from tqdm import tqdm import cv2 import os from easymocap.visualize.pyrender_wrapper import plot_meshes from os.path import join import numpy as np from easymocap.datasets.base import add_logo from easymocap.mytools.vis_base import merge, plot_bbox from .vis import VisBase class Render(VisBase): def __init__(self, name='render', scale=0.5, backend='pyrender', **kwargs) -> None: super().__init__(name=name, scale=1., **kwargs) self.scale3d = scale def __call__(self, body_model, params, cameras, imgnames): vertices = body_model.vertices(params, return_tensor=False) faces = body_model.faces for nf, img in enumerate(tqdm(imgnames, desc=self.name)): basename = os.path.basename(img) # 重新读入图片 assert os.path.exists(img), img vis = cv2.imread(img) vis = cv2.resize(vis, None, fx=self.scale3d, fy=self.scale3d) vert = vertices[nf] meshes = {} meshes[0] = { 'vertices': vert, 'faces': faces, 'id': 0, 'name': 'human_{}'.format(0) } K = cameras['K'][nf].copy() K[:2, :] *= self.scale3d R = cameras['R'][nf] T = cameras['T'][nf] ret = plot_meshes(vis, meshes, K, R, T, mode='image') self.merge_and_write([ret]) class Render_multiview(VisBase): def __init__(self, view_list=[], name='render', model_name='body_model', render_mode='image', backend='pyrender', shape=[-1,-1], scale=1., **kwargs): self.scale3d = scale super().__init__(name=name, scale=1., **kwargs) self.view_list = view_list self.render_mode = render_mode self.model_name = model_name self.shape = shape def render_(self, vertices, faces, cameras, imgnames): for nf, img in enumerate(tqdm(imgnames, desc=self.name)): mv_ret = [] if not isinstance(img, list): img = [img] for nv in self.view_list: basename = os.path.basename(img[nv]) assert os.path.exists(img[nv]), img[nv] vis = cv2.imread(img[nv]) vis = cv2.resize(vis, None, fx=self.scale3d, fy=self.scale3d) vert = vertices[nf] meshes = {} if vert.ndim == 2: meshes[0] = { 'vertices': vert, 'faces': faces, 'id': 0, 'name': 'human_{}'.format(0) } elif vert.ndim == 3: for pid in range(vert.shape[0]): meshes[pid] = { 'vertices': vert[pid], 'faces': faces, 'id': pid, 'name': 'human_{}'.format(pid) } if cameras['K'].ndim == 4: K = cameras['K'][nf][nv].copy() K[:2, :] *= self.scale R = cameras['R'][nf][nv] T = cameras['T'][nf][nv] else: K = cameras['K'][nv].copy() K[:2, :] *= self.scale3d R = cameras['R'][nv] T = cameras['T'][nv] # add ground if self.render_mode == 'ground': from easymocap.visualize.geometry import create_ground ground = create_ground( center=[0, 0, -0.05], xdir=[1, 0, 0], ydir=[0, 1, 0], # 位置 step=1, xrange=10, yrange=10, # 尺寸 white=[1., 1., 1.], black=[0.5,0.5,0.5], # 颜色 two_sides=True ) meshes[1001] = ground vis = np.zeros((self.shape[0], self.shape[1], 3), dtype=np.uint8) + 255 focal = min(self.shape) * 1.2 K = np.array([ [focal,0,vis.shape[0]/2], [0,focal,vis.shape[1]/2], [0,0,1]]) ret = plot_meshes(vis, meshes, K, R, T, mode='rgb') else: ret = plot_meshes(vis, meshes, K, R, T, mode=self.render_mode) ret = add_logo(ret) mv_ret.append(ret) self.merge_and_write(mv_ret) def __call__(self, params, cameras, imgnames, **kwargs): body_model = kwargs[self.model_name] vertices = body_model.vertices(params, return_tensor=False) faces = body_model.faces self.render_(vertices, faces, cameras, imgnames) class Render_nocam: def __init__(self, scale=0.5, backend='pyrender',view_list=[0]) -> None: self.name = 'render' self.scale = scale self.view_list = view_list def __call__(self, hand_model, params, images): vertices = hand_model(**params, return_verts=True, return_tensor=False) faces = hand_model.faces for nf, img in enumerate(tqdm(images, desc=self.name)): for nv in self.view_list: if isinstance(img, np.ndarray): vis = img.copy() basename = '{:06}.jpg'.format(nf) else: basename = os.path.basename(img[nv]) # 重新读入图片 assert os.path.exists(img[nv]), img[nv] vis = cv2.imread(img[nv]) vis = cv2.resize(vis, None, fx=self.scale, fy=self.scale) vert = vertices[nf] meshes = {} meshes[0] = { 'vertices': vert, 'faces': faces, 'id': 0, 'name': 'human_{}'.format(0) } K = np.array([[vis.shape[0],0,vis.shape[0]/2],[0,vis.shape[1],vis.shape[1]/2],[0,0,1]]) K[:2, :] *= self.scale R = np.eye(3) T = np.array([0,0,0.3]) ret = plot_meshes(vis, meshes, K, R, T, mode='image') outname = join(self.output, self.name, basename) os.makedirs(os.path.dirname(outname), exist_ok=True) cv2.imwrite(outname, ret) class Render_multiview_hand(Render_multiview): def __call__(self, hand_model_l, params_l, cameras, imgnames): vertices = hand_model_l(**params_l, return_verts=True, return_tensor=False) faces = hand_model_l.faces self.render_(vertices, faces, cameras, imgnames) class Render_smplh(Render_multiview): def __init__(self, path, at_step, scale=0.5, mode='image', backend='pyrender', view_list=[0]) -> None: super().__init__(scale, mode, backend, view_list) from easymocap.config import Config, load_object cfg_data = Config.load(path) self.model = load_object(cfg_data.module, cfg_data.args) self.at_step = at_step def __call__(self, params_smplh, cameras, imgnames): vertices = self.model(return_verts=True, return_tensor=False, **params_smplh) faces = self.model.faces if self.at_step: self.render_([vertices], faces, cameras, [imgnames]) else: self.render_(vertices, faces, cameras, imgnames) class Render_smplh2(Render_smplh): def __call__(self, params, cameras, imgnames): super().__call__(params, cameras, imgnames) def projectPoints(X, K, R, t, Kd): x = R @ X + t x[0:2,:] = x[0:2,:]/x[2,:]#到归一化平面 r = x[0,:]*x[0,:] + x[1,:]*x[1,:] x[0,:] = x[0,:]*(1 + Kd[0]*r + Kd[1]*r*r + Kd[4]*r*r*r) + 2*Kd[2]*x[0,:]*x[1,:] + Kd[3]*(r + 2*x[0,:]*x[0,:]) x[1,:] = x[1,:]*(1 + Kd[0]*r + Kd[1]*r*r + Kd[4]*r*r*r) + 2*Kd[3]*x[0,:]*x[1,:] + Kd[2]*(r + 2*x[1,:]*x[1,:]) x[0,:] = K[0,0]*x[0,:] + K[0,1]*x[1,:] + K[0,2] x[1,:] = K[1,0]*x[0,:] + K[1,1]*x[1,:] + K[1,2] return x class Render_multiview_handbyk3d(Render_multiview): def __call__(self, hand_model_l, params_l, hand_model_r, params_r, cameras, imgnames, keypoints3d): # breakpoint() joint_regressor_r = np.load('models/handmesh/data/joint_regressor_r.npy') #右手 joint_regressor_l = np.load('models/handmesh/data/joint_regressor_l.npy') #右手 facesl = hand_model_l.faces facesr = hand_model_r.faces # for nf, img in enumerate(tqdm(imgnames, desc=self.name)): #不显示0号人物的结果 keypoints3d[0]=0 img = imgnames k3d = keypoints3d vertices_l = hand_model_l(**params_l, return_verts=True, return_tensor=False) #[nf] vertices_r = hand_model_r(**params_r, return_verts=True, return_tensor=False) #[nf] # breakpoint() joint_l = np.repeat(joint_regressor_l[None, :, :],vertices_l.shape[0],0) @ vertices_l joint_r = np.repeat(joint_regressor_r[None, :, :],vertices_r.shape[0],0) @ vertices_r params_l['Th']+=k3d[:,7,:3] - joint_l[:,0,:] #左手7右手4 #[nf] params_r['Th']+=k3d[:,4,:3] - joint_r[:,0,:] #左手7右手4 #[nf] vertices_l = hand_model_l(**params_l, return_verts=True, return_tensor=False) #[nf] vertices_r = hand_model_r(**params_r, return_verts=True, return_tensor=False) #[nf] faces = [] vert = [] pids = [] for i in range(k3d.shape[0]): if k3d[i,7,-1]==0: continue vv = vertices_l[i].copy() vert.append(vv) faces.append(facesl) pids.append(i) for i in range(k3d.shape[0]): if k3d[i,4,-1]==0: continue vv = vertices_r[i].copy() vert.append(vv) faces.append(facesr) pids.append(i) faces = np.stack(faces) vert = np.stack(vert) for nv in self.view_list: basename = os.path.basename(img[nv]) # 重新读入图片 assert os.path.exists(img[nv]), img[nv] vis = cv2.imread(img[nv]) vis = cv2.resize(vis, None, fx=self.scale, fy=self.scale) # vert = vertices meshes = {} if vert.ndim == 2: meshes[0] = { 'vertices': vert, 'faces': faces, 'id': 0, 'name': 'human_{}'.format(0) } elif vert.ndim == 3: for pid in range(vert.shape[0]): meshes[pid] = { 'vertices': vert[pid], 'faces': faces[pid], 'vid': pids[pid], 'name': 'human_{}'.format(pid) } K = cameras['K'][nv].copy() K[:2, :] *= self.scale R = cameras['R'][nv] T = cameras['T'][nv] # breakpoint() from easymocap.mytools.vis_base import plot_keypoints_auto for pid in range(keypoints3d.shape[0]): keypoints_repro = projectPoints(keypoints3d[pid].T[:3,:], K, R, T, cameras['dist'][nv].reshape(5)).T keypoints_repro[:,-1] = keypoints3d[pid,:,-1] plot_keypoints_auto(vis, keypoints_repro, pid=pid, use_limb_color=False) ret = plot_meshes(vis, meshes, K, R, T, mode=self.mode) outname = join(self.output, self.name, basename) os.makedirs(os.path.dirname(outname), exist_ok=True) cv2.imwrite(outname, ret) class Render_selectview: def __init__(self, scale=0.5, backend='pyrender', output='output',mode = 'image') -> None: self.name = 'render_debug' self.scale = scale self.view_list = [5] self.output = output self.mode = mode def __call__(self, hand_model_l, posel, match3d_l, cameras, imgnames, keypoints3d,bbox_handl, joint_regressor, wristid): img = imgnames k3d = keypoints3d # joint_regressor_r = np.load('models/handmesh/data/joint_regressor_r.npy') #右手 # joint_regressor_l = np.load('models/handmesh/data/joint_regressor_l.npy') joint_regressor_l = joint_regressor facesl = hand_model_l.faces # facesr = hand_model_r.faces # breakpoint() hand_list=[] for pid in range(len(match3d_l)): dt = match3d_l[pid] if(isinstance(dt,int)): # TODO:处理-1的情况,也就是没有找到合适的匹配到的手 hand_list.append(np.zeros((1,48))) break # Merge_list=[] out_img = [] for cid in range(len(dt['views'])): nv = dt['views'][cid] poseid = dt['indices'][cid] pose = posel[nv][poseid].copy() Rh = pose[:,:3].copy() invR = np.linalg.inv(cameras['R'][nv]) Rh_m_old = np.matrix(cv2.Rodrigues(Rh)[0]) Rh_m_new = invR @ Rh_m_old Rh = cv2.Rodrigues(Rh_m_new)[0] pose_ = np.hstack((Rh.reshape(3),pose[:,3:].reshape(-1))).reshape(1,-1) Rh = pose_[:,:3].copy() pose_[:,:3] = 0 params_l={ 'Rh':Rh, 'Th':np.zeros_like(Rh), 'poses':pose_, 'shapes':np.zeros((Rh.shape[0],10)), } vertices_l = hand_model_l(**params_l, return_verts=True, return_tensor=False) joint_l = np.repeat(joint_regressor_l[None, :, :],vertices_l.shape[0],0) @ vertices_l params_l['Th']+=k3d[pid,wristid,:3] - joint_l[0,0,:] vertices_l = hand_model_l(**params_l, return_verts=True, return_tensor=False) vert = vertices_l[0] faces = facesl basename = os.path.basename(img[nv]) # 重新读入图片 assert os.path.exists(img[nv]), img[nv] vis = cv2.imread(img[nv]) plot_bbox(vis,bbox_handl[nv][poseid],0) vis = cv2.resize(vis, None, fx=self.scale, fy=self.scale) meshes = {} if vert.ndim == 2: meshes[0] = { 'vertices': vert, 'faces': faces, 'id': 0, 'name': 'human_{}'.format(0) } elif vert.ndim == 3: for pid in range(vert.shape[0]): meshes[pid] = { 'vertices': vert[pid], 'faces': faces[pid], 'id': pid, 'name': 'human_{}'.format(pid) } K = cameras['K'][nv].copy() K[:2, :] *= self.scale R = cameras['R'][nv] T = cameras['T'][nv] # breakpoint() ret = plot_meshes(vis, meshes, K, R, T, mode=self.mode) out_img.append(ret) out_img = merge(out_img) outname = join(self.output, self.name, '{}-{:02d}.jpg'.format(basename.split('.jpg')[0],pid)) os.makedirs(os.path.dirname(outname), exist_ok=True) cv2.imwrite(outname, out_img) class Render_selectview_lr: def __init__(self, scale=0.5, backend='pyrender', output='output',mode = 'image') -> None: self.output = output self.model_l = Render_selectview(scale=0.5, backend='pyrender', output = self.output,mode = mode) self.model_r = Render_selectview(scale=0.5, backend='pyrender', output = self.output,mode = mode) self.model_l.name+='_l' self.model_r.name+='_r' def __call__(self, hand_model_l, posel, poser, match3d_l, match3d_r, hand_model_r, cameras, imgnames, keypoints3d,bbox_handl,bbox_handr): joint_regressor_r = np.load('models/handmesh/data/joint_regressor_r.npy') #右手 joint_regressor_l = np.load('models/handmesh/data/joint_regressor_l.npy') self.model_l(hand_model_l, posel, match3d_l, cameras, imgnames, keypoints3d,bbox_handl, joint_regressor_l, 7) self.model_r(hand_model_r, poser, match3d_r, cameras, imgnames, keypoints3d,bbox_handr, joint_regressor_r, 4) class Render_mv(Render): def __call__(self, body_model, params, cameras, imgnames): # breakpoint() super().__call__(body_model, params, cameras, [imgnames[0],imgnames[1]])