def _get_64_anchors_new(self, gtbox): pos = {} neg = {} zero = {} for a in range(17): for b in range(17): for c in range(5): anchor = [self.grid_len//2+self.grid_len*a, self.grid_len//2+self.grid_len*b, self.anchor_shape[c][0], self.anchor_shape[c][1]] anchor = xywh_to_x1y1x2y2(anchor) anchor = clip_anchor(anchor,cfg.detection_size) iou = self._IOU(anchor, gtbox) # if iou>0.3: # print(x1y1x2y2_to_xywh(anchor), gtbox, iou) if iou >= cfg.pos_iou_thresh: pos[(a,b,c)] = (iou, anchor) elif iou <= cfg.neg_iou_thresh and iou > 0: neg[(a,b,c)] = (iou, anchor) else : zero[(a,b,c)] = (iou, anchor) # print(len(pos), len(neg), len(zero)) pos = sorted(pos.items(), key=lambda tup: tup[1][0], reverse=True) pos = [(*tup[0], tup[1][1]) for tup in pos[:16]] num = math.ceil((64-len(pos))/2) neg = sorted(neg.items(), key=lambda tup: tup[1][0], reverse=True) neg = [(*tup[0], tup[1][1]) for tup in neg[:num]] zero = list(zero.items()) np.random.shuffle(zero) neg += [(*tup[0], tup[1][1]) for tup in zero[:64-len(pos)-len(neg)]] return pos, neg
def _get_label(self, gtbox): clabel = np.zeros([5, 17, 17]) - 100 rlabel = np.zeros([20, 17, 17], dtype = np.float32) if self.phase in ['train','validation']: pos, neg = self._get_64_anchors_new(gtbox) assert len(pos)+len(neg)==64 for a,b,c,anchor_x1y1x2y2 in pos: anchor = x1y1x2y2_to_xywh(anchor_x1y1x2y2) clabel[c,a,b] = 1 channel0 = (gtbox[0] - anchor[0])/anchor[2] channel1 = (gtbox[1] - anchor[1])/anchor[3] channel2 = math.log(gtbox[2]/anchor[2]) channel3 = math.log(gtbox[3]/anchor[3]) rlabel[c*4:c*4+4,a,b] = [channel0, channel1, channel2, channel3] for a,b,c,anchor in neg: clabel[c,a,b] = 0 else : for a in range(17): for b in range(17): for c in range(5): anchor = [self.grid_len//2+self.grid_len*a, self.grid_len//2+self.grid_len*b, self.anchor_shape[c][0], self.anchor_shape[c][1]] anchor = xywh_to_x1y1x2y2(anchor) anchor = clip_anchor(anchor,cfg.detection_size) iou = self._IOU(anchor, gtbox) anchor = x1y1x2y2_to_xywh(anchor) if iou >= cfg.pos_iou_thresh: clabel[c,a,b] = 1 channel0 = (gtbox[0] - anchor[0])/anchor[2] channel1 = (gtbox[1] - anchor[1])/anchor[3] channel2 = math.log(gtbox[2]/anchor[2]) channel3 = math.log(gtbox[3]/anchor[3]) rlabel[c*4:c*4+4,a,b] = [channel0, channel1, channel2, channel3] elif iou <= cfg.neg_iou_thresh: clabel[c,a,b] = 0 return torch.Tensor(clabel).long(), torch.Tensor(rlabel).float()
def _get_64_anchors_multiflags(self,idx,gtboxList): pos = {} neg = {} zero = {} brother = {} for a in range(17): for b in range(17): for c in range(5): anchor = [self.grid_len//2+self.grid_len*a, self.grid_len//2+self.grid_len*b, self.anchor_shape[c][0], self.anchor_shape[c][1]] anchor_x1y1x2y2 = xywh_to_x1y1x2y2(anchor) anchor_x1y1x2y2 = clip_anchor(anchor_x1y1x2y2,cfg.detection_size) iouList = list(map(lambda gtbox_xywh: self._IOU(anchor_x1y1x2y2, gtbox_xywh) , gtboxList)) if iouList[idx]>cfg.pos_iou_thresh: pos[(a,b,c)] = (iou,anchor_x1y1x2y2) else: iou = max(iouList[:idx]+iouList[idx+1:]) if iou > cfg.pos_iou_thresh: brother[(a,b,c)] = (iou,anchor_x1y1x2y2) iou = max(iou, iouList[idx]) if iou <= cfg.neg_iou_thresh and iou > 0: neg[(a,b,c)] = (iou, anchor_x1y1x2y2) elif iou == 0: zero[(a,b,c)] = (iou, anchor_x1y1x2y2) pos = sorted(pos.items(), key=lambda tup: tup[1][0], reverse=True) pos = [(*tup[0], tup[1][1]) for tup in pos[:16]] # list of (a,b,c,anchor_x1y1x2y2) brother = sorted(brother.items(), key=lambda tup: tup[1][0], reverse=True) brother = [(*tup[0], tup[1][1]) for tup in brother[:16]] num = math.ceil((64-len(pos)-len(brother))/2) zero = list(zero.items()) np.random.shuffle(zero) zero = [(*tup[0], tup[1][1]) for tup in zero[:num]] neg = sorted(neg.items(), key=lambda tup: tup[1][0], reverse=True) neg = [(*tup[0], tup[1][1]) for tup in neg[:64-len(pos)-len(brother)-len(zero)]] neg += brother + zero return pos, neg
def outputConvertor(coutput, routput, anchor_shape): coutput = coutput.detach().cpu().numpy() routput = routput.detach().cpu().numpy().reshape(5, 4, 17, 17) bboxList = [] maxProb = 0 for a in range(17): for b in range(17): for c in range(5): anchor = [ cfg.grid_len // 2 + cfg.grid_len * a, cfg.grid_len // 2 + cfg.grid_len * b, anchor_shape[c][0], anchor_shape[c][1] ] anchor_x1y1x2y2 = xywh_to_x1y1x2y2(anchor) anchor_x1y1x2y2 = clip_anchor(anchor_x1y1x2y2, cfg.detection_size) anchor = x1y1x2y2_to_xywh(anchor_x1y1x2y2) delta = coutput[c, 0, a, b] - coutput[c, 1, a, b] if delta > 10: prob = 0 elif delta < -10: prob = 1 else: prob = 1 / (1 + math.exp(delta)) maxProb = max(maxProb, prob) if prob >= 0.5: # if coutput[c,1,a,b]>0.2: bbox = [0, 0, 0, 0] channel0, channel1, channel2, channel3 = routput[c, :, a, b] bbox[0] = channel0 * anchor[2] + anchor[0] bbox[1] = channel1 * anchor[3] + anchor[1] bbox[2] = math.exp(channel2) * anchor[2] bbox[3] = math.exp(channel3) * anchor[3] bbox = xywh_to_x1y1x2y2(bbox) try: bbox = np.array(bbox, dtype=np.int32) except: print(channel0, channel1, channel2, channel3) print(bbox) continue # raise OverflowError bboxList.append((bbox, prob)) bboxList.sort(key=lambda tup: tup[1], reverse=True) return list(map(lambda tup: tup[0], bboxList))[:5], maxProb