import rhinoscriptsyntax as rs
import random as ran

# delete everything and start from scratch
allobj = rs.AllObjects()
rs.DeleteObjects(allobj)



###############
# variables
A = 5                   #distance between columns
B = A/3                 #distance of columns to end of plate
thick = 0.3             #thickness of slabs
hgt = 2.8               #height of room
xcol = 6                #columns in x direction
ycol = 12                #columns in y direction
levels = 10              #number of floor plates
f_height = 0.5          #foundation height
f_size = 0.8            #foundation edge size
#derived values
center_pt = [A*(xcol-1)/2,A*(ycol-1)/2,f_height]     #insertion point of floor plate
p_width = A*(xcol-1)+2*B                             #width of floor plate
p_length = A*(ycol-1)+f_size                         #lenght of floor plate



# function to create a box at centerpoint
def make_box(insertion=[0,0,0],xsize=10,ysize=10,zsize=10):
    #create a box
    corners = [[0,0,0], [xsize,0,0], [xsize,ysize,0], [0,ysize,0],
               [0,0,zsize], [xsize,0,zsize], [xsize,ysize,zsize], [0,ysize,zsize]]
    box = rs.AddBox(corners)
    rs.MoveObject(box,(-xsize/2,-ysize/2,0))
    rs.MoveObject(box,insertion)
    return(box)

# function to create a box at cornerpoint
def make_box2(insertion=[0,0,0],xsize=10,ysize=10,zsize=10):
    #create a box
    corners = [[0,0,0], [xsize,0,0], [xsize,ysize,0], [0,ysize,0],
               [0,0,zsize], [xsize,0,zsize], [xsize,ysize,zsize], [0,ysize,zsize]]
    box = rs.AddBox(corners)
    rs.MoveObject(box,insertion)
    return(box)

# function to create a field of foundations
def make_foundations(A=5.0,f_size=0.8,f_height=0.5,xcol=2,ycol=3):
    fns = []
    for i in range(xcol):
        for j in range(ycol):
            fns.append(make_box([i*A,j*A,0], f_size, f_size, f_height))
    return(fns)

# function to create a field of columns
def make_columns(A=5.0,level=0.7,thick=0.2,hgt=3.0,xcol=2,ycol=3):
    cls = []
    for i in range(xcol):
        for j in range(ycol):
            cls.append(make_box([i*A,j*A,level], thick, thick, hgt))
    return(cls)

def make_arc(insertion, rad, thick, hgt, orientation):
    segs=[]
    segs.append(rs.AddArc([0,0,0], rad, 180))
    segs.append(rs.AddArc([0,0,0], rad-thick, 180))
    segs.append(rs.AddLine([rad,0,0],[rad-thick,0,0]))
    segs.append(rs.AddLine([-(rad-thick),0,0],[-rad,0,0]))
    crv=rs.JoinCurves(segs, delete_input=True)
    path=rs.AddLine([0,0,0],[0,0,3.0])
    arc=rs.ExtrudeCurve(crv, path)
    rs.CapPlanarHoles(arc)
    rs.DeleteObject(crv)
    rs.DeleteObject(path)
    rs.RotateObject(arc,[0,0,0],orientation)
    rs.MoveObject(arc, insertion)
    return(arc)

# function to create stair
def make_stair(start, th, tt, steps, thick, s_width):
    pointlist=[start]
    for i in range(steps):
        pointlist.append([pointlist[-1][0],pointlist[-1][1],pointlist[-1][2]+th])
        pointlist.append([pointlist[-1][0]+tt,pointlist[-1][1],pointlist[-1][2]])
    pointlist.append([pointlist[-1][0],pointlist[-1][1],pointlist[-1][2]-thick])
    pointlist.append([pointlist[0][0],pointlist[0][1],pointlist[0][2]-thick])
    pointlist.append([pointlist[0][0],pointlist[0][1],pointlist[0][2]])
    s_outline=rs.AddPolyline(pointlist)
    path=rs.AddLine(start,[start[0],start[1]+s_width,start[2]])
    hull = rs.ExtrudeCurve(s_outline,path)
    rs.CapPlanarHoles(hull)
    rs.DeleteObjects([s_outline, path])
    return hull

def make_terrace(A=3.0,level=0.7,thick=0.4,hgt=3.0,xcol=2,ycol=3):
    cls = []
    for i in range(xcol-1):
        for j in range(ycol-1):
            ori = ran.randint(0,6)
            if ori<4:
                orientation = ori*90
                cls.append(make_arc([i*A+A/2,j*A+A/2,level], A/2, thick, hgt,orientation))
    return(cls)


rs.EnableRedraw(False)

#building domino
def make_domino(A=A, B=B,thick=thick, hgt=hgt, levels=levels,xcol=xcol, ycol=ycol, f_height=f_height, f_size=f_size):
    f_list=[]       #list of foundations
    p_list=[]       #list of plates
    c_list=[]       #list of columns
    for i in range(levels):
        center_pt[2] = f_height + i*(thick+hgt)
        level = f_height+thick+(i-1)*(hgt+thick)
        if i == 0:
            f_list = make_foundations(A,f_size,f_height,xcol,ycol)
        else:
            c_list.extend(make_columns(A,level,thick,hgt,xcol,ycol))
        p_list.append(make_box(center_pt,p_width,p_length,thick))
    level = f_height+thick+(levels-1)*(hgt+thick)
    c_list.extend(make_terrace(A,level,thick,hgt,xcol,ycol))
    ##################
    #calculate stair values
    ##################
    steps = int((hgt+thick)/0.17)
    if steps%2:
        steps = steps-1
    th = (hgt+thick)/steps
    if (th>0.19):
        steps = steps+2
        th = (hgt+thick)/steps
    ##################
    #stair parameters
    ##################
    tt=0.3                                                  #step size
    s_width = 1.2                                           #s_width = stair width
    pod_w = B                                               #depth of landing
    start = [pod_w,-(s_width*2+f_size/2), f_height+thick]   #startpoint of stair
    
    #loop to create staircase
    stair_l = []
    for i in range(levels):
        start[2] = f_height+thick + i*(thick+hgt)  #z-wert bei jeder Iteration neu gesetzt
        if i==levels-1:      #letztes podest
            stair_l.append(make_box2([start[0]-pod_w, start[1]+s_width, start[2]-thick], pod_w, s_width,thick))  #sonderpodest
        else:
            stair_l.append(make_box2([start[0]-pod_w, start[1], start[2]-thick], pod_w, s_width*2,thick))
            stair_l.append(make_stair(start, th, tt, int(steps/2), thick, s_width))
            stair_l.append(make_box2([start[0]+(steps/2)*tt, start[1], start[2]+(steps/2)*th-thick], pod_w, s_width*2,thick))
            stair_l.append(make_stair([start[0]+(steps/2)*tt, start[1]+s_width, start[2]+(steps/2)*th], th, -tt, int(steps/2), thick, s_width))
    
    #facade
    #number of sticks 
    num_lenght = int(p_length / thick)
    
    fac_list = []
    #facade length
    for i in range (num_lenght):
        if not(i%3): 
            box=make_box2(insertion=(-B, thick*i - f_size/2 + thick, f_height),
                        xsize=-thick, 
                        ysize=thick, 
                        zsize=((hgt+thick)*(levels-1)+thick))
            fac_list.append(box)
            box=make_box2(insertion=(p_width - B + thick, thick*i - f_size/2 + thick, f_height),
                        xsize=-thick, 
                        ysize=thick, 
                        zsize=((hgt+thick)*(levels-1)+thick))
            fac_list.append(box)
    
    #facade width
    num_width = int(p_width / thick)
    for i in range (num_width):
        if not(i%3): 
            box=make_box2(insertion=(thick * i -B +thick +thick/4,-thick - f_size / 2, f_height),
                        xsize=-thick, 
                        ysize=thick, 
                        zsize=((hgt+thick)*(levels-1)+thick))
            fac_list.append(box)
            box=make_box2(insertion=(thick * i -B +thick +thick/4, p_length - f_size / 2, f_height),
                        xsize=-thick, 
                        ysize=thick, 
                        zsize=((hgt+thick)*(levels-1)+thick))
            fac_list.append(box)

    
    return(f_list,c_list, p_list, stair_l, fac_list)


#(f_list, c_list, p_list, stair_l, fac_list)= make_domino()


#rs.EnableRedraw(True)

#make_domino()

curve = rs.AddCurve([[-40,-30,0], [30,80,0], [100,-10,0], [160,70,0]], 3)
crv_pts = rs.DivideCurve(curve, 4)


for p in crv_pts:
    levels = ran.randint(3,10)
    (f_list, c_list, p_list, stair_l, fac_list)= make_domino(levels = levels)
    rs.MoveObjects(f_list, p)
    rs.MoveObjects(c_list, p)
    rs.MoveObjects(p_list, p)
    rs.MoveObjects(stair_l, p)
    rs.MoveObjects(fac_list, p)

rs.DeleteObject(curve)
rs.EnableRedraw(True)