WIP: Initial version of a single-frame job compiler #104189

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k8ie wants to merge 26 commits from k8ie/flamenco:single-frame into main

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@ -101,10 +101,13 @@ render.use_compositing = False
bpy.context.scene.cycles.use_denoising = False
render.image_settings.file_format = 'OPEN_EXR_MULTILAYER'
render.use_crop_to_border = True
render.border_min_x = ${tile.column} * ${settings.tile_size} / 100
render.border_max_x = ${settings.tile_size} / 100 + ${tile.column} * ${settings.tile_size} / 100
render.border_min_y = ${tile.row} * ${settings.tile_size} / 100
render.border_max_y = ${settings.tile_size} / 100 + ${tile.row} * ${settings.tile_size} / 100`;
tile_size_normalized = ${settings.tile_size} / 100
render.border_min_x = ${tile.column} * tile_size_normalized
render.border_max_x = tile_size_normalized + ${tile.column} * tile_size_normalized
render.border_min_y = ${tile.row} * tile_size_normalized
render.border_max_y = tile_size_normalized + ${tile.row} * tile_size_normalized`;
if (settings.use_denoising) {
pythonExpression += `
for layer in bpy.context.scene.view_layers:
@ -151,19 +154,23 @@ if len(filenames) <= 1:
row_max = math.ceil(100 / ${settings.tile_size}) - 1
bpy.context.scene.render.resolution_x = ${settings.resolution_x}
bpy.context.scene.render.resolution_y = ${settings.resolution_y}
bpy.context.scene.render.resolution_percentage = ${settings.resolution_percentage}
bpy.context.scene.render.use_compositing = True
bpy.context.scene.use_nodes = True
bpy.context.scene.node_tree.nodes.clear()
bpy.context.scene.render.image_settings.file_format = 'OPEN_EXR_MULTILAYER'
bpy.context.scene.render.filepath = basepath + "MERGED"
bpy_render = bpy_render
bpy_scene = bpy.context.scene
node_tree = bpy_scene.node_tree
bpy_render.resolution_x = ${settings.resolution_x}
bpy_render.resolution_y = ${settings.resolution_y}
bpy_render.resolution_percentage = ${settings.resolution_percentage}
bpy_render.use_compositing = True
bpy_scene.use_nodes = True
node_tree.nodes.clear()
bpy_render.image_settings.file_format = 'OPEN_EXR_MULTILAYER'
bpy_render.filepath = basepath + "MERGED"
denoising = "${settings.use_denoising}" == "true"
# Takes the column and row number and creates a translate node with the right coordinates to align a tile
def create_translate(dimensions):
translate_node = bpy.context.scene.node_tree.nodes.new(type='CompositorNodeTranslate')
translate_node = node_tree.nodes.new(type='CompositorNodeTranslate')
translate_node.use_relative = True
for dimension in dimensions:
if dimensions[dimension] == 0:
@ -180,7 +187,7 @@ def align_tiles(input):
file_name = image_node.image.name_full
dimensions = {'X': int(file_name.split('c')[-1].split('_')[0]), 'Y': int(file_name.split('c')[0].replace('r', ''))}
translated_list.append(create_translate(dimensions))
bpy.context.scene.node_tree.links.new(image_node.outputs[input], translated_list[index].inputs['Image'])
node_tree.links.new(image_node.outputs[input], translated_list[index].inputs['Image'])
return translated_list
# Create a list of image nodes
@ -188,7 +195,7 @@ image_nodes = []
for index, file in enumerate(filenames):
bpy.ops.image.open(filepath=renders + file.name, use_sequence_detection=False)
image = bpy.data.images[bpy.path.basename(file.name)]
image_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeImage'))
image_nodes.append(node_tree.nodes.new(type='CompositorNodeImage'))
image_nodes[index].image = image
# Create translates for Combined, Albedo and Normal and put them in a list
@ -197,7 +204,7 @@ if denoising:
albedo_translates = align_tiles("Denoising Albedo")
normal_translates = align_tiles("Denoising Normal")
output_node = bpy.context.scene.node_tree.nodes.new(type='CompositorNodeComposite')
output_node = node_tree.nodes.new(type='CompositorNodeComposite')
alpha_over_nodes = []
albedo_mix_nodes = []
normal_mix_nodes = []
@ -205,42 +212,42 @@ normal_mix_nodes = []
for index, node in enumerate(combined_translates):
if index == 0:
# Take the first two image nodes and combine them
alpha_over_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeAlphaOver'))
bpy.context.scene.node_tree.links.new(combined_translates[0].outputs['Image'], alpha_over_nodes[index].inputs[1])
bpy.context.scene.node_tree.links.new(combined_translates[1].outputs['Image'], alpha_over_nodes[index].inputs[2])
alpha_over_nodes.append(node_tree.nodes.new(type='CompositorNodeAlphaOver'))
node_tree.links.new(combined_translates[0].outputs['Image'], alpha_over_nodes[index].inputs[1])
node_tree.links.new(combined_translates[1].outputs['Image'], alpha_over_nodes[index].inputs[2])
if denoising:
albedo_mix_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeMixRGB'))
albedo_mix_nodes.append(node_tree.nodes.new(type='CompositorNodeMixRGB'))
albedo_mix_nodes[index].blend_type = 'ADD'
bpy.context.scene.node_tree.links.new(albedo_translates[0].outputs['Image'], albedo_mix_nodes[index].inputs[1])
bpy.context.scene.node_tree.links.new(albedo_translates[1].outputs['Image'], albedo_mix_nodes[index].inputs[2])
normal_mix_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeMixRGB'))
node_tree.links.new(albedo_translates[0].outputs['Image'], albedo_mix_nodes[index].inputs[1])
node_tree.links.new(albedo_translates[1].outputs['Image'], albedo_mix_nodes[index].inputs[2])
normal_mix_nodes.append(node_tree.nodes.new(type='CompositorNodeMixRGB'))
normal_mix_nodes[index].blend_type = 'ADD'
bpy.context.scene.node_tree.links.new(normal_translates[0].outputs['Image'], normal_mix_nodes[index].inputs[1])
bpy.context.scene.node_tree.links.new(normal_translates[1].outputs['Image'], normal_mix_nodes[index].inputs[2])
node_tree.links.new(normal_translates[0].outputs['Image'], normal_mix_nodes[index].inputs[1])
node_tree.links.new(normal_translates[1].outputs['Image'], normal_mix_nodes[index].inputs[2])
else:
# Take one image node and the previous alpha over node
alpha_over_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeAlphaOver'))
bpy.context.scene.node_tree.links.new(alpha_over_nodes[index-1].outputs['Image'], alpha_over_nodes[index].inputs[1])
bpy.context.scene.node_tree.links.new(combined_translates[index+1].outputs['Image'], alpha_over_nodes[index].inputs[2])
alpha_over_nodes.append(node_tree.nodes.new(type='CompositorNodeAlphaOver'))
node_tree.links.new(alpha_over_nodes[index-1].outputs['Image'], alpha_over_nodes[index].inputs[1])
node_tree.links.new(combined_translates[index+1].outputs['Image'], alpha_over_nodes[index].inputs[2])
if denoising:
albedo_mix_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeMixRGB'))
albedo_mix_nodes.append(node_tree.nodes.new(type='CompositorNodeMixRGB'))
albedo_mix_nodes[index].blend_type = 'ADD'
bpy.context.scene.node_tree.links.new(albedo_mix_nodes[index-1].outputs['Image'], albedo_mix_nodes[index].inputs[1])
bpy.context.scene.node_tree.links.new(albedo_translates[index+1].outputs['Image'], albedo_mix_nodes[index].inputs[2])
normal_mix_nodes.append(bpy.context.scene.node_tree.nodes.new(type='CompositorNodeMixRGB'))
node_tree.links.new(albedo_mix_nodes[index-1].outputs['Image'], albedo_mix_nodes[index].inputs[1])
node_tree.links.new(albedo_translates[index+1].outputs['Image'], albedo_mix_nodes[index].inputs[2])
normal_mix_nodes.append(node_tree.nodes.new(type='CompositorNodeMixRGB'))
normal_mix_nodes[index].blend_type = 'ADD'
bpy.context.scene.node_tree.links.new(normal_mix_nodes[index-1].outputs['Image'], normal_mix_nodes[index].inputs[1])
bpy.context.scene.node_tree.links.new(normal_translates[index+1].outputs['Image'], normal_mix_nodes[index].inputs[2])
node_tree.links.new(normal_mix_nodes[index-1].outputs['Image'], normal_mix_nodes[index].inputs[1])
node_tree.links.new(normal_translates[index+1].outputs['Image'], normal_mix_nodes[index].inputs[2])
if index + 1 == len(combined_translates) - 1:
if denoising:
denoise_node = bpy.context.scene.node_tree.nodes.new(type='CompositorNodeDenoise')
bpy.context.scene.node_tree.links.new(alpha_over_nodes[index].outputs['Image'], denoise_node.inputs['Image'])
bpy.context.scene.node_tree.links.new(albedo_mix_nodes[index].outputs['Image'], denoise_node.inputs['Albedo'])
bpy.context.scene.node_tree.links.new(normal_mix_nodes[index].outputs['Image'], denoise_node.inputs['Normal'])
bpy.context.scene.node_tree.links.new(denoise_node.outputs['Image'], output_node.inputs['Image'])
denoise_node = node_tree.nodes.new(type='CompositorNodeDenoise')
node_tree.links.new(alpha_over_nodes[index].outputs['Image'], denoise_node.inputs['Image'])
node_tree.links.new(albedo_mix_nodes[index].outputs['Image'], denoise_node.inputs['Albedo'])
node_tree.links.new(normal_mix_nodes[index].outputs['Image'], denoise_node.inputs['Normal'])
node_tree.links.new(denoise_node.outputs['Image'], output_node.inputs['Image'])
else:
# Link the last image node and feed the output into the composite node
bpy.context.scene.node_tree.links.new(alpha_over_nodes[index].outputs['Image'], output_node.inputs['Image'])
node_tree.links.new(alpha_over_nodes[index].outputs['Image'], output_node.inputs['Image'])
break
bpy.ops.render.render(write_still=True)`;
const command = author.Command("blender-render", {