/* * @doc INTERNAL * * @module RUNPTR.C -- Text run and run pointer class | * * Original Authors: * Original RichEdit code: David R. Fulmer * Christian Fortini * Murray Sargent * * History: * 6/25/95 alexgo Commented and Cleaned up. * * Copyright (c) 1995-2000, Microsoft Corporation. All rights reserved. */ #include "_common.h" #include "_runptr.h" #include "_text.h" ASSERTDATA // // Invariant stuff // #define DEBUG_CLASSNAME CRunPtrBase #include "_invar.h" // =========================== CRunPtrBase class ================================================== #ifdef DEBUG /* * CRunPtrBase::Invariant() * * @mfunc * Debug-only function that validates the internal state consistency * for CRunPtrBase * * @rdesc * TRUE always (failures assert) */ BOOL CRunPtrBase::Invariant() const { if(!IsValid()) { Assert(_iRun == 0 && _ich >= 0); // CLinePtr can have _ich > 0 } else { Assert(_iRun < _pRuns->Count()); LONG cch = _pRuns->Elem(_iRun)->_cch; Assert((DWORD)_ich <= (DWORD)cch); } return TRUE; } /* * CRunPtrBase::ValidatePtr(pRun) * * @mfunc * Debug-only validation method that asserts if pRun doesn't point * to a valid text run */ void CRunPtrBase::ValidatePtr(void *pRun) const { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::ValidatePtr"); AssertSz(IsValid() && pRun >= _pRuns->Elem(0) && pRun <= _pRuns->Elem(Count() - 1), "CRunPtr::ValidatePtr: illegal ptr"); } /* * CRunPtrBase::CalcTextLength() * * @mfunc * Calculate length of text by summing text runs accessible by this * run ptr * * @rdesc * length of text so calculated, or -1 if failed */ LONG CRunPtrBase::CalcTextLength() const { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::CalcTextLength"); AssertSz(_pRuns, "CTxtPtr::CalcTextLength() - Invalid operation on single run CRunPtr"); LONG i = Count(); if(!i) return 0; LONG cb = _pRuns->Size(); LONG cchText = 0; CTxtRun *pRun = _pRuns->Elem(0); while(i--) { cchText += pRun->_cch; pRun = (CTxtRun *)((BYTE *)pRun + cb); } return cchText; } #endif /* * CRunPtrBase::GetCchLeft() * * @mfunc * Calculate count of chars left in run starting at current cp. * Complements GetIch(), which is length of text up to this cp. * * @rdesc * Count of chars so calculated */ LONG CRunPtrBase::GetCchLeft() const { return GetRun(0)->_cch - GetIch(); } /* * CRunPtrBase::CRunPtrBase(pRuns) * * @mfunc constructor */ CRunPtrBase::CRunPtrBase( CRunArray *pRuns) //@parm The Run array for the run ptr { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::CRunPtrBase"); _pRuns = pRuns; _iRun = 0; _ich = 0; //make sure everything has been initialized Assert(sizeof(CRunPtrBase) == (sizeof(_pRuns) + sizeof(_iRun) + sizeof(_ich))); } /* * CRunPtrBase::CRunPtrBase(rp) * * Copy Constructor */ CRunPtrBase::CRunPtrBase( CRunPtrBase& rp) //@parm Other run pointer to initialize from { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::CRunPtrBase"); *this = rp; } /* * CRunPtrBase::SetRun(iRun, ich) * * @mfunc * Sets this run ptr to the given run. If it does not * exist, then we set ourselves to the closest valid run * * @rdesc * TRUE if moved to iRun */ BOOL CRunPtrBase::SetRun( LONG iRun, //@parm Run index to use LONG ich) //@parm Char index within run to use { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::SetRun"); _TEST_INVARIANT_ BOOL bRet = TRUE; LONG count = Count(); // Set the run if(!IsValid()) // No runs instantiated: return FALSE; // leave this rp alone if(iRun >= count) // Validate iRun { bRet = FALSE; iRun = count - 1; // If (!count), negative iRun } // is handled by following if if(iRun < 0) { bRet = FALSE; iRun = 0; } _iRun = iRun; // Set the offset _ich = ich; CTxtRun *pRun = _pRuns->Elem(iRun); _ich = min(ich, pRun->_cch); return bRet; } /* * CRunPtrBase::NextRun() * * @mfunc * Change this RunPtr to that for the next text run * * @rdesc * TRUE if succeeds, i.e., target run exists */ BOOL CRunPtrBase::NextRun() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::NextRun"); _TEST_INVARIANT_ if(_pRuns && _iRun < Count() - 1) { ++_iRun; _ich = 0; return TRUE; } return FALSE; } /* * CRunPtrBase::PrevRun() * * @mfunc * Change this RunPtr to that for the previous text run * * @rdesc * TRUE if succeeds, i.e., target run exists */ BOOL CRunPtrBase::PrevRun() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::PrevRun"); _TEST_INVARIANT_ if(_pRuns) { _ich = 0; if(_iRun > 0) { _iRun--; return TRUE; } } return FALSE; } /* * CRunPtrBase::GetRun(cRun) * * @mfunc * Get address of the TxtRun that is cRun runs away from the run * pointed to by this RunPtr * * @rdesc * ptr to the CTxtRun cRun's away */ CTxtRun* CRunPtrBase::GetRun( LONG cRun) const //@parm signed count of runs to reach target CTxtRun { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::GetRun"); _TEST_INVARIANT_ Assert(IsValid()); // Common problem... return _pRuns->Elem(_iRun + cRun); } /* * CRunPtrBase::CalculateCp() * * @mfunc * Get cp of this RunPtr * * @rdesc * cp of this RunPtr * * @devnote * May be computationally expensive if there are many elements * in the array (we have to run through them all to sum cch's. * Used by TOM collections and Move commands, so needs to be fast. */ LONG CRunPtrBase::CalculateCp () const { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::GetCp"); _TEST_INVARIANT_ Assert(IsValid()); LONG cb = _pRuns->Size(); LONG cp = _ich; // Correct result if _iRun = 0 LONG iRun = _iRun; if(!iRun) return cp; CTxtRun *pRun = GetRun(0); while(iRun--) { Assert(pRun); pRun = (CTxtRun *)((BYTE *)pRun - cb); cp += pRun->_cch; } return cp; } /* * CRunPtrBase::BindToCp(cp, cchText) * * @mfunc * Set this RunPtr to correspond to a cp. * * @rdesc * the cp actually set to */ LONG CRunPtrBase::BindToCp( LONG cp, //@parm Character position to move this RunPtr to LONG cchText) //@parm cch in story or 0 { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::BindToCp"); if(cp > cchText/2 && _pRuns) // Start from end of story { _iRun = Count() - 1; if(_iRun >= 0) { _ich = _pRuns->Elem(_iRun)->_cch; return cchText + Move(cp - cchText); } } _iRun = 0; _ich = 0; return Move(cp); } /* * CRunPtrBase::Move(cch) * * @mfunc * Move this RunPtr by (signed) cch chars. If it lands on the * end of a run, it automatically goes to the start of the next run * (if one exists). * * @rdesc * Count of characters actually moved */ LONG CRunPtrBase::Move( LONG cch) //@parm signed count of chars to move this RunPtr by { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::Move"); if(!cch || !IsValid()) return cch; LONG cchSave = cch; if(cch < 0) while(cch < 0) { if(-cch <= _ich) { _ich += cch; // Target is in this run cch = 0; break; } // Otherwise, we need to go to previous run. First add count // of chars from start of current run to current postion. cch += _ich; if(_iRun <= 0) // Already in first run { _iRun = 0; _ich = 0; // Move to run beginning break; } _ich = _pRuns->Elem(--_iRun)->_cch; // Move to previous run } else { LONG cchRun; CTxtRun *pRun = GetRun(0); while(cch > 0) // Move forward { cchRun = pRun->_cch; _ich += cch; if(_ich < cchRun) // Target is in this run { cch = 0; // Signal countdown completed break; // (if _ich = cchRun, go to } // next run) cch = _ich - cchRun; // Move to next run if(++_iRun >= Count()) // Ran past end, back up to { // end of story --_iRun; Assert(_iRun == Count() - 1); Assert(_pRuns->Elem(_iRun)->_cch == cchRun); _ich = cchRun; break; } _ich = 0; // Start at new BOL pRun = (CTxtRun *)((BYTE *)pRun + _pRuns->Size()); } } // NB! we check the invariant at the end to handle the case where // we are updating the cp for a floating range (i.e., we know that // the cp is invalid, so we fix it up). So we have to check for // validity *after* the fixup. _TEST_INVARIANT_ return cchSave - cch; // Return TRUE if countdown } // completed /* * CRunPtrBase::CountRuns(&cRun, cchMax, cp, cchText) * * @mfunc * Count characters up to

runs away or

chars, * whichever comes first. If the target run and

are both * beyond the corresponding end of the document, count up thru the * closest run (0 or Count() - 1). The direction of counting is * determined by the sign of

. To count without being limited * by

, set it equal to tomForward. An initial partial * run counts as a run, i.e., if cRun > 0 and _ich < cch in current * run or if cRun < 0 and _ich > 0, that counts as a run. * * @rdesc * Return the signed cch counted and set

equal to count of runs * actually counted. If no runs are allocated, the text is treated as * a single run. If

= 0, -_ich is returned. If

0 * and this run ptr points to the end of the last run, no change is made * and 0 is returned. * * @devnote * The maximum count capability is included to be able to count units in * a range. The

argument is needed for getting the text length * when no runs exist and

selects forward counting. */ LONG CRunPtrBase::CountRuns ( LONG & cRun, //@parm Count of runs to get cch for LONG cchMax, //@parm Maximum char count LONG cp, //@parm CRchTxtPtr::GetCp() LONG cchText) const //@parm Text length of associated story { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::CountRuns"); _TEST_INVARIANT_ LONG cch; if(!cRun) // Nothing to do return 0; // Simple special single-run case if(!IsValid()) // No runs instantiated: act as a { // single run if(cRun > 0) // Count forward { cch = cchText - cp; // Partial count to end of run cRun = 1; // No more than one run } else // Count backward { cch = -cp; // Partial count to start of run cRun = -1; // No less than minus one run } if(!cch) // No partial run, so no runs cRun = 0; // counted return cch; } // General case for which runs are instantiated LONG cb = _pRuns->Size(); // Size of text run element LONG iDir; LONG iRun = _iRun; // Cache run index for current run LONG j, k; // Handy integers CTxtRun * pRun = GetRun(0); // Not NULL since runs exist if(cRun < 0) // Try to count backward cRun runs { iDir = -1; cb = -cb; // Byte count to previous element cch = _ich; // Remaining cch in current run if(cch) // If cch != 0, initial run counts cRun++; // as a run: 1 less for for loop cRun = max(cRun, -iRun); // Don't let for loop overshoot } else { // Try to count forward cRun runs Assert(cRun > 0); iDir = 1; cch = pRun->_cch - _ich; // Remaining cch in current run if(cch) // If cch != 0, initial run counts cRun--; // as a run: 1 less for for loop k = Count() - iRun - 1; // k = # runs following current run cRun = min(cRun, k); // Don't let for loop overshoot } k = cch; // Remember if initial cch != 0 for(j = cRun; j && cch < cchMax; j -= iDir) { pRun = (CTxtRun *)((BYTE *)pRun + cb); // Point at following run cch += pRun->_cch; // Add in its count } if(k) // Initial partial run counts as cRun += iDir; // a run cRun -= j; // Discount any runs not counted // if |cch| >= cchMax return iDir*cch; // Return total cch bypassed } /* * CRunPtrBase::FindRun (pcpMin, pcpMost, cpMin, cch) * * @mfunc * Set *

= closest run cpMin = range cpMin, and * set *

= closest run cpMost = range cpMost * * @devnote * This routine plays a role analogous to CTxtRange::FindParagraph * (pcpMin, pcpMost), but needs extra arguments since this run ptr does * not know the range cp's. This run ptr is located at the range active * end, which is determined by the range's signed length

in * conjunction with

. */ void CRunPtrBase::FindRun ( LONG *pcpMin, //@parm Out parm for bounding-run cpMin LONG *pcpMost, //@parm Out parm for bounding-run cpMost LONG cpMin, //@parm Range cpMin LONG cch, //@parm Range signed length LONG cchText) const //@parm Story length { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::FindRun"); if(!IsValid()) { if(pcpMin) // Run is whole story *pcpMin = 0; if(pcpMost) *pcpMost = cchText; return; } BOOL fMove; // Controls Move for pcpMost CRunPtrBase rp((CRunPtrBase&)(*this)); // Clone this runptr to keep it const rp.AdjustForward(); // Select forward run if(pcpMin) { // If cch != 0, rp is sure to end up fMove = cch; // at cpMin, so pcpMost needs Move if(cch > 0) // rp is at cpMost, so move it to rp.Move(-cch); // cpMin *pcpMin = cpMin - rp._ich; // Subtract off offset in this run } else fMove = cch < 0; // Need to move to get pcpMost if(pcpMost) { cch = abs(cch); if(fMove) // Move to cpMost = cpMin + cch, rp.Move(cch); // i.e., range's cpMost if(cch) rp.AdjustBackward(); // Since nondegenerate range *pcpMost = cpMin + cch // Add remaining cch in run to range's + rp.GetCchLeft(); // cpMost } } /* * CRunPtrBase::AdjustBackward() * * @mfunc * If the cp for this run ptr is at the "boundary" or edge between two * runs, then make sure this run ptr points to the end of the first run. * * @comm * This function does nothing unless this run ptr points to the beginning * or the end of a run. This function may be needed in those cases * because a cp at the beginning of a run is identical to the cp for the * end of the previous run (if it exists), i.e., such an "edge" cp is * ambiguous, and you may need to be sure that this run ptr points to the * end of the first run. * * For example, consider a run that describes characters at cp's 0 to 10 * followed by a run that describes characters at cp's 11 through 12. For * a cp of 11, it is possible for the run ptr to be either at the *end* * of the first run or at the *beginning* of the second run. * * @rdesc nothing */ void CRunPtrBase::AdjustBackward() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::AdjustBackward"); _TEST_INVARIANT_ if(!_ich && PrevRun()) // If at start of run that isn't _ich = _pRuns->Elem(_iRun)->_cch; // the first, go to end of } // previous run /* * CRunPtrBase::AdjustForward() * * @mfunc * If the cp for this run ptr is at the "boundary" or edge between two * runs, then make sure this run ptr points to the start of the second * run. * * @rdesc * nothing * * @xref * */ void CRunPtrBase::AdjustForward() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::AdjustForward"); _TEST_INVARIANT_ if(!IsValid()) return; CTxtRun *pRun = _pRuns->Elem(_iRun); if(pRun->_cch == _ich) // If at end of run, go to start NextRun(); // of next run (if it exists) } /* * CRunPtrBase::SetToNull() * * @mfunc * Sets all run pointer information to be NULL. This * is designed to handle the response to clearing document runs * such as when we convert from rich text to plain text. * * @rdesc * VOID */ void CRunPtrBase::SetToNull() { TRACEBEGIN(TRCSUBSYSBACK, TRCSCOPEINTERN, "CRunPtrBase::SetToNull"); _pRuns = NULL; _iRun = 0; _ich = 0; }