Mercurial > hg > audiodb
view tests/0045/run-test.sh @ 465:1030664df98c api-inversion
No more audioDB::index_allocate and audioDB::index_init_query
No more SERVER_LSH_INDEX_SINGLETON, either; instead each adb_t contains
a single cache of the last used in-core index. At the moment, this
cache is unused by the server (and the previous cache code has been
replaced by a comment), but I think that this way everyone can be
allowed to benefit without anyone having to explicitly manage indexes
themselves.
I'm not going to say how long I wandered in a maze of valgrind before
giving up and keeping the hacky workaround for loading the lsh tables
[see the FIXME comment in audiodb_index_init_query()]; let's just say
that it was long enough to find the extra bonus crashy close(lshfid) in
audioDB::index_index_db.
Also, delete the abstraction-inverting LSH stuff from query.cpp where we
are making our reporters; the fix for that, which is presumably when
creating small indexes for large datasets, is to implement
space-efficient reporters. (The accumulator code, which is my second
attempt, is more space-efficient than the reporters; inspiration may
wish to be drawn...)
| author | mas01cr |
|---|---|
| date | Tue, 30 Dec 2008 23:56:57 +0000 |
| parents | a6edbe97fddf |
| children |
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#! /bin/bash . ../test-utils.sh if [ -f testdb ]; then rm -f testdb; fi ${AUDIODB} -d testdb -N intstring 2 > testfeature floatstring 0 1 >> testfeature floatstring 1 0 >> testfeature floatstring 1 0 >> testfeature floatstring 0 1 >> testfeature intstring 1 > testpower floatstring -0.5 >> testpower floatstring -1 >> testpower floatstring -1 >> testpower floatstring -0.5 >> testpower expect_clean_error_exit ${AUDIODB} -d testdb -I -f testfeature -w testpower ${AUDIODB} -d testdb -P expect_clean_error_exit ${AUDIODB} -d testdb -I -f testfeature ${AUDIODB} -d testdb -I -f testfeature -w testpower -k testfeature1 # sequence queries require L2NORM ${AUDIODB} -d testdb -L echo "query points (0.0,0.5),(0.0,0.5),(0.5,0.0)" intstring 2 > testquery floatstring 0 0.5 >> testquery floatstring 0 0.5 >> testquery floatstring 0.5 0 >> testquery # LSH Indexing tests # Indexing requires a radius (-R) expect_clean_error_exit ${AUDIODB} -d testdb -X -l 1 # Merged index ${AUDIODB} -d testdb -I -f testfeature -w testpower -k testfeature2 if [ -f testdb.lsh* ]; then rm testdb.lsh* fi ${AUDIODB} -d testdb -X -l 1 -R 1 --lsh_b 1 # Add a new track ${AUDIODB} -d testdb -I -f testfeature -w testpower -k testfeature3 # index using same paramters as previous index (merge new data) ${AUDIODB} -d testdb -X -l 1 -R 1 ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testpower -R 1 > testoutput echo testfeature1 1 > test-expected-output echo testfeature2 1 >> test-expected-output echo testfeature3 1 >> test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testpower -p 0 -R 1 > testoutput echo testfeature1 1 > test-expected-output echo testfeature2 1 >> test-expected-output echo testfeature3 1 >> test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testpower -p 1 -R 1 > testoutput echo testfeature1 1 > test-expected-output echo testfeature2 1 >> test-expected-output echo testfeature3 1 >> test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testpower -e -R 1 > testoutput echo testfeature1 3 > test-expected-output echo testfeature2 3 >> test-expected-output echo testfeature3 3 >> test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testpower -e -R 1 --lsh_exact > testoutput echo testfeature1 3 > test-expected-output echo testfeature2 3 >> test-expected-output echo testfeature3 3 >> test-expected-output cmp testoutput test-expected-output exit 104