Mercurial > hg > audiodb
view UNIT_TEST_LSH.cpp @ 453:16a903968d18 api-inversion
Almost finish with audioDB::query_loop.
This patch is a little bit noisy, because we rename adb->keys to
adb->keymap, introduce a new vector adb->keys (essentially to replace
fileTable), and introduce new functionality (both include and exclude
keylists in adb_query_refine_t) as well as modifying the query_loop
function itself to take advantage of all of these goodies. Oh, and we
also fix an embarrassing state bug in adb->track_offsets for insert --
what was I thinking? (Thank you, regression test suites). Since we are
on a private branch at the moment, we can take the luxury of renumbering
the ADB_REFINE_ flags to include the exclude list at the logical place;
once we have an ABI to support, that won't be possible.
Now audioDB::query builds up include and exclude lists as appropriate;
query_loop does an [O(NlogN) probably] buildup of the keys to consider,
and then iterates over tracks sequentially, seeking only if one or more
tracks have been excluded. No more trackFile, yay!
The only remaining thing to deal with is the accumulator. It's easy
enough to pass it around, but I want to read the indexed version before
doing so to see how that all fits together.
| author | mas01cr |
|---|---|
| date | Wed, 24 Dec 2008 10:57:14 +0000 |
| parents | 071a108580a4 |
| children |
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// UNIT_TEST_LSH.cpp #include <vector> #include "lshlib.h" #include "reporter.h" #define LSH_IN_CORE #define N_POINT_BITS 14 #define POINT_BIT_MASK 0x00003FFF // Callback method for LSH point retrieval void add_point(void* reporter, Uns32T pointID, Uns32T qpos, float dist) { ReporterBase* pr = (ReporterBase*)reporter; pr->add_point(pointID>>N_POINT_BITS, qpos, pointID&POINT_BIT_MASK, dist); } int main(int argc, char* argv[]){ int nT = 100; // num tracks int nP = 1000; // num points-per-track float w = 4.0;// LSH bucket width int k = 10; int m = 2; int d = 10; int N = 100000; int C = 200; float radius = 0.001; char FILENAME[] = "foo.lsh"; assert(nP>=nT); int fid = open(FILENAME,O_RDONLY); LSH* lsh; bool serialized = false; Uns32T trackBase = 0; if(fid< 0){ // Make a new serial LSH file lsh = new LSH(w,k,m,d,N,C,radius); assert(lsh); cout << "NEW LSH:" << endl; } else{ close(fid); // Load LSH structures from disk lsh = new LSH(FILENAME); assert(lsh); cout << "MERGE WITH EXISTING LSH:" << FILENAME << endl; serialized=true; trackBase = (lsh->get_maxp()>>N_POINT_BITS)+1; // Our encoding of tracks and points } cout << "k:" << lsh->get_numFuns() << " "; cout << "L:" << lsh->get_numTables() << " "; cout << "d:" << lsh->get_dataDim() << " "; cout << "N:" << lsh->get_numRows() << " "; cout << "C:" << lsh->get_numCols() << " "; cout << "R:" << lsh->get_radius() << " "; cout << "p:" << lsh->get_maxp() << endl; cout.flush(); cout << endl << "Constructing " << nT << " tracks with " << nP << " vectors of dimension " << d << endl; cout.flush(); // Construct sets of database vectors, use one point from each set for testing vector< vector<float> > vv = vector< vector<float> >(nP); // track vectors vector< vector<float> > qq = vector< vector<float> >(nP);// query vectors for(int i=0; i< nP ; i++){ vv[i]=vector<float>(d); // allocate vector qq[i]=vector<float>(d); // allocate vector } for(int k = 0 ; k < nT ; k ++){ cout << "[" << k << "]"; cout.flush(); for(int i = 0 ; i< nP ; i++) for(int j=0; j< d ; j++) vv[i][j] = genrand_real2() / radius; // MT_19937 random numbers lsh->insert_point_set(vv, (trackBase+k)<<N_POINT_BITS); qq[k] = vv[k]; // One identity query per set of database vectors } cout << endl; cout.flush(); cout << "Writing serialized LSH tables..." << endl; // TEST SERIALIZED LSH RETRIEVAL lsh->serialize(FILENAME); // TEST LSH RETRIEVAL IN CORE printf("\n********** In-core LSH retrieval from %d track%c **********\n", (lsh->get_maxp()>>N_POINT_BITS)+1,(lsh->get_maxp()>>N_POINT_BITS)>0?'s':' '); fflush(stdout); for(int i = 0; i < nT ; i++ ){ trackSequenceQueryRadNNReporter* pr = new trackSequenceQueryRadNNReporter(nP,nT,(lsh->get_maxp()>>N_POINT_BITS)+1); lsh->retrieve_point(qq[i], i, &add_point, (void*)pr); // LSH point retrieval from core printf("query vector %d] t1:%u t2:%0X\n", i, lsh->get_t1(), lsh->get_t2()); fflush(stdout); pr->report(0,0); delete pr; } delete lsh; cout << "Loading Serialized LSH functions from disk ..." << endl; cout.flush(); lsh = new LSH(FILENAME); assert(lsh); // lsh->serial_dump_tables(FILENAME); printf("\n********** Serialized LSH retrieval from %d track%c **********\n", (lsh->get_maxp()>>N_POINT_BITS)+1,(lsh->get_maxp()>>N_POINT_BITS)>1?'s':' '); fflush(stdout); for(int i= 0; i < nT ; i++ ){ trackSequenceQueryRadNNReporter* pr = new trackSequenceQueryRadNNReporter(nP,nT,(lsh->get_maxp()>>N_POINT_BITS)+1); lsh->serial_retrieve_point(FILENAME, qq[i], i, &add_point, (void*) pr); // LSH serialized point retrieval method printf("query vector %d] t1:%u t2:%0X\n", i, lsh->get_t1(), lsh->get_t2()); fflush(stdout); pr->report(0,0); delete pr; } delete lsh; #ifdef LSH_IN_CORE cout << "Loading Serialized LSH functions and tables from disk ..." << endl; cout.flush(); // Unserialize entire lsh tree to core lsh = new LSH(FILENAME,1); // TEST UNSERIALIZED LSH RETRIEVAL IN CORE printf("\n********** Unserialized LSH in-core retrieval from %d track%c **********\n", (lsh->get_maxp()>>N_POINT_BITS)+1,(lsh->get_maxp()>>N_POINT_BITS)>1?'s':' '); fflush(stdout); for(int i = 0; i < nT ; i++ ){ trackSequenceQueryRadNNReporter* pr = new trackSequenceQueryRadNNReporter(nP,nT,(lsh->get_maxp()>>N_POINT_BITS)+1); lsh->retrieve_point(qq[i], i, &add_point, (void*) pr); // LSH point retrieval from core printf("query vector %d] t1:%u t2:%0X\n", i, lsh->get_t1(), lsh->get_t2()); fflush(stdout); pr->report(0,0); delete pr; } delete lsh; #endif }