import numpy as np import matplotlib.pyplot as plt import matplotlib from mpl_toolkits.mplot3d import Axes3D from utils import mkvc class LomView(object): """ Provides viewing functions for TensorMesh This class is inherited by TensorMesh """ def __init__(self): pass def plotGrid(self): """Plot the nodal, cell-centered and staggered grids for 1,2 and 3 dimensions.""" NN = self.r(self.gridN, 'N', 'N', 'M') if self.dim == 2: fig = plt.figure(2) fig.clf() ax = plt.subplot(111) X1 = np.c_[mkvc(NN[0][:-1, :]), mkvc(NN[0][1:, :]), mkvc(NN[0][:-1, :])*np.nan].flatten() Y1 = np.c_[mkvc(NN[1][:-1, :]), mkvc(NN[1][1:, :]), mkvc(NN[1][:-1, :])*np.nan].flatten() X2 = np.c_[mkvc(NN[0][:, :-1]), mkvc(NN[0][:, 1:]), mkvc(NN[0][:, :-1])*np.nan].flatten() Y2 = np.c_[mkvc(NN[1][:, :-1]), mkvc(NN[1][:, 1:]), mkvc(NN[1][:, :-1])*np.nan].flatten() X = np.r_[X1, X2] Y = np.r_[Y1, Y2] plt.plot(X, Y) elif self.dim == 3: fig = plt.figure(3) fig.clf() ax = fig.add_subplot(111, projection='3d') X1 = np.c_[mkvc(NN[0][:-1, :, :]), mkvc(NN[0][1:, :, :]), mkvc(NN[0][:-1, :, :])*np.nan].flatten() Y1 = np.c_[mkvc(NN[1][:-1, :, :]), mkvc(NN[1][1:, :, :]), mkvc(NN[1][:-1, :, :])*np.nan].flatten() Z1 = np.c_[mkvc(NN[2][:-1, :, :]), mkvc(NN[2][1:, :, :]), mkvc(NN[2][:-1, :, :])*np.nan].flatten() X2 = np.c_[mkvc(NN[0][:, :-1, :]), mkvc(NN[0][:, 1:, :]), mkvc(NN[0][:, :-1, :])*np.nan].flatten() Y2 = np.c_[mkvc(NN[1][:, :-1, :]), mkvc(NN[1][:, 1:, :]), mkvc(NN[1][:, :-1, :])*np.nan].flatten() Z2 = np.c_[mkvc(NN[2][:, :-1, :]), mkvc(NN[2][:, 1:, :]), mkvc(NN[2][:, :-1, :])*np.nan].flatten() X3 = np.c_[mkvc(NN[0][:, :, :-1]), mkvc(NN[0][:, :, 1:]), mkvc(NN[0][:, :, :-1])*np.nan].flatten() Y3 = np.c_[mkvc(NN[1][:, :, :-1]), mkvc(NN[1][:, :, 1:]), mkvc(NN[1][:, :, :-1])*np.nan].flatten() Z3 = np.c_[mkvc(NN[2][:, :, :-1]), mkvc(NN[2][:, :, 1:]), mkvc(NN[2][:, :, :-1])*np.nan].flatten() X = np.r_[X1, X2, X3] Y = np.r_[Y1, Y2, Y3] Z = np.r_[Z1, Z2, Z3] plt.plot(X, Y, 'b', zs=Z) ax.set_zlabel('x3') ax.grid(True) ax.hold(False) ax.set_xlabel('x1') ax.set_ylabel('x2') fig.show()