################################### ### DM2_w25 # AGruber@tugraz.at ### ### hu_06 UN_headquaters NYC ### CRVs 4 ROLLER.COASTER | SETUP ################################### ############################## import rhinoscriptsyntax as rs import random, time, sys ### sys.path.append("P:/") ### import DM_lib as dm ### dm.reload_lib(dm) ############################## rs.UnitSystem(4) # meters = 4, cm = 3 etc rs.ShowGrid(None, False) # grid > False = off rs.ShowGridAxes(None, True) # y/y/z axen display > False/True = off/on rs.ViewDisplayMode(rs.CurrentView(), "wireframe") rs.Command("cplane w t enter", False) # cPlane World Top dm.PointRadius(displayModeX=0, rad=3, styl=3) # 0 => wireframe | info: (.., verbose=1) dm.PointRadius(displayModeX=1, rad=4, styl=1) # 1 => shaded | info: (.., verbose=1) dm.PointRadius(displayModeX=2, rad=2, styl=0) # 2 => rendered | info: (.., verbose=1) dm.printDisplay(state=False) # nomen est omen rs.EnableRedraw(False) ###_________________________________________# ### basic settings for grid to fit UN_slab # ### # ! no need 2 change ! floors = H = dm.H = 40 # default=40 / incl roof slabs = L = dm.L = 11 # default=11 depth = D = dm.D = 4 # default= 4 / division in building_depth floorHeight = fH = dm.fH = 4.0 # default= 4.0 / 4.0*(H-1) = 156 meters # ############# # get gridCoords L*D*H = 1760 UnoGridCoords = dm.getUnoGridCoords() # get from DM_lib as dm #################___________________________# ####################### ### my little helper: ############### ### gC (get_Coord) im UN_grid ! # def gC(L,D,H): return dm.gC(L,D,H) # ##################################### ################## depthVec = dVec = rs.VectorUnitize(rs.VectorSubtract( gC(0, 0, 0), gC(0, 2, 0) )) lengthVec = lVec = rs.VectorUnitize(rs.VectorSubtract( gC(0, 0, 0), gC(1, 0, 0) )) ################## dm.newEmptyLayer("UNO::setUp", [120,120,140]) if 1: ### SETUP >> dont' exec @ homework ! if 0: rs.AddPoints(UnoGridCoords) ### just 4 reference pnt = gC(0,0,0) rs.AddLine( [0,0,0], pnt ) rs.AddLine( [0,0,0], gC(0,0,39) ) rs.AddLine( [0,0,0], gC(10,3,39) ) rs.AddLine( [0,0,0], gC(10,6,39) ) if 1: rs.AddLine( gC(0, 0, 0), gC(10, 0, 0) ) rs.AddLine( gC(0, 0, 0), gC(0, 3, 0) ) rs.AddLine( gC(0, 0, 0), gC(0, 0, 39) ) rs.ObjectColor(rs.AllObjects()[2], [0, 222, 0] ), rs.CurveArrows(rs.AllObjects()[0], 2) rs.ObjectColor(rs.AllObjects()[1], [222, 0, 0] ), rs.CurveArrows(rs.AllObjects()[1], 2) rs.ObjectColor(rs.AllObjects()[0], [0, 0, 222] ), rs.CurveArrows(rs.AllObjects()[2], 2) rs.ObjectPrintWidth( rs.AllObjects()[0:3], 0.5 ) p0 = gC( 0, 0, 0) p1 = gC( 10, 0, 0) p2 = gC( 10, 3, 0) p3 = gC( 0, 3, 0) unoBaseCoords = [p0, p1, p2, p3, p0] unoBaseCrv = rs.AddCurve( unoBaseCoords, 1) unoTopCoords = [dm.gC( 0, 0, 39), dm.gC( 10, 0, 39), dm.gC( 10, 3, 39), dm.gC( 0, 3, 39), dm.gC( 0, 0, 39), ] unoTopCrv = rs.AddCurve( unoTopCoords, 2) rs.ZoomExtents() if 0: ### long version coords = [] for y in range(11): for z in range(0, 40, 2): for x in range(0, 4, 3): coords.append( dm.gC(y,x,z) ) rs.AddPoints( coords ) dm.SetObjDisplayModeAllViewports(rs.AddPoints( coords ), displaymodeX=0, verbose=1) if 1: ### smart version / comprehension pnts = rs.AddPoints([ gC(y,x,z) for y in range(11) for z in range(0, 40, 2) for x in range(0, 4, 3) ]) dm.SetObjDisplayModeAllViewports(pnts, displaymodeX=2, verbose=0) ### 2 == rendered #### CAMERA #### set / get camera if 1: print ("ViewNames :"), print (rs.ViewNames()) cam = gC(5, -20, 19.5) tar = gC(5, 0, 19.5) #rs.AddLine( cam, tar ) #dm.setCameraTarget( cam, tar, 100.0, 0, 0, 0) #rs.ViewProjection(view='Perspective', mode=2) ### 1 = parallel, 2 = perspective, 3 = two point perspective #dm.getCameraTarget(view=rs.CurrentView(), verbose=1) dm.setCameraTarget( [147.7180745, 460.72977745, 520.62890601], [757.07048088, 564.59657397, 76.4493223], lens=100.0, rota=0, upVec=[0,0,1] ) # ... danke, andi ! ####################################### ################ HERE YOU GO AS YOU GO: dm.newEmptyLayer("myPROJ", [111,111,111]) p0 = gC(3, 0, 2) p1 = gC(3, -10, 2) p2 = gC(10, 0, random.randint(0,35)) p3 = gC(5, 10, 37) p4 = gC(5, 3, 37) #crv_1 = rs.AddCurve( [p0, p1, p2, p3, p4], 1) crv_2 = rs.AddCurve( [p0, p1, p2, p3, p4], 3) #crv_3 = rs.AddCurve( [p0, p1, p2, p3, p4], 3) #print rs.CurveDomain(crv_1)[1] print rs.CurveDomain(crv_2)[1] #print rs.CurveDomain(crv_3)[1] dom = rs.CurveDomain(crv_2)[1] param = dom*0.1 pnt = rs.EvaluateCurve( crv_2, param) #rs.AddPoint( pnt ) radius = 6.6 number = 2**6 anzahl = 2**6 deltaAng = 360/anzahl paramFac = dom/number #punkte auf kurve allParams = [] allCoordLists = [] for i in range(number+1): #print i, "pF", i*paramFac param = i*paramFac allParams.append( param ) pnt = rs.EvaluateCurve( crv_2, param ) rs.AddPoint( pnt ) #nPlane = rs.CurvePerpFrame( crv_2, param ) #cir = rs.AddCircle( nPlane, radius) #coords = rs.DivideCurve( cir, anzahl, False) #allCoordLists.append(coords) tan = rs.CurveTangent( crv_2, param ) hVecX = dm.vecCurvePerpXY( crv_2, param ) coords = [] for a in range(anzahl): hVec = rs.VectorRotate( hVecX, deltaAng*a, tan) hVec = rs.VectorScale( hVec, radius*1) hPnt = rs.VectorAdd(pnt, hVec) #rs.AddLine( pnt, hPnt ) coords.append( hPnt ) allCoordLists.append(coords) if 0: i = 0 for i in range(0, int(anzahl/2)):#, anzahl ): #fuer halbe anzahl coords = [] for coordList in allCoordLists: cor = coordList[i] coords.append( cor ) rs.AddCurve( coords, 2) rs.Redraw() for i in range( number +1 ): param = allParams[i] pnt = rs.EvaluateCurve( crv_2, param ) paramU = rs.CurveClosestPoint( unoBaseCrv, pnt ) pntU = rs.EvaluateCurve( unoBaseCrv, paramU ) rs.AddLine( pnt, pntU ) #for i in range( number +1 ): # param = allParams[i] pnt = rs.EvaluateCurve( crv_2, param ) paramT = rs.CurveClosestPoint( unoTopCrv, pnt ) pntT = rs.EvaluateCurve( unoTopCrv, paramT ) rs.AddLine( pnt, pntT ) ########## EOS / EndOfScript rs.EnableRedraw(True) ### 4_the_MACs #dm.eDup() ### delete duplicate objects dm.printDisplay(state=True, scale=1000) dm.zA( 0.9 ) dm.newEmptyLayer("Default")