app.py

import gradio as gr
from imports import *
from parse_info import *
#os.system("apt-get install poppler-utils")
login(token="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")


device = torch.device("cuda" if torch.cuda.is_available() else "cpu")
dict_ = {
    0: "negative",
    1: "positive",
    2: "neutral"}
tokenizer_sent = AutoTokenizer.from_pretrained("nam194/sentiment", use_fast=False)
model_sent = AutoModelForSequenceClassification.from_pretrained("nam194/sentiment", num_labels=3, use_auth_token=True).to(device)
def cvt2cls(data):
    data = list(set(data))
    try: 
        data.remove(20)
    except:
        pass
    for i, num in enumerate(data):
        if num == 20:
            continue
        if num>=10:
            data[i] -= 10
    return data
ner_tags = {0: 'B-chỗ để xe', 1: 'B-con người', 2: 'B-công việc', 3: 'B-cơ sở vật chất', 4: 'B-dự án', 5: 'B-lương', 6: 'B-môi trường làm việc', 7: 'B-ot/thời gian', 8: 'B-văn phòng', 9: 'B-đãi ngộ', 10: 'I-chỗ để xe', 11: 'I-con người', 12: 'I-công việc', 13: 'I-cơ sở vật chất', 14: 'I-dự án', 15: 'I-lương', 16: 'I-môi trường làm việc', 17: 'I-ot/thời gian', 18: 'I-văn phòng', 19: 'I-đãi ngộ', 20: 'O'}
topic_tags = {0: 'chỗ để xe', 1: 'con người', 2: 'công việc', 3: 'cơ sở vật chất', 4: 'dự án', 5: 'lương', 6: 'môi trường làm việc', 7: 'ot/thời gian', 8: 'văn phòng', 9: 'đãi ngộ'}
config = RobertaConfig.from_pretrained("nam194/ner", num_labels=21)
tokenizer_topic = AutoTokenizer.from_pretrained("nam194/ner", use_fast=False) 
model_topic = PhoBertLstmCrf.from_pretrained("nam194/ner", config=config, from_tf=False).to(device)
model_topic.resize_token_embeddings(len(tokenizer_topic)) 


def sentiment(sent: str):
    print("\n--------------------------------------------------------------------------------------------------------------------------\n")
    print("New review inference at: ", datetime.utcnow())
    print("\n--------------------------------------------------------------------------------------------------------------------------\n")
    sent_ = normalize(text=sent) 
    input_sent = torch.tensor([tokenizer_sent.encode(sent_)]).to(device)
    with torch.no_grad():
        out_sent = model_sent(input_sent)
        logits_sent = out_sent.logits.softmax(dim=-1).tolist()[0]
        pred_sent = dict_[np.argmax(logits_sent)]

    sent = replace_all(text=sent) 
    sent_segment = sent.split(".")
    for i, s in enumerate(sent_segment):
        s = s.strip()
        sent_segment[i] = underthesea.word_tokenize(s, format="text").split()
    dump = [[i, 'O'] for s in sent_segment for i in s]
    dump_set = NerDataset(feature_for_phobert([dump], tokenizer=tokenizer_topic, use_crf=True))    
    dump_iter = DataLoader(dump_set, batch_size=1)
    with torch.no_grad():
        for idx, batch in enumerate(dump_iter):
            batch = { k:v.to(device) for k, v in batch.items() }        
            outputs = model_topic(**batch)
    pred_topic = list(set([topic_tags[i] for i in cvt2cls(outputs["tags"][0])]))
    return "Sentiment: " + pred_sent + "\n" + "Topic in sentence: " + ". ".join([i.capitalize() for i in pred_topic]) # str({"sentiment": pred_sent, "topic": pred_topic})
    

processor = transformers.AutoProcessor.from_pretrained("nam194/resume_parsing_layoutlmv3_large_custom_label", use_auth_token=True, apply_ocr=False) 
model = transformers.LayoutLMv3ForTokenClassification.from_pretrained("nam194/resume_parsing_layoutlmv3_large_custom_label").to(device)
label_list = ['person_name', 'dob_key', 'dob_value', 'gender_key', 'gender_value', 'phonenumber_key', 'phonenumber_value', 'email_key', 'email_value',
              'address_key', 'address_value', 'socical_address_value', 'education', 'education_name', 'education_time', 'experience', 'experience_name',
              'experience_time', 'information', 'undefined', 'designation_key', 'designation_value', 'degree_key', 'degree_value', 'skill_key', 'skill_value']
id2label = {0: 'person_name', 1: 'dob_key', 2: 'dob_value', 3: 'gender_key', 4: 'gender_value', 5: 'phonenumber_key', 6: 'phonenumber_value',
            7: 'email_key', 8: 'email_value', 9: 'address_key', 10: 'address_value', 11: 'socical_address_value', 12: 'education', 13: 'education_name',
            14: 'education_time', 15: 'experience', 16: 'experience_name', 17: 'experience_time', 18: 'information', 19: 'undefined', 20: 'designation_key',
            21: 'designation_value', 22: 'degree_key', 23: 'degree_value', 24: 'skill_key', 25: 'skill_value'}
key_list = ["person_name","dob_value","gender_value","phonenumber_value","email_value","address_value",
                "socical_address_value","education_name","education_time","experience_name","experience_time",
                "designation_value","degree_value","skill_value"]
label2id = {v: k for k, v in id2label.items()}
def pred_resume(pdf_path) -> dict:
    print("\n--------------------------------------------------------------------------------------------------------------------------\n")
    print("New resume inference at: ", datetime.utcnow())
    print("\n--------------------------------------------------------------------------------------------------------------------------\n")
    global key_list, device
    result = {}
    for i in key_list:
        result[i] = []
    DPI = 200/77
    global label_list, id2label, label2id

    # read pdf, convert to img
    doc = fitz.open(pdf_path.name)
    num_pages = len(doc)
    images = pdf2image.convert_from_path(pdf_path.name)
    block_dict = {} 

    # get all data in pdf
    page_num = 1
    for page in doc: 
        file_dict = page.get_text('dict') 
        block = file_dict['blocks'] 
        block_dict[page_num] = block 
        page_num += 1

    # predict each page in pdf
    for page_num, blocks in block_dict.items():
        bboxes, words = [], [] # store bounding boxes, text in a page
        image = images[page_num-1]
        for block in blocks:
            if block['type'] == 0:
                for line in block['lines']:
                    for span in line['spans']:
                        xmin, ymin, xmax, ymax = [int(i)*DPI for i in list(span['bbox'])]
                        text = span['text'].strip()
                        if text.replace(" ","") !=  "":
                            bboxes.append(normalize_bbox([xmin, ymin, xmax, ymax], image.size))
                            words.append(decontracted(text))
        text_reverse = {str(bboxes[i]): words[i] for i,_ in enumerate(words)}
        fake_label = ["O"] * len(words)
        encoding = processor(image, words, boxes=bboxes, word_labels=fake_label, truncation=True, stride=256,
                      padding="max_length", max_length=512, return_overflowing_tokens=True, return_offsets_mapping=True)
        labels = encoding["labels"]
        key_box = encoding["bbox"]
        offset_mapping = encoding.pop('offset_mapping')
        overflow_to_sample_mapping = encoding.pop('overflow_to_sample_mapping')
        encoding = {k: torch.tensor(v) for k,v in encoding.items() if k != "labels"}
        x = []
        for i in range(0, len(encoding['pixel_values'])):
            x.append(encoding['pixel_values'][i])
        x = torch.stack(x)
        encoding['pixel_values'] = x

        # forawrd to model
        with torch.no_grad():
            outputs = model(**{k: v.to(device) for k,v in encoding.items() if k != "labels"})
        
        # process output
        predictions = outputs["logits"].argmax(-1).squeeze().tolist()
        if outputs["logits"].shape[0] > 1:
            for i, label in enumerate(labels):
                if i>0:
                    labels[i] = labels[i][256:]
                    predictions[i] = predictions[i][256:]
                    key_box[i] = key_box[i][256:]
            predictions = [j for i in predictions for j in i]
        key_box = [j for i in key_box for j in i]
        labels = [j for i in labels for j in i]
        true_predictions = [id2label[pred] for pred, label in zip(predictions, labels) if label != -100]
        key_box = [box for box, label in zip(key_box, labels) if label != -100]
        for box, pred in zip(key_box, true_predictions):
            if pred in key_list:
                result[pred].append(text_reverse[str(box)])
    result = {k: list(set(v)) for k, v in result.items()}
    return str(result)
def norm(result: str) -> str:
    result = ast.literal_eval(result)
    result["person_name"] = " ".join([parse_string(i).capitalize() for i in " ".join(result["person_name"]).split()])
    result["email_value"] = parse_email(result["email_value"])
    result["phonenumber_value"] = "".join([i for i in "".join(result["phonenumber_value"]) if i.isdigit()])
    result["address_value"] = parse_address(result["address_value"])
    result["designation_value"] = parse_designation(result["designation_value"])
    result["experience_time"] = parse_time(result["experience_time"])
    result["gender_value"] = parse_gender(result["gender_value"])
    result["skill_value"] = parse_skill(result["skill_value"])
    result["education_name"] = parse_designation(result["education_name"])
    result["experience_name"] = parse_designation(result["experience_name"])
    for k, v in result.items():
        if isinstance(v, list):
            result[k] = ". ".join([i for i in result[k]])
        if isinstance(v, int) or isinstance(v, float):
            result[k] = str(result[k])
    return "Tên: "+result["person_name"]+"\n"+"Ngày sinh: "+result["dob_value"]+"\n"+"Giới tính: "+result["gender_value"]+"\n"+"Chức danh: "+result["designation_value"]+"\n"+"Số điện thoại: "+result["phonenumber_value"]+"\n"+"Email: "+result["email_value"]+"\n"+"Địa chỉ: "+result["address_value"]+"\n"+"Tên công ty/công việc: "+result["experience_name"]+"\n"+"Tên trường học: "+result["education_name"]+"\n"+"Kỹ năng: "+result["skill_value"]+"\n"+"Năm kinh nghiệm: "+result["experience_time"]


with gr.Blocks() as demo:
    gr.Markdown("DEMO PROJECTS: REVIEW ANALYSIS AND EXTRACT INFOMATION FROM RESUME")
    with gr.Tab("Review analysis"):
        text_input = gr.Textbox(label="Input sentence (ex: Sếp tốt, bảo hiểm đóng full lương bảo hiểm cho nhân viên. Hàng năm tăng lương ổn OT không trả thêm tiền, chỉ cho ngày nghỉ và hỗ trợ ăn tối.):", placeholder="input here...")
        text_output = gr.Textbox(label="Result:")
        text_button = gr.Button("Predict")
    with gr.Tab("Extract infomation from resume"):
        with gr.Column():
            file_input = gr.File(label="Upload pdf", file_types=[".pdf"])
        with gr.Column():
            cv_output = gr.Textbox(label="Information fields")
            resume_button = gr.Button("Extract")
        with gr.Column():
            normalize_output = gr.Textbox(label="Normalize by rule-based:")
            normalize_button = gr.Button("Normailze")

    # with gr.Accordion("Open for More!"):
    #     gr.Markdown("Look at me...")

    text_button.click(sentiment, inputs=text_input, outputs=text_output)
    resume_button.click(pred_resume, inputs=file_input, outputs=cv_output)
    normalize_button.click(norm, inputs=cv_output, outputs=normalize_output)

demo.launch()