70 lines
1.5 KiB
Python
70 lines
1.5 KiB
Python
from interp.grid import delaunay_grid as basegrid
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from interp.tools import exact_func_3D, log
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import numpy as np
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class grid(basegrid):
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def __init__(self, verts, q):
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basegrid.__init__(self, verts, q)
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class rect_grid(grid):
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def __init__(self, xres = 5, yres = 5, zres = 5):
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xmin = -1.0
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xmax = 1.0
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xspan = xmax - xmin
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xdel = xspan / float(xres - 1)
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ymin = -1.0
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ymay = 1.0
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yspan = ymay - ymin
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ydel = yspan / float(yres - 1)
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zmin = -1.0
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zmaz = 1.0
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zspan = zmaz - zmin
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zdel = zspan / float(zres - 1)
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verts = []
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q = []
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for x in xrange(xres):
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cur_x = xmin + (x * xdel)
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for y in xrange(yres):
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cur_y = ymin + (y * ydel)
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for z in xrange(zres):
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cur_z = zmin + (z * zdel)
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verts.append([cur_x, cur_y, cur_z])
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q.append(exact_func_3D((cur_x, cur_y, cur_z)))
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grid.__init__(self, verts, q)
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# self.construct_connectivity()
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class random_grid(rect_grid):
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def __init__(self, num_verts = 10):
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verts = []
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q = []
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r = np.random
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appx_side_res = int(np.power(num_verts, 1/3.0))
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log.debug("appx_side_res: %d" % appx_side_res)
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delta = 1.0 / float(appx_side_res)
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for x in xrange(appx_side_res + 1):
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pass
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for i in xrange(num_verts):
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cur_x = r.rand()
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cur_y = r.rand()
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cur_z = r.rand()
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verts.append([cur_x, cur_y, cur_z])
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q.append(exact_func_3D((cur_x, cur_y, cur_z)))
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grid.__init__(self, verts, q)
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self.verts = np.array(self.verts)
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self.q = np.array(self.q)
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