################################### # Hausuebung 07. # # Spamer_Max Benjamin # # 12033091 # ################################### ############################## import rhinoscriptsyntax as rs import random, time, sys ### sys.path.append("/Users/mbns/Downloads") ### 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(1) # nomen est omen rs.EnableRedraw(0) ###_________________________________________# ### basic settings for grid to fit UN_slab # ### # 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 = 2.0 # default= 4.0 / 4.0*(H-1) = 156 meters # ################ # get from DM_lib as dm: UnoGridCoords = dm.UnoGridCoords # get gridCoords L*D*H = 1760 UnoPanelCoords = dm.UnoPanelCoords # get panelCoords [frontPanels, backPanels, sidePanels, upSidePanels] / default arguments s.u. ################____________________________# ################ 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) ) ################ ########################################################################################### UnoPanelCoords = dm.getUNpanelCoords(anzL=10*7, anzH=39, anzD=3, stepL=1, stepH=1, stepD=1) ### = all ~windows_panels BigPanelCoords = dm.getUNpanelCoords(anzL=10*1, anzH=39, anzD=3, stepL=2, stepH=6, stepD=2) ### = all ~windows_panels UnoPanelCoords = dm.getUNpanelCoords(anzL=10*1, anzH=39, anzD=3, stepL=1, stepH=3, stepD=1) ### = standard for hu_06 ########################################################################################### ########################################################## frontPanels = UnoPanelCoords[0] ### list of coordLists ! backPanels = UnoPanelCoords[1] sidePanels = UnoPanelCoords[2] upSidePanels = UnoPanelCoords[3] allPanels = UnoPanelCoords[4] ################################# dm.newEmptyLayer("UNO::setUp", [120,120,240]) if 0: ### SETUP >> dont' exec @ homework ! rs.ObjectColor(rs.AddCurve( [dm.getUnoCoord(0,0,0), dm.getUnoCoord(0,0,39), dm.getUnoCoord(10,0,39), dm.getUnoCoord(10,0,0), dm.getUnoCoord(10,3,0), dm.getUnoCoord(0,3,0), dm.getUnoCoord(0,3,39), dm.getUnoCoord(10,3,39)], 1), [100,0,200]) rs.ObjectColor(rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(0, 1, 0) ), [222, 0, 0] ) rs.ObjectColor(rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(1, 0, 0) ), [0, 222, 0] ) rs.ObjectColor(rs.AddLine( dm.getUnoCoord(0, 0, 0), dm.getUnoCoord(0, 0, 2) ), [0, 0, 222] ) rs.ObjectPrintWidth( rs.AllObjects()[0:4], 1.0 ) #rs.ZoomExtents() #for coords in BigPanelCoords[4]: rs.AddCurve( coords, 1 ) if 0: ### DEMO >> dont' exec @ homework ! print len(frontPanels) dm.textDots( frontPanels[0] ) for coords in frontPanels[0:10]+sidePanels: pass rs.AddPoints( coords ) rs.AddCurve( coords, 1 ) #rs.AddSrfPt( coords ) #for coords in sidePanels[0:]: # rs.AddPoints( coords ) for coords in BigPanelCoords[4]: pass rs.AddCurve( coords, 1 ) if 0: ### DEMO >> dont' exec @ homework ! #############: ### panel_DEF: def myPanel( panel, basement = 0 ): p0, p1, p2, p3 = panel ### get items (==coords) from list rs.AddLine( p0, p2 ) if basement: crv = rs.AddCurve( [p0, p1, dm.pntInbetween(p1, p3), p2, p3], 1 ) rs.ObjectPrintWidth( crv, 1 ) rs.ObjectColor( crv, [200,200,0]) else: coords = [p0, p1, p2, p3, p0] rs.AddCurve( coords, 2 ) #for i,panel in enumerate(frontPanels[0:50] + sidePanels): for i,panel in enumerate(allPanels): pass basement = 0 if i<20 or i>119: basement = 1 myPanel( panel, basement = basement ) ### basement = (i<20 or i>109) #rs.Redraw() #_____________________________here you go: dm.newEmptyLayer("myPROJ", [100,100,100]) def myPanel(panel, dachl = 0): p0, p1, p2, p3 = panel nVec = dm.normVec3pnts(p0, p1, p2) auskrag = 4.9 zVal = p0[2] auskrag = dm.reMap(-zVal, 0, 156, 10.0, 5.0) # Kein negativer Wert mehr kip = -0.6 #winkel nVec[2] += kip nVec = rs.VectorScale(nVec, auskrag) coords0 = [p0, p1, p2, p3, p0] #rs.AddCurve(coords0, 1) # Grundflaeche panel #nur auf langen seite markise if 0: if panel in sidePanels or panel in upSidePanels: return #markisen p10 = dm.pntInbetween(p1, p0, 0.3) p23 = dm.pntInbetween(p2, p3, 0.3) p12 = rs.VectorAdd(p1, nVec) p121 = rs.VectorAdd(p2, nVec) anz = 111 # Anzahl der Shades coordsA = [p10, p1, p12, p121, p2, p23] crvA = rs.AddCurve(coordsA, 1) crvI = rs.AddCurve([p10, p1, p2, p23], 2) coordsDivA = rs.DivideCurve(crvA, anz, 0) coordsDivI = rs.DivideCurve(crvI, anz, 0) # Markisen Konstruktion p0X = coordsDivA[int(anz * 0.3)] p3X = coordsDivA[int(anz * 0.7)] rs.AddLine(p0, p0X) rs.AddLine(p3, p3X) for i in range(anz): rs.AddCurve( [coordsDivA[i], coordsDivI[i]] ) #fassadenpanels def myPanel_2( panel, dachl = 0 ): p0, p1, p2, p3 = panel #circle = rs.AddCurve( [p0,p1,p2,p3,p0], 4 ) #kreis # Mittelpunkt Panel center_x = (p0[0] + p1[0] + p2[0] + p3[0]) / 4 center_y = (p0[1] + p1[1] + p2[1] + p3[1]) / 4 center_z = (p0[2] + p1[2] + p2[2] + p3[2]) / 4 center_point = [center_x, center_y, center_z] normal_vec = dm.normVec3pnts(p0, p1, p2) # Normalenvektor aus erster Diagonale diagonal_vec = rs.VectorSubtract(p2, p0) # Diagonale Panel radius = 0.25 * rs.VectorLength(diagonal_vec) # Halbe Diagonale als Radius # Ebene und Kreis plane = rs.PlaneFromNormal(center_point, normal_vec) circle = rs.AddCircle(plane, radius) # Richtungsvektor von p0 nach p1 parallel_vec = rs.VectorUnitize(rs.VectorSubtract(p1, p0)) # Punkte auf Kreis circle_points = rs.DivideCurve(circle, 10) # Unterteilungen des Kreises def draw_parallel_lines(panel, num_lines): p0, p1, p2, p3 = panel # Zwischenpunkte auf den langen Kanten p1p2 und p3p0 points_p1p2 = rs.DivideCurve(rs.AddLine(p1, p2), num_lines) #points_p0p3 = rs.DivideCurve(rs.AddLine(p0, p3), num_lines) points_p3p0 = rs.DivideCurve(rs.AddLine(p3, p0), num_lines) # Zeichnen paralleler Linien for i in range(len(points_p1p2)): start_point = points_p1p2[i] # end_point = points_p0p3[i] end_point = points_p3p0[i] rs.AddLine(start_point, end_point) #ausfuehrung der panels if 1: for i,panel in enumerate(allPanels[:]): dm.esc() dachl = random.randint(0, 115)*(i > 20) if i < 10: pass #dachl = 0 if random.random() < 0.2: #random oft marksien myPanel( panel, dachl=dachl ) if i%10==0: rs.Redraw() if i%2 == 0: myPanel_2(panel, dachl=dachl) if i % 10 == 0: rs.Redraw() if random.random() < 0.2: num_lines = 10 # Anzahl paralleler Linien for i, panel in enumerate(allPanels): dm.esc() draw_parallel_lines(panel, num_lines) if i % 10 == 0: rs.Redraw() if 0: for i in range(10): rs.AddCurve( frontPanels[i], 1 ) rs.AddCurve( frontPanels[i+20], 1 ) #dm.textDots( frontPanels[3] ) #rs.AddSrfPt( frontPanels[3] ) #____________________________:here you end ################################# #rs.ZoomExtents() rs.EnableRedraw(1) ### 4 the MACs dm.printDisplay(1) dm.newEmptyLayer("Default")