本文整理汇总了Python中oricrete.folding.YoshimuraCreasePattern.solve方法的典型用法代码示例。如果您正苦于以下问题:Python YoshimuraCreasePattern.solve方法的具体用法?Python YoshimuraCreasePattern.solve怎么用?Python YoshimuraCreasePattern.solve使用的例子?那么, 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类oricrete.folding.YoshimuraCreasePattern
的用法示例。
在下文中一共展示了YoshimuraCreasePattern.solve方法的3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: CreasePattern
# 需要导入模块: from oricrete.folding import YoshimuraCreasePattern [as 别名]
# 或者: from oricrete.folding.YoshimuraCreasePattern import solve [as 别名]
# [(n_h[0, -1], 0, 1.0)], # 1
[(n_h[1, -1], 1, 1.0), (n_h[1, 0], 1, 1.0)],
]
cp.cnstr_rhs = np.zeros((len(cp.cnstr_lhs),), dtype=float)
# @todo - renaming of methods
# @todo - projection on the caf - to get the initial vector
# @todo - gemetry transformator
# @todo - derivatives of caf for the current position.
# @todo - rthombus generator with cut-away elements
# @todo - time step counting - save the initial step separately from the time history
X0 = cp.generate_X0()
X_fc = cp.solve(X0 + 1e-6)
#
# print 'nodes'
# new_nodes = cp.get_new_nodes(X_fc)
# cp2 = CreasePattern(nodes = new_nodes,
# crease_lines = cp.crease_lines,
# facets = cp.facets,
# n_steps = 1,
# show_iter = True,
# z0_ratio = 0.1,
# MAX_ITER = 200)
#
# face_z_t = CnstrTargetFace(F = [r_, s_, 0])
#
# cp2.tf_lst = [(face_z_t, n_arr)]
示例2: CreasePatternView
# 需要导入模块: from oricrete.folding import YoshimuraCreasePattern [as 别名]
# 或者: from oricrete.folding.YoshimuraCreasePattern import solve [as 别名]
[(n_h[0, 0], 1, 1.0), (n_h[3, 0], 1, -1)], # 1
[(n_h[0, 0], 1, 1.0), (n_h[4, 0], 1, -1)], # 1
[(n_h[0, -1], 1, 1.0), (n_h[1, -1], 1, -1)], # 0
[(n_h[0, -1], 1, 1.0), (n_h[2, -1], 1, -1)], # 1
[(n_h[0, -1], 1, 1.0), (n_h[3, -1], 1, -1)], # 1
[(n_h[0, -1], 1, 1.0), (n_h[4, -1], 1, -1)], # 1
# [(n_h[1, -1], 1, 1.0), (n_h[1, 0], 1, 1.0)],
]
cp.cnstr_rhs = np.zeros((len(cp.cnstr_lhs),), dtype=float)
#del cp.eqcons['cl']
# @todo - renaming of methods
# @todo - projection on the caf - to get the initial vector
# @todo - gemetry transformator
# @todo - derivatives of caf for the current position.
# @todo - rthombus generator with cut-away elements
# @todo - time step counting - save the initial step separately from the time history
X0 = cp.generate_X0()
X_fc = cp.solve(X0 - 1e-8)
my_model = CreasePatternView(data=cp,
ff_resolution=100,
show_cnstr=True)
my_model.configure_traits()
示例3: zip
# 需要导入模块: from oricrete.folding import YoshimuraCreasePattern [as 别名]
# 或者: from oricrete.folding.YoshimuraCreasePattern import solve [as 别名]
cp.cnstr_rhs = np.zeros((len(cp.cnstr_lhs),), dtype=float)
# @todo - renaming of methods
# @todo - projection on the caf - to get the initial vector
# @todo - gemetry transformator
# @todo - derivatives of caf for the current position.
# @todo - rthombus generator with cut-away elements
# @todo - time step counting - save the initial step separately from the time history
cl = cp.eqcons["cl"]
del cp.eqcons["cl"]
# del cp.eqcons['dc']
u0 = cp.generate_X0()
u_no_constraint = cp.solve(u0 + 1e-6)
cp.eqcons["cl"] = cl
u_constant_length = cp.solve(u0 + 1e-4)
# 3 delete the constant length
del cp.eqcons["cl"]
connectivity = [(vertex, neighbors) for vertex, neighbors in zip(cp.interior_vertices, cp.cycled_neighbors.T)]
print "connectivity", connectivity
uf = EqConsDevelopability(cp, connectivity=connectivity)
cp.eqcons["uf"] = uf
# the derivatives are not correct
cp.use_G_du = False