nmf icon indicating copy to clipboard operation
nmf copied to clipboard
verified publisher icon half-potato

How did you relight the ball scene of shiny blender?

Open cmh1027 opened this issue 1 year ago • 13 comments

I can't find texture map or blender file of ball scene in RefNeRF repo, but I see relighted result of ball is reported on your paper. Is there any script file you guys used for relighting the ball?

cmh1027 avatar Feb 26 '24 12:02 cmh1027

Checkout the relighting dataset

half-potato avatar Feb 26 '24 21:02 half-potato

Can you share the script for relighting for the ball, or blend file? I want to do relighting with env maps used in NVDiffrecMC

cmh1027 avatar Feb 27 '24 05:02 cmh1027

Is this blend script what you are looking for? Just change out the envmap in blender.

# A simple script that uses blender to render views of a single object by rotation the camera around it.
# Also produces depth map at the same time.

import argparse, sys, os
import json
import bpy
import mathutils
import numpy as np
         
DEBUG = False
            
VIEWS = 100
RESOLUTION = 800
RESULTS_PATH = 'train'
DEPTH_SCALE = 1.4
COLOR_DEPTH = 8
FORMAT = 'PNG'
RANDOM_VIEWS = True


fp = bpy.path.abspath(f"//{RESULTS_PATH}")


def listify_matrix(matrix):
    matrix_list = []
    for row in matrix:
        matrix_list.append(list(row))
    return matrix_list

if not os.path.exists(fp):
    os.makedirs(fp)

# Data to store in JSON file
out_data = {
    'camera_angle_x': bpy.data.objects['Camera'].data.angle_x,
}

# Render Optimizations
bpy.context.scene.render.use_persistent_data = True


# Set up rendering of depth map.
bpy.context.scene.use_nodes = True
tree = bpy.context.scene.node_tree
links = tree.links

# Add passes for additionally dumping albedo and normals.
bpy.context.scene.view_layers["RenderLayer"].use_pass_normal = True
#bpy.context.scene.render.image_settings.file_format = str(FORMAT)
#bpy.context.scene.render.image_settings.color_depth = str(COLOR_DEPTH)


# Create input render layer node.
render_layers = tree.nodes.new('CompositorNodeRLayers')

depth_file_output = tree.nodes.new(type="CompositorNodeOutputFile")
depth_file_output.label = 'Depth Output'
if FORMAT == 'OPEN_EXR':
  links.new(render_layers.outputs['Depth'], depth_file_output.inputs[0])
else:
  # Remap as other types can not represent the full range of depth.
  map = tree.nodes.new(type="CompositorNodeMapValue")
  # Size is chosen kind of arbitrarily, try out until you're satisfied with resulting depth map.
  map.offset = [-0.7]
  map.size = [DEPTH_SCALE]
  map.use_min = True
  map.min = [0]
  links.new(render_layers.outputs['Depth'], map.inputs[0])

  links.new(map.outputs[0], depth_file_output.inputs[0])

normal_file_output = tree.nodes.new(type="CompositorNodeOutputFile")
normal_file_output.label = 'Normal Output'
links.new(render_layers.outputs['Normal'], normal_file_output.inputs[0])

# Background
bpy.context.scene.render.dither_intensity = 0.0
#bpy.context.scene.render.film_transparent = True

# Create collection for objects not to render with background

    
objs = [ob for ob in bpy.context.scene.objects if ob.type in ('EMPTY')]
bpy.ops.object.delete({"selected_objects": objs})

def parent_obj_to_camera(b_camera):
    origin = (0, 0, 0)
    b_empty = bpy.data.objects.new("Empty", None)
    b_empty.location = origin
    b_camera.parent = b_empty  # setup parenting

    scn = bpy.context.scene
    scn.collection.objects.link(b_empty)
    bpy.context.view_layer.objects.active = b_empty
    # scn.objects.active = b_empty
    return b_empty


scene = bpy.context.scene
scene.render.resolution_x = RESOLUTION
scene.render.resolution_y = RESOLUTION
scene.render.resolution_percentage = 100

cam = scene.objects['Camera']
cam.location = (0, 4.0, 0.5)
cam_constraint = cam.constraints.new(type='TRACK_TO')
cam_constraint.track_axis = 'TRACK_NEGATIVE_Z'
cam_constraint.up_axis = 'UP_Y'
b_empty = parent_obj_to_camera(cam)
cam_constraint.target = b_empty

#scene.render.image_settings.file_format = 'PNG'  # set output format to .png

from math import radians

stepsize = 360.0 / VIEWS
rotation_mode = 'XYZ'


for output_node in [depth_file_output, normal_file_output]:
    output_node.base_path = ''

out_data['frames'] = []

for i in range(0, VIEWS):
    if RANDOM_VIEWS:
        scene.render.filepath = fp + '/r_' + str(i)
        b_empty.rotation_euler = np.random.uniform(0, 2*np.pi, size=3)
    else:
        print("Rotation {}, {}".format((stepsize * i), radians(stepsize * i)))
        scene.render.filepath = fp + '/r_{0:03d}'.format(int(i * stepsize))

    # depth_file_output.file_slots[0].path = scene.render.filepath + "_depth_"
    # normal_file_output.file_slots[0].path = scene.render.filepath + "_normal_"

    if DEBUG:
        break
    else:
        bpy.ops.render.render(write_still=True)  # render still

    frame_data = {
        'file_path': scene.render.filepath,
        'rotation': radians(stepsize),
        'transform_matrix': listify_matrix(cam.matrix_world)
    }
    out_data['frames'].append(frame_data)

    if RANDOM_VIEWS:
        b_empty.rotation_euler = np.random.uniform(0, 2*np.pi, size=3)
    else:
        b_empty.rotation_euler[2] += radians(stepsize)

if not DEBUG:
    with open(fp + '/' + 'transforms.json', 'w') as out_file:
        json.dump(out_data, out_file, indent=4)

half-potato avatar Feb 29 '24 05:02 half-potato

But I couldn't find ball.blend file in the original ref-nerf repository. Where did you find it?

cmh1027 avatar Feb 29 '24 06:02 cmh1027

https://drive.google.com/file/d/1Ii--GE9KwU5NJZ9WwbBxYLfKGH740YQx/view?usp=sharing

half-potato avatar Feb 29 '24 21:02 half-potato

@half-potato forest_r_003 forest_r_003_recon These images are relighted images of coffee rendered on envmap forest.hdr (GT and prediction for each) As you can see, the predicted one has very dark ambience. I'm not sure if I did something wrong while following the instruction in repo. How do you think?

cmh1027 avatar Mar 02 '24 03:03 cmh1027

There is an arbitrary multiplier on the brightness, a global scaling that must be tuned when transferring a lighting condition. It is fundamental to the problem of relighting. Finding this global scaling isn't done on prediction phase, so it must be done when either testing PSNR or displaying the image.

half-potato avatar Mar 02 '24 03:03 half-potato

Is it done manually?

cmh1027 avatar Mar 02 '24 04:03 cmh1027

No. It's just the ratio between the average brightness of the target images and the predicted images.

half-potato avatar Mar 02 '24 08:03 half-potato

https://drive.google.com/file/d/1Ii--GE9KwU5NJZ9WwbBxYLfKGH740YQx/view?usp=sharing

This doesn't seem to be the same blender model used for rendering the ball scene.

This is what I see in blender: Screenshot from 2024-03-04 10-52-28

gkouros avatar Mar 04 '24 09:03 gkouros

Just change the parameters for the shader.

half-potato avatar Mar 04 '24 18:03 half-potato

The 'ball' scene was rendered in Python using a Phong BRDF, which is not available in Blender. The geometry is a unit sphere, and the two rough "bands" are at (abs(x) < 0.15) || (abs(y) < 0.15). The rough bands have a Phong exponent of 50, with the rest set to 500.

The original README file states like this. Is it possible to simulate the same Phong condition in Blender?

cmh1027 avatar Mar 05 '24 01:03 cmh1027

Oh Dor has a script for that. Not sure where it is, email him. The relighting dataset uses blender GGX though.

half-potato avatar Mar 05 '24 04:03 half-potato