def refineCells(): if CTK.t == []: return if CTK.__MAINTREE__ <= 0: CTK.TXT.insert('START', 'Fail on a temporary tree.\n') CTK.TXT.insert('START', 'Error: ', 'Error') return W = WIDGETS['refine'] if CTK.__BUSY__ == False: CPlot.unselectAllZones() CTK.__BUSY__ = True TTK.sunkButton(W) CPlot.setState(cursor=1) while CTK.__BUSY__: l = [] while l == []: nz = CPlot.getSelectedZone() l = CPlot.getActivePointIndex() CPlot.unselectAllZones() time.sleep(CPlot.__timeStep__) W.update() if CTK.__BUSY__ == False: break if CTK.__BUSY__: nob = CTK.Nb[nz] + 1 noz = CTK.Nz[nz] CTK.saveTree() z = CTK.t[2][nob][2][noz] C._initVars(z, 'centers:__tag__', 0) C.setValue(z, 'centers:__tag__', l[1], 1) try: z = P.refine(z, '__tag__') CTK.replace(CTK.t, nob, noz, z) except: pass CTK.TKTREE.updateApp() CPlot.render() CTK.__BUSY__ = False TTK.raiseButton(W) CPlot.setState(cursor=0) else: CTK.__BUSY__ = False TTK.raiseButton(W) CPlot.setState(cursor=0)
# - refine (pyTree) - import Post.PyTree as P import Converter.PyTree as C import Generator.PyTree as G import Geom.PyTree as D # Linear with indicator field a = G.cartTetra((0, 0, 0), (1, 1, 1), (10, 10, 1)) a = C.initVars(a, 'centers:indic', 1.) a = P.refine(a, 'indic') C.convertPyTree2File(a, 'out.cgns')
import Generator.PyTree as G import Transform.PyTree as T import KCore.test as test # test sur une zone ni = 21 nj = 21 nk = 1 hi = 2. / (ni - 1) hj = 2. / (nj - 1) m = G.cart((0., 0., 0.), (hi, hj, 1.), (ni, nj, nk)) m = T.perturbate(m, 0.51) tri = G.delaunay(m) tri = C.initVars(tri, 'centers:indic', 1.) tri = C.initVars(tri, 'G', 2.) sol = P.refine(tri, 'indic') test.testT(sol, 1) # test sur une base m = G.cartTetra((2, 2, 2), (0.1, 0.1, 0.1), (10, 5, 1)) m = C.initVars(m, 'centers:indic', 1) m = C.initVars(m, 'G', 0) t = C.newPyTree(['Base', 2]) t[2][1][2] += [m, tri] t[2][1] = C.addState(t[2][1], 'Mach', 0.6) sol = P.refine(t[2][1], 'indic') test.testT(sol, 2) # test sur un arbre t2 = P.refine(t, 'indic') test.testT(t2, 3)
# - refine (pyTree) - import Post.PyTree as P import Converter.PyTree as C import Generator.PyTree as G import Geom.PyTree as D # Refine with butterfly interpolation a = G.cartTetra((0, 0, 0), (1, 1, 1), (10, 10, 1)) a = P.refine(a, w=1. / 64.) C.convertPyTree2File(a, 'out.cgns')