ref: a216855093a414766ea5e5901a05ea344b2291ab
dir: /src/asm/symbol.c/
/* * RGBAsm - SYMBOL.C - Symboltable and macroargs stuff * * INCLUDES * */ #include <stdio.h> #include <string.h> #include <time.h> #include "asm/asm.h" #include "asm/symbol.h" #include "asm/main.h" #include "asm/mymath.h" #include "asm/output.h" /* * RGBAsm - SYMBOL.C - Symboltable stuff * * VARIABLES * */ struct sSymbol *tHashedSymbols[HASHSIZE]; struct sSymbol *pScope = NULL; struct sSymbol *pPCSymbol = NULL; struct sSymbol *p_NARGSymbol = NULL; struct sSymbol *p__LINE__Symbol = NULL; char *currentmacroargs[MAXMACROARGS + 1]; char *newmacroargs[MAXMACROARGS + 1]; char SavedTIME[256]; char SavedDATE[256]; SLONG Callback_NARG(struct sSymbol *sym) { ULONG i = 0; sym = sym; while (currentmacroargs[i] && i < MAXMACROARGS) i += 1; return (i); } SLONG Callback__LINE__(struct sSymbol * sym) { sym = sym; return (nLineNo); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Get the nValue field of a symbol * */ SLONG getvaluefield(struct sSymbol * sym) { if (sym->Callback) { return (sym->Callback(sym)); } else return (sym->nValue); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Calculate the hash value for a string * */ ULONG calchash(char *s) { ULONG hash = 0; while (*s != 0) hash += (*s++); return (hash % HASHSIZE); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Create a new symbol by name * */ struct sSymbol *createsymbol(char *s) { struct sSymbol **ppsym; ULONG hash; hash = calchash(s); ppsym = &(tHashedSymbols[hash]); while ((*ppsym) != NULL) ppsym = &((*ppsym)->pNext); if (((*ppsym) = (struct sSymbol *)malloc(sizeof(struct sSymbol))) != NULL) { strcpy((*ppsym)->tzName, s); (*ppsym)->nValue = 0; (*ppsym)->nType = 0; (*ppsym)->pScope = NULL; (*ppsym)->pNext = NULL; (*ppsym)->pMacro = NULL; (*ppsym)->pSection = NULL; (*ppsym)->Callback = NULL; return (*ppsym); } else { fatalerror("No memory for symbol"); return (NULL); } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Find a symbol by name and scope * */ struct sSymbol *findsymbol(char *s, struct sSymbol *scope) { struct sSymbol **ppsym; SLONG hash; hash = calchash(s); ppsym = &(tHashedSymbols[hash]); while ((*ppsym) != NULL) { if ((strcmp(s, (*ppsym)->tzName) == 0) && ((*ppsym)->pScope == scope)) { return (*ppsym); } else ppsym = &((*ppsym)->pNext); } return (NULL); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Find the pointer to a symbol by name and scope * */ struct sSymbol **findpsymbol(char *s, struct sSymbol *scope) { struct sSymbol **ppsym; SLONG hash; hash = calchash(s); ppsym = &(tHashedSymbols[hash]); while ((*ppsym) != NULL) { if ((strcmp(s, (*ppsym)->tzName) == 0) && ((*ppsym)->pScope == scope)) { return (ppsym); } else ppsym = &((*ppsym)->pNext); } return (NULL); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Find a symbol by name and scope * */ struct sSymbol *sym_FindSymbol(char *tzName) { struct sSymbol *pscope; if (*tzName == '.') pscope = pScope; else pscope = NULL; return (findsymbol(tzName, pscope)); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Purge a symbol * */ void sym_Purge(char *tzName) { struct sSymbol **ppSym; struct sSymbol *pscope; if (*tzName == '.') pscope = pScope; else pscope = NULL; ppSym = findpsymbol(tzName, pscope); if (ppSym) { struct sSymbol *pSym; pSym = *ppSym; *ppSym = pSym->pNext; if (pSym->pMacro) free(pSym->pMacro); free(pSym); } else { sprintf(temptext, "'%s' not defined", tzName); yyerror(temptext); } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Determine if a symbol has been defined * */ ULONG sym_isConstDefined(char *tzName) { struct sSymbol *psym, *pscope; if (*tzName == '.') pscope = pScope; else pscope = NULL; psym = findsymbol(tzName, pscope); if (psym && (psym->nType & SYMF_DEFINED)) { if (psym-> nType & (SYMF_EQU | SYMF_SET | SYMF_MACRO | SYMF_STRING)) { return (1); } else { sprintf(temptext, "'%s' is not allowed as argument to the DEF function", tzName); fatalerror(temptext); } } return (0); } ULONG sym_isDefined(char *tzName) { struct sSymbol *psym, *pscope; if (*tzName == '.') pscope = pScope; else pscope = NULL; psym = findsymbol(tzName, pscope); if (psym && (psym->nType & SYMF_DEFINED)) return (1); else return (0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Determine if the symbol is a constant * */ ULONG sym_isConstant(char *s) { struct sSymbol *psym, *pscope; if (*s == '.') pscope = pScope; else pscope = NULL; if ((psym = findsymbol(s, pscope)) != NULL) { if (psym->nType & SYMF_CONST) return (1); } return (0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Get a string equate's value * */ char *sym_GetStringValue(char *tzSym) { struct sSymbol *pSym; if ((pSym = sym_FindSymbol(tzSym)) != NULL) return (pSym->pMacro); else { sprintf(temptext, "Stringsymbol '%s' not defined", tzSym); yyerror(temptext); } return (NULL); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Return a constant symbols value * */ ULONG sym_GetConstantValue(char *s) { struct sSymbol *psym, *pscope; if (*s == '.') pscope = pScope; else pscope = NULL; if ((psym = findsymbol(s, pscope)) != NULL) { if (psym->nType & SYMF_CONST) return (getvaluefield(psym)); else { fatalerror("Expression must have a constant value"); } } else { sprintf(temptext, "'%s' not defined", s); yyerror(temptext); } return (0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Return a symbols value... "estimated" if not defined yet * */ ULONG sym_GetValue(char *s) { struct sSymbol *psym, *pscope; if (*s == '.') pscope = pScope; else pscope = NULL; if ((psym = findsymbol(s, pscope)) != NULL) { if (psym->nType & SYMF_DEFINED) { if (psym->nType & (SYMF_MACRO | SYMF_STRING)) { sprintf(temptext, "'%s' is a macro or string symbol", s); yyerror(temptext); } return (getvaluefield(psym)); } else { if ((nPass == 1) || (psym->nType & SYMF_IMPORT)) { /* 0x80 seems like a good default value... */ return (0x80); } else { sprintf(temptext, "'%s' not defined", s); yyerror(temptext); } } } else { if (nPass == 1) { createsymbol(s); return (0x80); } else { sprintf(temptext, "'%s' not defined", s); yyerror(temptext); } } return (0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Return a defined symbols value... aborts if not defined yet * */ ULONG sym_GetDefinedValue(char *s) { struct sSymbol *psym, *pscope; if (*s == '.') pscope = pScope; else pscope = NULL; if ((psym = findsymbol(s, pscope)) != NULL) { if ((psym->nType & SYMF_DEFINED)) { if (psym->nType & (SYMF_MACRO | SYMF_STRING)) { sprintf(temptext, "'%s' is a macro or string symbol", s); yyerror(temptext); } return (getvaluefield(psym)); } else { sprintf(temptext, "'%s' not defined", s); yyerror(temptext); } } else { sprintf(temptext, "'%s' not defined", s); yyerror(temptext); } return (0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Macro argument stuff * */ void sym_ShiftCurrentMacroArgs(void) { SLONG i; free(currentmacroargs[0]); for (i = 0; i < MAXMACROARGS - 1; i += 1) { currentmacroargs[i] = currentmacroargs[i + 1]; } currentmacroargs[MAXMACROARGS - 1] = NULL; } char *sym_FindMacroArg(SLONG i) { if (i == -1) i = MAXMACROARGS + 1; return (currentmacroargs[i - 1]); } void sym_UseNewMacroArgs(void) { SLONG i; for (i = 0; i <= MAXMACROARGS; i += 1) { currentmacroargs[i] = newmacroargs[i]; newmacroargs[i] = NULL; } } void sym_SaveCurrentMacroArgs(char *save[]) { SLONG i; for (i = 0; i <= MAXMACROARGS; i += 1) save[i] = currentmacroargs[i]; } void sym_RestoreCurrentMacroArgs(char *save[]) { SLONG i; for (i = 0; i <= MAXMACROARGS; i += 1) currentmacroargs[i] = save[i]; } void sym_FreeCurrentMacroArgs(void) { SLONG i; for (i = 0; i <= MAXMACROARGS; i += 1) { free(currentmacroargs[i]); currentmacroargs[i] = NULL; } } void sym_AddNewMacroArg(char *s) { SLONG i = 0; while (i < MAXMACROARGS && newmacroargs[i] != NULL) i += 1; if (i < MAXMACROARGS) { if (s) newmacroargs[i] = strdup(s); else newmacroargs[i] = NULL; } else yyerror("A maximum of 9 arguments allowed"); } void sym_SetMacroArgID(ULONG nMacroCount) { char s[256]; sprintf(s, "_%ld", nMacroCount); newmacroargs[MAXMACROARGS] = strdup(s); } void sym_UseCurrentMacroArgs(void) { SLONG i; for (i = 1; i <= MAXMACROARGS; i += 1) sym_AddNewMacroArg(sym_FindMacroArg(i)); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Find a macro by name * */ struct sSymbol *sym_FindMacro(char *s) { return (findsymbol(s, NULL)); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Add an equated symbol * */ void sym_AddEqu(char *tzSym, SLONG value) { if ((nPass == 1) || ((nPass == 2) && (sym_isDefined(tzSym) == 0))) { /* only add equated symbols in pass 1 */ struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, NULL)) != NULL) { if (nsym->nType & SYMF_DEFINED) { sprintf(temptext, "'%s' already defined", tzSym); yyerror(temptext); } } else nsym = createsymbol(tzSym); if (nsym) { nsym->nValue = value; nsym->nType |= SYMF_EQU | SYMF_DEFINED | SYMF_CONST; nsym->pScope = NULL; } } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Add a string equated symbol * */ void sym_AddString(char *tzSym, char *tzValue) { struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, NULL)) != NULL) { if (nsym->nType & SYMF_DEFINED) { sprintf(temptext, "'%s' already defined", tzSym); yyerror(temptext); } } else nsym = createsymbol(tzSym); if (nsym) { if ((nsym->pMacro = (char *)malloc(strlen(tzValue) + 1)) != NULL) strcpy(nsym->pMacro, tzValue); else fatalerror("No memory for stringequate"); nsym->nType |= SYMF_STRING | SYMF_DEFINED; nsym->ulMacroSize = strlen(tzValue); nsym->pScope = NULL; } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * check if symbol is a string equated symbol * */ ULONG sym_isString(char *tzSym) { struct sSymbol *pSym; if ((pSym = findsymbol(tzSym, NULL)) != NULL) { if (pSym->nType & SYMF_STRING) return (1); } return (0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Alter a SET symbols value * */ void sym_AddSet(char *tzSym, SLONG value) { struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, NULL)) != NULL) { } else nsym = createsymbol(tzSym); if (nsym) { nsym->nValue = value; nsym->nType |= SYMF_SET | SYMF_DEFINED | SYMF_CONST; nsym->pScope = NULL; } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Add a local (.name) relocatable symbol * */ void sym_AddLocalReloc(char *tzSym) { if ((nPass == 1) || ((nPass == 2) && (sym_isDefined(tzSym) == 0))) { /* only add local reloc symbols in pass 1 */ struct sSymbol *nsym; if (pScope) { if ((nsym = findsymbol(tzSym, pScope)) != NULL) { if (nsym->nType & SYMF_DEFINED) { sprintf(temptext, "'%s' already defined", tzSym); yyerror(temptext); } } else nsym = createsymbol(tzSym); if (nsym) { nsym->nValue = nPC; nsym->nType |= SYMF_RELOC | SYMF_LOCAL | SYMF_DEFINED; nsym->pScope = pScope; nsym->pSection = pCurrentSection; } } else fatalerror("Local label in main scope"); } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Add a relocatable symbol * */ void sym_AddReloc(char *tzSym) { if ((nPass == 1) || ((nPass == 2) && (sym_isDefined(tzSym) == 0))) { /* only add reloc symbols in pass 1 */ struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, NULL)) != NULL) { if (nsym->nType & SYMF_DEFINED) { sprintf(temptext, "'%s' already defined", tzSym); yyerror(temptext); } } else nsym = createsymbol(tzSym); if (nsym) { nsym->nValue = nPC; nsym->nType |= SYMF_RELOC | SYMF_DEFINED; nsym->pScope = NULL; nsym->pSection = pCurrentSection; } } pScope = findsymbol(tzSym, NULL); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Export a symbol * */ void sym_Export(char *tzSym) { if (nPass == 1) { /* only export symbols in pass 1 */ struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, 0)) == NULL) nsym = createsymbol(tzSym); if (nsym) nsym->nType |= SYMF_EXPORT; } else { struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, 0)) != NULL) { if (nsym->nType & SYMF_DEFINED) return; } sprintf(temptext, "'%s' not defined", tzSym); yyerror(temptext); } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Import a symbol * */ void sym_Import(char *tzSym) { if (nPass == 1) { /* only import symbols in pass 1 */ struct sSymbol *nsym; if (findsymbol(tzSym, NULL)) { sprintf(temptext, "'%s' already defined", tzSym); yyerror(temptext); } if ((nsym = createsymbol(tzSym)) != NULL) nsym->nType |= SYMF_IMPORT; } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Globalize a symbol (export if defined, import if not) * */ void sym_Global(char *tzSym) { if (nPass == 2) { /* only globalize symbols in pass 2 */ struct sSymbol *nsym; nsym = findsymbol(tzSym, 0); if ((nsym == NULL) || ((nsym->nType & SYMF_DEFINED) == 0)) { if (nsym == NULL) nsym = createsymbol(tzSym); if (nsym) nsym->nType |= SYMF_IMPORT; } else { if (nsym) nsym->nType |= SYMF_EXPORT; } } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Add a macro definition * */ void sym_AddMacro(char *tzSym) { if ((nPass == 1) || ((nPass == 2) && (sym_isDefined(tzSym) == 0))) { /* only add macros in pass 1 */ struct sSymbol *nsym; if ((nsym = findsymbol(tzSym, NULL)) != NULL) { if (nsym->nType & SYMF_DEFINED) { sprintf(temptext, "'%s' already defined", tzSym); yyerror(temptext); } } else nsym = createsymbol(tzSym); if (nsym) { nsym->nValue = nPC; nsym->nType |= SYMF_MACRO | SYMF_DEFINED; nsym->pScope = NULL; nsym->ulMacroSize = ulNewMacroSize; nsym->pMacro = tzNewMacro; } } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Prepare for pass #1 * */ void sym_PrepPass1(void) { sym_Init(); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Prepare for pass #2 * */ void sym_PrepPass2(void) { SLONG i; for (i = 0; i < HASHSIZE; i += 1) { struct sSymbol **ppSym = &(tHashedSymbols[i]); while (*ppSym) { if ((*ppSym)-> nType & (SYMF_SET | SYMF_STRING | SYMF_EQU)) { struct sSymbol *pTemp; pTemp = (*ppSym)->pNext; free(*ppSym); *ppSym = pTemp; } else ppSym = &((*ppSym)->pNext); } } pScope = NULL; pPCSymbol->nValue = 0; sym_AddString("__TIME__", SavedTIME); sym_AddString("__DATE__", SavedDATE); sym_AddSet("_RS", 0); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * Initialise the symboltable * */ void sym_Init(void) { SLONG i; time_t tod; for (i = 0; i < MAXMACROARGS; i += 1) { currentmacroargs[i] = NULL; newmacroargs[i] = NULL; } for (i = 0; i < HASHSIZE; i += 1) tHashedSymbols[i] = NULL; sym_AddReloc("@"); pPCSymbol = findsymbol("@", NULL); sym_AddEqu("_NARG", 0); p_NARGSymbol = findsymbol("_NARG", NULL); p_NARGSymbol->Callback = Callback_NARG; sym_AddEqu("__LINE__", 0); p__LINE__Symbol = findsymbol("__LINE__", NULL); p__LINE__Symbol->Callback = Callback__LINE__; sym_AddEqu("__ASM__", (SLONG) (atof(ASM_VERSION) * 65536)); sym_AddSet("_RS", 0); if (time(&tod) != -1) { struct tm *tptr; tptr = localtime(&tod); strftime(SavedTIME, sizeof(SavedTIME), "%H:%M:%S", tptr); strftime(SavedDATE, sizeof(SavedDATE), "%d %B %Y", tptr); sym_AddString("__TIME__", SavedTIME); sym_AddString("__DATE__", SavedDATE); } pScope = NULL; math_DefinePI(); } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * DEBUG: Print the symbol table * */ void sym_PrintSymbolTable(void) { ULONG i; for (i = 0; i < HASHSIZE; i += 1) { struct sSymbol *sym = tHashedSymbols[i]; if (sym != NULL) printf("\nHashTable #%ld:\n", i); while (sym != NULL) { if (sym->nType & SYMF_LOCAL) printf("LOCAL : '%s%s' - %08lX\n", sym->pScope->tzName, sym->tzName, getvaluefield(sym)); else if (sym->nType & (SYMF_MACRO | SYMF_STRING)) { ULONG i = 0; printf("MACRO : '%s'\n\"", sym->tzName); while (i < sym->ulMacroSize) { if (sym->pMacro[i] == '\n') { printf("\n"); i += 1; } else printf("%c", sym->pMacro[i++]); } printf("\"\n"); } else if (sym->nType & SYMF_EXPORT) printf("EXPORT: '%s' - %08lX\n", sym->tzName, getvaluefield(sym)); else if (sym->nType & SYMF_IMPORT) printf("IMPORT: '%s'\n", sym->tzName); else if (sym->nType & SYMF_EQU) printf("EQU : '%s' - %08lX\n", sym->tzName, getvaluefield(sym)); else if (sym->nType & SYMF_SET) printf("SET : '%s' - %08lX\n", sym->tzName, getvaluefield(sym)); else printf("SYMBOL: '%s' - %08lX\n", sym->tzName, getvaluefield(sym)); sym = sym->pNext; } } } /* * RGBAsm - SYMBOL.C - Symboltable stuff * * DEBUG: Dump the macroargs * */ void sym_DumpMacroArgs(void) { ULONG i; for (i = 0; i < MAXMACROARGS; i += 1) printf("CurrentArg%ld: %s\n", i + 1, currentmacroargs[i]); }