<> <> <> <> <> <> DIRECTORY Alloc: TYPE USING [Notifier, Top], BcdDefs: TYPE USING [BCD, BcdBase, CodeDesc, EVHandle, EVIndex, EVRecord, EXPRecord, FTIndex, FTRecord, IMPIndex, IMPRecord, Link, LFIndex, ModuleIndex, MTHandle, MTRecord, Namee, NameRecord, NameString, NTRecord, PackedString, ProcIndex, RefLitIndex, RFIndex, SGIndex, SGRecord, TFIndex, TMRecord, TypeIndex, TYPIndex, TYPRecord, VarIndex, VersionID, CTNull, EVNull, FTSelf, LFNull, RFNull, TFNull, NullLink, NullName, MaxNMi, PageSize, ProcLimit, VarLimit], ComData: TYPE USING [bcdSeg, codeSeg, compilerVersion, fixupLoc, importCtx, interface, linkCount, mainCtx, moduleCtx, mtRoot, mtRootSize, nBodies, nSigCodes, objectVersion, ownSymbols, pattern, source, switches, symSeg, table, textIndex], CompilerUtil: TYPE USING [AppendBCDString, AppendBCDWord, AppendBCDWords, EndBCD, FillBCDPage, ReadBCDIndex, ReadBCDOffset, RTTableOut, StartBCD, UpdateBCDWords], ConvertUnsafe: TYPE USING [EqualSubStrings, AppendRope, SubString], Copier: TYPE USING [FreeSymbolTable, GetSymbolTable, MapSymbols, UnmapSymbols], Log: TYPE USING [ErrorN, ErrorSei, ErrorType, WarningSei, WarningRope, WarningSubString], P4: TYPE USING [ownGfi, DefaultBasicOps, OperandStruct], Pass4: TYPE USING [resident], RefText: TYPE USING [Append], ReplOps: TYPE USING [MatchedBodies, Unmatched], Rope: TYPE USING [Length], SourceMap: TYPE USING [Loc], Symbols: TYPE USING [bodyType, ctxType, mdType, seType, Base, Name, Type, ISEIndex, CSEIndex, RecordSEIndex, CTXIndex, IncludedCTXIndex, BitAddress, Linkage, MDRecord, MDIndex, BTIndex, nullName, ISENull, CTXNull, MDNull, BTNull, nullFileIndex, OwnMdi, RootBti, typeTYPE], SymbolOps: TYPE USING [FindString, FirstCtxSe, NextSe, SearchContext, SubStringForName, TypeForm, UnderType, XferMode], SymbolTable: TYPE USING [Base], SymLiteralOps: TYPE USING [RefLitItem, DescribeRefLits, DescribeTypes, EnumerateRefLits, EnumerateTypes, UTypeId, TypeIndex], Tree: TYPE USING [Base, Index, Link, Map, Scan, NullIndex, treeType], TreeOps: TYPE USING [GetNode, GetSe, ListLength, ScanList], Types: TYPE USING [SymbolTableBase, Assignable, Equivalent], UnsafeStorage: TYPE USING [GetSystemUZone]; Pass4B: PROGRAM IMPORTS Alloc, CompilerUtil, ConvertUnsafe, Copier, Log, P4, ReplOps, RefText, Rope, SymbolOps, SymLiteralOps, TreeOps, Types, dataPtr: ComData, passPtr: Pass4, UnsafeStorage EXPORTS P4 = { OPEN SymbolOps, Symbols; tb: Tree.Base; -- tree base address (local copy) seb: Symbols.Base; -- se table base address (local copy) ctxb: Symbols.Base; -- context table base address (local copy) mdb: Symbols.Base; -- body table base address (local copy) bb: Symbols.Base; -- body table base address (local copy) BCDNotify: PUBLIC Alloc.Notifier = { <> tb _ base[Tree.treeType]; seb _ base[seType]; ctxb _ base[ctxType]; mdb _ base[mdType]; bb _ base[bodyType]}; <> bcdHeader: BcdDefs.BcdBase; -- initialized in START code, below BcdHeaderPage: CARDINAL = 1; -- page 0 is reserved bcdOffset, mtOffset: CARDINAL; nString: BcdDefs.NameString; nStringREFTEXT: REF TEXT; -- NOTE SHARING with nString firstPorted: MDIndex = MDIndex.FIRST + MDRecord.SIZE; lastPorted: MDIndex; -- im/exported files in [firstPorted..lastPorted) evList: BcdDefs.EVHandle; -- initialized in START code, below indirectMTRecord: BcdDefs.MTHandle; -- initialized in START code, below multipleMTRecord: BcdDefs.MTHandle; -- initialized in START code, below <> ModuleIndex: TYPE = BcdDefs.ModuleIndex; ProcIndex: TYPE = BcdDefs.ProcIndex; ProcLimit: CARDINAL = BcdDefs.ProcLimit; VarLimit: CARDINAL = BcdDefs.VarLimit; maxEVLength: CARDINAL = BcdDefs.MaxNMi*(BcdDefs.VarIndex.LAST+1) - 1; BcdLink: TYPE = BcdDefs.Link; ownGfi: ModuleIndex = P4.ownGfi; GFSlots: PROC[epMax: NAT] RETURNS[nGfi: NAT] = { nGfi _ epMax/ProcLimit + 1; RETURN}; MakeEPLink: PUBLIC PROC[ep: CARDINAL, gfi: ModuleIndex] RETURNS[BcdLink] = { RETURN[[procedure[tag: TRUE, ep: ep MOD ProcLimit, gfi: gfi + ep/ProcLimit]]]}; MakeFrameLink: PROC[ep: CARDINAL, gfi: ModuleIndex] RETURNS[BcdLink] = { RETURN[[variable[vtag: var, var: ep MOD VarLimit, vgfi: gfi + ep/VarLimit]]]}; MakeTypeLink: PROC[index: BcdDefs.TYPIndex] RETURNS[BcdLink] = INLINE { RETURN[[type[typeID: index, type: TRUE, proc: FALSE]]]}; MdiForCtx: PROC[ctx: CTXIndex] RETURNS[MDIndex] = { RETURN[WITH c: ctxb[ctx] SELECT FROM included => c.module, imported => ctxb[c.includeLink].module, ENDCASE => OwnMdi] }; PortedCtx: PROC[ctx: CTXIndex] RETURNS[BcdDefs.FTIndex] = { RETURN[PortedFile[MdiForCtx[ctx]]]}; PortedFile: PROC[mdi: MDIndex] RETURNS[fti: BcdDefs.FTIndex] = { n: CARDINAL; IF mdi = OwnMdi THEN fti _ BcdDefs.FTSelf ELSE { IF mdi IN [firstPorted .. lastPorted) THEN n _ LOOPHOLE[mdi-firstPorted, CARDINAL]/MDRecord.SIZE ELSE { n _ LOOPHOLE[lastPorted-firstPorted, CARDINAL]/MDRecord.SIZE; SwapMdi[mdi, lastPorted]; lastPorted _ lastPorted + MDRecord.SIZE}; fti _ LOOPHOLE[n*BcdDefs.FTRecord.SIZE]}; RETURN}; SwapMdi: PROC[mdi1, mdi2: MDIndex] = { IF mdi1 # mdi2 THEN { ctx: IncludedCTXIndex; t: MDRecord; FOR ctx _ mdb[mdi1].ctx, ctxb[ctx].chain UNTIL ctx = CTXNull DO ctxb[ctx].module _ mdi2 ENDLOOP; FOR ctx _ mdb[mdi2].ctx, ctxb[ctx].chain UNTIL ctx = CTXNull DO ctxb[ctx].module _ mdi1 ENDLOOP; t _ mdb[mdi1]; mdb[mdi1] _ mdb[mdi2]; mdb[mdi2] _ t} }; EnterId: PROC[id: ConvertUnsafe.SubString, ignoreCase: BOOL] RETURNS[BcdDefs.NameRecord] = { i: CARDINAL; s: ConvertUnsafe.SubString; i _ 0; s.base _ @nString.string; UNTIL i = nString.string.length DO s.offset _ i _ i+1; s.length _ nString.size[i]; IF id.EqualSubStrings[s2: s, case: ~ignoreCase] THEN EXIT; i _ i + s.length; REPEAT FINISHED => { IF nString.string.length + (id.length+1) > nString.string.maxlength THEN { t: REF TEXT _ NEW[TEXT[nString.string.maxlength + MAX[(id.length+1), 512]]]; t _ RefText.Append[t, nStringREFTEXT]; nStringREFTEXT _ t; nString _ LOOPHOLE[nStringREFTEXT, BcdDefs.NameString]; }; i _ nString.string.length _ nString.string.length + 1; nString.size[i] _ id.length; FOR j: CARDINAL IN [0..id.length) DO nString.string[i+j] _ id.base[id.offset+j] ENDLOOP; nString.string.length _ i + id.length}; ENDLOOP; RETURN[[i]]}; EnterSymbolId: PROC[sei: ISEIndex] RETURNS[BcdDefs.NameRecord] = { s: ConvertUnsafe.SubString; s _ SubStringForName[seb[sei].hash]; RETURN[EnterId[s, FALSE]]}; EnterFileId: PROC[mdi: MDIndex] RETURNS[BcdDefs.NameRecord] = { s: ConvertUnsafe.SubString; extLength: CARDINAL = (".bcd"L).length; s _ SubStringForName[mdb[mdi].fileId]; IF s.base[s.offset+s.length-1] = '. THEN s.length _ s.length - 1; IF s.length > extLength THEN { t: ConvertUnsafe.SubString _ [ base: s.base, offset: s.offset+s.length-extLength, length: extLength]; ext: ConvertUnsafe.SubString _ [base:".bcd"L, offset:0, length:extLength]; IF t.EqualSubStrings[s2: ext, case: FALSE] THEN s.length _ s.length - extLength}; RETURN[EnterId[s, TRUE]]}; <> ProcessDirectory: PUBLIC Tree.Scan = { DirectoryItem: Tree.Scan = { node: Tree.Index = TreeOps.GetNode[t]; sei: ISEIndex = TreeOps.GetSe[tb[node].son[1]]; type: CSEIndex = UnderType[seb[sei].idType]; WITH t: seb[type] SELECT FROM definition => [] _ PortedCtx[t.defCtx]; transfer => { bti: BTIndex = seb[sei].idInfo; IF bti # BTNull THEN [] _ PortedCtx[bb[bti].localCtx]}; ENDCASE }; TreeOps.ScanList[t, DirectoryItem]}; <> ScanImports: PROC[action: PROC[ISEIndex]] = { FOR sei: ISEIndex _ FirstCtxSe[dataPtr.importCtx], NextSe[sei] UNTIL sei = ISENull DO action[sei] ENDLOOP }; RelocateImports: PROC[ctx: CTXIndex, gfi: ModuleIndex] = { FOR sei: ISEIndex _ FirstCtxSe[ctx], NextSe[sei] UNTIL sei = ISENull DO IF ~seb[sei].constant THEN { epN: CARDINAL = seb[sei].idValue; seb[sei].idValue _ MakeEPLink[epN, gfi]}; ENDLOOP; RETURN}; AssignImports: PUBLIC Tree.Scan = { gfi: ModuleIndex; saveIndex: SourceMap.Loc = dataPtr.textIndex; ImportItem: PROC[sei: ISEIndex] = { node: Tree.Index = seb[sei].idValue; type: CSEIndex = UnderType[seb[sei].idType]; IF node # Tree.NullIndex THEN dataPtr.textIndex _ tb[node].info; WITH t: seb[type] SELECT FROM definition => { IF ctxb[t.defCtx].seList = ISENull THEN Log.WarningSei[unusedImport, sei]; IF ~dataPtr.interface THEN RelocateImports[t.defCtx, gfi]; gfi _ gfi + (seb[sei].idInfo _ 4*t.nDummyGfi.q + t.nDummyGfi.r)}; ref => { IF ~dataPtr.interface THEN seb[sei].idValue _ MakeEPLink[ep:0, gfi:gfi]; gfi _ gfi + 1}; ENDCASE; seb[sei].mark4 _ TRUE}; dataPtr.mtRoot.gfi _ ownGfi; dataPtr.mtRoot.ngfi _ GFSlots[MAX[dataPtr.nBodies, dataPtr.nSigCodes]-1]; gfi _ bcdHeader.firstdummy _ ownGfi + BcdDefs.MaxNMi; ScanImports[ImportItem]; bcdHeader.nDummies _ gfi - bcdHeader.firstdummy; dataPtr.textIndex _ saveIndex}; <> ProcessSymLiterals: PUBLIC PROC = { offset, length: CARDINAL; bcdHeader.rfOffset _ CompilerUtil.ReadBCDOffset[]; bcdHeader.lfLimit _ LOOPHOLE[bcdHeader.rfOffset - bcdHeader.lfOffset]; IF ~dataPtr.interface THEN { rfi: BcdDefs.RefLitIndex _ [0]; AppendLitItem: PROC[SymLiteralOps.RefLitItem] = { CompilerUtil.AppendBCDWords[@rfi, BcdDefs.RefLitIndex.SIZE]; rfi _ [rfi + 1]}; [offset, length] _ SymLiteralOps.DescribeRefLits[]; IF length # 0 THEN { WITH m: dataPtr.mtRoot SELECT FROM multiple => m.refLiterals _ BcdDefs.RFIndex.FIRST; ENDCASE; CompilerUtil.AppendBCDWord[offset]; CompilerUtil.AppendBCDWord[length]; SymLiteralOps.EnumerateRefLits[AppendLitItem]} }; bcdHeader.tfOffset _ CompilerUtil.ReadBCDOffset[]; bcdHeader.rfLimit _ LOOPHOLE[bcdHeader.tfOffset - bcdHeader.rfOffset]; IF ~dataPtr.interface THEN { tfi: BcdDefs.TypeIndex _ [0]; AppendTypeIndex: PROC[canonical: BOOL, type: Type] = { CompilerUtil.AppendBCDWords[@tfi, BcdDefs.TypeIndex.SIZE]; tfi _ [tfi + 1]}; [offset, length] _ SymLiteralOps.DescribeTypes[]; IF length # 0 THEN { WITH m: dataPtr.mtRoot SELECT FROM multiple => m.types _ BcdDefs.TFIndex.FIRST; ENDCASE; CompilerUtil.AppendBCDWord[offset]; CompilerUtil.AppendBCDWord[length]; SymLiteralOps.EnumerateTypes[AppendTypeIndex]} }; bcdHeader.tfLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[] - bcdHeader.tfOffset]}; <> ProcessImports: PUBLIC Tree.Scan = { <> nImports: CARDINAL; impi: BcdDefs.IMPIndex; nextGfi: ModuleIndex; anyNamed: BOOL; ProcessSei: PROC[sei, tSei: ISEIndex, implicit: BOOL] = { type: CSEIndex = UnderType[seb[sei].idType]; entry: BcdDefs.IMPRecord _ [ name: EnterSymbolId[tSei], port: interface, namedInstance: seb[sei].hash # seb[tSei].hash, file: , gfi: nextGfi, ngfi: ]; WITH t: seb[type] SELECT FROM definition => { entry.file _ PortedCtx[t.defCtx]; entry.ngfi _ seb[sei].idInfo; nextGfi _ (seb[sei].idValue _ nextGfi) + seb[sei].idInfo}; ref => { rType: RecordSEIndex = LOOPHOLE[UnderType[t.refType]]; entry.port _ module; entry.file _ PortedCtx[seb[rType].fieldCtx]; entry.ngfi _ 1; nextGfi _ nextGfi + 1}; ENDCASE; nImports _ nImports + 1; IF entry.namedInstance THEN anyNamed _ TRUE; CompilerUtil.AppendBCDWords[@entry, BcdDefs.IMPRecord.SIZE]}; sei: ISEIndex; -- updated by ImportItem ImportItem: Tree.Scan = { node: Tree.Index = TreeOps.GetNode[t]; ProcessSei[sei, TreeOps.GetSe[tb[node].son[2]], FALSE]; sei _ NextSe[sei]}; NameItem: Tree.Scan = { node: Tree.Index = TreeOps.GetNode[t]; sei: ISEIndex = TreeOps.GetSe[tb[node].son[1]]; tSei: ISEIndex = TreeOps.GetSe[tb[node].son[2]]; entry: BcdDefs.NTRecord; IF seb[sei].hash # seb[tSei].hash THEN { entry _ [name: EnterSymbolId[sei], item: BcdDefs.Namee[import[impi]]]; CompilerUtil.AppendBCDWords[@entry, BcdDefs.NTRecord.SIZE]}; impi _ impi + BcdDefs.IMPRecord.SIZE}; offset: CARDINAL; bcdHeader.impOffset _ offset _ CompilerUtil.ReadBCDOffset[]; nImports _ 0; impi _ BcdDefs.IMPIndex.FIRST; nextGfi _ bcdHeader.firstdummy; anyNamed _ FALSE; sei _ FirstCtxSe[dataPtr.importCtx]; TreeOps.ScanList[t, ImportItem]; UNTIL sei = ISENull DO ProcessSei[sei, sei, TRUE]; sei _ NextSe[sei] ENDLOOP; bcdHeader.nImports _ nImports; bcdHeader.impLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-offset]; bcdHeader.ntOffset _ offset _ CompilerUtil.ReadBCDOffset[]; IF anyNamed THEN TreeOps.ScanList[t, NameItem]; -- matches importCtx prefix bcdHeader.ntLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-offset]}; <> EnterEVOffset: PROC[offset: CARDINAL] RETURNS[index: CARDINAL] = { IF offset = 0 THEN index _ 0 ELSE FOR index IN [1 .. evList.length] DO IF offset = evList.offsets[index] THEN EXIT; REPEAT FINISHED => { index _ evList.length _ evList.length + 1; IF index <= maxEVLength THEN evList.offsets[index] _ offset}; ENDLOOP; RETURN}; TypeMap: TYPE = RECORD[SEQUENCE length: CARDINAL OF RECORD[opaque: BcdDefs.TMRecord, concrete: BcdDefs.TYPRecord]]; typeMap: REF TypeMap; mapIndex: CARDINAL; typeIndex: BcdDefs.TYPIndex; EnterType: PROC[mdi: MDIndex, offset: CARDINAL, sei: ISEIndex] RETURNS[typeId: BcdDefs.TYPIndex] = { entry: BcdDefs.TYPRecord = MakeTypeId[sei]; IF typeMap = NIL OR mapIndex >= typeMap.length THEN AdjustTypeMap[8]; FOR i: CARDINAL IN [0..mapIndex) DO IF typeMap[i].concrete = entry THEN GO TO matched; REPEAT matched => typeId _ typeMap[i].opaque.map; FINISHED => {typeId _ typeIndex; typeIndex _ typeIndex + BcdDefs.TYPRecord.SIZE}; ENDLOOP; typeMap[mapIndex] _ [ opaque: [version: mdb[mdi].stamp, offset: offset, map: typeId], concrete: entry]; mapIndex _ mapIndex + 1; RETURN}; MakeTypeId: PROC[id: ISEIndex] RETURNS[BcdDefs.TYPRecord] = { sei: ISEIndex _ id; next: Type; mdi: MDIndex; DO next _ seb[sei].idInfo; WITH seb[next] SELECT FROM id => sei _ LOOPHOLE[next]; ENDCASE => EXIT; ENDLOOP; mdi _ MdiForCtx[seb[sei].idCtx]; RETURN[[id: [seb[sei].idValue], version: mdb[mdi].stamp]]}; AdjustTypeMap: PROC[delta: CARDINAL] = { oldN: CARDINAL = IF typeMap = NIL THEN 0 ELSE typeMap.length; newMap: REF TypeMap = NEW[TypeMap[oldN+delta]]; FOR i: CARDINAL IN [0 .. oldN) DO newMap[i] _ typeMap[i] ENDLOOP; typeMap _ newMap}; WriteTypeTable: PROC = { i, offset: CARDINAL; next: BcdDefs.TYPIndex _ BcdDefs.TYPIndex.FIRST; bcdHeader.typOffset _ offset _ CompilerUtil.ReadBCDOffset[]; FOR i IN [0 .. mapIndex) DO FOR j: CARDINAL IN [0..i) DO IF typeMap[i].opaque.map = typeMap[j].opaque.map THEN EXIT REPEAT FINISHED => { CompilerUtil.AppendBCDWords[@typeMap[i].concrete, BcdDefs.TYPRecord.SIZE]; next _ next + BcdDefs.TYPRecord.SIZE}; ENDLOOP; ENDLOOP; bcdHeader.typLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-offset]; bcdHeader.tmOffset _ offset _ CompilerUtil.ReadBCDOffset[]; FOR i IN [0 .. mapIndex) DO CompilerUtil.AppendBCDWords[@typeMap[i].opaque, BcdDefs.TMRecord.SIZE]; ENDLOOP; bcdHeader.tmLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-offset]}; ExportId: Tree.Map = { expType: CSEIndex = P4.OperandStruct[t]; ctx: IncludedCTXIndex; iBase: Types.SymbolTableBase; id, sei, iSei: ISEIndex; epN: CARDINAL; used: BOOL; id _ TreeOps.GetSe[t]; WITH v: seb[expType] SELECT FROM definition => { ctx _ LOOPHOLE[v.defCtx]; iBase _ Copier.GetSymbolTable[ctxb[ctx].module]; IF iBase # NIL THEN { BEGIN header: BcdDefs.EXPRecord _ [ name: EnterSymbolId[id], size: 0, port: interface, namedInstance: FALSE, typeExported: FALSE, file: PortedCtx[v.defCtx], links: ]; FOR iSei _ iBase.FirstCtxSe[ctxb[ctx].map], iBase.NextSe[iSei] UNTIL iSei = ISENull DO SELECT iBase.LinkMode[iSei] FROM val, ref => header.size _ header.size + 1; type => {header.typeExported _ TRUE; header.size _ header.size + 1}; ENDCASE; ENDLOOP; CompilerUtil.AppendBCDWords[@header, BcdDefs.EXPRecord.SIZE]; END; used _ FALSE; epN _ 0; FOR iSei _ iBase.FirstCtxSe[ctxb[ctx].map], iBase.NextSe[iSei] UNTIL iSei = ISENull DO mode: Linkage = iBase.LinkMode[iSei]; link: BcdLink _ BcdDefs.NullLink; BEGIN ss: ConvertUnsafe.SubString; name: Name; ss _ iBase.SubStringForName[iBase.seb[iSei].hash]; name _ FindString[ss]; IF name = nullName THEN sei _ ISENull ELSE { sei _ SearchContext[name, dataPtr.mainCtx]; IF sei = ISENull THEN sei _ SearchContext[name, dataPtr.moduleCtx]}; END; IF sei # ISENull THEN { public: BOOL = seb[sei].public; type: CSEIndex = UnderType[seb[sei].idType]; iTarget: Type = iBase.seb[iSei].idType; iType: CSEIndex = iBase.UnderType[iTarget]; SELECT mode FROM $val => { IF ~Types.Assignable[[iBase, iType], [dataPtr.ownSymbols, type]] THEN { IF public THEN Log.ErrorType[exportClash, [symbol[sei]], [iBase, iTarget]]; } ELSE IF ~public AND seb[sei].idCtx = dataPtr.mainCtx THEN Log.WarningSei[privateExport, sei]; IF public THEN { IF ~seb[sei].constant OR seb[sei].extended THEN Log.ErrorSei[varExport, sei]; link _ (IF XferMode[type] = $program THEN MakeFrameLink[ep: EnterEVOffset[0], gfi: ownGfi] ELSE seb[sei].idValue)}}; $ref => { iVType: CSEIndex _ iType; iConst: BOOL _ iBase.seb[iSei].immutable; WITH t: iBase.seb[iType] SELECT FROM ref => IF t.var THEN { iVType _ iBase.UnderType[t.refType]; iConst _ t.readOnly}; ENDCASE; IF ~Types.Equivalent[[iBase, iVType], [dataPtr.ownSymbols, type]] THEN { IF public THEN Log.ErrorType[exportClash, [symbol[sei]], [iBase, iTarget]] } ELSE IF ~public AND seb[sei].idCtx = dataPtr.mainCtx THEN Log.WarningSei[privateExport, sei]; IF public THEN { SELECT TRUE FROM seb[sei].constant => Log.ErrorSei[varExport, sei]; seb[sei].immutable AND ~iConst => Log.ErrorSei[updateClash, sei]; ENDCASE; link _ MakeFrameLink[ ep: EnterEVOffset[LOOPHOLE[seb[sei].idValue, BitAddress].wd], gfi: ownGfi]}}; $type => IF type # typeTYPE OR TypeForm[sei] = $opaque THEN { IF public THEN Log.ErrorSei[exportClash, sei]} ELSE { iValue: CSEIndex = iBase.UnderType[iSei]; IF (~public AND seb[sei].idCtx = dataPtr.mainCtx) THEN Log.WarningSei[privateExport, sei] ELSE WITH it: iBase.seb[iValue] SELECT FROM opaque => IF it.lengthKnown AND ~P4.DefaultBasicOps[sei, it.length] THEN Log.ErrorSei[exportAttr, sei]; ENDCASE => ERROR; IF public THEN { link _ MakeTypeLink[EnterType[ctxb[ctx].module, epN, sei]]; bcdHeader.typeExported _ TRUE}}; $manifest => IF public AND (type # typeTYPE OR iBase.seb[iSei].idType # typeTYPE) THEN Log.WarningSei[voidExport, sei]; ENDCASE}; IF link # BcdDefs.NullLink THEN used _ TRUE; IF mode # $manifest THEN {CompilerUtil.AppendBCDWord[link]; epN _ epN + 1}; ENDLOOP; Copier.FreeSymbolTable[iBase]; IF ~used THEN Log.WarningSei[unusedExport, id]}}; ENDCASE; RETURN[t]}; ExportItem: Tree.Scan = { node: Tree.Index = TreeOps.GetNode[t]; saveIndex: SourceMap.Loc = dataPtr.textIndex; dataPtr.textIndex _ tb[node].info; tb[node].son[2] _ ExportId[tb[node].son[2]]; dataPtr.textIndex _ saveIndex}; ProcessExports: PUBLIC Tree.Map = { offset: CARDINAL; bcdHeader.nExports _ TreeOps.ListLength[t]; bcdHeader.expOffset _ offset _ CompilerUtil.ReadBCDOffset[]; evList^ _ [length:0, offsets:]; typeIndex _ BcdDefs.TYPIndex.FIRST; mapIndex _ 0; typeMap _ NIL; TreeOps.ScanList[t, ExportItem]; bcdHeader.expLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-offset]; bcdHeader.evOffset _ offset _ CompilerUtil.ReadBCDOffset[]; IF evList.length > maxEVLength THEN Log.ErrorN[exportedVars, evList.length-maxEVLength]; IF evList.length = 0 THEN dataPtr.mtRoot.variables _ BcdDefs.EVNull ELSE { dataPtr.mtRoot.ngfi _ MAX[dataPtr.mtRoot.ngfi, evList.length/VarLimit+1]; dataPtr.mtRoot.variables _ BcdDefs.EVIndex.FIRST; CompilerUtil.AppendBCDWords[evList, BcdDefs.EVRecord.SIZE + MIN[evList.length, maxEVLength]]}; bcdHeader.evLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-offset]; WriteTypeTable[]; typeMap _ NIL; RETURN[t]}; <> ProcessFiles: PROC = { ftEntry: BcdDefs.FTRecord; mdi: MDIndex; limit: MDIndex = (dataPtr.table).Top[mdType]; EnterCanonicalFile: PROC[canonical: BOOL, type: Type] = { IF ~canonical THEN { mdi: MDIndex; [mdi, ] _ SymLiteralOps.UTypeId[type]; IF mdi # MDNull THEN [] _ PortedFile[mdi]} }; offset: CARDINAL = CompilerUtil.ReadBCDOffset[]; FOR mdi _ lastPorted, mdi + MDRecord.SIZE UNTIL mdi = limit DO IF mdb[mdi].file # nullFileIndex THEN [] _ PortedFile[mdi]; -- add any files opened during compilation ENDLOOP; bcdHeader.ftOffset _ offset; SymLiteralOps.EnumerateTypes[EnterCanonicalFile]; FOR mdi _ firstPorted, mdi + MDRecord.SIZE UNTIL mdi = lastPorted DO ftEntry _ [name: EnterFileId[mdi], version: mdb[mdi].stamp]; CompilerUtil.AppendBCDWords[@ftEntry, BcdDefs.FTRecord.SIZE]; ENDLOOP; bcdHeader.ftLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[] - offset]}; InitBCD: PUBLIC PROC[ids: Tree.Link] = { OPEN BcdDefs; nIds: CARDINAL; nIds _ TreeOps.ListLength[ids]; IF nIds > 1 AND ~dataPtr.interface THEN {Log.ErrorN[listLong, nIds-1]; nIds _ 1}; lastPorted _ firstPorted; nStringREFTEXT _ NEW[TEXT[512]]; nString _ LOOPHOLE[nStringREFTEXT, BcdDefs.NameString]; <> nString.string.length _ BcdDefs.NullName; nString.size[BcdDefs.NullName] _ 0; mdb[OwnMdi].stamp _ dataPtr.objectVersion; -- update from DIRECTORY processing CompilerUtil.StartBCD[]; bcdHeader.versionIdent _ VersionID; bcdHeader.version _ dataPtr.objectVersion; bcdHeader.creator _ dataPtr.compilerVersion; bcdHeader.sourceVersion _ dataPtr.source.version; bcdHeader.nConfigs _ 0; bcdHeader.nModules _ nIds; bcdHeader.nImports _ bcdHeader.nExports _ 0; bcdHeader.definitions _ dataPtr.interface; bcdHeader.typeExported _ FALSE; bcdHeader.repackaged _ bcdHeader.tableCompiled _ FALSE; bcdHeader.versions _ FALSE; bcdHeader.extended _ TRUE; bcdHeader.spare1 _ TRUE; -- large eval stack bcdHeader.spare2 _ FALSE; bcdHeader.ctOffset _ 0; bcdHeader.ctLimit _ LOOPHOLE[0]; bcdHeader.spOffset _ 0; bcdHeader.spLimit _ LOOPHOLE[0]; bcdHeader.fpOffset _ 0; bcdHeader.fpLimit _ LOOPHOLE[0]; nString.string.length _ nString.string.length + 1; bcdHeader.source _ NameRecord[nString.string.length]; nString.size[bcdHeader.source] _ dataPtr.source.locator.Length[]; ConvertUnsafe.AppendRope[to: @nString.string, from: dataPtr.source.locator]; bcdOffset _ CompilerUtil.ReadBCDOffset[]; CompilerUtil.AppendBCDWords[bcdHeader, BcdDefs.BCD.SIZE]; dataPtr.fixupLoc _ CompilerUtil.ReadBCDIndex[]; bcdHeader.sgOffset _ CompilerUtil.ReadBCDOffset[]; CompilerUtil.AppendBCDWords[@dataPtr.codeSeg, SGRecord.SIZE]; CompilerUtil.AppendBCDWords[@dataPtr.symSeg, SGRecord.SIZE]; bcdHeader.mtOffset _ mtOffset _ CompilerUtil.ReadBCDOffset[]; bcdHeader.sgLimit _ LOOPHOLE[mtOffset - bcdHeader.sgOffset]; IF dataPtr.interface THEN { dataPtr.mtRootSize _ BcdDefs.MTRecord.indirect.SIZE; dataPtr.mtRoot _ indirectMTRecord; dataPtr.mtRoot.extension _ indirect[links: BcdDefs.LFNull]} ELSE { dataPtr.mtRootSize _ BcdDefs.MTRecord.multiple.SIZE; dataPtr.mtRoot _ multipleMTRecord; dataPtr.mtRoot.extension _ multiple[ links: BcdDefs.LFIndex.FIRST, refLiterals: BcdDefs.RFNull, types: BcdDefs.TFNull]}; FOR i: CARDINAL IN [0..nIds) DO CompilerUtil.AppendBCDWords[dataPtr.mtRoot, dataPtr.mtRootSize] ENDLOOP; bcdHeader.lfOffset _ CompilerUtil.ReadBCDOffset[]; bcdHeader.mtLimit _ LOOPHOLE[bcdHeader.lfOffset-bcdHeader.mtOffset]}; FinishBCD: PUBLIC PROC[ids: Tree.Link] = { OPEN BcdDefs; pageSize: CARDINAL = BcdDefs.PageSize; Alignment: CARDINAL = 4; -- Code Segments must start at 0 MOD Alignment nLinks: CARDINAL = dataPtr.linkCount; codeLinks: BOOL = dataPtr.switches['l]; gfType: RecordSEIndex = bb[RootBti].type; <> IF TreeOps.ListLength[ids] > 1 THEN { -- complete nString now EnterId: Tree.Scan = {[] _ EnterSymbolId[TreeOps.GetSe[t]]}; TreeOps.ScanList[ids, EnterId]}; dataPtr.mtRoot.name _ EnterSymbolId[bb[RootBti].id]; dataPtr.mtRoot.namedInstance _ FALSE; dataPtr.mtRoot.initial _ ~dataPtr.switches['s]; dataPtr.mtRoot.file _ dataPtr.bcdSeg.file _ dataPtr.codeSeg.file _ dataPtr.symSeg.file _ PortedCtx[dataPtr.mainCtx]; dataPtr.bcdSeg.base _ 0; dataPtr.mtRoot.linkLoc _ IF codeLinks THEN code ELSE frame; dataPtr.mtRoot.config _ CTNull; dataPtr.mtRoot.code _ CodeDesc[ sgi: SGIndex.FIRST, packed: FALSE, linkspace: codeLinks, offset: (IF codeLinks AND nLinks # 0 THEN (nLinks+1) + (Alignment-1 - (nLinks MOD Alignment)) ELSE 0), length: 0]; -- will be updated dataPtr.mtRoot.sseg _ SGIndex.FIRST + SGRecord.SIZE; dataPtr.mtRoot.frameRefs _ seb[gfType].hints.refField; dataPtr.mtRoot.frameType _ IF seb[gfType].hints.refField THEN SymLiteralOps.TypeIndex[gfType] ELSE 0; dataPtr.mtRoot.framesize _ 0; -- will be updated dataPtr.mtRoot.altoCode _ FALSE; dataPtr.mtRoot.tableCompiled _ FALSE; dataPtr.mtRoot.residentFrame _ passPtr.resident; dataPtr.mtRoot.boundsChecks _ dataPtr.switches['b]; dataPtr.mtRoot.nilChecks _ dataPtr.switches['n]; dataPtr.mtRoot.long _ dataPtr.switches['c]; -- compiled for Cedar dataPtr.mtRoot.crossJumped _ dataPtr.switches['j]; dataPtr.mtRoot.packageable _ TRUE; ProcessFiles[]; bcdHeader.ssOffset _ CompilerUtil.ReadBCDOffset[]; CompilerUtil.AppendBCDString[@nString.string]; bcdHeader.ssLimit _ LOOPHOLE[CompilerUtil.ReadBCDOffset[]-bcdHeader.ssOffset]; IF dataPtr.interface THEN bcdHeader.rtPages.relPageBase _ 0 ELSE { CompilerUtil.FillBCDPage[]; bcdHeader.rtPages.relPageBase _ CompilerUtil.ReadBCDOffset[]/pageSize; CompilerUtil.RTTableOut[dataPtr.table]}; bcdHeader.nPages _ (CompilerUtil.ReadBCDOffset[] + (pageSize-1))/pageSize; bcdHeader.rtPages.pages _ bcdHeader.nPages - bcdHeader.rtPages.relPageBase; CompilerUtil.UpdateBCDWords[bcdOffset, bcdHeader, BcdDefs.BCD.SIZE]; dataPtr.bcdSeg.base _ 0; dataPtr.bcdSeg.pages _ bcdHeader.nPages; IF dataPtr.interface AND TreeOps.ListLength[ids] > 1 THEN { offset: CARDINAL _ mtOffset; saveName: BcdDefs.NameRecord = dataPtr.mtRoot.name; UpdateMDEntry: Tree.Scan = { dataPtr.mtRoot.name _ EnterSymbolId[TreeOps.GetSe[t]]; CompilerUtil.UpdateBCDWords[offset, dataPtr.mtRoot, dataPtr.mtRootSize]; offset _ offset + dataPtr.mtRootSize}; offset _ mtOffset; TreeOps.ScanList[ids, UpdateMDEntry]; dataPtr.mtRoot.name _ saveName}; CompilerUtil.EndBCD[]; nStringREFTEXT _ NIL; nString _ NIL}; MatchBCD: PUBLIC PROC RETURNS[matched: BOOL _ FALSE] = { oldSymbols: SymbolTable.Base _ Copier.MapSymbols[dataPtr.pattern]; IF oldSymbols = NIL THEN Log.WarningRope[fileName, dataPtr.pattern.locator] ELSE { matched _ ReplOps.MatchedBodies[ [oldSymbols, RootBti], [dataPtr.ownSymbols, RootBti] ! ReplOps.Unmatched => { d: ConvertUnsafe.SubString; d _ id.stb.SubStringForName[id.stb.NameForSe[id.sei]]; SELECT attr FROM strings => Log.WarningSubString[replString, d]; id => Log.WarningSubString[replId, d]; ENDCASE; RESUME}]; Copier.UnmapSymbols[oldSymbols]}}; <<>> <> { WordSeq: TYPE = RECORD[SEQUENCE COMPUTED CARDINAL OF WORD]; systemUZone: UNCOUNTED ZONE = UnsafeStorage.GetSystemUZone[]; evList _ LOOPHOLE[ systemUZone.NEW[WordSeq[BcdDefs.EVRecord.SIZE+maxEVLength]], BcdDefs.EVHandle]; bcdHeader _ systemUZone.NEW[BcdDefs.BCD]; indirectMTRecord _ systemUZone.NEW[BcdDefs.MTRecord.indirect]; multipleMTRecord _ systemUZone.NEW[BcdDefs.MTRecord.multiple]; }; }.