Easy-2-use long text NLP toolkit.

Project description

Deep Long Text Learning Kit

Author: 吴子豪

开箱即用的长文本语义建模框架

安装

使用 pip
```
pip install -U deeplotx
```
使用 uv (推荐)
```
uv add -U deeplotx
```

从 github 安装最新特性

pip install -U git+https://github.com/vortezwohl/DeepLoTX.git

核心功能

长文本嵌入

基于通用 BERT 的长文本嵌入 (最大支持长度, 无限长, 可通过 max_length 限制长度)

from deeplotx import LongTextEncoder

# 块大小为 448 个 tokens, 块间重叠部分为 32 个 tokens.
encoder = LongTextEncoder(
    chunk_size=448,
    overlapping=32
)
# 对 "我是吴子豪, 这是一个测试文本." 计算嵌入, 并堆叠.
encoder.encode('我是吴子豪, 这是一个测试文本.', flatten=False)

输出:

tensor([ 2.2316e-01,  2.0300e-01,  ...,  1.5578e-01, -6.6735e-02])

基于 Longformer 的长文本嵌入 (最大支持长度 4096 个 tokens)

from deeplotx import LongformerEncoder

encoder = LongformerEncoder()
encoder.encode('我是吴子豪, 这是一个测试文本.')

输出:

tensor([-2.7490e-02,  6.6503e-02, ..., -6.5937e-02,  6.7802e-03])

相似性计算

基于向量的相似性

import deeplotx.similarity as sim

vector_0, vector_1 = [1, 2, 3, 4], [4, 3, 2, 1]
# 欧几里得距离
distance_0 = sim.euclidean_similarity(vector_0, vector_1)
print(distance_0)
# 余弦距离
distance_1 = sim.cosine_similarity(vector_0, vector_1)
print(distance_1)
# 切比雪夫距离
distance_2 = sim.chebyshev_similarity(vector_0, vector_1)
print(distance_2)

输出:

4.47213595499958
0.33333333333333337
3

基于集合的相似性

import deeplotx.similarity as sim

set_0, set_1 = {1, 2, 3, 4}, {4, 5, 6, 7}
# 杰卡德距离
distance_0 = sim.jaccard_similarity(set_0, set_1)
print(distance_0)
# Ochiai 距离
distance_1 = sim.ochiai_similarity(set_0, set_1)
print(distance_1)
# Dice 系数
distance_2 = sim.dice_coefficient(set_0, set_1)
print(distance_2)
# Overlap 系数
distance_3 = sim.overlap_coefficient(set_0, set_1)
print(distance_3)

输出:

0.1428571428572653
0.2500000000001875
0.25000000000009376
0.2500000000001875

基于概率分布的相似性

import deeplotx.similarity as sim

dist_0, dist_1 = [0.3, 0.2, 0.1, 0.4], [0.2, 0.1, 0.3, 0.4]
# 交叉熵
distance_0 = sim.cross_entropy(dist_0, dist_1)
print(distance_0)
# KL 散度
distance_1 = sim.kl_divergence(dist_0, dist_1)
print(distance_1)
# JS 散度
distance_2 = sim.js_divergence(dist_0, dist_1)
print(distance_2)
# Hellinger 距离
distance_3 = sim.hellinger_distance(dist_0, dist_1)
print(distance_3)

输出:

0.3575654913778237
0.15040773967762736
0.03969123741566945
0.20105866986400994

预定义深度神经网络

from deeplotx import (
    FeedForward,  # 前馈神经网络
    MultiHeadFeedForward,  # 多头前馈神经网络
    LinearRegression,  # 线性回归
    LogisticRegression,  # 逻辑回归 / 二分类 / 多标签分类
    SoftmaxRegression,  # Softmax 回归 / 多分类
    RecursiveSequential,  # 序列模型 / 循环神经网络
    LongContextRecursiveSequential,  # 长上下文序列模型 / 自注意力融合循环神经网络
    RoPE,  # RoPE 位置编码
    Attention,  # 自注意力 / 交叉注意力
    MultiHeadAttention,  # 并行多头注意力
    RoFormerEncoder,  # Roformer (Transformer + RoPE) 编码器模型
    AutoRegression,  # 自回归模型 / 循环神经网络
    LongContextAutoRegression  # 长上下文自回归模型 / 自注意力融合循环神经网络
)

基础网络结构:

from typing_extensions import override

import torch
from torch import nn

from deeplotx.nn.base_neural_network import BaseNeuralNetwork


class FeedForwardUnit(BaseNeuralNetwork):
    def __init__(self, feature_dim: int, expansion_factor: int | float = 2,
                bias: bool = True, dropout_rate: float = 0.05, model_name: str | None = None,
                device: str | None = None, dtype: torch.dtype | None = None):
        super().__init__(in_features=feature_dim, out_features=feature_dim, model_name=model_name, device=device, dtype=dtype)
        self._dropout_rate = dropout_rate
        self.up_proj = nn.Linear(in_features=feature_dim, out_features=int(feature_dim * expansion_factor),
                                bias=bias, device=self.device, dtype=self.dtype)
        self.down_proj = nn.Linear(in_features=int(feature_dim * expansion_factor), out_features=feature_dim,
                                bias=bias, device=self.device, dtype=self.dtype)
        self.parametric_relu = nn.PReLU(num_parameters=1, init=5e-3,
                                        device=self.device, dtype=self.dtype)
        self.layer_norm = nn.LayerNorm(normalized_shape=self.up_proj.in_features, eps=1e-9,
                                    device=self.device, dtype=self.dtype)

    @override
    def forward(self, x: torch.Tensor) -> torch.Tensor:
        x = self.ensure_device_and_dtype(x, device=self.device, dtype=self.dtype)
        residual = x
        x = self.layer_norm(x)
        x = self.up_proj(x)
        x = self.parametric_relu(x)
        if self._dropout_rate > .0:
            x = torch.dropout(x, p=self._dropout_rate, train=self.training)
        return self.down_proj(x) + residual


class FeedForward(BaseNeuralNetwork):
    def __init__(self, feature_dim: int, num_layers: int = 1, expansion_factor: int | float = 2,
                bias: bool = True, dropout_rate: float = 0.05, model_name: str | None = None,
                device: str | None = None, dtype: torch.dtype | None = None):
        if num_layers < 1:
            raise ValueError('num_layers cannot be less than 1.')
        super().__init__(in_features=feature_dim, out_features=feature_dim, model_name=model_name, device=device, dtype=dtype)
        self.ffn_layers = nn.ModuleList([FeedForwardUnit(feature_dim=feature_dim,
                                                        expansion_factor=expansion_factor, bias=bias,
                                                        dropout_rate=dropout_rate,
                                                        device=self.device, dtype=self.dtype) for _ in range(num_layers)])

    @override
    def forward(self, x: torch.Tensor) -> torch.Tensor:
        x = self.ensure_device_and_dtype(x, device=self.device, dtype=self.dtype)
        for ffn in self.ffn_layers:
            x = ffn(x)
        return x

注意力模块:

from typing_extensions import override

import torch

from deeplotx.nn.base_neural_network import BaseNeuralNetwork
from deeplotx.nn.feed_forward import FeedForward
from deeplotx.nn.rope import RoPE, DEFAULT_THETA


class Attention(BaseNeuralNetwork):
    def __init__(self, feature_dim: int, bias: bool = True, positional: bool = True,
                proj_layers: int = 1, proj_expansion_factor: int | float = 1.5, dropout_rate: float = 0.02,
                model_name: str | None = None, device: str | None = None, dtype: torch.dtype | None = None,
                **kwargs):
        super().__init__(in_features=feature_dim, out_features=feature_dim, model_name=model_name,
                        device=device, dtype=dtype)
        self._positional = positional
        self._feature_dim = feature_dim
        self.q_proj = FeedForward(feature_dim=self._feature_dim, num_layers=proj_layers,
                                expansion_factor=proj_expansion_factor,
                                bias=bias, dropout_rate=dropout_rate, device=self.device, dtype=self.dtype)
        self.k_proj = FeedForward(feature_dim=self._feature_dim, num_layers=proj_layers,
                                expansion_factor=proj_expansion_factor,
                                bias=bias, dropout_rate=dropout_rate, device=self.device, dtype=self.dtype)
        self.v_proj = FeedForward(feature_dim=self._feature_dim, num_layers=proj_layers,
                                expansion_factor=proj_expansion_factor,
                                bias=bias, dropout_rate=dropout_rate, device=self.device, dtype=self.dtype)
        if self._positional:
            self.rope = RoPE(feature_dim=self._feature_dim, theta=kwargs.get('theta', DEFAULT_THETA),
                            device=self.device, dtype=self.dtype)

    def _attention(self, x: torch.Tensor, y: torch.Tensor, mask: torch.Tensor | None = None) -> torch.Tensor:
        q, k = self.q_proj(x), self.k_proj(y)
        if self._positional:
            q, k = self.rope(q), self.rope(k)
        attn = torch.matmul(q, k.transpose(-2, -1))
        attn = attn / (self._feature_dim ** 0.5)
        attn = attn.masked_fill(mask == 0, -1e9) if mask is not None else attn
        return torch.softmax(attn, dtype=self.dtype, dim=-1)

    @override
    def forward(self, x: torch.Tensor, y: torch.Tensor | None = None, mask: torch.Tensor | None = None) -> torch.Tensor:
        x = self.ensure_device_and_dtype(x, device=self.device, dtype=self.dtype)
        y = x if y is None else self.ensure_device_and_dtype(y, device=self.device, dtype=self.dtype)
        if mask is not None:
            mask = self.ensure_device_and_dtype(mask, device=self.device, dtype=self.dtype)
        v = self.v_proj(y)
        return torch.matmul(self._attention(x, y, mask), v)

使用预定义训练器实现文本二分类任务

from deeplotx import TextBinaryClassifierTrainer, LongTextEncoder
from deeplotx.util import get_files, read_file

# 定义向量编码策略 (默认使用 FacebookAI/xlm-roberta-base 作为嵌入模型)
long_text_encoder = LongTextEncoder(
    max_length=2048,  # 最大文本大小, 超出截断
    chunk_size=448,  # 块大小 (按 Token 计)
    overlapping=32,  # 块间重叠大小 (按 Token 计)
    cache_capacity=512  # 缓存大小
)

trainer = TextBinaryClassifierTrainer(
    long_text_encoder=long_text_encoder,
    batch_size=2,
    train_ratio=0.9  # 训练集和验证集比例
)

# 读取数据
pos_data_path = 'path/to/pos_dir'
neg_data_path = 'path/to/neg_dir'
pos_data = [read_file(x) for x in get_files(pos_data_path)]
neg_data = [read_file(x) for x in get_files(neg_data_path)]

# 开始训练
model = trainer.train(pos_data, neg_data, 
                    num_epochs=36, learning_rate=2e-5, 
                    balancing_dataset=True, alpha=1e-4, 
                    rho=.2, encoder_layers=2,  # 2 层 Roformer 编码器
                    attn_heads=8,  # 8 个注意力头
                    recursive_layers=2)  # 2 层 Bi-LSTM

# 保存模型权重
model.save(model_name='test_model', model_dir='model')

# 加载已保存的模型
model = model.load(model_name='test_model', model_dir='model')

# 使用训练好的模型进行预测
model.predict(long_text_encoder.encode('这是一个测试文本.', flatten=False))

Project details

Release history Release notifications | RSS feed

0.9.15

Oct 10, 2025

0.9.13

Oct 10, 2025

0.9.12

Aug 29, 2025

0.9.11

Aug 28, 2025

0.9.10

Aug 12, 2025

0.9.9

Aug 6, 2025

0.9.8

Aug 6, 2025

0.9.8a0 pre-release

Aug 6, 2025

0.9.7

Aug 6, 2025

0.9.7b0 pre-release

Aug 6, 2025

0.9.6

Aug 5, 2025

0.9.5

Aug 5, 2025

0.9.4

Aug 4, 2025

0.9.3

Aug 4, 2025

0.9.2

Aug 4, 2025

0.9.0

Aug 4, 2025

0.8.8

Aug 1, 2025

This version

0.8.7

Jul 31, 2025

0.8.6

Jul 30, 2025

0.8.5

Jul 30, 2025

0.8.3

Jul 30, 2025

0.8.2

Jul 29, 2025

0.8.1

Jul 29, 2025

0.8.0

Jul 29, 2025

0.6.1

Jul 25, 2025

0.5.6

Jul 24, 2025

0.5.5

Jul 24, 2025

0.5.3

Jul 23, 2025

0.5.1

Jul 23, 2025

0.4.15

Jun 12, 2025

0.4.14

Jun 11, 2025

0.4.13

Jun 11, 2025

0.4.12b7 pre-release

Jun 11, 2025

0.4.12b6 pre-release

Jun 11, 2025

0.4.12b5 pre-release

Jun 11, 2025

0.4.12b4 pre-release

Jun 11, 2025

0.4.12b3 pre-release

Jun 11, 2025

0.4.12b2 pre-release

Jun 11, 2025

0.4.12b1 pre-release

Jun 11, 2025

0.4.12b0 pre-release

Jun 11, 2025

0.4.11

Jun 11, 2025

0.4.10

Jun 11, 2025

0.4.9

Jun 11, 2025

0.4.8

May 12, 2025

0.4.7

May 12, 2025

0.4.6

May 12, 2025

0.4.5

May 11, 2025

0.4.3

May 11, 2025

0.4.2

May 11, 2025

0.4.1

May 11, 2025

0.3.2

May 10, 2025

0.3.1

May 10, 2025

0.2.21

May 10, 2025

0.2.20

May 8, 2025

0.2.19

May 8, 2025

0.2.18

May 8, 2025

0.2.17

May 8, 2025

0.0.0

May 8, 2025

Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

deeplotx-0.8.7.tar.gz (31.7 kB view details)

Uploaded Jul 31, 2025 Source

Built Distribution

If you're not sure about the file name format, learn more about wheel file names.

The dropdown lists show the available interpreters, ABIs, and platforms. Enable javascript to be able to filter the list of wheel files.

deeplotx-0.8.7-py3-none-any.whl (39.6 kB view details)

Uploaded Jul 31, 2025 Python 3

File details

Details for the file deeplotx-0.8.7.tar.gz.

File metadata

Download URL: deeplotx-0.8.7.tar.gz
Upload date: Jul 31, 2025
Size: 31.7 kB
Tags: Source
Uploaded using Trusted Publishing? No
Uploaded via: uv/0.6.14

File hashes

Hashes for deeplotx-0.8.7.tar.gz
Algorithm	Hash digest
SHA256	`bdb6be9e11c16707923a2abaf79ad885962c26f7fa498d066b5091494f3d6ce2`
MD5	`b30931e57dfcfb72899fa70f34df402d`
BLAKE2b-256	`2cfef43cf679950b95f8b3ce3c4efeb6f2808d00debdc99850ed1bcf084e074f`

See more details on using hashes here.

File details

Details for the file deeplotx-0.8.7-py3-none-any.whl.

File metadata

Download URL: deeplotx-0.8.7-py3-none-any.whl
Upload date: Jul 31, 2025
Size: 39.6 kB
Tags: Python 3
Uploaded using Trusted Publishing? No
Uploaded via: uv/0.6.14

File hashes

Hashes for deeplotx-0.8.7-py3-none-any.whl
Algorithm	Hash digest
SHA256	`775ae66b45329999f40bfb6bd73e7fd46e424d03a7dd0ba6297d38e9effe713e`
MD5	`a0b384a348416c7354896e94d3df1397`
BLAKE2b-256	`9dea6cf814966c48e06fa0663c9881293a9c9d439878af93382d53dcd3efb23c`

See more details on using hashes here.

deeplotx 0.8.7

Navigation

Verified details

Maintainers

Unverified details

Meta

Project description

Deep Long Text Learning Kit

安装

核心功能

长文本嵌入

相似性计算

预定义深度神经网络

使用预定义训练器实现文本二分类任务

Project details

Verified details

Maintainers

Unverified details

Meta

Release history Release notifications | RSS feed

Download files

Source Distribution

Built Distribution

File details

File metadata

File hashes

File details

File metadata

File hashes