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Python CreasePattern.get_new_nodes方法代码示例

本文整理汇总了Python中oricrete.folding.CreasePattern.get_new_nodes方法的典型用法代码示例。如果您正苦于以下问题:Python CreasePattern.get_new_nodes方法的具体用法?Python CreasePattern.get_new_nodes怎么用?Python CreasePattern.get_new_nodes使用的例子?那么恭喜您, 这里精选的方法代码示例或许可以为您提供帮助。您也可以进一步了解该方法所在oricrete.folding.CreasePattern的用法示例。


在下文中一共展示了CreasePattern.get_new_nodes方法的7个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于系统推荐出更棒的Python代码示例。

示例1: twotriangle_stick_cnstr

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def twotriangle_stick_cnstr(n_steps = 10, dx = -0.3299999999999):
    """
        This example shows the use of Grabpoints an Sticks in a more complex creasepattern.
    """

    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 0, 0 ],
                [ 1, 0, 0 ],
                [ 1, 1, 0],
                [0.667, 0.333, 0],
                [0.66, 0.33, 1],
                [ 0, 1, 0]]

    cp.crease_lines = [[ 0, 1 ],
                       [ 1, 2 ],
                       [ 2, 0 ],
                       [ 3, 4],
                       [ 0, 5],
                       [ 5, 2]]

    cp.facets = [[0, 1, 2 ],
                 [2, 5, 0]]

    cp.grab_pts = [[3, 0]  ]

    cp.cnstr_lhs = [
                    [(0, 0, 1.0)],
                    [(0, 1, 1.0)],
                    [(0, 2, 1.0)],
                    [(1, 1, 1.0)],
                    [(1, 2, 1.0)],
                    [(4, 2, 1.0)],
                    [(4, 0, 1.0)],
                    [(4, 1, 1.0)],
                    [(5, 2, 1.0)]]

    cp.cnstr_rhs = [0.0, 0.0, 0.0, 0.0, 0.0
                    , dx, 0.0, 0.0, 0.0
                    ]

    X = np.zeros((cp.n_dofs,), dtype = float)
    X[1] = 0.01

    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors

    print 'initial R\n', cp.get_G(X)
    print 'initial G_du\n', cp.get_G_du(X)

    X = cp.solve(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:kelidas,项目名称:oricrete,代码行数:61,代码来源:ex05_triangle.py

示例2: triangle_stick_cnstr

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def triangle_stick_cnstr(n_steps = 10, dx = -0.3299999999999):
    """
        This example shows new options of lines, as beams connected to grabpoints.
        This could be usefull for simulation the crane lifting up the oricrete construction.

    """
    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 0, 0 ],
                [ 1, 0, 0 ],
                [ 1, 1, 0],
                [0.667, 0.333, 0],
                [0.1, 0.05, 0],
                [0.66, 0.33, 2]]

    cp.crease_lines = [[ 0, 1 ],
                       [ 1, 2 ],
                       [ 2, 0 ],
                       [ 3, 5]]

    cp.facets = [[0, 1, 2 ]]

    cp.grab_pts = [[3, 0],
                   [4, 0]]

    cp.cnstr_lhs = [[(0, 0, 1.0)],
                    [(0, 1, 1.0)],
                    [(0, 2, 1.0)],
                    [(1, 1, 1.0)],
                    [(1, 2, 1.0)],
                    [(5, 2, 1.0)],
                    [(5, 0, 1.0)],
                    [(5, 1, 1.0)]]

    cp.cnstr_rhs = [0.0, 0.0, 0.0, 0.0, 0.0
                    , dx, 0.0, 0.0]

    X = np.zeros((cp.n_dofs,), dtype = float)
    X[1] = 0.01

    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors

    print 'initial R\n', cp.get_G(X)
    print 'initial G_du\n', cp.get_G_du(X)

    X = cp.solve(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:kelidas,项目名称:oricrete,代码行数:57,代码来源:ex05_triangle.py

示例3: triangle_cp_cnstr

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def triangle_cp_cnstr(n_steps = 10, dx = -0.3299999999999):

    """
        This example demonstrates the main funtions of Grabpoints.
        Two Grabpoints are integrated in a single triangle.
        Grabpoint one is used as regulare constrain moved in z-direction.
        Grabpoint two is used as control point, which gives back the coordinations of
        an exact point on the face in every iteration step.

    """

    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 0, 0 ],
                [ 1, 0, 0 ],
                [ 1, 1, 0],
                [0.667, 0.333, 0],
                [0.2, 0.1, 0]]

    cp.crease_lines = [[ 0, 1 ],
                       [ 1, 2 ],
                       [ 2, 0 ]]

    cp.facets = [[0, 1, 2 ]]

    cp.grab_pts = [[3, 0],
                   [4, 0]]

    cp.cnstr_lhs = [[(0, 0, 1.0)],
                    [(0, 1, 1.0)],
                    [(0, 2, 1.0)],
                    [(1, 1, 1.0)],
                    [(1, 2, 1.0)],
                    [(3, 2, 1.0)]]

    cp.cnstr_rhs = [0.0, 0.0, 0.0, 0.0, 0.0
                    , dx, 0.0, 0.0]

    X = np.zeros((cp.n_dofs,), dtype = float)
    X[1] = 0.01

    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors
    print 'initial R\n', cp.get_G(X)
    print 'initial G_du\n', cp.get_G_du(X)

#    X = cp.solve(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:kelidas,项目名称:oricrete,代码行数:57,代码来源:ex05_triangle.py

示例4: moving_truss_cp_square

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def moving_truss_cp_square(n_steps = 40):

    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 2, 0 ],
                [ 0, 0, 0 ]]

    cp.crease_lines = [[ 0, 1 ]]

    face_z_0 = CF(Rf = z_ - 0)
    face_x_0 = CF(Rf = x_ - 0)
#    face_xy_135 = CF(Rf = x_ + y_ - 1.0)
#    face_xy_round = CF(Rf = x_**2 + (y_)**2 - 1.0)
#    face_x_1_t = CF(Rf = x_ - 1.0 + 1.99 * t_)
#    argument =  2*3.14159*t_   
#    face_x_1_t = CF(Rf = y_ + 3 + sp.sin(argument))
    face_x_1_t = CF(Rf = y_ - 1.0 * (t_ - 1) * sp.Heaviside(t_ - 1)
                    + 1.0 * (t_ - 3) * sp.Heaviside(t_ - 3)
                    + 1.0 * (t_ - 5) * sp.Heaviside(t_ - 5)
                    - 1.0 * (t_ - 7) * sp.Heaviside(t_ - 7))

    face_y_1_t = CF(Rf = x_ + 1.0 * t_ * sp.Heaviside(t_)
                    - 1.0 * (t_ - 1) * sp.Heaviside(t_ - 1)
                    - 1.0 * (t_ - 3) * sp.Heaviside(t_ - 3)
                    + 1.0 * (t_ - 5) * sp.Heaviside(t_ - 5)
                    + 1.0 * (t_ - 7) * sp.Heaviside(t_ - 7)
                    - 1.0 * (t_ - 8) * sp.Heaviside(t_ - 8))
# +3.14159/2.0    
#    face_x_1_t = CF(Rf = y_ - 1.99 * t_)
    cp.cf_lst = [(face_z_0, [0, 1]),
                    (face_x_0, [0]),
                    (face_x_1_t, [1]),
                    (face_y_1_t, [1])]

    X = np.zeros((cp.n_dofs,), dtype = float)
#    X[1] = 0.01
#    X[0] = 0.01


    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors

    print 'initial R\n', cp.get_G(X)
    print 'initial dR\n', cp.get_G_du(X)

    X = cp.solve(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:kelidas,项目名称:oricrete,代码行数:56,代码来源:ex01_moving_truss.py

示例5: moving_truss_cp_circle

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def moving_truss_cp_circle(n_steps = 40):

    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 1, 0 ],
                [ 0, -1, 0 ]]

    cp.crease_lines = [[ 0, 1 ]]

    face_z_0 = FF(Rf = z_ - 0)
    face_x_0 = FF(Rf = x_ - 0)
#    face_xy_135 = FF(Rf = x_ + y_ - 1.0)
#    face_xy_round = FF(Rf = x_**2 + (y_)**2 - 1.0)
#    face_x_1_t = FF(Rf = x_ - 1.0 + 1.99 * t_)
#    argument =  2*3.14159*t_   
#    face_x_1_t = FF(Rf = y_ + 3 + sp.sin(argument))
    face_x_1_t = FF(Rf = y_ + sp.cos(1.0 * t_))
    face_y_1_t = FF(Rf = x_ + sp.sin(1.0 * t_))
# +3.14159/2.0    
#    face_x_1_t = FF(Rf = y_ - 1.99 * t_)
    cp.cnstr_lst = [(face_z_0, [0, 1]),
                    (face_x_0, [0]),
                    (face_x_1_t, [1]),
                    (face_y_1_t, [1])]

    X = np.zeros((cp.n_dofs,), dtype = float)
#    X[1] = 0.01
#    X[0] = 0.01


    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors

    print 'initial R\n', cp.get_R(X)
    print 'initial dR\n', cp.get_dR(X)

    X = cp.solve_ff(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:MatthiasSch,项目名称:local,代码行数:47,代码来源:ex01_moving_truss.py

示例6: moving_truss_cp_ff_cnstr

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def moving_truss_cp_ff_cnstr(n_steps = 10, dx = -1.99):

    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 0, 0 ],
                [ 1, 0, 0 ]]

    cp.crease_lines = [[ 0, 1 ]]

    face_z_0 = CF(Rf = z_ - 0)
    face_x_0 = CF(Rf = x_ - 0)
    face_x_1_t = CF(Rf = x_ - 1.0 + 1.99 * t_)
    cp.cf_lst = [(face_z_0, [0, 1]),
                    (face_x_0, [0]),
                    (face_x_1_t, [1])]

    cp.cnstr_lhs = [
                    [(1, 0, 1.0), (1, 1, 1.0)],
                    ]

    cp.cnstr_rhs = [0]

    X = np.zeros((cp.n_dofs,), dtype = float)
    X[1] = 0.01

    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors

    print 'initial R\n', cp.get_G(X)
    print 'initial dR\n', cp.get_G_du(X)

    X = cp.solve(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:kelidas,项目名称:oricrete,代码行数:42,代码来源:ex01_moving_truss.py

示例7: moving_truss_cp_cnstr

# 需要导入模块: from oricrete.folding import CreasePattern [as 别名]
# 或者: from oricrete.folding.CreasePattern import get_new_nodes [as 别名]
def moving_truss_cp_cnstr(n_steps = 10, dx = -1.99):

    cp = CreasePattern(n_steps = n_steps)

    cp.nodes = [[ 0, 0, 0 ],
                [ 1, 0, 0 ]]

    cp.crease_lines = [[ 0, 1 ]]

    cp.cnstr_lhs = [
                    [(0, 0, 1.0)],
                    [(0, 2, 1.0)],
                    [(1, 0, 1.0)],
                    [(1, 0, 1.0), (1, 1, 1.0)],
                    [(1, 2, 1.0)]
                    ]

    cp.cnstr_rhs = [0.0, 0.0, dx, 0.0, 0.0]

    X = np.zeros((cp.n_dofs,), dtype = float)
    X[1] = 0.01

    print 'initial lengths\n', cp.c_lengths
    print 'initial vectors\n', cp.c_vectors

    print 'initial R\n', cp.get_G(X)
    print 'initial dR\n', cp.get_G_du(X)

    X = cp.solve(X)

    print '========== results =============='
    print 'solution X\n', X
    print 'final positions\n', cp.get_new_nodes(X)
    print 'final vectors\n', cp.get_new_vectors(X)
    print 'final lengths\n', cp.get_new_lengths(X)

    return cp
开发者ID:kelidas,项目名称:oricrete,代码行数:39,代码来源:ex01_moving_truss.py


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