/* */
/* */
/* */
-/* (C) 2000 Ullrich von Bassewitz */
-/* Wacholderweg 14 */
-/* D-70597 Stuttgart */
-/* EMail: uz@musoftware.de */
+/* (C) 2000-2001 Ullrich von Bassewitz */
+/* Wacholderweg 14 */
+/* D-70597 Stuttgart */
+/* EMail: uz@cc65.org */
/* */
/* */
/* This software is provided 'as-is', without any expressed or implied */
#include "funcdesc.h"
#include "global.h"
#include "symentry.h"
+#include "typecmp.h"
#include "symtab.h"
if (((Flags & SC_AUTO) || (Flags & SC_STATIC)) && (Flags & SC_EXTERN) == 0) {
if ((Flags & SC_DEF) && !(Flags & SC_REF)) {
if (Flags & SC_PARAM) {
- Warning (WARN_UNUSED_PARM, Entry->Name);
+ Warning ("Parameter `%s' is never used", Entry->Name);
} else {
- Warning (WARN_UNUSED_ITEM, Entry->Name);
+ Warning ("`%s' is defined but never used", Entry->Name);
}
}
}
if (Flags & SC_LABEL) {
if ((Flags & SC_DEF) == 0) {
/* Undefined label */
- Error (ERR_UNDEFINED_LABEL, Entry->Name);
+ Error ("Undefined label: `%s'", Entry->Name);
} else if ((Flags & SC_REF) == 0) {
/* Defined but not used */
- Warning (WARN_UNUSED_ITEM, Entry->Name);
+ Warning ("`%s' is defined but never used", Entry->Name);
}
}
/* Dump the tables if requested */
if (Debug) {
- PrintSymTable (SymTab0, stdout, "Global symbol table");
- PrintSymTable (TagTab0, stdout, "Global tag table");
+ PrintSymTable (SymTab0, stdout, "Global symbol table");
+ PrintSymTable (TagTab0, stdout, "Global tag table");
}
/* Don't delete the symbol and struct tables! */
- SymTab0 = SymTab = 0;
- TagTab0 = TagTab = 0;
+ SymTab = 0;
+ TagTab = 0;
}
/* We do have an entry. This may be a forward, so check it. */
if ((Entry->Flags & SC_STRUCT) == 0) {
/* Existing symbol is not a struct */
- Error (ERR_SYMBOL_KIND);
+ Error ("Symbol `%s' is already different kind", Name);
} else if (Size > 0 && Entry->V.S.Size > 0) {
/* Both structs are definitions. */
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ Error ("Multiple definition for `%s'", Name);
} else {
/* Define the struct size if it is given */
if (Size > 0) {
-SymEntry* AddEnumSym (const char* Name, int Val)
-/* Add an enum symbol to the symbol table and return it */
+SymEntry* AddConstSym (const char* Name, const type* Type, unsigned Flags, long Val)
+/* Add an constant symbol to the symbol table and return it */
{
/* Do we have an entry with this name already? */
SymEntry* Entry = FindSymInTable (SymTab, Name, HashStr (Name));
if (Entry) {
- if (Entry->Flags != SC_ENUM) {
- Error (ERR_SYMBOL_KIND);
+ if ((Entry->Flags & SC_CONST) != SC_CONST) {
+ Error ("Symbol `%s' is already different kind", Name);
} else {
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ Error ("Multiple definition for `%s'", Name);
}
return Entry;
}
/* Create a new entry */
- Entry = NewSymEntry (Name, SC_ENUM);
+ Entry = NewSymEntry (Name, Flags);
/* Enum values are ints */
- Entry->Type = TypeDup (type_int);
+ Entry->Type = TypeDup (Type);
/* Set the enum data */
- Entry->V.EnumVal = Val;
+ Entry->V.ConstVal = Val;
/* Add the entry to the symbol table */
AddSymEntry (SymTab, Entry);
if ((Entry->Flags & SC_DEF) != 0 && (Flags & SC_DEF) != 0) {
/* Trying to define the label more than once */
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ Error ("Label `%s' is defined more than once", Name);
}
Entry->Flags |= Flags;
Entry = NewSymEntry (Name, SC_LABEL | Flags);
/* Set a new label number */
- Entry->V.Label = GetLabel ();
+ Entry->V.Label = GetLocalLabel ();
/* Add the entry to the label table */
AddSymEntry (LabelTab, Entry);
-SymEntry* AddLocalSym (const char* Name, type* Type, unsigned Flags, int Offs)
+SymEntry* AddLocalSym (const char* Name, const type* Type, unsigned Flags, int Offs)
/* Add a local symbol and return the symbol entry */
{
/* Do we have an entry with this name already? */
if (Entry) {
/* We have a symbol with this name already */
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ Error ("Multiple definition for `%s'", Name);
} else {
-SymEntry* AddGlobalSym (const char* Name, type* Type, unsigned Flags)
+SymEntry* AddGlobalSym (const char* Name, const type* Type, unsigned Flags)
/* Add an external or global symbol to the symbol table and return the entry */
{
+ /* There is some special handling for functions, so check if it is one */
+ int IsFunc = IsTypeFunc (Type);
+
/* Functions must be inserted in the global symbol table */
- SymTable* Tab = IsTypeFunc (Type)? SymTab0 : SymTab;
+ SymTable* Tab = IsFunc? SymTab0 : SymTab;
/* Do we have an entry with this name already? */
SymEntry* Entry = FindSymInTable (Tab, Name, HashStr (Name));
/* We have a symbol with this name already */
if (Entry->Flags & SC_TYPE) {
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ Error ("Multiple definition for `%s'", Name);
return Entry;
}
unsigned ESize = Decode (EType + 1);
if ((Size != 0 && ESize != 0) ||
- TypeCmp (Type+DECODE_SIZE+1, EType+DECODE_SIZE+1) != 0) {
- /* Types not identical: Duplicate definition */
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ TypeCmp (Type+DECODE_SIZE+1, EType+DECODE_SIZE+1) < TC_EQUAL) {
+ /* Types not identical: Conflicting types */
+ Error ("Conflicting types for `%s'", Name);
+ return Entry;
} else {
/* Check if we have a size in the existing definition */
if (ESize == 0) {
} else {
/* New type must be identical */
- if (!EqualTypes (EType, Type) != 0) {
- Error (ERR_MULTIPLE_DEFINITION, Name);
+ if (TypeCmp (EType, Type) < TC_EQUAL) {
+ Error ("Conflicting types for `%s'", Name);
+ return Entry;
}
/* In case of a function, use the new type descriptor, since it
* contains pointers to the new symbol tables that are needed if
* an actual function definition follows.
*/
- if (IsTypeFunc (Type)) {
- CopyEncode (Type+1, EType+1);
+ if (IsFunc) {
+ /* Get the function descriptor from the new type */
+ FuncDesc* F = GetFuncDesc (Type);
+ /* Use this new function descriptor */
+ Entry->V.F.Func = F;
+ EncodePtr (EType+1, F);
}
}
/* Set the symbol attributes */
Entry->Type = TypeDup (Type);
+ /* If this is a function, set the function descriptor and clear
+ * additional fields.
+ */
+ if (IsFunc) {
+ Entry->V.F.Func = GetFuncDesc (Entry->Type);
+ Entry->V.F.CS = 0;
+ Entry->V.F.DS = 0;
+ }
+
/* Add the entry to the symbol table */
AddSymEntry (Tab, Entry);
}
-int SymIsLocal (SymEntry* Sym)
-/* Return true if the symbol is defined in the highest lexical level */
+SymTable* GetGlobalSymTab (void)
+/* Return the global symbol table */
{
- return (Sym->Owner == SymTab || Sym->Owner == TagTab);
+ return SymTab0;
}
-static int EqualSymTables (SymTable* Tab1, SymTable* Tab2)
-/* Compare two symbol tables. Return 1 if they are equal and 0 otherwise */
-{
- /* Compare the parameter lists */
- SymEntry* Sym1 = Tab1->SymHead;
- SymEntry* Sym2 = Tab2->SymHead;
-
- /* Compare the fields */
- while (Sym1 && Sym2) {
-
- /* Compare this field */
- if (!EqualTypes (Sym1->Type, Sym2->Type)) {
- /* Field types not equal */
- return 0;
- }
-
- /* Get the pointers to the next fields */
- Sym1 = Sym1->NextSym;
- Sym2 = Sym2->NextSym;
- }
-
- /* Check both pointers against NULL to compare the field count */
- return (Sym1 == 0 && Sym2 == 0);
-}
-
-
-
-int EqualTypes (const type* Type1, const type* Type2)
-/* Recursively compare two types. Return 1 if the types match, return 0
- * otherwise.
- */
+int SymIsLocal (SymEntry* Sym)
+/* Return true if the symbol is defined in the highest lexical level */
{
- int v1, v2;
- SymEntry* Sym1;
- SymEntry* Sym2;
- SymTable* Tab1;
- SymTable* Tab2;
- FuncDesc* F1;
- FuncDesc* F2;
- int Ok;
-
-
- /* Shortcut here: If the pointers are identical, the types are identical */
- if (Type1 == Type2) {
- return 1;
- }
-
- /* Compare two types. Determine, where they differ */
- while (*Type1 == *Type2 && *Type1 != T_END) {
-
- switch (*Type1) {
-
- case T_FUNC:
- /* Compare the function descriptors */
- F1 = DecodePtr (Type1+1);
- F2 = DecodePtr (Type2+1);
-
- /* If one of the functions is implicitly declared, both
- * functions are considered equal. If one of the functions is
- * old style, and the other is empty, the functions are
- * considered equal.
- */
- if ((F1->Flags & FD_IMPLICIT) != 0 || (F2->Flags & FD_IMPLICIT) != 0) {
- Ok = 1;
- } else if ((F1->Flags & FD_OLDSTYLE) != 0 && (F2->Flags & FD_EMPTY) != 0) {
- Ok = 1;
- } else if ((F1->Flags & FD_EMPTY) != 0 && (F2->Flags & FD_OLDSTYLE) != 0) {
- Ok = 1;
- } else {
- Ok = 0;
- }
-
- if (!Ok) {
-
- /* Check the remaining flags */
- if ((F1->Flags & ~FD_IGNORE) != (F2->Flags & ~FD_IGNORE)) {
- /* Flags differ */
- return 0;
- }
-
- /* Compare the parameter lists */
- if (EqualSymTables (F1->SymTab, F2->SymTab) == 0 ||
- EqualSymTables (F1->TagTab, F2->TagTab) == 0) {
- /* One of the tables is not identical */
- return 0;
- }
- }
-
- /* Skip the FuncDesc pointers to compare the return type */
- Type1 += DECODE_SIZE;
- Type2 += DECODE_SIZE;
- break;
-
- case T_ARRAY:
- /* Check member count */
- v1 = Decode (Type1+1);
- v2 = Decode (Type2+1);
- if (v1 != 0 && v2 != 0 && v1 != v2) {
- /* Member count given but different */
- return 0;
- }
- Type1 += DECODE_SIZE;
- Type2 += DECODE_SIZE;
- break;
-
- case T_STRUCT:
- case T_UNION:
- /* Compare the fields recursively. To do that, we fetch the
- * pointer to the struct definition from the type, and compare
- * the fields.
- */
- Sym1 = DecodePtr (Type1+1);
- Sym2 = DecodePtr (Type2+1);
-
- /* Get the field tables from the struct entry */
- Tab1 = Sym1->V.S.SymTab;
- Tab2 = Sym2->V.S.SymTab;
-
- /* One or both structs may be forward definitions. In this case,
- * the symbol tables are both non existant. Assume that the
- * structs are equal in this case.
- */
- if (Tab1 != 0 && Tab2 != 0) {
-
- if (EqualSymTables (Tab1, Tab2) == 0) {
- /* Field lists are not equal */
- return 0;
- }
-
- }
-
- /* Structs are equal */
- Type1 += DECODE_SIZE;
- Type2 += DECODE_SIZE;
- break;
- }
- ++Type1;
- ++Type2;
- }
-
- /* Done, types are equal */
- return 1;
+ return (Sym->Owner == SymTab || Sym->Owner == TagTab);
}
if (Entry) {
Entry->Flags |= SC_ZEROPAGE;
} else {
- Error (ERR_UNDEFINED_SYMBOL, Name);
+ Error ("Undefined symbol: `%s'", Name);
}
}
{
SymEntry* Entry;
- AddEmptyLine ();
-
Entry = SymTab->SymHead;
while (Entry) {
unsigned Flags = Entry->Flags;