windows-nt/Source/XPSP1/NT/windows/richedit/lssrc/lstxttab.c

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2020-09-26 03:20:57 -05:00
#include "lstxttab.h"
#include "lstxtmap.h"
#include "lsdnset.h"
#include "objdim.h"
#include "txtils.h"
#include "txtln.h"
#include "txtobj.h"
LSERR SetTabLeader(PDOBJ pdobj, WCHAR wch)
{
Assert(((PTXTOBJ)pdobj)->txtkind == txtkindTab);
((PTXTOBJ)pdobj)->u.tab.wchTabLeader = wch;
return lserrNone;
}
/* L S G E T D E C I M A L P O I N T */
/*----------------------------------------------------------------------------
%%Function: LsGetDecimalPoint
%%Contact: sergeyge
Finds dobj, containing decimal point and reports its index as well as
relative and dur from the beginning of dobj until decimal point.
----------------------------------------------------------------------------*/
LSERR LsGetDecimalPoint(const LSGRCHNK* plsgrchnk, enum lsdevice lsdev, DWORD* pigrchnk, long* pduToDecimal)
{
LSERR lserr;
DWORD clsgrchnk;
PLSCHNK rglschnk;
POLS pols;
PLSRUN plsrun;
PLNOBJ ptxtln;
PILSOBJ pilsobj;
PTXTOBJ ptxtobj;
WCHAR* rgwch;
long* rgdu;
long* rgwSpaces;
long itxtobj;
long iwch;
long iwchSpace;
long iwSpace;
BOOL fInDigits;
BOOL fDigit;
WCHAR wchDec;
WCHAR wchThou;
BOOL fThouIsSpace;
BOOL fFound;
BOOL fRealPointFound;
long iwchDecimal = 0;
long du;
BOOL fGlyphBased;
long iFirst;
long iLim;
long iDecimal;
long i;
clsgrchnk = plsgrchnk->clsgrchnk;
if (clsgrchnk == 0)
{
*pigrchnk = idobjOutside;
*pduToDecimal = 0;
return lserrNone;
}
rglschnk = plsgrchnk->plschnk;
ptxtln = ((PTXTOBJ)rglschnk[0].pdobj)->plnobj;
pilsobj = ptxtln->pilsobj;
pols = pilsobj->pols;
rgwch = pilsobj->pwchOrig;
rgwSpaces = pilsobj->pwSpaces;
fInDigits = fFalse;
fFound = fFalse;
fRealPointFound = fFalse;
for (itxtobj = 0; !fFound && itxtobj < (long)clsgrchnk; itxtobj++)
{
ptxtobj = (PTXTOBJ)rglschnk[itxtobj].pdobj;
fGlyphBased = ptxtobj->txtf & txtfGlyphBased;
plsrun = rglschnk[itxtobj].plsrun;
lserr = (*pilsobj->plscbk->pfnGetNumericSeparators)(pols, plsrun, &wchDec, &wchThou);
if (lserr != lserrNone) return lserr;
fThouIsSpace = (wchThou == pilsobj->wchSpace || wchThou == pilsobj->wchNonBreakSpace);
if (ptxtobj->txtkind == txtkindRegular)
{
iwSpace = ptxtobj->u.reg.iwSpacesFirst;
if (iwSpace == ptxtobj->u.reg.iwSpacesLim)
{
iwchSpace = ptxtobj->iwchLim;
}
else
{
iwchSpace = rgwSpaces[iwSpace];
}
for (iwch = ptxtobj->iwchFirst; !fFound && iwch < ptxtobj->iwchLim; iwch++)
{
if (!fGlyphBased || FIwchOneToOne(pilsobj, iwch))
{
if (iwch == iwchSpace)
{
if (fInDigits && !fThouIsSpace)
{
iwchDecimal = iwch;
fFound = fTrue;
}
else
{
iwSpace++;
if (iwSpace == ptxtobj->u.reg.iwSpacesLim)
{
iwchSpace = ptxtobj->iwchLim;
}
else
{
iwchSpace = rgwSpaces[iwSpace];
}
}
}
else if (rgwch[iwch] == wchDec)
{
iwchDecimal = iwch;
fFound = fTrue;
fRealPointFound = fTrue;
}
else
{
lserr = (*pilsobj->plscbk->pfnCheckForDigit)(pols, plsrun, rgwch[iwch], &fDigit);
if (lserr != lserrNone) return lserr;
if (fDigit)
{
fInDigits = fTrue;
}
else
{
iwchDecimal = iwch;
fFound = (fInDigits && rgwch[iwch] != wchThou);
}
}
}
} /* for (iwch= ... */
} /* if (txtkind == txtkindRegular */
else if (ptxtobj->txtkind == txtkindNonBreakSpace)
{
if (fInDigits && !fThouIsSpace)
{
iwchDecimal = ptxtobj->iwchFirst;
fFound = fTrue;
}
}
else if (ptxtobj->txtkind == txtkindEOL)
{
iwchDecimal = ptxtobj->iwchFirst;
fFound = fTrue;
}
else /* All other dobj's interrupt digits */
{
if (fInDigits && ptxtobj->iwchLim > ptxtobj->iwchFirst)
{
iwchDecimal = ptxtobj->iwchFirst;
fFound = fTrue;
}
}
if (!fFound && (plsgrchnk->pcont[itxtobj] & fcontNonTextAfter))
{
iwchDecimal = ptxtobj->iwchLim;
fFound = fInDigits;
}
} /* for (itxtobj= ... */
itxtobj--;
Assert(itxtobj >= 0);
ptxtobj = (PTXTOBJ)rglschnk[itxtobj].pdobj;
if (fFound)
{
/* If we stopped because of digit followed by non-digit
(real decimal point was not found) break after digit rather than before following character
If we stopped because of EOP after non-digit, IF statement will work correctly as well
*/
if (itxtobj > 0 && !fRealPointFound && iwchDecimal == ptxtobj->iwchFirst && !(plsgrchnk->pcont[itxtobj] & fcontNonTextBefore))
{
itxtobj--;
ptxtobj = (PTXTOBJ)rglschnk[itxtobj].pdobj;
iwchDecimal = ptxtobj->iwchLim;
}
if (ptxtobj->txtf & txtfGlyphBased)
{
if (lsdev == lsdevReference)
rgdu = pilsobj->pdurGind;
else
rgdu = ptxtln->pdupGind;
iFirst = ptxtobj->igindFirst;
iLim = ptxtobj->igindLim;
iDecimal = IgindFirstFromIwch(ptxtobj, iwchDecimal);
Assert (iDecimal >= ptxtobj->igindFirst);
}
else
{
if (lsdev == lsdevReference)
rgdu = pilsobj->pdur;
else
rgdu = ptxtln->pdup;
iFirst = ptxtobj->iwchFirst;
iLim = ptxtobj->iwchLim;
iDecimal = iwchDecimal;
Assert (iDecimal >= ptxtobj->iwchFirst);
}
du = 0;
for (i = iFirst; i < iDecimal; i++)
{
du += rgdu[i];
}
*pigrchnk = itxtobj;
*pduToDecimal = du;
}
else
{
*pigrchnk = idobjOutside;
*pduToDecimal = 0;
}
return lserrNone;
}
/* L S G E T C H A R T A B */
/*----------------------------------------------------------------------------
%%Function: LsGetCharTab
%%Contact: sergeyge
Finds dobj, containing char for char tab point and reports its index as well as
relative and dur from the beginning of dobj until decimal point.
----------------------------------------------------------------------------*/
LSERR LsGetCharTab(const LSGRCHNK* plsgrchnk, WCHAR wchCharTab, enum lsdevice lsdev,
DWORD* pigrchnk, long* pduToCharacter)
{
DWORD clsgrchnk;
PLSCHNK rglschnk;
POLS pols;
PLSRUN plsrun;
PLNOBJ ptxtln;
PILSOBJ pilsobj;
PTXTOBJ ptxtobj;
WCHAR* rgwch;
long* rgdu;
long itxtobj;
long iwch;
BOOL fFound;
long itxtobjCharTab = 0;
long iwchCharTab = 0;
long du;
BOOL fGlyphBased;
long iFirst;
long iLim;
long iCharTab;
long i;
clsgrchnk = plsgrchnk->clsgrchnk;
if (clsgrchnk == 0)
{
*pigrchnk = idobjOutside;
*pduToCharacter = 0;
return lserrNone;
}
rglschnk = plsgrchnk->plschnk;
ptxtln = ((PTXTOBJ)rglschnk[0].pdobj)->plnobj;
pilsobj = ptxtln->pilsobj;
pols = pilsobj->pols;
rgwch = pilsobj->pwchOrig;
fFound = fFalse;
for (itxtobj = 0; !fFound && itxtobj < (long)clsgrchnk; itxtobj++)
{
ptxtobj = (PTXTOBJ)rglschnk[itxtobj].pdobj;
fGlyphBased = ptxtobj->txtf & txtfGlyphBased;
plsrun = rglschnk[itxtobj].plsrun;
if (ptxtobj->txtkind == txtkindRegular)
{
for (iwch = ptxtobj->iwchFirst; !fFound && iwch < ptxtobj->iwchLim; iwch++)
{
if (!fGlyphBased || FIwchOneToOne(pilsobj, iwch))
{
if (rgwch[iwch] == wchCharTab)
{
itxtobjCharTab = itxtobj;
iwchCharTab = iwch;
fFound = fTrue;
}
}
} /* for (iwch= ... */
} /* if (txtkind == txtkindRegular */
else if (ptxtobj->txtkind == txtkindEOL)
{
/* If we stopped because of EOP
(real character is not found) break after previous character rather than before EOP.
It is important for BiDi.
*/
if (itxtobj > 0 && !(plsgrchnk->pcont[itxtobj] & fcontNonTextBefore))
{
itxtobjCharTab = itxtobj - 1;
iwchCharTab = ((PTXTOBJ)rglschnk[itxtobjCharTab].pdobj)->iwchLim;
}
else
{
itxtobjCharTab = itxtobj;
iwchCharTab = ptxtobj->iwchFirst;
}
fFound = fTrue;
}
} /* for (itxtobj= ... */
if (fFound)
{
ptxtobj = (PTXTOBJ)rglschnk[itxtobjCharTab].pdobj;
if (ptxtobj->txtf & txtfGlyphBased)
{
if (lsdev == lsdevReference)
rgdu = pilsobj->pdurGind;
else
rgdu = ptxtln->pdupGind;
iFirst = ptxtobj->igindFirst;
iLim = ptxtobj->igindLim;
iCharTab = IgindFirstFromIwch(ptxtobj, iwchCharTab);
Assert (iCharTab >= ptxtobj->igindFirst);
}
else
{
if (lsdev == lsdevReference)
rgdu = pilsobj->pdur;
else
rgdu = ptxtln->pdup;
iFirst = ptxtobj->iwchFirst;
iLim = ptxtobj->iwchLim;
iCharTab = iwchCharTab;
Assert (iCharTab >= ptxtobj->iwchFirst);
}
du = 0;
for (i = iFirst; i < iCharTab; i++)
{
du += rgdu[i];
}
*pigrchnk = itxtobjCharTab;
*pduToCharacter = du;
}
else
{
*pigrchnk = idobjOutside;
*pduToCharacter = 0;
}
return lserrNone;
}