/* Copyright (C) Olivier Bertrand 2004 - 2012 This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 2 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA */ /***********************************************************************/ /* Author Olivier BERTRAND bertrandop@gmail.com 2004-2012 */ /* */ /* WHAT THIS PROGRAM DOES: */ /* ----------------------- */ /* This program are the CONNECT general purpose semantic routines. */ /***********************************************************************/ #ifdef USE_PRAGMA_IMPLEMENTATION #pragma implementation // gcc: Class implementation #endif /***********************************************************************/ /* Include application header files */ /* */ /* global.h is header containing all global declarations. */ /* plgdbsem.h is header containing the DB applic. declarations. */ /***********************************************************************/ #define DONT_DEFINE_VOID #include "handler.h" #undef OFFSET #include "global.h" #include "plgdbsem.h" #include "xobject.h" #include "connect.h" #include "tabcol.h" #include "catalog.h" #include "ha_connect.h" #include "mycat.h" #define my_strupr(p) my_caseup_str(default_charset_info, (p)); #define my_strlwr(p) my_casedn_str(default_charset_info, (p)); #define my_stricmp(a, b) my_strcasecmp(default_charset_info, (a), (b)) /***********************************************************************/ /* Routines called internally by semantic routines. */ /***********************************************************************/ void CntEndDB(PGLOBAL); RCODE EvalColumns(PGLOBAL g, PTDB tdbp, bool reset, bool mrr= false); /***********************************************************************/ /* MySQL routines called externally by semantic routines. */ /***********************************************************************/ int rename_file_ext(const char *from, const char *to,const char *ext); /***********************************************************************/ /* CntExit: CONNECT termination routine. */ /***********************************************************************/ PGLOBAL CntExit(PGLOBAL g) { if (g) { CntEndDB(g); if (g->Activityp) delete g->Activityp; PlugExit(g); g= NULL; } // endif g return g; } // end of CntExit /***********************************************************************/ /* CntEndDB: DB termination semantic routine. */ /***********************************************************************/ void CntEndDB(PGLOBAL g) { PDBUSER dbuserp= PlgGetUser(g); if (dbuserp) { if (dbuserp->Catalog) delete dbuserp->Catalog; free(dbuserp); } // endif dbuserp } // end of CntEndDB /***********************************************************************/ /* CntCheckDB: Initialize a DB application session. */ /* Note: because MySQL does not call a storage handler when a user */ /* executes a use db command, a check must be done before an SQL */ /* command is executed to check whether we are still working on the */ /* current database, and if not to load the newly used database. */ /***********************************************************************/ bool CntCheckDB(PGLOBAL g, PHC handler, const char *pathname) { bool rc= false; PDBUSER dbuserp= PlgGetUser(g); if (trace) { printf("CntCheckDB: dbuserp=%p\n", dbuserp); } // endif trace if (!dbuserp || !handler) return true; if (trace) printf("cat=%p oldhandler=%p newhandler=%p\n", dbuserp->Catalog, (dbuserp->Catalog) ? ((MYCAT*)dbuserp->Catalog)->GetHandler() : NULL, handler); // Set the database path for this table handler->SetDataPath(g, pathname); if (dbuserp->Catalog) { // ((MYCAT *)dbuserp->Catalog)->SetHandler(handler); done later // ((MYCAT *)dbuserp->Catalog)->SetDataPath(g, pathname); return false; // Nothing else to do } // endif Catalog // Copy new database name in dbuser block strncpy(dbuserp->Name, "???", sizeof(dbuserp->Name) - 1); dbuserp->Vtdbno= 0; // Init of TDB numbers /*********************************************************************/ /* Now allocate and initialize the Database Catalog. */ /*********************************************************************/ dbuserp->Step= MSG(READY); if (!(dbuserp->Catalog= new MYCAT(handler))) return true; //((MYCAT *)dbuserp->Catalog)->SetDataPath(g, pathname); //dbuserp->UseTemp= TMP_AUTO; /*********************************************************************/ /* All is correct. */ /*********************************************************************/ sprintf(g->Message, MSG(DATABASE_LOADED), "???"); if (trace) printf("msg=%s\n", g->Message); return rc; } // end of CntCheckDB /***********************************************************************/ /* CntInfo: Get table info. */ /* Returns valid: true if this is a table info. */ /***********************************************************************/ bool CntInfo(PGLOBAL g, PTDB tp, PXF info) { bool b; PTDBDOS tdbp= (PTDBDOS)tp; if (tdbp) { b= tdbp->GetFtype() != RECFM_NAF; info->data_file_length= (b) ? (ulonglong)tdbp->GetFileLength(g) : 0; if (!b || info->data_file_length) info->records= (unsigned)tdbp->Cardinality(g); // info->records= (unsigned)tdbp->GetMaxSize(g); else info->records= 0; // info->mean_rec_length= tdbp->GetLrecl(); info->mean_rec_length= 0; info->data_file_name= (b) ? tdbp->GetFile(g) : NULL; return true; } else { info->data_file_length= 0; info->records= 0; info->mean_rec_length= 0; info->data_file_name= NULL; return false; } // endif tdbp } // end of CntInfo /***********************************************************************/ /* GetTDB: Get the table description block of a CONNECT table. */ /***********************************************************************/ PTDB CntGetTDB(PGLOBAL g, LPCSTR name, MODE mode, PHC h) { int rc; PTDB tdbp; PTABLE tabp; PDBUSER dup= PlgGetUser(g); volatile PCATLG cat= (dup) ? dup->Catalog : NULL; // Safe over longjmp if (trace) printf("CntGetTDB: name=%s mode=%d cat=%p\n", name, mode, cat); if (!cat) return NULL; // Save stack and allocation environment and prepare error return if (g->jump_level == MAX_JUMP) { strcpy(g->Message, MSG(TOO_MANY_JUMPS)); return NULL; } // endif jump_level if ((rc= setjmp(g->jumper[++g->jump_level])) != 0) { tdbp= NULL; goto err; } // endif rc // Get table object from the catalog tabp= new(g) XTAB(name); if (trace) printf("CntGetTDB: tabp=%p\n", tabp); // Perhaps this should be made thread safe ((MYCAT*)cat)->SetHandler(h); if (!(tdbp= cat->GetTable(g, tabp, mode))) printf("CntGetTDB: %s\n", g->Message); err: if (trace) printf("Returning tdbp=%p mode=%d\n", tdbp, mode); g->jump_level--; return tdbp; } // end of CntGetTDB /***********************************************************************/ /* OPENTAB: Open a Table. */ /***********************************************************************/ bool CntOpenTable(PGLOBAL g, PTDB tdbp, MODE mode, char *c1, char *c2, bool del, PHC h) { char *p; int i, n, rc; bool rcop= true; PCOL colp; //PCOLUMN cp; PDBUSER dup= PlgGetUser(g); if (trace) printf("CntOpenTable: tdbp=%p mode=%d\n", tdbp, mode); if (!tdbp) { strcpy(g->Message, "Null tdbp"); printf("CntOpenTable: %s\n", g->Message); return true; } // endif tdbp // Save stack and allocation environment and prepare error return if (g->jump_level == MAX_JUMP) { strcpy(g->Message, MSG(TOO_MANY_JUMPS)); return true; } // endif jump_level if ((rc= setjmp(g->jumper[++g->jump_level])) != 0) { goto err; } // endif rc if (!c1) { if (mode == MODE_INSERT) // Allocate all column blocks for that table tdbp->ColDB(g, NULL, 0); } else for (p= c1; *p; p+= n) { // Allocate only used column blocks if (trace) printf("Allocating column %s\n", p); g->Message[0] = 0; // To check whether ColDB made an error message colp= tdbp->ColDB(g, p, 0); if (!colp && !(mode == MODE_INSERT && tdbp->IsSpecial(p))) { if (g->Message[0] == 0) sprintf(g->Message, MSG(COL_ISNOT_TABLE), p, tdbp->GetName()); goto err; } // endif colp n= strlen(p) + 1; } // endfor p for (i= 0, colp= tdbp->GetColumns(); colp; i++, colp= colp->GetNext()) { if (colp->InitValue(g)) goto err; if (mode == MODE_INSERT) // Allow type conversion if (colp->SetBuffer(g, colp->GetValue(), true, false)) goto err; colp->AddColUse(U_P); // For PLG tables } // endfor colp /*********************************************************************/ /* In Update mode, the updated column blocks must be distinct from */ /* the read column blocks. So make a copy of the TDB and allocate */ /* its column blocks in mode write (required by XML tables). */ /*********************************************************************/ if (mode == MODE_UPDATE) { PTDBASE utp; if (!(utp= (PTDBASE)tdbp->Duplicate(g))) { sprintf(g->Message, MSG(INV_UPDT_TABLE), tdbp->GetName()); goto err; } // endif tp if (!c2) // Allocate all column blocks for that table utp->ColDB(g, NULL, 0); else for (p= c2; *p; p+= n) { // Allocate only used column blocks colp= utp->ColDB(g, p, 0); n= strlen(p) + 1; } // endfor p for (i= 0, colp= utp->GetColumns(); colp; i++, colp= colp->GetNext()) { if (colp->InitValue(g)) goto err; if (colp->SetBuffer(g, colp->GetValue(), true, false)) goto err; } // endfor colp // Attach the updated columns list to the main table ((PTDBASE)tdbp)->SetSetCols(utp->GetColumns()); } else if (tdbp && mode == MODE_INSERT) ((PTDBASE)tdbp)->SetSetCols(tdbp->GetColumns()); // Now do open the physical table if (trace) printf("Opening table %s in mode %d tdbp=%p\n", tdbp->GetName(), mode, tdbp); //tdbp->SetMode(mode); if (del/* && ((PTDBASE)tdbp)->GetFtype() != RECFM_NAF*/) { // To avoid erasing the table when doing a partial delete // make a fake Next // PDOSDEF ddp= new(g) DOSDEF; // PTDB tp= new(g) TDBDOS(ddp, NULL); tdbp->SetNext((PTDB)1); dup->Check &= ~CHK_DELETE; } // endif del if (trace) printf("About to open the table: tdbp=%p\n", tdbp); if (mode != MODE_ANY && mode != MODE_ALTER) { if (tdbp->OpenDB(g)) { printf("%s\n", g->Message); goto err; } else tdbp->SetNext(NULL); } // endif mode rcop= false; err: g->jump_level--; return rcop; } // end of CntOpenTable /***********************************************************************/ /* Rewind a table by reopening it. */ /***********************************************************************/ bool CntRewindTable(PGLOBAL g, PTDB tdbp) { if (!tdbp) return true; tdbp->OpenDB(g); return false; } // end of CntRewindTable /***********************************************************************/ /* Evaluate all columns after a record is read. */ /***********************************************************************/ RCODE EvalColumns(PGLOBAL g, PTDB tdbp, bool reset, bool mrr) { RCODE rc= RC_OK; PCOL colp; // Save stack and allocation environment and prepare error return if (g->jump_level == MAX_JUMP) { if (trace) { strcpy(g->Message, MSG(TOO_MANY_JUMPS)); printf("EvalColumns: %s\n", g->Message); } // endif return RC_FX; } // endif jump_level if (setjmp(g->jumper[++g->jump_level]) != 0) { if (trace) printf("Error reading columns: %s\n", g->Message); rc= RC_FX; goto err; } // endif rc for (colp= tdbp->GetColumns(); rc == RC_OK && colp; colp= colp->GetNext()) { if (reset) colp->Reset(); // Virtual columns are computed by MariaDB if (!colp->GetColUse(U_VIRTUAL) && (!mrr || colp->GetKcol())) if (colp->Eval(g)) rc= RC_FX; } // endfor colp err: g->jump_level--; return rc; } // end of EvalColumns /***********************************************************************/ /* ReadNext: Read next record sequentially. */ /***********************************************************************/ RCODE CntReadNext(PGLOBAL g, PTDB tdbp) { RCODE rc; if (!tdbp) return RC_FX; else if (((PTDBASE)tdbp)->GetKindex()) { // Reading sequencially an indexed table. This happens after the // handler function records_in_range was called and MySQL decides // to quit using the index (!!!) Drop the index. // for (PCOL colp= tdbp->GetColumns(); colp; colp= colp->GetNext()) // colp->SetKcol(NULL); ((PTDBASE)tdbp)->ResetKindex(g, NULL); } // endif index // Save stack and allocation environment and prepare error return if (g->jump_level == MAX_JUMP) { strcpy(g->Message, MSG(TOO_MANY_JUMPS)); return RC_FX; } // endif jump_level if ((setjmp(g->jumper[++g->jump_level])) != 0) { rc= RC_FX; goto err; } // endif rc // Do it now to avoid double eval when filtering for (PCOL colp= tdbp->GetColumns(); colp; colp= colp->GetNext()) colp->Reset(); do { if ((rc= (RCODE)tdbp->ReadDB(g)) == RC_OK) if (!ApplyFilter(g, tdbp->GetFilter())) rc= RC_NF; } while (rc == RC_NF); err: g->jump_level--; return (rc != RC_OK) ? rc : EvalColumns(g, tdbp, false); } // end of CntReadNext /***********************************************************************/ /* WriteRow: Insert a new row into a table. */ /***********************************************************************/ RCODE CntWriteRow(PGLOBAL g, PTDB tdbp) { RCODE rc; PCOL colp; PTDBASE tp= (PTDBASE)tdbp; if (!tdbp) return RC_FX; // Save stack and allocation environment and prepare error return if (g->jump_level == MAX_JUMP) { strcpy(g->Message, MSG(TOO_MANY_JUMPS)); return RC_FX; } // endif jump_level if (setjmp(g->jumper[++g->jump_level]) != 0) { printf("%s\n", g->Message); rc= RC_FX; goto err; } // endif rc // Store column values in table write buffer(s) for (colp= tp->GetSetCols(); colp; colp= colp->GetNext()) if (!colp->GetColUse(U_VIRTUAL)) colp->WriteColumn(g); if (tp->IsIndexed()) // Index values must be sorted before updating rc= (RCODE)((PTDBDOS)tp)->GetTxfp()->StoreValues(g, true); else // Return result code from write operation rc= (RCODE)tdbp->WriteDB(g); err: g->jump_level--; return rc; } // end of CntWriteRow /***********************************************************************/ /* UpdateRow: Update a row into a table. */ /***********************************************************************/ RCODE CntUpdateRow(PGLOBAL g, PTDB tdbp) { if (!tdbp || tdbp->GetMode() != MODE_UPDATE) return RC_FX; // Return result code from write operation return CntWriteRow(g, tdbp); } // end of CntUpdateRow /***********************************************************************/ /* DeleteRow: Delete a row from a table. */ /***********************************************************************/ RCODE CntDeleteRow(PGLOBAL g, PTDB tdbp, bool all) { RCODE rc; PTDBASE tp= (PTDBASE)tdbp; if (!tdbp || tdbp->GetMode() != MODE_DELETE) return RC_FX; else if (tdbp->IsReadOnly()) return RC_NF; if (all) { if (((PTDBASE)tdbp)->GetDef()->Indexable()) ((PTDBDOS)tdbp)->Cardinal= 0; // Note: if all, this call will be done when closing the table rc= (RCODE)tdbp->DeleteDB(g, RC_FX); //} else if (tp->GetKindex() && !tp->GetKindex()->IsSorted() && // tp->Txfp->GetAmType() != TYPE_AM_DBF) { } else if(tp->IsIndexed()) { // Index values must be sorted before updating rc= (RCODE)((PTDBDOS)tp)->GetTxfp()->StoreValues(g, false); } else // Return result code from delete operation rc= (RCODE)tdbp->DeleteDB(g, RC_OK); return rc; } // end of CntDeleteRow /***********************************************************************/ /* CLOSETAB: Close a table. */ /***********************************************************************/ int CntCloseTable(PGLOBAL g, PTDB tdbp, bool nox, bool abort) { int rc= RC_OK; TDBASE *tbxp= (PTDBASE)tdbp; if (!tdbp) return rc; // Nothing to do else if (tdbp->GetUse() != USE_OPEN) { if (tdbp->GetAmType() == TYPE_AM_XML) tdbp->CloseDB(g); // Opened by GetMaxSize return rc; } // endif !USE_OPEN if (trace) printf("CntCloseTable: tdbp=%p mode=%d nox=%d abort=%d\n", tdbp, tdbp->GetMode(), nox, abort); if (tdbp->GetMode() == MODE_DELETE && tdbp->GetUse() == USE_OPEN) { if (tbxp->IsIndexed()) rc= ((PTDBDOS)tdbp)->GetTxfp()->DeleteSortedRows(g); if (!rc) rc= tdbp->DeleteDB(g, RC_EF); // Specific A.M. delete routine } else if (tbxp->GetMode() == MODE_UPDATE && tbxp->IsIndexed()) rc= ((PTDBDOX)tdbp)->Txfp->UpdateSortedRows(g); switch(rc) { case RC_FX: abort= true; break; case RC_INFO: PushWarning(g, tbxp); break; } // endswitch rc // Prepare error return if (g->jump_level == MAX_JUMP) { strcpy(g->Message, MSG(TOO_MANY_JUMPS)); rc= RC_FX; goto err; } // endif if ((rc = setjmp(g->jumper[++g->jump_level])) != 0) { rc= RC_FX; g->jump_level--; goto err; } // endif // This will close the table file(s) and also finalize write // operations such as Insert, Update, or Delete. tdbp->SetAbort(abort); tdbp->CloseDB(g); tdbp->SetAbort(false); g->jump_level--; if (trace > 1) printf("Table %s closed\n", tdbp->GetName()); //if (!((PTDBDOX)tdbp)->GetModified()) // return 0; if (nox || tdbp->GetMode() == MODE_READ || tdbp->GetMode() == MODE_ANY) return 0; if (trace > 1) printf("About to reset opt\n"); // Make all the eventual indexes tbxp= (TDBDOX*)tdbp; tbxp->ResetKindex(g, NULL); tbxp->SetKey_Col(NULL); rc= tbxp->ResetTableOpt(g, true, tbxp->GetDef()->Indexable() == 1); err: if (trace > 1) printf("Done rc=%d\n", rc); return (rc == RC_OK || rc == RC_INFO) ? 0 : rc; } // end of CntCloseTable /***********************************************************************/ /* Load and initialize the use of an index. */ /* This is the condition(s) for doing indexing. */ /* Note: FIX table are not reset here to Nrec= 1. */ /***********************************************************************/ int CntIndexInit(PGLOBAL g, PTDB ptdb, int id, bool sorted) { PIXDEF xdp; PTDBDOX tdbp; DOXDEF *dfp; if (!ptdb) return -1; else if (!((PTDBASE)ptdb)->GetDef()->Indexable()) { sprintf(g->Message, MSG(TABLE_NO_INDEX), ptdb->GetName()); return 0; } else if (((PTDBASE)ptdb)->GetDef()->Indexable() == 3) { return 1; } else tdbp= (PTDBDOX)ptdb; dfp= (DOXDEF*)tdbp->To_Def; //if (!(k= colp->GetKey())) // if (colp->GetOpt() >= 2) { // strcpy(g->Message, "Not a valid indexed column"); // return -1; // } else // This is a pseudo indexed sorted block optimized column // return 0; if (tdbp->To_Kindex) if (((XXBASE*)tdbp->To_Kindex)->GetID() == id) { tdbp->To_Kindex->Reset(); // Same index return (tdbp->To_Kindex->IsMul()) ? 2 : 1; } else { tdbp->To_Kindex->Close(); tdbp->To_Kindex= NULL; } // endif colp for (xdp= dfp->To_Indx; xdp; xdp= xdp->GetNext()) if (xdp->GetID() == id) break; if (!xdp) { sprintf(g->Message, "Wrong index ID %d", id); return 0; } // endif xdp #if 0 if (xdp->IsDynamic()) { // This is a dynamically created index (KINDEX) // It should not be created now, if called by index range tdbp->SetXdp(xdp); return (xdp->IsUnique()) ? 1 : 2; } // endif dynamic #endif // 0 // Static indexes must be initialized now for records_in_range if (tdbp->InitialyzeIndex(g, xdp, sorted)) return 0; return (tdbp->To_Kindex->IsMul()) ? 2 : 1; } // end of CntIndexInit /***********************************************************************/ /* IndexRead: fetch a record having the index value. */ /***********************************************************************/ RCODE CntIndexRead(PGLOBAL g, PTDB ptdb, OPVAL op, const void *key, int len, bool mrr) { char *kp= (char*)key; int n, x; short lg; bool rcb; RCODE rc; PVAL valp; PCOL colp; XXBASE *xbp; PTDBDOX tdbp; if (!ptdb) return RC_FX; else x= ((PTDBASE)ptdb)->GetDef()->Indexable(); if (!x) { sprintf(g->Message, MSG(TABLE_NO_INDEX), ptdb->GetName()); return RC_FX; } else if (x == 2) { // Remote index if (ptdb->ReadKey(g, op, key, len)) return RC_FX; goto rnd; } else if (x == 3) { if (key) ((PTDBASE)ptdb)->SetRecpos(g, *(int*)key); if (op == OP_SAME) return RC_NF; goto rnd; } else tdbp= (PTDBDOX)ptdb; // Set reference values and index operator if (!tdbp->To_Link || !tdbp->To_Kindex) { // if (!tdbp->To_Xdp) { sprintf(g->Message, "Index not initialized for table %s", tdbp->Name); return RC_FX; #if 0 } // endif !To_Xdp // Now it's time to make the dynamic index if (tdbp->InitialyzeIndex(g, NULL, false)) { sprintf(g->Message, "Fail to make dynamic index %s", tdbp->To_Xdp->GetName()); return RC_FX; } // endif MakeDynamicIndex #endif // 0 } // endif !To_Kindex xbp= (XXBASE*)tdbp->To_Kindex; if (key) { for (n= 0; n < tdbp->Knum; n++) { colp= (PCOL)tdbp->To_Key_Col[n]; if (colp->GetColUse(U_NULLS)) kp++; // Skip null byte valp= tdbp->To_Link[n]->GetValue(); if (!valp->IsTypeNum()) { if (colp->GetColUse(U_VAR)) { lg= *(short*)kp; kp+= sizeof(short); rcb= valp->SetValue_char(kp, (int)lg); } else rcb= valp->SetValue_char(kp, valp->GetClen()); if (rcb) { if (tdbp->RowNumber(g)) sprintf(g->Message, "Out of range value for column %s at row %d", colp->GetName(), tdbp->RowNumber(g)); else sprintf(g->Message, "Out of range value for column %s", colp->GetName()); PushWarning(g, tdbp); } // endif b } else valp->SetBinValue((void*)kp); kp+= valp->GetClen(); if (len == kp - (char*)key) { n++; break; } else if (len < kp - (char*)key) { strcpy(g->Message, "Key buffer is too small"); return RC_FX; } // endif len } // endfor n xbp->SetNval(n); } // endif key xbp->SetOp(op); xbp->SetNth(0); rnd: if ((rc= (RCODE)ptdb->ReadDB(g)) == RC_OK) rc= EvalColumns(g, ptdb, true, mrr); return rc; } // end of CntIndexRead /***********************************************************************/ /* Return the number of rows matching given values. */ /***********************************************************************/ int CntIndexRange(PGLOBAL g, PTDB ptdb, const uchar* *key, uint *len, bool *incl, key_part_map *kmap) { const uchar *p, *kp; int i, n, x, k[2]; short lg; bool b, rcb; PVAL valp; PCOL colp; PTDBDOX tdbp; XXBASE *xbp; if (!ptdb) return -1; x= ((PTDBASE)ptdb)->GetDef()->Indexable(); if (!x) { sprintf(g->Message, MSG(TABLE_NO_INDEX), ptdb->GetName()); DBUG_PRINT("Range", ("%s", g->Message)); return -1; } else if (x == 2) { // Remote index return 2; } else if (x == 3) { // Virtual index for (i= 0; i < 2; i++) if (key[i]) k[i] = *(int*)key[i] + (incl[i] ? 0 : 1 - 2 * i); else k[i] = (i) ? ptdb->Cardinality(g) : 1; return k[1] - k[0] + 1; } else tdbp= (PTDBDOX)ptdb; if (!tdbp->To_Kindex || !tdbp->To_Link) { if (!tdbp->To_Xdp) { sprintf(g->Message, "Index not initialized for table %s", tdbp->Name); DBUG_PRINT("Range", ("%s", g->Message)); return -1; } else // Dynamic index return tdbp->To_Xdp->GetMaxSame(); // TODO a better estimate } else xbp= (XXBASE*)tdbp->To_Kindex; for (b= false, i= 0; i < 2; i++) { p= kp= key[i]; if (kp) { for (n= 0; n < tdbp->Knum; n++) { if (kmap[i] & (key_part_map)(1 << n)) { if (b == true) // Cannot do indexing with missing intermediate key return -1; colp= (PCOL)tdbp->To_Key_Col[n]; if (colp->GetColUse(U_NULLS)) p++; // Skip null byte ??? valp= tdbp->To_Link[n]->GetValue(); if (!valp->IsTypeNum()) { if (colp->GetColUse(U_VAR)) { lg= *(short*)p; p+= sizeof(short); rcb= valp->SetValue_char((char*)p, (int)lg); } else rcb= valp->SetValue_char((char*)p, valp->GetClen()); if (rcb) { if (tdbp->RowNumber(g)) sprintf(g->Message, "Out of range value for column %s at row %d", colp->GetName(), tdbp->RowNumber(g)); else sprintf(g->Message, "Out of range value for column %s", colp->GetName()); PushWarning(g, tdbp); } // endif b } else valp->SetBinValue((void*)p); if (trace) { char bf[32]; printf("i=%d n=%d key=%s\n", i, n, valp->GetCharString(bf)); } // endif trace p+= valp->GetClen(); if (len[i] == (unsigned)(p - kp)) { n++; break; } else if (len[i] < (unsigned)(p - kp)) { strcpy(g->Message, "Key buffer is too small"); return -1; } // endif len } else b= true; } // endfor n xbp->SetNval(n); if (trace) printf("xbp=%p Nval=%d i=%d incl=%d\n", xbp, n, i, incl[i]); k[i]= xbp->Range(g, i + 1, incl[i]); } else k[i]= (i) ? xbp->GetNum_K() : 0; } // endfor i if (trace) printf("k1=%d k0=%d\n", k[1], k[0]); return k[1] - k[0]; } // end of CntIndexRange