BallanceBlenderHelper/ballance_blender_plugin/MODS_flatten_uv.py

import bpy,mathutils
import bmesh
import math
from . import UTILS_functions

class ScaleDataUnion(object):
    def __init__(self):
        self.UseRefPoint: bool = None
    def SetAsScale(self, scale_num: float):
        self.UseRefPoint: bool = False
        self.ScaleSize: float = scale_num
    def SetAsRefPoint(self, ref_point: int, ref_point_uv: float):
        self.UseRefPoint: bool = True
        self.ReferencePoint: int = ref_point
        self.ReferenceUV: float = ref_point_uv

class BALLANCE_OT_flatten_uv(bpy.types.Operator):
    """Flatten selected face UV. Only works for convex face"""
    bl_idname = "ballance.flatten_uv"
    bl_label = "Flatten UV"
    bl_options = {'REGISTER', 'UNDO'}

    reference_edge : bpy.props.IntProperty(
        name="Reference Edge",
        description="The references edge of UV.\nIt will be placed in V axis.",
        min=0,
        soft_min=0, soft_max=3,
        default=0,
    )

    scale_mode: bpy.props.EnumProperty(
        name="Scale Mode",
        items=(('NUM', "Scale Size", "Scale UV with specific number."),
               ('REF', "Ref. Point", "Scale UV with Reference Point feature."),
               ),
    )

    scale_number : bpy.props.FloatProperty(
        name="Scale Size",
        description="The size which will be applied for scale.",
        min=0,
        soft_min=0, soft_max=5,
        default=5.0,
        step=0.1, precision=1,
    )

    reference_point : bpy.props.IntProperty(
        name="Reference Point",
        description="The references point of UV.\nIt's U component will be set to the number specified by Reference Point UV.\nThis point index is related to the start point of reference edge.",
        min=2,  # 0 and 1 is invalid. we can not order the reference edge to be set on the outside of uv axis
        soft_min=2, soft_max=3,
        default=2,
    )

    reference_uv : bpy.props.FloatProperty(
        name="Reference Point UV",
        description="The U component which should be applied to references point in UV.",
        soft_min=0, soft_max=1,
        default=0.5,
        step=0.1, precision=2,
    )

    @classmethod
    def poll(self, context):
        obj = bpy.context.active_object
        if obj is None:
            return False
        if obj.type != 'MESH':
            return False
        if obj.mode != 'EDIT':
            return False
        return True

    def execute(self, context):
        # construct scale data
        scale_data: ScaleDataUnion = ScaleDataUnion()
        if self.scale_mode == 'NUM':
            scale_data.SetAsScale(self.scale_number)
        else:
            scale_data.SetAsRefPoint(self.reference_point, self.reference_uv)

        # do flatten uv and report
        no_processed_count = _real_flatten_uv(bpy.context.active_object.data, self.reference_edge, scale_data)
        if no_processed_count != 0:
            print("[Flatten UV] {} faces may not be processed correctly because they have problem.".format(no_processed_count))
        return {'FINISHED'}

    def draw(self, context):
        layout = self.layout
        layout.emboss = 'NORMAL'
        layout.prop(self, "reference_edge")

        layout.separator()
        layout.label(text="Scale Mode")
        layout.prop(self, "scale_mode", expand=True)
        
        layout.separator()
        layout.label(text="Scale Config")
        if self.scale_mode == 'NUM':
            layout.prop(self, "scale_number")
        else:
            layout.prop(self, "reference_point")
            layout.prop(self, "reference_uv")

def _real_flatten_uv(mesh, reference_edge, scale_data: ScaleDataUnion):
    no_processed_count = 0

    if mesh.uv_layers.active is None:
        # if no uv, create it
        mesh.uv_layers.new(do_init=False)

    bm = bmesh.from_edit_mesh(mesh)
    uv_lay = bm.loops.layers.uv.active
    for face in bm.faces:
        # ========== only process selected face ==========
        if not face.select:
            continue

        # ========== resolve reference edge and point ==========
        # check reference validation
        allPoint = len(face.loops)
        if reference_edge >= allPoint:  # reference edge overflow
            no_processed_count += 1
            continue

        # check scale validation
        if scale_data.UseRefPoint:
            if ((scale_data.ReferencePoint <= 1)    # reference point too low
                or (scale_data.ReferencePoint >= allPoint)):    # reference point overflow
                no_processed_count += 1
                continue

        # ========== get correct new corrdinate system ==========
        # yyc mark:
        # we use 3 points located in this face to calc 
        # the base of this local uv corredinate system.
        # however if this 3 points are set in a line, 
        # this method will cause a error, zero vector error. 
        # 
        # if z axis is zero vector, we will try using face normal instead 
        # to try getting correct data.
        # 
        # zero base is not important. because it will not raise any math exception
        # just a weird uv. user will notice this problem.

        # get point
        p1Relative = reference_edge
        p2Relative = reference_edge + 1
        p3Relative = reference_edge + 2
        if p2Relative >= allPoint:
            p2Relative -= allPoint
        if p3Relative >= allPoint:
            p3Relative -= allPoint

        p1 = mathutils.Vector(tuple(face.loops[p1Relative].vert.co[x] for x in range(3)))
        p2 = mathutils.Vector(tuple(face.loops[p2Relative].vert.co[x] for x in range(3)))
        p3 = mathutils.Vector(tuple(face.loops[p3Relative].vert.co[x] for x in range(3)))

        # get y axis
        new_y_axis = p2 - p1
        new_y_axis.normalize()
        vec1 = p3 - p2
        vec1.normalize()

        # get z axis
        new_z_axis = new_y_axis.cross(vec1)
        new_z_axis.normalize()
        if not any(round(v, 7) for v in new_z_axis):    # if z is a zero vector, use face normal instead
            new_z_axis = face.normal.normalized()

        # get x axis
        new_x_axis = new_y_axis.cross(new_z_axis)
        new_x_axis.normalize()

        # construct rebase matrix
        origin_base = mathutils.Matrix((
            (1.0, 0, 0),
            (0, 1.0, 0),
            (0, 0, 1.0)
        ))
        origin_base.invert_safe()
        new_base = mathutils.Matrix((
            (new_x_axis.x, new_y_axis.x, new_z_axis.x),
            (new_x_axis.y, new_y_axis.y, new_z_axis.y),
            (new_x_axis.z, new_y_axis.z, new_z_axis.z)
        ))
        transition_matrix = origin_base @ new_base
        transition_matrix.invert_safe()

        # ========== rescale correction ==========
        if scale_data.UseRefPoint:
            # ref point method
            # get reference point from loop
            refpRelative = p1Relative + scale_data.ReferencePoint
            if refpRelative >= allPoint:
                refpRelative -= allPoint
            pRef = mathutils.Vector(tuple(face.loops[refpRelative].vert.co[x] for x in range(3))) - p1

            # calc its U component
            vec_u = abs((transition_matrix @ pRef).x)
            if round(vec_u, 7) == 0.0:
                rescale = 1 # fallback. rescale = 1 will not affect anything
            else:
                rescale = scale_data.ReferenceUV / vec_u
        else:
            # scale size method
            # apply rescale directly
            rescale = 1.0 / scale_data.ScaleSize
            
        # construct matrix
        # we only rescale U component (X component)
        # and 5.0 scale for V component (Y component)
        scale_matrix = mathutils.Matrix((
            (rescale, 0, 0),
            (0, 1.0 / 5.0, 0),
            (0, 0, 1.0)
        ))
        # order can not be changed. we order do transition first, then scale it.
        rescale_transition_matrix = scale_matrix @ transition_matrix

        # ========== process each face ==========
        for loop_index in range(allPoint):
            pp = mathutils.Vector(tuple(face.loops[loop_index].vert.co[x] for x in range(3))) - p1
            ppuv = rescale_transition_matrix @ pp

            # y axis always use 5.0 to scale
            # however, x need use custom scale correction which has been calculated by our matrix.
            face.loops[loop_index][uv_lay].uv = (
                abs(ppuv.x),
                ppuv.y
            )

    # Show the updates in the viewport
    bmesh.update_edit_mesh(mesh)
    return no_processed_count