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import os |
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import numpy as np |
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import torch |
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from . import obj |
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from . import util |
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class Mesh: |
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def __init__(self, v_pos=None, t_pos_idx=None, v_nrm=None, t_nrm_idx=None, v_tex=None, t_tex_idx=None, v_tng=None, t_tng_idx=None, material=None, base=None): |
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self.v_pos = v_pos |
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self.v_nrm = v_nrm |
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self.v_tex = v_tex |
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self.v_tng = v_tng |
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self.t_pos_idx = t_pos_idx |
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self.t_nrm_idx = t_nrm_idx |
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self.t_tex_idx = t_tex_idx |
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self.t_tng_idx = t_tng_idx |
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self.material = material |
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if base is not None: |
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self.copy_none(base) |
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def copy_none(self, other): |
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if self.v_pos is None: |
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self.v_pos = other.v_pos |
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if self.t_pos_idx is None: |
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self.t_pos_idx = other.t_pos_idx |
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if self.v_nrm is None: |
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self.v_nrm = other.v_nrm |
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if self.t_nrm_idx is None: |
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self.t_nrm_idx = other.t_nrm_idx |
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if self.v_tex is None: |
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self.v_tex = other.v_tex |
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if self.t_tex_idx is None: |
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self.t_tex_idx = other.t_tex_idx |
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if self.v_tng is None: |
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self.v_tng = other.v_tng |
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if self.t_tng_idx is None: |
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self.t_tng_idx = other.t_tng_idx |
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if self.material is None: |
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self.material = other.material |
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def clone(self): |
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out = Mesh(base=self) |
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if out.v_pos is not None: |
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out.v_pos = out.v_pos.clone().detach() |
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if out.t_pos_idx is not None: |
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out.t_pos_idx = out.t_pos_idx.clone().detach() |
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if out.v_nrm is not None: |
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out.v_nrm = out.v_nrm.clone().detach() |
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if out.t_nrm_idx is not None: |
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out.t_nrm_idx = out.t_nrm_idx.clone().detach() |
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if out.v_tex is not None: |
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out.v_tex = out.v_tex.clone().detach() |
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if out.t_tex_idx is not None: |
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out.t_tex_idx = out.t_tex_idx.clone().detach() |
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if out.v_tng is not None: |
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out.v_tng = out.v_tng.clone().detach() |
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if out.t_tng_idx is not None: |
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out.t_tng_idx = out.t_tng_idx.clone().detach() |
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return out |
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def load_mesh(filename, mtl_override=None): |
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name, ext = os.path.splitext(filename) |
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if ext == ".obj": |
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return obj.load_obj(filename, clear_ks=True, mtl_override=mtl_override) |
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assert False, "Invalid mesh file extension" |
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def aabb(mesh): |
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return torch.min(mesh.v_pos, dim=0).values, torch.max(mesh.v_pos, dim=0).values |
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def compute_edges(attr_idx, return_inverse=False): |
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with torch.no_grad(): |
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all_edges = torch.cat(( |
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torch.stack((attr_idx[:, 0], attr_idx[:, 1]), dim=-1), |
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torch.stack((attr_idx[:, 1], attr_idx[:, 2]), dim=-1), |
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torch.stack((attr_idx[:, 2], attr_idx[:, 0]), dim=-1), |
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), dim=-1).view(-1, 2) |
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order = (all_edges[:, 0] > all_edges[:, 1]).long().unsqueeze(dim=1) |
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sorted_edges = torch.cat(( |
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torch.gather(all_edges, 1, order), |
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torch.gather(all_edges, 1, 1 - order) |
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), dim=-1) |
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return torch.unique(sorted_edges, dim=0, return_inverse=return_inverse) |
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def compute_edge_to_face_mapping(attr_idx, return_inverse=False): |
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with torch.no_grad(): |
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all_edges = torch.cat(( |
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torch.stack((attr_idx[:, 0], attr_idx[:, 1]), dim=-1), |
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torch.stack((attr_idx[:, 1], attr_idx[:, 2]), dim=-1), |
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torch.stack((attr_idx[:, 2], attr_idx[:, 0]), dim=-1), |
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), dim=-1).view(-1, 2) |
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order = (all_edges[:, 0] > all_edges[:, 1]).long().unsqueeze(dim=1) |
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sorted_edges = torch.cat(( |
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torch.gather(all_edges, 1, order), |
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torch.gather(all_edges, 1, 1 - order) |
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), dim=-1) |
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unique_edges, idx_map = torch.unique(sorted_edges, dim=0, return_inverse=True) |
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tris = torch.arange(attr_idx.shape[0]).repeat_interleave(3).cuda() |
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tris_per_edge = torch.zeros((unique_edges.shape[0], 2), dtype=torch.int64).cuda() |
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mask0 = order[:,0] == 0 |
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mask1 = order[:,0] == 1 |
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tris_per_edge[idx_map[mask0], 0] = tris[mask0] |
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tris_per_edge[idx_map[mask1], 1] = tris[mask1] |
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return tris_per_edge |
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def unit_size(mesh): |
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with torch.no_grad(): |
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vmin, vmax = aabb(mesh) |
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scale = 2 / torch.max(vmax - vmin).item() |
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v_pos = mesh.v_pos - (vmax + vmin) / 2 |
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v_pos = v_pos * scale |
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return Mesh(v_pos, base=mesh) |
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def center_by_reference(base_mesh, ref_aabb, scale): |
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center = (ref_aabb[0] + ref_aabb[1]) * 0.5 |
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scale = scale / torch.max(ref_aabb[1] - ref_aabb[0]).item() |
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v_pos = (base_mesh.v_pos - center[None, ...]) * scale |
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return Mesh(v_pos, base=base_mesh) |
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def auto_normals(imesh): |
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i0 = imesh.t_pos_idx[:, 0] |
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i1 = imesh.t_pos_idx[:, 1] |
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i2 = imesh.t_pos_idx[:, 2] |
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v0 = imesh.v_pos[i0, :] |
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v1 = imesh.v_pos[i1, :] |
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v2 = imesh.v_pos[i2, :] |
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face_normals = torch.cross(v1 - v0, v2 - v0) |
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v_nrm = torch.zeros_like(imesh.v_pos) |
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v_nrm.scatter_add_(0, i0[:, None].repeat(1,3), face_normals) |
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v_nrm.scatter_add_(0, i1[:, None].repeat(1,3), face_normals) |
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v_nrm.scatter_add_(0, i2[:, None].repeat(1,3), face_normals) |
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v_nrm = torch.where(util.dot(v_nrm, v_nrm) > 1e-20, v_nrm, torch.tensor([0.0, 0.0, 1.0], dtype=torch.float32, device='cuda')) |
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v_nrm = util.safe_normalize(v_nrm) |
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if torch.is_anomaly_enabled(): |
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assert torch.all(torch.isfinite(v_nrm)) |
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return Mesh(v_nrm=v_nrm, t_nrm_idx=imesh.t_pos_idx, base=imesh) |
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def compute_tangents(imesh): |
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vn_idx = [None] * 3 |
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pos = [None] * 3 |
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tex = [None] * 3 |
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for i in range(0,3): |
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pos[i] = imesh.v_pos[imesh.t_pos_idx[:, i]] |
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tex[i] = imesh.v_tex[imesh.t_tex_idx[:, i]] |
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vn_idx[i] = imesh.t_nrm_idx[:, i] |
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tangents = torch.zeros_like(imesh.v_nrm) |
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uve1 = tex[1] - tex[0] |
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uve2 = tex[2] - tex[0] |
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pe1 = pos[1] - pos[0] |
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pe2 = pos[2] - pos[0] |
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nom = (pe1 * uve2[..., 1:2] - pe2 * uve1[..., 1:2]) |
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denom = (uve1[..., 0:1] * uve2[..., 1:2] - uve1[..., 1:2] * uve2[..., 0:1]) |
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tang = nom / torch.where(denom > 0.0, torch.clamp(denom, min=1e-6), torch.clamp(denom, max=-1e-6)) |
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for i in range(0,3): |
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idx = vn_idx[i][:, None].repeat(1,3) |
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tangents.scatter_add_(0, idx, tang) |
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tangents = util.safe_normalize(tangents) |
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tangents = util.safe_normalize(tangents - util.dot(tangents, imesh.v_nrm) * imesh.v_nrm) |
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if torch.is_anomaly_enabled(): |
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assert torch.all(torch.isfinite(tangents)) |
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return Mesh(v_tng=tangents, t_tng_idx=imesh.t_nrm_idx, base=imesh) |
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