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As the title says, I need to know the time complexity of the fastest HTML parsing algorithm.

UPDATE: I need the complexity of creating DOM tree from HTML code, not just parsing it.

  • What did your own research turn out so far? – Filburt Jan 20 '17 at 8:19
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    I would guess that the parsing can be done in linear time, as SAX parsers typically scan the input document sequentially. – Codor Jan 20 '17 at 8:28
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    Hint: can a deterministic automaton with a stack can do it? If so, its runtime is linear. – amit Jan 20 '17 at 8:37
  • @Codor: virtually all parsers read the source file sequentially. By itself, that doesn't make then linear time. Imagine a parser that spends 2^N cycles processing the Nth character. (That's a stupid parser, but it contradicts your argument). – Ira Baxter Jan 20 '17 at 10:08
  • @amit I know that tokenizing an input in every language can be done in linear time using a NFA or DFA that is converted to code. But I need the complexity of doing systax analyzing, semantic analyzing and finally create the DOM tree from document. – Ahmad Badkoubehei Jan 20 '17 at 11:20
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HTML DOM construction should be linear time on properly nested input. However, the Html5 algorithm, which AngleSharp claims to implement, requires specific handling of improperly nested content, by way of the so-called "adoption agency algorithm" (AAA), which requires a linear search through a stack of unclosed formatting elements. Although there is an attempt to limit the damage (see this W3C discussion thread for some history), it is possible to craft an HTML document for which the algorithm takes quadratic time.

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