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#
# Copyright 2011-2014 Blender Foundation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# <pep8 compliant>
import bpy
import math
from bpy.app.handlers import persistent
def check_is_new_shading_ntree(node_tree):
for node in node_tree.nodes:
# If material has any node with ONLY new shading system
# compatibility then it's considered a Cycles material
# and versioning code would need to perform on it.
#
# We can not check for whether NEW_SHADING in compatibility
# because some nodes could have compatibility with both old
# and new shading system and they can't be used for any
# decision here.
if node.shading_compatibility == {'NEW_SHADING'}:
return True
# If node is only compatible with old shading system
# then material can not be Cycles material and we
# can stopiterating nodes now.
if node.shading_compatibility == {'OLD_SHADING'}:
return False
return False
def check_is_new_shading_material(material):
if not material.node_tree:
return False
return check_is_new_shading_ntree(material.node_tree)
def check_is_new_shading_world(world):
if not world.node_tree:
return False
return check_is_new_shading_ntree(world.node_tree)
def check_is_new_shading_lamp(lamp):
if not lamp.node_tree:
return False
return check_is_new_shading_ntree(lamp.node_tree)
def foreach_notree_node(nodetree, callback, traversed):
if nodetree in traversed:
return
traversed.add(nodetree)
for node in nodetree.nodes:
callback(node)
if node.bl_idname == 'ShaderNodeGroup':
foreach_notree_node(node.node_tree, callback, traversed)
def foreach_cycles_node(callback):
traversed = set()
for material in bpy.data.materials:
if check_is_new_shading_material(material):
foreach_notree_node(material.node_tree,
callback,
traversed)
for world in bpy.data.worlds:
if check_is_new_shading_world(world):
foreach_notree_node(world.node_tree,
callback,
traversed)
for lamp in bpy.data.lamps:
if check_is_new_shading_world(lamp):
foreach_notree_node(lamp.node_tree,
callback,
traversed)
def displacement_node_insert(material, nodetree, traversed):
if nodetree in traversed:
return
traversed.add(nodetree)
for node in nodetree.nodes:
if node.bl_idname == 'ShaderNodeGroup':
displacement_node_insert(material, node.node_tree, traversed)
# Gather links to replace
displacement_links = []
for link in nodetree.links:
if link.to_node.bl_idname == 'ShaderNodeOutputMaterial' and \
link.from_node.bl_idname != 'ShaderNodeDisplacement' and \
link.to_socket.identifier == 'Displacement':
displacement_links.append(link)
# Replace links with displacement node
for link in displacement_links:
from_node = link.from_node
from_socket = link.from_socket
to_node = link.to_node
to_socket = link.to_socket
nodetree.links.remove(link)
node = nodetree.nodes.new(type='ShaderNodeDisplacement')
node.location[0] = 0.5 * (from_node.location[0] + to_node.location[0]);
node.location[1] = 0.5 * (from_node.location[1] + to_node.location[1]);
node.inputs['Scale'].default_value = 0.1
node.inputs['Midlevel'].default_value = 0.0
nodetree.links.new(from_socket, node.inputs['Height'])
nodetree.links.new(node.outputs['Displacement'], to_socket)
def displacement_nodes_insert():
traversed = set()
for material in bpy.data.materials:
if check_is_new_shading_material(material):
displacement_node_insert(material, material.node_tree, traversed)
def displacement_principled_nodes(node):
if node.bl_idname == 'ShaderNodeDisplacement':
if node.space != 'WORLD':
node.space = 'OBJECT'
if node.bl_idname == 'ShaderNodeBsdfPrincipled':
if node.subsurface_method != 'RANDOM_WALK':
node.subsurface_method = 'BURLEY'
def square_roughness_node_insert(material, nodetree, traversed):
if nodetree in traversed:
return
traversed.add(nodetree)
roughness_node_types = {
'ShaderNodeBsdfAnisotropic',
'ShaderNodeBsdfGlass',
'ShaderNodeBsdfGlossy',
'ShaderNodeBsdfRefraction'}
# Update default values
for node in nodetree.nodes:
if node.bl_idname == 'ShaderNodeGroup':
square_roughness_node_insert(material, node.node_tree, traversed)
elif node.bl_idname in roughness_node_types:
roughness_input = node.inputs['Roughness']
roughness_input.default_value = math.sqrt(max(roughness_input.default_value, 0.0))
# Gather roughness links to replace
roughness_links = []
for link in nodetree.links:
if link.to_node.bl_idname in roughness_node_types and \
link.to_socket.identifier == 'Roughness':
roughness_links.append(link)
# Replace links with sqrt node
for link in roughness_links:
from_node = link.from_node
from_socket = link.from_socket
to_node = link.to_node
to_socket = link.to_socket
nodetree.links.remove(link)
node = nodetree.nodes.new(type='ShaderNodeMath')
node.operation = 'POWER'
node.location[0] = 0.5 * (from_node.location[0] + to_node.location[0]);
node.location[1] = 0.5 * (from_node.location[1] + to_node.location[1]);
nodetree.links.new(from_socket, node.inputs[0])
node.inputs[1].default_value = 0.5
nodetree.links.new(node.outputs['Value'], to_socket)
def square_roughness_nodes_insert():
traversed = set()
for material in bpy.data.materials:
if check_is_new_shading_material(material):
square_roughness_node_insert(material, material.node_tree, traversed)
def mapping_node_order_flip(node):
"""
Flip euler order of mapping shader node
"""
if node.bl_idname == 'ShaderNodeMapping':
rot = node.rotation.copy()
rot.order = 'ZYX'
quat = rot.to_quaternion()
node.rotation = quat.to_euler('XYZ')
def vector_curve_node_remap(node):
"""
Remap values of vector curve node from normalized to absolute values
"""
if node.bl_idname == 'ShaderNodeVectorCurve':
node.mapping.use_clip = False
for curve in node.mapping.curves:
for point in curve.points:
point.location.x = (point.location.x * 2.0) - 1.0
point.location.y = (point.location.y - 0.5) * 2.0
node.mapping.update()
def custom_bake_remap(scene):
"""
Remap bake types into the new types and set the flags accordingly
"""
bake_lookup = (
'COMBINED',
'AO',
'SHADOW',
'NORMAL',
'UV',
'EMIT',
'ENVIRONMENT',
'DIFFUSE_DIRECT',
'DIFFUSE_INDIRECT',
'DIFFUSE_COLOR',
'GLOSSY_DIRECT',
'GLOSSY_INDIRECT',
'GLOSSY_COLOR',
'TRANSMISSION_DIRECT',
'TRANSMISSION_INDIRECT',
'TRANSMISSION_COLOR',
'SUBSURFACE_DIRECT',
'SUBSURFACE_INDIRECT',
'SUBSURFACE_COLOR')
diffuse_direct_idx = bake_lookup.index('DIFFUSE_DIRECT')
cscene = scene.cycles
# Old bake type
bake_type_idx = cscene.get("bake_type")
if bake_type_idx is None:
cscene.bake_type = 'COMBINED'
return
# File doesn't need versioning
if bake_type_idx < diffuse_direct_idx:
return
# File needs versioning
bake_type = bake_lookup[bake_type_idx]
cscene.bake_type, end = bake_type.split('_')
if end == 'DIRECT':
scene.render.bake.use_pass_indirect = False
scene.render.bake.use_pass_color = False
elif end == 'INDIRECT':
scene.render.bake.use_pass_direct = False
scene.render.bake.use_pass_color = False
elif end == 'COLOR':
scene.render.bake.use_pass_direct = False
scene.render.bake.use_pass_indirect = False
def ambient_occlusion_node_relink(material, nodetree, traversed):
if nodetree in traversed:
return
traversed.add(nodetree)
for node in nodetree.nodes:
if node.bl_idname == 'ShaderNodeAmbientOcclusion':
node.samples = 1
node.only_local = False
node.inputs['Distance'].default_value = 0.0
elif node.bl_idname == 'ShaderNodeGroup':
ambient_occlusion_node_relink(material, node.node_tree, traversed)
# Gather links to replace
ao_links = []
for link in nodetree.links:
if link.from_node.bl_idname == 'ShaderNodeAmbientOcclusion':
ao_links.append(link)
# Replace links
for link in ao_links:
from_node = link.from_node
to_socket = link.to_socket
nodetree.links.remove(link)
nodetree.links.new(from_node.outputs['Color'], to_socket)
def ambient_occlusion_nodes_relink():
traversed = set()
for material in bpy.data.materials:
if check_is_new_shading_material(material):
ambient_occlusion_node_relink(material, material.node_tree, traversed)
@persistent
def do_versions(self):
if bpy.context.user_preferences.version <= (2, 78, 1):
prop = bpy.context.user_preferences.addons[__package__].preferences
system = bpy.context.user_preferences.system
if not prop.is_property_set("compute_device_type"):
# Device might not currently be available so this can fail
try:
if system.legacy_compute_device_type == 1:
prop.compute_device_type = 'OPENCL'
elif system.legacy_compute_device_type == 2:
prop.compute_device_type = 'CUDA'
else:
prop.compute_device_type = 'NONE'
except:
pass
# Init device list for UI
prop.get_devices()
# We don't modify startup file because it assumes to
# have all the default values only.
if not bpy.data.is_saved:
return
# Clamp Direct/Indirect separation in 270
if bpy.data.version <= (2, 70, 0):
for scene in bpy.data.scenes:
cscene = scene.cycles
sample_clamp = cscene.get("sample_clamp", False)
if (sample_clamp and
not cscene.is_property_set("sample_clamp_direct") and
not cscene.is_property_set("sample_clamp_indirect")):
cscene.sample_clamp_direct = sample_clamp
cscene.sample_clamp_indirect = sample_clamp
# Change of Volume Bounces in 271
if bpy.data.version <= (2, 71, 0):
for scene in bpy.data.scenes:
cscene = scene.cycles
if not cscene.is_property_set("volume_bounces"):
cscene.volume_bounces = 1
# Caustics Reflective/Refractive separation in 272
if bpy.data.version <= (2, 72, 0):
for scene in bpy.data.scenes:
cscene = scene.cycles
if (cscene.get("no_caustics", False) and
not cscene.is_property_set("caustics_reflective") and
not cscene.is_property_set("caustics_refractive")):
cscene.caustics_reflective = False
cscene.caustics_refractive = False
# Euler order was ZYX in previous versions.
if bpy.data.version <= (2, 73, 4):
foreach_cycles_node(mapping_node_order_flip)
if bpy.data.version <= (2, 76, 5):
foreach_cycles_node(vector_curve_node_remap)
# Baking types changed
if bpy.data.version <= (2, 76, 6):
for scene in bpy.data.scenes:
custom_bake_remap(scene)
# Several default changes for 2.77
if bpy.data.version <= (2, 76, 8):
for scene in bpy.data.scenes:
cscene = scene.cycles
# Samples
if not cscene.is_property_set("samples"):
cscene.samples = 10
# Preview Samples
if not cscene.is_property_set("preview_samples"):
cscene.preview_samples = 10
# Filter
if not cscene.is_property_set("filter_type"):
cscene.pixel_filter_type = 'GAUSSIAN'
# Tile Order
if not cscene.is_property_set("tile_order"):
cscene.tile_order = 'CENTER'
for lamp in bpy.data.lamps:
clamp = lamp.cycles
# MIS
if not clamp.is_property_set("use_multiple_importance_sampling"):
clamp.use_multiple_importance_sampling = False
for mat in bpy.data.materials:
cmat = mat.cycles
# Volume Sampling
if not cmat.is_property_set("volume_sampling"):
cmat.volume_sampling = 'DISTANCE'
if bpy.data.version <= (2, 76, 9):
for world in bpy.data.worlds:
cworld = world.cycles
# World MIS Samples
if not cworld.is_property_set("samples"):
cworld.samples = 4
# World MIS Resolution
if not cworld.is_property_set("sample_map_resolution"):
cworld.sample_map_resolution = 256
if bpy.data.version <= (2, 76, 10):
for scene in bpy.data.scenes:
cscene = scene.cycles
if cscene.is_property_set("filter_type"):
if not cscene.is_property_set("pixel_filter_type"):
cscene.pixel_filter_type = cscene.filter_type
if cscene.filter_type == 'BLACKMAN_HARRIS':
cscene.filter_type = 'GAUSSIAN'
if bpy.data.version <= (2, 78, 2):
for scene in bpy.data.scenes:
cscene = scene.cycles
if not cscene.is_property_set("light_sampling_threshold"):
cscene.light_sampling_threshold = 0.0
if bpy.data.version <= (2, 79, 0):
for scene in bpy.data.scenes:
cscene = scene.cycles
# Default changes
if not cscene.is_property_set("aa_samples"):
cscene.aa_samples = 4
if not cscene.is_property_set("preview_aa_samples"):
cscene.preview_aa_samples = 4
if not cscene.is_property_set("blur_glossy"):
cscene.blur_glossy = 0.0
if not cscene.is_property_set("sample_clamp_indirect"):
cscene.sample_clamp_indirect = 0.0
if bpy.data.version <= (2, 79, 1):
displacement_nodes_insert()
if bpy.data.version <= (2, 79, 2):
for mat in bpy.data.materials:
cmat = mat.cycles
if not cmat.is_property_set("displacement_method"):
cmat.displacement_method = 'BUMP'
foreach_cycles_node(displacement_principled_nodes)
if bpy.data.version <= (2, 79, 3):
# Switch to squared roughness convention
square_roughness_nodes_insert()
if bpy.data.version <= (2, 79, 4):
for world in bpy.data.worlds:
cworld = world.cycles
# World MIS
if not cworld.is_property_set("sampling_method"):
if cworld.get("sample_as_light", False):
cworld.sampling_method = 'MANUAL'
else:
cworld.sampling_method = 'NONE'
ambient_occlusion_nodes_relink()
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