From ce4990411ba258c0ff3d67aedc78a7364dd94449 Mon Sep 17 00:00:00 2001 From: Mohamed ZAARAOUI <115699524+ZAARAOUI999@users.noreply.github.com> Date: Wed, 20 Dec 2023 21:13:24 +0100 Subject: [PATCH] Delete feplot/tools.py --- feplot/tools.py | 269 ------------------------------------------------ 1 file changed, 269 deletions(-) delete mode 100644 feplot/tools.py diff --git a/feplot/tools.py b/feplot/tools.py deleted file mode 100644 index 95597e5..0000000 --- a/feplot/tools.py +++ /dev/null @@ -1,269 +0,0 @@ - -""" - FEPlot - Created November 2022 - Copyright (C) Mohamed ZAARAOUI - - This program is free software; you can redistribute it and/or - modify it under the terms of the GNU General Public License - as published by the Free Software Foundation; either version 2 - of the License, or (at your option) any later version. - - This program is distributed in the hope that it will be useful, - but WITHOUT ANY WARRANTY; without even the implied warranty of - MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - GNU General Public License for more details. - - You should have received a copy of the GNU General Public License - along with this program; if not, write to the Free Software - Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA -""" - -import numpy as np -import matplotlib.patches as mpatches -import matplotlib.pyplot as plt -import matplotlib.path as mpath - -from scipy.spatial import ConvexHull as conv -from matplotlib import collections -from mpl_toolkits.mplot3d.art3d import Poly3DCollection - - -hex_mask = np.array([[0, 1, 2, 3], [0, 1, 5, 4], - [1, 2, 6, 5], [2, 3, 7, 6], - [0, 3, 7, 4], [4, 5, 6, 7]]) - -hex_mask_sk = np.array([[7, 4, 2, 6], [4, 1, 0, 2], - [1, 5, 3, 0], [5, 7, 6, 3], - [7, 4, 1, 5], [6, 2, 0, 3]]) - -tetra_mask = np.array([[0, 1, 2], [0, 2, 3], - [0, 3, 1], [1, 2, 3]]) - -tetra_mask_sk = np.array([[1, 2, 3], [0, 2, 3], - [0, 1, 3], [0, 1, 2]]) - -tri_mask = np.array([0, 1, 2]) - -tri6_mask = np.array([0, 1, 2, 3, 4, 5]) - -quad_mask = np.array([0, 1, 2, 3]) - -quad9_mask = np.array([0, 1, 2, 3]) - -line_mask = np.array([0, 1]) - -MASK = {'line': line_mask, - 'triangle': tri_mask, - 'triangle6': tri6_mask, - 'quad': quad_mask, - 'quad9': quad9_mask, - 'tetra': tetra_mask, - 'tetra_sk': tetra_mask_sk, - 'hexahedron': hex_mask, - 'hexahedron_sk': hex_mask_sk} - - -def line_plot(mesh, values=None, ax=None, cmap='coolwarm', linewidth=3, alpha=1.0): - """ plot line gradient""" - p = mesh.points - - values = np.asarray(values) - if p.shape[1] == 1: - p = np.column_stack([p, values.reshape(p.shape[0], -1)]) - segments = p[:, :2][mesh.cells] - values = values.reshape(p.shape[0], -1).mean(1)[mesh.cells].mean(1) - lc = collections.LineCollection(segments, array=values, cmap=cmap, - linewidth=linewidth, alpha=alpha) - ax.add_collection(lc) - ax.set_aspect('equal') - - return lc - - -def surface_plot(mesh, values, _ax, **kwargs): - """Plot a 2D mesh""" - verts = mesh.points[mesh.cells[:, MASK[mesh.cell_type]]] - _mesh = collections.PolyCollection(verts, edgecolors=kwargs.pop('c'), - cmap='coolwarm', linewidths=.5) - condition = verts.shape[0]*verts.shape[1] == values.shape[0] - if condition: - _mesh.set_array(values.reshape(-1, mesh.cells.shape[1]).mean(1)) - else: - _mesh.set_array(values[mesh.cells[:, MASK[mesh.cell_type]]].mean(1)) - - _ax.add_collection(_mesh) - _ax.set_aspect('auto') - _ax.autoscale() - return _mesh - - -def volume_plot(mesh, values, _ax, update=True, **kwargs): - """Plot a 3D mesh""" - _m = mesh.copy() - points = _m.points - cells = _m.cells - cell_type = _m.cell_type - # Convert points array to cells points array - points = points[cells] - # Get cell type mask - if cell_type in ['hexahedron', 'hexahedron_sk']: - d = 4 - elif cell_type in ['tetra', 'tetra_sk']: - d = 3 - # Get polygons - polys = points[:, MASK[mesh.cell_type]].reshape(-1, d, 3) - print(len(cells), values.shape, polys.shape) - # Project values - values = values[cells[:, MASK[mesh.cell_type]]].reshape(-1, d).mean(1) - print(values.shape) - # Create matplotlib mesh - _mesh = Poly3DCollection(polys, linewidths=.5, edgecolor=kwargs.pop('c'), - closed=True, cmap='coolwarm', zsort='average', - facecolor='grey') - _ax.add_collection3d(_mesh) - - if update: - _mesh.set_array(values) - _ax.set_xlim(mesh.points[:, 0].min(), mesh.points[:, 0].max()) - _ax.set_ylim(mesh.points[:, 1].min(), mesh.points[:, 1].max()) - _ax.set_zlim(mesh.points[:, 2].min(), mesh.points[:, 2].max()) - - return _mesh - - -def plot_2d_boundary(_ax, points): - """Plot mesh boundaries""" - hull = conv(points) - _x, _y = points[hull.vertices, 0], points[hull.vertices, 1] - _x = np.append(_x, _x[0]) - _y = np.append(_y, _y[0]) - _ax.plot(_x, _y, c='k') - _ax.set_aspect('equal') - - -def plot_3d_boundary(_ax, mesh, c='k'): - """Plot mesh boundaries""" - values = np.zeros(shape=mesh.points.shape) - volume_plot(mesh, values, _ax, update=False, c=c) - - -def plot_model(field, bounds, show_load=True, show_bc=True, **kwds): - """Plot model""" - dim = field.region.mesh.points.shape[1] - if dim == 2: - _ax = plt.figure().add_subplot() - plot_2d_model(_ax, field, bounds, show_load=show_load, show_bc=show_bc) - elif dim == 3: - _ax = plt.figure().add_subplot(projection="3d") - plot_3d_model(_ax, field, bounds, show_load=show_load, show_bc=show_bc) - _ax.grid(False) - - -def plot_2d_model(_ax, field, bounds, show_load, show_bc): - """Plot 2D model""" - mesh = field.region.mesh.copy() - points = mesh.points - plot_2d_boundary(_ax, points) - axis = ['x', 'y', 'z'] - selected_field = field.fields[0] - for bound in bounds: - field = bounds[bound].field - if field == selected_field: - bc_mask = bounds[bound].mask - bc_points = bounds[bound].points - bc_skip = list(bounds[bound].skip) - bc_value = bounds[bound].value - - for i, skip in enumerate(bc_skip): - cent = mesh.points[bc_points] - if cent.shape[1] == 2: - cent = np.column_stack([cent, np.zeros(cent.shape[0])]) - direction = np.zeros(shape=cent.shape, like=cent) - if skip == 1: - if np.array([bc_value]).ravel().all() == 0: - if show_bc: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - _ax.quiver(cent[:, 0], cent[:, 1], direction[:, 0], - direction[:, 1], color='blue', label=bound+'[skip_%s=1]' % (axis[i])) - else: - if show_load: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - _ax.quiver(cent[:, 0], cent[:, 1], direction[:, 0], direction[:, 1], - color='green', label=bound+'[skip_%s=1]' % (axis[i])) - elif skip == 0: - if np.array([bc_value]).ravel().all() == 0: - if show_bc: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - _ax.quiver(cent[:, 0], cent[:, 1], direction[:, 0], direction[:, - 1], color='red', label=bound+'[skip_%s=0]' % (axis[i])) - else: - if show_load: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - _ax.quiver(cent[:, 0], cent[:, 1], direction[:, 0], direction[:, 1], - color='orange', label=bound+'[skip_%s=0]' % (axis[i])) - add_model_legend(show_load, show_bc) - - -def plot_3d_model(ax, field, bounds, show_load, show_bc): - """Plot 3D model""" - mesh = field.region.mesh.copy() - points = mesh.points - plot_3d_boundary(ax, mesh) - axis = ['x', 'y', 'z'] - selected_field = field.fields[0] - for bound in bounds: - field = bounds[bound].field - if field == selected_field: - bc_mask = bounds[bound].mask - bc_points = bounds[bound].points - bc_skip = list(bounds[bound].skip) - bc_value = bounds[bound].value - - for i, skip in enumerate(bc_skip): - cent = mesh.points[bc_points] - direction = np.zeros(shape=cent.shape, like=cent) - if skip == 1: - if np.array([bc_value]).ravel().all() == 0: - if show_bc: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - plt.gca().quiver(cent[:, 0], cent[:, 1], cent[:, 2], direction[:, 0], direction[:, - 1], direction[:, 2], color='blue', label=bound+'[skip_%s=1]' % (axis[i])) - else: - if show_load: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - plt.quiver(cent[:, 0], cent[:, 1], cent[:, 2], direction[:, 0], direction[:, 1], - direction[:, 2], color='green', label=bound+'[skip_%s=1]' % (axis[i])) - elif skip == 0: - if np.array([bc_value]).ravel().all() == 0: - if show_bc: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - plt.quiver(cent[:, 0], cent[:, 1], cent[:, 2], direction[:, 0], direction[:, 1], - direction[:, 2], color='red', label=bound+'[skip_%s=0]' % (axis[i])) - else: - if show_load: - direction[..., i] = abs( - np.max(mesh.points[..., i])-np.min(mesh.points[..., i]))/10 - plt.quiver(cent[:, 0], cent[:, 1], cent[:, 2], direction[:, 0], direction[:, 1], - direction[:, 2], color='orange', label=bound+'[skip_%s=0]' % (axis[i])) - add_model_legend(show_load, show_bc) - - -def add_model_legend(show_load=True, show_bc=True): - """Add model plot's legend""" - patches = [] - if show_bc: - patches.append(mpatches.Patch(color='red', label='BC [skip=0]')) - patches.append(mpatches.Patch(color='blue', label='BC [skip=1]')) - if show_load: - patches.append(mpatches.Patch(color='orange', label='Load [skip=0]')) - patches.append(mpatches.Patch(color='green', label='Load [skip=1]')) - plt.gca().legend(handles=patches, loc='center left', - bbox_to_anchor=(1.04, 0.5), borderaxespad=2)