################################### ### DM2_w24 # AGruber@tugraz.at ### ### ue_05 UN_headquaters NYC ### ################################### ############################## import rhinoscriptsyntax as rs import random, time, sys ### sys.path.append("P:/WWW/zargut2406/lib") ### import DM_lib as dm ### reload(dm) ############################## rs.UnitSystem(4) # km = 5, meters = 4, cm = 3 etc rs.ShowGrid(None, 0) # grid > 0 = off rs.ShowGridAxes(None, 1) # y/y/z axen display > 0/1 = off/on rs.ViewDisplayMode(rs.CurrentView(), "wireframe") rs.Command("cplane w t enter", 0) # cPlane World Top dm.PointRadius(displayModeX=0, rad=3, styl=3) dm.printDisplay(state=1) ### nomen est omen / printDisplay(state=1, scale=1000, thickness=1, color="Display") rs.EnableRedraw(0) ### MAC >> problem ! ###_________________________________________# ### 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 #################___________________________# dm.newEmptyLayer("UNO::setUp::points", [150,150,200] ) dm.newEmptyLayer("UNO::setUp::geo", [150, 20,150] ) dm.newEmptyLayer("UNO::setUp::crv", [200, 100, 100]) dm.newEmptyLayer("UNO::setUp", [120,120,140] ) ################ lengthVec = lVec = rs.VectorUnitize(rs.VectorSubtract( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(1, 0, 0) )) ## rs.AddPoint( dm.getUnoCoord(1, 0, 0) ) depthVec = dVec = rs.VectorUnitize(rs.VectorSubtract( dm.getUnoCoord(0, 1, 0), dm.getUnoCoord(0, 0, 0) )) ## rs.AddPoint( dm.getUnoCoord(0, 1, 0) ) ################ if 1: ### DEMOs / SETUP >> dont' exec @ homework ! if 1: rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(10, 0, 0) ) rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord( 0, 3, 0) ) rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord( 0, 0, 39) ) rs.CurveArrows(rs.AllObjects()[0], arrow_style=2) rs.CurveArrows(rs.AllObjects()[1], arrow_style=2) rs.CurveArrows(rs.AllObjects()[2], arrow_style=2) rs.ObjectColor(rs.AllObjects()[2], [150, 150, 200] ) rs.ObjectColor(rs.AllObjects()[1], [150, 150, 200] ) rs.ObjectColor(rs.AllObjects()[0], [150, 150, 200] ) #rs.ObjectPrintWidth( rs.AllObjects()[0:3], 1.0 ) p0 = dm.getUnoCoord( 0, 0, 0) p1 = dm.getUnoCoord( 10, 0, 0) p2 = dm.getUnoCoord( 10, 3, 0) p3 = dm.getUnoCoord( 0, 3, 0) unoBaseCoords = [p0, p1, p2, p3, p0] unoBaseCrv = rs.AddCurve( unoBaseCoords, 1) unoTopCoords = [dm.getUnoCoord( 0, 0, 39), dm.getUnoCoord( 10, 0, 39), dm.getUnoCoord( 10, 3, 39), dm.getUnoCoord( 0, 3, 39), dm.getUnoCoord( 0, 0, 39), ] unoTopCrv = rs.AddCurve( unoTopCoords, 1) rs.ZoomExtents() if 0: ############################## rs.CurrentLayer("UNO::setUp::points") #rs.AddPoints( UnoGridCoords ) for i in range(L): rs.ObjectColor( rs.AddTextDot( str(i), dm.getUnoCoord(i, 0, 0) ), [0, 222, 0] ) for i in range(D): rs.ObjectColor( rs.AddTextDot( str(i), dm.getUnoCoord(0, i, 0) ), [222, 0, 0] ) for i in range(H): rs.ObjectColor( rs.AddTextDot( str(i), dm.getUnoCoord(0, 0, i) ), [0, 0, 222] ) ############################## if 0: rs.CurrentLayer("UNO::setUp::crv") dm.UN_slab(showAll=1) for i in range(0): p0 = dm.getUnoCoord( random.randint(0,L-1), random.randint(0,D-1), random.randint(0,H-1) ) p1 = dm.getUnoCoord( random.randint(0,L-1), random.randint(0,D-1), random.randint(0,H-1) ) rs.AddCurve( [p0, p1] ) dm.textDots( [p0, p1] ) rs.ZoomExtents() if 0: coords = UnoGridCoords[:] ### make COPY - not equal ! random.shuffle( coords ) rs.AddCurve( coords[0:], random.randint(1, 3) ) ################# ### abbreveation: def gC (l=1, d=2, h=3): cor = dm.getUnoCoord(l, d, h) return cor ## rs.AddPoint( gC(1,0,1) ) ### start punkt ################# #cent = gC( 5, 0, 1) #rs.AddPoint( cent ) #rs.AddPoint(gC( 6, 0, 2) ) #rs.AddPoint(gC( 7, 0, 5) ) #rs.AddPoint( gC( 8, 0, 39) ) ### moegliche punkte auf der spiral linie anz = 36*6 rad = 5.0 p0 = gC( 5, 0, 0) lenX = rs.Distance(gC( 5, 0, 1), gC( 0, 0, 1)) print "lenX", lenX ### laenge des anfangs center point zur aussenkante d gebaeudes deltaLen = (lenX-rad)/(anz+1) deltaAng = 10.0 ## grad deltaZ = 156/(anz+0) coords = [] for i in range(anz+1): rad += deltaLen vec = rs.VectorScale(lVec, rad) vec = rs.VectorRotate( vec, i*deltaAng, [0,0,1]) vec[2] = i*deltaZ #rs.AddLine( p0, rs.VectorAdd(p0, vec)) coords.append(rs.VectorAdd(p0, vec)) ### vektoren mit immer gleicher rotation um seinen rotationspunkt verschieben, in dem fall 6 mal ganze drehung anzCircs = 64 anzCircCoords = 116 ### um jeden definitionspunkt circle erstellen crv = rs.AddCurve( coords, 3) ### linien die spiralenfoermig von punkt auf kreislinie verlaufen coords = rs.DivideCurve( crv, anzCircs, 1) ### kontrolle der spiralendicke rad = 5.0 deltaLen = (lenX-rad)/(anzCircs+1) ### je hoeher die koordinate desto groesser die verschiebung deltaLen *= 0.2 allCoords = [] for cor in coords: paraX = rs.CurveClosestPoint( crv, cor) planeX = rs.CurvePerpFrame(crv, paraX) rad += deltaLen circ = rs.AddCircle( planeX, rad ) coordsCirc = rs.DivideCurve(circ, anzCircCoords, 0) allCoords.append( coordsCirc ) for i in range(anzCircCoords): coords = [] for coord_list in allCoords: coords.append(coord_list[i]) crv = rs.AddCurve(coords) ### zusammenfassung aller curves der coords liste if i % 3 == 0: rs.ObjectColor(crv, [205, 205, 0]) # setzt gelbe Farbe fuer jede 3. kurve elif i % 5 == 0: rs.ObjectColor(crv, [79, 89, 29]) # setzt dunkelgruene Farbe fuer jede 5. kurve else: rs.ObjectColor(crv, [190, 190, 190]) # setzt graue Farbe fuer alle anderen kurven #for #_____________________________here you go: dm.newEmptyLayer("myPROJ", [100,100,100]) if 0: #cor = dm.getUnoCoord(5, 0, 2) #rs.AddPoint( cor ) #rs.AddPoint( dm.getUnoCoord(5, 0, 4) ) #rs.AddPoint( dm.getUnoCoord(5, 3, 4) ) #rs.AddPoint( dm.getUnoCoord(5, 1, 39) ) # #rs.AddLine( gC(5, 0, 4), gC(5, 3, 4)) # #for z in range(10,20): # rs.AddPoint( dm.getUnoCoord(8, 0, z) ) #for x in range(2,10): # rs.AddPoint( dm.getUnoCoord(x, 0, 13) ) p0 = gC(0,0,5) p1 = gC(0,3,15) p2 = gC(5,3,25) p3 = rs.VectorAdd( p2, rs.VectorScale( dVec, 105.75 ) ) p4 = gC(10,0,30) p5 = rs.VectorAdd( p4, rs.VectorScale( dVec, -55.75 ) ) anzCircs = 14 anzCircPts = 128 coords = [p0, p1, p2, p3, p4, p5] #rs.AddCurve( coords, 1 ) crv = rs.AddCurve( coords, 2 ) coords = rs.DivideCurve( crv, anzCircs, create_points=0) dom = rs.CurveDomain( crv )[1] #paraX = dom*0.3333 #pX = rs.EvaluateCurve( crv, paraX ) #rs.AddPoint( pX ) # #paraX = dom*0.9 #planeX = rs.CurvePerpFrame(crv, paraX) # #rs.AddCircle(planeX, 7.5) #rs.AddRectangle(planeX, 10,10) print "dom =", dom allCircCoordsLists = [] for cor in coords: pass paraX = rs.CurveClosestPoint( crv, cor ) planeX = rs.CurvePerpFrame(crv, paraX) circ = rs.AddCircle( planeX, 7.5 ) coords = rs.DivideCurve( circ, anzCircPts, 0) #rs.DeleteObject( circ ) allCircCoordsLists.append( coords ) i = 10 for i in range( int(anzCircPts*0.5) ): coords = [] for coordList in allCircCoordsLists: coords.append( coordList[i] ) #rs.AddCurve( coords, 1 ) #rs.AddCurve( coords, 1 ) #rs.AddCurve( coords ) rs.AddInterpCurve(coords, degree=3, knotstyle=3 ) #____________________________:here you end ################################### dm.zA( proz=0.95 ) rs.EnableRedraw(1) ### 4 the MACs #dm.printDisplay(1) dm.newEmptyLayer("Default")