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[[choosing-a-stemmer]] === Choosing a Stemmer The documentation for the http://bit.ly/1AUfpDN[`stemmer`] token filter lists multiple stemmers for some languages.((("stemming words", "choosing a stemmer")))((("English", "stemmers for"))) For English we have the following: `english`:: The http://bit.ly/17LseXy[`porter_stem`] token filter. `light_english`:: The http://bit.ly/1IObUjZ[`kstem`] token filter. `minimal_english`:: The `EnglishMinimalStemmer` in Lucene, which removes plurals `lovins`:: The http://bit.ly/1Cr4tNI[Snowball] based http://bit.ly/1ICyTjR[Lovins] stemmer, the first stemmer ever produced. `porter`:: The http://bit.ly/1Cr4tNI[Snowball] based http://bit.ly/1sCWihj[Porter] stemmer `porter2`:: The http://bit.ly/1Cr4tNI[Snowball] based http://bit.ly/1zip3lK[Porter2] stemmer `possessive_english`:: The `EnglishPossessiveFilter` in Lucene which removes `'s` Add to that list the Hunspell stemmer with the various English dictionaries that are available. One thing is for sure: whenever more than one solution exists for a problem, it means that none of the solutions solves the problem adequately. This certainly applies to stemming -- each stemmer uses a different approach that overstems and understems words to a different degree. The `stemmer` documentation page ((("languages", "stemmers for")))highlights the recommended stemmer for each language in bold, usually because it offers a reasonable compromise between performance and quality. That said, the recommended stemmer may not be appropriate for all use cases. There is no single right answer to the question of which is the best stemmer -- it depends very much on your requirements. There are three factors to take into account when making a choice: performance, quality, and degree. [[stemmer-performance]] ==== Stemmer Performance Algorithmic stemmers are typically four or ((("stemming words", "choosing a stemmer", "stemmer performance")))((("Hunspell stemmer", "performance")))five times faster than Hunspell stemmers. ``Handcrafted'' algorithmic stemmers are usually, but not always, faster than their Snowball equivalents. For instance, the `porter_stem` token filter is significantly faster than the Snowball implementation of the Porter stemmer. Hunspell stemmers have to load all words, prefixes, and suffixes into memory, which can consume a few megabytes of RAM. Algorithmic stemmers, on the other hand, consist of a small amount of code and consume very little memory. [[stemmer-quality]] ==== Stemmer Quality All languages, except Esperanto, are irregular.((("stemming words", "choosing a stemmer", "stemmer quality"))) While more-formal words tend to follow a regular pattern, the most commonly used words often have irregular rules. Some stemming algorithms have been developed over years of research and produce reasonably high-quality results. Others have been assembled more quickly with less research and deal only with the most common cases. While Hunspell offers the promise of dealing precisely with irregular words, it often falls short in practice. A dictionary stemmer is only as good as its dictionary. If Hunspell comes across a word that isn't in its dictionary, it can do nothing with it. Hunspell requires an extensive, high-quality, up-to-date dictionary in order to produce good results; dictionaries of this caliber are few and far between. An algorithmic stemmer, on the other hand, will happily deal with new words that didn't exist when the designer created the algorithm. If a good algorithmic stemmer is available for your language, it makes sense to use it rather than Hunspell. It will be faster, will consume less memory, and will generally be as good or better than the Hunspell equivalent. If accuracy and customizability is important to you, and you need (and have the resources) to maintain a custom dictionary, then Hunspell gives you greater flexibility than the algorithmic stemmers. (See <<controlling-stemming>> for customization techniques that can be used with any stemmer.) [[stemmer-degree]] ==== Stemmer Degree Different stemmers overstem and understem((("stemming words", "choosing a stemmer", "stemmer degree"))) to a different degree. The `light_` stemmers stem less aggressively than the standard stemmers, and the `minimal_` stemmers less aggressively still. Hunspell stems aggressively. Whether you want aggressive or light stemming depends on your use case. If your search results are being consumed by a clustering algorithm, you may prefer to match more widely (and, thus, stem more aggressively). If your search results are intended for human consumption, lighter stemming usually produces better results. Stemming nouns and adjectives is more important for search than stemming verbs, but this also depends on the language. The other factor to take into account is the size of your document collection. With a small collection such as a catalog of 10,000 products, you probably want to stem more aggressively to ensure that you match at least some documents. If your collection is large, you likely will get good matches with lighter stemming. ==== Making a Choice Start out with a recommended stemmer. If it works well enough, there is no need to change it. If it doesn't, you will need to spend some time investigating and comparing the stemmers available for language in order to find the one that best suits your purposes.