Source code of Windows XP (NT5)
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/*++
*
* WOW v1.0
*
* Copyright (c) 1991, Microsoft Corporation
*
* EDITEC.C
* Win16 edit control code
*
* History:
*
* Created 28-May-1991 by Jeff Parsons (jeffpar)
* Copied from WIN31 and edited (as little as possible) for WOW16.
--*/
/****************************************************************************/
/* editec.c - Edit controls rewrite. Version II of edit controls. */
/* */
/* */
/* Created: 24-Jul-88 davidds */
/****************************************************************************/
/* Warning: The single line editcontrols contain internal styles and API which
* are need to support comboboxes. They are defined in combcom.h/combcom.inc
* and may be redefined or renumbered as needed.
*/
#define NO_LOCALOBJ_TAGS
#include "user.h"
#include "edit.h"
/****************************************************************************/
/* Handlers common to both single and multi line edit controls. */
/****************************************************************************/
LONG FAR PASCAL ECTabTheTextOut(hdc, x, y, lpstring, nCount, ped, iTabOrigin,
fDrawTheText)
HDC hdc;
int x;
int y;
register int nCount; /* Count of chars in string */
LPSTR lpstring;
register PED ped;
int iTabOrigin; /* Tab stops are with respect to this */
BOOL fDrawTheText;
/* effects: Outputs the tabbed text if fDrawTheText is TRUE and returns the
* textextent of the tabbed text. This is a local function for edit control
* use so that it can be optimized for speed.
*/
{
int nTabPositions; /* Count of tabstops in tabstop array */
LPINT lpintTabStopPositions; /* Tab stop positions in pixels */
int initialx = x; /* Save the initial x value so that we can get
total width of the string */
int cch;
int textextent;
int pixeltabstop = 0;
int i;
int cxCharWidth;
int cyCharHeight = 0;
RECT rc;
BOOL fOpaque = GetBkMode(hdc) == OPAQUE;
PINT charWidthBuff;
if (!lpstring || !nCount)
return(MAKELONG(0,0));
nTabPositions = (ped->pTabStops ? *(ped->pTabStops) : 0);
lpintTabStopPositions = (LPINT)(ped->pTabStops ? (ped->pTabStops+1): NULL);
cxCharWidth = ped->aveCharWidth;
cyCharHeight = ped->lineHeight;
/* If no tabstop positions are specified, then use a default of 8 system
* font ave char widths or use the single fixed tab stop.
*/
if (!lpintTabStopPositions)
pixeltabstop = 8*cxCharWidth;
else
{
if (nTabPositions == 1)
{
pixeltabstop = lpintTabStopPositions[0];
if (!pixeltabstop)
pixeltabstop=1;
}
}
rc.left = initialx;
rc.top = y;
rc.bottom = rc.top+cyCharHeight;
while(nCount)
{
if (ped->charWidthBuffer)
{
charWidthBuff = (PINT)LMHtoP(ped->charWidthBuffer);
textextent=0;
/* Initially assume no tabs exist in the text so cch=nCount.
*/
cch = nCount;
for (i=0; i<nCount; i++)
{
/* Warning danger. We gotta be careful here and convert lpstr
* (which is a SIGNED char) into an unsigned char before using
* it to index into the array otherwise the C Compiler screws
* us and gives a negative number...
*/
#ifdef FE_SB
if (ECIsDBCSLeadByte(ped,lpstring[i])
&& i+1 < nCount) {
textextent += LOWORD(GetTextExtent(hdc,&lpstring[i],2));
i++;
} else if (lpstring[i] == TAB ){
cch = i;
break;
} else
textextent += (charWidthBuff[(WORD)(((unsigned char FAR *)lpstring)[i])]);
#else
if (lpstring[i] == TAB)
{
cch = i;
break;
}
textextent += (charWidthBuff[(WORD)(((unsigned char FAR *)lpstring)[i])]);
#endif
}
nCount = nCount - cch;
}
else
{
/* Gotta call the driver to do our text extent.
*/
cch = (int)ECFindTab(lpstring, nCount);
nCount = nCount - cch;
textextent = LOWORD(GetTextExtent(hdc, lpstring, cch));
}
if (fDrawTheText)
{
/* Output all text up to the tab (or end of string) and get its
* extent.
*/
rc.right = x+LOWORD(textextent);
ExtTextOut(hdc,x, y, (fOpaque ? ETO_OPAQUE : 0),
(LPRECT)&rc, lpstring, cch, 0L);
rc.left = rc.right;
}
if (!nCount)
/* If we're at the end of the string, just return without bothering
* to calc next tab stop.
*/
return(MAKELONG(LOWORD(textextent)+(x-initialx),cyCharHeight));
/* Find the next tab position and update the x value.
*/
if (pixeltabstop)
x = (((x-iTabOrigin+LOWORD(textextent))/pixeltabstop)*pixeltabstop)+
pixeltabstop + iTabOrigin;
else
{
x += LOWORD(textextent);
for (i=0; i < nTabPositions; i++)
{
if (x < (lpintTabStopPositions[i] + iTabOrigin))
{
x = (lpintTabStopPositions[i] + iTabOrigin);
break;
}
}
/* Check if all the tabstops set are exhausted; Then start using
* default tab stop positions.
*/
if (i == nTabPositions)
{
pixeltabstop = 8 * cxCharWidth;
x = ((x - iTabOrigin)/pixeltabstop)*pixeltabstop +
pixeltabstop + iTabOrigin;
}
}
/* Skip over the tab and the characters we just drew.
*/
lpstring += (cch+1);
nCount--; /* Skip over tab */
if (!nCount && fDrawTheText)
{
/* This string ends with a tab. We need to opaque the rect produced
* by this tab...
*/
rc.right = x;
ExtTextOut(hdc, rc.left, rc.top, ETO_OPAQUE,
(LPRECT)&rc, "", 0, 0L);
}
}
return(MAKELONG((x-initialx), cyCharHeight));
}
ICH FAR PASCAL ECCchInWidth(ped, hdc, lpText, cch, width)
register PED ped;
HDC hdc;
LPSTR lpText;
register ICH cch;
unsigned int width;
/* effects: Returns maximum count of characters (up to cch) from the given
* string which will fit in the given width. ie. Will tell you how much of
* lpstring will fit in the given width even when using proportional
* characters. WARNING: If we use kerning, then this loses...
*/
{
int stringExtent;
int cchhigh;
int cchnew = 0;
int cchlow = 0;
if ((width<=0) || !cch)
return(0);
/* Optimize nonproportional fonts for single line ec since they don't have
* tabs.
*/
if (ped->fNonPropFont && ped->fSingle)
/* umin is unsigned min function */
return(umin(width/ped->aveCharWidth,cch));
/* Check if password hidden chars are being used. */
if (ped->charPasswordChar)
return(umin(width/ped->cPasswordCharWidth,cch));
cchhigh = cch+1;
while (cchlow < cchhigh-1)
{
cchnew = umax((cchhigh - cchlow)/2,1)+cchlow;
if (ped->fSingle)
stringExtent = LOWORD(GetTextExtent(hdc, (LPSTR)lpText, cchnew));
else
stringExtent = LOWORD(ECTabTheTextOut(hdc, 0, 0,
(LPSTR)lpText,
cchnew,
ped, 0, FALSE));
if (stringExtent > width)
cchhigh = cchnew;
else
cchlow = cchnew;
}
#ifdef FE_SB
cchlow = ECAdjustIch( ped, lpText, cchlow );
#endif
return(cchlow);
}
ICH FAR PASCAL ECFindTab(lpstr, cch)
LPSTR lpstr;
register ICH cch;
/* effects: Scans lpstr and returns the number of chars till the first TAB.
* Scans at most cch chars of lpstr.
*/
{
LPSTR copylpstr = lpstr;
if (!cch)
return(0);
while (*lpstr != TAB)
{
lpstr++;
if (--cch == 0)
break;
}
return((ICH)(lpstr - copylpstr));
}
BOOL NEAR _fastcall ECIsDelimiter(char bCharVal)
{
return((bCharVal == ' ') || (bCharVal == '\t'));
}
LONG FAR PASCAL ECWord(ped, ichStart, fLeft)
PED ped; /* Yes, I mean no register ped */
ICH ichStart;
BOOL fLeft;
/* effects: if fLeft Returns the ichMinSel and ichMaxSel of the word to the
* left of ichStart. ichMinSel contains the starting letter of the word,
* ichmaxsel contains all spaces up to the first character of the next word.
*
* if !fLeft Returns the ichMinSel and ichMaxSel of the word to the right of
* ichStart. ichMinSel contains the starting letter of the word, ichmaxsel
* contains the first letter of the next word. If ichStart is in the middle
* of a word, that word is considered the left or right word. ichMinSel is in
* the low order word and ichMaxSel is in the high order word. ichMinSel is
* in the low order word and ichMaxSel is in the high order word. A CR LF
* pair or CRCRLF triple is considered a single word for the purposes of
* multiline edit controls.
*/
{
PSTR pText;
register PSTR pWordMinSel;
register PSTR pWordMaxSel;
BOOL charLocated=FALSE;
BOOL spaceLocated=FALSE;
#ifdef FE_SB
PSTR pWordStr;
BOOL fAlpha = FALSE;
#endif
if ((!ichStart && fLeft) || (ichStart == ped->cch && !fLeft))
/* We are at the beginning of the text (looking left) or we are at end
* of text (looking right), no word here
*/
return(0L);
pText = (PSTR) LocalLock(ped->hText);
pWordMinSel = pWordMaxSel = pText+ichStart;
/* if fLeft: Move pWordMinSel to the left looking for the start of a word.
* If we start at a space, we will include spaces in the selection as we
* move left untill we find a nonspace character. At that point, we continue
* looking left until we find a space. Thus, the selection will consist of
* a word with its trailing spaces or, it will consist of any leading at the
* beginning of a line of text.
*/
/* if !fLeft: (ie. right word) Move pWordMinSel looking for the start of a
* word. If the pWordMinSel points to a character, then we move left
* looking for a space which will signify the start of the word. If
* pWordMinSel points to a space, we look right till we come upon a
* character. pMaxWord will look right starting at pMinWord looking for the
* end of the word and its trailing spaces.
*/
#ifdef FE_SB
if (fLeft || (!ECIsDelimiter(*pWordMinSel) && *pWordMinSel != 0x0D && !ECIsDBCSLeadByte(ped,*pWordMinSel)))
#else
if (fLeft || (!ECIsDelimiter(*pWordMinSel) && *pWordMinSel != 0x0D))
#endif
/* If we are moving left or if we are moving right and we are not on a
* space or a CR (the start of a word), then we was look left for the
* start of a word which is either a CR or a character. We do this by
* looking left till we find a character (or if CR we stop), then we
* continue looking left till we find a space or LF.
*/
{
#ifdef FE_SB
while (pWordMinSel > pText &&
((!ECIsDelimiter(*(pWordStr=(PSTR)LOWORD(ECAnsiPrev(ped,pText,pWordMinSel)))) && *pWordStr != 0x0A) ||
!charLocated)) /* FE_SB */
{ /* FE_SB */
if (!fLeft && /* FE_SB */
(ECIsDelimiter(*(pWordStr=ECAnsiPrev(ped,pText,pWordMinSel))) || /* FE_SB */
*pWordStr == 0x0A)) /* FE_SB */
#else
while (pWordMinSel > pText &&
((!ECIsDelimiter(*(pWordMinSel-1)) && *(pWordMinSel-1) != 0x0A) ||
!charLocated))
{
if (!fLeft &&
(ECIsDelimiter(*(pWordMinSel-1)) ||
*(pWordMinSel-1) == 0x0A))
#endif
/*
* If we are looking for the start of the word right, then we
* stop when we have found it. (needed in case charLocated is
* still FALSE)
*/
break;
#ifdef FE_SB
if( !ECIsDBCSLeadByte(ped,*pWordMinSel) && !ECIsDelimiter(*pWordMinSel) &&
*pWordMinSel != 0x0d && *pWordMinSel != 0x0a &&
pWordMinSel != pText+ichStart )
fAlpha = TRUE;
#endif
#ifdef FE_SB
pWordMinSel = ECAnsiPrev(ped,pText,pWordMinSel);
#else
pWordMinSel--;
#endif
#ifdef FE_SB
if( ECIsDBCSLeadByte(ped, *pWordMinSel ) ){
if( !fLeft || fAlpha )
pWordMinSel = ECAnsiNext(ped,pWordMinSel);
break;
}
#endif
if (!ECIsDelimiter(*pWordMinSel) && *pWordMinSel != 0x0A)
/*
* We have found the last char in the word. Continue looking
* backwards till we find the first char of the word
*/
{
charLocated = TRUE;
/* We will consider a CR the start of a word */
if (*pWordMinSel == 0x0D)
break;
}
}
}
else
{
/* We are moving right and we are in between words so we need to move
* right till we find the start of a word (either a CR or a character.
*/
while ((ECIsDelimiter(*pWordMinSel) ||
*pWordMinSel == 0x0A) &&
pWordMinSel<pText+ped->cch)
pWordMinSel++;
}
#ifdef FE_SB
pWordMaxSel = (PSTR) umin((WORD)ECAnsiNext(ped,pWordMinSel),(WORD)pText+ped->cch);
#else
pWordMaxSel = (PSTR) umin((WORD)pWordMinSel+1,(WORD)pText+ped->cch);
#endif
if (*pWordMinSel == 0x0D)
{
#ifdef FE_SB
if (pWordMinSel>pText && *(ECAnsiPrev(ped,pText,pWordMinSel)) == 0x0D)
#else
if (pWordMinSel>pText && *(pWordMinSel-1) == 0x0D)
#endif
/* So that we can treat CRCRLF as one word also. */
pWordMinSel--;
else if (*(pWordMinSel+1) == 0x0D)
/* Move MaxSel on to the LF */
pWordMaxSel++;
}
/* Check if we have a one character word */
if (ECIsDelimiter(*pWordMaxSel))
spaceLocated = TRUE;
/* Move pWordMaxSel to the right looking for the end of a word and its
* trailing spaces. WordMaxSel stops on the first character of the next
* word. Thus, we break either at a CR or at the first nonspace char after
* a run of spaces or LFs.
*/
while ((pWordMaxSel < pText+ped->cch) &&
(!spaceLocated || (ECIsDelimiter(*pWordMaxSel))))
{
if (*pWordMaxSel == 0x0D)
break;
#ifdef FE_SB
if( ECIsDBCSLeadByte(ped,*pWordMaxSel) )
break;
else if( !ECIsDelimiter(*pWordMaxSel) && *pWordMaxSel != 0x0a &&
*pWordMaxSel != 0x0d && ECIsDBCSLeadByte(ped,*pWordMinSel) )
break;
#endif
#ifdef FE_SB
pWordMaxSel = ECAnsiNext(ped,pWordMaxSel);
#else
pWordMaxSel++;
#endif
if (ECIsDelimiter(*pWordMaxSel))
spaceLocated = TRUE;
#ifdef FE_SB
if (*(ECAnsiPrev(ped,pText,pWordMaxSel)) == 0x0A)
break;
#else
if (*(pWordMaxSel-1) == 0x0A)
break;
#endif
}
LocalUnlock(ped->hText);
return(MAKELONG(pWordMinSel-pText,pWordMaxSel-pText));
}
void FAR PASCAL ECEmptyUndo(ped)
register PED ped;
/* effects: empties the undo buffer.
*/
{
ped->undoType = UNDO_NONE;
if (ped->hDeletedText)
{
GlobalFree(ped->hDeletedText);
ped->hDeletedText = NULL;
}
}
BOOL FAR PASCAL ECInsertText(ped, lpText, cchInsert)
register PED ped;
LPSTR lpText;
ICH cchInsert;
/* effects: Adds cch characters from lpText into the ped->hText starting at
* ped->ichCaret. Returns TRUE if successful else FALSE. Updates
* ped->cchAlloc and ped->cch properly if additional memory was allocated or
* if characters were actually added. Updates ped->ichCaret to be at the end
* of the inserted text. min and maxsel are equal to ichcaret.
*/
{
register PSTR pedText;
PSTR pTextBuff;
LONG style;
WORD i;
WORD allocamt;
HANDLE hTextCopy;
WORD lcompact;
#ifdef FE_SB
/* Make sure we don't split a DBCS in half - 05/15/90 */
cchInsert = ECAdjustIch(ped, lpText, cchInsert);
#endif
if (!cchInsert)
return(TRUE);
/* Do we already have enough memory?? */
if (cchInsert >= (ped->cchAlloc - ped->cch))
{
/* Save lpText across the allocs */
SwapHandle(&lpText);
/* Allocate what we need plus a little extra. Return FALSE if we are
* unsuccessful.
*/
allocamt = ped->cch+cchInsert;
if (allocamt+CCHALLOCEXTRA > allocamt)
/* Need to avoid wrapping around 64K if ped->cch+cchInsert is close
* to 64K.
*/
allocamt += CCHALLOCEXTRA;
if (!ped->fSingle)
{
/* If multiline, try reallocing the text allowing it to be movable.
* If it fails, move the line break array out of the way and try
* again. We really fail if this doesn't work...
*/
hTextCopy = LocalReAlloc(ped->hText, allocamt, LHND);
if (hTextCopy)
ped->hText = hTextCopy;
else
{
/* If the above localrealloc fails, we need to take extreme
* measures to try to alloc some memory. This is because the
* local memory manager is broken when dealing with large
* reallocs.
*/
if (ped->chLines)
{
hTextCopy = (HANDLE)LocalReAlloc((HANDLE)ped->chLines,
LocalSize((HANDLE)ped->chLines),
LHND);
if (!hTextCopy)
return(FALSE);
ped->chLines = (int *)hTextCopy;
}
LocalShrink(0,0x100);
lcompact = umin(allocamt, CCHALLOCEXTRA*100);
hTextCopy = LocalAlloc(LHND|LMEM_NOCOMPACT|LMEM_NODISCARD,
lcompact);
if (hTextCopy)
LocalFree(hTextCopy);
hTextCopy = LocalReAlloc(ped->hText, allocamt, LHND);
if (hTextCopy)
ped->hText = hTextCopy;
else
return(FALSE);
}
}
else
{
if (!LocalReAlloc(ped->hText, allocamt, 0))
return(FALSE);
}
ped->cchAlloc = LocalSize(ped->hText);
/* Restore lpText */
SwapHandle(&lpText);
}
/* Ok, we got the memory. Now copy the text into the structure
*/
pedText = (PSTR) LocalLock(ped->hText);
/* Get a pointer to the place where text is to be inserted */
pTextBuff = pedText + ped->ichCaret;
if (ped->ichCaret != ped->cch)
{
/* We are inserting text into the middle. We have to shift text to the
* right before inserting new text.
*/
LCopyStruct( (LPSTR)pTextBuff,
(LPSTR)(pTextBuff + cchInsert),
ped->cch-ped->ichCaret);
}
/* Make a copy of the text being inserted in the edit buffer. */
/* Use this copy for doing UPPERCASE/LOWERCASE ANSI/OEM conversions */
/* Fix for Bug #3406 -- 01/29/91 -- SANKAR -- */
LCopyStruct(lpText, (LPSTR)pTextBuff, cchInsert);
#ifndef PMODE
LockData(0); /* Calls to Language drivers are made later; So, to be safe.*/
#endif
/* We need to get the style this way since edit controls use their own ds.
*/
style = GetWindowLong(ped->hwnd, GWL_STYLE);
if (style & ES_LOWERCASE)
AnsiLowerBuff((LPSTR)pTextBuff, cchInsert);
else
if (style & ES_UPPERCASE)
AnsiUpperBuff((LPSTR)pTextBuff, cchInsert);
#ifdef FE_SB
if( style & ES_OEMCONVERT ){
for( i = 0; i < cchInsert; i++ ){
/* Do not make any case conversion if a character is DBCS */
if( ECIsDBCSLeadByte(ped, *((LPSTR)pTextBuff+i) ) )
i++;
else {
if( IsCharLower( *((LPSTR)pTextBuff+i) ) ){
AnsiUpperBuff( (LPSTR)pTextBuff+i, 1 );
AnsiToOemBuff( (LPSTR)pTextBuff+i, (LPSTR)pTextBuff+i, 1 );
OemToAnsiBuff( (LPSTR)pTextBuff+i, (LPSTR)pTextBuff+i, 1 );
AnsiLowerBuff( (LPSTR)pTextBuff+i, 1 );
} else {
AnsiToOemBuff( (LPSTR)pTextBuff+i, (LPSTR)pTextBuff+i, 1 );
OemToAnsiBuff( (LPSTR)pTextBuff+i, (LPSTR)pTextBuff+i, 1 );
}
}
}
}
#else
if (style & ES_OEMCONVERT)
{
for (i=0;i<cchInsert;i++)
{
if (IsCharLower(*((LPSTR)pTextBuff+i)))
{
AnsiUpperBuff((LPSTR)pTextBuff+i, 1);
AnsiToOemBuff((LPSTR)pTextBuff+i,(LPSTR)pTextBuff+i,1);
OemToAnsiBuff((LPSTR)pTextBuff+i,(LPSTR)pTextBuff+i,1);
AnsiLowerBuff((LPSTR)pTextBuff+i,1);
}
else
{
AnsiToOemBuff((LPSTR)pTextBuff+i,(LPSTR)pTextBuff+i,1);
OemToAnsiBuff((LPSTR)pTextBuff+i,(LPSTR)pTextBuff+i,1);
}
}
}
#endif
#ifndef PMODE
UnlockData(0);
#endif
LocalUnlock(ped->hText); /* Hereafter pTextBuff is invalid */
/* Adjust UNDO fields so that we can undo this insert... */
if (ped->undoType == UNDO_NONE)
{
ped->undoType = UNDO_INSERT;
ped->ichInsStart = ped->ichCaret;
ped->ichInsEnd = ped->ichCaret+cchInsert;
}
else
if (ped->undoType & UNDO_INSERT)
{
if (ped->ichInsEnd == ped->ichCaret)
ped->ichInsEnd += cchInsert;
else
{
UNDOINSERT:
if (ped->ichDeleted != ped->ichCaret)
{
/* Free Deleted text handle if any since user is inserting into
a different point. */
GlobalFree(ped->hDeletedText);
ped->hDeletedText = NULL;
ped->ichDeleted = -1;
ped->undoType &= ~UNDO_DELETE;
}
ped->ichInsStart = ped->ichCaret;
ped->ichInsEnd = ped->ichCaret+cchInsert;
ped->undoType |= UNDO_INSERT;
}
}
else
if (ped->undoType == UNDO_DELETE)
{
goto UNDOINSERT;
}
ped->cch += cchInsert;
ped->ichMinSel = ped->ichMaxSel = (ped->ichCaret += cchInsert);
/* Set dirty bit */
ped->fDirty = TRUE;
return(TRUE);
}
ICH FAR PASCAL ECDeleteText(ped)
register PED ped;
/* effects: Deletes the text between ped->ichMinSel and ped->ichMaxSel. The
* character at ichMaxSel is not deleted. But the character at ichMinSel is
* deleted. ped->cch is updated properly and memory is deallocated if enough
* text is removed. ped->ichMinSel, ped->ichMaxSel, and ped->ichCaret are set
* to point to the original ped->ichMinSel. Returns the number of characters
* deleted.
*/
{
register PSTR pedText;
ICH cchDelete;
LPSTR lpDeleteSaveBuffer;
HANDLE hDeletedText;
WORD bufferOffset;
cchDelete = ped->ichMaxSel - ped->ichMinSel;
if (!cchDelete)
return(0);
/* Ok, now lets delete the text. */
pedText = (PSTR) LocalLock(ped->hText);
/* Adjust UNDO fields so that we can undo this delete... */
if (ped->undoType == UNDO_NONE)
{
UNDODELETEFROMSCRATCH:
if (ped->hDeletedText = GlobalAlloc(GHND, (LONG)(cchDelete+1)))
{
ped->undoType = UNDO_DELETE;
ped->ichDeleted = ped->ichMinSel;
ped->cchDeleted = cchDelete;
lpDeleteSaveBuffer = GlobalLock(ped->hDeletedText);
LCopyStruct((LPSTR)(pedText+ped->ichMinSel),
lpDeleteSaveBuffer,
cchDelete);
lpDeleteSaveBuffer[cchDelete]=0;
GlobalUnlock(ped->hDeletedText);
}
}
else
if (ped->undoType & UNDO_INSERT)
{
UNDODELETE:
ped->undoType = UNDO_NONE;
ped->ichInsStart = ped->ichInsEnd = -1;
GlobalFree(ped->hDeletedText);
ped->hDeletedText = NULL;
ped->ichDeleted = -1;
ped->cchDeleted = 0;
goto UNDODELETEFROMSCRATCH;
}
else
if (ped->undoType == UNDO_DELETE)
{
if (ped->ichDeleted == ped->ichMaxSel)
{
/* Copy deleted text to front of undo buffer */
hDeletedText = GlobalReAlloc(ped->hDeletedText,
(LONG)(cchDelete+ped->cchDeleted+1),
GHND);
if (!hDeletedText)
goto UNDODELETE;
bufferOffset = 0;
ped->ichDeleted = ped->ichMinSel;
}
else
if (ped->ichDeleted == ped->ichMinSel)
{
/* Copy deleted text to end of undo buffer */
hDeletedText = GlobalReAlloc(ped->hDeletedText,
(LONG)(cchDelete+ped->cchDeleted+1),
GHND);
if (!hDeletedText)
goto UNDODELETE;
bufferOffset = ped->cchDeleted;
}
else
/* Clear the current UNDO delete and add the new one since
the deletes aren't contigous. */
goto UNDODELETE;
ped->hDeletedText = hDeletedText;
lpDeleteSaveBuffer = (LPSTR)GlobalLock(hDeletedText);
if (!bufferOffset)
{
/* Move text in delete buffer up so that we can insert the next
text at the head of the buffer. */
LCopyStruct(lpDeleteSaveBuffer,
(LPSTR)(lpDeleteSaveBuffer+cchDelete),
ped->cchDeleted);
}
LCopyStruct((LPSTR)(pedText+ped->ichMinSel),
(LPSTR)(lpDeleteSaveBuffer+bufferOffset),
cchDelete);
lpDeleteSaveBuffer[ped->cchDeleted+cchDelete]=0;
GlobalUnlock(ped->hDeletedText);
ped->cchDeleted += cchDelete;
}
if (ped->ichMaxSel != ped->cch)
{
/* We are deleting text from the middle of the buffer so we have to
shift text to the left. */
LCopyStruct((LPSTR)(pedText + ped->ichMaxSel),
(LPSTR)(pedText + ped->ichMinSel),
ped->cch-ped->ichMaxSel);
}
LocalUnlock(ped->hText);
if (ped->cchAlloc-ped->cch > CCHALLOCEXTRA)
{
/* Free some memory since we deleted a lot */
LocalReAlloc(ped->hText, (WORD)(ped->cch+(CCHALLOCEXTRA/2)), 0);
ped->cchAlloc = LocalSize(ped->hText);
}
ped->cch = ped->cch - cchDelete;
ped->ichCaret = ped->ichMaxSel = ped->ichMinSel;
/* Set dirty bit */
ped->fDirty = TRUE;
return(cchDelete);
}
void FAR PASCAL ECNotifyParent(ped, notificationCode)
register PED ped;
short notificationCode;
/* effects: Sends the notification code to the parent of the edit control */
{
/*
* Lowword contains handle to window highword has the notification code.
*/
SendMessage(ped->hwndParent, WM_COMMAND,
GetWindowWord(ped->hwnd,GWW_ID),
MAKELONG(ped->hwnd, notificationCode));
}
void FAR PASCAL ECSetEditClip(ped, hdc)
register PED ped;
HDC hdc;
/* effects: Sets the clip rectangle for the dc to ped->rcFmt intersect
* rcClient.
*/
{
RECT rectClient;
GetClientRect(ped->hwnd,(LPRECT)&rectClient);
/*
* If border bit is set, deflate client rectangle appropriately.
*/
if (ped->fBorder)
/* Shrink client area to make room for the border */
InflateRect((LPRECT)&rectClient,
-min(ped->aveCharWidth,ped->cxSysCharWidth)/2,
-min(ped->lineHeight,ped->cySysCharHeight)/4);
/* Set clip rectangle to rectClient intersect ped->rcFmt */
if (!ped->fSingle)
IntersectRect((LPRECT)&rectClient,
(LPRECT)&rectClient, (LPRECT)&ped->rcFmt);
IntersectClipRect(hdc,rectClient.left, rectClient.top,
rectClient.right, rectClient.bottom);
}
HDC FAR PASCAL ECGetEditDC(ped, fFastDC)
register PED ped;
BOOL fFastDC;
/* effects: Hides the caret, gets the DC for the edit control, and clips to
* the rcFmt rectangle specified for the edit control and sets the proper
* font. If fFastDC, just select the proper font but don't bother about clip
* regions or hiding the caret.
*/
{
register HDC hdc;
if (!fFastDC)
HideCaret(ped->hwnd);
hdc = GetDC(ped->hwnd);
ECSetEditClip(ped, hdc);
/*
* Select the proper font for this edit control's dc.
*/
if (ped->hFont)
SelectObject(hdc, ped->hFont);
return(hdc);
}
void FAR PASCAL ECReleaseEditDC(ped,hdc,fFastDC)
register PED ped;
HDC hdc;
BOOL fFastDC;
/* effects: Releases the DC (hdc) for the edit control and shows the caret.
* If fFastDC, just select the proper font but don't bother about showing the
* caret.
*/
{
if (ped->hFont)
/*
* Release the font selected in this dc.
*/
SelectObject(hdc, GetStockObject(SYSTEM_FONT));
ReleaseDC(ped->hwnd,hdc);
if (!fFastDC)
ShowCaret(ped->hwnd);
}
BOOL FAR PASCAL ECSetText(ped, lpstr)
register PED ped;
LPSTR lpstr;
/* effects: Copies the null terminated text in lpstr to the ped. Notifies the
* parent if there isn't enough memory. Sets the minsel, maxsel, and caret to
* the beginning of the inserted text. Returns TRUE if successful else FALSE
* if no memory (and notifies the parent).
*/
{
ICH cchLength;
ICH cchSave = ped->cch;
ICH ichCaretSave = ped->ichCaret;
ped->cch = ped->ichCaret = 0;
ped->cchAlloc = LocalSize(ped->hText);
if (!lpstr)
{
LocalReAlloc(ped->hText, CCHALLOCEXTRA, 0);
ped->cch = 0;
}
else
{
cchLength = lstrlen(lpstr);
if (ped->fSingle)
/* Limit single line edit controls to 32K */
cchLength = umin(cchLength, 0x7ffe);
/* Add the text */
if (cchLength && !ECInsertText(ped,lpstr,cchLength))
{
/*
* Restore original state and notify parent we ran out of memory.
*/
ped->cch = cchSave;
ped->ichCaret = ichCaretSave;
ECNotifyParent(ped, EN_ERRSPACE);
return(FALSE);
}
}
ped->cchAlloc = LocalSize(ped->hText);
ped->screenStart = ped->iCaretLine = 0;
/* Update caret and selection extents */
ped->ichMaxSel = ped->ichMinSel = ped->ichCaret = 0;
ped->cLines = 1;
return(TRUE);
}
ICH FAR PASCAL ECCopyHandler(ped)
register PED ped;
/* effects: Copies the text between ichMinSel and ichMaxSel to the clipboard.
* Returns the number of characters copied.
*/
{
HANDLE hData;
char *pchSel;
char FAR *lpchClip;
ICH cbData;
cbData = ped->ichMaxSel - ped->ichMinSel;
if (!cbData)
return(0);
if (!OpenClipboard(ped->hwnd))
return(0);
EmptyClipboard();
/* +1 for the terminating NULL */
if (!(hData = GlobalAlloc(LHND, (LONG)(cbData+1))))
{
CloseClipboard();
return(0);
}
lpchClip = GlobalLock(hData);
pchSel = LocalLock(ped->hText) + ped->ichMinSel;
LCopyStruct((LPSTR)(pchSel), (LPSTR)lpchClip, cbData);
*(lpchClip+cbData) = 0;
LocalUnlock(ped->hText);
GlobalUnlock(hData);
SetClipboardData(CF_TEXT, hData);
CloseClipboard();
return(cbData);
}
/****************************************************************************/
/* EditWndProc() */
/****************************************************************************/
LONG FAR PASCAL EditWndProc3(hwnd, message, wParam, lParam)
HWND hwnd;
WORD message;
register WORD wParam;
LONG lParam;
/* effects: Class procedure for all edit controls.
Dispatches all messages to the appropriate handlers which are named
as follows:
SL (single line) prefixes all single line edit control procedures while
ML (multi line) prefixes all multi- line edit controls.
EC (edit control) prefixes all common handlers.
The EditWndProc only handles messages common to both single and multi
line edit controls. Messages which are handled differently between
single and multi are sent to SLEditWndProc or MLEditWndProc.
Top level procedures are EditWndPoc, SLEditWndProc, and MLEditWndProc.
SL*Handler or ML*Handler or EC*Handler procs are called to handle
the various messages. Support procedures are prefixed with SL ML or
EC depending on which code they support. They are never called
directly and most assumpttions/effects are documented in the effects
clause.
*/
{
register PED ped;
/* Get the ped for the given window now since we will use it a lot in
* various handlers. This was stored using SetWindowWord(hwnd,0,ped) when we
* initially created the edit control.
*/
ped = (PED) GetWindowWord(hwnd,0);
if ((WORD)ped == (WORD)-1)
/* The ped was destroyed and this is a rogue message to be ignored. */
return(0L);
/* Dispatch the various messages we can receive */
switch (message)
{
/* Messages which are handled the same way for both single and multi line
* edit controls.
*/
case WM_COPY:
/* wParam - not used
lParam - not used */
return((LONG)ECCopyHandler(ped));
break;
case WM_ENABLE:
/* wParam - nonzero is window is enables else disable window if 0.
lParam - not used
*/
if (ped->fSingle)
/* Cause the rectangle to be redrawn in grey.
*/
InvalidateRect(ped->hwnd, NULL, FALSE);
return((LONG)(ped->fDisabled = !wParam));
break;
case EM_GETLINECOUNT:
/* wParam - not used
lParam - not used */
return((LONG)ped->cLines);
break;
case EM_GETMODIFY:
/* wParam - not used
lParam - not used */
/* effects: Gets the state of the modify flag for this edit control.
*/
return((LONG)ped->fDirty);
break;
case EM_GETRECT:
/* wParam - not used
lParam - pointer to a RECT data structure that gets the dimensions. */
/*
* effects: Copies the rcFmt rect to *lpRect. Note that the return value
* of the copyrect has no meaning and we don't care...
*/
return((LONG)CopyRect((LPRECT)lParam, (LPRECT)&ped->rcFmt));
break;
case WM_GETFONT:
/* wParam - not used
lParam - not used */
return(ped->hFont);
break;
case WM_GETTEXT:
/* wParam - max number of bytes to copy
lParam - buffer to copy text to. Text is 0 terminated. */
return((LONG)ECGetTextHandler(ped, wParam, (LPSTR)lParam));
break;
case WM_GETTEXTLENGTH:
return((LONG)ped->cch);
break;
case WM_NCDESTROY:
/* wParam - used by DefWndProc called within ECNcDestroyHandler
lParam - used by DefWndProc called within ECNcDestroyHandler */
ECNcDestroyHandler(hwnd, ped, wParam, lParam);
break;
case WM_SETFONT:
/* wParam - handle to the font
lParam - redraw if true else don't */
ECSetFont(ped, (HANDLE)wParam, (BOOL)LOWORD(lParam));
break;
case WM_SETREDRAW:
/* wParam - specifies state of the redraw flag. nonzero = redraw
lParam - not used */
/* effects: Sets the state of the redraw flag for this edit control.
*/
return((LONG)(ped->fNoRedraw = !(BOOL)wParam));
/* If NoRedraw is true, we don't redraw... (Yes, this is backwards we
* are keeping track of the opposite of the command ...
*/
break;
case EM_CANUNDO:
/* wParam - not used
lParam - not used */
return((LONG)(ped->undoType != UNDO_NONE));
break;
case EM_EMPTYUNDOBUFFER:
/* wParam - not used
lParam - not used */
ECEmptyUndo(ped);
break;
case EM_GETSEL:
/* wParam - not used
lParam - not used */
/* effects: Gets the selection range for the given edit control. The
* starting position is in the low order word. It contains the position
* of the first nonselected character after the end of the selection in
* the high order word.
*/
return(MAKELONG(ped->ichMinSel,ped->ichMaxSel));
break;
case EM_LIMITTEXT:
/* wParam - max number of bytes that can be entered
lParam - not used */
/* effects: Specifies the maximum number of bytes of text the user may
* enter. If maxLength is 0, we may enter MAXINT number of characters.
*/
if (ped->fSingle)
{
if (wParam)
wParam = umin(0x7FFEu,wParam);
else
wParam = 0x7FFEu;
}
if (wParam)
ped->cchTextMax = (ICH)wParam;
else
ped->cchTextMax = 0xFFFFu;
break;
case EM_SETMODIFY:
/* wParam - specifies the new value for the modify flag
lParam - not used */
/*
* effects: Sets the state of the modify flag for this edit control.
*/
ped->fDirty = wParam;
break;
case EM_SETPASSWORDCHAR:
/* wParam - sepecifies the new char to display instead of the real text.
if null, display the real text. */
ECSetPasswordChar(ped, wParam);
break;
case EM_GETFIRSTVISIBLE:
/* wParam - not used
lParam - not used */
/* effects: Returns the first visible char for single line edit controls
* and returns the first visible line for multiline edit controls.
*/
return((LONG)(WORD)ped->screenStart);
break;
case EM_SETREADONLY:
/* wParam - state to set read only flag to */
ped->fReadOnly = wParam;
lParam = GetWindowLong(ped->hwnd, GWL_STYLE);
if (wParam)
lParam |= ES_READONLY;
else
lParam &= (~ES_READONLY);
SetWindowLong(ped->hwnd, GWL_STYLE, lParam);
return(1L);
break;
/* Messages handled differently for single and multi line edit controls */
case WM_CREATE:
/* Since the ped for this edit control is not defined, we have to check
* the style directly.
*/
if (GetWindowLong(hwnd, GWL_STYLE) & ES_MULTILINE)
return(MLEditWndProc(hwnd, ped, message, wParam, lParam));
else
return(SLEditWndProc(hwnd, ped, message, wParam, lParam));
break;
case WM_NCCREATE:
return(ECNcCreate(hwnd, (LPCREATESTRUCT)lParam));
break;
default:
if (ped->fSingle)
return(SLEditWndProc(hwnd, ped, message, wParam, lParam));
else
return(MLEditWndProc(hwnd, ped, message, wParam, lParam));
break;
} /* switch (message) */
return(1L);
} /* EditWndProc */
void NEAR PASCAL ECFindXORblks(lpOldBlk, lpNewBlk, lpBlk1, lpBlk2)
/*
* This finds the XOR of lpOldBlk and lpNewBlk and returns resulting blocks
* through the lpBlk1 and lpBlk2; This could result in a single block or
* at the maximum two blocks;
* If a resulting block is empty, then it's StPos field has -1.
* NOTE:
* When called from MultiLine edit control, StPos and EndPos fields of
* these blocks have the Starting line and Ending line of the block;
* When called from SingleLine edit control, StPos and EndPos fields
* of these blocks have the character index of starting position and
* ending position of the block.
*/
LPBLOCK lpOldBlk;
LPBLOCK lpNewBlk;
LPBLOCK lpBlk1;
LPBLOCK lpBlk2;
{
if(lpOldBlk -> StPos >= lpNewBlk ->StPos)
{
lpBlk1 -> StPos = lpNewBlk -> StPos;
lpBlk1 -> EndPos = umin(lpOldBlk -> StPos, lpNewBlk -> EndPos);
}
else
{
lpBlk1 -> StPos = lpOldBlk -> StPos;
lpBlk1 -> EndPos = umin(lpNewBlk -> StPos, lpOldBlk -> EndPos);
}
if(lpOldBlk -> EndPos <= lpNewBlk -> EndPos)
{
lpBlk2 -> StPos = umax(lpOldBlk -> EndPos, lpNewBlk -> StPos);
lpBlk2 -> EndPos = lpNewBlk -> EndPos;
}
else
{
lpBlk2 -> StPos = umax(lpNewBlk -> EndPos, lpOldBlk -> StPos);
lpBlk2 -> EndPos = lpOldBlk -> EndPos;
}
}
/*
* This function finds the XOR between two selection blocks(OldBlk and NewBlk)
* and returns the resulting areas thro the same parameters; If the XOR of
* both the blocks is empty, then this returns FALSE; Otherwise TRUE.
*
* NOTE:
* When called from MultiLine edit control, StPos and EndPos fields of
* these blocks have the Starting line and Ending line of the block;
* When called from SingleLine edit control, StPos and EndPos fields
* of these blocks have the character index of starting position and
* ending position of the block.
*/
BOOL FAR PASCAL ECCalcChangeSelection(ped, ichOldMinSel, ichOldMaxSel, OldBlk,
NewBlk)
PED ped;
ICH ichOldMinSel;
ICH ichOldMaxSel;
LPBLOCK OldBlk;
LPBLOCK NewBlk;
{
BLOCK Blk[2];
int iBlkCount = 0;
int i;
Blk[0].StPos = Blk[0].EndPos = Blk[1].StPos = Blk[1].EndPos = -1;
/* Check if the Old selection block existed */
if(ichOldMinSel != ichOldMaxSel)
{
/* Yes! Old block existed. */
Blk[0].StPos = OldBlk -> StPos;
Blk[0].EndPos = OldBlk -> EndPos;
iBlkCount++;
}
/* Check if the new Selection block exists */
if(ped -> ichMinSel != ped -> ichMaxSel)
{
/* Yes! New block exists */
Blk[1].StPos = NewBlk -> StPos;
Blk[1].EndPos = NewBlk -> EndPos;
iBlkCount++;
}
/* If both the blocks exist find the XOR of them */
if(iBlkCount == 2)
{
/* Check if both blocks start at the same character position */
if(ichOldMinSel == ped->ichMinSel)
{
/* Check if they end at the same character position */
if(ichOldMaxSel == ped -> ichMaxSel)
return(FALSE); /* Nothing changes */
#ifdef FE_SB
/* This look like bug, Because it uses min/max to compare
* two ICH values even if ICH is unsigned!
*/
Blk[0].StPos = umin(NewBlk -> EndPos, OldBlk -> EndPos);
Blk[0].EndPos = umax(NewBlk -> EndPos, OldBlk -> EndPos);
#else
Blk[0].StPos = min(NewBlk -> EndPos, OldBlk -> EndPos);
Blk[0].EndPos = max(NewBlk -> EndPos, OldBlk -> EndPos);
#endif
Blk[1].StPos = -1;
}
else
{
if(ichOldMaxSel == ped -> ichMaxSel)
{
Blk[0].StPos = umin(NewBlk -> StPos, OldBlk -> StPos);
Blk[0].EndPos = umax(NewBlk -> StPos, OldBlk -> StPos);
Blk[1].StPos = -1;
}
else
ECFindXORblks(OldBlk, NewBlk, &Blk[0], &Blk[1]);
}
}
LCopyStruct((LPSTR)&Blk[0], (LPSTR)OldBlk, sizeof(BLOCK));
LCopyStruct((LPSTR)&Blk[1], (LPSTR)NewBlk, sizeof(BLOCK));
return(TRUE); /* Yup , There is something to paint */
}
#ifdef FE_SB
/*
* Set DBCS Vector for specified character set.
*/
VOID FAR PASCAL ECGetDBCSVector( ped )
PED ped;
{
HANDLE hTable;
PBYTE pTable, pDBCS;
unsigned i;
switch( ped->charSet ) {
case SHIFTJIS_CHARSET: /* 128 -> Japan */
ped->DBCSVector[0] = 0x81;
ped->DBCSVector[1] = 0x9f;
ped->DBCSVector[2] = 0xe0;
ped->DBCSVector[3] = 0xfc;
break;
case CHINESEBIG5_CHARSET: /* 136 -> Taiwan */
ped->DBCSVector[0] = 0x81;
ped->DBCSVector[1] = 0xfe;
break;
case GB2312_CHARSET: /* 134 -> China KKFIX 10/19/96 Change GB2312 -> GBK Code range*/
ped->DBCSVector[0] = 0x81;
ped->DBCSVector[1] = 0xfe;
break;
case HANGEUL_CHARSET:
ped->DBCSVector[0] = 0x81;
ped->DBCSVector[1] = 0xfe;
break;
default:
ped->DBCSVector[0] = 0x0;
break;
}
/* If we can allocate 256 bytes of local memory, edit control
* operations are more comfortable
*/
if ((ped->hDBCSVector = LocalAlloc( LHND, sizeof(BYTE)*256 )) == NULL)
return;
pTable = (PBYTE)LocalLock( ped->hDBCSVector );
pDBCS = ped->DBCSVector;
while(pDBCS[0]) {
for (i = pDBCS[0]; i <= pDBCS[1]; i++) pTable[i] = 1;
pDBCS += 2;
}
LocalUnlock( ped->hDBCSVector );
}
/*
* Advance string pointer for Edit Control use only.
*/
LPSTR FAR PASCAL ECAnsiNext( ped, lpCurrent )
PED ped;
LPSTR lpCurrent;
{
return lpCurrent+((ECIsDBCSLeadByte(ped,*lpCurrent)==TRUE)?2:1);
}
/*
* Decrement string pointer for Edit Control use only.
*/
LPSTR FAR PASCAL ECAnsiPrev( ped, lpBase, lpStr )
PED ped;
LPSTR lpBase, lpStr;
{
LPSTR lpCurrent = lpStr;
// human C discompiler version 1.0---
//; parmD pFirst ; [bx+10] es:di
//; parmD pStr ; [bx+6] ds:si
//
// cmp si,di ; pointer to first char?
// jz ap5 ; yes, just quit
if (lpBase == lpCurrent)
return lpBase;
// dec si ; backup once
// cmp si,di ; pointer to first char?
// jz ap5 ; yse, just quit
if (--lpCurrent == lpBase)
return lpBase;
//ap1:
// dec si ; backup once
// mov al, [si] ; fetch a character
// cCall IsDBCSLeadByte,<ax> ; DBCS lead byte candidate?
// test ax,ax ;
// jz ap2 ; jump if not.
// cmp si,di ; backword exhausted?
// jz ap3 ; jump if so
// jmp ap1 ; repeat if not
do {
lpCurrent--;
if (!ECIsDBCSLeadByte(ped, *lpCurrent)) {
lpCurrent++;
break;
}
} while(lpCurrent != lpBase);
//ap2:
// inc si ; adjust pointer correctly
//ap3:
return lpStr - (((lpStr - lpCurrent) & 1) ? 1 : 2);
// mov bx, [bp+6] ;
// mov di, bx ; result in DI
// dec di ;
// sub bx, si ; how many characters backworded
// test bx, 1 ; see even or odd...
// jnz ap4 ; odd - previous char is SBCS
// dec di ; make DI for DBCS
//ap4:
// mov si, di ; final result in SI
//ap5:
// mov ax,si
// mov dx,ds
//
// pop di
// pop si
// pop ds
//
// pop bp
// ret 8
//cEnd nogen
}
/*
* Test to see DBCS lead byte or not - Edit Control use only.
*/
BOOL FAR PASCAL ECIsDBCSLeadByte( ped, cch )
PED ped;
BYTE cch;
{
BYTE ch1, ch2;
PBYTE pTable;
if (!ped->fDBCS)
return FALSE;
if (ped->hDBCSVector) {
pTable = (PBYTE)LMHtoP(ped->hDBCSVector);
return pTable[ cch ];
}
pTable = ped->DBCSVector;
while( *pTable ) {
ch1 = *pTable++;
ch2 = *pTable++;
if (cch >= ch1 && cch <= ch2)
return TRUE;
}
return FALSE;
}
/*
* Assemble two WM_CHAR messages to single DBCS character.
* If program detects first byte of DBCS character in WM_CHAR message,
* it calls this function to obtain second WM_CHAR message from queue.
* finally this routine assembles first byte and second byte into single
* DBCS character.
*/
int FAR PASCAL DBCSCombine(hwnd, ch)
register HWND hwnd;
int ch;
{
MSG msg;
int i;
i = 10; /* loop counter to avoid the infinite loop */
while (!PeekMessage((LPMSG)&msg, hwnd, WM_CHAR, WM_CHAR, PM_REMOVE)) {
if (--i == 0)
return( NULL );
Yield();
}
return ((unsigned)ch | ((unsigned)(msg.wParam)<<8));
}
/*
* This function adjusts a current pointer correctly. If a current
* pointer is lying between DBCS first byte and second byte, this
* function adjusts a current pointer to a first byte of DBCS position
* by decrement once.
*/
ICH FAR PASCAL ECAdjustIch( ped, lpstr, ch )
PED ped;
LPSTR lpstr;
ICH ch;
{
ICH newch = ch;
if ( newch == 0 )
return ( newch );
if ( !ECIsDBCSLeadByte(ped, lpstr[--newch] ) )
return ( ch ); // previous char is SBCS
while(1) {
if (!ECIsDBCSLeadByte(ped, lpstr[newch] )) {
newch++;
break;
}
if (newch)
newch--;
else
break;
}
return ((ch - newch) & 1) ? ch-1 : ch;
}
#endif