main_text is a list of lists containing sentences that've been part-of-speech tagged:

     main_text = [[('the', 'DT'), ('mad', 'JJ'), ('hatter', 'NN'), ('likes','VB'),    
                  ('tea','NN'), ('and','CC'), ('hats', 'NN')], [('the', 'DT'), ('red','JJ')                   
                   ('queen', 'NN'), ('hates','VB'),('alice','NN')]]  

ngrams_to_match is a list of lists containing part-of-speech tagged trigrams:
     ngrams_to_match = [[('likes','VB'),('tea','NN'), ('and','CC')],
                        [('the', 'DT'), ('mad', 'JJ'), ('hatter', 'NN')],
                        [('hates', 'DT'), ('alice', 'JJ'), ('but', 'CC') ],
                        [('and', 'CC'), ('the', 'DT'), ('rabbit', 'NN')]]

(a) For each sentence in main_text, first check to see if a complete trigram in ngrams_to _match matches.  If the trigram matches, return the matched trigram and the sentence. 

(b) Then, check to see if the the first tuple (a unigram) or the first two tuples (a bigram) of each of the trigrams match in main_text.   

(c) If the unigram or bigram forms a substring of an already matched trigram, don't return anything. Otherwise, return the bigram or unigram match and the sentence.

Here is what the output should be:

     trigram_match = [('the', 'DT'), ('mad', 'JJ'), ('hatter', 'NN')], sentence[0]
     trigram_match = [('likes','VB'),('tea','NN'), ('and','CC')], sentence[0]
     bigram_match = [('hates', 'DT'), ('alice', JJ')], sentence[1]

Condition (b) gives us the bigram_match.

The WRONG output would be:

     trigram_match = [('the', 'DT'), ('mad', 'JJ'), ('hatter', 'NN')], sentence[0]
     bigram_match =  [('the', 'DT'), ('mad', 'JJ')] *bad by condition c
     unigram_match = [ [('the', 'DT')] * bad by condition c
     trigram_match = [('likes','VB'),('tea','NN'), ('and','CC')], sentence[0]
     bigram_match = [('likes','VB'),('tea','NN')] * bad by condition c
     unigram_match [('likes', 'VB')] * bad by condition c
and so on.

The following, very ugly code works okay for this toy example. But I was wondering if anyone had a more streamlined approach since it doesn't do well on larger sets of sentences. 

     for ngram in ngrams_to_match:
	  for sentence in main_text:
	    for tup in sentence:
                #we can't be sure that our part-of-speech tagger will
                #tag an ngram word and a main_text word the same way, so 
                #we match the word in the tuple, not the whole tuple
		if span[0][0] == tup[0]:# == tup[0]: #if word in the first ngram matches...
		    unigram_index = sentence.index(tup) #...then this is our index
		    unigram = (sentence[unigram_index][0]) #save it as a unigram
                        if sentence[unigram_index+2][0]==span[2][0]:
			     if sentence[unigram_index+2][0]==span[2][0]:  #match a trigram
			          trigram = (sentence[unigram_index][0],span[1][0], span[2][0])#save the match
			    print 'heres the trigram-->', sentence,'\n', 'trigram--->',trigram
		    except IndexError:
			if span[0][0] == tup[0]:# == tup[0]:  #same as above
			    unigram_index = sentence.index(tup) #
			    #print sentence[unigram_index]
			    if sentence[unigram_index+1][0]==span[1][0]:  #get bigram match		
				bigram = (sentence[unigram_index][0],span[1][0])#save the match
				if bigram[0] and bigram[1] in trigram:  #no substring matches
				    print 'heres a sentence-->', sentence,'\n', 'bigram--->', bigram
				if unigram in bigram or trigram:  #no substring matches
				    print unigram