Mercurial > hg > audiodb
view libtests/0010/prog1.c @ 487:e072aa1611f5 api-inversion
Begin cleaning up libtests
* Delete unused functions from test_utils_lib.h.
* #include needed system header files there rather than at the head of
each of the individual C files.
* Make libtests.mk be responsible for finding audioDB_API.h and
test_utils_lib.h
* Simplify the implementation of clean_remove_db().
| author | mas01cr |
|---|---|
| date | Sat, 10 Jan 2009 15:32:42 +0000 |
| parents | 94c18f128ce8 |
| children | f4dc8e47ee37 |
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#include "audioDB_API.h" #include "test_utils_lib.h" int main(int argc, char **argv){ int returnval=0; adb_ptr mydbp={0}; int ivals[10]; double dvals[10]; adb_insert_t myinsert={0}; unsigned int myerr=0; char * databasename="testdb"; adb_query_t myadbquery={0}; adb_queryresult_t myadbqueryresult={0}; int size=0; /* clean */ //if [ -f testdb ]; then rm -f testdb; fi clean_remove_db(databasename); /* new db */ //${AUDIODB} -d testdb -N mydbp=audiodb_create(databasename,0,0,0); /* test feature files */ //intstring 2 > testfeature01 //floatstring 0 1 >> testfeature01 ivals[0]=2; dvals[0]=0; dvals[1]=1; maketestfile("testfeature01",ivals,dvals,2); //intstring 2 > testfeature10 //floatstring 1 0 >> testfeature10 ivals[0]=2; dvals[0]=1; dvals[1]=0; maketestfile("testfeature10",ivals,dvals,2); /* inserts */ //${AUDIODB} -d testdb -I -f testfeature01 //${AUDIODB} -d testdb -I -f testfeature10 myinsert.features="testfeature01"; myerr=audiodb_insert(mydbp,&myinsert); myinsert.features="testfeature10"; myerr=audiodb_insert(mydbp,&myinsert); /* l2norm */ //# sequence queries require L2NORM //${AUDIODB} -d testdb -L audiodb_l2norm(mydbp); /* query 1 */ //echo "query point (0.0,0.5)" //intstring 2 > testquery //floatstring 0 0.5 >> testquery ivals[0]=2; dvals[0]=0; dvals[1]=0.5; dvals[2]=0; dvals[3]=0; maketestfile("testquery",ivals,dvals,2); //${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -R 5 > testoutput //echo testfeature01 1 > test-expected-output //echo testfeature10 1 >> test-expected-output //cmp testoutput test-expected-output myadbquery.querytype="sequence"; myadbquery.feature="testquery"; myadbquery.sequencelength="1"; myadbquery.radius="5"; audiodb_query(mydbp,&myadbquery,&myadbqueryresult); size=myadbqueryresult.sizeRlist; dump_query(&myadbquery,&myadbqueryresult); /* check the test values */ if (size != 2) {returnval = -1;}; //if (testoneresult(&myadbqueryresult,0,"testfeature",1,0,0)) {returnval = -1;}; //if (testoneresult(&myadbqueryresult,1,"testfeature",1,0,0)) {returnval = -1;}; /* query 2 */ //${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -r 1 -R 5 > testoutput //echo testfeature01 1 > test-expected-output //cmp testoutput test-expected-output // //echo "query point (0.5,0.0)" //intstring 2 > testquery //floatstring 0.5 0 >> testquery /* query 3 */ //# FIXME: because there's only one point in each track (and the query), //# the ordering is essentially database order. We need these test //# cases anyway because we need to test non-segfaulting, non-empty //# results... // //${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -R 5 > testoutput //echo testfeature01 1 > test-expected-output //echo testfeature10 1 >> test-expected-output //cmp testoutput test-expected-output /* query 4 */ //${AUDIODB} -d testdb -Q sequence -l 1 -f testquery -r 1 -R 5 > testoutput //echo testfeature01 1 > test-expected-output //cmp testoutput test-expected-output printf("returnval:%d\n",returnval); //returnval=-1; return(returnval); }