import rhinoscriptsyntax as rs
import random as ran
allobjs = rs.AllObjects()
rs.DeleteObjects(allobjs)


###
#Variablen
A=5                 #Distance between columns
B=A/3               #Distance of columns 
thick = 0.2         #thickness
hgt = 2.7           #heigth of room
xcol = 2            #columns in x direction
ycol = 3            #columns in y direction
levels = 3          #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                         #length of floor plate
###


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.MoveObjects(box, (-xsize/2, -ysize/2, 0))
    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)

#builing dom-ino
f_list = []         #list of foundation
c_list = []         #list of columns
p_list = []         #list of plates
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))

rs.AddLayer("foundation")
rs.LayerColor("foundation", (220,60,60))
rs.ObjectLayer(f_list, "foundation")
rs.AddLayer("columns")
rs.LayerColor("columns", (60,220,60))
rs.ObjectLayer(c_list, "columns")
rs.AddLayer("plates")
rs.LayerColor("plates", (60,60,220))
rs.ObjectLayer(p_list, "plates")

# Fassade
baseline_vorne = rs.AddLine((-1.67, -0.4, 0), (p_width - 1.67, -0.4, 0))
pts_vorne = rs.DivideCurve(baseline_vorne, 12)
for p in pts_vorne:
    make_box(p, 0.2, 0.2, levels * 2.2)

tiefe = 10.8
baseline_hinten = rs.AddLine((-1.67, -0.4 + tiefe, 0), (p_width - 1.67, -0.4 + tiefe, 0))
pts_hinten = rs.DivideCurve(baseline_hinten, 12)
for p in pts_hinten:
    make_box(p, 0.2, 0.2, levels * 2.2)

# Linke Fassade (Fassade 1 in y-Richtung)
baseline1 = rs.AddLine((-B, -0.4, 0), (-B, p_length - 0.4, 0))
pts1 = rs.DivideCurve(baseline1, 14)
for p in pts1:
    make_box(p, 0.2, 0.2, levels * 2.2)

# Rechte Fassade (Fassade 2 in y-Richtung)
# p_width ist die Breite der Struktur, du verschiebst die x-Koordinate um p_width.
baseline2 = rs.AddLine((p_width - B, -0.4, 0), (p_width - B, p_length - 0.4, 0))
pts2 = rs.DivideCurve(baseline2, 14)
for p in pts2:
    make_box(p, 0.2, 0.2, levels * 2.2)