GitHub提交的记录，该代码随着自然语言消息的描述而变化，对于软件开发人员来说，在理解软件演变方面起着至关重要的作用。为了促进开源软件社区的开发，我们收集了一个提交基准，包括790万次跨7种编程语言的投入。基于此基准测试，我们提出了Citsbart，这是GitHub提交的大型预训练的编码器变压器模型。该模型由三个类别（即，为了学习提交碎片表示的六个预训练任务）预先培训（即，剥夺目标，跨模式生成和对比度学习）。此外，我们将一个“委托智能”框架与一项理解任务和提交的三个世代任务统一。这些任务的综合实验表明，提案巴特大大优于以前的代码预先培训作品。进一步的分析还揭示了每个预训练任务可增强模型性能。我们鼓励后续研究人员在将来为我们的框架贡献更多与承诺相关的下游任务。

As the complexity of modern software continues to escalate, software engineering has become an increasingly daunting and error-prone endeavor. In recent years, the field of Neural Code Intelligence (NCI) has emerged as a promising solution, leveraging the power of deep learning techniques to tackle analytical tasks on source code with the goal of improving programming efficiency and minimizing human errors within the software industry. Pretrained language models have become a dominant force in NCI research, consistently delivering state-of-the-art results across a wide range of tasks, including code summarization, generation, and translation. In this paper, we present a comprehensive survey of the NCI domain, including a thorough review of pretraining techniques, tasks, datasets, and model architectures. We hope this paper will serve as a bridge between the natural language and programming language communities, offering insights for future research in this rapidly evolving field.

We present CodeBERT, a bimodal pre-trained model for programming language (PL) and natural language (NL). CodeBERT learns general-purpose representations that support downstream NL-PL applications such as natural language code search, code documentation generation, etc. We develop Code-BERT with Transformer-based neural architecture, and train it with a hybrid objective function that incorporates the pre-training task of replaced token detection, which is to detect plausible alternatives sampled from generators. This enables us to utilize both "bimodal" data of NL-PL pairs and "unimodal" data, where the former provides input tokens for model training while the latter helps to learn better generators. We evaluate CodeBERT on two NL-PL applications by fine-tuning model parameters. Results show that CodeBERT achieves state-of-the-art performance on both natural language code search and code documentation generation. Furthermore, to investigate what type of knowledge is learned in CodeBERT, we construct a dataset for NL-PL probing, and evaluate in a zero-shot setting where parameters of pre-trained models are fixed. Results show that CodeBERT performs better than previous pre-trained models on NL-PL probing. 1

源代码的预训练的生成语言模型（例如PLBART，CODET5，SPT-CODE）在过去几年中对多个任务（包括代码生成和翻译）产生了强劲的结果。这些模型采用了不同的训练前目标，以自我监督的方式从非常大规模的语料库中学习代码构建的统计数据。预训练模型的成功很大程度上取决于这些预训练的目标。本文提出了一个新的预训练目标，即“归化”源代码，利用代码的双峰，双通道（正式和自然渠道）性质。与自然语言不同，代码的双峰，双通道的性质使我们能够大规模生成语义上等效的代码。我们介绍了六类的语义保存转换，以引入非自然的代码形式，然后强迫我们的模型制作开发人员编写的更自然的原创程序。学习在没有明确的手动监督的情况下，通过大型的开源代码来生成等效但更自然的代码，有助于模型学习摄入和生成代码。我们将模型在三个生成软件工程任务中微调：代码生成，代码翻译和代码改进，具有有限的人类策划标记数据并实现最先进的性能与CODET5。我们表明，我们的预训练模型在零射门和少数学习方面特别有竞争力，并且在学习代码属性（例如语法，数据流）方面更好。

Software engineers working with the same programming language (PL) may speak different natural languages (NLs) and vice versa, erecting huge barriers to communication and working efficiency. Recent studies have demonstrated the effectiveness of generative pre-training in computer programs, yet they are always English-centric. In this work, we step towards bridging the gap between multilingual NLs and multilingual PLs for large language models (LLMs). We release ERNIE-Code, a unified pre-trained language model for 116 NLs and 6 PLs. We employ two methods for universal cross-lingual pre-training: span-corruption language modeling that learns patterns from monolingual NL or PL; and pivot-based translation language modeling that relies on parallel data of many NLs and PLs. Extensive results show that ERNIE-Code outperforms previous multilingual LLMs for PL or NL across a wide range of end tasks of code intelligence, including multilingual code-to-text, text-to-code, code-to-code, and text-to-text generation. We further show its advantage of zero-shot prompting on multilingual code summarization and text-to-text translation. We will make our code and pre-trained models publicly available.

预审前的语言模型已被证明在许多与软件有关的一代任务中都是有效的。但是，它们不适合编辑任务，因为它们不是为了推理编辑的原因。为了解决这个问题，我们提出了一个新颖的预处理目标，该目标明确地对编辑进行了建模并使用它来构建Coditt5，这是一种用于软件相关编辑任务的大型语言模型，该任务是在大量源代码和自然语言评论中鉴定的。我们将其对各种下游编辑任务进行微调，包括评论更新，错误修复和自动代码审核。通过优于基于纯生成的模型，我们证明了方法的普遍性及其对编辑任务的适用性。我们还展示了纯生成模型和我们的基于编辑的模型如何通过简单的重读策略相互补充，我们可以通过该策略实现三个下游编辑任务的最新性能。

Natural language processing for programming, which aims to use NLP techniques to assist programming, has experienced an explosion in recent years. However, there is no literature that systematically reviews related work from the full spectrum. In this paper, we comprehensively investigate existing work, ranging from early deductive models to the latest competition-level models. Another advantage of this paper is the completeness of the technique category, which provides easy access to locating and comparing future works.

Automated software debugging is a crucial task for improving the productivity of software developers. Many neural-based techniques have been proven effective for debugging-related tasks such as bug localization and program repair (or bug fixing). However, these techniques often focus only on either one of them or approach them in a stage-wise manner, ignoring the mutual benefits between them. In this work, we propose a novel unified \emph{Detect-Localize-Repair} framework based on a pretrained programming language model CodeT5 to seamlessly address these tasks, named CodeT5-DLR. Specifically, we propose three objectives to adapt the generic CodeT5 for debugging: a bug detection objective to determine whether a given code snippet is buggy or not, a bug localization objective to identify the buggy lines, and a program repair objective to translate the buggy code to its fixed version. We evaluate it on each of these tasks and their combined setting on two newly collected line-level debugging datasets in Java and Python. Extensive results show that our model significantly outperforms existing baselines from both NLP and software engineering domains.

预训练模型已在许多代码智能任务中有效。这些模型在大规模未标记的语料库中进行了预训练，然后在下游任务中进行了微调。但是，由于预训练和下游任务的输入是不同的形式，因此很难充分探索预训练模型的知识。此外，微调的性能强烈依赖于下游数据的量，而实际上，具有稀缺数据的场景很常见。自然语言处理（NLP）领域的最新研究表明，迅速调整，一种调整的新范式，减轻上述问题并在各种NLP任务中实现了有希望的结果。在迅速调整中，在调整过程中插入的提示提供了特定于任务的知识，这对于具有相对较少数据的任务特别有益。在本文中，我们凭经验评估了代码智能任务中迅速调整的用法和效果。我们对流行的预训练模型Codebert和codet5进行及时调整，并尝试三个代码智能任务，包括缺陷预测，代码摘要和代码翻译。我们的实验结果表明，在所有三个任务中，迅速调整始终优于微调。此外，及时调整在低资源场景中显示出很大的潜力，例如，对于代码摘要，平均将微调的BLEU分数提高了26％以上。我们的结果表明，我们可以调整代码智能任务的迅速调整，以实现更好的性能，尤其是在缺乏特定于任务的数据时，我们可以调整及时调整。

我们提出了Pangu-Coder，这是一种仅预读的解码器语言模型，该模型采用pangu-alpha架构进行文本到代码生成，即给定自然语言问题描述的编程语言解决方案的合成。我们使用两阶段策略训练Pangu-Coder：第一阶段采用因果语言建模（CLM）来预先培训原始编程语言数据，而第二阶段则使用因果语言建模和掩盖语言建模（MLM）的组合培训目标，专注于文本到代码生成的下游任务，并培训松散的自然语言程序定义和代码功能。最后，我们讨论了pangu-coder-ft，该pander the是通过竞争性编程问题和代码与持续集成测试的结合进行了微调的。我们评估了pangu-coder，重点是它是否生成功能上正确的程序，并证明它在参加较小的上下文窗口和较少的数据培训的同时，它比诸如Codex之类的类似大小的模型（例如Codex）实现等效性或更好的性能。

最近，人们对使用深度学习自动化软件工程任务的兴趣激增。这项工作解决了代码生成问题的问题，该问题是在其中以不同的语言或自然语言描述生成目标代码的目标代码。代码生成的大多数最先进的深度学习模型都使用主要是为自然语言设计的培训策略。但是，理解和生成代码需要对代码语法和语义的更严格理解。通过这种动机，我们开发了一个编码器变压器模型，其中训练编码器和解码器分别识别源和目标代码中的语法和数据流。我们不仅通过利用源代码的语法树和数据流程图来使编码器结构感知，而且我们还确保我们的解码器通过引入两个辅助任务来保留目标代码的语法和数据流：路径预测和数据流预测。据我们所知，这是第一项引入结构感知的变压器解码器，以通过对目标语法和数据流进行建模来增强生成代码的质量。所提出的结构编码器模型在CodexGlue基准测试中实现了代码翻译和文本对代码生成任务的最新性能。

Stack Overflow是最受欢迎的编程社区之一，开发人员可以为他们遇到的问题寻求帮助。然而，如果没有经验的开发人员无法清楚地描述他们的问题，那么他们很难吸引足够的关注并获得预期的答案。我们提出了M $ _3 $ NSCT5，这是一种自动从给定代码片段生成多个帖子标题的新颖方法。开发人员可以使用生成的标题查找密切相关的帖子并完成其问题描述。 M $ _3 $ NSCT5使用Codet5骨干，这是一种具有出色语言理解和发电能力的预训练的变压器模型。为了减轻歧义问题，即在不同背景下可以将相同的代码片段与不同的标题保持一致，我们提出了最大的边缘多元核抽样策略，以一次产生多个高质量和不同的标题候选者，以便开发人员选择。我们构建了一个大规模数据集，其中包含890,000个问题帖子，其中涵盖了八种编程语言，以验证M $ _3 $ NSCT5的有效性。 BLEU和胭脂指标的自动评估结果表明，M $ _3 $ NSCT5的优势比六个最先进的基线模型。此外，具有值得信赖结果的人类评估也证明了我们对现实世界应用方法的巨大潜力。

Pre-trained models have achieved remarkable success in natural language processing (NLP). However, existing pre-training methods underutilize the benefits of language understanding for generation. Inspired by the idea of Generative Adversarial Networks (GANs), we propose a GAN-style model for encoder-decoder pre-training by introducing an auxiliary discriminator, unifying the ability of language understanding and generation in a single model. Our model, named as GanLM, is trained with two pre-training objectives: replaced token detection and replaced token denoising. Specifically, given masked source sentences, the generator outputs the target distribution and the discriminator predicts whether the target sampled tokens from distribution are incorrect. The target sentence is replaced with misclassified tokens to construct noisy previous context, which is used to generate the gold sentence. In general, both tasks improve the ability of language understanding and generation by selectively using the denoising data. Extensive experiments in language generation benchmarks show that GanLM with the powerful language understanding capability outperforms various strong pre-trained language models (PLMs) and achieves state-of-the-art performance.

Pre-trained language models have achieved promising success in code retrieval tasks, where a natural language documentation query is given to find the most relevant existing code snippet. However, existing models focus only on optimizing the documentation code pairs by embedding them into latent space, without the association of external knowledge. In this paper, we propose a generation-augmented query expansion framework. Inspired by the human retrieval process - sketching an answer before searching, in this work, we utilize the powerful code generation model to benefit the code retrieval task. Specifically, we demonstrate that rather than merely retrieving the target code snippet according to the documentation query, it would be helpful to augment the documentation query with its generation counterpart - generated code snippets from the code generation model. To the best of our knowledge, this is the first attempt that leverages the code generation model to enhance the code retrieval task. We achieve new state-of-the-art results on the CodeSearchNet benchmark and surpass the baselines significantly.

代码搜索目标是根据自然语言查询检索相关的代码片段，以提高软件生产力和质量。但是，由于源代码和查询之间的语义间隙，自动代码搜索是具有挑战性的。大多数现有方法主要考虑嵌入的顺序信息，其中文本背后的结构信息不完全考虑。在本文中，我们设计了一个名为GraphsearchNet的新型神经网络框架，通过共同学习源代码和查询的富集语义来启用有效和准确的源代码搜索。具体地，我们建议将源代码和查询编码为两个图，其中双向GGNN以捕获图表的本地结构信息。此外，我们通过利用有效的多主题来增强BigGNN，以补充BigGNN错过的全球依赖。关于Java和Python数据集的广泛实验说明了GraphSearchNet优于当前最先进的工作原位。

在本文中，我们利用了以前的预训练模型（PTM）的优势，并提出了一种新型的中国预训练的不平衡变压器（CPT）。与以前的中国PTM不同，CPT旨在利用自然语言理解（NLU）和自然语言生成（NLG）之间的共同知识来促进表现。 CPT包括三个部分：共享编码器，一个理解解码器和一代解码器。具有共享编码器的两个特定解码器分别通过蒙版语言建模（MLM）进行了预训练，并分别将自动编码（DAE）任务进行了验证。借助部分共享的体系结构和多任务预培训，CPT可以（1）使用两个解码器学习NLU或NLG任务的特定知识，并且（2）对模型的潜力充分利用了微调。此外，不平衡的变压器节省了计算和存储成本，这使CPT竞争激烈，并极大地加速了文本生成的推断。对各种中国NLU和NLG任务的实验结果显示了CPT的有效性。

We introduce a new language representation model called BERT, which stands for Bidirectional Encoder Representations from Transformers. Unlike recent language representation models (Peters et al., 2018a;Radford et al., 2018), BERT is designed to pretrain deep bidirectional representations from unlabeled text by jointly conditioning on both left and right context in all layers. As a result, the pre-trained BERT model can be finetuned with just one additional output layer to create state-of-the-art models for a wide range of tasks, such as question answering and language inference, without substantial taskspecific architecture modifications.BERT is conceptually simple and empirically powerful. It obtains new state-of-the-art results on eleven natural language processing tasks, including pushing the GLUE score to 80.5% (7.7% point absolute improvement), MultiNLI accuracy to 86.7% (4.6% absolute improvement), SQuAD v1.1 question answering Test F1 to 93.2 (1.5 point absolute improvement) and SQuAD v2.0 Test F1 to 83.1 (5.1 point absolute improvement).

Pre-trained language models for programming languages have shown a powerful ability on processing many Software Engineering (SE) tasks, e.g., program synthesis, code completion, and code search. However, it remains to be seen what is behind their success. Recent studies have examined how pre-trained models can effectively learn syntax information based on Abstract Syntax Trees. In this paper, we figure out what role the self-attention mechanism plays in understanding code syntax and semantics based on AST and static analysis. We focus on a well-known representative code model, CodeBERT, and study how it can learn code syntax and semantics by the self-attention mechanism and Masked Language Modelling (MLM) at the token level. We propose a group of probing tasks to analyze CodeBERT. Based on AST and static analysis, we establish the relationships among the code tokens. First, Our results show that CodeBERT can acquire syntax and semantics knowledge through self-attention and MLM. Second, we demonstrate that the self-attention mechanism pays more attention to dependence-relationship tokens than to other tokens. Different attention heads play different roles in learning code semantics; we show that some of them are weak at encoding code semantics. Different layers have different competencies to represent different code properties. Deep CodeBERT layers can encode the semantic information that requires some complex inference in the code context. More importantly, we show that our analysis is helpful and leverage our conclusions to improve CodeBERT. We show an alternative approach for pre-training models, which makes fully use of the current pre-training strategy, i.e, MLM, to learn code syntax and semantics, instead of combining features from different code data formats, e.g., data-flow, running-time states, and program outputs.

在本文中，我们解决了深入学习的软件漏洞自动修复问题。数据驱动漏洞修复的主要问题是已知确认漏洞的少数现有数据集仅由几千例组成。然而，培训深度学习模型通常需要数十万例的例子。在这项工作中，我们利用了错误修复任务和漏洞修复任务的直觉相关，并且可以传输来自错误修复的知识可以传输到修复漏洞。在机器学习界中，这种技术称为转移学习。在本文中，我们提出了一种修复名为Vreepair的安全漏洞的方法，该方法是基于转移学习。 vreepair首先在大型错误修复语料库上培训，然后在漏洞修复数据集上调整，这是一个较小的数量级。在我们的实验中，我们表明，仅在错误修复语料库上培训的模型可能已经修复了一些漏洞。然后，我们证明转移学习改善了修复易受攻击的C功能的能力。我们还表明，转移学习模型比具有去噪任务训练的模型更好，并在漏洞固定任务上进行微调。总而言之，本文表明，与在小型数据集上的学习相比，转移学习适用于修复C中的安全漏洞。

We present Mu$^{2}$SLAM, a multilingual sequence-to-sequence model pre-trained jointly on unlabeled speech, unlabeled text and supervised data spanning Automatic Speech Recognition (ASR), Automatic Speech Translation (AST) and Machine Translation (MT), in over 100 languages. By leveraging a quantized representation of speech as a target, Mu$^{2}$SLAM trains the speech-text models with a sequence-to-sequence masked denoising objective similar to T5 on the decoder and a masked language modeling (MLM) objective on the encoder, for both unlabeled speech and text, while utilizing the supervised tasks to improve cross-lingual and cross-modal representation alignment within the model. On CoVoST AST, Mu$^{2}$SLAM establishes a new state-of-the-art for models trained on public datasets, improving on xx-en translation over the previous best by 1.9 BLEU points and on en-xx translation by 1.1 BLEU points. On Voxpopuli ASR, our model matches the performance of an mSLAM model fine-tuned with an RNN-T decoder, despite using a relatively weaker sequence-to-sequence architecture. On text understanding tasks, our model improves by more than 6\% over mSLAM on XNLI, getting closer to the performance of mT5 models of comparable capacity on XNLI and TydiQA, paving the way towards a single model for all speech and text understanding tasks.