Mercurial > hg > audiodb
view tests/0027/run-test.sh @ 636:9cda689dcc20
Use an appropriate data copier for the platform's bit width
Dispatch on sb-vm:n-word-bits, though I think sbcl itself should
probably define a system-area-double-float-copy bit-bash function.
This also fixes a thinko, where only half of the times data was being
copied, even on 64-bit platforms. Sheesh. Fixes #32
| author | mas01cr |
|---|---|
| date | Tue, 29 Sep 2009 16:23:42 +0000 |
| parents | fe4dc39b2dd7 |
| 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 intstring 1 > testpower floatstring -0.5 >> testpower floatstring -1 >> 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 # sequence queries require L2NORM ${AUDIODB} -d testdb -L # queries without power files should run as before echo "query point (0.0,0.5)" intstring 2 > testquery floatstring 0 0.5 >> testquery ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery > testoutput echo testfeature 1 0 0 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -n 1 > testoutput echo testfeature 0 0 0 > test-expected-output cmp testoutput test-expected-output echo "query point (0.5,0.0)" intstring 2 > testquery floatstring 0.5 0 >> testquery ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery > testoutput echo testfeature 1 0 1 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -n 1 > testoutput echo testfeature 0 0 1 > test-expected-output cmp testoutput test-expected-output # queries with power files might do something different echo "query point (0.0,0.5), p=-0.5" intstring 2 > testquery floatstring 0 0.5 >> testquery intstring 1 > testquerypower floatstring -0.5 >> testquerypower ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --absolute-threshold=-1.4 > testoutput echo testfeature 1 0 0 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --absolute-threshold=-0.6 > testoutput echo testfeature 0 0 0 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --absolute-threshold=-0.2 > testoutput cat /dev/null > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --relative-threshold=1 > testoutput echo testfeature 1 0 0 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --relative-threshold=0.2 > testoutput echo testfeature 0 0 0 > test-expected-output cmp testoutput test-expected-output echo "query point (0.5,0.0), p=-0.5" intstring 2 > testquery floatstring 0.5 0 >> testquery ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --absolute-threshold=-1.4 > testoutput echo testfeature 1 0 1 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --absolute-threshold=-0.6 > testoutput echo testfeature 2 0 0 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --absolute-threshold=-0.2 > testoutput cat /dev/null > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --relative-threshold=1 > testoutput echo testfeature 1 0 1 > test-expected-output cmp testoutput test-expected-output ${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -w testquerypower --relative-threshold=0.2 > testoutput echo testfeature 2 0 0 > test-expected-output cmp testoutput test-expected-output exit 104