As software projects rapidly evolve, software artifacts become more complex and defects behind get harder to identify. The emerging Transformer-based approaches, though achieving remarkable performance, struggle with long code sequences due to their self-attention mechanism, which scales quadratically with the sequence length. This paper introduces SparseCoder, an innovative approach incorporating sparse attention and learned token pruning (LTP) method (adapted from natural language processing) to address this limitation. Extensive experiments carried out on a large-scale dataset for vulnerability detection demonstrate the effectiveness and efficiency of SparseCoder, scaling from quadratically to linearly on long code sequence analysis in comparison to CodeBERT and RoBERTa. We further achieve 50% FLOPs reduction with a negligible performance drop of less than 1% comparing to Transformer leveraging sparse attention. Moverover, SparseCoder goes beyond making "black-box" decisions by elucidating the rationale behind those decisions. Code segments that contribute to the final decision can be highlighted with importance scores, offering an interpretable, transparent analysis tool for the software engineering landscape.

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