from grid import grid from baker.tools import exact_func import numpy as np class simple_rect_grid(grid): def __init__(self, xres = 5, yres = 5): xmin = -1.0 xmax = 1.0 xspan = xmax - xmin xdel = xspan / float(xres - 1) ymin = -1.0 ymay = 1.0 yspan = ymay - ymin ydel = yspan / float(yres - 1) points = [] q = [] for x in xrange(xres): cur_x = xmin + (x * xdel) for y in xrange(yres): cur_y = ymin + (y * ydel) points.append([cur_x, cur_y]) q.append(exact_func(cur_x, cur_y)) grid.__init__(self, points, q) self.construct_connectivity() def for_qhull_generator(self): """ this returns a generator that should be fed into qdelaunay """ yield '2'; yield '%d' % len(self.points) for p in self.points: yield "%f %f" % (p[0], p[1]) def for_qhull(self): """ this returns a single string that should be fed into qdelaunay """ r = '2\n' r += '%d\n' % len(self.points) for p in self.points: r += "%f %f\n" % (p[0], p[1]) return r class simple_random_grid(simple_rect_grid): def __init__(self, num_points = 10): points = [] q = [] r = np.random for i in xrange(num_points): cur_x = r.rand() cur_y = r.rand() points.append([cur_x, cur_y]) q.append(exact_func(cur_x, cur_y)) grid.__init__(self, points, q) self.points = np.array(self.points) self.q = np.array(self.q)