/************************************************************************* * * * YAP Prolog * * * * Yap Prolog was developed at NCCUP - Universidade do Porto * * * * Copyright L.Damas, V.S.Costa and Universidade do Porto 1985-1997 * * * ************************************************************************** * * * File: myddas_sqlite3.c * * Last rev: 22/03/05 * * mods: * * comments: Predicates for comunicating with a sqlite3 database system * * * *************************************************************************/ #ifdef MYDDAS_SQLITE3 #include #include #include #include #include "Yap.h" #include "Yatom.h" #include "YapText.h" #include "cut_c.h" #include "eval.h" #include "myddas.h" #ifdef MYDDAS_STATS #include "myddas_structs.h" #include "myddas_statistics.h" #endif #include "myddas_wkb2prolog.h" #define CALL_SQLITE(f) \ { \ int i; \ i = sqlite3_ ## f; \ if (i != SQLITE_OK) { \ fprintf (stderr, "%s failed with status %d: %s\n", \ #f, i, sqlite3_errmsg (db)); \ exit (1); \ } \ } \ #define CALL_SQLITE_EXPECT(f,x) \ { \ int i; \ i = sqlite3_ ## f; \ if (i != SQLITE_ ## x) { \ fprintf (stderr, "%s failed with status %d: %s\n", \ #f, i, sqlite3_errmsg (db)); \ exit (1); \ } \ } \ static Int null_id = 0; typedef struct result_set { sqlite3_stmt *stmt; sqlite3 *db; char **res_set; int nrows; int length; } resultSet; void Yap_InitMYDDAS_SQLITE3Preds(void); void Yap_InitBackMYDDAS_SQLITE3Preds(void); static Int c_sqlite3_connect( USES_REGS1 ); static Int c_sqlite3_disconnect( USES_REGS1 ); static Int c_sqlite3_number_of_fields( USES_REGS1 ); static Int c_sqlite3_get_attributes_types( USES_REGS1 ); static Int c_sqlite3_query( USES_REGS1 ); static Int c_sqlite3_table_write( USES_REGS1 ); static Int c_sqlite3_row( USES_REGS1 ); static Int c_sqlite3_row_cut( USES_REGS1 ); static Int c_sqlite3_get_fields_properties( USES_REGS1 ); static Int c_sqlite3_get_next_result_set( USES_REGS1 ); static Int c_sqlite3_get_database( USES_REGS1 ); static Int c_sqlite3_change_database( USES_REGS1 ); void Yap_InitMYDDAS_SQLITE3Preds(void) { /* db_dbect: Host x User x Passwd x Database x dbection x ERROR_CODE */ Yap_InitCPred("c_sqlite3_connect", 4, c_sqlite3_connect, 0); /* db_number_of_fields: Relation x connection x NumberOfFields */ Yap_InitCPred("c_sqlite3_number_of_fields",3, c_sqlite3_number_of_fields, 0); /* db_get_attributes_types: Relation x TypesList */ Yap_InitCPred("c_sqlite3_get_attributes_types", 3, c_sqlite3_get_attributes_types, 0); /* db_query: SQLQuery x ResultSet x conection */ Yap_InitCPred("c_sqlite3_query", 5, c_sqlite3_query, 0); /* db_disconnect: connection */ Yap_InitCPred("c_sqlite3_disconnect", 1,c_sqlite3_disconnect, 0); /* db_table_write: Result Set */ Yap_InitCPred("c_sqlite3_table_write", 1, c_sqlite3_table_write, 0); /* db_get_fields_properties: PredName x connection x PropertiesList*/ Yap_InitCPred("c_sqlite3_get_fields_properties",3,c_sqlite3_get_fields_properties,0); Yap_InitCPred("c_sqlite3_get_next_result_set",2,c_sqlite3_get_next_result_set,0); /* c_sqlite3_get_database: connection x DataBaseName */ Yap_InitCPred("c_sqlite3_get_database",2,c_sqlite3_get_database,0); /* c_sqlite3_change_database: connection x DataBaseName */ Yap_InitCPred("c_sqlite3_change_database",2,c_sqlite3_change_database,0); } void Yap_InitBackMYDDAS_SQLITE3Preds(void) { /* db_row: ResultSet x Arity x ListOfArgs */ Yap_InitCPredBackCut("c_sqlite3_row", 3, sizeof(Int), c_sqlite3_row, c_sqlite3_row, c_sqlite3_row_cut, 0); } static Int c_sqlite3_connect( USES_REGS1 ) { Term arg_file = Deref(ARG1); Term arg_db = ARG4; MYDDAS_UTIL_CONNECTION new = NULL; sqlite3 *db; char *file = AtomName(AtomOfTerm(arg_file)); CALL_SQLITE( open(file, &db) ); if (!Yap_unify(arg_db, MkAddressTerm(db))) return FALSE; else { /* Criar um novo no na lista de ligacoes*/ new = myddas_util_add_connection(db,NULL,API_SQLITE3); if (new == NULL){ #ifdef DEBUG fprintf(stderr, "ERROR: ** c_db_my_connect ** Error allocating memory\n"); #endif return FALSE; } return TRUE; } } static MYDDAS_STATS_TIME myddas_stat_init_query( sqlite3 *db ) { #ifdef MYDDAS_STATS MYDDAS_UTIL_connecTION node = myddas_util_search_connection(db); MyddasULInt count = 0; /* Count the number of querys made to the server */ MyddasULInt number_querys; MYDDAS_STATS_CON_GET_NUMBER_QUERIES_MADE(node,number_querys); MYDDAS_STATS_CON_SET_NUMBER_QUERIES_MADE(node,++number_querys); MYDDAS_STATS_CON_GET_NUMBER_QUERIES_MADE_COUNT(node,count); MYDDAS_STATS_CON_SET_NUMBER_QUERIES_MADE_COUNT(node,++count); /* Measure time spent by the sqlite3 Server processing the SQL Query */ return myddas_stats_walltime(); #else return NULL; #endif } static MYDDAS_STATS_TIME myddas_stat_end_query( MYDDAS_STATS_TIME start ) { MYDDAS_STATS_TIME diff = NULL; #ifdef MYDDAS_STATS /* Measure time spent by the sqlite3 Server processing the SQL Query */ end = myddas_stats_walltime(); MYDDAS_STATS_INITIALIZE_TIME_STRUCT(diff,time_copy); myddas_stats_subtract_time(diff,end,start); diff = myddas_stats_time_copy_to_final(diff); MYDDAS_FREE(end,struct myddas_stats_time_struct); MYDDAS_FREE(start,struct myddas_stats_time_struct); MYDDAS_STATS_CON_GET_TOTAL_TIME_DBSERVER(node,total_time); /* Automacally updates the MYDDAS_STRUCTURE */ myddas_stats_add_time(total_time,diff,total_time); MYDDAS_STATS_CON_GET_TOTAL_TIME_DBSERVER_COUNT(node,count); MYDDAS_STATS_CON_SET_TOTAL_TIME_DBSERVER_COUNT(node,++count); MYDDAS_STATS_TIME time = NULL; MYDDAS_STATS_CON_GET_LAST_TIME_DBSERVER(node,time); myddas_stats_move_time(diff,time); MYDDAS_STATS_CON_GET_LAST_TIME_DBSERVER_COUNT(node,count); MYDDAS_STATS_CON_SET_LAST_TIME_DBSERVER_COUNT(node,++count); #endif return diff; } #ifdef MYDDAS_STATS /* measure transfer time */ static void myddas_stat_transfer_query( MYDDAS_STATS_TIME diff ) { /* Measure time spent by the sqlite3 Server transferring the result of the last query back to the client */ start = myddas_stats_walltime(); /* Measure time spent by the sqlite3 Server transferring the result of the last query back to the client */ end = myddas_stats_walltime(); MYDDAS_STATS_INITIALIZE_TIME_STRUCT(diff,time_copy); myddas_stats_subtract_time(diff,end,start); diff = MYDDAS_STATS_TIME_copy_to_final(diff); MYDDAS_FREE(end,struct myddas_stats_time_struct); MYDDAS_FREE(start,struct myddas_stats_time_struct); MYDDAS_STATS_CON_GET_TOTAL_TIME_TRANSFERING(node,total_time); /* Automacally updates the MYDDAS_STRUCTURE */ myddas_stats_add_time(total_time,diff,total_time); MYDDAS_STATS_CON_GET_TOTAL_TIME_TRANSFERING_COUNT(node,count); MYDDAS_STATS_CON_SET_TOTAL_TIME_TRANSFERING_COUNT(node,++count); time = NULL; MYDDAS_STATS_CON_GET_LAST_TIME_TRANSFERING(node,time); MYDDAS_STATS_CON_GET_LAST_TIME_TRANSFERING_COUNT(node,count); MYDDAS_STATS_CON_SET_LAST_TIME_TRANSFERING_COUNT(node,++count); myddas_stats_move_time(diff,time); /* Measure the number of Rows returned from the server */ if (res_set != NULL) { /* With an INSERT statement, sqlite3_(use or store)_result() returns a NULL pointer*/ /* This is only works if we use sqlite3_store_result */ MyddasUInt numberRows = sqlite3_num_rows(res_set); MyddasUInt rows; myddas_stat_transfer_query( diff ); MYDDAS_STATS_CON_GET_TOTAL_ROWS(node,rows); numberRows = numberRows + rows; MYDDAS_STATS_CON_SET_TOTAL_ROWS(node,numberRows); MYDDAS_STATS_CON_GET_TOTAL_ROWS_COUNT(node,count); MYDDAS_STATS_CON_SET_TOTAL_ROWS_COUNT(node,++count); /* Calculate the ammount of data sent by the server */ MyddasUInt total,number_fields = sqlite3_num_fields(res_set); sqlite3_ROW row; MyddasULInt i; total=0; while ((row = sqlite3_fetch_row(res_set)) != NULL){ sqlite3_field_seek(res_set,0); for(i=0;idb = db; start = myddas_stat_init_query( db ); /* Send query to server and process it */ if (strcmp(mode,"store_result")!=0) { // Leave data for extraction printf(" SQL 0: %s\n", sql); CALL_SQLITE (prepare_v2(db, sql, -1, &stmt, NULL) ); rs->stmt = stmt; rs->res_set = NULL; rs->nrows = -1; rs->length = sqlite3_column_count( stmt ); if (!Yap_unify(arg_arity, MkIntegerTerm(rs->length))) { free(rs); return FALSE; } if (!Yap_unify(arg_result_set, MkAddressTerm( rs))) { free(rs); return FALSE; } return TRUE; } else{ // construct an intermediate table, res_set char **res_set; char *msg; int nrows; CALL_SQLITE (get_table(db, sql, &res_set, &nrows, &length, &msg) ); //end = myddas_stat_end_query( start ); if (res_set == NULL) { #ifdef DEBUG printf("Empty Query!\n"); #endif return TRUE; } //INSERT statements don't return any res_set if (nrows == 0) { return TRUE; } if (!Yap_unify(arg_arity, MkIntegerTerm(nrows))){ free(rs); sqlite3_free_table(res_set); return FALSE; } rs->stmt = NULL; rs->res_set = res_set; rs->nrows = nrows; rs->length = length; if (!Yap_unify(arg_result_set, MkAddressTerm( rs))) { free(rs); sqlite3_free_table(res_set); return FALSE; } } return TRUE; } static Int c_sqlite3_number_of_fields( USES_REGS1 ) { Term arg_relation = Deref(ARG1); Term arg_db = Deref(ARG2); Term arg_fields = ARG3; char *relation = AtomName(AtomOfTerm(arg_relation)); sqlite3 *db = AddressOfTerm(arg_db); sqlite3_stmt *stmt; char sql[256]; sprintf(sql,"SELECT * FROM `%s`",relation); /* executar a query SQL */ printf(" SQL 1: %s\n", sql); CALL_SQLITE (prepare_v2(db, sql, -1, &stmt, NULL) ); int fields = sqlite3_column_count( stmt ); CALL_SQLITE (finalize( stmt ) ); return Yap_unify(arg_fields, MkIntegerTerm( fields )); } /* db_get_attributes_types: RelName x connection -> TypesList */ static Int c_sqlite3_get_attributes_types( USES_REGS1 ) { Term arg_relation = Deref(ARG1); Term arg_db = Deref(ARG2); Term arg_types_list = Deref(ARG3); Term list, head; char *relation = AtomName(AtomOfTerm(arg_relation)); sqlite3 *db = (sqlite3 *) IntegerOfTerm(arg_db); char sql[256]; int row; sqlite3_stmt *stmt; Int rc = TRUE; sprintf(sql,"SELECT * FROM `%s`",relation); /* executar a query SQL */ printf(" SQL 3: %s\n", sql); CALL_SQLITE (prepare_v2(db, sql, -1, &stmt, NULL) ); int fields = sqlite3_column_count( stmt ); list = arg_types_list; for (row = 0; row < fields; row++) { const char *tm; head = HeadOfTerm(list); rc = ( rc && Yap_unify(head, MkAtomTerm(Yap_LookupAtom(sqlite3_column_name(stmt, row))) ) ); list = TailOfTerm(list); head = HeadOfTerm(list); list = TailOfTerm(list); int type = sqlite3_column_type(stmt,row ); switch(type) { case SQLITE_INTEGER: tm = "integer"; break; case SQLITE_FLOAT: tm = "real"; break; case SQLITE_TEXT: tm = "string"; break; case SQLITE_BLOB: tm = "blob"; break; case SQLITE_NULL: default: tm = ""; break; } if (!Yap_unify(head, MkAtomTerm(Yap_LookupAtom(tm))) ) rc = FALSE; } CALL_SQLITE (finalize( stmt ) ); return rc; } /* db_disconnect */ static Int c_sqlite3_disconnect( USES_REGS1 ) { Term arg_db = Deref(ARG1); sqlite3 *db = (sqlite3 *) IntegerOfTerm(arg_db); if ((myddas_util_search_connection(db)) != NULL) { myddas_util_delete_connection(db); sqlite3_close(db); return TRUE; } else { return FALSE; } } /* db_table_write: Result Set */ static Int c_sqlite3_table_write( USES_REGS1 ) { /* Term arg_res_set = Deref(ARG1); sqlite3_RES *res_set = (sqlite3_RES *) IntegerOfTerm(arg_res_set); mydas_util_table_write(res_set); sqlite3_free_result(res_set); */ return TRUE; } static Int c_sqlite3_get_fields_properties( USES_REGS1 ) { Term nome_relacao = Deref(ARG1); Term arg_db = Deref(ARG2); Term fields_properties_list = Deref(ARG3); Term head, list; char *relation = AtomName(AtomOfTerm(nome_relacao)); char sql[256]; Int num_fields,i; sqlite3 *db = (sqlite3 *) (IntegerOfTerm(arg_db)); sqlite3_stmt *stmt; sprintf(sql,"SELECT * FROM `%s`",relation); /* executar a query SQL */ printf(" SQL 4: %s\n", sql); CALL_SQLITE (prepare_v2(db, sql, -1, &stmt, NULL) ); Functor functor = Yap_MkFunctor(Yap_LookupAtom("property"),4); Term properties[4]; list = fields_properties_list; num_fields = sqlite3_column_count( stmt ); for (i=0;istmt = stmt; rs->res_set = NULL; rs->nrows = -1; rs->length = sqlite3_column_count( stmt ); rs->db = db; Yap_unify(arg_next_res_set, MkAddressTerm(rs)); } return TRUE; } static Int c_sqlite3_get_database( USES_REGS1 ) { Term arg_con = Deref(ARG1); Term arg_database = Deref(ARG2); if (!Yap_unify(arg_database,arg_con)) return FALSE; return TRUE; } static Int c_sqlite3_change_database( USES_REGS1 ) { /* no-op for now */ return TRUE; } static Int c_sqlite3_row_cut( USES_REGS1 ) { struct result_set *res_set=NULL; res_set = AddressOfTerm(CBACK_CUT_ARG(1)); sqlite3 *db = res_set->db; CALL_SQLITE( finalize( res_set->stmt ) ); free(res_set); return TRUE; } #define cvt( s ) cvt__( s PASS_REGS ) static Term cvt__(const char *s USES_REGS) { return Yap_CharsToTDQ( s, CurrentModule PASS_REGS); } /* db_row: ResultSet x Arity_ListOfArgs x ListOfArgs -> */ static Int c_sqlite3_row( USES_REGS1 ) { #ifdef MYDDAS_STATS /* Measure time used by the */ /* c_sqlite3_row function */ //MYDDAS_STATS_TIME start,end,total_time,diff; MyddasULInt count = 0; start = myddas_stats_walltime(); #endif Term arg_result_set = Deref(ARG1); Term arg_arity = Deref(ARG2); Term arg_list_args = Deref(ARG3); Int rc = TRUE; if (IsVarTerm( arg_result_set ) ) { if (!c_sqlite3_query( PASS_REGS1 ) ) { cut_fail(); } arg_result_set = Deref(ARG1); EXTRA_CBACK_ARG(3,1)= arg_result_set ; EXTRA_CBACK_ARG(3,2)= MkIntegerTerm(0) ; } struct result_set *res_set = AddressOfTerm(arg_result_set); Term head, list, null_atom[1]; Int i, arity; list = arg_list_args; arity = IntegerOfTerm(arg_arity); sqlite3 *db = res_set->db; if (res_set->stmt == NULL ) { CACHE_REGS Int indx = IntegerOfTerm(EXTRA_CBACK_ARG(3,2)); Int rc = true; // data needs to be copied to Prolog // row by row #ifdef MYDDAS_STATS MYDDAS_STATS_TIME diff; MYDDAS_STATS_INITIALIZE_TIME_STRUCT(diff,time_copy); #endif while (indx/arity < res_set->nrows) { for (i = 0; i < arity; i++) { /* Ts -> List */ const char *field = res_set->res_set[indx++]; head = HeadOfTerm(list); list = TailOfTerm(list); rc = (rc && Yap_unify(head, cvt( field )) ); } if (rc) return rc; } #ifdef MYDDAS_STATS myddas_stat_transfer_query( diff ); #endif cut_fail(); } // busy-waiting int res; while((res = sqlite3_step(res_set->stmt)) == SQLITE_BUSY); if (res == SQLITE_DONE) { // no more data CALL_SQLITE (finalize( res_set->stmt ) ); free(res_set); #ifdef MYDDAS_STATS end = myddas_stats_walltime(); MYDDAS_STATS_INITIALIZE_TIME_STRUCT(diff,time_copy); myddas_stats_subtract_time(diff,end,start); diff = myddas_stats_time_copy_to_final(diff); MYDDAS_FREE(end,struct myddas_stats_time_struct); MYDDAS_FREE(start,struct myddas_stats_time_struct); MYDDAS_STATS_GET_DB_ROW_FUNCTION(total_time); myddas_stats_add_time(total_time,diff,total_time); MYDDAS_STATS_GET_DB_ROW_FUNCTION_COUNT(count); MYDDAS_STATS_SET_DB_ROW_FUNCTION_COUNT(++count); MYDDAS_FREE(diff,struct myddas_stats_time_struct); #endif /* MYDDAS_STATS */ cut_fail(); /* This macro already does a return FALSE */ } else if (res == SQLITE_ROW) { list = arg_list_args; Term tf; for (i = 0; i < arity; i++) { /* convert data types here */ head = HeadOfTerm(list); list = TailOfTerm(list); int type = sqlite3_column_type(res_set->stmt, i); switch(type) { case SQLITE_INTEGER: tf = Yap_Mk64IntegerTerm( sqlite3_column_int64(res_set->stmt, i)); break; case SQLITE_FLOAT: tf = MkFloatTerm( sqlite3_column_double(res_set->stmt, i)); break; case SQLITE_TEXT: tf = MkAtomTerm( Yap_LookupAtom((const char *)sqlite3_column_text(res_set->stmt, i) )); break; case SQLITE_BLOB: { size_t bytes = sqlite3_column_bytes(res_set->stmt, i); tf = Yap_AllocExternalDataInStack(EXTERNAL_BLOB, bytes); memcpy( ExternalBlobFromTerm( tf ), sqlite3_column_blob(res_set->stmt, i), bytes ); } break; case SQLITE_NULL: null_atom[0] = MkIntegerTerm(null_id++); tf = Yap_MkApplTerm(Yap_MkFunctor(Yap_LookupAtom("null"),1),1,null_atom); break; } if (!Yap_unify(head, tf)) rc = FALSE; } #ifdef MYDDAS_STATS end = myddas_stats_walltime(); myddas_stats_subtract_time(diff,end,start); diff = myddas_stats_time_copy_to_final(diff); MYDDAS_FREE(end,struct myddas_stats_time_struct); MYDDAS_FREE(start,struct myddas_stats_time_struct); MYDDAS_STATS_GET_DB_ROW_FUNCTION(total_time); myddas_stats_add_time(total_time,diff,total_time); MYDDAS_STATS_GET_DB_ROW_FUNCTION_COUNT(count); MYDDAS_STATS_SET_DB_ROW_FUNCTION_COUNT(++count); MYDDAS_FREE(diff,struct myddas_stats_time_struct); #endif /* MYDDAS_STATS */ } else { Yap_Error(SYSTEM_ERROR, TermNil, "sqlite3: %s", sqlite3_errmsg( db ) ); } return rc; } #endif /* MYDDAS_sqlite3 */