低内存,固定延迟的哈夫曼编码器的无限长度的代码

R. Freking, K. Parhi
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引用次数: 5

摘要

霍夫曼压缩算法参考了二叉树抽象,可以直接用作解码的数据结构。不幸的是,到目前为止,同样方便的安排并没有服务于编码任务。在本文中,树结构以增强形式恢复,允许编码从根到叶自然进展。因为这个解决方案是基于树的,所以码字不受长度限制。然而,与其他无界编码器形成鲜明对比的是,内存开销是由字母表的大小固定的。此外,与非基于树的解决方案相比,这种存储费用较低。也不像以前的树结构,不需要编码后反转,导致恒定延迟的操作,无论码字长度。此外,每一步只需要简单的加法运算符。尽管有这些优点,但实现并不复杂,码本格式化也很简单。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Low-memory, fixed-latency Huffman encoder for unbounded-length codes
The Huffman compression algorithm makes reference to a binary tree abstraction that can be employed directly as a data structure for decoding. Unfortunately, the same convenient arrangement has heretofore not served the encoding task. In this paper, the tree structure is revived in an enhanced form that allows encoding to progress naturally from root to leaf. Because this solution is tree based, codewords are not subject to length limitation. Yet, in marked contrast with other unbounded encoders, memory outlay is fixed by the size of the alphabet. Moreover this storage expense is low in comparison with non-tree-based solutions. Also unlike previous tree structures, no post-encoding reversal is demanded resulting in constant-latency operation regardless of codeword length. Furthermore, only simple addition operators are required at each step. Despite its advantages, implementation is uncomplicated and codebook formatting is trivial.
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