t[2][2][2].append(b) t = X.connectMatch(t, dim=3) C._fillEmptyBCWith(t, 'nref', 'BCFarfield', dim=3) C._addState(t, 'EquationDimension', 3) C._addVars(t, 'F') C._initVars(t, 'centers:G', 1.) t = X.applyBCOverlaps(t, depth=1) tDnr = C.node2ExtCenter(t) t1 = X.setInterpData(t, tDnr, sameName=1, loc='centers', storage='direct') C._initVars(tDnr, '{F}={CoordinateX}*{CoordinateY}') C._initVars(t1, '{centers:F}={centers:CoordinateX}*{centers:CoordinateY}') X._setInterpTransfers(t1, tDnr, cellNVariable='', variables=['F']) test.testT(t1, 0) t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='interpolated') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='extrapolated') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='orphan') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='cellRatio') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='donorAspect') test.testT(t1, 1) import sys sys.exit() tDnr = X.setInterpData(t, tDnr, sameName=1, loc='centers', storage='inverse') t1 = X.getOversetInfo(t, tDnr, loc='centers', type='interpolated') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='extrapolated') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='orphan') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='cellRatio') t1 = X.getOversetInfo(t1, tDnr, loc='centers', type='donorAspect') test.testT(t1, 2)
# - getOversetInfo (pyTree) - import Converter.PyTree as C import Generator.PyTree as G import Connector.PyTree as X a = G.cylinder((0, 0, 0), 1., 3., 360, 0, 1, (200, 30, 4)) a[0] = 'cylindre1' a = C.addBC2Zone(a, 'wall1', 'BCWall', 'jmin') a = C.addBC2Zone(a, 'ov1', 'BCOverlap', 'jmax') b = G.cylinder((4, 0, 0), 1., 3., 360, 0, 1, (200, 30, 4)) b[0] = 'cylindre2' b = C.addBC2Zone(b, 'wall1', 'BCWall', 'jmin') b = C.addBC2Zone(b, 'ov1', 'BCOverlap', 'jmax') c = G.cart((-5., -7.5, -2), (15. / 200, 15. / 200, 1), (200, 200, 8)) t = C.newPyTree(['Corps1', 'Corps2', 'Bgrd']) t[2][1][2].append(a) t[2][2][2].append(b) t[2][3][2].append(c) t = X.connectMatch(t, dim=3) t = C.fillEmptyBCWith(t, 'nref', 'BCFarfield', dim=3) t = X.applyBCOverlaps(t, depth=1, loc='centers') t[2][1][2] = X.setInterpData(t[2][1][2], t, loc='centers', storage='direct', sameName=1) t = X.getOversetInfo(t, t, loc='centers', type='interpolated') t = X.getOversetInfo(t, t, loc='centers', type='orphan') C.convertPyTree2File(t, "out.cgns")