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422 lines
11 KiB
422 lines
11 KiB
/*++
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*
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* WOW v1.0
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*
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* Copyright (c) 1991, Microsoft Corporation
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*
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* EDMLRARE.C
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* Win16 edit control code
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*
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* History:
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*
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* Created 28-May-1991 by Jeff Parsons (jeffpar)
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* Copied from WIN31 and edited (as little as possible) for WOW16.
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--*/
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/****************************************************************************/
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/* edmlRare.c - Edit controls Routines Called rarely are to be */
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/* put in a seperate segment _EDMLRare. This file contains */
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/* these routines. */
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/****************************************************************************/
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#define NO_LOCALOBJ_TAGS
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#include "user.h"
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#include "edit.h"
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/****************************************************************************/
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/* Multi-Line Support Routines called Rarely */
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/****************************************************************************/
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BOOL FAR PASCAL MLInsertCrCrLf(ped)
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register PED ped;
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/* effects: Inserts CR CR LF characters into the text at soft (word-wrap) line
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* breaks. CR LF (hard) line breaks are unaffected. Assumes that the text
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* has already been formatted ie. ped->chLines is where we want the line
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* breaks to occur. Note that ped->chLines is not updated to reflect the
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* movement of text by the addition of CR CR LFs. Returns TRUE if successful
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* else notify parent and return FALSE if the memory couldn't be allocated.
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*/
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{
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ICH dch;
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ICH li;
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ICH lineSize;
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/*register*/ unsigned char *pchText;
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unsigned char *pchTextNew;
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if (!ped->fWrap || !ped->cch)
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/* There are no soft line breaks if word-wrapping is off or if no chars
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*/
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return(TRUE);
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/* Calc an upper bound on the number of additional characters we will be
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* adding to the text when we insert CR CR LFs.
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*/
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dch = 3 * sizeof(char) * ped->cLines;
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if (!LocalReAlloc(ped->hText, ped->cch + dch, 0))
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{
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ECNotifyParent(ped, EN_ERRSPACE);
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return (FALSE);
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}
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ped->cchAlloc = ped->cch + dch;
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/* Move the text up dch bytes and then copy it back down, inserting the CR
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* CR LF's as necessary.
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*/
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pchTextNew = pchText = LocalLock(ped->hText);
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pchText += dch;
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dch = 0; /* Now we will use this to keep track of how many chars we add
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to the text */
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/* Copy the text up dch bytes to pchText. This will shift all indices in
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* ped->chLines up by dch bytes.
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*/
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LCopyStruct((LPSTR)pchTextNew, (LPSTR)pchText, ped->cch);
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/* Now copy chars from pchText down to pchTextNew and insert CRCRLF at soft
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* line breaks.
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*/
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for (li = 0; li < ped->cLines-1; li++)
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{
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lineSize = ped->chLines[li+1]-ped->chLines[li];
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LCopyStruct((LPSTR)pchText, (LPSTR)pchTextNew, lineSize);
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pchTextNew += lineSize;
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pchText += lineSize;
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/* If last character in newly copied line is not a line feed, then we
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* need to add the CR CR LF triple to the end
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*/
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if (*(PSTR)(pchTextNew-1) != 0x0A)
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{
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*pchTextNew++ = 0x0D;
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*pchTextNew++ = 0x0D;
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*pchTextNew++ = 0x0A;
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dch += 3;
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}
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}
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/* Now move the last line up. It won't have any line breaks in it... */
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LCopyStruct((LPSTR)pchText, (LPSTR)pchTextNew,
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ped->cch-ped->chLines[ped->cLines-1]);
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LocalUnlock(ped->hText);
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/* Update number of characters in text handle */
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ped->cch += dch;
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if (dch)
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/*
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* So that the next time we do anything with the text, we can strip the
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* CRCRLFs
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*/
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ped->fStripCRCRLF = TRUE;
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return((dch != 0));
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}
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void FAR PASCAL MLStripCrCrLf(ped)
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register PED ped;
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/* effects: Strips the CR CR LF character combination from the text. This
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* shows the soft (word wrapped) line breaks. CR LF (hard) line breaks are
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* unaffected.
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*/
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{
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register unsigned char *pchSrc;
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unsigned char *pchDst;
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unsigned char *pchLast;
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if (ped->cch)
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{
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pchSrc = pchDst = LocalLock(ped->hText);
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pchLast = pchSrc + ped->cch;
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while (pchSrc < pchLast)
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{
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if (*(int *)pchSrc != 0x0D0D)
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*pchDst++ = *pchSrc++;
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else
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{
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pchSrc += 3;
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ped->cch = ped->cch - 3;
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}
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}
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LocalUnlock(ped->hText);
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}
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}
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void FAR PASCAL MLSetHandleHandler(ped, hNewText)
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register PED ped;
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HANDLE hNewText;
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/* effects: Sets the ped to contain the given handle.
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*/
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{
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ICH newCch;
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ped->cch = ped->cchAlloc = LocalSize(ped->hText = hNewText);
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if (ped->cch)
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{
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/* We have to do it this way in case the app gives us a zero size
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handle */
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ped->cch = lstrlen((LPSTR)LocalLock(ped->hText));
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LocalUnlock(ped->hText);
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}
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/* Empty the undo buffer since the text will be in an inconsistant state.
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*/
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ECEmptyUndo(ped);
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newCch = (ICH)(ped->cch + CCHALLOCEXTRA);
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/* We do this LocalReAlloc in case the app changed the size of the handle */
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if (LocalReAlloc(ped->hText, newCch, 0))
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ped->cchAlloc = newCch;
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ped->fDirty = FALSE;
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MLStripCrCrLf(ped);
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MLBuildchLines(ped,0,0,FALSE);
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/* Reset caret and selections since the text could have changed causing
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* these to be out of range.
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*/
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ped->xOffset = ped->screenStart = ped->ichMinSel = ped->ichMaxSel = 0;
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ped->iCaretLine = ped->ichCaret = 0;
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SetScrollPos(ped->hwnd, SB_VERT, 0, TRUE);
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SetScrollPos(ped->hwnd, SB_HORZ, 0, TRUE);
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/* We will always redraw the text whether or not the insert was successful
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* since we may set to null text. Also, since PaintHandler checks the redraw
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* flag, we won't bother to check it here.
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*/
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InvalidateRect(ped->hwnd, (LPRECT)NULL, TRUE);
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UpdateWindow(ped->hwnd);
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}
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LONG FAR PASCAL MLGetLineHandler(ped, lineNumber, maxCchToCopy, lpBuffer)
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register PED ped;
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WORD lineNumber;
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ICH maxCchToCopy;
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LPSTR lpBuffer;
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/* effects: Copies maxCchToCopy bytes of line lineNumber to the buffer
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* lpBuffer. The string is not zero terminated.
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*/
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{
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PSTR pText;
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if (lineNumber > ped->cLines-1)
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return(0L);
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maxCchToCopy = umin(MLLineLength(ped, lineNumber), maxCchToCopy);
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if (maxCchToCopy)
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{
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pText = (PSTR)(LocalLock(ped->hText) + ped->chLines[lineNumber]);
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LCopyStruct((LPSTR)pText, (LPSTR)lpBuffer, maxCchToCopy);
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LocalUnlock(ped->hText);
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}
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return(maxCchToCopy);
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}
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ICH FAR PASCAL MLLineIndexHandler(ped, iLine)
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register PED ped;
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register int iLine;
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/* effects: This function returns the number of character positions that occur
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* preceeding the first char in a given line.
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*/
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{
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if (iLine == -1)
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iLine = ped->iCaretLine;
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return(iLine < ped->cLines ? ped->chLines[iLine] : -1);
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}
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ICH FAR PASCAL MLLineLengthHandler(ped, ich)
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register PED ped;
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ICH ich;
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/* effects: if ich = -1, return the length of the lines containing the current
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* selection but not including the selection. Otherwise, return the length of
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* the line containing ich.
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*/
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{
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ICH il1, il2;
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if (ich != 0xFFFF)
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return(MLLineLength(ped, MLIchToLineHandler(ped, ich)));
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/* Find length of lines corresponding to current selection */
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il1 = MLIchToLineHandler(ped, ped->ichMinSel);
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il2 = MLIchToLineHandler(ped, ped->ichMaxSel);
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if (il1 == il2)
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return(MLLineLength(ped, il1) - (ped->ichMaxSel - ped->ichMinSel));
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return(ped->ichMinSel - ped->chLines[il1] +
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MLLineLength(ped, il2) - (ped->ichMaxSel - ped->chLines[il2]));
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}
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void FAR PASCAL MLSetSelectionHandler(ped, ichMinSel, ichMaxSel)
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register PED ped;
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ICH ichMinSel;
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ICH ichMaxSel;
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/*
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* effects: Sets the selection to the points given and puts the cursor at
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* ichMaxSel.
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*/
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{
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register HDC hdc;
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if (ichMinSel == 0xFFFF)
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/* Set no selection if we specify -1
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*/
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ichMinSel = ichMaxSel = ped->ichCaret;
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/* Since these are unsigned, we don't check if they are greater than 0.
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*/
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ichMinSel = umin(ped->cch,ichMinSel);
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ichMaxSel = umin(ped->cch,ichMaxSel);
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/* Set the caret's position to be at ichMaxSel.
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*/
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ped->ichCaret = ichMaxSel;
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ped->iCaretLine = MLIchToLineHandler(ped, ped->ichCaret);
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hdc = ECGetEditDC(ped,FALSE);
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MLChangeSelection(ped, hdc, ichMinSel, ichMaxSel);
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MLSetCaretPosition(ped,hdc);
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ECReleaseEditDC(ped,hdc,FALSE);
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MLEnsureCaretVisible(ped);
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}
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/**
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** MLSetTabStops(ped, nTabPos, lpTabStops)
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**
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** This sets the tab stop positions set by the App by sending
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** a EM_SETTABSTOPS message.
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**
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** nTabPos : Number of tab stops set by the caller
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** lpTabStops: array of tab stop positions in Dialog units.
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**
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** Returns:
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** TRUE if successful
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** FALSE if memory allocation error.
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**/
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BOOL FAR PASCAL MLSetTabStops(ped, nTabPos, lpTabStops)
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PED ped;
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int nTabPos;
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LPINT lpTabStops;
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{
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int * pTabStops;
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/* Check if tab positions already exist */
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if (!ped -> pTabStops)
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{
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/* Check if the caller wants the new tab positions */
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if (nTabPos)
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{
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/* Allocate the array of tab stops */
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if(!(pTabStops = (int *)LocalAlloc(LPTR, (nTabPos + 1)*sizeof(int))))
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return(FALSE);
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}
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else
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return(TRUE); /* No stops then and no stops now! */
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}
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else
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{
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/* Check if the caller wants the new tab positions */
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if(nTabPos)
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{
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/* Check if the number of tab positions is different */
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if (ped->pTabStops[0] != nTabPos)
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{
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/* Yes! So ReAlloc to new size */
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if(!(pTabStops = (int *)LocalReAlloc((HANDLE)ped->pTabStops,
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(nTabPos + 1) * sizeof(int), LPTR)))
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return(FALSE);
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}
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else
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pTabStops = ped->pTabStops;
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}
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else
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{
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/* Caller wants to remove all the tab stops; So, release */
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if (LocalFree((HANDLE)ped->pTabStops))
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return(FALSE); /* Failure */
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ped->pTabStops = NULL;
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return(TRUE);
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}
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}
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/* Copy the new tab stops onto the tab stop array after converting the
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* dialog co-ordinates into the pixel co-ordinates
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*/
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ped -> pTabStops = pTabStops;
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*pTabStops++ = nTabPos; /* First element contains the count */
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while(nTabPos--)
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{
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/* aveCharWidth must be used instead of cxSysCharWidth.
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* Fix for Bug #3871 --SANKAR-- 03/14/91
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*/
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*pTabStops++ = MultDiv(*lpTabStops++, ped->aveCharWidth, 4);
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}
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return(TRUE);
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}
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BOOL FAR PASCAL MLUndoHandler(ped)
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register PED ped;
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/* effects: Handles Undo for multiline edit controls. */
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{
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HANDLE hDeletedText = ped->hDeletedText;
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BOOL fDelete = (BOOL)(ped->undoType & UNDO_DELETE);
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WORD cchDeleted = ped->cchDeleted;
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WORD ichDeleted = ped->ichDeleted;
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if (ped->undoType == UNDO_NONE)
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/* No undo... */
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return(FALSE);
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ped->hDeletedText = NULL;
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ped->cchDeleted = 0;
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ped->ichDeleted = -1;
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ped->undoType &= ~UNDO_DELETE;
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if (ped->undoType == UNDO_INSERT)
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{
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ped->undoType = UNDO_NONE;
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/* Set the selection to the inserted text */
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MLSetSelectionHandler(ped, ped->ichInsStart, ped->ichInsEnd);
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ped->ichInsStart = ped->ichInsEnd = -1;
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/* Now send a backspace to delete and save it in the undo buffer...
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*/
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MLCharHandler(ped, VK_BACK, NOMODIFY);
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}
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if (fDelete)
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{
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/* Insert deleted chars */
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/* Set the selection to the inserted text */
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MLSetSelectionHandler(ped, ichDeleted, ichDeleted);
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MLInsertText(ped, GlobalLock(hDeletedText), cchDeleted, FALSE);
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GlobalUnlock(hDeletedText);
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GlobalFree(hDeletedText);
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MLSetSelectionHandler(ped, ichDeleted, ichDeleted+cchDeleted);
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}
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return(TRUE);
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}
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