/* ** A program for performance testing. ** ** The available command-line options are described below: */ static const char zHelp[] = "Usage: %s [--options] DATABASE\n" "Options:\n" " --autovacuum Enable AUTOVACUUM mode\n" " --cachesize N Set the cache size to N\n" " --exclusive Enable locking_mode=EXCLUSIVE\n" " --explain Like --sqlonly but with added EXPLAIN keywords\n" " --heap SZ MIN Memory allocator uses SZ bytes & min allocation MIN\n" " --incrvacuum Enable incremenatal vacuum mode\n" " --journalmode M Set the journal_mode to MODE\n" " --key KEY Set the encryption key to KEY\n" " --lookaside N SZ Configure lookaside for N slots of SZ bytes each\n" " --nosync Set PRAGMA synchronous=OFF\n" " --notnull Add NOT NULL constraints to table columns\n" " --pagesize N Set the page size to N\n" " --pcache N SZ Configure N pages of pagecache each of size SZ bytes\n" " --primarykey Use PRIMARY KEY instead of UNIQUE where appropriate\n" " --reprepare Reprepare each statement upon every invocation\n" " --scratch N SZ Configure scratch memory for N slots of SZ bytes each\n" " --sqlonly No-op. Only show the SQL that would have been run.\n" " --size N Relative test size. Default=100\n" " --stats Show statistics at the end\n" " --testset T Run test-set T\n" " --trace Turn on SQL tracing\n" " --utf16be Set text encoding to UTF-16BE\n" " --utf16le Set text encoding to UTF-16LE\n" " --verify Run additional verification steps.\n" " --without-rowid Use WITHOUT ROWID where appropriate\n" ; #include "sqlite3.h" #include #include #include #include #include #include /* All global state is held in this structure */ static struct Global { sqlite3 *db; /* The open database connection */ sqlite3_stmt *pStmt; /* Current SQL statement */ sqlite3_int64 iStart; /* Start-time for the current test */ sqlite3_int64 iTotal; /* Total time */ int bWithoutRowid; /* True for --without-rowid */ int bReprepare; /* True to reprepare the SQL on each rerun */ int bSqlOnly; /* True to print the SQL once only */ int bExplain; /* Print SQL with EXPLAIN prefix */ int bVerify; /* Try to verify that results are correct */ int szTest; /* Scale factor for test iterations */ const char *zWR; /* Might be WITHOUT ROWID */ const char *zNN; /* Might be NOT NULL */ const char *zPK; /* Might be UNIQUE or PRIMARY KEY */ unsigned int x, y; /* Pseudo-random number generator state */ int nResult; /* Size of the current result */ char zResult[3000]; /* Text of the current result */ } g; /* Print an error message and exit */ static void fatal_error(const char *zMsg, ...){ va_list ap; va_start(ap, zMsg); vfprintf(stderr, zMsg, ap); va_end(ap); exit(1); } /* ** Return the value of a hexadecimal digit. Return -1 if the input ** is not a hex digit. */ static int hexDigitValue(char c){ if( c>='0' && c<='9' ) return c - '0'; if( c>='a' && c<='f' ) return c - 'a' + 10; if( c>='A' && c<='F' ) return c - 'A' + 10; return -1; } /* Provide an alternative to sqlite3_stricmp() in older versions of ** SQLite */ #if SQLITE_VERSION_NUMBER<3007011 # define sqlite3_stricmp strcmp #endif /* ** Interpret zArg as an integer value, possibly with suffixes. */ static int integerValue(const char *zArg){ sqlite3_int64 v = 0; static const struct { char *zSuffix; int iMult; } aMult[] = { { "KiB", 1024 }, { "MiB", 1024*1024 }, { "GiB", 1024*1024*1024 }, { "KB", 1000 }, { "MB", 1000000 }, { "GB", 1000000000 }, { "K", 1000 }, { "M", 1000000 }, { "G", 1000000000 }, }; int i; int isNeg = 0; if( zArg[0]=='-' ){ isNeg = 1; zArg++; }else if( zArg[0]=='+' ){ zArg++; } if( zArg[0]=='0' && zArg[1]=='x' ){ int x; zArg += 2; while( (x = hexDigitValue(zArg[0]))>=0 ){ v = (v<<4) + x; zArg++; } }else{ while( isdigit(zArg[0]) ){ v = v*10 + zArg[0] - '0'; zArg++; } } for(i=0; i0x7fffffff ) fatal_error("parameter too large - max 2147483648"); return (int)(isNeg? -v : v); } /* Return the current wall-clock time, in milliseconds */ sqlite3_int64 speedtest1_timestamp(void){ static sqlite3_vfs *clockVfs = 0; sqlite3_int64 t; if( clockVfs==0 ) clockVfs = sqlite3_vfs_find(0); #if SQLITE_VERSION_NUMBER>=3007000 if( clockVfs->iVersion>=2 && clockVfs->xCurrentTimeInt64!=0 ){ clockVfs->xCurrentTimeInt64(clockVfs, &t); }else #endif { double r; clockVfs->xCurrentTime(clockVfs, &r); t = (sqlite3_int64)(r*86400000.0); } return t; } /* Return a pseudo-random unsigned integer */ unsigned int speedtest1_random(void){ g.x = (g.x>>1) ^ ((1+~(g.x&1)) & 0xd0000001); g.y = g.y*1103515245 + 12345; return g.x ^ g.y; } /* Map the value in within the range of 1...limit into another ** number in a way that is chatic and invertable. */ unsigned swizzle(unsigned in, unsigned limit){ unsigned out = 0; while( limit ){ out = (out<<1) | (in&1); in >>= 1; limit >>= 1; } return out; } /* Round up a number so that it is a power of two minus one */ unsigned roundup_allones(unsigned limit){ unsigned m = 1; while( m "one hundred twenty three" */ int speedtest1_numbername(unsigned int n, char *zOut, int nOut){ static const char *ones[] = { "zero", "one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "ten", "eleven", "twelve", "thirteen", "fourteen", "fifteen", "sixteen", "seventeen", "eighteen", "nineteen" }; static const char *tens[] = { "", "ten", "twenty", "thirty", "forty", "fifty", "sixty", "seventy", "eighty", "ninety" }; int i = 0; if( n>=1000000000 ){ i += speedtest1_numbername(n/1000000000, zOut+i, nOut-i); sqlite3_snprintf(nOut-i, zOut+i, " billion"); i += (int)strlen(zOut+i); n = n % 1000000000; } if( n>=1000000 ){ if( i && i=1000 ){ if( i && i=100 ){ if( i && i=20 ){ if( i && i0 ){ if( i && iNAMEWIDTH ){ zName[NAMEWIDTH] = 0; n = NAMEWIDTH; } if( g.bSqlOnly ){ printf("/* %4d - %s%.*s */\n", iTestNum, zName, NAMEWIDTH-n, zDots); }else{ printf("%4d - %s%.*s ", iTestNum, zName, NAMEWIDTH-n, zDots); fflush(stdout); } sqlite3_free(zName); g.nResult = 0; g.iStart = speedtest1_timestamp(); g.x = 0xad131d0b; g.y = 0x44f9eac8; } /* Complete a test case */ void speedtest1_end_test(void){ sqlite3_int64 iElapseTime = speedtest1_timestamp() - g.iStart; if( !g.bSqlOnly ){ g.iTotal += iElapseTime; printf("%4d.%03ds\n", (int)(iElapseTime/1000), (int)(iElapseTime%1000)); } if( g.pStmt ){ sqlite3_finalize(g.pStmt); g.pStmt = 0; } } /* Report end of testing */ void speedtest1_final(void){ if( !g.bSqlOnly ){ printf(" TOTAL%.*s %4d.%03ds\n", NAMEWIDTH-5, zDots, (int)(g.iTotal/1000), (int)(g.iTotal%1000)); } } /* Print an SQL statement to standard output */ static void printSql(const char *zSql){ int n = (int)strlen(zSql); while( n>0 && (zSql[n-1]==';' || isspace(zSql[n-1])) ){ n--; } if( g.bExplain ) printf("EXPLAIN "); printf("%.*s;\n", n, zSql); if( g.bExplain #if SQLITE_VERSION_NUMBER>=3007010 && ( sqlite3_strglob("CREATE *", zSql)==0 || sqlite3_strglob("DROP *", zSql)==0 || sqlite3_strglob("ALTER *", zSql)==0 ) #endif ){ printf("%.*s;\n", n, zSql); } } /* Run SQL */ void speedtest1_exec(const char *zFormat, ...){ va_list ap; char *zSql; va_start(ap, zFormat); zSql = sqlite3_vmprintf(zFormat, ap); va_end(ap); if( g.bSqlOnly ){ printSql(zSql); }else{ char *zErrMsg = 0; int rc = sqlite3_exec(g.db, zSql, 0, 0, &zErrMsg); if( zErrMsg ) fatal_error("SQL error: %s\n%s\n", zErrMsg, zSql); if( rc!=SQLITE_OK ) fatal_error("exec error: %s\n", sqlite3_errmsg(g.db)); } sqlite3_free(zSql); } /* Prepare an SQL statement */ void speedtest1_prepare(const char *zFormat, ...){ va_list ap; char *zSql; va_start(ap, zFormat); zSql = sqlite3_vmprintf(zFormat, ap); va_end(ap); if( g.bSqlOnly ){ printSql(zSql); }else{ int rc; if( g.pStmt ) sqlite3_finalize(g.pStmt); rc = sqlite3_prepare_v2(g.db, zSql, -1, &g.pStmt, 0); if( rc ){ fatal_error("SQL error: %s\n", sqlite3_errmsg(g.db)); } } sqlite3_free(zSql); } /* Run an SQL statement previously prepared */ void speedtest1_run(void){ int i, n, len; if( g.bSqlOnly ) return; assert( g.pStmt ); g.nResult = 0; while( sqlite3_step(g.pStmt)==SQLITE_ROW ){ n = sqlite3_column_count(g.pStmt); for(i=0; i0 ) g.zResult[g.nResult++] = ' '; memcpy(g.zResult + g.nResult, z, len+1); g.nResult += len; } } } if( g.bReprepare ){ sqlite3_stmt *pNew; sqlite3_prepare_v2(g.db, sqlite3_sql(g.pStmt), -1, &pNew, 0); sqlite3_finalize(g.pStmt); g.pStmt = pNew; }else{ sqlite3_reset(g.pStmt); } } /* The sqlite3_trace() callback function */ static void traceCallback(void *NotUsed, const char *zSql){ int n = (int)strlen(zSql); while( n>0 && (zSql[n-1]==';' || isspace(zSql[n-1])) ) n--; fprintf(stderr,"%.*s;\n", n, zSql); } /* Substitute random() function that gives the same random ** sequence on each run, for repeatability. */ static void randomFunc( sqlite3_context *context, int NotUsed, sqlite3_value **NotUsed2 ){ sqlite3_result_int64(context, (sqlite3_int64)speedtest1_random()); } /* Estimate the square root of an integer */ static int est_square_root(int x){ int y0 = x/2; int y1; int n; for(n=0; y0>0 && n<10; n++){ y1 = (y0 + x/y0)/2; if( y1==y0 ) break; y0 = y1; } return y0; } /* ** The main and default testset */ void testset_main(void){ int i; /* Loop counter */ int n; /* iteration count */ int sz; /* Size of the tables */ int maxb; /* Maximum swizzled value */ unsigned x1, x2; /* Parameters */ int len; /* Length of the zNum[] string */ char zNum[2000]; /* A number name */ sz = n = g.szTest*500; maxb = roundup_allones(sz); speedtest1_begin_test(100, "%d INSERTs into table with no index", n); speedtest1_exec("BEGIN"); speedtest1_exec("CREATE TABLE t1(a INTEGER %s, b INTEGER %s, c TEXT %s);", g.zNN, g.zNN, g.zNN); speedtest1_prepare("INSERT INTO t1 VALUES(?1,?2,?3); -- %d times", n); for(i=1; i<=n; i++){ x1 = swizzle(i,maxb); speedtest1_numbername(x1, zNum, sizeof(zNum)); sqlite3_bind_int64(g.pStmt, 1, (sqlite3_int64)x1); sqlite3_bind_int(g.pStmt, 2, i); sqlite3_bind_text(g.pStmt, 3, zNum, -1, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz; speedtest1_begin_test(110, "%d ordered INSERTS with one index/PK", n); speedtest1_exec("BEGIN"); speedtest1_exec("CREATE TABLE t2(a INTEGER %s %s, b INTEGER %s, c TEXT %s) %s", g.zNN, g.zPK, g.zNN, g.zNN, g.zWR); speedtest1_prepare("INSERT INTO t2 VALUES(?1,?2,?3); -- %d times", n); for(i=1; i<=n; i++){ x1 = swizzle(i,maxb); speedtest1_numbername(x1, zNum, sizeof(zNum)); sqlite3_bind_int(g.pStmt, 1, i); sqlite3_bind_int64(g.pStmt, 2, (sqlite3_int64)x1); sqlite3_bind_text(g.pStmt, 3, zNum, -1, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz; speedtest1_begin_test(120, "%d unordered INSERTS with one index/PK", n); speedtest1_exec("BEGIN"); speedtest1_exec("CREATE TABLE t3(a INTEGER %s %s, b INTEGER %s, c TEXT %s) %s", g.zNN, g.zPK, g.zNN, g.zNN, g.zWR); speedtest1_prepare("INSERT INTO t3 VALUES(?1,?2,?3); -- %d times", n); for(i=1; i<=n; i++){ x1 = swizzle(i,maxb); speedtest1_numbername(x1, zNum, sizeof(zNum)); sqlite3_bind_int(g.pStmt, 2, i); sqlite3_bind_int64(g.pStmt, 1, (sqlite3_int64)x1); sqlite3_bind_text(g.pStmt, 3, zNum, -1, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = 25; speedtest1_begin_test(130, "%d SELECTS, numeric BETWEEN, unindexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT count(*), avg(b), sum(length(c)) FROM t1\n" " WHERE b BETWEEN ?1 AND ?2; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; x2 = speedtest1_random()%10 + sz/5000 + x1; sqlite3_bind_int(g.pStmt, 1, x1); sqlite3_bind_int(g.pStmt, 2, x2); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = 10; speedtest1_begin_test(140, "%d SELECTS, LIKE, unindexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT count(*), avg(b), sum(length(c)) FROM t1\n" " WHERE c LIKE ?1; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; zNum[0] = '%'; len = speedtest1_numbername(i, zNum+1, sizeof(zNum)-2); zNum[len] = '%'; zNum[len+1] = 0; sqlite3_bind_text(g.pStmt, 1, zNum, len, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = 10; speedtest1_begin_test(142, "%d SELECTS w/ORDER BY, unindexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT a, b, c FROM t1 WHERE c LIKE ?1\n" " ORDER BY a; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; zNum[0] = '%'; len = speedtest1_numbername(i, zNum+1, sizeof(zNum)-2); zNum[len] = '%'; zNum[len+1] = 0; sqlite3_bind_text(g.pStmt, 1, zNum, len, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = 10; //g.szTest/5; speedtest1_begin_test(145, "%d SELECTS w/ORDER BY and LIMIT, unindexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT a, b, c FROM t1 WHERE c LIKE ?1\n" " ORDER BY a LIMIT 10; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; zNum[0] = '%'; len = speedtest1_numbername(i, zNum+1, sizeof(zNum)-2); zNum[len] = '%'; zNum[len+1] = 0; sqlite3_bind_text(g.pStmt, 1, zNum, len, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); speedtest1_begin_test(150, "CREATE INDEX five times"); speedtest1_exec("BEGIN;"); speedtest1_exec("CREATE UNIQUE INDEX t1b ON t1(b);"); speedtest1_exec("CREATE INDEX t1c ON t1(c);"); speedtest1_exec("CREATE UNIQUE INDEX t2b ON t2(b);"); speedtest1_exec("CREATE INDEX t2c ON t2(c DESC);"); speedtest1_exec("CREATE INDEX t3bc ON t3(b,c);"); speedtest1_exec("COMMIT;"); speedtest1_end_test(); n = sz/5; speedtest1_begin_test(160, "%d SELECTS, numeric BETWEEN, indexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT count(*), avg(b), sum(length(c)) FROM t1\n" " WHERE b BETWEEN ?1 AND ?2; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; x2 = speedtest1_random()%10 + sz/5000 + x1; sqlite3_bind_int(g.pStmt, 1, x1); sqlite3_bind_int(g.pStmt, 2, x2); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz/5; speedtest1_begin_test(161, "%d SELECTS, numeric BETWEEN, PK", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT count(*), avg(b), sum(length(c)) FROM t2\n" " WHERE a BETWEEN ?1 AND ?2; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; x2 = speedtest1_random()%10 + sz/5000 + x1; sqlite3_bind_int(g.pStmt, 1, x1); sqlite3_bind_int(g.pStmt, 2, x2); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz/5; speedtest1_begin_test(170, "%d SELECTS, text BETWEEN, indexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT count(*), avg(b), sum(length(c)) FROM t1\n" " WHERE c BETWEEN ?1 AND (?1||'~'); -- %d times", n ); for(i=1; i<=n; i++){ x1 = swizzle(i, maxb); len = speedtest1_numbername(x1, zNum, sizeof(zNum)-1); sqlite3_bind_text(g.pStmt, 1, zNum, len, SQLITE_STATIC); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz; speedtest1_begin_test(180, "%d INSERTS with three indexes", n); speedtest1_exec("BEGIN"); speedtest1_exec( "CREATE TABLE t4(\n" " a INTEGER %s %s,\n" " b INTEGER %s,\n" " c TEXT %s\n" ") %s", g.zNN, g.zPK, g.zNN, g.zNN, g.zWR); speedtest1_exec("CREATE INDEX t4b ON t4(b)"); speedtest1_exec("CREATE INDEX t4c ON t4(c)"); speedtest1_exec("INSERT INTO t4 SELECT * FROM t1"); speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz; speedtest1_begin_test(190, "DELETE and REFILL one table", n); speedtest1_exec("DELETE FROM t2;"); speedtest1_exec("INSERT INTO t2 SELECT * FROM t1;"); speedtest1_end_test(); // #include speedtest1_begin_test(200, "VACUUM"); // EM_ASM( alert('pre') ); speedtest1_exec("VACUUM"); // EM_ASM( alert('post') ); speedtest1_end_test(); speedtest1_begin_test(210, "ALTER TABLE ADD COLUMN, and query"); speedtest1_exec("ALTER TABLE t2 ADD COLUMN d DEFAULT 123"); speedtest1_exec("SELECT sum(d) FROM t2"); speedtest1_end_test(); n = sz/5; speedtest1_begin_test(230, "%d UPDATES, numeric BETWEEN, indexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "UPDATE t2 SET d=b*2 WHERE b BETWEEN ?1 AND ?2; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb; x2 = speedtest1_random()%10 + sz/5000 + x1; sqlite3_bind_int(g.pStmt, 1, x1); sqlite3_bind_int(g.pStmt, 2, x2); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz; speedtest1_begin_test(240, "%d UPDATES of individual rows", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "UPDATE t2 SET d=b*3 WHERE a=?1; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%sz + 1; sqlite3_bind_int(g.pStmt, 1, x1); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); speedtest1_begin_test(250, "One big UPDATE of the whole %d-row table", sz); speedtest1_exec("UPDATE t2 SET d=b*4"); speedtest1_end_test(); speedtest1_begin_test(260, "Query added column after filling"); speedtest1_exec("SELECT sum(d) FROM t2"); speedtest1_end_test(); n = sz/5; speedtest1_begin_test(270, "%d DELETEs, numeric BETWEEN, indexed", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "DELETE FROM t2 WHERE b BETWEEN ?1 AND ?2; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%maxb + 1; x2 = speedtest1_random()%10 + sz/5000 + x1; sqlite3_bind_int(g.pStmt, 1, x1); sqlite3_bind_int(g.pStmt, 2, x2); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); n = sz; speedtest1_begin_test(280, "%d DELETEs of individual rows", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "DELETE FROM t3 WHERE a=?1; -- %d times", n ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%sz + 1; sqlite3_bind_int(g.pStmt, 1, x1); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); speedtest1_begin_test(290, "Refill two %d-row tables using REPLACE", sz); speedtest1_exec("REPLACE INTO t2(a,b,c) SELECT a,b,c FROM t1"); speedtest1_exec("REPLACE INTO t3(a,b,c) SELECT a,b,c FROM t1"); speedtest1_end_test(); speedtest1_begin_test(300, "Refill a %d-row table using (b&1)==(a&1)", sz); speedtest1_exec("DELETE FROM t2;"); speedtest1_exec("INSERT INTO t2(a,b,c)\n" " SELECT a,b,c FROM t1 WHERE (b&1)==(a&1);"); speedtest1_exec("INSERT INTO t2(a,b,c)\n" " SELECT a,b,c FROM t1 WHERE (b&1)<>(a&1);"); speedtest1_end_test(); n = sz/5; speedtest1_begin_test(310, "%d four-ways joins", n); speedtest1_exec("BEGIN"); speedtest1_prepare( "SELECT t1.c FROM t1, t2, t3, t4\n" " WHERE t4.a BETWEEN ?1 AND ?2\n" " AND t3.a=t4.b\n" " AND t2.a=t3.b\n" " AND t1.c=t2.c" ); for(i=1; i<=n; i++){ x1 = speedtest1_random()%sz + 1; x2 = speedtest1_random()%10 + x1 + 4; sqlite3_bind_int(g.pStmt, 1, x1); sqlite3_bind_int(g.pStmt, 2, x2); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); speedtest1_begin_test(320, "subquery in result set", n); speedtest1_prepare( "SELECT sum(a), max(c),\n" " avg((SELECT a FROM t2 WHERE 5+t2.b=t1.b) AND rowid0\n" " AND NOT EXISTS (\n" " SELECT 1\n" " FROM digits AS lp\n" " WHERE z.z = substr(s, ((ind-1)/9)*9 + lp, 1)\n" " OR z.z = substr(s, ((ind-1)%%9) + (lp-1)*9 + 1, 1)\n" " OR z.z = substr(s, (((ind-1)/3) %% 3) * 3\n" " + ((ind-1)/27) * 27 + lp\n" " + ((lp-1) / 3) * 6, 1)\n" " )\n" " )\n" "SELECT s FROM x WHERE ind=0;" ); sqlite3_bind_text(g.pStmt, 1, zPuz, -1, SQLITE_STATIC); speedtest1_run(); speedtest1_end_test(); speedtest1_begin_test(200, "Sudoku with VALUES 'digits'"); speedtest1_prepare( "WITH RECURSIVE\n" " input(sud) AS (VALUES(?1)),\n" " digits(z,lp) AS (VALUES('1',1),('2',2),('3',3),('4',4),('5',5),\n" " ('6',6),('7',7),('8',8),('9',9)),\n" " x(s, ind) AS (\n" " SELECT sud, instr(sud, '.') FROM input\n" " UNION ALL\n" " SELECT\n" " substr(s, 1, ind-1) || z || substr(s, ind+1),\n" " instr( substr(s, 1, ind-1) || z || substr(s, ind+1), '.' )\n" " FROM x, digits AS z\n" " WHERE ind>0\n" " AND NOT EXISTS (\n" " SELECT 1\n" " FROM digits AS lp\n" " WHERE z.z = substr(s, ((ind-1)/9)*9 + lp, 1)\n" " OR z.z = substr(s, ((ind-1)%%9) + (lp-1)*9 + 1, 1)\n" " OR z.z = substr(s, (((ind-1)/3) %% 3) * 3\n" " + ((ind-1)/27) * 27 + lp\n" " + ((lp-1) / 3) * 6, 1)\n" " )\n" " )\n" "SELECT s FROM x WHERE ind=0;" ); sqlite3_bind_text(g.pStmt, 1, zPuz, -1, SQLITE_STATIC); speedtest1_run(); speedtest1_end_test(); rSpacing = 5.0/g.szTest; speedtest1_begin_test(300, "Mandelbrot Set with spacing=%f", rSpacing); speedtest1_prepare( "WITH RECURSIVE \n" " xaxis(x) AS (VALUES(-2.0) UNION ALL SELECT x+?1 FROM xaxis WHERE x<1.2),\n" " yaxis(y) AS (VALUES(-1.0) UNION ALL SELECT y+?2 FROM yaxis WHERE y<1.0),\n" " m(iter, cx, cy, x, y) AS (\n" " SELECT 0, x, y, 0.0, 0.0 FROM xaxis, yaxis\n" " UNION ALL\n" " SELECT iter+1, cx, cy, x*x-y*y + cx, 2.0*x*y + cy FROM m \n" " WHERE (x*x + y*y) < 4.0 AND iter<28\n" " ),\n" " m2(iter, cx, cy) AS (\n" " SELECT max(iter), cx, cy FROM m GROUP BY cx, cy\n" " ),\n" " a(t) AS (\n" " SELECT group_concat( substr(' .+*#', 1+min(iter/7,4), 1), '') \n" " FROM m2 GROUP BY cy\n" " )\n" "SELECT group_concat(rtrim(t),x'0a') FROM a;" ); sqlite3_bind_double(g.pStmt, 1, rSpacing*.05); sqlite3_bind_double(g.pStmt, 2, rSpacing); speedtest1_run(); speedtest1_end_test(); nElem = 10000*g.szTest; speedtest1_begin_test(400, "EXCEPT operator on %d-element tables", nElem); speedtest1_prepare( "WITH RECURSIVE \n" " t1(x) AS (VALUES(2) UNION ALL SELECT x+2 FROM t1 WHERE x<%d),\n" " t2(y) AS (VALUES(3) UNION ALL SELECT y+3 FROM t2 WHERE y<%d)\n" "SELECT count(x), avg(x) FROM (\n" " SELECT x FROM t1 EXCEPT SELECT y FROM t2 ORDER BY 1\n" ");", nElem, nElem ); speedtest1_run(); speedtest1_end_test(); } /* Generate two numbers between 1 and mx. The first number is less than ** the second. Usually the numbers are near each other but can sometimes ** be far apart. */ static void twoCoords( int p1, int p2, /* Parameters adjusting sizes */ unsigned mx, /* Range of 1..mx */ unsigned *pX0, unsigned *pX1 /* OUT: write results here */ ){ unsigned d, x0, x1, span; span = mx/100 + 1; if( speedtest1_random()%3==0 ) span *= p1; if( speedtest1_random()%p2==0 ) span = mx/2; d = speedtest1_random()%span + 1; x0 = speedtest1_random()%(mx-d) + 1; x1 = x0 + d; *pX0 = x0; *pX1 = x1; } /* The following routine is an R-Tree geometry callback. It returns ** true if the object overlaps a slice on the Y coordinate between the ** two values given as arguments. In other words ** ** SELECT count(*) FROM rt1 WHERE id MATCH xslice(10,20); ** ** Is the same as saying: ** ** SELECT count(*) FROM rt1 WHERE y1>=10 AND y0<=20; */ static int xsliceGeometryCallback( sqlite3_rtree_geometry *p, int nCoord, double *aCoord, int *pRes ){ *pRes = aCoord[3]>=p->aParam[0] && aCoord[2]<=p->aParam[1]; return SQLITE_OK; } /* ** A testset for the R-Tree virtual table */ void testset_rtree(int p1, int p2){ unsigned i, n; unsigned mxCoord; unsigned x0, x1, y0, y1, z0, z1; unsigned iStep; int *aCheck = sqlite3_malloc( sizeof(int)*g.szTest*100 ); mxCoord = 15000; n = g.szTest*100; speedtest1_begin_test(100, "%d INSERTs into an r-tree", n); speedtest1_exec("BEGIN"); speedtest1_exec("CREATE VIRTUAL TABLE rt1 USING rtree(id,x0,x1,y0,y1,z0,z1)"); speedtest1_prepare("INSERT INTO rt1(id,x0,x1,y0,y1,z0,z1)" "VALUES(?1,?2,?3,?4,?5,?6,?7)"); for(i=1; i<=n; i++){ twoCoords(p1, p2, mxCoord, &x0, &x1); twoCoords(p1, p2, mxCoord, &y0, &y1); twoCoords(p1, p2, mxCoord, &z0, &z1); sqlite3_bind_int(g.pStmt, 1, i); sqlite3_bind_int(g.pStmt, 2, x0); sqlite3_bind_int(g.pStmt, 3, x1); sqlite3_bind_int(g.pStmt, 4, y0); sqlite3_bind_int(g.pStmt, 5, y1); sqlite3_bind_int(g.pStmt, 6, z0); sqlite3_bind_int(g.pStmt, 7, z1); speedtest1_run(); } speedtest1_exec("COMMIT"); speedtest1_end_test(); speedtest1_begin_test(101, "Copy from rtree to a regular table"); speedtest1_exec("CREATE TABLE t1(id INTEGER PRIMARY KEY,x0,x1,y0,y1,z0,z1)"); speedtest1_exec("INSERT INTO t1 SELECT * FROM rt1"); speedtest1_end_test(); n = g.szTest*20; speedtest1_begin_test(110, "%d one-dimensional intersect slice queries", n); speedtest1_prepare("SELECT count(*) FROM rt1 WHERE x0>=?1 AND x1<=?2"); iStep = mxCoord/n; for(i=0; i=?1 AND x1<=?2"); iStep = mxCoord/n; for(i=0; i=?1 AND y0<=?2"); iStep = mxCoord/n; for(i=0; i=?1 AND y0<=?2"); iStep = mxCoord/n; for(i=0; i=?1 AND x0<=?2" " AND y1>=?1 AND y0<=?2 AND z1>=?1 AND z0<=?2"); iStep = mxCoord/n; for(i=0; i=argc-1 ) fatal_error("missing argument on %s\n", argv[i]); i++; cacheSize = integerValue(argv[i]); }else if( strcmp(z,"exclusive")==0 ){ doExclusive = 1; }else if( strcmp(z,"explain")==0 ){ g.bSqlOnly = 1; g.bExplain = 1; }else if( strcmp(z,"heap")==0 ){ if( i>=argc-2 ) fatal_error("missing arguments on %s\n", argv[i]); nHeap = integerValue(argv[i+1]); mnHeap = integerValue(argv[i+2]); i += 2; }else if( strcmp(z,"incrvacuum")==0 ){ doIncrvac = 1; }else if( strcmp(z,"journal")==0 ){ if( i>=argc-1 ) fatal_error("missing argument on %s\n", argv[i]); zJMode = argv[++i]; }else if( strcmp(z,"key")==0 ){ if( i>=argc-1 ) fatal_error("missing argument on %s\n", argv[i]); zKey = argv[++i]; }else if( strcmp(z,"lookaside")==0 ){ if( i>=argc-2 ) fatal_error("missing arguments on %s\n", argv[i]); nLook = integerValue(argv[i+1]); szLook = integerValue(argv[i+2]); i += 2; }else if( strcmp(z,"nosync")==0 ){ noSync = 1; }else if( strcmp(z,"notnull")==0 ){ g.zNN = "NOT NULL"; }else if( strcmp(z,"pagesize")==0 ){ if( i>=argc-1 ) fatal_error("missing argument on %s\n", argv[i]); pageSize = integerValue(argv[++i]); }else if( strcmp(z,"pcache")==0 ){ if( i>=argc-2 ) fatal_error("missing arguments on %s\n", argv[i]); nPCache = integerValue(argv[i+1]); szPCache = integerValue(argv[i+2]); i += 2; }else if( strcmp(z,"primarykey")==0 ){ g.zPK = "PRIMARY KEY"; }else if( strcmp(z,"reprepare")==0 ){ g.bReprepare = 1; }else if( strcmp(z,"scratch")==0 ){ if( i>=argc-2 ) fatal_error("missing arguments on %s\n", argv[i]); nScratch = integerValue(argv[i+1]); szScratch = integerValue(argv[i+2]); i += 2; }else if( strcmp(z,"sqlonly")==0 ){ g.bSqlOnly = 1; }else if( strcmp(z,"size")==0 ){ if( i>=argc-1 ) fatal_error("missing argument on %s\n", argv[i]); g.szTest = integerValue(argv[++i]); }else if( strcmp(z,"stats")==0 ){ showStats = 1; }else if( strcmp(z,"testset")==0 ){ if( i>=argc-1 ) fatal_error("missing argument on %s\n", argv[i]); zTSet = argv[++i]; }else if( strcmp(z,"trace")==0 ){ doTrace = 1; }else if( strcmp(z,"utf16le")==0 ){ zEncoding = "utf16le"; }else if( strcmp(z,"utf16be")==0 ){ zEncoding = "utf16be"; }else if( strcmp(z,"verify")==0 ){ g.bVerify = 1; }else if( strcmp(z,"without-rowid")==0 ){ g.zWR = "WITHOUT ROWID"; g.zPK = "PRIMARY KEY"; }else if( strcmp(z, "help")==0 || strcmp(z,"?")==0 ){ printf(zHelp, argv[0]); exit(0); }else{ fatal_error("unknown option: %s\nUse \"%s -?\" for help\n", argv[i], argv[0]); } }else if( zDbName==0 ){ zDbName = argv[i]; }else{ fatal_error("surplus argument: %s\nUse \"%s -?\" for help\n", argv[i], argv[0]); } } #if 0 if( zDbName==0 ){ fatal_error(zHelp, argv[0]); } #endif if( nHeap>0 ){ pHeap = malloc( nHeap ); if( pHeap==0 ) fatal_error("cannot allocate %d-byte heap\n", nHeap); rc = sqlite3_config(SQLITE_CONFIG_HEAP, pHeap, nHeap, mnHeap); if( rc ) fatal_error("heap configuration failed: %d\n", rc); } if( nPCache>0 && szPCache>0 ){ pPCache = malloc( nPCache*(sqlite3_int64)szPCache ); if( pPCache==0 ) fatal_error("cannot allocate %lld-byte pcache\n", nPCache*(sqlite3_int64)szPCache); rc = sqlite3_config(SQLITE_CONFIG_PAGECACHE, pPCache, szPCache, nPCache); if( rc ) fatal_error("pcache configuration failed: %d\n", rc); } if( nScratch>0 && szScratch>0 ){ pScratch = malloc( nScratch*(sqlite3_int64)szScratch ); if( pScratch==0 ) fatal_error("cannot allocate %lld-byte scratch\n", nScratch*(sqlite3_int64)szScratch); rc = sqlite3_config(SQLITE_CONFIG_SCRATCH, pScratch, szScratch, nScratch); if( rc ) fatal_error("scratch configuration failed: %d\n", rc); } if( nLook>0 ){ sqlite3_config(SQLITE_CONFIG_LOOKASIDE, 0, 0); } /* Open the database and the input file */ if( sqlite3_open(":memory:", &g.db) ){ fatal_error("Cannot open database file: %s\n", zDbName); } if( nLook>0 && szLook>0 ){ pLook = malloc( nLook*szLook ); rc = sqlite3_db_config(g.db, SQLITE_DBCONFIG_LOOKASIDE, pLook, szLook,nLook); if( rc ) fatal_error("lookaside configuration failed: %d\n", rc); } /* Set database connection options */ sqlite3_create_function(g.db, "random", 0, SQLITE_UTF8, 0, randomFunc, 0, 0); if( doTrace ) sqlite3_trace(g.db, traceCallback, 0); if( zKey ){ speedtest1_exec("PRAGMA key('%s')", zKey); } if( zEncoding ){ speedtest1_exec("PRAGMA encoding=%s", zEncoding); } if( doAutovac ){ speedtest1_exec("PRAGMA auto_vacuum=FULL"); }else if( doIncrvac ){ speedtest1_exec("PRAGMA auto_vacuum=INCREMENTAL"); } if( pageSize ){ speedtest1_exec("PRAGMA page_size=%d", pageSize); } if( cacheSize ){ speedtest1_exec("PRAGMA cache_size=%d", cacheSize); } if( noSync ) speedtest1_exec("PRAGMA synchronous=OFF"); if( doExclusive ){ speedtest1_exec("PRAGMA locking_mode=EXCLUSIVE"); } if( zJMode ){ speedtest1_exec("PRAGMA journal_mode=%s", zJMode); } if( g.bExplain ) printf(".explain\n.echo on\n"); if( strcmp(zTSet,"main")==0 ){ testset_main(); }else if( strcmp(zTSet,"debug1")==0 ){ testset_debug1(); }else if( strcmp(zTSet,"cte")==0 ){ testset_cte(); }else if( strcmp(zTSet,"rtree")==0 ){ testset_rtree(6, 147); }else{ fatal_error("unknown testset: \"%s\"\nChoices: main debug1 cte rtree\n", zTSet); } speedtest1_final(); /* Database connection statistics printed after both prepared statements ** have been finalized */ #if SQLITE_VERSION_NUMBER>=3007009 if( showStats ){ sqlite3_db_status(g.db, SQLITE_DBSTATUS_LOOKASIDE_USED, &iCur, &iHi, 0); printf("-- Lookaside Slots Used: %d (max %d)\n", iCur,iHi); sqlite3_db_status(g.db, SQLITE_DBSTATUS_LOOKASIDE_HIT, &iCur, &iHi, 0); printf("-- Successful lookasides: %d\n", iHi); sqlite3_db_status(g.db, SQLITE_DBSTATUS_LOOKASIDE_MISS_SIZE, &iCur,&iHi,0); printf("-- Lookaside size faults: %d\n", iHi); sqlite3_db_status(g.db, SQLITE_DBSTATUS_LOOKASIDE_MISS_FULL, &iCur,&iHi,0); printf("-- Lookaside OOM faults: %d\n", iHi); sqlite3_db_status(g.db, SQLITE_DBSTATUS_CACHE_USED, &iCur, &iHi, 0); printf("-- Pager Heap Usage: %d bytes\n", iCur); sqlite3_db_status(g.db, SQLITE_DBSTATUS_CACHE_HIT, &iCur, &iHi, 1); printf("-- Page cache hits: %d\n", iCur); sqlite3_db_status(g.db, SQLITE_DBSTATUS_CACHE_MISS, &iCur, &iHi, 1); printf("-- Page cache misses: %d\n", iCur); #if SQLITE_VERSION_NUMBER>=3007012 sqlite3_db_status(g.db, SQLITE_DBSTATUS_CACHE_WRITE, &iCur, &iHi, 1); printf("-- Page cache writes: %d\n", iCur); #endif sqlite3_db_status(g.db, SQLITE_DBSTATUS_SCHEMA_USED, &iCur, &iHi, 0); printf("-- Schema Heap Usage: %d bytes\n", iCur); sqlite3_db_status(g.db, SQLITE_DBSTATUS_STMT_USED, &iCur, &iHi, 0); printf("-- Statement Heap Usage: %d bytes\n", iCur); } #endif sqlite3_close(g.db); /* Global memory usage statistics printed after the database connection ** has closed. Memory usage should be zero at this point. */ if( showStats ){ sqlite3_status(SQLITE_STATUS_MEMORY_USED, &iCur, &iHi, 0); printf("-- Memory Used (bytes): %d (max %d)\n", iCur,iHi); #if SQLITE_VERSION_NUMBER>=3007000 sqlite3_status(SQLITE_STATUS_MALLOC_COUNT, &iCur, &iHi, 0); printf("-- Outstanding Allocations: %d (max %d)\n", iCur,iHi); #endif sqlite3_status(SQLITE_STATUS_PAGECACHE_OVERFLOW, &iCur, &iHi, 0); printf("-- Pcache Overflow Bytes: %d (max %d)\n", iCur,iHi); sqlite3_status(SQLITE_STATUS_SCRATCH_OVERFLOW, &iCur, &iHi, 0); printf("-- Scratch Overflow Bytes: %d (max %d)\n", iCur,iHi); sqlite3_status(SQLITE_STATUS_MALLOC_SIZE, &iCur, &iHi, 0); printf("-- Largest Allocation: %d bytes\n",iHi); sqlite3_status(SQLITE_STATUS_PAGECACHE_SIZE, &iCur, &iHi, 0); printf("-- Largest Pcache Allocation: %d bytes\n",iHi); sqlite3_status(SQLITE_STATUS_SCRATCH_SIZE, &iCur, &iHi, 0); printf("-- Largest Scratch Allocation: %d bytes\n", iHi); } /* Release memory */ free( pLook ); free( pPCache ); free( pScratch ); free( pHeap ); return 0; }