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@ -4,7 +4,7 @@ Xcdat is a C++ library that implements static compressed string dictionaries bas
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The double array is known as the fastest trie representation and has been used in many trie libraries. On the other hand, it has a space efficiency problem because of a pointer-based data structure. Xcdat solves the problem using the XOR-compressed double-array methods described in the following article.
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The double array is known as the fastest trie representation and has been used in many trie libraries. On the other hand, it has a space efficiency problem because of a pointer-based data structure. Xcdat solves the problem using the XOR-compressed double-array methods described in the following article.
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> Shunsuke Kanda, Kazuhiro Morita, and Masao Fuketa. Compressed double-array tries for string dictionaries supporting fast lookup. Knowledge and Information Systems, 51(3): 1023–1042, 2017.
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> Shunsuke Kanda, Kazuhiro Morita, and Masao Fuketa. Compressed double-array tries for string dictionaries supporting fast lookup. Knowledge and Information Systems, 51(3): 1023–1042, 2017. [[doi](https://doi.org/10.1007/s10115-016-0999-8)] [[pdf](https://sites.google.com/site/shnskknd/KAIS2016.pdf)]
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Xcdat can implement trie dictionaries in smaller space compared to the other double-array libraries. In addition, the lookup speed is relatively fast in compressed data structures from the double-array advantage.
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Xcdat can implement trie dictionaries in smaller space compared to the other double-array libraries. In addition, the lookup speed is relatively fast in compressed data structures from the double-array advantage.
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@ -8,7 +8,7 @@ Xcdat is a C++ library that implements static compressed string dictionaries bas
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The double array (Aoe, 1989) is known as the fastest trie representation and has been used in many trie libraries. On the other hand, it has a space efficiency problem because of a pointer-based data structure. Xcdat solves the problem using the XOR-compressed double-array methods described in the following article.
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The double array (Aoe, 1989) is known as the fastest trie representation and has been used in many trie libraries. On the other hand, it has a space efficiency problem because of a pointer-based data structure. Xcdat solves the problem using the XOR-compressed double-array methods described in the following article.
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> Shunsuke Kanda, Kazuhiro Morita, and Masao Fuketa. Compressed double-array tries for string dictionaries supporting fast lookup. Knowledge and Information Systems, 51(3): 1023–1042, 2017.
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> Shunsuke Kanda, Kazuhiro Morita, and Masao Fuketa. Compressed double-array tries for string dictionaries supporting fast lookup. Knowledge and Information Systems, 51(3): 1023–1042, 2017. [[doi](https://doi.org/10.1007/s10115-016-0999-8)] [[pdf](https://sites.google.com/site/shnskknd/KAIS2016.pdf)]
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Xcdat can implement trie dictionaries in smaller space compared to the other double-array libraries. In addition, the lookup speed is relatively fast in compressed data structures from the double-array advantage.
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Xcdat can implement trie dictionaries in smaller space compared to the other double-array libraries. In addition, the lookup speed is relatively fast in compressed data structures from the double-array advantage.
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@ -96,7 +96,7 @@ code span.in { color: #60a0b0; font-weight: bold; font-style: italic; } /* Infor
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<p>Xcdat is a C++ library that implements static compressed string dictionaries based on an improved double-array trie.</p>
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<p>Xcdat is a C++ library that implements static compressed string dictionaries based on an improved double-array trie.</p>
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<p>The double array (Aoe, 1989) is known as the fastest trie representation and has been used in many trie libraries. On the other hand, it has a space efficiency problem because of a pointer-based data structure. Xcdat solves the problem using the XOR-compressed double-array methods described in the following article.</p>
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<p>The double array (Aoe, 1989) is known as the fastest trie representation and has been used in many trie libraries. On the other hand, it has a space efficiency problem because of a pointer-based data structure. Xcdat solves the problem using the XOR-compressed double-array methods described in the following article.</p>
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<blockquote>
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<blockquote>
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<p>Shunsuke Kanda, Kazuhiro Morita, and Masao Fuketa. Compressed double-array tries for string dictionaries supporting fast lookup. Knowledge and Information Systems, 51(3): 1023–1042, 2017.</p>
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<p>Shunsuke Kanda, Kazuhiro Morita, and Masao Fuketa. Compressed double-array tries for string dictionaries supporting fast lookup. Knowledge and Information Systems, 51(3): 1023–1042, 2017. [<a href="https://doi.org/10.1007/s10115-016-0999-8">doi</a>] [<a href="https://sites.google.com/site/shnskknd/KAIS2016.pdf">pdf</a>]</p>
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</blockquote>
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</blockquote>
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<p>Xcdat can implement trie dictionaries in smaller space compared to the other double-array libraries. In addition, the lookup speed is relatively fast in compressed data structures from the double-array advantage.</p>
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<p>Xcdat can implement trie dictionaries in smaller space compared to the other double-array libraries. In addition, the lookup speed is relatively fast in compressed data structures from the double-array advantage.</p>
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<p>Xcdat is available at <a href="https://github.com/kampersanda/xcdat">GitHub repsitory</a>.</p>
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<p>Xcdat is available at <a href="https://github.com/kampersanda/xcdat">GitHub repsitory</a>.</p>
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