EasyNLP 发布融合语言学和事实知识的中文预训练模型 CKBERT

def ltp_process(ltp: LTP,                 data: List[Dict[str, Union[str, List[Union[int, str]]]]]):    """use ltp to process the data    Args:        Dict ([str, str]): data        example:            {'text':['我叫汤姆去拿伞。'],...}    Returns:        Dict[str, str]: result    """    new_data = list(map(lambda x:x['text'][0].replace(" ", ""), data))    seg, hiddens = ltp.seg(new_data)    result = {}    result['seg'] = seg    result['ner'] = ltp.ner(hiddens)    result['dep'] = ltp.dep(hiddens)    result['sdp'] = ltp.sdp(hiddens)    for index in range(len(data)):        data[index]['text'][0] = data[index]['text'][0].replace(" ", "")        data[index]['seg'] = result['seg'][index]        data[index]['ner'] = result['ner'][index]        data[index]['dep'] = result['dep'][index]        data[index]['sdp'] = result['sdp'][index]

def dep_sdp_mask(left_numbers: List[int],                      data_new: List[List[Union[int, str]]],                      markers_: List[List[int]],                      selected_numbers_: set,                      number_: int,                     marker_attrs: Dict[str, List[int]]) -> int:        """ mask the `mask_labels` for sdp and dep and record the maskers for each mask item        Args:            left_numbers (List[int]): the options that have not been used            data_new (List[List[Union[int, str]]]): preprocessed data for original dep and sdp            markers_ (List[List[int]]): a list that is uesd to save the maskers for each mask item            selected_numbers_ (set): a set that is used to save the selected options            number_ (int): the number of mask labels            marker_attrs Dict[str, List[int]]: marker attributes        Returns:            int: 0 mean no mask, the others mean the number of masked ids        """        np.random.shuffle(left_numbers)        for item_ in left_numbers:            target_item = data_new[item_]            seg_ids = np.array(target_item[:2]) - 1            delete_ids = np.where(seg_ids < 1)[0]            seg_ids = np.delete(seg_ids, delete_ids)            temp_ids = seg2id(seg_ids)            ids = []            for item in temp_ids:                ids += item.copy()            if check_ids(ids):                length_ = len(ids)                if number_ > length_:                    for id_ in ids:                        mask_labels[id_] = 1                    if target_item[2] in marker_attrs:                        detail_info.append([                            target_item,                            [seg_data[target_item[0] - 1],seg_data[target_item[1] - 1]],                        ])                        if len(temp_ids) == 1:                            markers_.append([temp_ids[0][0], temp_ids[0][-1]])                        elif len(temp_ids) == 2:                            for i in marker_attrs[target_item[2]]:                                markers_.append([temp_ids[i][0], temp_ids[i][-1]])                    selected_numbers_.add(item_)                    return length_                else:                    return 0        return 0

def get_positive_and_negative_examples(    self,    ner_data: str,    negative_level: int = 3) -> Union[bool, Dict[str, List[str]]]:    """get the positive examples and negative examples for the ner data    Args:        ner_data (str): the ner entity        negative_level (int, optional): the deepth of the relationship. Defaults to 3.    Returns:        Union[bool, Dict[str, List[str]]]: if the `ner_data` not in `konwledge`, return False, otherwise, return the positive and negative examples    """    knowledge: Dict[str, Dict[str, str]] = self.Knowledge_G    common_used = set()    def get_data(key: str,                 data: Dict[str, str],                 results: List[str],                 deep: int,                 insert_flag: bool = False):        """get the negative examples recursively        Args:            key (str): the ner            data (Dict[str, str]): the related data about `key`            results (List[str]): a list used to save the negative examples            deep (int): the recursive number            insert_flag (bool, optional): whether insert data to `results`. Defaults to False.        """        nonlocal knowledge        common_used.add(key)        if deep == 0:            return        else:            for key_item in data:                if data[key_item] not in common_used and insert_flag == True:                    results.append(data[key_item])                if data[key_item] in knowledge and data[key_item] not in common_used:                    get_data(data[key_item], knowledge[data[key_item]], results, deep - 1, True)        all_examples = {        'ner': ner_data,        'positive_examples': [],        'negative_examples': []    }    if ner_data in knowledge:        tp_data = knowledge[ner_data]        negative_examples = []        if '描述' in tp_data:            positive_example = tp_data['描述']        else:            keys = list(tp_data.keys())            choice = np.random.choice([_ for _ in range(len(keys))], 1)[0]            positive_example = tp_data[keys[choice]]        # # the description usually contains the ner entity, if not, concate the `ner_data` and the positive example        if ner_data in positive_example:            all_examples['positive_examples'].append(positive_example)        else:            all_examples['positive_examples'].append(ner_data + positive_example)        get_data(ner_data, tp_data, negative_examples, negative_level)        # concate the ner entity and each negative example        negative_examples = list(map(lambda x: ner_data + x if ner_data not in x else x, negative_examples))        all_examples['negative_examples'] = negative_examples        return all_examples    return False

model.backbone.resize_token_embeddings(len(train_dataset.tokenizer))model.config.vocab_size = len(train_dataset.tokenizer)

def compute_simcse(self, original_outputs: torch.Tensor,                    forward_outputs: torch.Tensor) -> float:        original_hidden_states = original_outputs['hidden_states'].unsqueeze(-2)        loss = nn.CrossEntropyLoss()        forward_outputs = torch.mean(forward_outputs, dim=-2)        cos_result = self.CosSim(original_hidden_states, forward_outputs)        cos_result_size = cos_result.size()        cos_result = cos_result.view(-1, cos_result_size[-1])        labels = torch.zeros(cos_result.size(0), device=original_outputs['hidden_states'].device).long()        loss_ = loss(cos_result, labels)        return loss_

{'text': ['我想,如果我没有去做大学生村官,恐怕我这个在昆明长大的孩子永远都不能切身感受到云南这次60年一遇的特大旱情的严重性,恐怕我只是每天看着新闻上那些缺水的镜头,嘴上说要节水,但事实行动保持不了三天。 我任职的地方在昆明市禄劝县的一个村委会,说实话这里距离禄劝县城不远,自然环境不算很差。目前,只有一个自然村保证不了饮用水。一个自然村基本能保证有饮用水到5月。这里所说的饮用水,是指从山肚子里出来的水,积在小水坝或是水塘里又通过管道输送到村子里的水,和我们城市里真正意义上消过毒的、能安全饮用的饮用水不同。在整个输送的过程中,可能已经产生了有害物质。我觉得是。 没有饮用水的那个自然村叫大海子村,50户,近200多人。地处山头,交通很不便利,走路大概要1个半小时到两个小时,而且坡度比较大,是一个苗族村寨。地理条件限制,基本没有什么经济作物,算是靠天吃饭的那种。今年遇到60年一遇的干旱,村里的两个水窖都基本干了,之前几天,他们村长来反映,几个老人已经是抬个小板凳坐到窖底用碗舀水了。 面对这么严峻的旱情,村委会的领导和各小组长都在想办法。但是上山的路路面情况差,大车重车上不去；周边水源地少。最可行的办法就是从武定那边绕路上去。但每天运水上去也不是办法,长远来看还是要修建一个小水坝。村委会的领导主动捐款,村民也自行筹资,开始自救。 最近每个周末都回家,添置防晒品,因为基本每天都上山下村去了解情况,必须掌握辖区内13个村小组水资源的情况。我每次回家见到朋友们,第一句就是,要节约用水啊~~ 朋友们,你们现在看到的只是简单理解的"缺水"。你们所不知道的是,没水小春作物面临绝收、4月份插秧没有水泡秧田、5月份种烤烟也没有水。。。那么对农民就意味着今年一年就没有了收入。我们现在能努力做好的,只是保证人的饮用水。 上周就在想能不能通过什么渠道帮村民们做点事。叔叔叫我弄个抗旱的基金,他发动周围的朋友来捐赠,希望能口口相传带动多一点朋友。我正在筹备阶段,看怎样才能做到最大的公开透明,让捐赠的人完全放心。 周一接到一个朋友的电话,说他们公司想为旱灾献点爱心,想买点水送去我们那儿。昨天见了负责人,很谦和的一个姐姐,她说大家都想做点什么,觉得捐钱没什么意义,想亲自送水到最需要的地方。 其实人家只是家私营的小公司,但我真的很感谢他们。姐姐还特别交代我,我们只需要找拖拉机下来帮忙把水运上山去,其他的什么都不用管,他们会安排好的。这个周末,将有 400件矿泉水会送到村民家里。我想,应该可以暂时缓解旱情。再次代村民感谢他们！ 下半年,旱情给农民的生产、生活带来的问题还很多。但是我个人的力量很有限,希望能够看到这些帖子的朋友们,如果有能力,有这份心意的话,请给予旱灾地区的农民更多的帮助。 我想大家都知道,昆明80%以上的用水都来自禄劝的云龙水库,云龙的同事们也在"抗旱",他们的工作任务是要保证严格的节约用水,要寻求其他水源用水,从而保证昆明的用水。所以,请每一个昆明人都节水吧,禄劝的很多地方都在缺水,我们那里不算严重的,请珍惜你们现在在用的每一滴水~ 也许,要经历过这样一次触目惊心的大旱才真正知道水的珍贵。希望我们都行动起来,不要再让这样的旱灾侵袭我们的家乡。'], 'title': '旱情记要-----昆明人,请珍惜你们现在在用的每一滴水~'}

红色食品	标签	生活

{"text": ["我想,如果我没有去做大学生村官,恐怕我这个在昆明长大的孩子永远都不能切身感受到云南这次60年一遇的特大旱情的严重性,恐怕我只是每天看着新闻上那些缺水的镜头,嘴上说要节水,但事实行动保持不了三天。我任职的地方在昆明市禄劝县的一个村委会,说实话这里距离禄劝县城不远,自然环境不算很差。目前,只有一个自然村保证不了饮用水。一个自然村基本能保证有饮用水到5月。这里所说的饮用水,是指从山肚子里出来的水,积在小水坝或是水塘里又通过管道输送到村子里的水,和我们城市里真正意义上消过毒的、能安全饮用的饮用水不同。在整个输送的过程中,可能已经产生了有害物质。我觉得是。没有饮用水的那个自然村叫大海子村,50户,近200多人。地处山头,交通很不便利,走路大概要1个半小时到两个小时,而且坡度比较大,是一个苗族村寨。地理条件限制,基本没有什么经济作物,算是靠天吃饭的那种。今年遇到60年一遇的干旱,村里的两个水窖都基本干了,之前几天,他们村长来反映,几个老人已经是抬个小板凳坐到窖底用碗舀水了。面对这么严峻的旱情,村委会的领导和各小组长都在想办法。但是上山的路路面情况差,大车重车上不去；周边水源地少。最可行的办法就是从武定那边绕路上去。但每天运水上去也不是办法,长远来看还是要修建一个小水坝。村委会的领导主动捐款,村民也自行筹资,开始自救。最近每个周末都回家,添置防晒品,因为基本每天都上山下村去了解情况,必须掌握辖区内13个村小组水资源的情况。我每次回家见到朋友们,第一句就是,要节约用水啊~~朋友们,你们现在看到的只是简单理解的\"缺水\"。你们所不知道的是,没水小春作物面临绝收、4月份插秧没有水泡秧田、5月份种烤烟也没有水。。。那么对农民就意味着今年一年就没有了收入。我们现在能努力做好的,只是保证人的饮用水。上周就在想能不能通过什么渠道帮村民们做点事。叔叔叫我弄个抗旱的基金,他发动周围的朋友来捐赠,希望能口口相传带动多一点朋友。我正在筹备阶段,看怎样才能做到最大的公开透明,让捐赠的人完全放心。周一接到一个朋友的电话,说他们公司想为旱灾献点爱心,想买点水送去我们那儿。昨天见了负责人,很谦和的一个姐姐,她说大家都想做点什么,觉得捐钱没什么意义,想亲自送水到最需要的地方。其实人家只是家私营的小公司,但我真的很感谢他们。姐姐还特别交代我,我们只需要找拖拉机下来帮忙把水运上山去,其他的什么都不用管,他们会安排好的。这个周末,将有400件矿泉水会送到村民家里。我想,应该可以暂时缓解旱情。再次代村民感谢他们！下半年,旱情给农民的生产、生活带来的问题还很多。但是我个人的力量很有限,希望能够看到这些帖子的朋友们,如果有能力,有这份心意的话,请给予旱灾地区的农民更多的帮助。我想大家都知道,昆明80%以上的用水都来自禄劝的云龙水库,云龙的同事们也在\"抗旱\",他们的工作任务是要保证严格的节约用水,要寻求其他水源用水,从而保证昆明的用水。所以,请每一个昆明人都节水吧,禄劝的很多地方都在缺水,我们那里不算严重的,请珍惜你们现在在用的每一滴水~也许,要经历过这样一次触目惊心的大旱才真正知道水的珍贵。希望我们都行动起来,不要再让这样的旱灾侵袭我们的家乡。"], 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[21, 172, "AGT"], [22, 172, "SCO"], [23, 172, "EXP"], [24, 172, "EXP"], [25, 172, "MANN"], [26, 172, "mDEPD"], [27, 172, "CONT"], [28, 172, "mPUNC"], [29, 33, "mDEPD"], [30, 33, "AGT"], [31, 33, "mDEPD"], [32, 33, "mDEPD"], [33, 172, "eSUCC"], [34, 33, "mDEPD"], [35, 39, "FEAT"], [36, 39, "SCO"], [37, 39, "rEXP"], [38, 37, "mDEPD"], [39, 33, "CONT"], [40, 33, "mPUNC"], [41, 44, "LOC"], [42, 44, "mPUNC"], [43, 44, "mRELA"], [44, 33, "eSUCC"], [45, 44, "TIME"], [46, 44, "mPUNC"], [47, 48, "AGT"], [47, 60, "PAT"], [47, 204, "AGT"], [48, 55, "rDATV"], [49, 48, "mDEPD"], [50, 48, "LOC"], [51, 50, "mRELA"], [52, 50, "FEAT"], [53, 48, "mDEPD"], [54, 55, "MEAS"], [55, 44, "EXP"], [56, 44, "mPUNC"], [57, 44, "eCOO"], [58, 59, "EXP"], [59, 44, "eSUCC"], [60, 44, "eSUCC"], [61, 60, "mPUNC"], [62, 60, "PAT"], [63, 60, "eSUCC"], [64, 63, "mDEPD"], [65, 71, "mPUNC"], [66, 71, "TIME"], [67, 66, "mPUNC"], [68, 71, "mDEPD"], [69, 70, "MEAS"], [70, 71, "AGT"], [71, 60, "eCOO"], [72, 71, "dCONT"], [73, 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[['[CLS]', '我', '想', ',', '如', '果', '我', '没', '有', '去', '做', '大', '学', '生', '村', '官', ',', '恐', '怕', '我', '这', '个', '在', '昆', '明', '长', '大', '的', '孩', '子', '永', '远', '都', '不', '能', '切', '身', '感', '受', '到', '云', '南', '这', '次', '6', '0', '年', '一', '遇', '的', '特', '大', '旱', '情', '的', '严', '重', '性', ',', '恐', '怕', '[sdp]', '我', '[sdp]', '只', '是', '每', '天', '[sdp]', '看', '[sdp]', '着', '新', '闻', '上', '那', '些', '缺', '水', '的', '镜', '头', ',', '嘴', '上', '说', '要', '节', '水', ',', '但', '事', '实', '行', '动', '保', '持', '不', '了', '三', '天', '。', '我', '任', '职', '的', '地', '方', '在', '昆', '明', '市', '禄', '劝', '县', '的', '一', '个', '村', '委', '会', ',', '说', '实', '话', '这', '里', '[SEP]'], [0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 1, 1, 1, 0, 0, 0, 0, 1, 1, 1, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0], ['昆明长大', '云南', '昆明市禄劝县']]

gpu_number=1negative_e_number=4negative_e_length=16
base_dir=$PWDcheckpoint_dir=$base_dir/checkpointsresources=$base_dir/resourceslocal_kg=$resources/ownthink_triples_small.txtlocal_train_file=$resources/train_small.txtremote_kg=https://atp-modelzoo-sh.oss-cn-shanghai.aliyuncs.com/release/tutorials/ckbert/ownthink_triples_small.txtremote_train_file=https://atp-modelzoo-sh.oss-cn-shanghai.aliyuncs.com/release/tutorials/ckbert/train_small.txt
if [ ! -d $checkpoint_dir ];thenmkdir $checkpoint_dirfi
if [ ! -d $resources ];thenmkdir $resourcesfi
if [ ! -f $local_kg ];thenwget -P $resources $remote_kgfi
if [ ! -f $local_train_file ];thenwget -P $resources $remote_train_filefi
python -m torch.distributed.launch --nproc_per_node=$gpu_number \--master_port=52349 \$base_dir/main.py \--mode=train \--worker_gpu=$gpu_number \--tables=$local_train_file, \--learning_rate=5e-5  \--epoch_num=5  \--logging_steps=10 \--save_checkpoint_steps=2150 \--sequence_length=256 \--train_batch_size=20 \--checkpoint_dir=$checkpoint_dir \--app_name=language_modeling \--use_amp \--save_all_checkpoints \--user_defined_parameters="pretrain_model_name_or_path=hfl/macbert-base-zh external_mask_flag=True contrast_learning_flag=True negative_e_number=${negative_e_number} negative_e_length=${negative_e_length} kg_path=${local_kg}"

$ easynlp \   --mode=train \   --worker_gpu=1 \   --tables=train.tsv,dev.tsv \   --input_schema=label:str:1,sid1:str:1,sid2:str:1,sent1:str:1,sent2:str:1 \   --first_sequence=sent1 \   --label_name=label \   --label_enumerate_values=0,1 \   --checkpoint_dir=./classification_model \   --epoch_num=1  \   --sequence_length=128 \   --app_name=text_classify \   --user_defined_parameters='pretrain_model_name_or_path=alibaba-pai/pai-ckbert-base-zh'

$ easynlp \  --mode=predict \  --tables=dev.tsv \  --outputs=dev.pred.tsv \  --input_schema=label:str:1,sid1:str:1,sid2:str:1,sent1:str:1,sent2:str:1 \  --output_schema=predictions,probabilities,logits,output \  --append_cols=label \  --first_sequence=sent1 \  --checkpoint_path=./classification_model \  --app_name=text_classify

from transformers import AutoTokenizer, AutoModelForMaskedLM, FillMaskPipeline
tokenizer = AutoTokenizer.from_pretrained("alibaba-pai/pai-ckbert-base-zh", use_auth_token=True)model = AutoModelForMaskedLM.from_pretrained("alibaba-pai/pai-ckbert-base-zh", use_auth_token=True)unmasker = FillMaskPipeline(model, tokenizer)   unmasker("巴黎是[MASK]国的首都。",top_k=5)
[    {'score': 0.8580496311187744,      'token': 3791,      'token_str': '法',      'sequence': '巴 黎 是 法 国 的 首 都 。'},     {'score': 0.08550138026475906,      'token': 2548,      'token_str': '德',      'sequence': '巴 黎 是 德 国 的 首 都 。'},     {'score': 0.023137662559747696,      'token': 5401,      'token_str': '美',      'sequence': '巴 黎 是 美 国 的 首 都 。'},     {'score': 0.012281022034585476,      'token': 5739, 'token_str': '英',      'sequence': '巴 黎 是 英 国 的 首 都 。'},     {'score': 0.005729076452553272,      'token': 704, 'token_str': '中',      'sequence': '巴 黎 是 中 国 的 首 都 。'}]

from transformers import AutoTokenizer, AutoModelForMaskedLM
tokenizer = AutoTokenizer.from_pretrained("alibaba-pai/pai-ckbert-base-zh", use_auth_token=True)model = AutoModelForMaskedLM.from_pretrained("alibaba-pai/pai-ckbert-base-zh", use_auth_token=True)text = "巴黎是[MASK]国的首都。"encoded_input = tokenizer(text, return_tensors='pt')output = model(**encoded_input)