold_task(self):
        self.init_displ_task.x_1
        u_max = self.u_max
        fa = self.factory_task
        N_h = fa.N_h
        N_i = fa.N_i
        N_v = fa.N_v
        n_x, n_y = N_h.shape
        mid_n_x = n_x / 2
        i_fixed_x = N_h[mid_n_x, (0, -1)]
        fixed_nodes_x = fix(
            i_fixed_x, (0))

        n_x, n_y = N_i.shape
        mid_n_y = n_y / 2
        i_fixed_z = np.hstack([N_i[:-1:3, mid_n_y],
                               N_i[1::3, mid_n_y]])
        i_fixed_z = np.hstack([N_i[:-1:6, mid_n_y],
                               N_i[1::6, mid_n_y]])
        fixed_nodes_z = fix(
            i_fixed_z, (2))

        i_fixed_y = N_i[(1, -2), mid_n_y]
        fixed_nodes_y = fix(
            i_fixed_y, (1))

        i_link_xh_r = N_h[2::3, :]
        i_link_xh_l = N_h[0:-2:3, :]
        i_link_xi_r = N_i[3::3, :]
        i_link_xi_l = N_i[1:-2:3, :]
        link_mid = link(
            np.hstack([i_link_xh_r.flatten(), i_link_xi_r.flatten()]),
            (0), 1.0,
            np.hstack([i_link_xh_l.flatten(), i_link_xi_l.flatten()]),
            (0), -1.0,
            lambda t: -t * u_max
        )
        sym_y = link(
            N_h[(0, -1), 0], [2], 1.0,
            N_h[(0, -1), -1], [2], -1.0
        )

        dof_constraints = fixed_nodes_x + fixed_nodes_z + fixed_nodes_y + \
            link_mid + sym_y
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
        gu_constant_length = GuConstantLength()
        sim_config = SimulationConfig(goal_function_type='gravity potential energy',
                                      gu={'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints},
                                      acc=1e-5, MAX_ITER=500,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config, n_steps=self.n_fold_steps)

        cp = st.formed_object

        d_u = 0.02
        i_down_h = N_h[1::3, :]
        i_down_i = N_i[2::3, :]
        i_left = N_v[0, :]
        i_right = N_v[-1, :]
        cp.u[np.hstack([i_down_h.flatten(), i_down_i.flatten()]), 2] -= d_u
        cp.u[i_left, 0] -= d_u
        cp.u[i_right, 0] += d_u
#         cp.u[(
#             36, 48, 57, 39,
#             37, 49, 58, 40,
#             38, 50, 59, 41,
#             4, 16, 28,
#             5, 17, 29,
#             6, 18, 30,
#             7, 19, 31,
#         ), 2] -= 0.2

        return st
コード例 #52
0
    cp.u[3, 2] = 0.0
    cp.u[3, 0] = 0.0
    print 'F_normals', cp.norm_F_normals
    print 'iL_psi', cp.iL_psi
    print 'iL_psi_du', cp.iL_psi_du

    psi_max = 3.999 * np.pi / 4.0
    psi_constr = [([(i, 1.0)], lambda t: psi_max * t)
                  for i in cp.iL]

    gu_psi_constraints = \
        GuPsiConstraints(forming_task=cpf,
                         psi_constraints=psi_constr)

    F_u_fix = cp.F_N[1]
    dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
        fix([F_u_fix[1]], [1, 2]) + \
        fix([F_u_fix[2]], [2])

    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
    gu_constant_length = GuConstantLength()
    sim_config = SimulationConfig(goal_function_type='none',
                                  gu={'cl': gu_constant_length,
                                      'u': gu_dof_constraints,
                                      'psi': gu_psi_constraints},
                                  acc=1e-5, MAX_ITER=500,
                                  debug_level=0)
    st = SimulationTask(previous_task=cpf,
                        config=sim_config, n_steps=10)
    st.u_1
コード例 #53
0
                               ]
                            )

    cp_factory = CustomCPFactory(formed_object=cp)
    return cp_factory

if __name__ == '__main__':

    cp_factory_task = create_cp_factory()

    cp = cp_factory_task.formed_object

    # Link the crease factory it with the constraint client
    gu_constant_length = GuConstantLength()

    dof_constraints = fix([1], [0, 1, 2]) + fix([0], [2]) + fix([2], [0, 2])

    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

    sim_config = SimulationConfig(goal_function_type='total potential energy',
                                  debug_level=0,
                                  use_f_du=True,
                                  gu={'cl': gu_constant_length,
                                      'dofs': gu_dof_constraints},
                                  acc=1e-7, MAX_ITER=1000)

    FN = lambda F: lambda t: t * F
    P = 1
    F_ext_list = [(3, 2, FN(-P))]

    fu_tot_poteng = FuPotEngTotal(kappa=np.array([100]), fu_factor=1,
コード例 #54
0
                            )

    cp_factory = CustomCPFactory(formed_object=cp)
    # end
    return cp_factory

if __name__ == '__main__':

    cp_factory_task = create_cp_factory()
    cp = cp_factory_task.formed_object

    # Link the crease factory it with the constraint client
    gu_constant_length = GuConstantLength()

    u_max = 0.8
    displ_cntl = fix([3], 2, lambda t: u_max * t)
    dof_constraints = fix([0], [0, 1, 2]) + fix([1], [1, 2]) \
        + fix([2], [2]) + displ_cntl
    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

    sim_config = SimulationConfig(goal_function_type='none',
                                  gu={'cl': gu_constant_length,
                                      'dofs': gu_dof_constraints},
                                  acc=1e-5, MAX_ITER=10)
    sim_task = SimulationTask(previous_task=cp_factory_task,
                              config=sim_config,
                              n_steps=5)

    sim_task.u_1
    cp = sim_task.formed_object
コード例 #55
0
    plt.show()

    # Link the crease factory with the constraint client
    gu_constant_length = GuConstantLength()

    psi_max = np.pi * .49
    gu_psi_constraints = \
        GuPsiConstraints(forming_task=cp_factory_task,
                         psi_constraints=[([(2, 1.0)], 0.0),
                                          ([(7, 1.0)], 0.0),
                                          ([(4, 1.0)], 0.0),
                                          ([(6, 1.0)], 0.0),
                                          ([(3, 1.0)], lambda t: -psi_max * t),
                                          ])

    dof_constraints = fix([0], [1]) + fix([1], [0, 1, 2]) \
        + fix([2, 4], [2])
    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

    sim_config = SimulationConfig(goal_function_type='none',
                                  gu={'cl': gu_constant_length,
                                      'u': gu_dof_constraints,
                                      'psi': gu_psi_constraints},
                                  acc=1e-8, MAX_ITER=100)
    sim_task = SimulationTask(previous_task=cp_factory_task,
                              config=sim_config,
                              n_steps=25)
    cp.u[(0, 3), 2] = -0.1
    cp.u[(1), 2] = 0.1
    sim_task.u_1
    cp = sim_task.formed_object
コード例 #56
0
    # Link the crease factory with the constraint client
    gu_constant_length = GuConstantLength()

    psi_max = np.pi * .49
    gu_psi_constraints = \
        GuPsiConstraints(forming_task=cp_factory_task,
                         psi_constraints=[([(2, 1.0)], 0.0),
                                          ([(7, 1.0)], 0.0),
                                          ([(4, 1.0)], 0.0),
                                          ([(6, 1.0)], 0.0),
                                          ([(3, 1.0)], lambda t: -psi_max * t),
                                          #([(5, 1.0)], lambda t: psi_max * t),
                                          ])

    dof_constraints = fix([0], [1]) + fix([1], [0, 1, 2]) \
        + fix([2, 4], [2])
    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

    sim_config = SimulationConfig(goal_function_type='none',
                                  gu={'cl': gu_constant_length,
                                      'u': gu_dof_constraints,
                                      'psi': gu_psi_constraints},
                                  acc=1e-8, MAX_ITER=100)
    sim_task = SimulationTask(previous_task=cp_factory_task,
                              config=sim_config,
                              n_steps=25)
    cp.u[(0, 3), 2] = -0.1
    cp.u[(1), 2] = 0.1
    sim_task.u_1
    cp = sim_task.formed_object
コード例 #57
0
    def _get_fold_task(self):
        L_rigid = self.factory_task.L_rigid
        N_up = self.factory_task.N_up
        N_down = self.factory_task.N_down
        print('N_up', N_up)
        print('N_down', N_down)
        N_x_sym = self.factory_task.N_x_sym[2]
        print('N_x_sym', N_x_sym)
        #        N_x_sym = []  # self.factory_task.N_x_sym[[0, -1]]

        print('n_dofs', self.factory_task.formed_object.n_dofs)

        self.init_displ_task.x_1

        fixed_z = fix(self.fixed_z, (2))
        fixed_x = fix(self.fixed_x, (1))
        fixed_y = fix(self.fixed_y, (1))
        fixed_y_plus = fix(self.fixed_y_plus, (1), lambda t: t * self.u_max)
        fixed_y_minus = fix(self.fixed_y_minus, (1), lambda t: -t * self.u_max)
        link_x1 = link([2], 0, 1, [6], 0, 1)
        link_x2 = link([10], 0, 1, [14], 0, 1)

        dof_constraints = fixed_y_minus + \
            fixed_y_plus + fixed_x + fixed_z + fixed_y + link_x1 + link_x2
        gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)

        def FN(psi):
            return lambda t: psi * t

        psi_constr = [([(i, 1.0)], FN(0)) for i in L_rigid]

        gu_constant_length = GuConstantLength()

        gu_psi_constraints = \
            GuPsiConstraints(forming_task=self.init_displ_task,
                             psi_constraints=psi_constr)

        sim_config = SimulationConfig(goal_function_type='none',
                                      gu={
                                          'cl': gu_constant_length,
                                          'dofs': gu_dof_constraints,
                                          'psi': gu_psi_constraints
                                      },
                                      acc=1e-4,
                                      MAX_ITER=self.MAXITER,
                                      debug_level=0)

        st = SimulationTask(previous_task=self.init_displ_task,
                            config=sim_config,
                            n_steps=self.n_steps,
                            record_iter=False)

        gu_dof_constraints.forming_task = st

        st.sim_step.print_gu_lst()
        print('dofs', st.formed_object.n_dofs)

        cp = st.formed_object
        cp.u[N_up, 2] += 0.1
        cp.u[N_down, 2] -= 0.1
        cp.u[(1, 3, 13, 15), 2] += 0.2
        cp.u[(5, 7, 9, 11), 2] -= 0.2
        cp.u[(0, 16), 2] += 0.5
        cp.u[(0), 1] += 0.5
        cp.u[(16), 1] -= 0.5
        cp.u[(4), 1] += 0.3
        cp.u[(12), 1] -= 0.3
        cp.u[(4, 12), 2] -= 0.2
        return st
コード例 #58
0
    return cp_factory


if __name__ == '__main__':

    cpf = create_cp_factory()
    cp = cpf.formed_object

    import matplotlib.pyplot as plt
    fig, ax = plt.subplots()
    cp.plot_mpl(ax, facets=True)
    plt.tight_layout()
    plt.show()

    F_u_fix = cp.F_N[0]
    dof_constraints = fix([F_u_fix[0]], [0, 1, 2]) + \
        fix([F_u_fix[1]], [1, 2]) + \
        fix([F_u_fix[2]], [2])

    gu_dof_constraints = GuDofConstraints(dof_constraints=dof_constraints)
    gu_constant_length = GuConstantLength()
    fu_node_dist = \
        FuNodeDist(forming_task=cpf,
                   L=[[4, 5]])
    sim_config = SimulationConfig(goal_function_type='total potential energy',
                                  gu={
                                      'cl': gu_constant_length,
                                      'gu': gu_dof_constraints
                                  },
                                  acc=1e-5,
                                  MAX_ITER=100)