import Converter.PyTree as C import Generator.PyTree as G import Intersector.PyTree as XOR import Geom.PyTree as D from Geom.Parametrics import base import Transform.PyTree as T s1 = D.sphere((0, 0, 0), 1, N=20) s2 = D.surface(base['plane'], N=30) s2 = T.translate(s2, (0.2, 0.2, 0.2)) s1 = C.convertArray2Tetra(s1) s1 = G.close(s1) s2 = C.convertArray2Tetra(s2) s2 = G.close(s2) x = XOR.conformUnstr(s1, s2, 0., 2) x = T.splitManifold(x) C.convertPyTree2File(x, 'outS.cgns') a = G.cylinder((0., 0., 0.), 0.5, 1., 360., 0., 10., (50, 1, 50)) c1 = T.subzone(a, (1, 1, 1), (50, 1, 1)) c2 = T.subzone(a, (1, 50, 1), (50, 50, 1)) c3 = T.subzone(a, (1, 1, 1), (1, 50, 1)) c = [c1, c2, c3] c = C.convertArray2Hexa(c) c = T.join(c) x = T.splitManifold(c) C.convertPyTree2File(x, "outB.cgns")
from Geom.Parametrics import base import Transform.PyTree as T import KCore.test as test s1 = D.sphere((0, 0, 0), 1, N=20) s2 = D.surface(base['plane'], N=30) s2 = T.translate(s2, (0.2, 0.2, 0.2)) s1 = C.convertArray2Tetra(s1) s1 = G.close(s1) s2 = C.convertArray2Tetra(s2) s2 = G.close(s2) x = XOR.conformUnstr(s1, s2, 0., 2) x = T.splitManifold(x) test.testT(x, 1) a = G.cylinder((0., 0., 0.), 0.5, 1., 360., 0., 10., (50, 1, 50)) c1 = T.subzone(a, (1, 1, 1), (50, 1, 1)) c2 = T.subzone(a, (1, 50, 1), (50, 50, 1)) c3 = T.subzone(a, (1, 1, 1), (1, 50, 1)) c = [c1, c2, c3] c = C.convertArray2Hexa(c) c = T.join(c) c = C.initVars(c, 'F', 1.) c = C.initVars(c, 'centers:G', 2.) res = T.splitManifold(c) t = C.newPyTree(['Base', 1]) t[2][1][2] += res test.testT(t, 2)