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https://issues.apache.org/jira/browse/LUCENE-1470?page=com.atlassian.jira.plugin.system.issuetabpanels:comment-tabpanel&focusedCommentId=12671887#action_12671887
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Yonik Seeley commented on LUCENE-1470:
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Oh I see.... one difference between our code is that you start at the lowest
shift and I start at the highest. Counting up has a nice effect of getting rid
of the calculation of what shift to start at... I just had a harder time
thinking about the recursion in that direction.
Anyway, it's all looking great!
Do we have test code that tests that the most efficient precision is used (as
opposed to just the right bits matching? i.e. for a precisionStep of 4
0x300-0x4ff could be matched with 3-4 with a shift of 8, or 30-4f with a shift
of 4, or 300-4ff with a shift of 0.
> Add TrieRangeQuery to contrib
> -----------------------------
>
> Key: LUCENE-1470
> URL: https://issues.apache.org/jira/browse/LUCENE-1470
> Project: Lucene - Java
> Issue Type: New Feature
> Components: contrib/*
> Affects Versions: 2.4
> Reporter: Uwe Schindler
> Assignee: Uwe Schindler
> Fix For: 2.9
>
> Attachments: fixbuild-LUCENE-1470.patch, fixbuild-LUCENE-1470.patch,
> LUCENE-1470-readme.patch, LUCENE-1470.patch, LUCENE-1470.patch,
> LUCENE-1470.patch, LUCENE-1470.patch, LUCENE-1470.patch, LUCENE-1470.patch,
> LUCENE-1470.patch, trie.zip, TrieRangeFilter.java, TrieUtils.java,
> TrieUtils.java, TrieUtils.java, TrieUtils.java, TrieUtils.java
>
>
> According to the thread in java-dev
> (http://www.gossamer-threads.com/lists/lucene/java-dev/67807 and
> http://www.gossamer-threads.com/lists/lucene/java-dev/67839), I want to
> include my fast numerical range query implementation into lucene
> contrib-queries.
> I implemented (based on RangeFilter) another approach for faster
> RangeQueries, based on longs stored in index in a special format.
> The idea behind this is to store the longs in different precision in index
> and partition the query range in such a way, that the outer boundaries are
> search using terms from the highest precision, but the center of the search
> Range with lower precision. The implementation stores the longs in 8
> different precisions (using a class called TrieUtils). It also has support
> for Doubles, using the IEEE 754 floating-point "double format" bit layout
> with some bit mappings to make them binary sortable. The approach is used in
> rather big indexes, query times are even on low performance desktop
> computers <<100 ms (!) for very big ranges on indexes with 500000 docs.
> I called this RangeQuery variant and format "TrieRangeRange" query because
> the idea looks like the well-known Trie structures (but it is not identical
> to real tries, but algorithms are related to it).
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