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461 lines
17 KiB
461 lines
17 KiB
/*
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* Copyright Microsoft Corporation, 1983-1989
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*
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* This Module contains Proprietary Information of Microsoft
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* Corporation and should be treated as Confidential.
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*/
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/* Addressing frame for segmented executable */
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/*
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* NEWMAP5.C
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*/
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#include <minlit.h> /* Types and constants */
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#include <bndtrn.h> /* Types and constants */
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#include <bndrel.h> /* Reloc. type definitions */
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#include <lnkio.h> /* Linker I/O definitions */
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#include <newexe.h> /* DOS & 286 .EXE data structures */
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#if EXE386
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#include <exe386.h> /* 386 .EXE data structures */
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#endif
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#include <lnkmsg.h> /* Error messages */
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#include <extern.h> /* External declarations */
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#if NOT EXE386
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#define SEGTOPADDR ((WORD)0xffff)
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#endif
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/*
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* AssignSegAddr:
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*
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* Assign addresses for a segmented-executable format program.
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* Called by AssignAddresses.
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*/
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void NEAR AssignSegAddr()
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{
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REGISTER SNTYPE gsn;
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REGISTER SEGTYPE seg;
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APROPSNPTR papropSn;
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ALIGNTYPE align;
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GRTYPE ggr;
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SEGTYPE segTop;
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AHTEPTR pahte; /* Pointer to group name hte */
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DWORD sacb; /* Physical segment ("frame") size */
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SEGTYPE segi; /* Segment index */
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DWORD CurrentPackLim;
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WORD fMixed; // TRUE if mixing use16 with use32 allowed
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WORD fUse16; // TRUE if group is use16
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#if FALSE AND NOT EXE386
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WORD ShiftDelta;
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#endif
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segTop = 0;
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saMac = 1; /* Initialize counter */
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#if EXE386
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if (ggrFlat)
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mpggrgsn[ggrFlat] = gsnMac; /* Mark base of pseudo-group */
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#endif
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for(seg = 1; seg <= segLast; ++seg) /* Loop to combine segments */
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{
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if(saMac >= SAMAX) Fatal(ER_fsegmax);
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/* Check for table overflow */
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mpsegsa[seg] = saMac; /* Save phys. seg. in table */
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mpsegraFirst[seg] = 0; /* First byte at offset zero */
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mpgsndra[mpseggsn[seg]] = 0; /* First byte at offset zero */
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papropSn = (APROPSNPTR ) FetchSym(mpgsnrprop[mpseggsn[seg]],FALSE);
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/* Look up segment definition */
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sacb = papropSn->as_cbMx; /* Save initial phys. seg. size */
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mpsacb[saMac] = sacb; /* Save in table also */
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mpsaflags[saMac] = papropSn->as_flags;
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/* Save the flags */
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mpsacbinit[saMac] = 0L; /* Initialize */
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mpsaRlc[saMac] = NULL; /* Initialize */
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ggr = papropSn->as_ggr; /* Get global GRPDEF index */
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if (ggr != GRNIL) /* If we've found a group member */
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{
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fUse16 = !Is32BIT(papropSn->as_flags);
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fMixed = (papropSn->as_fExtra & MIXED1632);
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mpggrgsn[ggr] = mpseggsn[seg];
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/* Remember base of group */
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for (segTop = segLast; segTop > seg; --segTop)
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{ /* Loop to find highest member */
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papropSn = (APROPSNPTR )
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FetchSym(mpgsnrprop[mpseggsn[segTop]],FALSE);
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/* Get segment definition */
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if (ggr == papropSn->as_ggr) break;
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/* Break loop when found */
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}
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}
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else if (gsnAppLoader && mpseggsn[seg] == gsnAppLoader)
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{
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// Don't pack aplication loader with other CODE segments
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segTop = seg;
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}
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#if EXE386
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else if (gsnImport && mpseggsn[seg] == gsnImport)
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{
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// Don't pack IAT segment with other DATA segments
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segTop = seg;
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}
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#endif
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else if (packLim != 0L && IsCodeFlg(papropSn->as_flags))
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{ /* If packing code segments */
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segTop = segCodeLast; /* Pack as much code as possible */
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#if EXE386
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if (!Is32BIT(papropSn->as_flags))
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CurrentPackLim = LXIVK - 36;
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else
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#endif
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CurrentPackLim = packLim;
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}
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else if(DataPackLim != 0L && IsDataFlg(papropSn->as_flags))
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{ /* If packing data segments */
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segTop = segDataLast; /* Pack as much data as possible */
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#if EXE386
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if (!Is32BIT(papropSn->as_flags))
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CurrentPackLim = LXIVK;
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else
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#endif
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CurrentPackLim = DataPackLim;
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}
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else segTop = seg; /* Else stop with current segment */
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for(segi = seg + 1; segi <= segTop; ++segi)
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{ /* Loop to end of group */
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papropSn = (APROPSNPTR )
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FetchSym(mpgsnrprop[mpseggsn[segi]],FALSE);
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/* Get segment definition */
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if (!fMixed && papropSn->as_ggr != GRNIL)
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fMixed = (papropSn->as_fExtra & MIXED1632);
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// Check if mixing use16
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// and use32 for group allowed
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if(papropSn->as_ggr != ggr && papropSn->as_ggr != GRNIL)
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{ /* If groups do not match */
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if(ggr == GRNIL) /* If not in a true group */
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{
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segTop = segi - 1; /* Stop after last segment */
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break; /* Exit loop */
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}
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/* Output warning message */
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OutWarn(ER_grpovl,
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1 + GetPropName(FetchSym(mpggrrhte[ggr],FALSE)),
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1 + GetPropName(FetchSym(mpggrrhte[papropSn->as_ggr],FALSE)));
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}
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if(IsIOPL(mpsaflags[saMac]) != IsIOPL(papropSn->as_flags))
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{
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/* Don't pack IOPL with NIOPL */
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if (ggr == GRNIL)
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{
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/* Not a members of any group - stop packing */
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segTop = segi - 1;
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break;
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}
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else
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{
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/* Issue error and continue */
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pahte = (AHTEPTR ) FetchSym(mpggrrhte[ggr],FALSE);
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/* Get hash table entry */
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OutError(ER_iopl, 1 + GetPropName(papropSn),
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1 + GetFarSb(pahte->cch));
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}
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}
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#if EXE386
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if(Is32BIT(mpsaflags[saMac]) != Is32BIT(papropSn->as_flags))
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{
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/* Don't pack 32-bit segments with 16-bit segments */
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if (ggr == GRNIL)
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{
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/* Not a members of any group - stop packing */
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segTop = segi - 1;
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break;
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}
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else if (!fMixed)
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{
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/* Issue error and continue */
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pahte = (AHTEPTR ) FetchSym(mpggrrhte[ggr],FALSE);
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/* Get hash table entry */
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OutError(ER_32_16_bit, 1 + GetPropName(papropSn),
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1 + GetFarSb(pahte->cch));
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}
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}
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#endif
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if (IsDataFlg(mpsaflags[saMac]) && IsDataFlg(papropSn->as_flags))
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{
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// If we are packing DATA segments, check NSSHARED bit
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#if EXE386
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if (IsSHARED(mpsaflags[saMac]) != IsSHARED(papropSn->as_flags))
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#else
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if ((mpsaflags[saMac] & NSSHARED) !=
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(papropSn->as_flags & NSSHARED))
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#endif
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{
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// Don't pack SHARED with NONSHARED data segments
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if (ggr == GRNIL)
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{
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// Not a members of any group - stop packing
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segTop = segi - 1;
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break;
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}
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else
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{
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// Issue error and continue
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pahte = (AHTEPTR ) FetchSym(mpggrrhte[ggr],FALSE);
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OutError(ER_shared, 1 + GetPropName(papropSn),
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1 + GetFarSb(pahte->cch));
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}
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}
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}
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mpsegsa[segi] = saMac; /* Assign phys. seg. to segment */
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/* Fix the flags */
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#if EXE386
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if (IsCODEOBJ(mpsaflags[saMac]) && !IsCODEOBJ(papropSn->as_flags))
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#else
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if((mpsaflags[saMac] & NSTYPE) != (papropSn->as_flags & NSTYPE))
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#endif
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{ /* If types do not agree */
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/* If packing code or data segs, stop current packing group.
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* But allow program to explicitly group code and data.
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*/
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if(ggr == GRNIL)
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{
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segTop = segi - 1;
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break;
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}
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#if EXE386
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else
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{
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/* Issue warning and convert segment type */
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WORD warningKind;
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if (IsCODEOBJ(papropSn->as_flags))
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warningKind = ER_codeindata;
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else
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warningKind = ER_dataincode;
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pahte = (AHTEPTR ) FetchSym(mpggrrhte[ggr],FALSE);
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/* Get hash table entry */
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OutWarn(warningKind, 1 + GetPropName(papropSn),
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1 + GetFarSb(pahte->cch));
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}
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#else
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mpsaflags[saMac] &= (~NSSHARED & ~NSTYPE);
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mpsaflags[saMac] |= NSCODE;
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/* Set type to impure code */
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#endif
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}
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#if EXE386
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else if (!IsSHARED(papropSn->as_flags))
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mpsaflags[saMac] &= ~OBJ_SHARED;
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#else
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else if(!(papropSn->as_flags & NSSHARED))
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mpsaflags[saMac] &= ~NSSHARED;
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#endif
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/* Turn off pure bit if impure */
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#if EXE386
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if (!IsREADABLE(papropSn->as_flags)) mpsaflags[saMac] &= ~OBJ_READ;
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#else
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#if O68K
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if((papropSn->as_flags & (NSMOVE | NSPRELOAD | NSEXRD)) !=
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(mpsaflags[saMac] & (NSMOVE | NSPRELOAD | NSEXRD)))
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{
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if(ggr == GRNIL)
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{
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segTop = segi - 1;
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break;
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}
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else
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#else
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{
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#endif
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{
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if(!(papropSn->as_flags & NSMOVE))
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mpsaflags[saMac] &= ~NSMOVE;
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/* Turn off movable bit if fixed */
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if(papropSn->as_flags & NSPRELOAD)
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mpsaflags[saMac] |= NSPRELOAD;
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/* Set preload bit if preloaded */
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if (!(papropSn->as_flags & NSEXRD))
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mpsaflags[saMac] &= ~NSEXRD;
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/* Turn off execute/read-only */
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}
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}
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#endif
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/* Adjust alignment */
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align = (ALIGNTYPE) ((papropSn->as_tysn >> 5) & 7);
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/* Get alignment type */
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switch(align) /* Switch on alignment type */
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{
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case ALGNWRD: /* Word-aligned */
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sacb = (sacb + 1) & ~1L;
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/* Round up size to word boundary */
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break;
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#if OMF386
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case ALGNDBL: /* Double word-aligned */
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sacb = (sacb + 3) & ~3L; /* Round up to dword offset */
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break;
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#endif
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case ALGNPAR: /* Paragraph-aligned */
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sacb = (sacb + 0xF) & ~0xFL;
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/* Round up size to para boundary */
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break;
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case ALGNPAG: /* Page-aligned */
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sacb = (sacb + 0xFF) & ~0xFFL;
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/* Round up size to page boundary */
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break;
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}
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mpsegraFirst[segi] = sacb;
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/* Save offset of first byte */
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mpgsndra[mpseggsn[segi]] = sacb;
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/* Save offset of first byte */
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sacb += papropSn->as_cbMx; /* Increment size of file segment */
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#if NOT EXE386
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if(ggr != GRNIL) /* If true group */
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{
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if (fMixed && !fUse16)
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{
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pahte = (AHTEPTR ) FetchSym(mpggrrhte[ggr],FALSE);
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/* Get hash table entry */
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OutWarn(ER_mixgrp32, 1 + GetFarSb(pahte->cch));
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}
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if(sacb > LXIVK ||
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(IsCodeFlg(mpsaflags[saMac]) && sacb > LXIVK - 36))
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{ /* If group overflow or unreliable */
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pahte = (AHTEPTR ) FetchSym(mpggrrhte[ggr],FALSE);
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/* Get hash table entry */
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if(sacb > LXIVK)
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Fatal(ER_grpovf,1 + GetFarSb(pahte->cch));
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else
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OutWarn(ER_codunsf,1 + GetFarSb(pahte->cch));
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}
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}
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else
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#endif
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if(sacb > CurrentPackLim)/* Else if packing limit exceeded */
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{
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segTop = segi - 1; /* Set top to last segment that fit */
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break; /* Break inner loop */
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}
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mpsacb[saMac] = sacb; /* Update file segment size */
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}
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#if NOT EXE386
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/*
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* Make DGROUP segment flags conform to auto data. It is assumed
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* that all conflicts have been resolved earlier.
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*/
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if(ggr == ggrDGroup)
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{
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if(vFlags & NESOLO) mpsaflags[saMac] |= NSSHARED;
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else if(vFlags & NEINST) mpsaflags[saMac] &= ~NSSHARED;
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}
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#if FALSE
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if (IsDataFlg(mpsaflags[saMac]) && (mpsaflags[saMac] & NSEXPDOWN))
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{
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/* If this is data segment and NSEXPDOWN big is set - shitf it up */
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ShiftDelta = SEGTOPADDR - mpsacb[saMac];
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for (segi = seg; segi <= segTop; segi++)
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{
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mpsegraFirst[segi] += ShiftDelta;
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mpgsndra[mpseggsn[segi]] += ShiftDelta;
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}
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}
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#endif
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#endif
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if(mpsacb[saMac] != 0L)
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++saMac;
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seg = segTop; /* Set counter appropriately */
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}
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/* We haven't yet assigned absolute segments (it is assumed
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* they are empty and are used only for addressing purposes),
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* but now we must assign them somewhere.
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*/
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segTop = segLast; /* Initialize */
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for(gsn = 1; gsn < gsnMac; ++gsn) /* Loop to complete initialization */
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{
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papropSn = (APROPSNPTR ) FetchSym(mpgsnrprop[gsn],TRUE);
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/* Get symbol table entry */
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seg = mpgsnseg[gsn]; /* Get segment number */
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if(seg == SEGNIL) /* If we have an absolute segment */
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{
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mpgsnseg[gsn] = ++segTop; /* Assign a segment order number */
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mpsegsa[segTop] = (SATYPE) papropSn->as_cbMx;
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/* Assign absolute segs their loc. */
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}
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/* Define special symbols "_edata" and "_end" */
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if (fSegOrder)
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Define_edata_end(papropSn);
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}
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if (fSegOrder)
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Check_edata_end(0, 0);
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#if O68K
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/* The Macintosh addresses data as a negative offset to the A5 register.
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This limits "near" data to within 32k of A5; "far" data is defined as
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anything beyond the 32k limit and requires special addressing to reach it.
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To fold this into the standard linker model, the Macintosh post-processor
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treats the first data segment as "near" data and all subsequent data
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segments as "far". Thus, N data segments are arranged as follows:
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A5 -> +----------+ High memory
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| DATA 0 |
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+----------+
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| DATA N |
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+----------+
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| DATA N-1 |
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+----------+
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| . |
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| . |
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| . |
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+----------+
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| DATA 2 |
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+----------+
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| DATA 1 |
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+----------+ Low memory
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Consequently, we must calculate the displacment from the start of each data
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segment to its ultimate place in memory relative to A5. */
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if (iMacType != MAC_NONE)
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{
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RATYPE draDP;
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SATYPE sa;
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SATYPE saDataFirst;
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draDP = -((mpsacb[saDataFirst = mpsegsa[mpgsnseg[mpggrgsn[ggrDGroup]]]]
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+ 3L) & ~3L);
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mpsadraDP[saDataFirst] = draDP;
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for (sa = mpsegsa[segDataLast]; sa > saDataFirst; sa--)
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draDP = mpsadraDP[sa] = draDP - ((mpsacb[sa] + 3L) & ~3L);
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}
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#endif
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}
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