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| import json | |
| import os.path as op | |
| import sys | |
| import numpy as np | |
| import torch | |
| import torch.nn as nn | |
| import trimesh | |
| from easydict import EasyDict | |
| from scipy.spatial.distance import cdist | |
| sys.path = [".."] + sys.path | |
| import common.thing as thing | |
| from common.rot import axis_angle_to_quaternion, quaternion_apply | |
| from common.torch_utils import pad_tensor_list | |
| from common.xdict import xdict | |
| # objects to consider for training so far | |
| OBJECTS = [ | |
| "capsulemachine", | |
| "box", | |
| "ketchup", | |
| "laptop", | |
| "microwave", | |
| "mixer", | |
| "notebook", | |
| "espressomachine", | |
| "waffleiron", | |
| "scissors", | |
| "phone", | |
| ] | |
| class ObjectTensors(nn.Module): | |
| def __init__(self): | |
| super(ObjectTensors, self).__init__() | |
| self.obj_tensors = thing.thing2dev(construct_obj_tensors(OBJECTS), "cpu") | |
| self.dev = None | |
| def forward_7d_batch( | |
| self, | |
| angles: (None, torch.Tensor), | |
| global_orient: (None, torch.Tensor), | |
| transl: (None, torch.Tensor), | |
| query_names: list, | |
| fwd_template: bool, | |
| ): | |
| self._sanity_check(angles, global_orient, transl, query_names, fwd_template) | |
| # store output | |
| out = xdict() | |
| # meta info | |
| obj_idx = np.array( | |
| [self.obj_tensors["names"].index(name) for name in query_names] | |
| ) | |
| out["diameter"] = self.obj_tensors["diameter"][obj_idx] | |
| out["f"] = self.obj_tensors["f"][obj_idx] | |
| out["f_len"] = self.obj_tensors["f_len"][obj_idx] | |
| out["v_len"] = self.obj_tensors["v_len"][obj_idx] | |
| max_len = out["v_len"].max() | |
| out["v"] = self.obj_tensors["v"][obj_idx][:, :max_len] | |
| out["mask"] = self.obj_tensors["mask"][obj_idx][:, :max_len] | |
| out["v_sub"] = self.obj_tensors["v_sub"][obj_idx] | |
| out["parts_ids"] = self.obj_tensors["parts_ids"][obj_idx][:, :max_len] | |
| out["parts_sub_ids"] = self.obj_tensors["parts_sub_ids"][obj_idx] | |
| if fwd_template: | |
| return out | |
| # articulation + global rotation | |
| quat_arti = axis_angle_to_quaternion(self.obj_tensors["z_axis"] * angles) | |
| quat_global = axis_angle_to_quaternion(global_orient.view(-1, 3)) | |
| # mm | |
| # collect entities to be transformed | |
| tf_dict = xdict() | |
| tf_dict["v_top"] = out["v"].clone() | |
| tf_dict["v_sub_top"] = out["v_sub"].clone() | |
| tf_dict["v_bottom"] = out["v"].clone() | |
| tf_dict["v_sub_bottom"] = out["v_sub"].clone() | |
| tf_dict["bbox_top"] = self.obj_tensors["bbox_top"][obj_idx] | |
| tf_dict["bbox_bottom"] = self.obj_tensors["bbox_bottom"][obj_idx] | |
| tf_dict["kp_top"] = self.obj_tensors["kp_top"][obj_idx] | |
| tf_dict["kp_bottom"] = self.obj_tensors["kp_bottom"][obj_idx] | |
| # articulate top parts | |
| for key, val in tf_dict.items(): | |
| if "top" in key: | |
| val_rot = quaternion_apply(quat_arti[:, None, :], val) | |
| tf_dict.overwrite(key, val_rot) | |
| # global rotation for all | |
| for key, val in tf_dict.items(): | |
| val_rot = quaternion_apply(quat_global[:, None, :], val) | |
| if transl is not None: | |
| val_rot = val_rot + transl[:, None, :] | |
| tf_dict.overwrite(key, val_rot) | |
| # prep output | |
| top_idx = out["parts_ids"] == 1 | |
| v_tensor = tf_dict["v_bottom"].clone() | |
| v_tensor[top_idx, :] = tf_dict["v_top"][top_idx, :] | |
| top_idx = out["parts_sub_ids"] == 1 | |
| v_sub_tensor = tf_dict["v_sub_bottom"].clone() | |
| v_sub_tensor[top_idx, :] = tf_dict["v_sub_top"][top_idx, :] | |
| bbox = torch.cat((tf_dict["bbox_top"], tf_dict["bbox_bottom"]), dim=1) | |
| kp3d = torch.cat((tf_dict["kp_top"], tf_dict["kp_bottom"]), dim=1) | |
| out.overwrite("v", v_tensor) | |
| out.overwrite("v_sub", v_sub_tensor) | |
| out.overwrite("bbox3d", bbox) | |
| out.overwrite("kp3d", kp3d) | |
| return out | |
| def forward(self, angles, global_orient, transl, query_names): | |
| out = self.forward_7d_batch( | |
| angles, global_orient, transl, query_names, fwd_template=False | |
| ) | |
| return out | |
| def forward_template(self, query_names): | |
| out = self.forward_7d_batch( | |
| angles=None, | |
| global_orient=None, | |
| transl=None, | |
| query_names=query_names, | |
| fwd_template=True, | |
| ) | |
| return out | |
| def to(self, dev): | |
| self.obj_tensors = thing.thing2dev(self.obj_tensors, dev) | |
| self.dev = dev | |
| def _sanity_check(self, angles, global_orient, transl, query_names, fwd_template): | |
| # sanity check | |
| if not fwd_template: | |
| # assume transl is in meter | |
| if transl is not None: | |
| transl = transl * 1000 # mm | |
| batch_size = angles.shape[0] | |
| assert angles.shape == (batch_size, 1) | |
| assert global_orient.shape == (batch_size, 3) | |
| if transl is not None: | |
| assert isinstance(transl, torch.Tensor) | |
| assert transl.shape == (batch_size, 3) | |
| assert len(query_names) == batch_size | |
| def construct_obj(object_model_p): | |
| # load vtemplate | |
| mesh_p = op.join(object_model_p, "mesh.obj") | |
| parts_p = op.join(object_model_p, f"parts.json") | |
| json_p = op.join(object_model_p, "object_params.json") | |
| obj_name = op.basename(object_model_p) | |
| top_sub_p = f"./data/arctic_data/data/meta/object_vtemplates/{obj_name}/top_keypoints_300.json" | |
| bottom_sub_p = top_sub_p.replace("top_", "bottom_") | |
| with open(top_sub_p, "r") as f: | |
| sub_top = np.array(json.load(f)["keypoints"]) | |
| with open(bottom_sub_p, "r") as f: | |
| sub_bottom = np.array(json.load(f)["keypoints"]) | |
| sub_v = np.concatenate((sub_top, sub_bottom), axis=0) | |
| with open(parts_p, "r") as f: | |
| parts = np.array(json.load(f), dtype=np.bool) | |
| assert op.exists(mesh_p), f"Not found: {mesh_p}" | |
| mesh = trimesh.exchange.load.load_mesh(mesh_p, process=False) | |
| mesh_v = mesh.vertices | |
| mesh_f = torch.LongTensor(mesh.faces) | |
| vidx = np.argmin(cdist(sub_v, mesh_v, metric="euclidean"), axis=1) | |
| parts_sub = parts[vidx] | |
| vsk = object_model_p.split("/")[-1] | |
| with open(json_p, "r") as f: | |
| params = json.load(f) | |
| rest = EasyDict() | |
| rest.top = np.array(params["mocap_top"]) | |
| rest.bottom = np.array(params["mocap_bottom"]) | |
| bbox_top = np.array(params["bbox_top"]) | |
| bbox_bottom = np.array(params["bbox_bottom"]) | |
| kp_top = np.array(params["keypoints_top"]) | |
| kp_bottom = np.array(params["keypoints_bottom"]) | |
| np.random.seed(1) | |
| obj = EasyDict() | |
| obj.name = vsk | |
| obj.obj_name = "".join([i for i in vsk if not i.isdigit()]) | |
| obj.v = torch.FloatTensor(mesh_v) | |
| obj.v_sub = torch.FloatTensor(sub_v) | |
| obj.f = torch.LongTensor(mesh_f) | |
| obj.parts = torch.LongTensor(parts) | |
| obj.parts_sub = torch.LongTensor(parts_sub) | |
| with open("./data/arctic_data/data/meta/object_meta.json", "r") as f: | |
| object_meta = json.load(f) | |
| obj.diameter = torch.FloatTensor(np.array(object_meta[obj.obj_name]["diameter"])) | |
| obj.bbox_top = torch.FloatTensor(bbox_top) | |
| obj.bbox_bottom = torch.FloatTensor(bbox_bottom) | |
| obj.kp_top = torch.FloatTensor(kp_top) | |
| obj.kp_bottom = torch.FloatTensor(kp_bottom) | |
| obj.mocap_top = torch.FloatTensor(np.array(params["mocap_top"])) | |
| obj.mocap_bottom = torch.FloatTensor(np.array(params["mocap_bottom"])) | |
| return obj | |
| def construct_obj_tensors(object_names): | |
| obj_list = [] | |
| for k in object_names: | |
| object_model_p = f"./data/arctic_data/data/meta/object_vtemplates/%s" % (k) | |
| obj = construct_obj(object_model_p) | |
| obj_list.append(obj) | |
| bbox_top_list = [] | |
| bbox_bottom_list = [] | |
| mocap_top_list = [] | |
| mocap_bottom_list = [] | |
| kp_top_list = [] | |
| kp_bottom_list = [] | |
| v_list = [] | |
| v_sub_list = [] | |
| f_list = [] | |
| parts_list = [] | |
| parts_sub_list = [] | |
| diameter_list = [] | |
| for obj in obj_list: | |
| v_list.append(obj.v) | |
| v_sub_list.append(obj.v_sub) | |
| f_list.append(obj.f) | |
| # root_list.append(obj.root) | |
| bbox_top_list.append(obj.bbox_top) | |
| bbox_bottom_list.append(obj.bbox_bottom) | |
| kp_top_list.append(obj.kp_top) | |
| kp_bottom_list.append(obj.kp_bottom) | |
| mocap_top_list.append(obj.mocap_top / 1000) | |
| mocap_bottom_list.append(obj.mocap_bottom / 1000) | |
| parts_list.append(obj.parts + 1) | |
| parts_sub_list.append(obj.parts_sub + 1) | |
| diameter_list.append(obj.diameter) | |
| v_list, v_len_list = pad_tensor_list(v_list) | |
| p_list, p_len_list = pad_tensor_list(parts_list) | |
| ps_list = torch.stack(parts_sub_list, dim=0) | |
| assert (p_len_list - v_len_list).sum() == 0 | |
| max_len = v_len_list.max() | |
| mask = torch.zeros(len(obj_list), max_len) | |
| for idx, vlen in enumerate(v_len_list): | |
| mask[idx, :vlen] = 1.0 | |
| v_sub_list = torch.stack(v_sub_list, dim=0) | |
| diameter_list = torch.stack(diameter_list, dim=0) | |
| f_list, f_len_list = pad_tensor_list(f_list) | |
| bbox_top_list = torch.stack(bbox_top_list, dim=0) | |
| bbox_bottom_list = torch.stack(bbox_bottom_list, dim=0) | |
| kp_top_list = torch.stack(kp_top_list, dim=0) | |
| kp_bottom_list = torch.stack(kp_bottom_list, dim=0) | |
| obj_tensors = {} | |
| obj_tensors["names"] = object_names | |
| obj_tensors["parts_ids"] = p_list | |
| obj_tensors["parts_sub_ids"] = ps_list | |
| obj_tensors["v"] = v_list.float() / 1000 | |
| obj_tensors["v_sub"] = v_sub_list.float() / 1000 | |
| obj_tensors["v_len"] = v_len_list | |
| obj_tensors["f"] = f_list | |
| obj_tensors["f_len"] = f_len_list | |
| obj_tensors["diameter"] = diameter_list.float() | |
| obj_tensors["mask"] = mask | |
| obj_tensors["bbox_top"] = bbox_top_list.float() / 1000 | |
| obj_tensors["bbox_bottom"] = bbox_bottom_list.float() / 1000 | |
| obj_tensors["kp_top"] = kp_top_list.float() / 1000 | |
| obj_tensors["kp_bottom"] = kp_bottom_list.float() / 1000 | |
| obj_tensors["mocap_top"] = mocap_top_list | |
| obj_tensors["mocap_bottom"] = mocap_bottom_list | |
| obj_tensors["z_axis"] = torch.FloatTensor(np.array([0, 0, -1])).view(1, 3) | |
| return obj_tensors | |