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Direktori : /proc/thread-self/root/proc/thread-self/root/usr/lib64/perl5/vendor_perl/auto/DBI/ |
Current File : //proc/thread-self/root/proc/thread-self/root/usr/lib64/perl5/vendor_perl/auto/DBI/Driver.xst |
# $Id$ # Copyright (c) 1997-2002 Tim Bunce Ireland # Copyright (c) 2002 Jonathan Leffler # # You may distribute under the terms of either the GNU General Public # License or the Artistic License, as specified in the Perl README file. #include "Driver_xst.h" # Historically dbd_db_do4, dbd_st_execute, and dbd_st_rows returned an 'int' type. # That's only 32 bits (31+sign) so isn't sufficient for very large row counts # So now instead of defining those macros, drivers can define dbd_db_do4_iv, # dbd_st_execute_iv, and dbd_st_rows_iv to be the names of functions that # return an 'IV' type. They could also set DBIc_ROW_COUNT(imp_sth). # # To save a mess of #ifdef's we arrange for dbd_st_execute (etc) to work # as dbd_st_execute_iv if that's defined # #if defined(dbd_st_execute_iv) #undef dbd_st_execute #define dbd_st_execute dbd_st_execute_iv #endif #if defined(dbd_st_rows_iv) #undef dbd_st_rows #define dbd_st_rows dbd_st_rows_iv #endif #if defined(dbd_db_do4_iv) #undef dbd_db_do4 #define dbd_db_do4 dbd_db_do4_iv #endif MODULE = DBD::~DRIVER~ PACKAGE = DBD::~DRIVER~ REQUIRE: 1.929 PROTOTYPES: DISABLE BOOT: PERL_UNUSED_VAR(items); DBISTATE_INIT; /* XXX this interface will change: */ DBI_IMP_SIZE("DBD::~DRIVER~::dr::imp_data_size", sizeof(imp_drh_t)); DBI_IMP_SIZE("DBD::~DRIVER~::db::imp_data_size", sizeof(imp_dbh_t)); DBI_IMP_SIZE("DBD::~DRIVER~::st::imp_data_size", sizeof(imp_sth_t)); dbd_init(DBIS); # ------------------------------------------------------------ # driver level interface # ------------------------------------------------------------ MODULE = DBD::~DRIVER~ PACKAGE = DBD::~DRIVER~::dr void dbixs_revision(...) PPCODE: ST(0) = sv_2mortal(newSViv(DBIXS_REVISION)); #ifdef dbd_discon_all # disconnect_all renamed and ALIAS'd to avoid length clash on VMS :-( void discon_all_(drh) SV * drh ALIAS: disconnect_all = 1 CODE: D_imp_drh(drh); PERL_UNUSED_VAR(ix); ST(0) = dbd_discon_all(drh, imp_drh) ? &PL_sv_yes : &PL_sv_no; #endif /* dbd_discon_all */ #ifdef dbd_dr_data_sources void data_sources(drh, attr = Nullsv) SV *drh SV *attr PPCODE: { D_imp_drh(drh); AV *av = dbd_dr_data_sources(drh, imp_drh, attr); if (av) { int i; int n = AvFILL(av)+1; EXTEND(sp, n); for (i = 0; i < n; ++i) { PUSHs(AvARRAY(av)[i]); } } } #endif # ------------------------------------------------------------ # database level interface # ------------------------------------------------------------ MODULE = DBD::~DRIVER~ PACKAGE = DBD::~DRIVER~::db void _login(dbh, dbname, username, password, attribs=Nullsv) SV * dbh SV * dbname SV * username SV * password SV * attribs CODE: { D_imp_dbh(dbh); #if !defined(dbd_db_login6_sv) STRLEN lna; char *u = (SvOK(username)) ? SvPV(username,lna) : (char*)""; char *p = (SvOK(password)) ? SvPV(password,lna) : (char*)""; #endif #ifdef dbd_db_login6_sv ST(0) = dbd_db_login6_sv(dbh, imp_dbh, dbname, username, password, attribs) ? &PL_sv_yes : &PL_sv_no; #elif defined(dbd_db_login6) ST(0) = dbd_db_login6(dbh, imp_dbh, SvPV_nolen(dbname), u, p, attribs) ? &PL_sv_yes : &PL_sv_no; #else PERL_UNUSED_ARG(attribs); ST(0) = dbd_db_login( dbh, imp_dbh, SvPV_nolen(dbname), u, p) ? &PL_sv_yes : &PL_sv_no; #endif } void selectall_arrayref(...) PREINIT: SV *sth; SV **maxrows_svp; SV **tmp_svp; SV *tmp_sv; SV *attr = &PL_sv_undef; imp_sth_t *imp_sth; CODE: if (items > 2) { attr = ST(2); if (SvROK(attr) && (DBD_ATTRIB_TRUE(attr,"Slice",5,tmp_svp) || DBD_ATTRIB_TRUE(attr,"Columns",7,tmp_svp)) ) { /* fallback to perl implementation */ SV *tmp =dbixst_bounce_method("DBD::~DRIVER~::db::SUPER::selectall_arrayref", items); SPAGAIN; ST(0) = tmp; XSRETURN(1); } } /* --- prepare --- */ if (SvROK(ST(1))) { MAGIC *mg; sth = ST(1); /* switch to inner handle if not already */ if ( (mg = mg_find(SvRV(sth),'P')) ) sth = mg->mg_obj; } else { sth = dbixst_bounce_method("prepare", 3); SPAGAIN; SP -= items; /* because stack might have been realloc'd */ if (!SvROK(sth)) XSRETURN_UNDEF; /* switch to inner handle */ sth = mg_find(SvRV(sth),'P')->mg_obj; } imp_sth = (imp_sth_t*)(DBIh_COM(sth)); /* --- bind_param --- */ if (items > 3) { /* need to bind params before execute */ if (!dbdxst_bind_params(sth, imp_sth, items-2, ax+2) ) { XSRETURN_UNDEF; } } /* --- execute --- */ DBIc_ROW_COUNT(imp_sth) = 0; if ( dbd_st_execute(sth, imp_sth) <= -2 ) { /* -2 == error */ XSRETURN_UNDEF; } /* --- fetchall --- */ maxrows_svp = DBD_ATTRIB_GET_SVP(attr, "MaxRows", 7); tmp_sv = dbdxst_fetchall_arrayref(sth, &PL_sv_undef, (maxrows_svp) ? *maxrows_svp : &PL_sv_undef); SPAGAIN; ST(0) = tmp_sv; void selectrow_arrayref(...) ALIAS: selectrow_array = 1 PREINIT: int is_selectrow_array = (ix == 1); imp_sth_t *imp_sth; SV *sth; AV *row_av; PPCODE: if (SvROK(ST(1))) { MAGIC *mg; sth = ST(1); /* switch to inner handle if not already */ if ( (mg = mg_find(SvRV(sth),'P')) ) sth = mg->mg_obj; } else { /* --- prepare --- */ sth = dbixst_bounce_method("prepare", 3); SPAGAIN; SP -= items; /* because stack might have been realloc'd */ if (!SvROK(sth)) { if (is_selectrow_array) { XSRETURN_EMPTY; } else { XSRETURN_UNDEF; } } /* switch to inner handle */ sth = mg_find(SvRV(sth),'P')->mg_obj; } imp_sth = (imp_sth_t*)(DBIh_COM(sth)); /* --- bind_param --- */ if (items > 3) { /* need to bind params before execute */ if (!dbdxst_bind_params(sth, imp_sth, items-2, ax+2) ) { if (is_selectrow_array) { XSRETURN_EMPTY; } else { XSRETURN_UNDEF; } } } /* --- execute --- */ DBIc_ROW_COUNT(imp_sth) = 0; if ( dbd_st_execute(sth, imp_sth) <= -2 ) { /* -2 == error */ if (is_selectrow_array) { XSRETURN_EMPTY; } else { XSRETURN_UNDEF; } } /* --- fetchrow_arrayref --- */ row_av = dbd_st_fetch(sth, imp_sth); if (!row_av) { if (GIMME == G_SCALAR) PUSHs(&PL_sv_undef); } else if (is_selectrow_array) { int i; int num_fields = AvFILL(row_av)+1; if (GIMME == G_SCALAR) num_fields = 1; /* return just first field */ EXTEND(sp, num_fields); for(i=0; i < num_fields; ++i) { PUSHs(AvARRAY(row_av)[i]); } } else { PUSHs( sv_2mortal(newRV((SV *)row_av)) ); } /* --- finish --- */ #ifdef dbd_st_finish3 dbd_st_finish3(sth, imp_sth, 0); #else dbd_st_finish(sth, imp_sth); #endif #ifdef dbd_db_do4 /* deebeedee-deebee-doo, deebee-doobee-dah? */ void do(dbh, statement, params = Nullsv) SV * dbh char * statement SV * params CODE: { D_imp_dbh(dbh); IV retval; retval = dbd_db_do4(dbh, imp_dbh, statement, params); /* might be dbd_db_do4_iv via macro */ /* remember that dbd_db_do4 must return <= -2 for error */ if (retval == 0) /* ok with no rows affected */ XST_mPV(0, "0E0"); /* (true but zero) */ else if (retval < -1) /* -1 == unknown number of rows */ XST_mUNDEF(0); /* <= -2 means error */ else XST_mIV(0, retval); /* typically 1, rowcount or -1 */ } #endif #ifdef dbd_db_last_insert_id void last_insert_id(dbh, catalog, schema, table, field, attr=Nullsv) SV * dbh SV * catalog SV * schema SV * table SV * field SV * attr CODE: { D_imp_dbh(dbh); ST(0) = dbd_db_last_insert_id(dbh, imp_dbh, catalog, schema, table, field, attr); } #endif void commit(dbh) SV * dbh CODE: D_imp_dbh(dbh); if (DBIc_has(imp_dbh,DBIcf_AutoCommit) && DBIc_WARN(imp_dbh)) warn("commit ineffective with AutoCommit enabled"); ST(0) = dbd_db_commit(dbh, imp_dbh) ? &PL_sv_yes : &PL_sv_no; void rollback(dbh) SV * dbh CODE: D_imp_dbh(dbh); if (DBIc_has(imp_dbh,DBIcf_AutoCommit) && DBIc_WARN(imp_dbh)) warn("rollback ineffective with AutoCommit enabled"); ST(0) = dbd_db_rollback(dbh, imp_dbh) ? &PL_sv_yes : &PL_sv_no; void disconnect(dbh) SV * dbh CODE: D_imp_dbh(dbh); if ( !DBIc_ACTIVE(imp_dbh) ) { XSRETURN_YES; } /* Check for disconnect() being called whilst refs to cursors */ /* still exists. This possibly needs some more thought. */ if (DBIc_ACTIVE_KIDS(imp_dbh) && DBIc_WARN(imp_dbh) && !PL_dirty) { STRLEN lna; char *plural = (DBIc_ACTIVE_KIDS(imp_dbh)==1) ? (char*)"" : (char*)"s"; warn("%s->disconnect invalidates %d active statement handle%s %s", SvPV(dbh,lna), (int)DBIc_ACTIVE_KIDS(imp_dbh), plural, "(either destroy statement handles or call finish on them before disconnecting)"); } ST(0) = dbd_db_disconnect(dbh, imp_dbh) ? &PL_sv_yes : &PL_sv_no; DBIc_ACTIVE_off(imp_dbh); /* ensure it's off, regardless */ void STORE(dbh, keysv, valuesv) SV * dbh SV * keysv SV * valuesv CODE: D_imp_dbh(dbh); if (SvGMAGICAL(valuesv)) mg_get(valuesv); ST(0) = &PL_sv_yes; if (!dbd_db_STORE_attrib(dbh, imp_dbh, keysv, valuesv)) if (!DBIc_DBISTATE(imp_dbh)->set_attr(dbh, keysv, valuesv)) ST(0) = &PL_sv_no; void FETCH(dbh, keysv) SV * dbh SV * keysv CODE: D_imp_dbh(dbh); SV *valuesv = dbd_db_FETCH_attrib(dbh, imp_dbh, keysv); if (!valuesv) valuesv = DBIc_DBISTATE(imp_dbh)->get_attr(dbh, keysv); ST(0) = valuesv; /* dbd_db_FETCH_attrib did sv_2mortal */ void DESTROY(dbh) SV * dbh PPCODE: /* keep in sync with default DESTROY in DBI.xs */ D_imp_dbh(dbh); ST(0) = &PL_sv_yes; if (!DBIc_IMPSET(imp_dbh)) { /* was never fully set up */ STRLEN lna; if (DBIc_WARN(imp_dbh) && !PL_dirty && DBIc_DBISTATE(imp_dbh)->debug >= 2) PerlIO_printf(DBIc_LOGPIO(imp_dbh), " DESTROY for %s ignored - handle not initialised\n", SvPV(dbh,lna)); } else { if (DBIc_IADESTROY(imp_dbh)) { /* wants ineffective destroy */ DBIc_ACTIVE_off(imp_dbh); if (DBIc_DBISTATE(imp_dbh)->debug) PerlIO_printf(DBIc_LOGPIO(imp_dbh), " DESTROY %s skipped due to InactiveDestroy\n", SvPV_nolen(dbh)); } if (DBIc_ACTIVE(imp_dbh)) { if (!DBIc_has(imp_dbh,DBIcf_AutoCommit)) { /* Application is using transactions and hasn't explicitly disconnected. Some databases will automatically commit on graceful disconnect. Since we're about to gracefully disconnect as part of the DESTROY we want to be sure we're not about to implicitly commit changes that are incomplete and should be rolled back. (The DESTROY may be due to a RaiseError, for example.) So we rollback here. This will be harmless if the application has issued a commit, XXX Could add an attribute flag to indicate that the driver doesn't have this problem. Patches welcome. */ if (DBIc_WARN(imp_dbh) /* only warn if likely to be useful... */ && DBIc_is(imp_dbh, DBIcf_Executed) /* has not just called commit/rollback */ /* && !DBIc_is(imp_dbh, DBIcf_ReadOnly) -- is not read only */ && (!PL_dirty || DBIc_DBISTATE(imp_dbh)->debug >= 3) ) { warn("Issuing rollback() due to DESTROY without explicit disconnect() of %s handle %s", SvPV_nolen(*hv_fetch((HV*)SvRV(dbh), "ImplementorClass", 16, 1)), SvPV_nolen(*hv_fetch((HV*)SvRV(dbh), "Name", 4, 1)) ); } dbd_db_rollback(dbh, imp_dbh); /* ROLLBACK! */ } dbd_db_disconnect(dbh, imp_dbh); DBIc_ACTIVE_off(imp_dbh); /* ensure it's off, regardless */ } dbd_db_destroy(dbh, imp_dbh); } #ifdef dbd_take_imp_data void take_imp_data(h) SV * h CODE: D_imp_xxh(h); /* dbd_take_imp_data() returns &sv_no (or other defined but false value) * to indicate "preparations complete, now call SUPER::take_imp_data" for me. * Anything else is returned to the caller via sv_2mortal(sv), typically that * would be &sv_undef for error or an SV holding the imp_data. */ SV *sv = dbd_take_imp_data(h, imp_xxh, NULL); if (SvOK(sv) && !SvTRUE(sv)) { SV *tmp = dbixst_bounce_method("DBD::~DRIVER~::db::SUPER::take_imp_data", items); SPAGAIN; ST(0) = tmp; } else { ST(0) = sv_2mortal(sv); } #endif #ifdef dbd_db_data_sources void data_sources(dbh, attr = Nullsv) SV *dbh SV *attr PPCODE: { D_imp_dbh(dbh); AV *av = dbd_db_data_sources(dbh, imp_dbh, attr); if (av) { int i; int n = AvFILL(av)+1; EXTEND(sp, n); for (i = 0; i < n; ++i) { PUSHs(AvARRAY(av)[i]); } } } #endif # -- end of DBD::~DRIVER~::db # ------------------------------------------------------------ # statement interface # ------------------------------------------------------------ MODULE = DBD::~DRIVER~ PACKAGE = DBD::~DRIVER~::st void _prepare(sth, statement, attribs=Nullsv) SV * sth SV * statement SV * attribs CODE: { D_imp_sth(sth); DBD_ATTRIBS_CHECK("_prepare", sth, attribs); #ifdef dbd_st_prepare_sv ST(0) = dbd_st_prepare_sv(sth, imp_sth, statement, attribs) ? &PL_sv_yes : &PL_sv_no; #else ST(0) = dbd_st_prepare(sth, imp_sth, SvPV_nolen(statement), attribs) ? &PL_sv_yes : &PL_sv_no; #endif } #ifdef dbd_st_rows void rows(sth) SV * sth CODE: D_imp_sth(sth); XST_mIV(0, dbd_st_rows(sth, imp_sth)); #endif /* dbd_st_rows */ #ifdef dbd_st_bind_col void bind_col(sth, col, ref, attribs=Nullsv) SV * sth SV * col SV * ref SV * attribs CODE: { IV sql_type = 0; D_imp_sth(sth); if (SvGMAGICAL(ref)) mg_get(ref); if (attribs) { if (SvNIOK(attribs)) { sql_type = SvIV(attribs); attribs = Nullsv; } else { SV **svp; DBD_ATTRIBS_CHECK("bind_col", sth, attribs); /* XXX we should perhaps complain if TYPE is not SvNIOK */ DBD_ATTRIB_GET_IV(attribs, "TYPE",4, svp, sql_type); } } switch(dbd_st_bind_col(sth, imp_sth, col, ref, sql_type, attribs)) { case 2: ST(0) = &PL_sv_yes; /* job done completely */ break; case 1: /* fallback to DBI default */ ST(0) = (DBIc_DBISTATE(imp_sth)->bind_col(sth, col, ref, attribs)) ? &PL_sv_yes : &PL_sv_no; break; default: ST(0) = &PL_sv_no; /* dbd_st_bind_col has called set_err */ break; } } #endif /* dbd_st_bind_col */ void bind_param(sth, param, value, attribs=Nullsv) SV * sth SV * param SV * value SV * attribs CODE: { IV sql_type = 0; D_imp_sth(sth); if (SvGMAGICAL(value)) mg_get(value); if (attribs) { if (SvNIOK(attribs)) { sql_type = SvIV(attribs); attribs = Nullsv; } else { SV **svp; DBD_ATTRIBS_CHECK("bind_param", sth, attribs); /* XXX we should perhaps complain if TYPE is not SvNIOK */ DBD_ATTRIB_GET_IV(attribs, "TYPE",4, svp, sql_type); } } ST(0) = dbd_bind_ph(sth, imp_sth, param, value, sql_type, attribs, FALSE, 0) ? &PL_sv_yes : &PL_sv_no; } void bind_param_inout(sth, param, value_ref, maxlen, attribs=Nullsv) SV * sth SV * param SV * value_ref IV maxlen SV * attribs CODE: { IV sql_type = 0; D_imp_sth(sth); SV *value; if (!SvROK(value_ref) || SvTYPE(SvRV(value_ref)) > SVt_PVMG) croak("bind_param_inout needs a reference to a scalar value"); value = SvRV(value_ref); if (SvREADONLY(value)) croak("Modification of a read-only value attempted"); if (SvGMAGICAL(value)) mg_get(value); if (attribs) { if (SvNIOK(attribs)) { sql_type = SvIV(attribs); attribs = Nullsv; } else { SV **svp; DBD_ATTRIBS_CHECK("bind_param", sth, attribs); DBD_ATTRIB_GET_IV(attribs, "TYPE",4, svp, sql_type); } } ST(0) = dbd_bind_ph(sth, imp_sth, param, value, sql_type, attribs, TRUE, maxlen) ? &PL_sv_yes : &PL_sv_no; } void execute(sth, ...) SV * sth CODE: D_imp_sth(sth); IV retval; if (items > 1) { /* need to bind params */ if (!dbdxst_bind_params(sth, imp_sth, items, ax) ) { XSRETURN_UNDEF; } } /* XXX this code is duplicated in selectrow_arrayref above */ DBIc_ROW_COUNT(imp_sth) = 0; retval = dbd_st_execute(sth, imp_sth); /* might be dbd_st_execute_iv via macro */ /* remember that dbd_st_execute must return <= -2 for error */ if (retval == 0) /* ok with no rows affected */ XST_mPV(0, "0E0"); /* (true but zero) */ else if (retval < -1) /* -1 == unknown number of rows */ XST_mUNDEF(0); /* <= -2 means error */ else XST_mIV(0, retval); /* typically 1, rowcount or -1 */ #ifdef dbd_st_execute_for_fetch void execute_for_fetch(sth, fetch_tuple_sub, tuple_status = Nullsv) SV * sth SV * fetch_tuple_sub SV * tuple_status CODE: { D_imp_sth(sth); ST(0) = dbd_st_execute_for_fetch(sth, imp_sth, fetch_tuple_sub, tuple_status); } #endif void fetchrow_arrayref(sth) SV * sth ALIAS: fetch = 1 CODE: D_imp_sth(sth); AV *av; PERL_UNUSED_VAR(ix); av = dbd_st_fetch(sth, imp_sth); ST(0) = (av) ? sv_2mortal(newRV((SV *)av)) : &PL_sv_undef; void fetchrow_array(sth) SV * sth ALIAS: fetchrow = 1 PPCODE: D_imp_sth(sth); AV *av; av = dbd_st_fetch(sth, imp_sth); if (av) { int i; int num_fields = AvFILL(av)+1; EXTEND(sp, num_fields); for(i=0; i < num_fields; ++i) { PUSHs(AvARRAY(av)[i]); } PERL_UNUSED_VAR(ix); } void fetchall_arrayref(sth, slice=&PL_sv_undef, batch_row_count=&PL_sv_undef) SV * sth SV * slice SV * batch_row_count CODE: if (SvOK(slice)) { /* fallback to perl implementation */ SV *tmp = dbixst_bounce_method("DBD::~DRIVER~::st::SUPER::fetchall_arrayref", 3); SPAGAIN; ST(0) = tmp; } else { SV *tmp = dbdxst_fetchall_arrayref(sth, slice, batch_row_count); SPAGAIN; ST(0) = tmp; } void finish(sth) SV * sth CODE: D_imp_sth(sth); D_imp_dbh_from_sth; if (!DBIc_ACTIVE(imp_sth)) { /* No active statement to finish */ XSRETURN_YES; } if (!DBIc_ACTIVE(imp_dbh)) { /* Either an explicit disconnect() or global destruction */ /* has disconnected us from the database. Finish is meaningless */ DBIc_ACTIVE_off(imp_sth); XSRETURN_YES; } #ifdef dbd_st_finish3 ST(0) = dbd_st_finish3(sth, imp_sth, 0) ? &PL_sv_yes : &PL_sv_no; #else ST(0) = dbd_st_finish(sth, imp_sth) ? &PL_sv_yes : &PL_sv_no; #endif void blob_read(sth, field, offset, len, destrv=Nullsv, destoffset=0) SV * sth int field long offset long len SV * destrv long destoffset CODE: { D_imp_sth(sth); if (!destrv) destrv = sv_2mortal(newRV(sv_2mortal(newSV(0)))); if (dbd_st_blob_read(sth, imp_sth, field, offset, len, destrv, destoffset)) ST(0) = SvRV(destrv); else ST(0) = &PL_sv_undef; } void STORE(sth, keysv, valuesv) SV * sth SV * keysv SV * valuesv CODE: D_imp_sth(sth); if (SvGMAGICAL(valuesv)) mg_get(valuesv); ST(0) = &PL_sv_yes; if (!dbd_st_STORE_attrib(sth, imp_sth, keysv, valuesv)) if (!DBIc_DBISTATE(imp_sth)->set_attr(sth, keysv, valuesv)) ST(0) = &PL_sv_no; # FETCH renamed and ALIAS'd to avoid case clash on VMS :-( void FETCH_attrib(sth, keysv) SV * sth SV * keysv ALIAS: FETCH = 1 CODE: D_imp_sth(sth); SV *valuesv; PERL_UNUSED_VAR(ix); valuesv = dbd_st_FETCH_attrib(sth, imp_sth, keysv); if (!valuesv) valuesv = DBIc_DBISTATE(imp_sth)->get_attr(sth, keysv); ST(0) = valuesv; /* dbd_st_FETCH_attrib did sv_2mortal */ void DESTROY(sth) SV * sth PPCODE: /* keep in sync with default DESTROY in DBI.xs */ D_imp_sth(sth); ST(0) = &PL_sv_yes; if (!DBIc_IMPSET(imp_sth)) { /* was never fully set up */ STRLEN lna; if (DBIc_WARN(imp_sth) && !PL_dirty && DBIc_DBISTATE(imp_sth)->debug >= 2) PerlIO_printf(DBIc_LOGPIO(imp_sth), " DESTROY for %s ignored - handle not initialised\n", SvPV(sth,lna)); } else { if (DBIc_IADESTROY(imp_sth)) { /* wants ineffective destroy */ DBIc_ACTIVE_off(imp_sth); if (DBIc_DBISTATE(imp_sth)->debug) PerlIO_printf(DBIc_LOGPIO(imp_sth), " DESTROY %s skipped due to InactiveDestroy\n", SvPV_nolen(sth)); } if (DBIc_ACTIVE(imp_sth)) { D_imp_dbh_from_sth; if (!PL_dirty && DBIc_ACTIVE(imp_dbh)) { #ifdef dbd_st_finish3 dbd_st_finish3(sth, imp_sth, 1); #else dbd_st_finish(sth, imp_sth); #endif } else { DBIc_ACTIVE_off(imp_sth); } } dbd_st_destroy(sth, imp_sth); } # end of ~DRIVER~.xst # vim:ts=8:sw=4:et