/*****************************************************************************/ /* */ /* exports.c */ /* */ /* Exports handling for the ld65 linker */ /* */ /* */ /* */ /* (C) 1998-2013, Ullrich von Bassewitz */ /* Roemerstrasse 52 */ /* D-70794 Filderstadt */ /* EMail: uz@cc65.org */ /* */ /* */ /* This software is provided 'as-is', without any expressed or implied */ /* warranty. In no event will the authors be held liable for any damages */ /* arising from the use of this software. */ /* */ /* Permission is granted to anyone to use this software for any purpose, */ /* including commercial applications, and to alter it and redistribute it */ /* freely, subject to the following restrictions: */ /* */ /* 1. The origin of this software must not be misrepresented; you must not */ /* claim that you wrote the original software. If you use this software */ /* in a product, an acknowledgment in the product documentation would be */ /* appreciated but is not required. */ /* 2. Altered source versions must be plainly marked as such, and must not */ /* be misrepresented as being the original software. */ /* 3. This notice may not be removed or altered from any source */ /* distribution. */ /* */ /*****************************************************************************/ #include #include #include /* common */ #include "addrsize.h" #include "check.h" #include "hashfunc.h" #include "lidefs.h" #include "symdefs.h" #include "xmalloc.h" /* ld65 */ #include "condes.h" #include "error.h" #include "exports.h" #include "expr.h" #include "fileio.h" #include "global.h" #include "lineinfo.h" #include "memarea.h" #include "objdata.h" #include "spool.h" /*****************************************************************************/ /* Data */ /*****************************************************************************/ /* Hash table */ #define HASHTAB_MASK 0x0FFFU #define HASHTAB_SIZE (HASHTAB_MASK + 1) static Export* HashTab[HASHTAB_SIZE]; /* Import management variables */ static unsigned ImpCount = 0; /* Import count */ static unsigned ImpOpen = 0; /* Count of open imports */ /* Export management variables */ static unsigned ExpCount = 0; /* Export count */ static Export** ExpPool = 0; /* Exports array */ /* Defines for the flags in Import */ #define IMP_INLIST 0x0001U /* Import is in exports list */ /* Defines for the flags in Export */ #define EXP_INLIST 0x0001U /* Export is in exports list */ #define EXP_USERMARK 0x0002U /* User setable flag */ /*****************************************************************************/ /* Import handling */ /*****************************************************************************/ static Export* NewExport (unsigned Type, unsigned char AddrSize, unsigned Name, ObjData* Obj); /* Create a new export and initialize it */ static Import* NewImport (unsigned char AddrSize, ObjData* Obj) /* Create a new import and initialize it */ { /* Allocate memory */ Import* I = xmalloc (sizeof (Import)); /* Initialize the fields */ I->Next = 0; I->Obj = Obj; I->DefLines = EmptyCollection; I->RefLines = EmptyCollection; I->Exp = 0; I->Name = INVALID_STRING_ID; I->Flags = 0; I->AddrSize = AddrSize; /* Return the new structure */ return I; } void FreeImport (Import* I) /* Free an import. NOTE: This won't remove the import from the exports table, ** so it may only be called for unused imports (imports from modules that ** aren't referenced). */ { /* Safety */ PRECONDITION ((I->Flags & IMP_INLIST) == 0); /* Free the line info collections */ DoneCollection (&I->DefLines); DoneCollection (&I->RefLines); /* Free the struct */ xfree (I); } Import* ReadImport (FILE* F, ObjData* Obj) /* Read an import from a file and return it */ { Import* I; /* Read the import address size */ unsigned char AddrSize = Read8 (F); /* Create a new import */ I = NewImport (AddrSize, Obj); /* Read the name */ I->Name = MakeGlobalStringId (Obj, ReadVar (F)); /* Read the line infos */ ReadLineInfoList (F, Obj, &I->DefLines); ReadLineInfoList (F, Obj, &I->RefLines); /* Check the address size */ if (I->AddrSize == ADDR_SIZE_DEFAULT || I->AddrSize > ADDR_SIZE_LONG) { /* Beware: This function may be called in cases where the object file ** is not read completely into memory. In this case, the file list is ** invalid. Be sure not to access it in this case. */ if (ObjHasFiles (I->Obj)) { const LineInfo* LI = GetImportPos (I); Error ("Invalid import size in for '%s', imported from %s:%u: 0x%02X", GetString (I->Name), GetSourceName (LI), GetSourceLine (LI), I->AddrSize); } else { Error ("Invalid import size in for '%s', imported from %s: 0x%02X", GetString (I->Name), GetObjFileName (I->Obj), I->AddrSize); } } /* Return the new import */ return I; } Import* GenImport (unsigned Name, unsigned char AddrSize) /* Generate a new import with the given name and address size and return it */ { /* Create a new import */ Import* I = NewImport (AddrSize, 0); /* Read the name */ I->Name = Name; /* Check the address size */ if (I->AddrSize == ADDR_SIZE_DEFAULT || I->AddrSize > ADDR_SIZE_LONG) { /* We have no object file information and no line info for a new ** import */ Error ("Invalid import size 0x%02X for symbol '%s'", I->AddrSize, GetString (I->Name)); } /* Return the new import */ return I; } Import* InsertImport (Import* I) /* Insert an import into the table, return I */ { Export* E; /* As long as the import is not inserted, V.Name is valid */ unsigned Name = I->Name; /* Create a hash value for the given name */ unsigned Hash = (Name & HASHTAB_MASK); /* Search through the list in that slot for a symbol with that name */ if (HashTab[Hash] == 0) { /* The slot is empty, we need to insert a dummy export */ E = HashTab[Hash] = NewExport (0, ADDR_SIZE_DEFAULT, Name, 0); ++ExpCount; } else { E = HashTab [Hash]; while (1) { if (E->Name == Name) { /* We have an entry, L points to it */ break; } if (E->Next == 0) { /* End of list an entry not found, insert a dummy */ E->Next = NewExport (0, ADDR_SIZE_DEFAULT, Name, 0); E = E->Next; /* Point to dummy */ ++ExpCount; /* One export more */ break; } else { E = E->Next; } } } /* Ok, E now points to a valid exports entry for the given import. Insert ** the import into the imports list and update the counters. */ I->Exp = E; I->Next = E->ImpList; E->ImpList = I; E->ImpCount++; ++ImpCount; /* Total import count */ if (E->Expr == 0) { /* This is a dummy export */ ++ImpOpen; } /* Mark the import so we know it's in the list */ I->Flags |= IMP_INLIST; /* Return the import to allow shorter code */ return I; } const LineInfo* GetImportPos (const Import* Imp) /* Return the basic line info of an import */ { /* Search in DefLines, then in RefLines */ const LineInfo* LI = GetAsmLineInfo (&Imp->DefLines); if (LI == 0) { LI = GetAsmLineInfo (&Imp->RefLines); } return LI; } /*****************************************************************************/ /* Code */ /*****************************************************************************/ static Export* NewExport (unsigned Type, unsigned char AddrSize, unsigned Name, ObjData* Obj) /* Create a new export and initialize it */ { unsigned I; /* Allocate memory */ Export* E = xmalloc (sizeof (Export)); /* Initialize the fields */ E->Name = Name; E->Next = 0; E->Flags = 0; E->Obj = Obj; E->ImpCount = 0; E->ImpList = 0; E->Expr = 0; E->Size = 0; E->DefLines = EmptyCollection; E->RefLines = EmptyCollection; E->DbgSymId = ~0U; E->Type = Type | SYM_EXPORT; E->AddrSize = AddrSize; for (I = 0; I < sizeof (E->ConDes) / sizeof (E->ConDes[0]); ++I) { E->ConDes[I] = CD_PRIO_NONE; } /* Return the new entry */ return E; } void FreeExport (Export* E) /* Free an export. NOTE: This won't remove the export from the exports table, ** so it may only be called for unused exports (exports from modules that ** aren't referenced). */ { /* Safety */ PRECONDITION ((E->Flags & EXP_INLIST) == 0); /* Free the line infos */ DoneCollection (&E->DefLines); DoneCollection (&E->RefLines); /* Free the export expression */ FreeExpr (E->Expr); /* Free the struct */ xfree (E); } Export* ReadExport (FILE* F, ObjData* O) /* Read an export from a file */ { unsigned ConDesCount; unsigned I; Export* E; /* Read the type */ unsigned Type = ReadVar (F); /* Read the address size */ unsigned char AddrSize = Read8 (F); /* Create a new export without a name */ E = NewExport (Type, AddrSize, INVALID_STRING_ID, O); /* Read the constructor/destructor decls if we have any */ ConDesCount = SYM_GET_CONDES_COUNT (Type); if (ConDesCount > 0) { unsigned char ConDes[CD_TYPE_COUNT]; /* Read the data into temp storage */ ReadData (F, ConDes, ConDesCount); /* Re-order the data. In the file, each decl is encoded into a byte ** which contains the type and the priority. In memory, we will use ** an array of types which contain the priority. */ for (I = 0; I < ConDesCount; ++I) { E->ConDes[CD_GET_TYPE (ConDes[I])] = CD_GET_PRIO (ConDes[I]); } } /* Read the name */ E->Name = MakeGlobalStringId (O, ReadVar (F)); /* Read the value */ if (SYM_IS_EXPR (Type)) { E->Expr = ReadExpr (F, O); } else { E->Expr = LiteralExpr (Read32 (F), O); } /* Read the size */ if (SYM_HAS_SIZE (Type)) { E->Size = ReadVar (F); } /* Last are the locations */ ReadLineInfoList (F, O, &E->DefLines); ReadLineInfoList (F, O, &E->RefLines); /* If this symbol is exported as a condes, and the condes type declares a ** forced import, add this import to the object module. */ for (I = 0; I < CD_TYPE_COUNT; ++I) { const ConDesImport* CDI; if (E->ConDes[I] != CD_PRIO_NONE && (CDI = ConDesGetImport (I)) != 0) { unsigned J; /* Generate a new import, and add it to the module's import list. */ Import* Imp = GenImport (CDI->Name, CDI->AddrSize); Imp->Obj = O; CollAppend (&O->Imports, Imp); /* Add line info for the export that is actually the condes that ** forces the import. Then, add line info for the config. file. ** The export's info is added first because the import pretends ** that it came from the object module instead of the config. file. */ for (J = 0; J < CollCount (&E->DefLines); ++J) { CollAppend (&Imp->RefLines, DupLineInfo (CollAt (&E->DefLines, J))); } CollAppend (&Imp->RefLines, GenLineInfo (&CDI->Pos)); } } /* Return the new export */ return E; } void InsertExport (Export* E) /* Insert an exported identifier and check if it's already in the list */ { Export* L; Export* Last; Import* Imp; unsigned Hash; /* Mark the export as inserted */ E->Flags |= EXP_INLIST; /* Insert the export into any condes tables if needed */ if (SYM_IS_CONDES (E->Type)) { ConDesAddExport (E); } /* Create a hash value for the given name */ Hash = (E->Name & HASHTAB_MASK); /* Search through the list in that slot */ if (HashTab[Hash] == 0) { /* The slot is empty */ HashTab[Hash] = E; ++ExpCount; } else { Last = 0; L = HashTab[Hash]; do { if (L->Name == E->Name) { /* This may be an unresolved external */ if (L->Expr == 0) { /* This *is* an unresolved external. Use the actual export ** in E instead of the dummy one in L. */ E->Next = L->Next; E->ImpCount = L->ImpCount; E->ImpList = L->ImpList; if (Last) { Last->Next = E; } else { HashTab[Hash] = E; } ImpOpen -= E->ImpCount; /* Decrease open imports now */ xfree (L); /* We must run through the import list and change the ** export pointer now. */ Imp = E->ImpList; while (Imp) { Imp->Exp = E; Imp = Imp->Next; } } else if (AllowMultDef == 0) { /* Duplicate entry, this is fatal unless allowed by the user */ Error ("Duplicate external identifier: '%s'", GetString (L->Name)); } return; } Last = L; L = L->Next; } while (L); /* Insert export at end of queue */ Last->Next = E; ++ExpCount; } } const LineInfo* GetExportPos (const Export* E) /* Return the basic line info of an export */ { /* Search in DefLines, then in RefLines */ const LineInfo* LI = GetAsmLineInfo (&E->DefLines); if (LI == 0) { LI = GetAsmLineInfo (&E->RefLines); } return LI; } Export* CreateConstExport (unsigned Name, long Value) /* Create an export for a literal date */ { /* Create a new export */ Export* E = NewExport (SYM_CONST|SYM_EQUATE, ADDR_SIZE_ABS, Name, 0); /* Assign the value */ E->Expr = LiteralExpr (Value, 0); /* Insert the export */ InsertExport (E); /* Return the new export */ return E; } Export* CreateExprExport (unsigned Name, ExprNode* Expr, unsigned char AddrSize) /* Create an export for an expression */ { /* Create a new export */ Export* E = NewExport (SYM_EXPR|SYM_EQUATE, AddrSize, Name, 0); /* Assign the value expression */ E->Expr = Expr; /* Insert the export */ InsertExport (E); /* Return the new export */ return E; } Export* CreateMemoryExport (unsigned Name, MemoryArea* Mem, unsigned long Offs) /* Create an relative export for a memory area offset */ { /* Create a new export */ Export* E = NewExport (SYM_EXPR | SYM_LABEL, ADDR_SIZE_ABS, Name, 0); /* Assign the value */ E->Expr = MemoryExpr (Mem, Offs, 0); /* Insert the export */ InsertExport (E); /* Return the new export */ return E; } Export* CreateSegmentExport (unsigned Name, Segment* Seg, unsigned long Offs) /* Create a relative export to a segment */ { /* Create a new export */ Export* E = NewExport (SYM_EXPR | SYM_LABEL, Seg->AddrSize, Name, 0); /* Assign the value */ E->Expr = SegmentExpr (Seg, Offs, 0); /* Insert the export */ InsertExport (E); /* Return the new export */ return E; } Export* CreateSectionExport (unsigned Name, Section* Sec, unsigned long Offs) /* Create a relative export to a section */ { /* Create a new export */ Export* E = NewExport (SYM_EXPR | SYM_LABEL, Sec->AddrSize, Name, 0); /* Assign the value */ E->Expr = SectionExpr (Sec, Offs, 0); /* Insert the export */ InsertExport (E); /* Return the new export */ return E; } Export* FindExport (unsigned Name) /* Check for an identifier in the list. Return 0 if not found, otherwise ** return a pointer to the export. */ { /* Get a pointer to the list with the symbols hash value */ Export* L = HashTab[Name & HASHTAB_MASK]; while (L) { /* Search through the list in that slot */ if (L->Name == Name) { /* Entry found */ return L; } L = L->Next; } /* Not found */ return 0; } int IsUnresolved (unsigned Name) /* Check if this symbol is an unresolved export */ { /* Find the export */ return IsUnresolvedExport (FindExport (Name)); } int IsUnresolvedExport (const Export* E) /* Return true if the given export is unresolved */ { /* Check if it's unresolved */ return E != 0 && E->Expr == 0; } int IsConstExport (const Export* E) /* Return true if the expression associated with this export is const */ { if (E->Expr == 0) { /* External symbols cannot be const */ return 0; } else { return IsConstExpr (E->Expr); } } long GetExportVal (const Export* E) /* Get the value of this export */ { if (E->Expr == 0) { /* OOPS */ Internal ("'%s' is an undefined external", GetString (E->Name)); } return GetExprVal (E->Expr); } static void CheckSymType (const Export* E) /* Check the types for one export */ { /* External with matching imports */ Import* I = E->ImpList; while (I) { if (E->AddrSize != I->AddrSize) { /* Export and import address sizes do not match */ StrBuf ExportLoc = STATIC_STRBUF_INITIALIZER; StrBuf ImportLoc = STATIC_STRBUF_INITIALIZER; const char* ExpAddrSize = AddrSizeToStr ((unsigned char) E->AddrSize); const char* ImpAddrSize = AddrSizeToStr ((unsigned char) I->AddrSize); const LineInfo* ExportLI = GetExportPos (E); const LineInfo* ImportLI = GetImportPos (I); /* Generate strings that describe the location of the im- and ** exports. This depends on the place from where they come: ** Object file or linker config. */ if (E->Obj) { /* The export comes from an object file */ SB_Printf (&ExportLoc, "%s, %s:%u", GetString (E->Obj->Name), GetSourceName (ExportLI), GetSourceLine (ExportLI)); } else if (ExportLI) { SB_Printf (&ExportLoc, "%s:%u", GetSourceName (ExportLI), GetSourceLine (ExportLI)); } else { /* The export is linker generated and we don't have line ** information (likely from command line define) */ SB_Printf (&ExportLoc, "%s", GetObjFileName (E->Obj)); } if (I->Obj) { /* The import comes from an object file */ SB_Printf (&ImportLoc, "%s, %s:%u", GetString (I->Obj->Name), GetSourceName (ImportLI), GetSourceLine (ImportLI)); } else if (ImportLI) { /* The import is linker generated and we have line ** information */ SB_Printf (&ImportLoc, "%s:%u", GetSourceName (ImportLI), GetSourceLine (ImportLI)); } else { /* The import is linker generated and we don't have line ** information */ SB_Printf (&ImportLoc, "%s", GetObjFileName (I->Obj)); } /* Output the diagnostic */ Warning ("Address size mismatch for '%s': " "Exported from %s as '%s', " "import in %s as '%s'", GetString (E->Name), SB_GetConstBuf (&ExportLoc), ExpAddrSize, SB_GetConstBuf (&ImportLoc), ImpAddrSize); /* Free the temporary strings */ SB_Done (&ExportLoc); SB_Done (&ImportLoc); } I = I->Next; } } static void CheckSymTypes (void) /* Check for symbol tape mismatches */ { unsigned I; /* Print all open imports */ for (I = 0; I < ExpCount; ++I) { const Export* E = ExpPool [I]; if (E->Expr != 0 && E->ImpCount > 0) { /* External with matching imports */ CheckSymType (E); } } } static void PrintUnresolved (ExpCheckFunc F, void* Data) /* Print a list of unresolved symbols. On unresolved symbols, F is ** called (see the comments on ExpCheckFunc in the data section). */ { unsigned I; /* Print all open imports */ for (I = 0; I < ExpCount; ++I) { Export* E = ExpPool [I]; if (E->Expr == 0 && E->ImpCount > 0 && F (E->Name, Data) == 0) { /* Unresolved external */ Import* Imp = E->ImpList; const char* name = GetString (E->Name); while (Imp) { unsigned J, count = CollCount (&Imp->RefLines); /* The count is 0 when the import was not added by an input file, but by the compiler itself. */ if (count == 0) { fprintf (stderr, "Error: Unresolved external '%s'\n", name); } else { for (J = 0; J < count; ++J) { const LineInfo* LI = CollConstAt (&Imp->RefLines, J); fprintf (stderr, "%s:%u: Error: Unresolved external '%s'\n", GetSourceName (LI), GetSourceLine (LI), name); } } Imp = Imp->Next; } } } } static int CmpExpName (const void* K1, const void* K2) /* Compare function for qsort */ { return SB_Compare (GetStrBuf ((*(Export**)K1)->Name), GetStrBuf ((*(Export**)K2)->Name)); } static void CreateExportPool (void) /* Create an array with pointer to all exports */ { unsigned I, J; /* Allocate memory */ if (ExpPool) { xfree (ExpPool); } ExpPool = xmalloc (ExpCount * sizeof (Export*)); /* Walk through the list and insert the exports */ for (I = 0, J = 0; I < sizeof (HashTab) / sizeof (HashTab [0]); ++I) { Export* E = HashTab[I]; while (E) { CHECK (J < ExpCount); ExpPool[J++] = E; E = E->Next; } } /* Sort them by name */ qsort (ExpPool, ExpCount, sizeof (Export*), CmpExpName); } void CheckExports (void) /* Setup the list of all exports and check for export/import symbol type ** mismatches. */ { /* Create an export pool */ CreateExportPool (); /* Check for symbol type mismatches */ CheckSymTypes (); } void CheckUnresolvedImports (ExpCheckFunc F, void* Data) /* Check if there are any unresolved imports. On unresolved imports, F is ** called (see the comments on ExpCheckFunc in the data section). */ { /* Check for unresolved externals */ if (ImpOpen != 0) { /* Print all open imports */ PrintUnresolved (F, Data); } } static char GetAddrSizeCode (unsigned char AddrSize) /* Get a one char code for the address size */ { switch (AddrSize) { case ADDR_SIZE_ZP: return 'Z'; case ADDR_SIZE_ABS: return 'A'; case ADDR_SIZE_FAR: return 'F'; case ADDR_SIZE_LONG: return 'L'; default: Internal ("Invalid address size: %u", AddrSize); /* NOTREACHED */ return '-'; } } void PrintExportMapByName (FILE* F) /* Print an export map, sorted by symbol name, to the given file */ { unsigned I; unsigned Count; /* Print all exports */ Count = 0; for (I = 0; I < ExpCount; ++I) { const Export* E = ExpPool [I]; /* Print unreferenced symbols only if explictly requested */ if (VerboseMap || E->ImpCount > 0 || SYM_IS_CONDES (E->Type)) { fprintf (F, "%-25s %06lX %c%c%c%c ", GetString (E->Name), GetExportVal (E), E->ImpCount? 'R' : ' ', SYM_IS_LABEL (E->Type)? 'L' : 'E', GetAddrSizeCode ((unsigned char) E->AddrSize), SYM_IS_CONDES (E->Type)? 'I' : ' '); if (++Count == 2) { Count = 0; fprintf (F, "\n"); } } } fprintf (F, "\n"); } static int CmpExpValue (const void* I1, const void* I2) /* Compare function for qsort */ { long V1 = GetExportVal (ExpPool [*(unsigned *)I1]); long V2 = GetExportVal (ExpPool [*(unsigned *)I2]); return V1 < V2 ? -1 : V1 == V2 ? 0 : 1; } void PrintExportMapByValue (FILE* F) /* Print an export map, sorted by symbol value, to the given file */ { unsigned I; unsigned Count; unsigned *ExpValXlat; /* Create a translation table where the symbols are sorted by value. */ ExpValXlat = xmalloc (ExpCount * sizeof (unsigned)); for (I = 0; I < ExpCount; ++I) { /* Initialize table with current sort order. */ ExpValXlat [I] = I; } /* Sort them by value */ qsort (ExpValXlat, ExpCount, sizeof (unsigned), CmpExpValue); /* Print all exports */ Count = 0; for (I = 0; I < ExpCount; ++I) { const Export* E = ExpPool [ExpValXlat [I]]; /* Print unreferenced symbols only if explictly requested */ if (VerboseMap || E->ImpCount > 0 || SYM_IS_CONDES (E->Type)) { fprintf (F, "%-25s %06lX %c%c%c%c ", GetString (E->Name), GetExportVal (E), E->ImpCount? 'R' : ' ', SYM_IS_LABEL (E->Type)? 'L' : 'E', GetAddrSizeCode ((unsigned char) E->AddrSize), SYM_IS_CONDES (E->Type)? 'I' : ' '); if (++Count == 2) { Count = 0; fprintf (F, "\n"); } } } fprintf (F, "\n"); xfree (ExpValXlat); } void PrintImportMap (FILE* F) /* Print an import map to the given file */ { unsigned I; const Import* Imp; /* Loop over all exports */ for (I = 0; I < ExpCount; ++I) { /* Get the export */ const Export* Exp = ExpPool [I]; /* Print the symbol only if there are imports, or if a verbose map ** file is requested. */ if (VerboseMap || Exp->ImpCount > 0) { /* Print the export */ fprintf (F, "%s (%s):\n", GetString (Exp->Name), GetObjFileName (Exp->Obj)); /* Print all imports for this symbol */ Imp = Exp->ImpList; while (Imp) { /* Print the import. Beware: The import might be linker ** generated, in which case there is no object file and ** sometimes no line information. */ const LineInfo* LI = GetImportPos (Imp); if (LI) { fprintf (F, " %-25s %s:%u\n", GetObjFileName (Imp->Obj), GetSourceName (LI), GetSourceLine (LI)); } else { fprintf (F, " %-25s\n", GetObjFileName (Imp->Obj)); } /* Next import */ Imp = Imp->Next; } } } fprintf (F, "\n"); } void PrintExportLabels (FILE* F) /* Print the exports in a VICE label file */ { unsigned I; /* Print all exports */ for (I = 0; I < ExpCount; ++I) { const Export* E = ExpPool [I]; fprintf (F, "al %06lX .%s\n", GetExportVal (E), GetString (E->Name)); } } void MarkExport (Export* E) /* Mark the export */ { E->Flags |= EXP_USERMARK; } void UnmarkExport (Export* E) /* Remove the mark from the export */ { E->Flags &= ~EXP_USERMARK; } int ExportHasMark (Export* E) /* Return true if the export has a mark */ { return (E->Flags & EXP_USERMARK) != 0; } void CircularRefError (const Export* E) /* Print an error about a circular reference using to define the given export */ { const LineInfo* LI = GetExportPos (E); Error ("Circular reference for symbol '%s', %s:%u", GetString (E->Name), GetSourceName (LI), GetSourceLine (LI)); }