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view lwasm/symbol.c @ 103:8b0be0fc42cf
Fixed arg handling for short args in command line option parser - optional args for short opts should now work and options no longer need a space between option character and argument
author | lost@l-w.ca |
---|---|
date | Sat, 06 Aug 2011 22:35:58 -0600 |
parents | ed7f970f3688 |
children | 17bd59f045af |
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/* symbol.c Copyright © 2010 William Astle This file is part of LWTOOLS. LWTOOLS is free software: you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation, either version 3 of the License, or (at your option) any later version. This program is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program. If not, see <http://www.gnu.org/licenses/>. */ #include <stdio.h> #include <stdlib.h> #include <string.h> #include <lw_alloc.h> #include <lw_expr.h> #include <lw_string.h> #include "lwasm.h" struct symtabe *symbol_findprev(asmstate_t *as, struct symtabe *se) { struct symtabe *se1, *se2; int i; for (se2 = NULL, se1 = as -> symtab.head; se1; se1 = se1 -> next) { debug_message(as, 200, "Sorting; looking at symbol %s (%p) for %s", se1 -> symbol, se1, se -> symbol); /* compare se with se1 */ i = strcasecmp(se -> symbol, se1 -> symbol); /* if the symbol sorts before se1, we just need to return */ if (i < 0) return se2; if (i == 0) { /* symbol name matches; compare other things */ /*if next version is greater than this one, return */ if (se -> version > se1 -> version) return se2; /* if next context is great than this one, return */ if (se -> context > se1 -> context) return se2; /* if section name is greater, return */ /* if se has no section but se1 does, we go first */ if (se -> section == NULL && se1 -> section != NULL) return se2; if (se -> section != NULL && se1 -> section != NULL) { /* compare section names and if se < se1, return */ i = strcasecmp(se -> section -> name, se1 -> section -> name); if (i < 0) return se2; } } se2 = se1; } return se2; } struct symtabe *register_symbol(asmstate_t *as, line_t *cl, char *sym, lw_expr_t val, int flags) { struct symtabe *se; struct symtabe *sprev; int islocal = 0; int context = -1; int version = -1; char *cp; debug_message(as, 200, "Register symbol %s (%02X), %s", sym, flags, lw_expr_print(val)); if (!(flags & symbol_flag_nocheck)) { if (!sym || !*sym) { lwasm_register_error(as, cl, "Bad symbol (%s)", sym); return NULL; } if (*sym < 0x80 && (!strchr(SSYMCHARS, *sym) && !strchr(sym + 1, '$') && !strchr(sym + 1, '@') && !strchr(sym + 1, '?'))) { lwasm_register_error(as, cl, "Bad symbol (%s)", sym); return NULL; } if ((*sym == '$' || *sym == '@') && (sym[1] >= '0' && sym[1] <= '9')) { lwasm_register_error(as, cl, "Bad symbol (%s)", sym); return NULL; } } for (cp = sym; *cp; cp++) { if (*cp == '@' || *cp == '?') islocal = 1; if (*cp == '$' && !(CURPRAGMA(cl, PRAGMA_DOLLARNOTLOCAL))) islocal = 1; // bad symbol if (!(flags & symbol_flag_nocheck) && *cp < 0x80 && !strchr(SYMCHARS, *cp)) { lwasm_register_error(as, cl, "Bad symbol (%s)", sym); return NULL; } } if (islocal) context = cl -> context; // first, look up symbol to see if it is already defined for (se = as -> symtab.head; se; se = se -> next) { debug_message(as, 300, "Symbol add lookup: %p, %p", se, se -> next); if (!strcmp(sym, se -> symbol)) { if (se -> context != context) continue; if ((flags & symbol_flag_set) && (se -> flags & symbol_flag_set)) { if (version < se -> version) version = se -> version; continue; } break; } } if (se) { // multiply defined symbol lwasm_register_error(as, cl, "Multiply defined symbol (%s)", sym); return NULL; } if (flags & symbol_flag_set) { version++; } // symplify the symbol expression - replaces "SET" symbols with // symbol table entries lwasm_reduce_expr(as, val); se = lw_alloc(sizeof(struct symtabe)); se -> context = context; se -> version = version; se -> flags = flags; if (CURPRAGMA(cl, PRAGMA_NOLIST)) { se -> flags |= symbol_flag_nolist; } se -> value = lw_expr_copy(val); se -> symbol = lw_strdup(sym); if (cl) se -> section = cl -> csect; else se -> section = NULL; sprev = symbol_findprev(as, se); if (!sprev) { debug_message(as, 200, "Adding symbol at head of symbol table"); se -> next = as -> symtab.head; as -> symtab.head = se; } else { debug_message(as, 200, "Adding symbol in middle of symbol table"); se -> next = sprev -> next; sprev -> next = se; } return se; } // for "SET" symbols, always returns the LAST definition of the // symbol. This works because the lwasm_reduce_expr() call in // register_symbol will ensure there are no lingering "var" references // to the set symbol anywhere in the symbol table; they will all be // converted to direct references // NOTE: this means that for a forward reference to a SET symbol, // the LAST definition will be the one used. // This arrangement also ensures that any reference to the symbol // itself inside a "set" definition will refer to the previous version // of the symbol. struct symtabe * lookup_symbol(asmstate_t *as, line_t *cl, char *sym) { int local = 0; struct symtabe *s, *s2; // check if this is a local symbol if (strchr(sym, '@') || strchr(sym, '?')) local = 1; if (cl && !CURPRAGMA(cl, PRAGMA_DOLLARNOTLOCAL) && strchr(sym, '$')) local = 1; if (!cl && !(as -> pragmas & PRAGMA_DOLLARNOTLOCAL) && strchr(sym, '$')) local = 1; // cannot look up local symbol in global context!!!!! if (!cl && local) return NULL; for (s = as -> symtab.head, s2 = NULL; s; s = s -> next) { if (!strcmp(sym, s -> symbol)) { if (local && s -> context != cl -> context) continue; if (s -> flags & symbol_flag_set) { // look for highest version of symbol if (!s2 || (s -> version > s2 -> version)) s2 = s; continue; } break; } } if (!s && s2) s = s2; return s; } struct listinfo { sectiontab_t *sect; asmstate_t *as; int complex; }; int list_symbols_test(lw_expr_t e, void *p) { struct listinfo *li = p; if (li -> complex) return 0; if (lw_expr_istype(e, lw_expr_type_special)) { if (lw_expr_specint(e) == lwasm_expr_secbase) { if (li -> sect) { li -> complex = 1; } else { li -> sect = lw_expr_specptr(e); } } } return 0; } void list_symbols(asmstate_t *as, FILE *of) { struct symtabe *s; lw_expr_t te; struct listinfo li; li.as = as; fprintf(of, "\nSymbol Table:\n"); for (s = as -> symtab.head; s; s = s -> next) { if (s -> flags & symbol_flag_nolist) continue; lwasm_reduce_expr(as, s -> value); fputc('[', of); if (s -> flags & symbol_flag_set) fputc('S', of); else fputc(' ', of); if (as -> output_format == OUTPUT_OBJ) { if (lw_expr_istype(s -> value, lw_expr_type_int)) fputc('c', of); else fputc('s', of); } if (s -> context < 0) fputc('G', of); else fputc('L', of); fputc(']', of); fputc(' ', of); fprintf(of, "%-32s ", s -> symbol); te = lw_expr_copy(s -> value); li.complex = 0; li.sect = NULL; lw_expr_testterms(te, list_symbols_test, &li); if (li.sect) { as -> exportcheck = 1; as -> csect = li.sect; lwasm_reduce_expr(as, te); as -> exportcheck = 0; } if (lw_expr_istype(te, lw_expr_type_int)) { fprintf(of, "%04X", lw_expr_intval(te)); if (li.sect) { fprintf(of, " (%s)", li.sect -> name); } fprintf(of, "\n"); } else { fprintf(of, "<<incomplete>>\n"); // fprintf(of, "%s\n", lw_expr_print(s -> value)); } lw_expr_destroy(te); } }