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After plumbing the documentation/past questions on list operations, I've come up blank - many of the cases involve numbers, whereas I'm working with large quantities of text.

I have a sorted list of common three-word phrases (trigrams) that appear in a large body of textual information, generated through Mathematica's Partition[], Tally[], and Sort[] commands. An example of the sort of data that I'm operating on (I have hundreds of these files):

{{{wa, wa, wa}, 66}, {{i, love, you}, 62}, {{la, la, la}, 50}, {{meaning, of, life}, 42}, {on, come, on}, 40}, {{come, on, come}, 40}, {{yeah, yeah, yeah}, 38}, {{no, no, no}, 36}, {{we, re, gonna}, 36}, {{you, love, me}, 35}, {{in, love, with}, 32}, {{the, way, you}, 30}, {{i, want, to}, 30}, {{back, to, me}, 29}, <<38211>>, {{of, an, xke}, 1}}

I'm hoping to search this file so that if the input is "meaning, of, life" it will return "42." I feel like I must be overlooking something obvious but after tinkering around I've hit a brick wall here. Mathematica is number heavy in its documentation, which is.. well, unsurprising.

Thanks for any help that you can offer.

share|improve this question
    
f[{"meaning", "of", "life"] should should return almost but not quite completely unlike 42 –  belisarius Oct 2 '11 at 22:01
    
@belisarius: Nope... the modern oracle says that it's definitely 42. –  Simon Oct 2 '11 at 22:08
2  
@Simon Not entirely disagree –  belisarius Oct 2 '11 at 22:14
    
@ian For some interesting word statistics alternatives, see the Help for WordData[] and DictionaryLookup[] –  belisarius Oct 2 '11 at 22:19
2  
Wolfram Alpha is pretty unequivocal.. and it couldn't possibly ever be wrong, could it? –  programming_historian Oct 2 '11 at 22:20
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3 Answers 3

up vote 6 down vote accepted

Assuming that you can load your data into Mathematica in the form you outlined, one very simple thing to do is to create a hash-table, where your trigrams will be the (compound) keys. Here is your sample (the part of it that you gave):

trigrams = {{{"wa", "wa", "wa"}, 66}, {{"i", "love", "you"}, 62}, 
 {{"la", "la", "la"}, 50}, {{"meaning", "of", "life"}, 42}, 
 {{"on", "come", "on"}, 40}, {{"come", "on", "come"}, 40}, 
 {{"yeah", "yeah", "yeah"}, 38}, {{"no", "no", "no"}, 36}, 
 {{"we", "re", "gonna"}, 36}, {{"you", "love", "me"}, 35}, 
 {{"in", "love", "with"}, 32}, {{"the", "way", "you"}, 30}, 
 {{"i", "want", "to"}, 30}, {{"back", "to", "me"}, 29}, 
 {{"of", "an", "xke"}, 1}};

Here is one possible way to create a hash-table:

Clear[trigramHash];
(trigramHash[Sequence @@ #1] = #2) & @@@ trigrams;

Now, we use it like

In[16]:= trigramHash["meaning","of","life"]
Out[16]= 42

This approach will be beneficial if you perform many searches, of course.

EDIT

If you have many files and want to search them efficiently in Mathematica, one thing you could do is to use the above hashing mechanism to convert all your files to .mx binary Mathematica files. These files are optimized for fast loading, and serve as a persistence mechanism for definitions you want to store. Here is how it may work:

In[20]:= DumpSave["C:\\Temp\\trigrams.mx",trigramHash]
Out[20]= {trigramHash}

In[21]:= Quit[]

In[1]:= Get["C:\\Temp\\trigrams.mx"]
In[2]:= trigramHash["meaning","of","life"]
Out[2]= 42

You use DumpSave to create an .mx file. So, the suggested procedure is to load your data into Mathematica, file by file, create hashes (you could use SubValues to index a particular hash-table with an index of your file), and then save those definitions into .mx files. In this way, you get fast load and fast search, and you have a freedom to decide which part of your data to keep loaded into Mathematica at any given time (pretty much without a performance hit, normally associated with file loading).

share|improve this answer
    
Great - I'll have to give the .mx process a try as the dataset grows and the processing times begin to creep up. Thanks very much for your insightful help for both the original question and these overall issues. –  programming_historian Oct 2 '11 at 22:15
    
@ian.milligan Glad I could help, and thanks for the accept. I was playing with words and phrases and their statistics in Mathematica myself, a while ago. Hope to get back to it one day. One other mechanism which you may find useful for these activities is tagging provided by Reap and Sow functions. It is general, efficient, and plays well with functional programming in mma. –  Leonid Shifrin Oct 2 '11 at 22:20
1  
@Leonid I think you may enjoy answering questions like this one english.stackexchange.com/questions/42480/… –  belisarius Oct 2 '11 at 22:33
    
@LeonidShifrin My pleasure. Thanks for the Reap/Sow suggestions, I'll start exploring the documentation and examples. –  programming_historian Oct 2 '11 at 23:22
    
@belisarius Indeed. But, may be I'll be better off by answering some of my own questions, which have been waiting for way too long already :). –  Leonid Shifrin Oct 3 '11 at 10:03
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This is probably not as fast as the solution that Leonid gave, but you could just turn your list of pairs into a list of rules.

In[1]:= trigrams = {{{"wa", "wa", "wa"}, 66}, {{"i", "love", "you"}, 
    62}, {{"la", "la", "la"}, 50}, {{"meaning", "of", "life"}, 
    42}, {{"on", "come", "on"}, 40}, {{"come", "on", "come"}, 
    40}, {{"yeah", "yeah", "yeah"}, 38}, {{"no", "no", "no"}, 
    36}, {{"we", "re", "gonna"}, 36}, {{"you", "love", "me"}, 
    35}, {{"in", "love", "with"}, 32}, {{"the", "way", "you"}, 
    30}, {{"i", "want", "to"}, 30}, {{"back", "to", "me"}, 
    29}, {{"of", "an", "xke"}, 1}};

In[2]:= trigramRules = Rule @@@ trigrams;

Which (if you want) you can wrap up in a function that has a similar behaviour to Leonid's

In[3]:= trigram[seq__String] := {seq} /. trigramRules

In[4]:= trigram["meaning", "of", "life"]

Out[4]= 42

Since you have a very large list of pairs, then the application of the generated rules can be sped up by using Dispatch. That is, do everything else the same as above, except define trigramRules using

trigramRules = Dispatch[Rule @@@ trigrams]
share|improve this answer
    
@Leonid - I'm sure that you didn't have the Dispatch part in your answer a couple minutes ago... Now my "hard work" is redundant! –  Simon Oct 2 '11 at 21:49
    
Yes, you are right. It came to my mind right after I typed in my answer, and I put it there. It was probably within the single edit quantum of SO, that's why it is not shown as edit. To make it a fair game, I removed that part from my answer. Just be sure to edit yours to include Dispatch - or this method will be unusable for large files. +1. –  Leonid Shifrin Oct 2 '11 at 21:57
    
@Leonid: Thanks! –  Simon Oct 2 '11 at 22:04
    
These answers are all great - great approach to the question. My sincerest thanks! –  programming_historian Oct 2 '11 at 22:13
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This is one way to get the individual words in your string into a list.

In[262]:= str = "meaning, of, life"; ReadList[
 StringToStream[str], Word, WordSeparators -> {",", " "}]

Out[262]= {"meaning", "of", "life"}

You could use this in a Cases or other form of look-up to get the 42 result (very suspicious, that figure...)

--- edit---

By "look-up" I have in mind the sort of mechanism shown by Leonid Shifrin. I was uncertain as to whether the difficulty being encountered was that, or simply converting from strings to lists of triads. I (only) show a way to manage the latter.

--- end edit ---

--- edit 2 ---

A comment shows ways to avoid ReadList. Let me state for the record that I'm ecstatic I managed to find that approach. Below is the code I had put into my original response, then replaced when I realized there was a more concise code.

str = "meaning, of, life";
commaposns = StringPosition[str, ", "];
substrposns = 
  Partition[
   Join[{1}, 
    Riffle[commaposns[[All, 1]] - 1, commaposns[[All, 2]] + 1], {-1}],
    2];
substrs = Map[StringTake[str, #] &, substrposns]

Out[259]= {"meaning", "of", "life"}

Bottom line (almost literally): I can find convoluted approaches as well as anyone else, and better than most.

--- end edit ---

Daniel Lichtblau

share|improve this answer
    
+1 I missed that part of the question. I find that something like DeleteCases[StringSplit[str, {" ", ","}], ""] is marginally faster. Or if you can guarantee the input structure, StringSplit["meaning, of, life", {", "}]. Not that this is the limiting part of the search procedure... –  Simon Oct 2 '11 at 21:56
    
I also missed that part - +1. –  Leonid Shifrin Oct 2 '11 at 22:03
    
Great - this is a really handy command. My sincerest thanks again for your help. –  programming_historian Oct 2 '11 at 22:14
    
The code in that 2nd edit makes my head hurt. (I had to pull it apart to see exactly what it was doing) –  Simon Oct 2 '11 at 23:39
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