# - bboxIntersection (pyTree) - import Generator.PyTree as G import Transform.PyTree as T import KCore.test as test boxA = G.cartTetra((2,-1,0.5), (1,2,0.5), (2,2,2)) boxB = G.cartTetra((2,-1,0.5), (2,2,1), (2,2,2)) boxB = T.rotate(boxB,(0,0,0),(10,5,-20)) AABB = G.BB(boxA) OBB = G.BB(boxB, method='OBB') intersect = G.bboxIntersection(AABB, AABB, tol=1e-10,isBB=True, method='AABB') test.testO(intersect,1) intersect = G.bboxIntersection(AABB, OBB, tol=1e-10, isBB=True, method='AABBOBB') test.testO(intersect,2) intersect = G.bboxIntersection(AABB, OBB, tol=1e-10, isBB=True, method='OBB') test.testO(intersect,3)
import Converter.PyTree as C import KCore.test as test # 3D STRUCTURE ni = 11; nj = 3; nk = 11 a1 = G.cart((0.,0.,0.), (0.1,0.1,0.2),(ni, nj,nk)) a2 = G.cart((0.5,0.05,0.01), (0.1,0.1,0.2),(ni, nj,nk)) a1 = C.addBC2Zone(a1, 'wall1','BCWall','jmin') a1 = C.addBC2Zone(a1, 'match1','BCMatch','imin',a1,'imax',[1,2,3]) a1 = C.addBC2Zone(a1, 'match2','BCMatch','imax',a1,'imin',[1,2,3]) a1 = C.fillEmptyBCWith(a1,'overlap','BCOverlap') a2 = C.addBC2Zone(a2, 'wall1','BCWall','jmin') a2 = C.addBC2Zone(a2, 'match1','BCMatch','imin',a2,'imax',[1,2,3]) a2 = C.addBC2Zone(a2, 'match2','BCMatch','imax',a2,'imin',[1,2,3]) a2 = C.fillEmptyBCWith(a2,'overlap','BCOverlap') intersect = G.bboxIntersection(a1, a2) test.testO(intersect,1) # TETRA at1 = C.convertArray2Tetra(a1) intersect = G.bboxIntersection(a1, a2) test.testO(intersect,2) # HEXA at1 = C.convertArray2Hexa(a1) intersect = G.bboxIntersection(a1, a2) test.testO(intersect,3) # 2D STRUCTURE ni = 11; nj = 3; nk = 1 a1 = G.cart((0.,0.,0.), (0.1,0.1,1.),(ni, nj,nk))