blender/release/scripts/startup/bl_operators/uvcalc_follow_active.py
Bastien Montagne 63810ffcef Style edit (mostly), use """ for docstrings (not ''').
Should also fix the broken py ops tips...
2012-07-03 09:02:41 +00:00

252 lines
9.1 KiB
Python

# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8 compliant>
#for full docs see...
# http://mediawiki.blender.org/index.php/Scripts/Manual/UV_Calculate/Follow_active_quads
import bpy
from bpy.types import Operator
def extend(obj, operator, EXTEND_MODE):
from bpy_extras import mesh_utils
me = obj.data
me_verts = me.vertices
# script will fail without UVs
if not me.uv_textures:
me.uv_textures.new()
# Toggle Edit mode
is_editmode = (obj.mode == 'EDIT')
if is_editmode:
bpy.ops.object.mode_set(mode='OBJECT')
#t = sys.time()
edge_average_lengths = {}
OTHER_INDEX = 2, 3, 0, 1
def extend_uvs(face_source, face_target, edge_key):
"""
Takes 2 faces,
Projects its extends its UV coords onto the face next to it.
Both faces must share an edge
"""
def face_edge_vs(vi):
vlen = len(vi)
return [(vi[i], vi[(i + 1) % vlen]) for i in range(vlen)]
vidx_source = face_source.vertices
vidx_target = face_target.vertices
uv_layer = me.uv_layers.active.data
uvs_source = [uv_layer[i].uv for i in face_source.loop_indices]
uvs_target = [uv_layer[i].uv for i in face_target.loop_indices]
# vertex index is the key, uv is the value
uvs_vhash_source = {vindex: uvs_source[i] for i, vindex in enumerate(vidx_source)}
uvs_vhash_target = {vindex: uvs_target[i] for i, vindex in enumerate(vidx_target)}
edge_idxs_source = face_edge_vs(vidx_source)
edge_idxs_target = face_edge_vs(vidx_target)
source_matching_edge = -1
target_matching_edge = -1
edge_key_swap = edge_key[1], edge_key[0]
try:
source_matching_edge = edge_idxs_source.index(edge_key)
except:
source_matching_edge = edge_idxs_source.index(edge_key_swap)
try:
target_matching_edge = edge_idxs_target.index(edge_key)
except:
target_matching_edge = edge_idxs_target.index(edge_key_swap)
edgepair_inner_source = edge_idxs_source[source_matching_edge]
edgepair_inner_target = edge_idxs_target[target_matching_edge]
edgepair_outer_source = edge_idxs_source[OTHER_INDEX[source_matching_edge]]
edgepair_outer_target = edge_idxs_target[OTHER_INDEX[target_matching_edge]]
if edge_idxs_source[source_matching_edge] == edge_idxs_target[target_matching_edge]:
iA = 0 # Flipped, most common
iB = 1
else: # The normals of these faces must be different
iA = 1
iB = 0
# Set the target UV's touching source face, no tricky calculations needed,
uvs_vhash_target[edgepair_inner_target[0]][:] = uvs_vhash_source[edgepair_inner_source[iA]]
uvs_vhash_target[edgepair_inner_target[1]][:] = uvs_vhash_source[edgepair_inner_source[iB]]
# Set the 2 UV's on the target face that are not touching
# for this we need to do basic expanding on the source faces UV's
if EXTEND_MODE == 'LENGTH':
try: # divide by zero is possible
'''
measure the length of each face from the middle of each edge to the opposite
along the axis we are copying, use this
'''
i1a = edgepair_outer_target[iB]
i2a = edgepair_inner_target[iA]
if i1a > i2a:
i1a, i2a = i2a, i1a
i1b = edgepair_outer_source[iB]
i2b = edgepair_inner_source[iA]
if i1b > i2b:
i1b, i2b = i2b, i1b
# print edge_average_lengths
factor = edge_average_lengths[i1a, i2a][0] / edge_average_lengths[i1b, i2b][0]
except:
# Div By Zero?
factor = 1.0
uvs_vhash_target[edgepair_outer_target[iB]][:] = uvs_vhash_source[edgepair_inner_source[0]] + factor * (uvs_vhash_source[edgepair_inner_source[0]] - uvs_vhash_source[edgepair_outer_source[1]])
uvs_vhash_target[edgepair_outer_target[iA]][:] = uvs_vhash_source[edgepair_inner_source[1]] + factor * (uvs_vhash_source[edgepair_inner_source[1]] - uvs_vhash_source[edgepair_outer_source[0]])
else:
# same as above but with no factors
uvs_vhash_target[edgepair_outer_target[iB]][:] = uvs_vhash_source[edgepair_inner_source[0]] + (uvs_vhash_source[edgepair_inner_source[0]] - uvs_vhash_source[edgepair_outer_source[1]])
uvs_vhash_target[edgepair_outer_target[iA]][:] = uvs_vhash_source[edgepair_inner_source[1]] + (uvs_vhash_source[edgepair_inner_source[1]] - uvs_vhash_source[edgepair_outer_source[0]])
face_act = me.polygons.active
if face_act == -1:
operator.report({'ERROR'}, "No active face")
return
face_sel = [f for f in me.polygons if len(f.vertices) == 4 and f.select]
face_act_local_index = -1
for i, f in enumerate(face_sel):
if f.index == face_act:
face_act_local_index = i
break
if face_act_local_index == -1:
operator.report({'ERROR'}, "Active face not selected")
return
# Modes
# 0 not yet searched for.
# 1:mapped, use search from this face - removed!
# 2:all siblings have been searched. don't search again.
face_modes = [0] * len(face_sel)
face_modes[face_act_local_index] = 1 # extend UV's from this face.
# Edge connectivity
edge_faces = {}
for i, f in enumerate(face_sel):
for edkey in f.edge_keys:
try:
edge_faces[edkey].append(i)
except:
edge_faces[edkey] = [i]
if EXTEND_MODE == 'LENGTH':
edge_loops = mesh_utils.edge_loops_from_tessfaces(me, face_sel, [ed.key for ed in me.edges if ed.use_seam])
me_verts = me.vertices
for loop in edge_loops:
looplen = [0.0]
for ed in loop:
edge_average_lengths[ed] = looplen
looplen[0] += (me_verts[ed[0]].co - me_verts[ed[1]].co).length
looplen[0] = looplen[0] / len(loop)
# remove seams, so we don't map across seams.
for ed in me.edges:
if ed.use_seam:
# remove the edge pair if we can
try:
del edge_faces[ed.key]
except:
pass
# Done finding seams
# face connectivity - faces around each face
# only store a list of indices for each face.
face_faces = [[] for i in range(len(face_sel))]
for edge_key, faces in edge_faces.items():
if len(faces) == 2: # Only do edges with 2 face users for now
face_faces[faces[0]].append((faces[1], edge_key))
face_faces[faces[1]].append((faces[0], edge_key))
# Now we know what face is connected to what other face, map them by connectivity
ok = True
while ok:
ok = False
for i in range(len(face_sel)):
if face_modes[i] == 1: # searchable
for f_sibling, edge_key in face_faces[i]:
if face_modes[f_sibling] == 0:
face_modes[f_sibling] = 1 # mapped and search from.
extend_uvs(face_sel[i], face_sel[f_sibling], edge_key)
face_modes[i] = 1 # we can map from this one now.
ok = True # keep searching
face_modes[i] = 2 # don't search again
if is_editmode:
bpy.ops.object.mode_set(mode='EDIT')
else:
me.update_tag()
def main(context, operator):
obj = context.active_object
extend(obj, operator, operator.properties.mode)
class FollowActiveQuads(Operator):
"""Follow UVs from active quads along continuous face loops"""
bl_idname = "uv.follow_active_quads"
bl_label = "Follow Active Quads"
bl_options = {'REGISTER', 'UNDO'}
mode = bpy.props.EnumProperty(
name="Edge Length Mode",
description="Method to space UV edge loops",
items=(('EVEN', "Even", "Space all UVs evently"),
('LENGTH', "Length", "Average space UVs edge length of each loop")),
default='LENGTH',
)
@classmethod
def poll(cls, context):
obj = context.active_object
return (obj is not None and obj.type == 'MESH')
def execute(self, context):
main(context, self)
return {'FINISHED'}
def invoke(self, context, event):
wm = context.window_manager
return wm.invoke_props_dialog(self)