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campo-sirio/include/files.cpp
luca 98fbaa5086 Patch level :10.0 cd 210 
Files correlati     :
Ricompilazione Demo : [ ]
Commento            :correzioni relative alla segnalazione di caricamento .des errato o sconosciuto e alla definizione del campo DATAPWD nel file degli utonti


git-svn-id: svn://10.65.10.50/trunk@18091 c028cbd2-c16b-5b4b-a496-9718f37d4682
2009-01-23 10:38:31 +00:00

719 lines
16 KiB
C++
Executable File
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#include <applicat.h>
#include <expr.h>
#include <files.h>
#include <lffiles.h>
#include <utility.h>
#include <config.h>
#include <extcdecl.h>
#define BLOCKLEN 512
#define INVFLD 255
TFile::TFile (int lenrec, int base)
{
_file = new SecDef;
_file->IOR = NOERR;
_len = lenrec;
_base = base;
_file->LockMode = _manulock;
_file->lpos = -1;
_file->name[0] = '\0';
}
TFile::~TFile ()
{
delete _file;
}
// @doc EXTERNAL
// @mfunc Apre il file specificato
void TFile::open (
const char *name, // @parm Nome del file da aprire
TFilelock lockmode) // @parm Tipo di lock da attivare durante l'apertura del file
// (default _manulock)
{
COpen (_file, (char *) name, _len, _base, lockmode);
}
bool TFile::verify (const char *name)
{
CVerify (_file, (char *) name);
return _file->IOR == NOERR;
}
// @doc EXTERNAL
// @mfunc Crea il file specificato
void TFile::create (
const char *name, // @parm Nome del file da creare
TRecnotype nrecord) // @parm Numero di recird che deve avere il file al momento
// della creazione (default 0)
// @comm Il file creato avra' dimensioni sufficienti a contenere <p nrecord> record
{
CCreate (_file, (char *) name, _len, _base, (nrecord * _len) / BLOCKLEN + 1);
}
void TFile::chsize (const char *name, TRecnotype nrecord)
{
CChsize (_file, (char *) name, _len, _base, (nrecord * _len) / BLOCKLEN + 1);
}
void TFile::close ()
{
CClose (_file);
}
void TFile::unlink (const char *name)
{
CDelete (_file, (char *) name);
}
// @doc EXTERNAL
// @mfunc Legge un record dal file
void TFile::read (
char *record, // @parm Record letto
TRecnotype recnum, // @parm Numero del record da leggere
TReclock lock) // @parm Tipo di blocco da attivare durante la letture (default _nolock)
{
_file->LenRec = _len;
_file->BaseFil = _base;
CRead (_file, record, recnum, lock);
}
// @doc EXTERNAL
// @mfunc Scrive un record sul file
void TFile::write (
char *record, // @parm Record da scrivere
TRecnotype recnum, // @parm Numero del record da scrivere
TReclock lock) // @parm Tipo di blocco da attivare durante la letture (default _nolock)
{
_file->LenRec = _len;
_file->BaseFil = _base;
CWrite (_file, record, recnum, lock);
}
int TFile::status () const
{
return _file->IOR;
}
TDir::TDir () : _num(-1), _com(false)
{
zero ();
}
TDir::TDir(int logicnum) : _num(logicnum), _com(false)
{
zero();
get(logicnum, _nolock, _nordir, _sysdirop);
}
TDir::TDir(const TDir& d)
{
_dir = d._dir;
_num = d._num;
_com = d._com;
}
TDir::~TDir ()
{ }
const char *TDir::name () const
{
return _dir.SysName;
}
const char* TDir::filename() const
{
TString& tmp = get_tmp_string();
tmp = CAddPref(_dir.SysName);
for (int i=tmp.len()-1; i>=0; i--)
{
const char c = tmp[i];
if (is_slash(c))
{
tmp << ".dbf";
break;
}
else
if (c == '.')
break;
}
return tmp;
}
void TDir::set_name(const char* name)
{
CHECK(name != NULL, "NULL Filename");
CHECK(strlen(name) < 42, "Name too long");
for (int i=strlen(name); i>0; i--)
{
char c = name[i-1];
if (c == '\\' || c == '/')
break;
else
if (c == '.')
c = '\0';
break;
}
strncpy(_dir.SysName, name, 42);
_dir.SysName[41] = '\0';
}
const char *TDir::des () const
{
return _dir.Des;
}
const char* TDir::tab_des(const char* tab)
{
const char* t = tab; if (t[0] == '$' || t[0] == '%') t++;
TString& tmp = get_tmp_string();
tmp << DESCDIR << "/d" << t << ".des";
TConfig cnf(tmp, DESCTAB);
tmp = cnf.get("Description", NULL, -1, tab);
return tmp;
}
const char *TDir::expr () const
{
return _dir.FCalc;
}
TRecnotype TDir::eod () const
{
return _dir.EOD;
}
TRecnotype TDir::eox () const
{
return _dir.EOX;
}
long TDir::flags () const
{
return _dir.Flags;
}
word TDir::len () const
{
return _dir.LenR;
}
int TDir::status (TDirtype dirop) const
{
return fdir[dirop].IOR;
}
void TDir::set_len (const UINT16 len)
{
_dir.LenR = len;
}
void TDir::set_flags(const RecNoType f)
{
_dir.Flags = f;
}
void TDir::set_eox(const RecNoType eox)
{
_dir.EOX = eox;
if (eox < eod())
set_eod(eox);
}
void TDir::reset_eox()
{ set_eox(0); }
void TDir::set_eod(const RecNoType eod)
{
_dir.EOD = eod;
if (eod > eox())
set_eox(eod);
}
void TDir::set (const char *name, const RecNoType eod, const RecNoType flag, const char *des, const char *calc)
{
strncpy (_dir.SysName, name, sizeof (_dir.SysName));
set_eod(eod);
set_flags(flag);
strncpy(_dir.Des, des, sizeof (_dir.Des));
strncpy(_dir.FCalc, calc, sizeof (_dir.FCalc));
}
// @doc EXTERNAL
// @mfunc Aggiorna l'oggetto TDir con i parametri del file
void TDir::get (
int nfile, // @parm Numero del file con cui aggiornare l'oggetto
TReclock lock, // @parm Tipo di blocco (default _nolock)
TDirtype dirtype, // @parm Direttorio nella quale e' contenuto il file (default _nordir)
TDirop op) // @parm Tipo di operazioni effettuabili sul file (default _nordirop)
{
const int whichdir = (dirtype == _nordir ? NORDIR : COMDIR);
if (op == _nordirop)
COpenFile (nfile, &_dir, int(lock), whichdir);
else
CGetFile (nfile, &_dir, int(lock), whichdir);
_num = nfile;
_com = _dir.SysName[0] != '$';
}
// @doc EXTERNAL
// @mfunc Aggiorna il file indicato con i parametri passati
void TDir::put (
int nfile, // @parm Numero del file da aggiornare
TDirtype dirtype, // @parm Direttorio nella quale e' contenuto il file (default _nordir)
TDirop op) // @parm Tipo di operazioni effettuabili sul file (default _nordirop)
{
CHECKD(nfile > 0, "Bad file number ", nfile);
const int whichdir = (dirtype == _nordir ? NORDIR : COMDIR);
if (op == _nordirop)
CCloseFile (nfile, &_dir, whichdir);
else
CPutFile (nfile, &_dir, whichdir);
}
void TDir::zero ()
{
zerofdes(&_dir);
}
void TDir::print_on (ostream & out) const
{
out << _num << '\n';
out << (int)_com << '\n';
out << _dir.SysName << '|';
out << _dir.EOD << '|';
out << _dir.EOX << '|';
out << _dir.LenR << '|';
out << _dir.Flags << '|';
out << _dir.Des << '|';
out << _dir.FCalc << '|';
out << _dir.GenPrompt << '|' << '\n';
}
void TDir::read_from (istream & in)
{
TToken_string line(256, '|');
char* buf = line.get_buffer();
const int bufsize = line.size();
in.getline (buf, bufsize, '\n');
_num = atoi(buf);
in.getline (buf, bufsize, '\n');
_com = atoi(buf) != 0;
in.getline (buf, bufsize, '\n');
line.restart();
strncpy(_dir.SysName, line.get(), sizeof(_dir.SysName));
_dir.EOD = line.get_long();
_dir.EOX = line.get_long();
_dir.LenR = line.get_int();
_dir.Flags = line.get_long();
strncpy(_dir.Des, line.get(), sizeof(_dir.Des));
strncpy(_dir.FCalc, line.get(), sizeof(_dir.FCalc));
strncpy(_dir.GenPrompt, line.get(), sizeof(_dir.GenPrompt));
}
// @doc EXTERNAL
// @mfunc Ritorna il numero di file presenti nella directory <p dirtype>
//
// @rdesc Ritorna il numero di file presenti
int TDir::items (
TDirtype dirtype) const // @parm Directory della quale contare i file
{
const int whichdir = (dirtype == _nordir ? NORDIR : COMDIR);
FileDes f;
CGetFile (LF_DIR, &f, _nolock, whichdir);
return (int) f.EOD;
}
TTrec::TTrec (int logicnum, TDirtype dirtype) : _des(NULL), _num(-1)
{
zero();
get(logicnum, dirtype);
}
TTrec::TTrec () : _des(NULL), _num(-1)
{
zero ();
}
TTrec::TTrec(const TTrec & r) : _des(NULL)
{
_rec = r._rec;
_num = r._num;
}
TTrec::~TTrec ()
{ }
int TTrec::compare(const TSortable & a) const
{
const TTrec & r = (const TTrec &) a;
int res = 0;
if (_rec.NFields != r._rec.NFields || _rec.NKeys != r._rec.NKeys) // Confronta prima il numero dei campi o il numero delle chiavi
res = 1;
else
{
const int nkeys = _rec.NKeys;
for (int i=0; i<nkeys && res==0; i++) // scorre la lista delle chiavi (sono meno del numero di campi)
{
const KeyDes& k1 = _rec.Ky[i];
const KeyDes& k2 = r._rec.Ky[i];
if (k1.DupKeys != k2.DupKeys || k1.NkFields != k2.NkFields)
res = 1;
else
for (int j=0; j<k1.NkFields && res==0; j++)
if (k1.FieldSeq[j] != k2.FieldSeq[j] || k1.FromCh[j] != k2.FromCh[j]
|| (k1.FromCh[j] != INVFLD && k1.ToCh[j] != k2.ToCh[j]))
res = 1;
}
if (res == 0) // se sono ancora uguali confronta tutti i campi
{
const int nflds = _rec.NFields;
for (int n=0; n<nflds && res==0; n++)
{
const RecFieldDes& r1 = _rec.Fd[n];
const RecFieldDes& r2 = r._rec.Fd[n];
if (r1.TypeF != r2.TypeF || r1.Len != r2.Len || r1.Dec != r2.Dec)
res = 1;
else
if (strcmp(r1.Name,r2.Name) != 0)
res = 1;
}
}
}
return res;
}
void TTrec::rehash()
{
int pos, tmppos, nf, i;
for (i = 0; i < MaxFields; i++) _rec.SortFd[i] = INVFLD;
if (_rec.NFields)
{
if (_rec.NFields> MaxFields)
fatal_box("Troppi campi in questo tracciato") ;
for (i = 0; i < _rec.NFields; i++)
{
nf = i;
pos = hashfun(_rec.Fd[nf].Name);
while (TRUE)
{
if (_rec.SortFd[pos] == INVFLD)
{
_rec.SortFd[pos] = (byte) nf;
break;
}
else
{
if (strcmp(_rec.Fd[_rec.SortFd[pos]].Name, _rec.Fd[nf].Name) <= 0)
{
pos++;
if (pos >= MaxFields)
pos = 0;
}
else
{
tmppos = _rec.SortFd[pos];
_rec.SortFd[pos] = (byte) nf;
nf = tmppos;
}
}
}
}
_rec.Fd[0].RecOff = 1;
for (i = 1; i < _rec.NFields; i++)
_rec.Fd[i].RecOff = _rec.Fd[i - 1].RecOff + _rec.Fd[i - 1].Len;
}
}
TTrec & TTrec::operator = (const TTrec & b)
{
_num = b._num;
_rec = b._rec;
return *this;
}
// @doc EXTERNAL
// @mfunc Assegna all'oggetto TTrec il tracciato record del file indicato
void TTrec::get (
int nfile, // @parm Numero del file da cui estrarre il tracciato record
TDirtype dirtype) // @parm Direttorio nella quale e' contenuto il file (default _nordir)
{
const int whichdir = (dirtype == _nordir ? NORDIR : COMDIR);
CGetRec (nfile, &_rec, whichdir);
_num = nfile;
}
// @doc EXTERNAL
// @mfunc Setta il file indicato con il tracciato record dell'oggetto
void TTrec::put (
int nfile, // @parm Numero del file di cui settare il tracciato record
TDirtype dirtype) // @parm Direttorio nella quale e' contenuto il file (default _nordir)
{
int _whichdir = (dirtype == _nordir ? NORDIR : COMDIR);
if (nfile <= 0)
fatal_box ("Bad file number %d", nfile);
CPutRec (nfile, &_rec, _whichdir);
}
void TTrec::zero ()
{
int i;
_rec.NFields = 0;
for (i = 0; i < MaxFields; i++)
{
strcpy(_rec.Fd[i].Name, "");
_rec.Fd[i].TypeF = _nullfld;
_rec.Fd[i].Len = 0;
_rec.Fd[i].Dec = 0;
_rec.Fd[i].RecOff = 0;
_rec.SortFd[i] = INVFLD;
}
_rec.NKeys = 0;
for (i = 1; i < MaxKeys; i++)
{
_rec.Ky[i].DupKeys = FALSE;
_rec.Ky[i].NkFields = 0;
for (int j = 0; j < MKFields; j++)
{
_rec.Ky[i].FieldSeq[j] = INVFLD;
_rec.Ky[i].FromCh[j] = INVFLD;
_rec.Ky[i].ToCh[j] = INVFLD;
}
}
}
int TTrec::status (TDirtype dirop) const
{
return rdir[dirop].IOR;
}
int TTrec::field(const char *name) const
{
return findfld(&_rec, name);
}
const char* TTrec::fielddef(int fld) const
{
const RecFieldDes& fd = _rec.Fd[fld];
TString& tmp = get_tmp_string(50);
tmp.format("%s|%d|%d|%d", fd.Name, (int)fd.TypeF, (int)fd.Len, (int)fd.Dec);
return tmp;
}
const char *TTrec ::keydef (int key) const
{
TString& s = get_tmp_string(128);
s = "";
for (int j = 0; j < _rec.Ky[key].NkFields; j++)
{
const bool upper = _rec.Ky[key].FieldSeq[j] > MaxFields;
const int nfld = _rec.Ky[key].FieldSeq[j] - (upper ? MaxFields : 0);
if (j)
s << "+";
if (upper)
s << "UPPER(";
s << _rec.Fd[nfld].Name;
if (_rec.Ky[key].FromCh[j] < INVFLD)
s << format ("[%d,%d]", _rec.Ky[key].FromCh[j] + 1,
_rec.Ky[key].ToCh[j] + 1);
if (upper)
s << ")";
}
s << (_rec.Ky[key].DupKeys ? "|X" : "| ");
return s;
}
int TTrec::len() const
{
const int n = fields();
return (n > 0 && n <= MaxFields) ? _rec.Fd[n - 1].RecOff + _rec.Fd[n - 1].Len : 0;
}
#ifndef FOXPRO
bool TDir::is_active () const
{
const int module = abs((int)flags());
return main_app().has_module(module, CHK_DONGLE);
}
void TTrec::update_fielddef (int nfld, TToken_string& s)
{
RecFieldDes& rfd = _rec.Fd[nfld];
strcpy (rfd.Name, s.get(0));
rfd.TypeF = s.get_int ();
rfd.Len = s.get_int ();
rfd.Dec = s.get_int ();
}
void TTrec::update_keydef (int key, TToken_string& s)
{
TExpression expr ("", _strexpr);
TString ke (s.get(0));
if (expr.set(ke, _strexpr))
{
const char* dup = s.get();
_rec.Ky[key].DupKeys = (dup && *dup != ' ');
TCodearray & c = expr.code ();
c.begin ();
int n = 0;
while (!c.end ())
{
TCode & inst = c.step ();
TCodesym sym = inst.getsym ();
if (sym == _variable)
{
const char *s = inst.string ();
int i;
for (i = 0; i < _rec.NFields; i++)
if (strcmp (_rec.Fd[i].Name, s) == 0)
break;
_rec.Ky[key].FieldSeq[n] = i;
_rec.Ky[key].FromCh[n] = INVFLD;
_rec.Ky[key].ToCh[n] = INVFLD;
inst = c.step ();
sym = inst.getsym ();
if (sym == _upper)
_rec.Ky[key].FieldSeq[n] += MaxFields;
else if (sym == _number)
{
_rec.Ky[key].FromCh[n] = (int)inst.number().integer() - 1;
inst = c.step ();
_rec.Ky[key].ToCh[n] = _rec.Ky[key].FromCh[n] + (int)inst.number ().integer () - 1;
inst = c.step ();
}
else
c.backtrace ();
n++;
}
}
_rec.Ky[key].NkFields = n;
}
}
void TTrec::print_on(ostream & out) const
{
const int n = num();
out << n;
if (_des && n>=LF_TABGEN && n<=LF_TAB && _tab.not_empty()) // Solo se e' una tabella...
out << "|" << _tab;
out << '\n';
const int nfields = fields ();
TToken_string s (80);
int i;
out << nfields << '\n';
for (i = 0; i < nfields; i++)
{
s = fielddef (i);
out << s ;
if (_des)
out << "|" << _des->get(_rec.Fd[i].Name);
out << '\n';
}
const int nkeys = keys ();
out << nkeys << '\n';
for (i = 0; i < nkeys; i++)
{
s = keydef (i);
out << s << '\n';
}
}
void TTrec::read_from(istream & in)
{
const int n = num();
TToken_string t(256);
in.getline (t.get_buffer(), t.size(), '\n');
if (_des && n >= LF_TABGEN && n <= LF_TAB)
{
if (t.find('|') >= 0)
{
const TString4 tabname(t.right(3));
t.rtrim(4); // Toglie il nome della tabella
if (_tab != tabname && !yesno_box("Descrizione relativa alla tabella %s nel file %d.\n Continuare?",(const char*) tabname), n)
return;
}
}
const int ln = t.get_int(0);
if (n > 0 && ln != n && !yesno_box ("Descrizione relativa al file n.ro %d.\n Continuare?", ln))
return;
in.getline (t.get_buffer(), t.size(), '\n');
const int nfields = t.get_int(0);
set_fields (nfields);
for (int i = 0; i < nfields; i++)
{
in.getline (t.get_buffer(), t.size(), '\n');
update_fielddef (i, t);
const int itms = t.items();
if (_des && itms >= 5) // La descrizione viene caricata solo se esiste
_des->set(_rec.Fd[i].Name, t.get(4));
}
in.getline (t.get_buffer(), t.size(), '\n');
const int nkeys = t.get_int(0);
set_keys (nkeys);
for (int i = 0; i < nkeys; i++)
{
in.getline (t.get_buffer(), t.size(), '\n');
update_keydef (i, t);
}
rehash ();
_des = NULL;
_tab = "";
}
#endif // FOXPRO
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