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| # Copyright (c) Facebook, Inc. and its affiliates. | |
| import cv2 | |
| import numpy as np | |
| import torch | |
| import torch.nn.functional as F | |
| import os | |
| COLORS = ((np.random.rand(1300, 3) * 0.4 + 0.6) * 255).astype( | |
| np.uint8).reshape(1300, 1, 1, 3) | |
| def _get_color_image(heatmap): | |
| heatmap = heatmap.reshape( | |
| heatmap.shape[0], heatmap.shape[1], heatmap.shape[2], 1) | |
| if heatmap.shape[0] == 1: | |
| color_map = (heatmap * np.ones((1, 1, 1, 3), np.uint8) * 255).max( | |
| axis=0).astype(np.uint8) # H, W, 3 | |
| else: | |
| color_map = (heatmap * COLORS[:heatmap.shape[0]]).max(axis=0).astype(np.uint8) # H, W, 3 | |
| return color_map | |
| def _blend_image(image, color_map, a=0.7): | |
| color_map = cv2.resize(color_map, (image.shape[1], image.shape[0])) | |
| ret = np.clip(image * (1 - a) + color_map * a, 0, 255).astype(np.uint8) | |
| return ret | |
| def _blend_image_heatmaps(image, color_maps, a=0.7): | |
| merges = np.zeros((image.shape[0], image.shape[1], 3), np.float32) | |
| for color_map in color_maps: | |
| color_map = cv2.resize(color_map, (image.shape[1], image.shape[0])) | |
| merges = np.maximum(merges, color_map) | |
| ret = np.clip(image * (1 - a) + merges * a, 0, 255).astype(np.uint8) | |
| return ret | |
| def _decompose_level(x, shapes_per_level, N): | |
| ''' | |
| x: LNHiWi x C | |
| ''' | |
| x = x.view(x.shape[0], -1) | |
| ret = [] | |
| st = 0 | |
| for l in range(len(shapes_per_level)): | |
| ret.append([]) | |
| h = shapes_per_level[l][0].int().item() | |
| w = shapes_per_level[l][1].int().item() | |
| for i in range(N): | |
| ret[l].append(x[st + h * w * i:st + h * w * (i + 1)].view( | |
| h, w, -1).permute(2, 0, 1)) | |
| st += h * w * N | |
| return ret | |
| def _imagelist_to_tensor(images): | |
| images = [x for x in images] | |
| image_sizes = [x.shape[-2:] for x in images] | |
| h = max([size[0] for size in image_sizes]) | |
| w = max([size[1] for size in image_sizes]) | |
| S = 32 | |
| h, w = ((h - 1) // S + 1) * S, ((w - 1) // S + 1) * S | |
| images = [F.pad(x, (0, w - x.shape[2], 0, h - x.shape[1], 0, 0)) \ | |
| for x in images] | |
| images = torch.stack(images) | |
| return images | |
| def _ind2il(ind, shapes_per_level, N): | |
| r = ind | |
| l = 0 | |
| S = 0 | |
| while r - S >= N * shapes_per_level[l][0] * shapes_per_level[l][1]: | |
| S += N * shapes_per_level[l][0] * shapes_per_level[l][1] | |
| l += 1 | |
| i = (r - S) // (shapes_per_level[l][0] * shapes_per_level[l][1]) | |
| return i, l | |
| def debug_train( | |
| images, gt_instances, flattened_hms, reg_targets, labels, pos_inds, | |
| shapes_per_level, locations, strides): | |
| ''' | |
| images: N x 3 x H x W | |
| flattened_hms: LNHiWi x C | |
| shapes_per_level: L x 2 [(H_i, W_i)] | |
| locations: LNHiWi x 2 | |
| ''' | |
| reg_inds = torch.nonzero( | |
| reg_targets.max(dim=1)[0] > 0).squeeze(1) | |
| N = len(images) | |
| images = _imagelist_to_tensor(images) | |
| repeated_locations = [torch.cat([loc] * N, dim=0) \ | |
| for loc in locations] | |
| locations = torch.cat(repeated_locations, dim=0) | |
| gt_hms = _decompose_level(flattened_hms, shapes_per_level, N) | |
| masks = flattened_hms.new_zeros((flattened_hms.shape[0], 1)) | |
| masks[pos_inds] = 1 | |
| masks = _decompose_level(masks, shapes_per_level, N) | |
| for i in range(len(images)): | |
| image = images[i].detach().cpu().numpy().transpose(1, 2, 0) | |
| color_maps = [] | |
| for l in range(len(gt_hms)): | |
| color_map = _get_color_image( | |
| gt_hms[l][i].detach().cpu().numpy()) | |
| color_maps.append(color_map) | |
| cv2.imshow('gthm_{}'.format(l), color_map) | |
| blend = _blend_image_heatmaps(image.copy(), color_maps) | |
| if gt_instances is not None: | |
| bboxes = gt_instances[i].gt_boxes.tensor | |
| for j in range(len(bboxes)): | |
| bbox = bboxes[j] | |
| cv2.rectangle( | |
| blend, | |
| (int(bbox[0]), int(bbox[1])), | |
| (int(bbox[2]), int(bbox[3])), | |
| (0, 0, 255), 3, cv2.LINE_AA) | |
| for j in range(len(pos_inds)): | |
| image_id, l = _ind2il(pos_inds[j], shapes_per_level, N) | |
| if image_id != i: | |
| continue | |
| loc = locations[pos_inds[j]] | |
| cv2.drawMarker( | |
| blend, (int(loc[0]), int(loc[1])), (0, 255, 255), | |
| markerSize=(l + 1) * 16) | |
| for j in range(len(reg_inds)): | |
| image_id, l = _ind2il(reg_inds[j], shapes_per_level, N) | |
| if image_id != i: | |
| continue | |
| ltrb = reg_targets[reg_inds[j]] | |
| ltrb *= strides[l] | |
| loc = locations[reg_inds[j]] | |
| bbox = [(loc[0] - ltrb[0]), (loc[1] - ltrb[1]), | |
| (loc[0] + ltrb[2]), (loc[1] + ltrb[3])] | |
| cv2.rectangle( | |
| blend, | |
| (int(bbox[0]), int(bbox[1])), | |
| (int(bbox[2]), int(bbox[3])), | |
| (255, 0, 0), 1, cv2.LINE_AA) | |
| cv2.circle(blend, (int(loc[0]), int(loc[1])), 2, (255, 0, 0), -1) | |
| cv2.imshow('blend', blend) | |
| cv2.waitKey() | |
| def debug_test( | |
| images, logits_pred, reg_pred, agn_hm_pred=[], preds=[], | |
| vis_thresh=0.3, debug_show_name=False, mult_agn=False): | |
| ''' | |
| images: N x 3 x H x W | |
| class_target: LNHiWi x C | |
| cat_agn_heatmap: LNHiWi | |
| shapes_per_level: L x 2 [(H_i, W_i)] | |
| ''' | |
| N = len(images) | |
| for i in range(len(images)): | |
| image = images[i].detach().cpu().numpy().transpose(1, 2, 0) | |
| result = image.copy().astype(np.uint8) | |
| pred_image = image.copy().astype(np.uint8) | |
| color_maps = [] | |
| L = len(logits_pred) | |
| for l in range(L): | |
| if logits_pred[0] is not None: | |
| stride = min(image.shape[0], image.shape[1]) / min( | |
| logits_pred[l][i].shape[1], logits_pred[l][i].shape[2]) | |
| else: | |
| stride = min(image.shape[0], image.shape[1]) / min( | |
| agn_hm_pred[l][i].shape[1], agn_hm_pred[l][i].shape[2]) | |
| stride = stride if stride < 60 else 64 if stride < 100 else 128 | |
| if logits_pred[0] is not None: | |
| if mult_agn: | |
| logits_pred[l][i] = logits_pred[l][i] * agn_hm_pred[l][i] | |
| color_map = _get_color_image( | |
| logits_pred[l][i].detach().cpu().numpy()) | |
| color_maps.append(color_map) | |
| cv2.imshow('predhm_{}'.format(l), color_map) | |
| if debug_show_name: | |
| from detectron2.data.datasets.lvis_v1_categories import LVIS_CATEGORIES | |
| cat2name = [x['name'] for x in LVIS_CATEGORIES] | |
| for j in range(len(preds[i].scores) if preds is not None else 0): | |
| if preds[i].scores[j] > vis_thresh: | |
| bbox = preds[i].proposal_boxes[j] \ | |
| if preds[i].has('proposal_boxes') else \ | |
| preds[i].pred_boxes[j] | |
| bbox = bbox.tensor[0].detach().cpu().numpy().astype(np.int32) | |
| cat = int(preds[i].pred_classes[j]) \ | |
| if preds[i].has('pred_classes') else 0 | |
| cl = COLORS[cat, 0, 0] | |
| cv2.rectangle( | |
| pred_image, (int(bbox[0]), int(bbox[1])), | |
| (int(bbox[2]), int(bbox[3])), | |
| (int(cl[0]), int(cl[1]), int(cl[2])), 2, cv2.LINE_AA) | |
| if debug_show_name: | |
| txt = '{}{:.1f}'.format( | |
| cat2name[cat] if cat > 0 else '', | |
| preds[i].scores[j]) | |
| font = cv2.FONT_HERSHEY_SIMPLEX | |
| cat_size = cv2.getTextSize(txt, font, 0.5, 2)[0] | |
| cv2.rectangle( | |
| pred_image, | |
| (int(bbox[0]), int(bbox[1] - cat_size[1] - 2)), | |
| (int(bbox[0] + cat_size[0]), int(bbox[1] - 2)), | |
| (int(cl[0]), int(cl[1]), int(cl[2])), -1) | |
| cv2.putText( | |
| pred_image, txt, (int(bbox[0]), int(bbox[1] - 2)), | |
| font, 0.5, (0, 0, 0), thickness=1, lineType=cv2.LINE_AA) | |
| if agn_hm_pred[l] is not None: | |
| agn_hm_ = agn_hm_pred[l][i, 0, :, :, None].detach().cpu().numpy() | |
| agn_hm_ = (agn_hm_ * np.array([255, 255, 255]).reshape( | |
| 1, 1, 3)).astype(np.uint8) | |
| cv2.imshow('agn_hm_{}'.format(l), agn_hm_) | |
| blend = _blend_image_heatmaps(image.copy(), color_maps) | |
| cv2.imshow('blend', blend) | |
| cv2.imshow('preds', pred_image) | |
| cv2.waitKey() | |
| global cnt | |
| cnt = 0 | |
| def debug_second_stage(images, instances, proposals=None, vis_thresh=0.3, | |
| save_debug=False, debug_show_name=False, image_labels=[], | |
| save_debug_path='output/save_debug/', | |
| bgr=False): | |
| images = _imagelist_to_tensor(images) | |
| if 'COCO' in save_debug_path: | |
| from detectron2.data.datasets.builtin_meta import COCO_CATEGORIES | |
| cat2name = [x['name'] for x in COCO_CATEGORIES] | |
| else: | |
| from detectron2.data.datasets.lvis_v1_categories import LVIS_CATEGORIES | |
| cat2name = ['({}){}'.format(x['frequency'], x['name']) \ | |
| for x in LVIS_CATEGORIES] | |
| for i in range(len(images)): | |
| image = images[i].detach().cpu().numpy().transpose(1, 2, 0).astype(np.uint8).copy() | |
| if bgr: | |
| image = image[:, :, ::-1].copy() | |
| if instances[i].has('gt_boxes'): | |
| bboxes = instances[i].gt_boxes.tensor.cpu().numpy() | |
| scores = np.ones(bboxes.shape[0]) | |
| cats = instances[i].gt_classes.cpu().numpy() | |
| else: | |
| bboxes = instances[i].pred_boxes.tensor.cpu().numpy() | |
| scores = instances[i].scores.cpu().numpy() | |
| cats = instances[i].pred_classes.cpu().numpy() | |
| for j in range(len(bboxes)): | |
| if scores[j] > vis_thresh: | |
| bbox = bboxes[j] | |
| cl = COLORS[cats[j], 0, 0] | |
| cl = (int(cl[0]), int(cl[1]), int(cl[2])) | |
| cv2.rectangle( | |
| image, | |
| (int(bbox[0]), int(bbox[1])), | |
| (int(bbox[2]), int(bbox[3])), | |
| cl, 2, cv2.LINE_AA) | |
| if debug_show_name: | |
| cat = cats[j] | |
| txt = '{}{:.1f}'.format( | |
| cat2name[cat] if cat > 0 else '', | |
| scores[j]) | |
| font = cv2.FONT_HERSHEY_SIMPLEX | |
| cat_size = cv2.getTextSize(txt, font, 0.5, 2)[0] | |
| cv2.rectangle( | |
| image, | |
| (int(bbox[0]), int(bbox[1] - cat_size[1] - 2)), | |
| (int(bbox[0] + cat_size[0]), int(bbox[1] - 2)), | |
| (int(cl[0]), int(cl[1]), int(cl[2])), -1) | |
| cv2.putText( | |
| image, txt, (int(bbox[0]), int(bbox[1] - 2)), | |
| font, 0.5, (0, 0, 0), thickness=1, lineType=cv2.LINE_AA) | |
| if proposals is not None: | |
| proposal_image = images[i].detach().cpu().numpy().transpose(1, 2, 0).astype(np.uint8).copy() | |
| if bgr: | |
| proposal_image = proposal_image.copy() | |
| else: | |
| proposal_image = proposal_image[:, :, ::-1].copy() | |
| bboxes = proposals[i].proposal_boxes.tensor.cpu().numpy() | |
| if proposals[i].has('scores'): | |
| scores = proposals[i].scores.detach().cpu().numpy() | |
| else: | |
| scores = proposals[i].objectness_logits.detach().cpu().numpy() | |
| # selected = -1 | |
| # if proposals[i].has('image_loss'): | |
| # selected = proposals[i].image_loss.argmin() | |
| if proposals[i].has('selected'): | |
| selected = proposals[i].selected | |
| else: | |
| selected = [-1 for _ in range(len(bboxes))] | |
| for j in range(len(bboxes)): | |
| if scores[j] > vis_thresh or selected[j] >= 0: | |
| bbox = bboxes[j] | |
| cl = (209, 159, 83) | |
| th = 2 | |
| if selected[j] >= 0: | |
| cl = (0, 0, 0xa4) | |
| th = 4 | |
| cv2.rectangle( | |
| proposal_image, | |
| (int(bbox[0]), int(bbox[1])), | |
| (int(bbox[2]), int(bbox[3])), | |
| cl, th, cv2.LINE_AA) | |
| if selected[j] >= 0 and debug_show_name: | |
| cat = selected[j].item() | |
| txt = '{}'.format(cat2name[cat]) | |
| font = cv2.FONT_HERSHEY_SIMPLEX | |
| cat_size = cv2.getTextSize(txt, font, 0.5, 2)[0] | |
| cv2.rectangle( | |
| proposal_image, | |
| (int(bbox[0]), int(bbox[1] - cat_size[1] - 2)), | |
| (int(bbox[0] + cat_size[0]), int(bbox[1] - 2)), | |
| (int(cl[0]), int(cl[1]), int(cl[2])), -1) | |
| cv2.putText( | |
| proposal_image, txt, | |
| (int(bbox[0]), int(bbox[1] - 2)), | |
| font, 0.5, (0, 0, 0), thickness=1, | |
| lineType=cv2.LINE_AA) | |
| if save_debug: | |
| global cnt | |
| cnt = (cnt + 1) % 5000 | |
| if not os.path.exists(save_debug_path): | |
| os.mkdir(save_debug_path) | |
| save_name = '{}/{:05d}.jpg'.format(save_debug_path, cnt) | |
| if i < len(image_labels): | |
| image_label = image_labels[i] | |
| save_name = '{}/{:05d}'.format(save_debug_path, cnt) | |
| for x in image_label: | |
| class_name = cat2name[x] | |
| save_name = save_name + '|{}'.format(class_name) | |
| save_name = save_name + '.jpg' | |
| cv2.imwrite(save_name, proposal_image) | |
| else: | |
| cv2.imshow('image', image) | |
| if proposals is not None: | |
| cv2.imshow('proposals', proposal_image) | |
| cv2.waitKey() |