chemicalcrux
/
macrovision


			
				
					
						
						
							
							import bpy
from mathutils import Vector, Euler
from math import pi, sqrt
import json
import os
import pathlib

VIEW_DATA = {
    "Front": [0, 1, 2, "Front"],
    "Angled": [0.5, 1, 2, "Angled"],
    "Side": [1, 1, 2, "Side"],
    "Back Angled": [1.5, 1, 2, "Back Angled"],
    "Back": [2, 1, 2, "Back"],
    "Top": [0, 0, 1, "Top"],
    "Bottom": [0, 2, 1, "Bottom"]
}

def get_bounds(objects):
    xl = []
    yl = []
    zl = []
    
    for obj in objects:
        if not obj.hide_render:
            for bounds in obj.bound_box:
                v = obj.matrix_world @ Vector(bounds)
                xl += [v[0] for c in obj.bound_box]
                yl += [v[1] for c in obj.bound_box]
                zl += [v[2] for c in obj.bound_box]
            
    return (
        Vector([min(xl), min(yl), min(zl)]),
        Vector([max(xl), max(yl), max(zl)])
    )
    

path_info = pathlib.Path(bpy.data.filepath).parent.joinpath("macrovision-directory.txt")
config_path = pathlib.Path(open(path_info).read().strip())

json_path = config_path.joinpath("config.json")
config = json.load(open(json_path.resolve(), encoding="utf-8"))

parent_workdir = config["work-directory"]
c = bpy.data.objects["cam"]
c.data.type = "ORTHO"

bpy.data.scenes["Scene"].render.resolution_x = 2000
bpy.data.scenes["Scene"].render.resolution_y = 2000
bpy.data.scenes["Scene"].render.film_transparent = True
bpy.data.scenes["Scene"].view_settings.view_transform = "Raw"

bpy.data.worlds["World"].node_tree.nodes["Background"].inputs[1].default_value = 0

mv = bpy.data.collections["Macrovision"]
collections = mv.children

all_data = {}

all_data["name"] = mv["MVName"]
all_data["kind"] = mv["MVKind"]
all_data["forms"] = []

default_views = []

for view in mv["MVViews"].split(","):
    default_views.append(VIEW_DATA[view])

workdir = pathlib.Path(parent_workdir).joinpath(all_data["name"])

os.makedirs(workdir, exist_ok=True)

for coll in collections:
    coll.hide_render = True

for coll in collections:
    coll.hide_render = False
    
    bpy.ops.object.select_all(action='DESELECT')
    
    for obj in coll.objects:
        obj.select_set(True)

    data = {}
    
    data["name"] = coll.name
    data["views"] = []

    bound_min, bound_max = get_bounds(coll.objects)
    dimensions = bound_max - bound_min
    size = max(dimensions)
    global_bbox_center = 0.5 * (bound_min + bound_max)
    
    view_list = []
    
    if "Views" in coll:
        for view in coll["Views"].split(","):
            view_list.append(VIEW_DATA[view])
    else:
        view_list = default_views

    for angles in view_list:
        c.location = global_bbox_center
        c.rotation_euler = Euler([angles[1] * pi / 2, 0, angles[0] * pi / 2])
        print(list(bound_min) + list(bound_max))
        _, c.data.ortho_scale = c.camera_fit_coords(bpy.context.evaluated_depsgraph_get(), list(bound_min) + list(bound_max))
        c.location = Vector([c.location[0], c.location[1], c.location[2]])
        c.data.ortho_scale *= 1.2
        rot = c.rotation_euler.to_matrix()
        rot.invert()
        c.location += Vector([0, 0, size * 2]) @ rot
        c.data.clip_start = size / 4
        c.data.clip_end = size * 8
        data["views"].append({
            "name": angles[3],
            "height": dimensions[angles[2]]
        })

        if "Volume" in coll:
            data["views"][-1]["volume"] = coll["Volume"]

        filename = f"{coll.name}-{angles[3]}.png"
        bpy.context.scene.render.filepath = workdir.joinpath(filename).resolve().__str__()
        bpy.ops.render.render(write_still = True)
        
    all_data["forms"].append(data)
    coll.hide_render = True

with open(workdir.joinpath("data.json"), "w") as file:
    json.dump(all_data, file)