/************************************************************/ /* Windows Write, Copyright 1985-1992 Microsoft Corporation */ /************************************************************/ /*--- Module not really used, just the idea behind FORMAT.ASM ---*/ #define NOCLIPBOARD #define NOGDICAPMASKS #define NOCTLMGR #define NOVIRTUALKEYCODES #define NOWINMESSAGES #define NOWINSTYLES #define NOKEYSTATE #define NOSYSCOMMANDS #define NORASTEROPS #define NOSHOWWINDOW #define NOCLIPBOARD #define NOWINSTYLES #define NOSYSMETRICS #define NOMENUS #define NOATOM #define NOCREATESTRUCT #define NODRAWTEXT #define NOMB #define NOMEMMGR #define NOMETAFILE #define NOWH #define NOWINOFFSETS #define NOWNDCLASS #include /* #include "wwsmall.h" */ #include "mw.h" #include "cmddefs.h" #include "fmtdefs.h" #include "propdefs.h" #include "ch.h" #include "docdefs.h" #include "ffdefs.h" #include "filedefs.h" #include "fkpdefs.h" #include "dispdefs.h" #include "scrndefs.h" #include "macro.h" #include "debug.h" #include "fontdefs.h" #include "str.h" #include "wwdefs.h" #ifdef DBCS #include "dbcs.h" #endif #ifdef DFLI #define Dfli(x) x /* Enable debug-format-line info */ #else #define Dfli(x) #endif #ifdef CASHMERE #define cchSmcapMax 16 #endif /* CASHMERE */ static int ichpFormat; #ifdef CASHMERE static CHAR mptlcch[] = " .-_"; #endif /* CASHMERE */ extern int docHelp; extern struct FLI vfli; extern struct CHP (**vhgchpFormat)[]; extern int ichpMacFormat; extern struct CHP vchpAbs; extern struct PAP vpapAbs; extern struct SEP vsepAbs; extern struct SEP vsepPage; extern struct CHP vchpNormal; extern struct DOD (**hpdocdod)[]; extern typeCP vcpLimSectCache; extern typeCP vcpFirstParaCache; extern typeCP vcpLimParaCache; extern typeCP vcpFetch; extern int vichFetch; extern int vccpFetch; extern CHAR *vpchFetch; extern int vcchFetch; extern int vftc; extern int ypSubSuper; extern int ypSubSuperPr; extern HDC vhMDC; extern HDC vhDCPrinter; extern int dxpLogInch; extern int dypLogInch; extern int dxaPrPage; extern int dyaPrPage; extern int dxpPrPage; extern int dypPrPage; extern int dypMax; extern struct FMI vfmiScreen, vfmiPrint; extern int vfOutOfMemory; extern CHAR vchDecimal; /* "decimal point" character */ extern int vzaTabDflt; /* width of default tab */ #ifdef CASHMERE extern int vfVisiMode; #endif /* CASHMERE */ /* F O R M A T L I N E */ FormatLine(doc, cp, ichCp, cpMac, flm) int doc; typeCP cp; int ichCp; typeCP cpMac; int flm; { /* Fills up vfli with a line of text */ int near Justify(struct IFI *, unsigned, int); int near FGrowFormatHeap(void); int near FFirstIch(int); struct IFI ifi; struct TBD *ptbd; struct CHP chpLocal; int xpTab; #ifdef CASHMERE int dypBefore; #endif /* CASHMERE */ int dypAscent; int dypDescent; int dypAscentMac; int dypDescentMac; unsigned xaLeft; unsigned xaRight; struct PAP *ppap; struct SEP *psep; int fFlmPrinting = flm & flmPrinting; int dxaFormat; int dyaFormat; int dxpFormat; int dypFormat; int ypSubSuperFormat; int fTruncated = false; /* if the run was truncated */ int ichpNRH; #ifdef CASHMERE struct FNTB **hfntb; int fVisiMode; #endif /* CASHMERE */ /* Check for fli current */ if (vfli.doc == doc && vfli.cpMin == cp && vfli.ichCpMin == ichCp && vfli.flm == flm) { /* Just did this one */ return; } Scribble(5, 'F'); bltc(&vfli, 0, cwFLIBase); /* This means: vfli.fSplat = false; vfli.dcpDepend = 0; vfli.ichCpMac = 0; vfli.dypLine = 0; vfli.dypAfter = 0; vfli.dypFont = 0; vfli.dypBase = 0; */ /* vfSplatNext = FALSE; No longer used. */ /* Rest of format loads up cache with current data */ vfli.doc = doc; vfli.cpMin = cp; vfli.ichCpMin = ichCp; vfli.flm = flm; if (cp > cpMac) { /* Space after the endmark. Reset the cache because the footnotes come at the same cp in the footnote window */ vfli.doc = docNil; vfli.cpMac = cp; vfli.rgdxp[0] = 0; /* Line after end mark is taller than screen */ #ifdef CASHMERE vfli.dypBase = vfli.dypFont = vfli.dypAfter = ((vfli.dypLine = dypMax) >> 1); #else /* not CASHMERE */ vfli.dypBase = vfli.dypFont = ((vfli.dypLine = dypMax) >> 1); #endif /* not CASHMERE */ Scribble(5, ' '); return; } /* Initialize run tables */ ichpFormat = 0; /* Cache section and paragraph properties */ #ifdef CASHMERE hfntb = (**hpdocdod)[doc].hfntb; if (hfntb == 0 || cp < (**hfntb).rgfnd[0].cpFtn) { /* Normal text */ CacheSect(doc, cp); } else { /* Footnote section properties come from the section of the footnote reference. */ CacheSect(doc, CpRefFromFtn(doc, cp)); } #else /* not CASHMERE */ CacheSect(doc, cp); #endif /* not CASHMERE */ psep = &vsepAbs; CachePara(doc, cp); ppap = &vpapAbs; /* Now we have: ppap paragraph properties psep division properties */ if (ppap->fGraphics) { /* Format a picture paragraph in a special way (see picture.c) */ FormatGraphics(doc, cp, ichCp, cpMac, flm); Scribble(5, ' '); return; } /* Assure we have a good memory DC for font stuff */ ValidateMemoryDC(); if (vhMDC == NULL || vhDCPrinter == NULL) { Scribble(5, ' '); return; } #ifdef CASHMERE /* When printing, don't show visible characters */ fVisiMode = vfVisiMode && !fFlmPrinting; #endif /* CASHMERE */ bltc(&ifi, 0, cwIFI); /* This means: ifi.ich = 0; ifi.ichPrev = 0; ifi.ichFetch = 0; ifi.cchSpace = 0; ifi.ichLeft = 0; */ ifi.jc = jcTabLeft; ifi.fPrevSpace = true; /* Set up some variables that have different value depending on whether we are printing or not. */ if (fFlmPrinting) { dxaFormat = dxaPrPage; dyaFormat = dyaPrPage; dxpFormat = dxpPrPage; dypFormat = dypPrPage; ypSubSuperFormat = ypSubSuperPr; } else { dxaFormat = dyaFormat = czaInch; dxpFormat = dxpLogInch; dypFormat = dypLogInch; ypSubSuperFormat = ypSubSuper; } /* Calculate line height and width measures. Compute xaLeft left indent 0 means at left margin xaRight width of column measured from left margin (not from left indent). */ xaLeft = ppap->dxaLeft; /* If this is the first line of a paragraph, adjust xaLeft for the first line indent. (Also, set dypBefore, since its handy.) */ if (cp == vcpFirstParaCache) { xaLeft += ppap->dxaLeft1; #ifdef CASHMERE dypBefore = MultDiv(ppap->dyaBefore, dypLogInch, czaInch); #endif /* CASHMERE */ } #ifdef CASHMERE else { dypBefore = 0; } #endif /* CASHMERE */ /* Now, set xaRight (width measured in twips). */ #ifdef CASHMERE xaRight = (ppap->rhc ? vsepPage.xaMac - vsepPage.dxaGutter : psep->dxaText) - ppap->dxaRight; #else /* not CASHMERE */ xaRight = psep->dxaText - ppap->dxaRight; #endif /* not CASHMERE */ /* Do necessary checks on xaLeft and xaRight */ if (xaRight > xaRightMax) { xaRight = xaRightMax; } if (xaLeft > xaRightMax) { xaLeft = xaRightMax; } if (xaLeft < 0) { xaLeft = 0; } if (xaRight < xaLeft) { xaRight = xaLeft + 1; } vfli.xpLeft = ifi.xp = ifi.xpLeft = MultDiv(xaLeft, dxpFormat, dxaFormat); vfli.xpMarg = ifi.xpRight = MultDiv(xaRight, dxpFormat, dxaFormat); ifi.xpPr = MultDiv(xaLeft, dxpPrPage, dxaPrPage); ifi.xpPrRight = MultDiv(xaRight, dxpPrPage, dxaPrPage); /* Get a pointer to the tab-stop table. */ ptbd = ppap->rgtbd; /* Turn off justification. */ SetTextJustification(fFlmPrinting ? vhDCPrinter : vhMDC, 0, 0); /* Initialize the line height information. */ dypAscentMac = dypDescentMac = 0; /* To tell if there were any tabs */ ifi.ichLeft = -1; /* Get the first run, and away we go... */ FetchCp(doc, cp, ichCp, fcmBoth + fcmParseCaps); goto FirstCps; for ( ; ; ) { int iichNew; int xpPrev; int dxp; int dxpPr; /* The number of characters to process (usually vcchFetch) */ int cch; /* The number of characters in current run already used */ int cchUsed; /* A pointer to the current list of characters (usually vpchFetch) */ CHAR *pch; #ifdef CASHMERE CHAR rgchSmcap[cchSmcapMax]; #endif /* CASHMERE */ if (ifi.ichFetch == cch) { /* End of a run */ int dich; BOOL fSizeChanged; if (ifi.ich >= ichMaxLine) /* End of run because of line length limit has been reached. */ { goto DoBreak; } if (fTruncated) { cchUsed += cch; pch = vpchFetch + cchUsed; cch = vcchFetch - cchUsed; fTruncated = false; goto OldRun; /* use the rest of the old run */ } NullRun: FetchCp(docNil, cpNil, 0, fcmBoth + fcmParseCaps); FirstCps: cchUsed = 0; /* Continue fetching runs until a run is found with a nonzero length. */ if ((cch = vcchFetch) == 0) { goto NullRun; } pch = vpchFetch; if (vcpFetch >= cpMac || (!fFlmPrinting && *pch == chSect)) { #ifdef SYSENDMARK /* Force end mark and section mark to be in standard system font. */ blt(&vchpNormal, &vchpAbs, cwCHP); vchpAbs.ftc = ftcSystem; vchpAbs.ftcXtra = 0; vchpAbs.hps = hpsDefault; #else #ifdef REVIEW /* The following comment is absolutely misleading! Ftc==0 doesn't give you a system font. It gives you the first entry in the font table. */ #endif /* REVIEW */ /* Force end mark and section mark to be in standard system font. */ blt(&vchpNormal, &vchpAbs, cwCHP); vchpAbs.ftc = 0; vchpAbs.ftcXtra = 0; vchpAbs.hps = hpsDefault; #endif /* if-else-def KANJI */ } #ifdef CASHMERE /* Adjust the size of the font for "small capitals". */ if (vchpAbs.csm == csmSmallCaps) { vchpAbs.hps = HpsAlter(vchpAbs.hps, -1); } #endif /* CASHMERE */ /* Now we have: ichpFormat index into gchp table vcpFetch first cp of current run vfli.cpMin first cp of line ifi.ich ??? */ /* since LoadFont could change vchpAbs, and we don't want that to happen, we copy vchpAbs into vchpLocal and use vchpLocal in place of vchpAbs hereafter. Note that vchpAbs is intentionally used above for handling the endmark. */ blt(&vchpAbs, &chpLocal, cwCHP); if (fFlmPrinting) { LoadFont(doc, &chpLocal, mdFontPrint); dypAscent = vfmiPrint.dypAscent + vfmiPrint.dypLeading; dypDescent = vfmiPrint.dypDescent; } else { LoadFont(doc, &chpLocal, mdFontJam); dypAscent = vfmiScreen.dypAscent + vfmiScreen.dypLeading; dypDescent = vfmiScreen.dypDescent; } #ifdef ENABLE /* BRYANL 8/27/87: New philosophy for handling font selection failures is: font selection ALWAYS succeeds. This prevents FormatLine returns that do not advance. */ /* Bail out if there is a memory failure. */ if (vfOutOfMemory) { goto DoBreak; } #endif /* ENABLE */ /* Floating line size algorithm */ if (chpLocal.hpsPos != 0) { /* Modify font for subscript/superscript */ if (chpLocal.hpsPos < hpsNegMin) { dypAscent += ypSubSuperFormat; } else { dypDescent += ypSubSuperFormat; } } /* Update the maximum ascent and descent of the line. */ fSizeChanged = FALSE; if (dypDescentMac < dypDescent) { dypDescentMac = dypDescent; fSizeChanged = TRUE; } if (dypAscentMac < dypAscent) { dypAscentMac = dypAscent; fSizeChanged = TRUE; } if (fSizeChanged) { #ifdef AUTO_SPACING /* This is the original Mac Word code that assumed line spacing of 0 in a PAP meant auto line spacing. PC Word defaults to 1 line invalidating this assumption. */ if (ppap->dyaLine == 0) { #ifdef CASHMERE ifi.dypLineSize = dypDescentMac + dypAscentMac + dypBefore; #else /* not CASHMERE */ ifi.dypLineSize = dypDescentMac + dypAscentMac; #endif /* not CASHMERE */ } else { #ifdef CASHMERE ifi.dypLineSize = imax(MultDiv(ppap->dyaLine, dypFormat, dyaFormat) + dypBefore, dypBefore + 1); #else /* not CASHMERE */ ifi.dypLineSize = imax(MultDiv(ppap->dyaLine, dypFormat, dyaFormat), 1); #endif /* not CASHMERE */ } #else /* not AUTO_SPACING */ /* This code forces auto line spacing except in the case where the user specifies a line spacing greater than the auto line spacing. */ { #ifdef CASHMERE register int dypAuto = dypDescentMac + dypAscentMac + dypBefore; #else /* not CASHMERE */ register int dypAuto = dypDescentMac + dypAscentMac; #endif /* not CASHMERE */ if (ppap->dyaLine > czaLine) { #ifdef CASHMERE register int dypUser = imax(MultDiv(ppap->dyaLine, dypFormat, dyaFormat) + dypBefore, dypBefore + 1); #else /* not CASHMERE */ register int dypUser = imax(MultDiv(ppap->dyaLine, dypFormat, dyaFormat), 1); #endif /* not CASHMERE */ ifi.dypLineSize = max(dypAuto, dypUser); } else { ifi.dypLineSize = dypAuto; } } #endif /* not AUTO_SPACING */ } OldRun: /* Calculate length of the run but no greater than 256 */ iichNew = (int)(vcpFetch - vfli.cpMin); if (iichNew >= ichMaxLine) { iichNew = ichMaxLine - 1; } dich = iichNew - ifi.ich; /* Ensure that all tab and non-required hyphen characters start at beginning of run */ if (ichpFormat <= 0 || dich > 0 || CchDiffer(&chpLocal, &(**vhgchpFormat)[ichpFormat - 1], cchCHPUsed) != 0 || *pch == chTab || *pch == chNRHFile) { #ifdef DFLI if (*pch == chNRHFile) CommSz("CHNRHFILE at beginning of run"); #endif if (ichpFormat != ichpMacFormat || FGrowFormatHeap()) { register struct CHP *pchp = &(**vhgchpFormat)[ichpFormat - 1]; if (ichpFormat > 0) { pchp->cchRun = ifi.ich - ifi.ichPrev; pchp->ichRun = ifi.ichPrev; } blt(&chpLocal, ++pchp, cwCHP); #ifdef ENABLE /* font codes */ pchp->ftc = vftc; pchp->ftcXtra = (vftc & 0x01c0) >> 6; pchp->hps = vhps; #endif /* ENABLE */ pchp->cchRun = ichMaxLine; if (dich <= 0) { pchp->ichRun = ifi.ich; } else { /* Q&D insert */ bltc(&vfli.rgdxp[ifi.ich], 0, dich); bltbc(&vfli.rgch[ifi.ich], 0, dich); pchp->ichRun = ifi.ich = iichNew; } ifi.ichPrev = ifi.ich; ichpFormat++; } } if (vcpFetch >= cpMac) { /* End of doc reached */ if (!ifi.fPrevSpace || vcpFetch == cp) { vfli.ichReal = ifi.ich; vfli.xpReal = ifi.xpReal = ifi.xp; } if (!fFlmPrinting && (doc != docHelp)) { vfli.rgch[ifi.ich] = chEMark; vfli.xpReal += (vfli.rgdxp[ifi.ich++] = DxpFromCh(chEMark, false)); } vfli.dypLine = ifi.dypLineSize; vfli.dypBase = dypDescentMac; vfli.dypFont = dypAscentMac + dypDescentMac; vfli.ichMac = vfli.ichReal = ifi.ich; vfli.cpMac = cpMac + 1; goto JustEol; /* dcpDepend == 0 */ } /* Here we have ifi.ich, cch */ if (ifi.ich + cch > ichMaxLine) /* If this run would put the line over 255, truncate it and set a flag. */ { cch = ichMaxLine - ifi.ich; fTruncated = true; } ifi.ichFetch = 0; #ifdef CASHMERE if (chpLocal.csm != csmNormal) { int ich; CHAR *pchT = &rgchSmcap[0]; /* We can handle only a run of cchSmcapMax small capital characters. If the run is larger then truncate. */ if (cch > cchSmcapMax) { cch = cchSmcapMax; fTruncated = true; } /* Raise the case of the characters. */ for (ich = 0 ; ich < cch ; ich++) { *pchT++ = ChUpper(*pch++); } pch = &rgchSmcap[0]; } #endif /* CASHMERE */ /* Do "special" characters here */ if (chpLocal.fSpecial) { if (!FFormatSpecials(&ifi, flm, vsepAbs.nfcPgn)) { if (ifi.chBreak == 0) /* No breaks in this line */ { goto Unbroken; } else { vfli.dcpDepend = vcpFetch + ifi.ichFetch - vfli.cpMac; goto JustBreak; } } } continue; } /* End of new run treatment. We are back in the "for every character" section. */ { register int ch = pch[ifi.ichFetch++]; NormChar: if (ch == chSpace) { /* Speed kludge for spaces */ ifi.xp += (vfli.rgdxp[ifi.ich] = dxp = fFlmPrinting ? vfmiPrint.dxpSpace : vfmiScreen.dxpSpace); ifi.xpPr += (dxpPr = vfmiPrint.dxpSpace); vfli.rgch[ifi.ich++] = chSpace; #ifdef DFLI { char rgch[100]; wsprintf(rgch," chSpace , xp==%d/%d, xpPr==%d/%d", ifi.xp, ifi.xpRight, ifi.xpPr, ifi.xpPrRight); CommSz(rgch); } #endif goto BreakOppr; } /* If the printer width is not in the printer width table, then get it. */ if (ch < chFmiMin || ch >= chFmiMax || (dxpPr = vfmiPrint.mpchdxp[ch]) == dxpNil) { dxpPr = DxpFromCh(ch, TRUE); } if (fFlmPrinting) { /* If we are printing, then there is no need to bother with the screen width. */ dxp = dxpPr; } else if (ch < chFmiMin || ch >= chFmiMax || (dxp = vfmiScreen.mpchdxp[ch]) == dxpNil) dxp = DxpFromCh(ch, FALSE); #ifdef DBCS if (IsDBCSLeadByte(ch)) { ifi.xp += (vfli.rgdxp[ifi.ich] = dxp); ifi.xpPr += dxpPr; vfli.rgch[ifi.ich++] = ch; ifi.xp += (vfli.rgdxp[ifi.ich] = dxp); ifi.xpPr += dxpPr; vfli.rgch[ifi.ich++] = pch[ifi.ichFetch++]; } else { ifi.xp += (vfli.rgdxp[ifi.ich] = dxp); ifi.xpPr += dxpPr; vfli.rgch[ifi.ich++] = ch; } #else ifi.xp += (vfli.rgdxp[ifi.ich] = dxp); ifi.xpPr += dxpPr; vfli.rgch[ifi.ich++] = ch; #endif /* special case "normal characters" above hyphen */ if (ch > chHyphen) goto DefaultCh; switch (ch) { #ifdef CRLF case chReturn: /* Undo damage */ ifi.ich--; ifi.xp -= dxp; ifi.xpPr -= dxpPr; continue; #endif /* CRLF */ case chNRHFile: /* Undo damage */ ifi.ich--; ifi.xp -= dxp; ifi.xpPr -= dxpPr; ichpNRH = ichpFormat - 1; #ifdef DFLI { char rgch[100]; wsprintf(rgch," OptHyph: width==%d, xpPr==%d/%d\n\r", DxpFromCh(chHyphen,true), ifi.xpPr,ifi.xpPrRight); CommSz(rgch); } #endif if (ifi.xpPr + DxpFromCh(chHyphen, true) > ifi.xpPrRight) { /* Won't fit, force a break */ goto DoBreak; } #ifdef CASHMERE else if (fVisiMode) { /* Treat just like a normal hyphen */ ch = chHyphen; goto NormChar; } #endif /* CASHMERE */ xpPrev = ifi.xp; vfli.rgch[ifi.ich] = chTab; goto Tab0; case chSect: /* Undo damage */ ifi.ich--; ifi.xp -= dxp; ifi.xpPr -= dxpPr; vfli.dypFont = vfli.dypLine = (dypAscentMac + (vfli.dypBase = dypDescentMac)); vfli.cpMac = vcpFetch + ifi.ichFetch; if (FFirstIch(ifi.ich)) { /* Beginning of line; return a splat */ vfli.fSplat = true; if (!fFlmPrinting) { #ifdef CASHMERE int chT = vfli.cpMac == vcpLimSectCache ? chSectSplat : chSplat; #else /* not CASHMERE */ int chT = chSplat; #endif /* not CASHMERE */ int dxpCh = DxpFromCh(chT, false); /* Set the width of the splat to be about 8.5" */ int cch = min((dxpLogInch * 17 / 2) / dxpCh, ichMaxLine - 32); bltbc(&vfli.rgch[ifi.ich], chT, cch); bltc(&vfli.rgdxp[ifi.ich], dxpCh, cch); vfli.ichMac = cch + ifi.ich; vfli.xpReal = LOWORD(GetTextExtent(vhMDC, (LPSTR)vfli.rgch, cch)); vfli.xpLeft = 0; } else { vfli.ichMac = 0; } goto EndFormat; } /* The section character is in the middle of a line, the line will terminate in front of the character. */ /* vfSplatNext = TRUE; No longer used*/ vfli.cpMac += cchUsed - 1; vfli.dcpDepend = 1; if (!ifi.fPrevSpace) { ifi.cBreak = ifi.cchSpace; vfli.ichReal = ifi.ich; vfli.xpReal = ifi.xpReal = ifi.xp; } vfli.ichMac = ifi.ich; vfli.dypLine = ifi.dypLineSize; goto JustBreak; case chTab: /* Undo damage */ ifi.ich--; ifi.xp -= dxp; ifi.xpPr -= dxpPr; if (ifi.xpPr < ifi.xpPrRight) { register struct CHP *pchp; unsigned xaPr; unsigned xaTab; if (!ifi.fPrevSpace) { /* Remember number of spaces to left and number of real chars in line for justification */ ifi.cBreak = ifi.cchSpace; vfli.ichReal = ifi.ich; ifi.xpReal = ifi.xp; } if (ifi.jc != jcTabLeft) { Justify(&ifi, xpTab, flm); } xpPrev = ifi.xp; /* Now get info about this tab */ xaPr = MultDiv(ifi.xpPr, dxaPrPage, dxpPrPage); while ((xaTab = ptbd->dxa) != 0) { if (xaTab > xaRight) { /* Don't let tabs extend past right margin. */ xaTab = xaRight; } if (xaTab >= xaPr) { /* Use tab stop information */ #ifdef CASHMERE ifi.tlc = ptbd->tlc; #endif /* CASHMERE */ ifi.jc = jcTabMin + (ptbd++)->jc; #ifdef ENABLE /* we do the mapping in HgtbdCreate */ if (ifi.jc != jcTabDecimal) { ifi.jc = jcTabLeft; } #endif goto TabFound; } ptbd++; } /* Out of set tabs; go to next nth column */ xaTab = (xaPr / (vzaTabDflt) + 1) * (vzaTabDflt); #ifdef CASHMERE ifi.tlc = tlcWhite; #endif /* CASHMERE */ ifi.jc = jcTabLeft; TabFound: xpTab = imax(MultDiv(xaTab, dxpFormat, dxaFormat), ifi.xp); /* Do left-justified tabs immediately */ if (ifi.jc == jcTabLeft) { ifi.xp = xpTab; ifi.xpPr = MultDiv(xaTab, dxpPrPage, dxaPrPage); } ifi.xpLeft = ifi.xp; ifi.ichLeft = ifi.ich; ifi.cchSpace = 0; ifi.chBreak = 0; Tab0: ifi.fPrevSpace = false; vfli.ichMac = ifi.ich; vfli.xpReal = ifi.xp; vfli.dypLine = ifi.dypLineSize; vfli.dypBase = dypDescentMac; vfli.dypFont = dypAscentMac + dypDescentMac; if (ifi.ichFetch != 1 && (ichpFormat != ichpMacFormat || FGrowFormatHeap())) { /* Probably in real trouble if FGrowFormatHeap fails at this point */ pchp = &(**vhgchpFormat)[ichpFormat - 1]; if (ichpFormat > 0) { /* Finish off previous run */ pchp->ichRun = ifi.ichPrev; pchp->cchRun = ifi.ich - ifi.ichPrev; } blt(&chpLocal, ++pchp, cwCHP); ichpFormat++; } else { pchp = &(**vhgchpFormat)[ichpFormat - 1]; } pchp->ichRun = ifi.ich; pchp->cchRun = ichMaxLine; #ifdef CASHMERE pchp->chLeader = mptlcch[ifi.tlc]; #endif /* CASHMERE */ vfli.rgdxp[ifi.ichPrev = ifi.ich++] = ifi.xp - xpPrev; if (ch != chTab) { /* This character is a non-required hyphen. */ Dfli(CommSz("ch is really OptHyph ")); goto BreakOppr; } continue; } else { ch = chNBSFile; goto NormChar; } case chHyphen: if (ifi.xpPr > ifi.xpPrRight) { goto DoBreak; } BreakOppr: Dfli(CommSz(" BKOPPR\n\r")); /* this case never used in switch - always goto here */ /* case chSpace: */ if (ifi.ich >= ichMaxLine) { Dfli(CommSzNum(" Unbroken, ich>ichMaxLine\n\r")); goto Unbroken; } case chEol: case chNewLine: ifi.chBreak = ch; vfli.cpMac = vcpFetch + cchUsed + ifi.ichFetch; vfli.xpReal = ifi.xp; vfli.ichMac = ifi.ich; vfli.dypLine = ifi.dypLineSize; vfli.dypFont = dypAscentMac + (vfli.dypBase = dypDescentMac); Dfli(CommSzNumNum(" vfli.xpReal, ichMac ",vfli.xpReal,vfli.ichMac)); if (ch == chHyphen || ch == chNRHFile) { Dfli(CommSz(" chHyph/OptHyph catch \n\r")); ifi.cBreak = ifi.cchSpace; vfli.ichReal = ifi.ich; vfli.xpReal = ifi.xpReal = ifi.xp; } else { if (!ifi.fPrevSpace) { Dfli(CommSz("!fPrevSpace \n\r")); ifi.cBreak = ifi.cchSpace; vfli.ichReal = ifi.ich - 1; ifi.xpReal = (vfli.xpReal = ifi.xp) - dxp; } if (ch == chEol || ch == chNewLine) { #ifdef CASHMERE if (hfntb != 0 && vfli.cpMac == (**hfntb).rgfnd[0].cpFtn) { /* End of footnote */ if (!fFlmPrinting) { vfli.rgch[ifi.ich - 1] = chEMark; vfli.xpReal += (vfli.rgdxp[ifi.ich - 1] = DxpFromCh(chEMark, false)) - dxp; vfli.ichReal++; /* show this guy */ } } else #endif /* CASHMERE */ { #ifdef CASHMERE int chT = fVisiMode ? ChVisible(ch) : chSpace; #else /* not CASHMERE */ int chT = chSpace; #endif /* not CASHMERE */ int dxpNew = DxpFromCh(chT, fFlmPrinting); vfli.rgch[ifi.ich - 1] = chT; vfli.rgdxp[ifi.ich - 1] = dxpNew; vfli.xpReal += (vfli.rgdxp[ifi.ich - 1] = dxpNew) - dxp; if (!ifi.fPrevSpace) { vfli.xpReal += dxpNew - dxp; #ifdef CASHMERE vfli.ichReal = fVisiMode ? ifi.ich : ifi.ich - 1; #else /* not CASHMERE */ vfli.ichReal = ifi.ich - 1; #endif /* not CASHMERE */ } } if (ch == chEol) { JustEol: if (fFlmPrinting) { vfli.ichMac = vfli.ichReal; } if (ifi.jc != jcTabLeft) { /* Handle last tab's text */ Justify(&ifi, xpTab, flm); } else if ((ifi.jc = ppap->jc) != jcBoth && ifi.jc != jcLeft) { /* Do line justification */ Justify(&ifi, ifi.xpRight, flm); } vfli.xpRight = ifi.xpRight; goto EndFormat; } else { /* Handle a line break */ goto JustBreak; } } ++ifi.cchSpace; ifi.fPrevSpace = true; } break; DefaultCh: default: #ifdef DFLI { char rgch[100]; wsprintf(rgch," DefaultCh: %c, xp==%d/%d, xpPr==%d/%d\n\r", ch, ifi.xp, ifi.xpRight, ifi.xpPr, ifi.xpPrRight); CommSz(rgch); } #endif /* ifdef DFLI */ if (ifi.xpPr > ifi.xpPrRight) DoBreak: { Dfli(CommSz(" BREAK!\n\r")); if (ifi.chBreak == 0) Unbroken: { /* Admit first character to the line, even if margin is crossed. First character at ifi.ich - 1 may be preceded by 0 width characters. */ #ifdef DBCS if (IsDBCSLeadByte(ch)) { if (FFirstIch(ifi.ich-2) && ifi.ichcchRun++; if (pchp->ichRun >= vfli.ichMac) { pchp->ichRun = vfli.ichMac - 1; } } } if (fFlmPrinting) { vfli.ichMac = vfli.ichReal; } if (ifi.jc != jcTabLeft) { Justify(&ifi, xpTab, flm); } else { DoJustify: if ((ifi.jc = ppap->jc) != jcLeft) { Dfli(CommSzNum(" DoJustify: xpRight ",ifi.xpRight)); Justify(&ifi, ifi.xpRight, flm); } } vfli.xpRight = ifi.xpRight; EndFormat: vfli.ichLastTab = ifi.ichLeft; #ifdef CASHMERE if (vfli.cpMac == vcpLimParaCache) { vfli.dypAfter = vpapAbs.dyaAfter / DyaPerPixFormat; vfli.dypLine += vfli.dypAfter; vfli.dypBase += vfli.dypAfter; } #endif /* CASHMERE */ Scribble(5, ' '); return; } else { PChar: /* A printing character */ ifi.fPrevSpace = false; } break; } /* Switch */ } } /* for ( ; ; ) */ Scribble(5, ' '); } /* J U S T I F Y */ near Justify(pifi, xpTab, flm) struct IFI *pifi; unsigned xpTab; int flm; { int dxp; int ichT; int xpLeft; xpLeft = pifi->xpLeft; switch (pifi->jc) { CHAR *pch; unsigned *pdxp; #ifdef CASHMERE case jcTabLeft: case jcLeft: return; case jcTabRight: dxp = xpTab - pifi->xpReal; break; case jcTabCenter: dxp = (xpTab - xpLeft) - ((pifi->xpReal - xpLeft + 1) >> 1); break; #endif /* CASHMERE */ case jcTabDecimal: dxp = xpTab - xpLeft; for (ichT = pifi->ichLeft + 1; ichT < vfli.ichReal && vfli.rgch[ichT] != vchDecimal; ichT++) { dxp -= vfli.rgdxp[ichT]; } break; case jcCenter: if ((dxp = xpTab - pifi->xpReal) <= 0) { return; } dxp = dxp >> 1; break; case jcRight: dxp = xpTab - pifi->xpReal; break; case jcBoth: if (pifi->cBreak == 0) { /* Ragged edge forced */ return; } if ((dxp = xpTab - pifi->xpReal) <= 0) { /* There is nothing to do. */ return; } pifi->xp += dxp; vfli.xpReal += dxp; vfli.dxpExtra = dxp / pifi->cBreak; /* Rounding becomes a non-existant issue due to brilliant re-thinking. "What a piece of work is man How noble in reason In form and movement, how abject and admirable..." Bill "Shake" Spear [describing Sand Word] */ { register CHAR *pch = &vfli.rgch[vfli.ichReal]; register int *pdxp = &vfli.rgdxp[vfli.ichReal]; int dxpT = dxp; int cBreak = pifi->cBreak; int cxpQuotient = (dxpT / cBreak) + 1; int cWideSpaces = dxpT % cBreak; vfli.fAdjSpace = fTrue; for ( ; ; ) { /* Widen blanks */ --pch; --pdxp; if (*pch == chSpace) { if (cWideSpaces-- == 0) { int *pdxpT = pdxp + 1; while (*pdxpT == 0) { pdxpT++; } vfli.ichFirstWide = pdxpT - vfli.rgdxp; cxpQuotient--; } *pdxp += cxpQuotient; if ((dxpT -= cxpQuotient) <= 0) { if (pifi->cBreak > 1) { int *pdxpT = pdxp + 1; while (*pdxpT == 0) { pdxpT++; } vfli.ichFirstWide = pdxpT - vfli.rgdxp; } return; } pifi->cBreak--; } } } } /* Switch */ if (dxp <= 0) { /* Nothing to do */ return; } pifi->xp += dxp; if (flm & flmPrinting) { pifi->xpPr += dxp; } else { /* This statememt might introduce rounding errors in pifi->xpPr, but with luck, they will be small. */ pifi->xpPr += MultDiv(MultDiv(dxp, czaInch, dxpLogInch), dxpPrPage, dxaPrPage); } if (pifi->ichLeft < 0) { /* Normal justification */ vfli.xpLeft += dxp; } else { /* Tab justification */ vfli.rgdxp[pifi->ichLeft] += dxp; } vfli.xpReal += dxp; } /* F G R O W F O R M A T H E A P */ int near FGrowFormatHeap() { /* Grow vhgchpFormat by 20% */ int cchpIncr = ichpMacFormat / 5 + 1; #ifdef WINHEAP if (!LocalReAlloc((HANDLE)vhgchpFormat, (ichpMacFormat + cchpIncr) * cchCHP, NONZEROLHND)) #else /* not WINHEAP */ if (!FChngSizeH(vhgchpFormat, (ichpMacFormat + cchpIncr) * cwCHP, false)) #endif /* not WINHEAP */ { /* Sorry, charlie */ return false; } ichpMacFormat += cchpIncr; return true; } /* #define DBEMG */ /* D X P F R O M C H */ #ifdef DBCS /* DxpFromCh() assumes that ch passed is the first byte of a DBCS character if it is a part of such character. */ #endif int DxpFromCh(ch, fPrinter) int ch; int fPrinter; { int *pdxp; // changed to int (7.23.91) v-dougk int dxpDummy; // changed to int (7.23.91) v-dougk extern int dxpLogCh; extern struct FCE *vpfceScreen; /* If the width is not in the width table, then get it. */ if (ch < chFmiMin) { switch (ch) { case chTab: case chEol: case chReturn: case chSect: case chNewLine: case chNRHFile: /* the width for these characters aren't really important */ pdxp = (CHAR *)(fPrinter ? &vfmiPrint.dxpSpace : &vfmiScreen.dxpSpace); break; default: pdxp = &dxpDummy; *pdxp = dxpNil; break; } } else if (ch >= chFmiMax) { /* outside the range we hold in our table - kludge it */ pdxp = &dxpDummy; *pdxp = dxpNil; } else { /* inside our table */ pdxp = (fPrinter ? vfmiPrint.mpchdxp : vfmiScreen.mpchdxp) + ch; } #ifdef DBCS if (*pdxp == dxpNil && IsDBCSLeadByte(ch) ) { int dxp; #else if (*pdxp == dxpNil) { int dxp; #endif #ifdef DBCS struct FMI *pfmi; int rgchT[cchDBCS]; // changed to int (7.23.91) v-dougk int dxpT; int dxpDBCS; pfmi = fPrinter ? (&vfmiPrint) : (&vfmiScreen); Assert(pfmi->bDummy == dxpNil); if (pfmi->dxpDBCS == dxpNil) { /* Get the width from GDI. */ rgchT[0] = rgchT[1] = ch; dxpDBCS = (fPrinter ? LOWORD(GetTextExtent(vhDCPrinter, (LPSTR) rgchT, cchDBCS)) : LOWORD(GetTextExtent(vhMDC, (LPSTR) rgchT, cchDBCS))); /* Store in fmi, if it fits. */ if (0 <= dxpDBCS && dxpDBCS < dxpNil) pfmi->dxpDBCS = (BYTE) dxpDBCS; return (dxpDBCS - pfmi->dxpOverhang); } else return (pfmi->dxpDBCS - pfmi->dxpOverhang); } else { int dxp; #endif /* DBCS */ /* get width from GDI */ dxp = fPrinter ? LOWORD(GetTextExtent(vhDCPrinter, (LPSTR)&ch, 1)) - vfmiPrint.dxpOverhang : LOWORD(GetTextExtent(vhMDC, (LPSTR)&ch, 1)) - vfmiScreen.dxpOverhang; #ifdef DBEMG CommSzNum("Get this.... ", dxp); #endif //(7.24.91) v-dougk if (dxp >= 0 && dxp < dxpNil) { /* only store dxp's that fit in a byte */ *pdxp = dxp; } #ifdef DBEMG { char szT[10]; CommSzSz("fPrinter: ", (fPrinter ? "Printer" : "Screen")); if (ch == 0x0D) { szT[0] = 'C'; szT[1] = 'R'; szT[2] = '\0'; } else if (ch == 0x0A) { szT[0] = 'L'; szT[1] = 'F'; szT[2] = '\0'; } else if (32 <= ch && ch <= 126) { szT[0] = ch; szT[1] ='\0'; } else if (FKanji1(ch)) { szT[0] = 'K'; szT[1] = 'A'; szT[2] = 'N'; szT[3] = 'J'; szT[4] = 'I'; szT[5] = '\0'; } else { szT[0] = szT[1] = szT[2] = '-'; szT[3] = '\0'; } CommSzSz("Character: ", szT); CommSzNum("Dxp: ", (int) dxp); CommSzNum("OverHang: ", (int) (fPrinter ? vfmiPrint.dxpOverhang : vfmiScreen.dxpOverhang)); } #endif return(dxp); } #ifdef DBEMG { char szT[10]; CommSzSz("fPrinter: ", (fPrinter ? "Printer" : "Screen")); if (ch == 0x0D) { szT[0] = 'C'; szT[1] = 'R'; szT[2] = '\0'; } else if (ch == 0x0A) { szT[0] = 'L'; szT[1] = 'F'; szT[2] = '\0'; } else if (32 <= ch && ch <= 126) { szT[0] = ch; szT[1] ='\0'; } else if (FKanji1(ch)) { szT[0] = 'K'; szT[1] = 'A'; szT[2] = 'N'; szT[3] = 'J'; szT[4] = 'I'; szT[5] = '\0'; } else { szT[0] = szT[1] = szT[2] = '-'; szT[3] = '\0'; } CommSzSz("Character: ", szT); CommSzNum("Dxp: ", (int) *pdxp); CommSzNum("OverHang: ", (int) (fPrinter ? vfmiPrint.dxpOverhang : vfmiScreen.dxpOverhang)); } #endif return(*pdxp); } /* F F I R S T I C H */ int near FFirstIch(ich) int ich; { /* Returns true iff ich is 0 or preceded only by 0 width characters */ register int ichT; register int *pdxp = &vfli.rgdxp[0]; for (ichT = 0; ichT < ich; ichT++) { if (*pdxp++) { return false; } } return true; } ValidateMemoryDC() { /* Attempt to assure that vhMDC and vhDCPrinter are valid. If we have not already run out of memory, then vhDCPrinter is guaranteed, but vhMDC may fail due to out of memory -- it is the callers responsibility to check for vhMDC == NULL. */ extern int vfOutOfMemory; extern HDC vhMDC; extern BOOL vfMonochrome; extern long rgbText; extern struct WWD *pwwdCur; /* If we are out of memory, then we shouldn't try to gobble it up by getting DC's. */ if (!vfOutOfMemory) { if (vhMDC == NULL) { /* Create a memory DC compatible with the screen if necessary. */ vhMDC = CreateCompatibleDC(pwwdCur->hDC); /* Callers are responsible for checking for vhMDC == NULL case */ if (vhMDC != NULL) { /* Put the memory DC in transparent mode. */ SetBkMode(vhMDC, TRANSPARENT); /* If the display is a monochrome device, then set the text color for the memory DC. Monochrome bitmaps will not be converted to the foreground and background colors in this case, we must do the conversion. */ if (vfMonochrome = (GetDeviceCaps(pwwdCur->hDC, NUMCOLORS) == 2)) { SetTextColor(vhMDC, rgbText); } } } /* If the printer DC is NULL then we need to reestablish it. */ if (vhDCPrinter == NULL) { GetPrinterDC(FALSE); /* GetPrinterDC has already called SetMapperFlags() on vhDCPrinter. */ } } }