143 lines
6.9 KiB
Plaintext
143 lines
6.9 KiB
Plaintext
\eeapi.h:UOFF32 (LOADDS PASCAL *pPHGetNearestHsym)(LPADDR, HEXE, PHSYM);
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\Shfunc.h:#define PHGetNearestHsym (*pCVF->pPHGetNearestHsym)
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\debutil.c: return (!SHCompareRE (stName + 1, pName->sstr.pRE));
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\eeapi.h:SHFLAG (LOADDS PASCAL *pSHCompareRE)(char FAR *, char FAR *);
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\shfunc.h:#define SHCompareRE (*pCVF->pSHCompareRE)
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\debsym.c: if ((Name.hSym = SHFindNameInContext (Name.hSym, &Name.CXTT,
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\debsym.c: while ((hSym = SHFindNameInContext (Name.hSym, &Name.CXTT,
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\debsym.c: while ((hSym = SHFindNameInContext (Name.hSym, &Name.CXTT,
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\debsym.c: while ((hSym = SHFindNameInContext (Name.hSym, &Name.CXTT,
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\debsym.c: while ((hSym = SHFindNameInContext (Name.hSym,
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\debsym.c: if ((hSym = SHFindNameInContext (pName->hSym,
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\debsym.c: if ((hSym = SHFindNameInContext (pName->hSym, &pName->CXTT,
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\debsym.c: if ((hSym = SHFindNameInContext (pName->hSym,
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\eeapi.h:HSYM (LOADDS PASCAL *pSHFindNameInContext)(HS
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\shfunc.h:#define SHFindNameInContext (*pCVF->pSHFindNameInContext)
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\debsym.c: while ((hSym = SHFindNameInGlobal (Name.hSym, &Name.CXTT,
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\debsym.c: if ((hSym = SHFindNameInGlobal (pName->hSym, &pName->CXTT,
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\eeapi.h:HSYM (LOADDS PASCAL *pSHFindNameInGlobal)(HSYM, PCXT...
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\shfunc.h:#define SHFindNameInGlobal (*pCVF->pSHFindNameInGlobal)
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\debbind.c: SHGetCxtFromHmod (hMod, SHpCXTFrompCXF (nCxf));
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\debbind.c: SHGetCxtFromHmod (SHHMODFrompCXT (pCxt), pCxt);
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\debeval.c: SHGetCxtFromHmod (SHHMODFrompCXT (pCxt), pCxt);
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\debsym.c: SHGetCxtFromHmod (Name.hMod, &Name.CXTT);
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\debsym.c: SHGetCxtFromHmod (Name.hMod, &Name.CXTT);
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\debsym.c: SHGetCxtFromHmod (Name.hModCur, &Name.CXTT);
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\debsym.c: SHGetCxtFromHmod (pName->hMod, &pName->CXTT);
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\debsym.c: SHGetCxtFromHmod (pName->hModCur, &pName->CXTT);
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\eeapi.h:PCXT (LOADDS PASCAL *pSHGetCxtFromHmod)(HMOD, PCXT);
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\shfunc.h:#define SHGetCxtFromHmod (*pCVF->pSHGetCxtFromHmod)
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\debfmt.c: if (((pExe = SHGetExeName (hExe)) == NULL) ||
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\eeapi.h:char FAR * (LOADDS PASCAL *pSHGetExeName)(HEXE);
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\shfunc.h:#define SHGetExeName (*pCVF->pSHGetExeName)
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\debbind.c: hExe = SHGethExeFromName (pExe);
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\eeapi.h:HEXE (LOADDS PASCAL *pSHGethExeFromName)(char FAR *);
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\shfunc.h:#define SHGethExeFromName (*pCVF->pSHGethExeFromName)
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\eeapi.h:char FAR * (LOADDS PASCAL *pSHGetModName)(HMOD);
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\shfunc.h:#define SHGetModName (*pCVF->pSHGetModName)
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\cvtypes.h:** SHGetNearestHsym function.
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\debbind.c: if (SHGetNearestHsym (SHpADDRFrompCXT (SHpCXTFrompCXF (nCxf)),
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\debfmt.c: if (SHGetNearestHsym (&addr, EVAL_MOD (pv), EECODE, &hProc) == 0) {
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\eeapi.h:UOFF32 (LOADDS PASCAL *pSHGetNearestHsym)(LPADDR, HMOD, short, PHSYM)
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\shfunc.h:#define SHGetNearestHsym (*pCVF->pSHGetNearestHsym)
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\eeapi.h:HEXE (LOADDS PASCAL *pSHGetNextExe)(HEXE);
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\shfunc.h:#define SHGetNextExe (*pCVF->pSHGetNextExe)
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\debbind.c: if ((hMod = SHGetNextMod (hExe, hMod)) == 0) {
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\debbind.c: if ((hMod = SHGetNextMod (hExe, hMod)) == 0) {
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\debbind.c: while (hMod = SHGetNextMod (hExe, hMod)) {
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\debsym.c: Name.hModCur = SHGetNextMod (Name.hExe, Name.hMod);
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\debsym.c: (Name.hModCur = SHGetNextMod (Name.hExe, Name.hModCur)) != hMod);
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\debsym.c: pName->hModCur = SHGetNextMod (pName->hExe, pName->hMod);
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\debsym.c: (pName->hModCur = SHGetNextMod (pName->hExe,
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\eeapi.h:HMOD (LOADDS PASCAL *pSHGetNextMod)(HEXE, HMOD);
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\shfunc.h:#define SHGetNextMod (*pCVF->pSHGetNextMod)
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\debsym.c: SHGoToParent (&Name.CXTT, &CXTTOut);
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\debsym.c: SHGoToParent (&Name.CXTT, &CXTTOut);
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\debsym.c: SHGoToParent (&pName->CXTT, &CXTTOut);
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\eeapi.h:HSYM (LOADDS PASCAL *pSHGoToParent)(PCXT, PCXT);
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\shfunc.h:#define SHGoToParent (*pCVF->pSHGoToParent)
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\debbind.c: if ((hExe = SHHexeFromHmod (hMod)) == 0) {
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\debfmt.c: hExe = SHHexeFromHmod (hMod);
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\debsym.c: Name.hExe = SHHexeFromHmod ( pCxt->hMod );
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\debsym.c: // not valid to call SHHexeFromHmod with an Hmod of 0,
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\debsym.c: ((pName->hExe = SHHexeFromHmod (pName->hMod)) == 0)) {
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\eeapi.h:HEXE (LOADDS PASCAL *pSHHexeFromHmod)(HMOD);
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\shfunc.h:#define SHHexeFromHmod (*pCVF->pSHHexeFromHmod)
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\eeapi.h:HSYM (LOADDS PASCAL *pSHHsymFromPcxt)(PCXT);
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\shfunc.h:#define SHHsymFromPcxt (*pCVF->pSHHsymFromPcxt)
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\eeapi.h:SHFLAG (LOADDS PASCAL *pSHIsAddrInCxt)(PCXT, LPADDR);
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\shfunc.h:#define SHIsAddrInCxt (*pCVF->pSHIsAddrInCxt)
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\debsym.c: isprolog = SHIsInProlog (&Name.CXTT);
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\debsym.c: isprolog = SHIsInProlog (&pName->CXTT);
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\eeapi.h:SHFLAG (LOADDS PASCAL *pSHIsInProlog)(PCXT);
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\shfunc.h:#define SHIsInProlog (*pCVF->pSHIsInProlog)
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\debsup.c: if ((hSym = SHNextHsym (EVAL_MOD (pv), hSym)) == 0) {
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\eeapi.h:HSYM (LOADDS PASCAL *pSHNextHsym)(HMOD, HSYM);
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\shfunc.h:#define SHNextHsym (*pCVF->pSHNextHsym)
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\debbind.c: if (SHSetCxt (&pvT->addr, SHpCXTFrompCXF (nCxf)) == NULL) {
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\eeapi.h:PCXT (LOADDS PASCAL *pSHSetCxt)(LPADDR, PCXT);
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\shfunc.h:#define SHSetCxt (*pCVF->pSHSetCxt)
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\shfunc.h:#define SHSetCxtMod (*pCVF->pSHSetCxtMod)
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\shfunc.h:#define SHSetCxtMod (*pCVF->pSHSetCxtMod)
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\eeapi.h:PCXT (LOADDS PASCAL *pSHSetCxtMod)(LPADDR, PCXT);
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\debsym.c: SLFLineToAddr ( hsf, (ushort) val, &addr, &cbLine ) ) {
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\eeapi.h:ushort (LOADDS PASCAL *pSLFLineToAddr) ( HSF, WORD, LP
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\shfunc.h:#define SLFLineToAddr (*pCVF->pSLFLineToAddr)
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\eeapi.h:HMOD (LOADDS PASCAL *pSLHmodFromHsf) ( HEXE, HSF );
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\shfunc.h:#define SLHmodFromHsf (*pCVF->pSLHmodFromHsf)
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\debbind.c: if (hsf = SLHsfFromFile (hMod, pMod)) {
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\eeapi.h:HSF (LOADDS PASCAL *pSLHsfFromFile) ( HMOD, char FAR * );
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\shfunc.h:#define SLHsfFromFile (*pCVF->pSLHsfFromFile)
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\debfmt.c: hsf = SLHsfFromPcxt (pCXT);
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\debsym.c: if ( (hsf = SLHsfFromPcxt ( pCxt ) ) &&
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\eeapi.h:HSF (LOADDS PASCAL *pSLHsfFromPcxt) ( PCXT );
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\shfunc.h:#define SLHsfFromPcxt (*pCVF->pSLHsfFromPcxt)
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\eeapi.h:ushort (LOADDS PASCAL *pSLLineFromAddr) ( LPADDR,...
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\shfunc.h:#define SLLineFromAddr (*pCVF->pSLLineFromAddr)
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\debfmt.c: ((pFile = SLNameFromHsf (hsf)) == NULL)) {
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\eeapi.h:char FAR * (LOADDS PASCAL *pSLNameFromHsf) ( HSF );
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\shfunc.h:#define SLNameFromHsf (*pCVF->pSLNameFromHsf)
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\eeapi.h:HTYPE (LOADDS PASCAL *pTHGetNextType)(HMOD, HTYPE);
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\shfunc.h:#define THGetNextType (*pCVF->pTHGetNextType)
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\debbind.c: if ((hBase = THGetTypeFromIndex (EVAL_MOD (ST), CurClass)) == 0) {
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\debfmt.c: if((hType = THGetTypeFromIndex(EVAL_MOD (pv),EVAL_TYP(pv))) == 0) {
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\debfmt.c: if ((hArg = THGetTypeFromIndex (EVAL_MOD (pv), paramtype)) == 0) {
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\debsrch.c:while((hType = THGetTypeFromIndex (EVAL_MOD (pv), ++index)) != 0) {
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\debsrch.c: hType = THGetTypeFromIndex (EVAL_MOD (pv), PTR_UTYPE (pvT));
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\debsup.c:if((hField=THGetTypeFromIndex(EVAL_MOD(pv),CLASS_FIELD(pv))) == 0) {
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\debsup.c: if ((hField = THGetTypeFromIndex (EVAL_MOD (pv), newindex)) == 0) {
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\debsup.c:if((hField=THGetTypeFromIndex(EVAL_MOD(pv),CLASS_FIELD (pv)))== 0) {
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...
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\debsym.c: hType = THGetTypeFromIndex (EVAL_MOD (pv), type);
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\debutil.c: N_EVAL_TYPDEF (nv) = THGetTypeFromIndex (N_EVAL_MOD (nv), type);
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\debutil.c: *phType = THGetTypeFromIndex (EVAL_MOD (nv), N_FCN_PINDEX (nv));
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\debutil.c: *phType = THGetTypeFromIndex (EVAL_MOD (nv), N_PTR_UTYPE (nv));
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\eeapi.h:HTYPE (LOADDS PASCAL *pTHGetTypeFromIndex)(HMOD, THIDX);
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\shfunc.h:#define THGetTypeFromIndex (*pCVF->pTHGetTypeFromIndex)
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