def exp_train(): exp_name = 'EXP_NAME' out_base_dir = os.path.join(os.getcwd(), 'symlinks/exp/EXP_GROUP') exp_const = ExpConstants(exp_name, out_base_dir) exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.vis_dir = os.path.join(exp_const.exp_dir, 'vis') exp_const.log_step = 10 exp_const.model_save_step = 1000 exp_const.val_step = 1000 exp_const.num_val_samples = 1000 exp_const.batch_size = 32 exp_const.num_epochs = 1000 exp_const.lr = 0.01 exp_const.momentum = 0.9 exp_const.num_workers = 5 exp_const.optimizer = 'SGD' exp_const.subset = {'training': 'train', 'validation': 'val'} data_const = DATASET_CONSTANTS() model_const = Constants() model_const.model_num = None model_const.net = NET_CONSTANTS() model_const.net_path = os.path.join(exp_const.model_dir, f'net_{model_const.model_num}') train.main(exp_const, data_const, model_const)
def exp_ae_visual_features(): exp_name = 'ae_visual_features' out_base_dir = os.path.join( os.getcwd(), 'symlinks/exp/google_images/' + \ 'normalized_resnet_features_recon_loss_trained_on_google') exp_const = ExpConstants(exp_name, out_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.batch_size = 10000 exp_const.lr = 1e-2 exp_const.num_epochs = 1000 feature_dir = os.path.join( os.getcwd(), 'symlinks/exp/google_images/' + \ 'normalized_resnet_features_recon_loss_trained_on_google') data_const = VisualFeaturesDatasetConstants(feature_dir) model_const = Constants() model_const.encoder = EncoderConstants() model_const.encoder.output_dims = 300 model_const.decoder = DecoderConstants() model_const.decoder.input_dims = 300 train_ae_visual.main(exp_const, data_const, model_const)
def exp_combine_glove_and_visual_features_with_ae(): exp_name = 'ae_glove_and_visual' out_base_dir = os.path.join( os.getcwd(), 'symlinks/exp/google_images/' + \ 'normalized_resnet_embeddings_recon_loss_trained_on_google') exp_const = ExpConstants(exp_name, out_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.batch_size = 10000 exp_const.lr = 1e-2 exp_const.num_epochs = 1000 concat_embeddings_dir = os.path.join( os.getcwd(), 'symlinks/exp/google_images/' + \ 'normalized_resnet_embeddings_recon_loss_trained_on_google/' + \ 'concat_glove_and_visual') data_const = ConcatEmbedDatasetConstants(concat_embeddings_dir) data_const.embeddings_h5py = os.path.join(data_const.concat_dir, 'subset_visual_word_vecs.h5py') data_const.word_to_idx_json = os.path.join( data_const.concat_dir, 'subset_visual_word_vecs_idx.json') model_const = Constants() model_const.encoder = EncoderConstants() model_const.decoder = DecoderConstants() train_ae.main(exp_const, data_const, model_const)
def main(**kwargs): exp_base_dir = coco_paths['exp_dir'] if kwargs['dataset'] == 'flickr': exp_base_dir = flickr_paths['exp_dir'] exp_const = ExpConstants(kwargs['exp_name'], exp_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'logs') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.vis_dir = os.path.join(exp_const.exp_dir, 'vis') exp_const.dataset = kwargs['dataset'] exp_const.optimizer = 'Adam' exp_const.lr = kwargs['lr'] exp_const.momentum = None exp_const.num_epochs = 10 exp_const.log_step = 20 # Save models approx. twice every epoch exp_const.model_save_step = 400000 // (2 * kwargs['train_batch_size'] ) # 4000=400000/(2*50) if exp_const.dataset == 'flickr': exp_const.model_save_step = 150000 // (2 * kwargs['train_batch_size']) val_freq_factor = 2 if kwargs['val_frequently'] is True: val_freq_factor = 1 exp_const.val_step = val_freq_factor * exp_const.model_save_step # set to 1*model_save_step for plotting mi vs perf exp_const.num_val_samples = None exp_const.train_batch_size = kwargs['train_batch_size'] exp_const.val_batch_size = 20 exp_const.num_workers = 10 exp_const.seed = 0 exp_const.neg_noun_loss_wt = kwargs['neg_noun_loss_wt'] exp_const.self_sup_loss_wt = kwargs['self_sup_loss_wt'] exp_const.lang_sup_loss_wt = kwargs['lang_sup_loss_wt'] exp_const.contextualize = not kwargs['no_context'] exp_const.random_lang = kwargs['random_lang'] DatasetConstants = CocoDatasetConstants if exp_const.dataset == 'flickr': DatasetConstants = FlickrDatasetConstants data_const = { 'train': DatasetConstants('train'), 'val': DatasetConstants('val'), } model_const = Constants() model_const.model_num = kwargs['model_num'] model_const.object_encoder = ObjectEncoderConstants() model_const.object_encoder.context_layer.output_attentions = True model_const.object_encoder.object_feature_dim = 2048 model_const.cap_encoder = CapEncoderConstants() model_const.cap_encoder.output_attentions = True model_const.cap_info_nce_layers = kwargs['cap_info_nce_layers'] model_const.object_encoder_path = os.path.join( exp_const.model_dir, f'object_encoder_{model_const.model_num}') model_const.self_sup_criterion_path = os.path.join( exp_const.model_dir, f'self_sup_criterion_{model_const.model_num}') model_const.lang_sup_criterion_path = os.path.join( exp_const.model_dir, f'lang_sup_criterion_{model_const.model_num}') train(exp_const, data_const, model_const)
def _exp_train(out_base_dir, data_const_train, data_const_val, data_sign='hico'): args = parser.parse_args() not_specified_args = manage_required_args( args, parser, required_args=['imgs_per_batch', 'fp_to_tp_ratio'], optional_args=[ 'verb_given_appearance', 'verb_given_human_appearance', 'verb_given_object_appearance', 'verb_given_boxes_and_object_label', 'verb_given_human_pose', 'rcnn_det_prob' ]) exp_name = 'factors' if args.rcnn_det_prob: exp_name += '_rcnn_det_prob' if args.verb_given_appearance: exp_name += '_appearance' if args.verb_given_human_appearance: exp_name += '_human_appearance' if args.verb_given_object_appearance: exp_name += '_object_appearance' if args.verb_given_boxes_and_object_label: exp_name += '_boxes_and_object_label' if args.verb_given_human_pose: pose = '_human_pose' exp_name += pose exp_const = ExpConstants(exp_name=exp_name, out_base_dir=out_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.num_epochs = 10 exp_const.imgs_per_batch = args.imgs_per_batch exp_const.lr = 1e-3 model_const = Constants() model_const.hoi_classifier = HoiClassifierConstants(data_sign) model_const.hoi_classifier.verb_given_appearance = args.verb_given_appearance model_const.hoi_classifier.verb_given_human_appearance = args.verb_given_human_appearance model_const.hoi_classifier.verb_given_object_appearance = args.verb_given_object_appearance model_const.hoi_classifier.verb_given_boxes_and_object_label = args.verb_given_boxes_and_object_label model_const.hoi_classifier.verb_given_human_pose = args.verb_given_human_pose model_const.hoi_classifier.rcnn_det_prob = args.rcnn_det_prob train.main(exp_const, data_const_train, data_const_val, model_const, data_sign)
def main(**kwargs): exp_base_dir = coco_paths['exp_dir'] if kwargs['train_dataset'] == 'flickr': exp_base_dir = flickr_paths['exp_dir'] exp_const = ExpConstants(kwargs['exp_name'], exp_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'logs') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.train_dataset = kwargs['train_dataset'] exp_const.vis_dataset = kwargs['vis_dataset'] exp_const.vis_dir = os.path.join(exp_const.exp_dir, f'vis/attention_{exp_const.vis_dataset}') exp_const.num_vis_samples = 50 exp_const.seed = 0 exp_const.contextualize = not kwargs['no_context'] DatasetConstants = CocoDatasetConstants if exp_const.vis_dataset == 'flickr': DatasetConstants = FlickrDatasetConstants data_const = DatasetConstants('val') if exp_const.vis_dataset == 'coco': data_const.image_dir = os.path.join(coco_paths['image_dir'], data_const.subset_image_dirname) data_const.read_neg_samples = False data_const.read_noun_adj_tokens = False model_const = Constants() model_const.model_num = kwargs['model_num'] model_const.object_encoder = ObjectEncoderConstants() model_const.object_encoder.object_feature_dim = 2048 model_const.cap_encoder = CapEncoderConstants() if model_const.model_num == -100: model_const.object_encoder_path = os.path.join(exp_const.model_dir, f'best_object_encoder') model_const.lang_sup_criterion_path = os.path.join( exp_const.model_dir, f'best_lang_sup_criterion') else: model_const.object_encoder_path = os.path.join( exp_const.model_dir, f'object_encoder_{model_const.model_num}') model_const.lang_sup_criterion_path = os.path.join( exp_const.model_dir, f'lang_sup_criterion_{model_const.model_num}') if exp_const.vis_dataset == 'coco': vis_att(exp_const, data_const, model_const) else: vis_att_flickr(exp_const, data_const, model_const)
def exp_eval(): exp_name = 'EXP_NAME' out_base_dir = os.path.join(os.getcwd(), 'symlinks/exp/EXP_GROUP') exp_const = ExpConstants(exp_name, out_base_dir) exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.vis_dir = os.path.join(exp_const.exp_dir, 'vis') exp_const.batch_size = 32 exp_const.num_workers = 5 data_const = DATASET_CONSTANTS() data_const.subset = 'eval' model_const = Constants() model_const.model_num = None model_const.net = NET_CONSTANTS() model_const.net_path = os.path.join(exp_const.model_dir, f'net_{model_const.model_num}') evaluation.main(exp_const, data_const, model_const)
def main(**kwargs): exp_const = ExpConstants(kwargs['exp_name'], kwargs['exp_base_dir']) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'logs') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.vis_dir = os.path.join(exp_const.exp_dir, 'vis') exp_const.optimizer = 'Adam' exp_const.lr = 1e-3 exp_const.momentum = None exp_const.num_epochs = 100 exp_const.log_step = 100 exp_const.model_save_step = 1000 exp_const.val_step = 1000 exp_const.num_val_samples = None data_const = {'train': Constants(), 'val': Constants()} model_const = Constants() model_const.model_num = kwargs['model_num'] model_const.net = Constants() model_const.net_path = os.path.join(exp_const.model_dir, f'net_{model_const.model_num}')
def exp_train(): args = parser.parse_args() not_specified_args = manage_required_args( args, parser, required_args=['fappend', 'imgs_per_batch', 'fp_to_tp_ratio'], optional_args=[ 'verb_given_appearance', 'verb_given_human_appearance', 'verb_given_object_appearance', 'verb_given_boxes_and_object_label', 'rcnn_det_prob' ]) exp_name = 'factors' exp_name += '_' + args.fappend out_base_dir = os.path.join(os.getcwd(), 'data_symlinks/hico_exp/hoi_classifier') exp_const = ExpConstants(exp_name=exp_name, out_base_dir=out_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.num_epochs = 10 exp_const.imgs_per_batch = args.imgs_per_batch exp_const.lr = 1e-3 data_const_train = FeatureConstants(subset='train') data_const_val = FeatureConstants(subset='val') model_const = Constants() model_const.hoi_classifier = HoiClassifierConstants() model_const.hoi_classifier.verb_given_appearance = args.verb_given_appearance model_const.hoi_classifier.verb_given_human_appearance = args.verb_given_human_appearance model_const.hoi_classifier.verb_given_object_appearance = args.verb_given_object_appearance model_const.hoi_classifier.verb_given_boxes_and_object_label = args.verb_given_boxes_and_object_label model_const.hoi_classifier.verb_given_human_pose = args.verb_given_human_pose model_const.hoi_classifier.rcnn_det_prob = args.rcnn_det_prob train.main(exp_const, data_const_train, data_const_val, model_const)
def exp_train(): args = parser.parse_args() # create experiments directory and required folders out_base_dir = os.path.join(os.getcwd(), f'exp/{args.dataset_type}') exp_const = ExpConstants(args.run_name, out_base_dir) exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.vis_dir = os.path.join(exp_const.exp_dir, 'vis') use_cuda = torch.cuda.is_available() exp_const.device = "cuda:0" if use_cuda else "cpu" # tranining params exp_const.optimizer = args.optimizer exp_const.num_epochs = args.num_epochs exp_const.batch_size = args.batch_size exp_const.lr = args.lr exp_const.momentum = args.momentum exp_const.num_workers = args.num_workers # logging, saving exp_const.log_step = args.log_step exp_const.model_save_epoch = args.model_save_epoch exp_const.val_epoch = args.val_epoch exp_const.subset = {'training': 'train', 'test': 'test'} # dataset data_const = DatasetConstants(root=args.dataroot, download=args.download_dataset, train=True) data_const.dataset_type = args.dataset_type # model (resnet and attribute embeddings) model_const = Constants() model_const.model_num = None model_const.sim_loss = args.sim_loss model_const.ce_loss_warmup = args.ce_loss_warmup model_const.net = ResnetConstants() if args.dataset_type == 'Cifar100': model_const.net.num_layers = "cifar100" # a custom resnet for cifar100, to adjust the dimensions of the feature maps model_const.net.num_classes = 100 else: model_const.net.num_layers = args.num_layers if args.dataset_type == "Imagenet": model_const.net.num_classes = 1000 elif args.dataset_type == "VOC": model_const.net.num_classes = 20 elif args.dataset_type == "STL10": model_const.net.num_layers = 'cifar100' # TODO: deeper resnets does not work on STL10. model_const.net.num_classes = 10 model_const.net.pretrained = False model_const.net_path = os.path.join(exp_const.model_dir, f'net_{model_const.model_num}') model_const.attr_embed = AttributeEmbeddingsConstants() model_const.attr_embed_path = os.path.join( exp_const.model_dir, f'attr_embed_{model_const.model_num}') model_const.attr_embed.glove_dim = 300 model_const.attr_embed.num_classes = model_const.net.num_classes # attribute embedding dimensions if args.embed_type == 'vico_linear': model_const.attr_embed.no_glove = True # Zero out the glove component model_const.attr_embed.embed_dims = 300 + args.vico_dim embed_dir = os.path.join( os.getcwd(), 'data/pretrained-embeddings/' + \ f'glove_300_vico_linear_100/') model_const.attr_embed.embed_h5py = os.path.join( embed_dir, 'visual_word_vecs.h5py') model_const.attr_embed.embed_word_to_idx_json = os.path.join( embed_dir, 'visual_word_vecs_idx.json') elif args.embed_type == 'vico_select': model_const.attr_embed.no_glove = True # Zero out the glove component model_const.attr_embed.hypernym = args.hypernym model_const.attr_embed.embed_dims = 300 + args.vico_dim embed_dir = os.path.join( os.getcwd(), 'data/pretrained-embeddings/' + \ f'glove_300_vico_select_200/') model_const.attr_embed.embed_h5py = os.path.join( embed_dir, 'visual_word_vecs.h5py') model_const.attr_embed.embed_word_to_idx_json = os.path.join( embed_dir, 'visual_word_vecs_idx.json') else: err_str = f'{args.embed_type} is currently not implemented in the runner' assert (False), err_str # pass all constants to training method train.main(exp_const, data_const, model_const)
def exp_train(): args = parser.parse_args() not_specified_args = manage_required_args(args, parser, required_args=[ 'held_classes', 'embed_type', 'glove_dim', 'vico_dim', 'run' ], optional_args=[]) exp_name = \ args.embed_type + '_' + \ str(args.glove_dim) + '_' + \ str(args.vico_dim) + '_' + \ 'held_classes_' + str(args.held_classes) out_base_dir = os.path.join(os.getcwd(), f'symlinks/exp/cifar100/zero_shot_{args.run}') exp_const = ExpConstants(exp_name, out_base_dir) exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.vis_dir = os.path.join(exp_const.exp_dir, 'vis') exp_const.log_step = 200 exp_const.model_save_step = 1000 exp_const.val_step = 1000 exp_const.batch_size = 128 exp_const.num_epochs = 50 #100 exp_const.lr = 0.01 exp_const.momentum = 0.9 exp_const.num_workers = 5 exp_const.optimizer = 'Adam' exp_const.feedforward = False exp_const.subset = {'training': 'train', 'test': 'test'} data_const = Cifar100DatasetConstants() data_const.num_held_out_classes = args.held_classes model_const = Constants() model_const.model_num = None model_const.net = ResnetConstants() model_const.net.num_layers = 32 model_const.net.num_classes = 100 model_const.net.pretrained = False model_const.net_path = os.path.join(exp_const.model_dir, f'net_{model_const.model_num}') model_const.embed2class = Embed2ClassConstants() model_const.embed2class.linear = True model_const.embed2class_path = os.path.join( exp_const.model_dir, f'embed2class_{model_const.model_num}') model_const.embed2class.glove_dim = args.glove_dim # Dimensions if args.embed_type == 'glove': model_const.embed2class.embed_dims = args.glove_dim model_const.embed2class.embed_h5py = os.path.join( os.getcwd(), f'symlinks/data/glove/proc/glove_6B_{args.glove_dim}d.h5py') model_const.embed2class.embed_word_to_idx_json = os.path.join( os.getcwd(), f'symlinks/data/glove/proc/glove_6B_{args.glove_dim}d_word_to_idx.json' ) elif args.embed_type == 'glove_vico_linear': model_const.embed2class.embed_dims = args.glove_dim + args.vico_dim embed_dir = os.path.join( os.getcwd(), 'symlinks/exp/multi_sense_cooccur/' + \ f'linear_100/concat_with_glove_{args.glove_dim}') model_const.embed2class.embed_h5py = os.path.join( embed_dir, 'visual_word_vecs.h5py') model_const.embed2class.embed_word_to_idx_json = os.path.join( embed_dir, 'visual_word_vecs_idx.json') elif args.embed_type == 'vico_linear': model_const.embed2class.no_glove = True # Zero out the glove component model_const.embed2class.embed_dims = args.glove_dim + args.vico_dim embed_dir = os.path.join( os.getcwd(), 'symlinks/exp/multi_sense_cooccur/' + \ f'linear_100/concat_with_glove_{args.glove_dim}') model_const.embed2class.embed_h5py = os.path.join( embed_dir, 'visual_word_vecs.h5py') model_const.embed2class.embed_word_to_idx_json = os.path.join( embed_dir, 'visual_word_vecs_idx.json') elif args.embed_type == 'glove_vico_select': model_const.embed2class.embed_dims = args.glove_dim + args.vico_dim embed_dir = os.path.join( os.getcwd(), 'symlinks/exp/multi_sense_cooccur/' + \ f'select_200/concat_with_glove_{args.glove_dim}') model_const.embed2class.embed_h5py = os.path.join( embed_dir, 'visual_word_vecs.h5py') model_const.embed2class.embed_word_to_idx_json = os.path.join( embed_dir, 'visual_word_vecs_idx.json') else: err_str = f'{args.embed_type} is currently not implemented in the runner' assert (False), err_str train.main(exp_const, data_const, model_const)
def exp_train(): args = parser.parse_args() not_specified_args = manage_required_args( args, parser, required_args=[ 'embed_dim', 'xform', 'model_num', 'syn']) exp_name = f'{args.xform}_{args.embed_dim}' out_base_dir = os.path.join( os.getcwd(), 'symlinks/exp/multi_sense_cooccur') exp_const = ExpConstants(exp_name,out_base_dir) exp_const.model_dir = os.path.join(exp_const.exp_dir,'models') exp_const.log_dir = os.path.join(exp_const.exp_dir,'log') exp_const.vis_dir = os.path.join(exp_const.exp_dir,'vis') exp_const.log_step = 100 exp_const.model_save_step = 10000 exp_const.batch_size = 1000 exp_const.num_epochs = 10 exp_const.lr = 0.01 exp_const.momentum = 0.9 # used only when optimizer is set to 'SGD' exp_const.num_workers = 5 # First train with Adam then finetune with Adagrad if args.model_num==-1: exp_const.optimizer = 'Adam' else: exp_const.optimizer = 'Adagrad' exp_const.weight_decay = 0 exp_const.cooccur_weights = { 'syn': 1, 'attr_attr': 1, 'obj_attr': 1, 'obj_hyp': 1, 'context': 1, } if args.syn==False: del exp_const.cooccur_weights['syn'] exp_const.use_neg = True data_const = MultiSenseCooccurDatasetConstants() data_const.cooccur_csv = os.path.join( os.getcwd(), 'symlinks/exp/multi_sense_cooccur/cooccurrences/merged_cooccur.csv') data_const.use_self_count = True model_const = Constants() if args.model_num==-1: model_const.model_num = None else: model_const.model_num = args.model_num model_const.net = LogBilinearConstants() model_const.net.num_words = 93553 model_const.net.embed_dims = args.embed_dim model_const.net.two_embedding_layers = False model_const.net.xform_type = args.xform model_const.net.xform_num_layers = None model_const.net.use_bias = True model_const.net.use_fx = False model_const.net.cooccur_types = [ 'syn', 'attr_attr', 'obj_attr', 'obj_hyp', 'context' ] if args.syn==False: model_const.net.cooccur_types = model_const.net.cooccur_types[1:] model_const.net_path = os.path.join( exp_const.model_dir, f'net_{model_const.model_num}') train.main(exp_const,data_const,model_const)
def exp_train_concat_svm(): args = parser.parse_args() not_specified_args = manage_required_args(args, parser, required_args=[ 'lr', 'l2_weight', 'batch_size', 'glove_dim', 'embed_linear_feat', 'embed_quadratic_feat', 'distance_linear_feat', 'distance_quadratic_feat', 'visual_only', ], optional_args=[ 'exp_name', 'out_base_dir', 'embeddings_h5py', 'word_to_idx_json' ]) if args.exp_name is None: exp_name = 'trial' else: exp_name = args.exp_name if args.out_base_dir is None: out_base_dir = os.path.join(os.getcwd(), 'symlinks/exp/semeval_2018_10/concat_svm') else: out_base_dir = args.out_base_dir exp_const = ExpConstants(exp_name=exp_name, out_base_dir=out_base_dir) exp_const.log_dir = os.path.join(exp_const.exp_dir, 'log') exp_const.model_dir = os.path.join(exp_const.exp_dir, 'models') exp_const.num_epochs = 20 exp_const.batch_size = args.batch_size exp_const.lr = args.lr data_const = SemEval201810DatasetConstants() if args.embeddings_h5py is None: glove_const = GloveConstantsFactory.create() data_const.embeddings_h5py = glove_const.embeddings_h5py data_const.word_to_idx_json = glove_const.word_to_idx_json else: data_const.embeddings_h5py = args.embeddings_h5py data_const.word_to_idx_json = args.word_to_idx_json embed_dim = h5py.File(data_const.embeddings_h5py, 'r')['embeddings'].shape[1] model_const = Constants() model_const.concat_svm = ConcatSVMConstants() model_const.concat_svm.l2_weight = args.l2_weight model_const.concat_svm.embedding_dim = embed_dim model_const.concat_svm.glove_dim = args.glove_dim model_const.concat_svm.layer_units = [] model_const.concat_svm.use_embedding_linear_feats = args.embed_linear_feat model_const.concat_svm.use_embedding_quadratic_feats = \ args.embed_quadratic_feat model_const.concat_svm.use_distance_linear_feats = args.distance_linear_feat model_const.concat_svm.use_distance_quadratic_feats = \ args.distance_quadratic_feat model_const.concat_svm.visual_only = args.visual_only train_concat_svm.main(exp_const, data_const, model_const)