Thanks Xavi. Can you resend in .zip form? Brgdm, Viktor
On 2009 Nov 29, at 20:06, Xavi wrote: > Thanks Viktor, > I attache update spd.c > > -- > Xavi > > > /* > * $Id$ > */ > > /* > * Harbour Project source code: > * SQL_SPRINTF() function > * > * Copyright 2008 Xavi <jarabal/at/gmail.com> > * > * 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, 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 software; see the file COPYING. If not, write to > * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, > * Boston, MA 02111-1307 USA (or visit the web site http://www.gnu.org/). > * > * As a special exception, the Harbour Project gives permission for > * additional uses of the text contained in its release of Harbour. > * > * The exception is that, if you link the Harbour libraries with other > * files to produce an executable, this does not by itself cause the > * resulting executable to be covered by the GNU General Public License. > * Your use of that executable is in no way restricted on account of > * linking the Harbour library code into it. > * > * This exception does not however invalidate any other reasons why > * the executable file might be covered by the GNU General Public License. > * > * This exception applies only to the code released by the Harbour > * Project under the name Harbour. If you copy code from other > * Harbour Project or Free Software Foundation releases into a copy of > * Harbour, as the General Public License permits, the exception does > * not apply to the code that you add in this way. To avoid misleading > * anyone as to the status of such modified files, you must delete > * this exception notice from them. > * > * If you write modifications of your own for Harbour, it is your choice > * whether to permit this exception to apply to your modifications. > * If you do not wish that, delete this exception notice. > * > */ > > #include "hbapi.h" > #include "hbapiitm.h" > #include "hbapierr.h" > #include "hbdate.h" > #include "hbset.h" > > static void STAItm( PHB_ITEM pItmPar ) > { > ULONG i, ulItmPar = hb_itemGetCLen( pItmPar ); > const char *cItmPar = hb_itemGetCPtr( pItmPar ), *c; > char *cRes; > > for( i = 3, c = cItmPar; *c; c++ ){ > if( *c == '\'' ) i++; /* Count ' Tokens */ > } > cRes = (char *)hb_xgrab( ulItmPar + i * sizeof(char) ); > i = 0; c = cItmPar; cRes[i++] = '\''; > while( *c ){ > if( *c == '\'' ) cRes[i++] = '\''; > cRes[i++] = *c++; > } > cRes[i++] = '\''; /* cRes[i] = '\0'; */ > hb_itemPutCLPtr( pItmPar, cRes, i ); > } > > static ULONG SCItm( char *cBuffer, ULONG ulMaxBuf, char *cParFrm, int iCOut, > int IsIndW, int iIndWidth, int IsIndP, int iIndPrec, PHB_ITEM pItmPar ) > { > ULONG s; > > if( IsIndW && IsIndP ){ > switch( iCOut ){ > case 'p': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iIndWidth, iIndPrec, > hb_itemGetPtr( pItmPar ) ); > break; > case 's': case 'S': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iIndWidth, iIndPrec, > hb_itemGetCPtr( pItmPar ) ); > break; > case 'e': case 'E': case 'f': case 'g': case 'G': case 'a': case 'A': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iIndWidth, iIndPrec, > hb_itemGetND( pItmPar ) ); > break; > /* case 'c': case 'C': case 'd': case 'i': case 'o': case 'u': case 'x': > case 'X': */ > default: > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iIndWidth, iIndPrec, > (HB_IS_LONG( pItmPar ) ? hb_itemGetNL( pItmPar ) : hb_itemGetNI( pItmPar )) ); > } > }else if( IsIndW || IsIndP ){ > int iInd = (IsIndW ? iIndWidth : iIndPrec); > > switch( iCOut ){ > case 'p': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iInd, hb_itemGetPtr( > pItmPar ) ); > break; > case 's': case 'S': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iInd, hb_itemGetCPtr( > pItmPar ) ); > break; > case 'e': case 'E': case 'f': case 'g': case 'G': case 'a': case 'A': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iInd, hb_itemGetND( > pItmPar ) ); > break; > /* case 'c': case 'C': case 'd': case 'i': case 'o': case 'u': case 'x': > case 'X': */ > default: > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, iInd, (HB_IS_LONG( > pItmPar ) ? hb_itemGetNL( pItmPar ) : hb_itemGetNI( pItmPar )) ); > } > }else{ > switch( iCOut ){ > case 'p': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, hb_itemGetPtr( pItmPar ) > ); > break; > case 's': case 'S': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, hb_itemGetCPtr( pItmPar > ) ); > break; > case 'e': case 'E': case 'f': case 'g': case 'G': case 'a': case 'A': > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, hb_itemGetND( pItmPar ) > ); > break; > /* case 'c': case 'C': case 'd': case 'i': case 'o': case 'u': case 'x': > case 'X': */ > default: > s = hb_snprintf( cBuffer, ulMaxBuf, cParFrm, (HB_IS_LONG( pItmPar ) ? > hb_itemGetNL( pItmPar ) : hb_itemGetNI( pItmPar )) ); > } > } > return s; > } > > /******************************************************************************* > * ANSI C sprintf() for ANSI SQL with DATE, DATETIME, LOGICAL, NIL, NUMERIC > * ------------------------------------------------------------------------ > * cRes := Sql_sprintf( cFrm, ... ) > * > * Full compatible ANSI C99 formats with C,S converters wchar_t (UNICODE) > * Integer & Floating point converters with Width and Precision for NUMERIC & > STRING > * a,A converters Hexadecimal floating point format. Thanks Rafa. > * ? Sql_sprintf( "Phi = %A", (1 + 5**0.5) / 2 ) // Phi = 0X1,9E3779B97F4A8P+0 > * %m$,*m$ Index & Indirect arguments C99. Thanks Viktor. > * ? Sql_sprintf( "Phi = %2$0*3$.*1$f", 4, (1 + 5**0.5) / 2, 7 ) // Phi = > 01.6180 > * > * s converter for format Harbour data types. > * NUMERIC with FIXED DECIMALS = n | n.d STRING = String's ANSI\C > * DATE = HB_SET_DATEFORMAT DATETIME = HB_SET_DATEFORMAT hh:mm:ss > * New Internal Modifier {}. Thanks Mindaugas. > * Date and Time Format separate by first space {DD/MM/YYYY hh:mm:ss.fff > pp} > * {DD/MM/YYYY} = Only Date | { hh:mm:ss.fff pp} = Only Time > * ? Sql_sprintf( "%s", Date() ) // 16/06/08 > * ? Sql_sprintf( "%s", HB_DateTime() ) // 16/06/08 04:11:21 > * ? Sql_sprintf( "%{YYYYMMDD}s", HB_DateTime() ) // 20080616 > * ? Sql_sprintf( "%{ hh:mm pp}s", HB_DateTime() ) // 04:11 AM > * LOGICAL = TRUE | FALSE %d converter for LOGICAL = 1 | 0 > * Accepts Internal Modifier TRUE and FALSE Format separate by first comma > * {T .T.,F .F.} = TRUE & FALSE | {ON} = Only TRUE | {,OFF} = Only FALSE > * ? Sql_sprintf( "%{VERDADERO,FALSO}s", .F. ) // FALSO > * ? Sql_sprintf( "%{ONLY IF TRUE}s", .T. ) // ONLY IF TRUE > * > * New t,T converter for format ANSI SQL types. > * NUMERIC with FIXED DECIMALS = n | n.d STRING = 'String''s ANSI\\SQL' > * Print DEFAULT if 0 length STRING for T converter > * DATE = 'YYYY-MM-DD' DATETIME = 'YYYY-MM-DD HH:MM:SS' > * Accepts Internal Modifier like s converter {DD/MM/YYYY hh:mm:ss.fff pp} > * Print DEFAULT if the DATE, DATETIME is EMPTY for T converter or print > * DK_EMPTYDATE, DK_EMPTYDATETIME for t converter > * LOGICAL = TRUE | FALSE Accepts Internal Modifier like s {ON,OFF} > * > * Print DEFAULT if the parameter is NIL for T converter. > * Print NULL if the parameter is HB_IT_NULL or NIL for the rest of converters. > * Processing %% and n converter Position. > *******************************************************************************/ > > #define DK_INCRES 1024 > #define DK_INCBUF 512 > #define DK_BLKBUF HB_MAX_DOUBLE_LENGTH /* Expense of DK_INCBUF */ > #define DK_EMPTYDATE "'0001-01-01 BC'" > #define DK_EMPTYDATETIME "'0001-01-01 00:00:00 BC'" > > HB_FUNC( SQL_SPRINTF ) > { > ULONG ulItmFrm; > const char *cItmFrm; > char *cRes; > int argc = hb_pcount() - 1; > PHB_ITEM pItmFrm = hb_param( 1, HB_IT_STRING ); > > if( !pItmFrm || (cItmFrm = hb_itemGetCPtr( pItmFrm )) == NULL ){ > hb_errRT_BASE_SubstR( EG_ARG, 3012, NULL, HB_ERR_FUNCNAME, 1, > hb_paramError( 1 ) ); > }else if( (ulItmFrm = hb_itemGetCLen( pItmFrm )) == 0 ){ > hb_retc_null(); > }else if( !argc ){ > cRes = (char *)hb_xgrab( ulItmFrm + sizeof(char) ); > memcpy( cRes, cItmFrm, ulItmFrm + sizeof(char) ); > hb_retclen_buffer( cRes, ulItmFrm ); > }else{ > PHB_ITEM pItmPar, pItmCpy; > char *cIntMod, *cBuffer, *cParFrm; > const char *c; > int p, arg, iCOut, IsType, IsIndW, IsIndP, iIndWidth, iIndPrec, > iErrorPar = 0; > ULONG s, f, i, ulWidth, ulParPos = 0, ulResPos = 0, ulMaxBuf = > DK_INCBUF, ulMaxRes = DK_INCRES; > static char cToken[] = "stTcdiouxXaAeEfgGpnSC"; > > cIntMod = NULL; > cRes = (char *)hb_xgrab( ulMaxRes ); > cBuffer = (char *)hb_xgrab( ulMaxBuf ); > cParFrm = (char *)hb_xgrab( ulItmFrm + sizeof(char) ); > > for( p = 0; p < argc; /* Not p++ by support index & indirect arguments > */ ){ > > c = cItmFrm + ulParPos; > s = f = i = ulWidth = arg = iCOut = IsType = IsIndW = iIndWidth = > IsIndP = iIndPrec = 0; > do{ /* Get Par Format */ > cParFrm[i++] = *c; > if( f && *c == '%' ){ > f = ulWidth = IsIndW = IsIndP = 0; > }else if( f && !ulWidth && *c >= '0' && *c <= '9' ){ > ulWidth = atol( c ); > }else if( f && *c == '.' ){ > if( f++ == 2 ) iErrorPar = 1; > }else if( f && *c == '*' ){ > if( f == 2 ){ > if( IsIndP ){ > f = 3; iErrorPar = 1; > }else{ > IsIndP = 1; > } > }else if( !IsIndW ){ > IsIndW = 1; > }else{ > f = 3; iErrorPar = 1; > } > }else if( f && *c == '$' ){ > if( ulWidth && IsIndP && !iIndPrec ){ > iIndPrec = ulWidth; > iCOut = '*'; > }else if( ulWidth && IsIndW && !iIndWidth ){ > iIndWidth = ulWidth; > ulWidth = 0; iCOut = '*'; > }else if( ulWidth && !arg ){ > arg = ulWidth; > ulWidth = 0; iCOut = '%'; > }else{ > f = 3; iErrorPar = 1; > } > while( i && cParFrm[--i] != iCOut ) {}; > ++i; iCOut = 0; > }else if( f && *c == '{' ){ > if( s ){ > f = 3; iErrorPar = 1; > }else{ /* Remove Internal Modifier */ > if( cIntMod == NULL ){ > cIntMod = (char *)hb_xgrab( ulItmFrm + sizeof(char) ); > } > while( *c++ && *c != '}' ) cIntMod[s++] = *c; > --i; cIntMod[s] = '\0'; > if( *(c - 1) == '\0' ){ > f = 3; iErrorPar = 1; > } > } > }else if( f && strchr(cToken, *c) ){ > f = 3; iCOut = *c; > }else if( *c == '%' ){ > f = 1; > } > c++; > }while( f < 3 && *c ); cParFrm[f = i] = '\0'; > if( iErrorPar ) break; > > if( iCOut == 't' || iCOut == 'T' ){ > if( cParFrm[f - 2] == '%' ){ > IsType = (iCOut == 'T' ? 2 : 1); iCOut = cParFrm[f - 1] = 's'; > }else{ > iErrorPar = 1; break; > } > } > > if( IsIndW ){ /* Get Par Indirectly Width Item */ > pItmPar = hb_param( (iIndWidth ? iIndWidth + 1 : p++ + 2), > HB_IT_INTEGER ); > if( pItmPar ){ > if( (iIndWidth = hb_itemGetNI( pItmPar )) < 0 ){ > ulWidth = -iIndWidth; > }else{ > ulWidth = iIndWidth; > } > }else{ > iErrorPar = 1; break; > } > } > > if( IsIndP ){ /* Get Par Indirectly Precision Item */ > pItmPar = hb_param( (iIndPrec ? iIndPrec + 1 : p++ + 2), > HB_IT_INTEGER ); > if( pItmPar ){ > iIndPrec = hb_itemGetNI( pItmPar ); > }else{ > iErrorPar = 1; break; > } > } > > if( !arg && *c && p == argc - 1 ){ /* No more Par Items */ > do{ cParFrm[i++] = *c; }while( *c++ ); i--; > } /* i == strlen(cParFrm) */ > > pItmPar = hb_param( (arg ? arg + 1 : p++ + 2), HB_IT_ANY ); /* Get > Par Item */ > if( !pItmPar ){ > iErrorPar = 1; break; > } > > if( !iCOut || iCOut == 'n' ){ /* Par Text Out */ > > for( f = i, i = 0; i < f; i++ ){ /* Change %% with % */ > if( cParFrm[i] == '%' && cParFrm[i + 1] == '%' ){ > memcpy( cParFrm + i, cParFrm + i + 1, f - i ); > f--; > } > } /* i == strlen(cParFrm) */ > if( iCOut ){ > for( f = 0; f < i; f++ ){ /* Erase %n */ > if( cParFrm[f] == '%' && cParFrm[f + 1] == 'n' ){ > memcpy( cParFrm + f, cParFrm + f + 2, i - f - 1 ); > break; > } > } /* f == Index % of n */ > if( f < i ){ > i -= 2; /* i == strlen(cParFrm) */ > hb_itemPutNL( pItmPar, ulResPos + f ); > }else{ > iErrorPar = 1; break; > } > } > if( (f = i + sizeof(char)) > ulMaxBuf ){ > ulMaxBuf += f + DK_INCBUF; > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > hb_strncpy( cBuffer, cParFrm, i ); s = i; > > }else{ /* Par Item sprintf() Out */ > > # ifdef HB_IT_NULL > if( (HB_IS_NIL( pItmPar ) || HB_IS_NULL( pItmPar )) ){ > # else > if( HB_IS_NIL( pItmPar ) ){ > # endif > ulWidth = f; IsIndW = IsIndP = 0; > while( cParFrm[--f] != '%' ) {}; > iCOut = cParFrm[f + 1] = 's'; /* Change format with %s */ > memcpy( cParFrm + f + 2, cParFrm + ulWidth, i - ulWidth + 1 ); > i -= ulWidth - f - 2; /* i == strlen(cParFrm) */ > if( (f = i + 8) > ulMaxBuf ){ /* size of "DEFAULT" == 8 */ > ulMaxBuf += f + DK_INCBUF; > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > hb_itemCopy( pItmCpy = hb_itemNew( NULL ), pItmPar ); > # ifdef HB_IT_NULL > if( IsType == 2 && !HB_IS_NULL( pItmPar ) ) hb_itemPutCL( > pItmCpy, "DEFAULT", 7 ); > # else /* Print DEFAULT if NIL for T converter if not NULL, print > NULL for the rest of converters */ > if( IsType == 2 ) hb_itemPutCL( pItmCpy, "DEFAULT", 7 ); > # endif > else hb_itemPutCL( pItmCpy, "NULL", 4 ); > s = SCItm( cBuffer, ulMaxBuf, cParFrm, iCOut, IsIndW, > iIndWidth, IsIndP, iIndPrec, pItmCpy ); > hb_itemRelease( pItmCpy ); > > }else if( HB_IS_STRING( pItmPar ) && (iCOut == 's' || iCOut == > 'S') ){ > if( IsType ){ > hb_itemCopy( pItmCpy = hb_itemNew( NULL ), pItmPar ); > pItmPar = pItmCpy; > if( IsType == 2 && hb_itemGetCLen( pItmPar ) == 0 ) /* 0 > length string print DEFAULT for T converter */ > hb_itemPutCL( pItmPar, "DEFAULT", 7 ); > else > STAItm( pItmPar ); > } > f = hb_itemGetCLen( pItmPar ); > if( (f = i + HB_MAX(ulWidth, f)) > ulMaxBuf ){ > ulMaxBuf += f + DK_INCBUF; > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > s = SCItm( cBuffer, ulMaxBuf, cParFrm, iCOut, IsIndW, > iIndWidth, IsIndP, iIndPrec, pItmPar ); > if( IsType ) hb_itemRelease( pItmPar ); > > }else if( HB_IS_DATETIME( pItmPar ) && iCOut == 's' ){ > long lDate, lTime; > char cDTBuf[ 9 ], cDTFrm[ 27 ]; > > if( s ){ /* Internal Modifier */ > for( f = 0; cIntMod[f] && cIntMod[f] != ' '; f++ ) {}; > if( f != s ) cIntMod[f++] = '\0'; /* Date & Time */ > } > > if( HB_IS_TIMESTAMP( pItmPar ) ){ > hb_itemGetTDT( pItmPar, &lDate, &lTime ); > hb_timeStampFormat( cDTFrm, > (s ? cIntMod : (IsType ? "YYYY-MM-DD" : > hb_setGetDateFormat())), > (s ? cIntMod + f : (IsType ? "HH:MM:SS" > : hb_setGetTimeFormat())), > lDate, lTime ); > if( s ){ > if( !cIntMod[0] ){ > memcpy( cDTFrm, cDTFrm + 1, 26 ); /* LTrim 1 space > if only Time */ > }else if( cDTFrm[s] == ' ' ){ > cDTFrm[s] = '\0'; /* RTrim 1 space if only Date */ > } > } > }else > hb_dateFormat( hb_itemGetDS( pItmPar, cDTBuf ), cDTFrm, > (s ? cIntMod : (IsType ? "YYYY-MM-DD" : > hb_setGetDateFormat())) ); > > if( (f = i + HB_MAX(ulWidth, 27)) > ulMaxBuf ){ > ulMaxBuf += f + DK_INCBUF; > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > hb_itemCopy( pItmCpy = hb_itemNew( NULL ), pItmPar ); > hb_itemPutC( pItmCpy, cDTFrm ); > if( IsType ){ > /* Empty DATE, DATETIME print DEFAULT for T converter or > DK_EMPTYDATE, DK_EMPTYDATETIME for t converter */ > if( *cDTFrm == ' ' ) hb_itemPutC( pItmCpy, (HB_IS_TIMESTAMP( > pItmPar ) ? > (IsType == 2 ? > "DEFAULT" : DK_EMPTYDATETIME) : > (IsType == 2 ? > "DEFAULT" : DK_EMPTYDATE)) ); > else STAItm( pItmCpy ); > } > s = SCItm( cBuffer, ulMaxBuf, cParFrm, iCOut, IsIndW, > iIndWidth, IsIndP, iIndPrec, pItmCpy ); > hb_itemRelease( pItmCpy ); > > }else if( HB_IS_LOGICAL( pItmPar ) ){ > > if( s ){ /* Internal Modifier */ > for( f = 0; cIntMod[f] && cIntMod[f] != ','; f++ ) {}; > if( f != s ) cIntMod[f++] = '\0'; /* TRUE & FALSE */ > } > if( iCOut == 's' ){ > hb_itemCopy( pItmCpy = hb_itemNew( NULL ), pItmPar ); > pItmPar = pItmCpy; > hb_itemPutC( pItmPar, (hb_itemGetL( pItmPar ) ? (s ? cIntMod > : "TRUE") : (s ? cIntMod + f : "FALSE")) ); > } > if( (f = i + (iCOut == 's' ? HB_MAX(ulWidth, (s ? s : 6)) : > HB_MAX(ulWidth, DK_BLKBUF))) > ulMaxBuf ){ > ulMaxBuf += f + DK_INCBUF; /* size of "FALSE" == 6 */ > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > s = SCItm( cBuffer, ulMaxBuf, cParFrm, iCOut, IsIndW, > iIndWidth, IsIndP, iIndPrec, pItmPar ); > if( iCOut == 's' ) hb_itemRelease( pItmPar ); > > }else if( iCOut == 's' ){ > char *cStr = hb_itemStr( pItmPar, NULL, NULL ); > const char *cTrimStr; > > if( cStr ){ > f = strlen( cStr ); cTrimStr = hb_strLTrim( cStr, &f ); > if( (f = i + HB_MAX(ulWidth, f)) > ulMaxBuf ){ > ulMaxBuf += f + DK_INCBUF; > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > hb_itemCopy( pItmCpy = hb_itemNew( NULL ), pItmPar ); > hb_itemPutCL( pItmCpy, cTrimStr, f ); > s = SCItm( cBuffer, ulMaxBuf, cParFrm, iCOut, IsIndW, > iIndWidth, IsIndP, iIndPrec, pItmCpy ); > hb_itemRelease( pItmCpy ); hb_xfree( cStr ); > }else{ > iErrorPar = p + 2; break; > } > > }else if( HB_IS_NUMERIC( pItmPar ) || HB_IS_POINTER( pItmPar ) ){ > if( (f = i + HB_MAX(ulWidth, DK_BLKBUF)) > ulMaxBuf ){ > ulMaxBuf += f + DK_INCBUF; > cBuffer = (char *)hb_xrealloc( cBuffer, ulMaxBuf ); > } > s = SCItm( cBuffer, ulMaxBuf, cParFrm, iCOut, IsIndW, > iIndWidth, IsIndP, iIndPrec, pItmPar ); > > }else{ > iErrorPar = p + 2; break; > } > } > > if( (f = s + ulResPos + sizeof(char)) > ulMaxRes ){ > ulMaxRes += f + DK_INCRES; > cRes = (char *)hb_xrealloc( cRes, ulMaxRes ); > } > hb_strncpy( cRes + ulResPos, cBuffer, s ); ulResPos += s; > > if( (ulParPos = c - cItmFrm) >= ulItmFrm ){ > break; /* No more Par Format */ > } > } > if( cIntMod ) hb_xfree( cIntMod ); > hb_xfree( cParFrm ); hb_xfree( cBuffer ); > if( iErrorPar ){ > hb_xfree( cRes ); > if( iErrorPar > 1 ){ > hb_errRT_BASE_SubstR( EG_ARG, 3012, NULL, HB_ERR_FUNCNAME, 2, > hb_paramError( 1 ), hb_paramError( iErrorPar ) ); > }else{ > hb_errRT_BASE_SubstR( EG_ARG, 3012, NULL, HB_ERR_FUNCNAME, 1, > hb_paramError( 1 ) ); > } > }else{ > hb_retclen_buffer( cRes, ulResPos ); > } > } > } _______________________________________________ Harbour mailing list (attachment size limit: 40KB) [email protected] http://lists.harbour-project.org/mailman/listinfo/harbour
