# coding: utf-8
+import io
from . import bl
+from . import oneskinmesh
+from .pymeshio import pmx
+from .pymeshio import common
+from .pymeshio.pmx import writer
+
+
+def create_pmx(ex):
+ model=pmx.Model()
+ model.name=ex.name
+ model.comment=ex.comment
+
+ def get_deform(b0, b1, weight):
+ print(b0, b1, weight)
+ if b0==-1:
+ return pmx.Bdef1(b1, weight)
+ elif b1==-1:
+ return pmx.Bdef1(b0, weight)
+ else:
+ return pmx.Bdef2(b0, b1, weight)
+
+ model.vertices=[pmx.Vertex(
+ # convert right-handed z-up to left-handed y-up
+ common.Vector3(pos[0], pos[2], pos[1]),
+ # convert right-handed z-up to left-handed y-up
+ common.Vector3(attribute.nx, attribute.nz, attribute.ny),
+ # reverse vertical
+ common.Vector2(attribute.u, 1.0-attribute.v),
+ get_deform(ex.skeleton.indexByName(b0), ex.skeleton.indexByName(b1), weight),
+ # edge flag, 0: enable edge, 1: not edge
+ 1.0
+ )
+ for pos, attribute, b0, b1, weight in ex.oneSkinMesh.vertexArray.zip()]
+
+ # bones
+ boneNameMap={}
+ for i, b in enumerate(self.skeleton.bones):
+
+ # name
+ boneNameMap[b.name]=i
+ v=englishmap.getUnicodeBoneName(b.name)
+ if not v:
+ v=[b.name, b.name]
+ assert(v)
+ bone=pmx.Bone(v[1])
+ bone.english_name=b.name
+
+ if len(v)>=3:
+ # has type
+ if v[2]==5:
+ b.ik_index=self.skeleton.indexByName('eyes')
+ bone.type=v[2]
+ else:
+ bone.type=b.type
+
+ bone.parent_index=b.parent_index
+ bone.tail_index=b.tail_index
+ bone.ik_index=b.ik_index
+
+ # convert right-handed z-up to left-handed y-up
+ bone.pos.x=b.pos[0] if not near(b.pos[0], 0) else 0
+ bone.pos.y=b.pos[2] if not near(b.pos[2], 0) else 0
+ bone.pos.z=b.pos[1] if not near(b.pos[1], 0) else 0
+
+ model.bones.append(bone)
+ return model
+
+ # IK
+ for ik in self.skeleton.ik_list:
+ solver=pmd.IK()
+ solver.index=self.skeleton.getIndex(ik.target)
+ solver.target=self.skeleton.getIndex(ik.effector)
+ solver.length=ik.length
+ b=self.skeleton.bones[ik.effector.parent_index]
+ for i in range(solver.length):
+ solver.children.append(self.skeleton.getIndex(b))
+ b=self.skeleton.bones[b.parent_index]
+ solver.iterations=ik.iterations
+ solver.weight=ik.weight
+ model.ik_list.append(solver)
+
+ # 面とマテリアル
+ vertexCount=self.oneSkinMesh.getVertexCount()
+ for material_name, indices in self.oneSkinMesh.vertexArray.each():
+ #print('material:', material_name)
+ try:
+ m=bl.material.get(material_name)
+ except KeyError as e:
+ m=DefaultMatrial()
+ def get_texture_name(texture):
+ pos=texture.replace("\\", "/").rfind("/")
+ if pos==-1:
+ return texture
+ else:
+ return texture[pos+1:]
+ textures=[get_texture_name(path)
+ for path in bl.material.eachEnalbeTexturePath(m)]
+ print(textures)
+ # マテリアル
+ model.materials.append(pmd.Material(
+ # diffuse_color
+ common.RGB(m.diffuse_color[0], m.diffuse_color[1], m.diffuse_color[2]),
+ m.alpha,
+ # specular_factor
+ 0 if m.specular_toon_size<1e-5 else m.specular_hardness*10,
+ # specular_color
+ common.RGB(m.specular_color[0], m.specular_color[1], m.specular_color[2]),
+ # ambient_color
+ common.RGB(m.mirror_color[0], m.mirror_color[1], m.mirror_color[2]),
+ # flag
+ 1 if m.subsurface_scattering.use else 0,
+ # toon
+ 0,
+ # vertex_count
+ len(indices),
+ # texture
+ ('*'.join(textures) if len(textures)>0 else "").encode('cp932')
+ ))
+ # 面
+ for i in indices:
+ assert(i<vertexCount)
+ for i in range(0, len(indices), 3):
+ # reverse triangle
+ model.indices.append(indices[i])
+ model.indices.append(indices[i+1])
+ model.indices.append(indices[i+2])
+
+ # 表情
+ for i, m in enumerate(self.oneSkinMesh.morphList):
+ v=englishmap.getUnicodeSkinName(m.name)
+ if not v:
+ v=[m.name, m.name, 0]
+ assert(v)
+ # morph
+ morph=pmd.Morph(v[1].encode("cp932"))
+ morph.english_name=m.name.encode("cp932")
+ m.type=v[2]
+ morph.type=v[2]
+ for index, offset in m.offsets:
+ # convert right-handed z-up to left-handed y-up
+ morph.append(index, offset[0], offset[2], offset[1])
+ morph.vertex_count=len(m.offsets)
+
+ # 表情枠
+ # type==0はbase
+ for i, m in enumerate(self.oneSkinMesh.morphList):
+ if m.type==3:
+ model.morph_indices.append(i)
+ for i, m in enumerate(self.oneSkinMesh.morphList):
+ if m.type==2:
+ model.morph_indices.append(i)
+ for i, m in enumerate(self.oneSkinMesh.morphList):
+ if m.type==1:
+ model.morph_indices.append(i)
+ for i, m in enumerate(self.oneSkinMesh.morphList):
+ if m.type==4:
+ model.morph_indices.append(i)
+
+ # ボーングループ
+ for g in self.skeleton.bone_groups:
+ name=englishmap.getUnicodeBoneGroupName(g[0])
+ if not name:
+ name=g[0]
+ englishName=g[0]
+
+ model.bone_group_list.append(pmd.BoneGroup(
+ (name+'\n').encode('cp932'),
+ (englishName+'\n').encode('cp932')
+ ))
+
+ # ボーングループメンバー
+ for i, b in enumerate(self.skeleton.bones):
+ if i==0:
+ continue
+ if b.type in [6, 7]:
+ continue
+ model.bone_display_list.append((i, self.skeleton.getBoneGroup(b)))
+
+ # English
+ model.english_name=self.englishName.encode('cp932')
+ model.english_comment=self.englishComment.encode('cp932')
+
+ # toon
+ toonMeshObject=None
+ for o in bl.object.each():
+ try:
+ if o.name.startswith(bl.TOON_TEXTURE_OBJECT):
+ toonMeshObject=o
+ except:
+ p(o.name)
+ break
+ if toonMeshObject:
+ toonMesh=bl.object.getData(toonMeshObject)
+ toonMaterial=bl.mesh.getMaterial(toonMesh, 0)
+ for i in range(10):
+ t=bl.material.getTexture(toonMaterial, i)
+ if t:
+ model.toon_textures[i]=("%s" % t.name).encode('cp932')
+ else:
+ model.toon_textures[i]=("toon%02d.bmp" % (i+1)).encode('cp932')
+ else:
+ for i in range(10):
+ model.toon_textures[i]=("toon%02d.bmp" % (i+1)).encode('cp932')
+
+ # rigid body
+ rigidNameMap={}
+ for i, obj in enumerate(self.oneSkinMesh.rigidbodies):
+ name=obj[bl.RIGID_NAME] if bl.RIGID_NAME in obj else obj.name
+ print(name)
+ rigidNameMap[name]=i
+ boneIndex=boneNameMap[obj[bl.RIGID_BONE_NAME]]
+ if boneIndex==0:
+ boneIndex=-1
+ bone=self.skeleton.bones[0]
+ else:
+ bone=self.skeleton.bones[boneIndex]
+ if obj[bl.RIGID_SHAPE_TYPE]==0:
+ shape_type=pmd.SHAPE_SPHERE
+ shape_size=common.Vector3(obj.scale[0], 0, 0)
+ elif obj[bl.RIGID_SHAPE_TYPE]==1:
+ shape_type=pmd.SHAPE_BOX
+ shape_size=common.Vector3(obj.scale[0], obj.scale[1], obj.scale[2])
+ elif obj[bl.RIGID_SHAPE_TYPE]==2:
+ shape_type=pmd.SHAPE_CAPSULE
+ shape_size=common.Vector3(obj.scale[0], obj.scale[2], 0)
+ rigidBody=pmd.RigidBody(
+ name.encode('cp932'),
+ collision_group=obj[bl.RIGID_GROUP],
+ no_collision_group=obj[bl.RIGID_INTERSECTION_GROUP],
+ bone_index=boneIndex,
+ shape_position=common.Vector3(
+ obj.location.x-bone.pos[0],
+ obj.location.z-bone.pos[2],
+ obj.location.y-bone.pos[1]),
+ shape_rotation=common.Vector3(
+ -obj.rotation_euler[0],
+ -obj.rotation_euler[2],
+ -obj.rotation_euler[1]),
+ shape_type=shape_type,
+ shape_size=shape_size,
+ mass=obj[bl.RIGID_WEIGHT],
+ linear_damping=obj[bl.RIGID_LINEAR_DAMPING],
+ angular_damping=obj[bl.RIGID_ANGULAR_DAMPING],
+ restitution=obj[bl.RIGID_RESTITUTION],
+ friction=obj[bl.RIGID_FRICTION],
+ mode=obj[bl.RIGID_PROCESS_TYPE]
+ )
+ model.rigidbodies.append(rigidBody)
+
+ # constraint
+ model.joints=[pmd.Joint(
+ name=obj[bl.CONSTRAINT_NAME].encode('cp932'),
+ rigidbody_index_a=rigidNameMap[obj[bl.CONSTRAINT_A]],
+ rigidbody_index_b=rigidNameMap[obj[bl.CONSTRAINT_B]],
+ position=common.Vector3(
+ obj.location[0],
+ obj.location[2],
+ obj.location[1]),
+ rotation=common.Vector3(
+ -obj.rotation_euler[0],
+ -obj.rotation_euler[2],
+ -obj.rotation_euler[1]),
+ translation_limit_min=common.Vector3(
+ obj[bl.CONSTRAINT_POS_MIN][0],
+ obj[bl.CONSTRAINT_POS_MIN][1],
+ obj[bl.CONSTRAINT_POS_MIN][2]
+ ),
+ translation_limit_max=common.Vector3(
+ obj[bl.CONSTRAINT_POS_MAX][0],
+ obj[bl.CONSTRAINT_POS_MAX][1],
+ obj[bl.CONSTRAINT_POS_MAX][2]
+ ),
+ rotation_limit_min=common.Vector3(
+ obj[bl.CONSTRAINT_ROT_MIN][0],
+ obj[bl.CONSTRAINT_ROT_MIN][1],
+ obj[bl.CONSTRAINT_ROT_MIN][2]),
+ rotation_limit_max=common.Vector3(
+ obj[bl.CONSTRAINT_ROT_MAX][0],
+ obj[bl.CONSTRAINT_ROT_MAX][1],
+ obj[bl.CONSTRAINT_ROT_MAX][2]),
+ spring_constant_translation=common.Vector3(
+ obj[bl.CONSTRAINT_SPRING_POS][0],
+ obj[bl.CONSTRAINT_SPRING_POS][1],
+ obj[bl.CONSTRAINT_SPRING_POS][2]),
+ spring_constant_rotation=common.Vector3(
+ obj[bl.CONSTRAINT_SPRING_ROT][0],
+ obj[bl.CONSTRAINT_SPRING_ROT][1],
+ obj[bl.CONSTRAINT_SPRING_ROT][2])
+ )
+ for obj in self.oneSkinMesh.constraints]
+
+ # 書き込み
+ bl.message('write: %s' % path)
+ return writer.write(io.open(path, 'wb'), model)
def _execute(filepath):
- print(filepath)
active=bl.object.getActive()
if not active:
print("abort. no active object.")
return
- exporter=PmdExporter()
+
+ exporter=oneskinmesh.Exporter()
exporter.setup()
- print(exporter)
- exporter.write(filepath)
+
+ model=create_pmx(exporter)
bl.object.activate(active)
+ with io.open(filepath, 'wb') as f:
+ writer.write(f, model)
return {'FINISHED'}