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view lwasm/pseudo.c @ 264:346966cffeef
Clean up various warnings when building under -Wall
Add some gimmicks to prevent fread() and fwrite() warnings about ignoring
the return value. Yes, this is probably not a good thing to do, but doing
something with a non-success return value is going to involve crashing out
or something anyway.
Also fix several warnings about variables used while possibly uninitialized.
The code flow shows that this cannot be the case but initializing them to a
plausible value at declaration time costs pretty much nothing and it makes
gcc happy.
Also caught a use of | instead of || which probably would have caused a
certain check for duplicate declarations in __os9 sections to behave oddly.
| author | William Astle <lost@l-w.ca> |
|---|---|
| date | Wed, 06 Feb 2013 21:43:10 -0700 |
| parents | 0e4a9b21ad7b |
| children | 35c051bffbff |
line wrap: on
line source
/* pseudo.c Copyright © 2010 William Astle This file is part of LWASM. LWASM 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 <ctype.h> #include <string.h> #include <stdlib.h> #include <time.h> #include <lw_alloc.h> #include "lwasm.h" #include "instab.h" #include "input.h" #include "lw_string.h" extern void register_struct_entry(asmstate_t *as, line_t *l, int size, structtab_t *ss); // for "dts" PARSEFUNC(pseudo_parse_dts) { time_t tp; char *t; skip_operand(p); l -> len = 0; tp = time(NULL); t = ctime(&tp); while (*t) { if (*t == '\n') break; lwasm_emit(l, *t); t++; l -> len += 1; } } EMITFUNC(pseudo_emit_dts) { } // for "dtb" PARSEFUNC(pseudo_parse_dtb) { skip_operand(p); l -> len = 6; } EMITFUNC(pseudo_emit_dtb) { time_t tp; struct tm *t; tp = time(NULL); t = localtime(&tp); lwasm_emit(l, t -> tm_year); lwasm_emit(l, t -> tm_mon + 1); lwasm_emit(l, t -> tm_mday); lwasm_emit(l, t -> tm_hour); lwasm_emit(l, t -> tm_min); lwasm_emit(l, t -> tm_sec); } // for "end" PARSEFUNC(pseudo_parse_end) { lw_expr_t addr; as -> endseen = 1; l -> len = 0; if (as -> output_format != OUTPUT_DECB) { skip_operand(p); return; } if (!**p) { addr = lw_expr_build(lw_expr_type_int, 0); } else { addr = lwasm_parse_expr(as, p); } if (!addr) { lwasm_register_error(as, l, "Bad expression"); addr = lw_expr_build(lw_expr_type_int, 0); } lwasm_save_expr(l, 0, addr); } EMITFUNC(pseudo_emit_end) { lw_expr_t addr; addr = lwasm_fetch_expr(l, 0); if (addr) { if (!lw_expr_istype(addr, lw_expr_type_int)) lwasm_register_error(as, l, "Exec address not constant!"); else as -> execaddr = lw_expr_intval(addr); } as -> endseen = 1; } PARSEFUNC(pseudo_parse_fcb) { int i = 0; lw_expr_t e; for (;;) { e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad expression (#%d)", i); break; } lwasm_save_expr(l, i++, e); if (**p != ',') break; (*p)++; } l -> len = i; } EMITFUNC(pseudo_emit_fcb) { int i; lw_expr_t e; // int v; for (i = 0; i < l -> len; i++) { e = lwasm_fetch_expr(l, i); lwasm_emitexpr(l, e, 1); } } PARSEFUNC(pseudo_parse_fdb) { int i = 0; lw_expr_t e; for (;;) { e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad expression (#%d)", i); break; } lwasm_save_expr(l, i++, e); if (**p != ',') break; (*p)++; } l -> len = i * 2; } EMITFUNC(pseudo_emit_fdb) { int i; lw_expr_t e; // int v; for (i = 0; i < (l -> len)/2; i++) { e = lwasm_fetch_expr(l, i); lwasm_emitexpr(l, e, 2); } } PARSEFUNC(pseudo_parse_fdbs) { int i = 0; lw_expr_t e; for (;;) { e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad expression (#%d)", i); break; } lwasm_save_expr(l, i++, e); if (**p != ',') break; (*p)++; } l -> len = i * 2; } EMITFUNC(pseudo_emit_fdbs) { int i; lw_expr_t e; lw_expr_t t; lw_expr_t t2; // int v; for (i = 0; i < (l -> len)/2; i++) { e = lwasm_fetch_expr(l, i); t = lw_expr_build(lw_expr_type_int, 256); t2 = lw_expr_build(lw_expr_type_oper, lw_expr_oper_divide, e, t); lwasm_reduce_expr(as, t2); lw_expr_destroy(t); lwasm_emitexpr(l, e, 1); lwasm_emitexpr(l, t2, 1); lw_expr_destroy(t2); } } PARSEFUNC(pseudo_parse_fqb) { int i = 0; lw_expr_t e; for (;;) { e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad expression (#%d)", i); break; } lwasm_save_expr(l, i++, e); if (**p != ',') break; (*p)++; } l -> len = i * 4; } EMITFUNC(pseudo_emit_fqb) { int i; lw_expr_t e; // int v; for (i = 0; i < (l -> len)/4; i++) { e = lwasm_fetch_expr(l, i); lwasm_emitexpr(l, e, 4); } } static int cstringlen(asmstate_t *as, line_t *ln, char **p, char delim) { int l = 0; char *str = NULL; int blen = 0; int bsize = 0; if (!(as -> pragmas & PRAGMA_CESCAPES)) { for (; **p && **p != delim; (*p)++) { l++; if (blen >= bsize) { str = lw_realloc(str, bsize + 32); bsize++; } str[blen++] = **p; } } else { while (**p && **p != delim) { int wch = **p; if (**p == '\\') { /* escape sequence */ (*p)++; if (!**p) break; switch (**p) { /* octal sequence or NUL */ /* skip the "0", then skip up to two more digits */ case '0': case '1': case '2': case '3': wch = **p; wch -= 0x30; if ((*p)[1] >= '0' && (*p)[1] < '8') { (*p)++; wch *= 8; wch += **p - 0x30; } if ((*p)[1] >= '0' && (*p)[1] < '8') { (*p)++; wch *= 8; wch += **p -0x30; } break; /* hexadecimal value */ case 'x': (*p)++; // ignore "x" wch = 0; if (**p) // skip digit 1 { wch = **p - 0x30; if (wch > 9) wch -= 7; if (wch > 9) wch -= 32; (*p)++; } if (**p) { int i; i = **p - 0x30; if (i > 9) i -= 7; if (i > 9) i -= 32; wch = wch * 16 + i; } break; case 'a': wch = 7; break; case 'b': wch = 8; break; case 't': wch = 9; break; case 'n': wch = 10; break; case 'v': wch = 11; break; case 'f': wch = 12; break; case 'r': wch = 13; /* everything else represents itself */ default: break; } } /* now "wch" is the character to write out */ l++; (*p)++; if (blen >= bsize) { str = lw_realloc(str, bsize + 32); bsize += 32; } str[blen++] = wch; } } /* do something with the string here */ /* l is the string length, str is the string itself */ ln -> lstr = str; return l; } PARSEFUNC(pseudo_parse_fcc) { char delim; int i; if (!**p) { lwasm_register_error(as, l, "Bad operand"); return; } delim = **p; (*p)++; i = cstringlen(as, l, p, delim); if (**p != delim) { lwasm_register_error(as, l, "Bad operand"); return; } (*p)++; l -> len = i; } EMITFUNC(pseudo_emit_fcc) { int i; for (i = 0; i < l -> len; i++) lwasm_emit(l, l -> lstr[i]); } PARSEFUNC(pseudo_parse_fcs) { char delim; int i; if (!**p) { lwasm_register_error(as, l, "Bad operand"); return; } delim = **p; (*p)++; i = cstringlen(as, l, p, delim); if (**p != delim) { lwasm_register_error(as, l, "Bad operand"); return; } (*p)++; l -> len = i; } EMITFUNC(pseudo_emit_fcs) { int i; for (i = 0; i < l -> len - 1; i++) lwasm_emit(l, l -> lstr[i]); lwasm_emit(l, l -> lstr[i] | 0x80); } PARSEFUNC(pseudo_parse_fcn) { char delim; int i; if (!**p) { lwasm_register_error(as, l, "Bad operand"); return; } delim = **p; (*p)++; i = cstringlen(as, l, p, delim); if (**p != delim) { lwasm_register_error(as, l, "Bad operand"); return; } (*p)++; l -> len = i + 1; } EMITFUNC(pseudo_emit_fcn) { int i; for (i = 0; i < (l -> len - 1); i++) lwasm_emit(l, l -> lstr[i]); lwasm_emit(l, 0); } PARSEFUNC(pseudo_parse_rmb) { lw_expr_t expr; expr = lwasm_parse_expr(as, p); if (!expr) { lwasm_register_error(as, l, "Bad expression"); } l -> lint = 0; if (as -> instruct) { lwasm_reduce_expr(as, expr); if (!lw_expr_istype(expr, lw_expr_type_int)) { lwasm_register_error(as, l, "Expression must be constant at parse time"); } else { int e; e = lw_expr_intval(expr); register_struct_entry(as, l, e, NULL); l -> len = 0; l -> lint = 1; l -> symset = 1; } } else { if (l -> inmod) { l -> dlen = -1; l -> len = 0; } } lwasm_save_expr(l, 0, expr); } RESOLVEFUNC(pseudo_resolve_rmb) { lw_expr_t expr; if (l -> lint) return; if (l -> inmod) { if (l -> dlen >= 0) return; } else { if (l -> len >= 0) return; } expr = lwasm_fetch_expr(l, 0); if (lw_expr_istype(expr, lw_expr_type_int)) { if (lw_expr_intval(expr) < 0) { lwasm_register_error(as, l, "Negative reservation sizes make no sense! (%d)", lw_expr_intval(expr)); l -> len = 0; l -> dlen = 0; return; } if (l -> inmod) l -> dlen = lw_expr_intval(expr); else l -> len = lw_expr_intval(expr); } } EMITFUNC(pseudo_emit_rmb) { if (l -> lint) return; if (l -> len < 0 || l -> dlen < 0) lwasm_register_error(as, l, "Expression not constant: %d %d", l -> len, l -> dlen); } PARSEFUNC(pseudo_parse_rmd) { lw_expr_t expr; l -> lint = 0; expr = lwasm_parse_expr(as, p); if (!expr) { lwasm_register_error(as, l, "Bad expression"); } if (as -> instruct) { lwasm_reduce_expr(as, expr); if (!lw_expr_istype(expr, lw_expr_type_int)) { lwasm_register_error(as, l, "Expression must be constant at parse time"); } else { int e; e = lw_expr_intval(expr) * 2; register_struct_entry(as, l, e, NULL); l -> len = 0; l -> symset = 1; l -> lint = 1; } } else { if (l -> inmod) { l -> dlen = -1; l -> len = 0; } } lwasm_save_expr(l, 0, expr); } RESOLVEFUNC(pseudo_resolve_rmd) { lw_expr_t expr; if (l -> lint) return; if (l -> inmod) { if (l -> dlen >= 0) return; } else { if (l -> len >= 0) return; } expr = lwasm_fetch_expr(l, 0); if (lw_expr_istype(expr, lw_expr_type_int)) { if (lw_expr_intval(expr) < 0) { lwasm_register_error(as, l, "Negative reservation sizes make no sense! (%d)", lw_expr_intval(expr)); l -> len = 0; l -> dlen = 0; return; } if (l -> inmod) l -> dlen = lw_expr_intval(expr) * 2; else l -> len = lw_expr_intval(expr) * 2; } } EMITFUNC(pseudo_emit_rmd) { if (l -> lint) return; if (l -> len < 0 || l -> dlen < 0) lwasm_register_error(as, l, "Expression not constant"); } PARSEFUNC(pseudo_parse_rmq) { lw_expr_t expr; l -> lint = 0; expr = lwasm_parse_expr(as, p); if (!expr) { lwasm_register_error(as, l, "Bad expression"); } if (as -> instruct) { lwasm_reduce_expr(as, expr); if (!lw_expr_istype(expr, lw_expr_type_int)) { lwasm_register_error(as, l, "Expression must be constant at parse time"); } else { int e; e = lw_expr_intval(expr) * 4; register_struct_entry(as, l, e, NULL); l -> len = 0; l -> symset = 1; l -> lint = 1; } } else { if (as -> inmod) { l -> dlen = -1; l -> len = 0; } } lwasm_save_expr(l, 0, expr); } RESOLVEFUNC(pseudo_resolve_rmq) { lw_expr_t expr; if (l -> lint) return; if (l -> inmod) { if (l -> dlen >= 0) return; } else { if (l -> len >= 0) return; } expr = lwasm_fetch_expr(l, 0); if (lw_expr_istype(expr, lw_expr_type_int)) { if (lw_expr_intval(expr) < 0) { lwasm_register_error(as, l, "Negative reservation sizes make no sense! (%d)", lw_expr_intval(expr)); l -> len = 0; l -> dlen = 0; return; } if (l -> inmod) l -> dlen = lw_expr_intval(expr) * 4; else l -> len = lw_expr_intval(expr) * 4; } } EMITFUNC(pseudo_emit_rmq) { if (l -> lint) return; if (l -> len < 0 || l -> dlen < 0) lwasm_register_error(as, l, "Expression not constant"); } PARSEFUNC(pseudo_parse_zmq) { lw_expr_t expr; expr = lwasm_parse_expr(as, p); if (!expr) { lwasm_register_error(as, l, "Bad expression"); } lwasm_save_expr(l, 0, expr); } RESOLVEFUNC(pseudo_resolve_zmq) { lw_expr_t expr; if (l -> len >= 0) return; expr = lwasm_fetch_expr(l, 0); if (lw_expr_istype(expr, lw_expr_type_int)) { if (lw_expr_intval(expr) < 0) { lwasm_register_error(as, l, "Negative block sizes make no sense! (%d)", lw_expr_intval(expr)); l -> len = 0; return; } l -> len = lw_expr_intval(expr) * 4; } } EMITFUNC(pseudo_emit_zmq) { int i; if (l -> len < 0) { lwasm_register_error(as, l, "Expression not constant"); return; } for (i = 0; i < l -> len; i++) lwasm_emit(l, 0); } PARSEFUNC(pseudo_parse_zmd) { lw_expr_t expr; expr = lwasm_parse_expr(as, p); if (!expr) { lwasm_register_error(as, l, "Bad expression"); } lwasm_save_expr(l, 0, expr); } RESOLVEFUNC(pseudo_resolve_zmd) { lw_expr_t expr; if (l -> len >= 0) return; expr = lwasm_fetch_expr(l, 0); if (lw_expr_istype(expr, lw_expr_type_int)) { if (lw_expr_intval(expr) < 0) { lwasm_register_error(as, l, "Negative block sizes make no sense! (%d)", lw_expr_intval(expr)); l -> len = 0; return; } l -> len = lw_expr_intval(expr) * 2; } } EMITFUNC(pseudo_emit_zmd) { int i; if (l -> len < 0) { lwasm_register_error(as, l, "Expression not constant"); return; } for (i = 0; i < l -> len; i++) lwasm_emit(l, 0); } PARSEFUNC(pseudo_parse_zmb) { lw_expr_t expr; expr = lwasm_parse_expr(as, p); if (!expr) { lwasm_register_error(as, l, "Bad expression"); } lwasm_save_expr(l, 0, expr); } RESOLVEFUNC(pseudo_resolve_zmb) { lw_expr_t expr; if (l -> len >= 0) return; expr = lwasm_fetch_expr(l, 0); if (lw_expr_istype(expr, lw_expr_type_int)) { if (lw_expr_intval(expr) < 0) { lwasm_register_error(as, l, "Negative block sizes make no sense! (%d)", lw_expr_intval(expr)); l -> len = 0; return; } l -> len = lw_expr_intval(expr); } } EMITFUNC(pseudo_emit_zmb) { int i; if (l -> len < 0) { lwasm_register_error(as, l, "Expression not constant"); return; } for (i = 0; i < l -> len; i++) lwasm_emit(l, 0); } PARSEFUNC(pseudo_parse_org) { lw_expr_t e; l -> len = 0; e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } lw_expr_destroy(l -> daddr); l -> daddr = e; if (l -> inmod == 0) { lw_expr_destroy(l -> addr); l -> addr = e; } l -> len = 0; } PARSEFUNC(pseudo_parse_equ) { lw_expr_t e; l -> len = 0; if (!(l -> sym)) { lwasm_register_error(as, l, "Missing symbol"); return; } e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } register_symbol(as, l, l -> sym, e, symbol_flag_none); l -> symset = 1; l -> dptr = lookup_symbol(as, l, l -> sym); lw_expr_destroy(e); } PARSEFUNC(pseudo_parse_set) { lw_expr_t e; l -> len = 0; if (!(l -> sym)) { lwasm_register_error(as, l, "Missing symbol"); return; } e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } register_symbol(as, l, l -> sym, e, symbol_flag_set); l -> symset = 1; l -> dptr = lookup_symbol(as, l, l -> sym); lw_expr_destroy(e); } PARSEFUNC(pseudo_parse_setdp) { lw_expr_t e; l -> len = 0; if (as -> output_format == OUTPUT_OBJ) { lwasm_register_error(as, l, "SETDP not permitted for object target"); return; } e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } // try simplifying the expression and see if it turns into an int lwasm_reduce_expr(as, e); if (!lw_expr_istype(e, lw_expr_type_int)) { lwasm_register_error(as, l, "SETDP must be constant on pass 1"); lw_expr_destroy(e); return; } l -> dpval = lw_expr_intval(e) & 0xff; lw_expr_destroy(e); l -> dshow = l -> dpval; l -> dsize = 1; } PARSEFUNC(pseudo_parse_ifp1) { l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } lwasm_register_warning(as, l, "IFP1 if is not supported; ignoring"); } PARSEFUNC(pseudo_parse_ifp2) { l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } lwasm_register_warning(as, l, "IFP2 if is not supported; ignoring"); } PARSEFUNC(pseudo_parse_ifeq) { lw_expr_t e; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } e = lwasm_parse_cond(as, p); if (e) lwasm_reduce_expr(as, e); if (e && lw_expr_intval(e) != 0) { as -> skipcond = 1; as -> skipcount = 1; } } PARSEFUNC(pseudo_parse_ifne) { lw_expr_t e; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } e = lwasm_parse_cond(as, p); if (e) lwasm_reduce_expr(as, e); if (e && lw_expr_intval(e) == 0) { as -> skipcond = 1; as -> skipcount = 1; } } PARSEFUNC(pseudo_parse_ifgt) { lw_expr_t e; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } e = lwasm_parse_cond(as, p); if (e) lwasm_reduce_expr(as, e); if (e && lw_expr_intval(e) <= 0) { as -> skipcond = 1; as -> skipcount = 1; } } PARSEFUNC(pseudo_parse_ifge) { lw_expr_t e; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } e = lwasm_parse_cond(as, p); if (e) lwasm_reduce_expr(as, e); if (e && lw_expr_intval(e) < 0) { as -> skipcond = 1; as -> skipcount = 1; } } PARSEFUNC(pseudo_parse_iflt) { lw_expr_t e; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } e = lwasm_parse_cond(as, p); if (e) lwasm_reduce_expr(as, e); if (e && lw_expr_intval(e) >= 0) { as -> skipcond = 1; as -> skipcount = 1; } } PARSEFUNC(pseudo_parse_ifle) { lw_expr_t e; l -> hideline = 1; l -> len = 0; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } e = lwasm_parse_cond(as, p); if (e) lwasm_reduce_expr(as, e); if (e && lw_expr_intval(e) > 0) { as -> skipcond = 1; as -> skipcount = 1; } } PARSEFUNC(pseudo_parse_endc) { l -> hideline = 1; l -> len = 0; skip_operand(p); if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount--; if (as -> skipcount <= 0) as -> skipcond = 0; } } PARSEFUNC(pseudo_parse_else) { l -> len = 0; l -> hideline = 1; skip_operand(p); if (as -> skipmacro) return; if (as -> skipcond) { if (as -> skipcount == 1) { as -> skipcount = 0; as -> skipcond = 0; } return; } as -> skipcond = 1; as -> skipcount = 1; } PARSEFUNC(pseudo_parse_ifdef) { char *sym; int i; struct symtabe *s; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } again: for (i = 0; (*p)[i] && !isspace((*p)[i]) && (*p)[i] != '|' && (*p)[i] != '&'; i++) /* do nothing */ ; sym = lw_strndup(*p, i); (*p) += i; s = lookup_symbol(as, l, sym); lw_free(sym); if (!s) { if (**p == '|') { (*p)++; goto again; } as -> skipcond = 1; as -> skipcount = 1; } skip_operand(p); } PARSEFUNC(pseudo_parse_ifndef) { char *sym; int i; struct symtabe *s; l -> len = 0; l -> hideline = 1; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } for (i = 0; (*p)[i] && !isspace((*p)[i]) && (*p)[i] != '&' && (*p)[i] != '|'; i++) /* do nothing */ ; sym = lw_strndup(*p, i); (*p) += i; s = lookup_symbol(as, l, sym); lw_free(sym); if (s) { as -> skipcond = 1; as -> skipcount = 1; return; } } PARSEFUNC(pseudo_parse_error) { lwasm_register_error(as, l, "User error: %s", *p); skip_operand(p); } PARSEFUNC(pseudo_parse_warning) { lwasm_register_warning(as, l, "User warning: %s", *p); l -> len = 0; skip_operand(p); } PARSEFUNC(pseudo_parse_includebin) { char *fn, *p2; int delim = 0; FILE *fp; long flen; char *rfn; if (!**p) { lwasm_register_error(as, l, "Missing filename"); return; } if (**p == '"' || **p == '\'') { delim = **p; (*p)++; for (p2 = *p; *p2 && (*p2 != delim); p2++) /* do nothing */ ; } else { for (p2 = *p; *p2 && !isspace(*p2); p2++) /* do nothing */ ; } fn = lw_strndup(*p, p2 - *p); *p = p2; if (delim && **p) (*p)++; fp = input_open_standalone(as, fn, &rfn); if (!fp) { lwasm_register_error(as, l, "Cannot open file"); lw_free(fn); return; } l -> lstr = rfn; fseek(fp, 0, SEEK_END); flen = ftell(fp); fclose(fp); l -> len = flen; } EMITFUNC(pseudo_emit_includebin) { FILE *fp; int c; fp = fopen(l -> lstr, "r"); if (!fp) { lwasm_register_error(as, l, "Cannot open file (emit)!"); return; } for (;;) { c = fgetc(fp); if (c == EOF) { fclose(fp); return; } lwasm_emit(l, c); } } PARSEFUNC(pseudo_parse_include) { char *fn, *p2; char *p3; int delim = 0; int len; char buf[110]; if (!**p) { lwasm_register_error(as, l, "Missing filename"); return; } if (**p == '"' || **p == '\'') { delim = **p; (*p)++; for (p2 = *p; *p2 && *p2 != delim; p2++) /* do nothing */ ; } else { for (p2 = *p; *p2 && !isspace(*p2); p2++) /* do nothing */ ; } fn = lw_strndup(*p, p2 - *p); (*p) = p2; if (delim && **p) (*p)++; /* add a book-keeping entry for line numbers */ snprintf(buf, 100, "\001\001SETLINENO %d\n", l -> lineno + 1); input_openstring(as, "INTERNAL", buf); len = strlen(fn) + 8; p3 = lw_alloc(len + 1); sprintf(p3, "include:%s", fn); as -> fileerr = 0; input_open(as, p3); lw_free(p3); if (as -> fileerr == 0) l -> hideline = 1; l -> len = 0; lw_free(fn); } PARSEFUNC(pseudo_parse_align) { lw_expr_t e; if (!**p) { lwasm_register_error(as, l, "Bad operand"); return; } e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } lwasm_save_expr(l, 0, e); if (**p == ',') { (*p)++; e = lwasm_parse_expr(as, p); } else { e = lw_expr_build(lw_expr_type_int, 0); } if (!e) { lwasm_register_error(as, l, "Bad padding"); return; } lwasm_save_expr(l, 1, e); } RESOLVEFUNC(pseudo_resolve_align) { lw_expr_t e; int align = 1; e = lwasm_fetch_expr(l, 0); if (lw_expr_istype(e, lw_expr_type_int)) { align = lw_expr_intval(e); if (align < 1) { lwasm_register_error(as, l, "Invalid alignment"); return; } } if (lw_expr_istype(l -> addr, lw_expr_type_int)) { int a; a = lw_expr_intval(l -> addr); if (a % align == 0) { l -> len = 0; return; } l -> len = align - (a % align); return; } } EMITFUNC(pseudo_emit_align) { lw_expr_t e; int i; e = lwasm_fetch_expr(l, 1); for (i = 0; i < l -> len; i++) { lwasm_emitexpr(l, e, 1); } } PARSEFUNC(pseudo_parse_fill) { lw_expr_t e, e1; if (!**p) { lwasm_register_error(as, l, "Bad operand"); return; } e1 = lwasm_parse_expr(as, p); if (**p != ',') { lwasm_register_error(as, l, "Bad operand"); return; } (*p)++; e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } lwasm_save_expr(l, 0, e); lwasm_save_expr(l, 1, e1); if (!e1) { lwasm_register_error(as, l, "Bad padding"); return; } } RESOLVEFUNC(pseudo_resolve_fill) { lw_expr_t e; int align = 1; e = lwasm_fetch_expr(l, 0); if (lw_expr_istype(e, lw_expr_type_int)) { align = lw_expr_intval(e); if (align < 1) { lwasm_register_error(as, l, "Invalid fill length"); return; } } if (lw_expr_istype(l -> addr, lw_expr_type_int)) { l -> len = align; return; } } EMITFUNC(pseudo_emit_fill) { lw_expr_t e; int i; e = lwasm_fetch_expr(l, 1); for (i = 0; i < l -> len; i++) { lwasm_emitexpr(l, e, 1); } } /* string conditional argument parser */ /* argument syntax: a bare word ended by whitespace, comma, or NUL a double quote delimited string containing arbitrary printable characters a single quote delimited string containing arbitrary printable characters In a double quoted string, a double quote cannot be represented. In a single quoted string, a single quote cannot be represented. */ char *strcond_parsearg(char **p) { char *arg; char *tstr; int i; tstr = *p; if (!**p || isspace(**p)) { return lw_strdup(""); } if (*tstr == '"') { // double quote delim tstr++; for (i = 0; tstr[i] && tstr[i] != '"'; i++) /* do nothing */ ; arg = lw_alloc(i + 1); strncpy(arg, tstr, i); arg[i] = 0; if (tstr[i]) i++; *p += i; return arg; } else if (*tstr == '\'') { // single quote delim tstr++; for (i = 0; tstr[i] && tstr[i] != '\''; i++) /* do nothing */ ; arg = lw_alloc(i + 1); strncpy(arg, tstr, i); arg[i] = 0; if (tstr[i]) i++; *p += i; return arg; } else { // bare word - whitespace or comma delim for (i = 0; tstr[i] && !isspace(tstr[i]) && tstr[i] != ','; i++) /* do nothing */ ; arg = lw_alloc(i + 1); strncpy(arg, tstr, i); arg[i] = 0; if (tstr[i] == ',') i++; *p += i; return arg; } } /* string conditional helpers */ /* return "1" for true, "0" for false */ int strcond_eq(char **p) { char *arg1; char *arg2; int c = 0; arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); if (strcmp(arg1, arg2) == 0) c = 1; lw_free(arg1); lw_free(arg2); return c; } int strcond_ieq(char **p) { char *arg1; char *arg2; int c = 0; arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); if (strcasecmp(arg1, arg2) == 0) c = 1; lw_free(arg1); lw_free(arg2); return c; } int strcond_ne(char **p) { char *arg1; char *arg2; int c = 0; arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); if (strcmp(arg1, arg2) != 0) c = 1; lw_free(arg1); lw_free(arg2); return c; } int strcond_ine(char **p) { char *arg1; char *arg2; int c = 0; arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); if (strcasecmp(arg1, arg2) != 0) c = 1; lw_free(arg1); lw_free(arg2); return c; } int strcond_peq(char **p) { char *arg0; char *arg1; char *arg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) arg1[plen] = 0; if (strlen(arg2) > plen) arg2[plen] = 0; if (strcmp(arg1, arg2) == 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_ipeq(char **p) { char *arg0; char *arg1; char *arg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) arg1[plen] = 0; if (strlen(arg2) > plen) arg2[plen] = 0; if (strcasecmp(arg1, arg2) == 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_pne(char **p) { char *arg0; char *arg1; char *arg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) arg1[plen] = 0; if (strlen(arg2) > plen) arg2[plen] = 0; if (strcmp(arg1, arg2) != 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_ipne(char **p) { char *arg0; char *arg1; char *arg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) arg1[plen] = 0; if (strlen(arg2) > plen) arg2[plen] = 0; if (strcasecmp(arg1, arg2) != 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_seq(char **p) { char *arg0; char *arg1; char *arg2; char *rarg1; char *rarg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); rarg1 = arg1; rarg2 = arg2; plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) { rarg1 += strlen(arg1) - plen; } if (strlen(arg2) > plen) { rarg2 += strlen(arg2) - plen; } if (strcmp(rarg1, rarg2) == 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_iseq(char **p) { char *arg0; char *arg1; char *arg2; char *rarg1; char *rarg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); rarg1 = arg1; rarg2 = arg2; plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) { rarg1 += strlen(arg1) - plen; } if (strlen(arg2) > plen) { rarg2 += strlen(arg2) - plen; } if (strcasecmp(rarg1, rarg2) == 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_sne(char **p) { char *arg0; char *arg1; char *arg2; char *rarg1; char *rarg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); rarg1 = arg1; rarg2 = arg2; plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) { rarg1 += strlen(arg1) - plen; } if (strlen(arg2) > plen) { rarg2 += strlen(arg2) - plen; } if (strcmp(rarg1, rarg2) != 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } int strcond_isne(char **p) { char *arg0; char *arg1; char *arg2; char *rarg1; char *rarg2; int plen; int c = 0; arg0 = strcond_parsearg(p); arg1 = strcond_parsearg(p); arg2 = strcond_parsearg(p); rarg1 = arg1; rarg2 = arg2; plen = strtol(arg0, NULL, 10); if (strlen(arg1) > plen) { rarg1 += strlen(arg1) - plen; } if (strlen(arg2) > plen) { rarg2 += strlen(arg2) - plen; } if (strcasecmp(rarg1, rarg2) != 0) c = 1; lw_free(arg0); lw_free(arg1); lw_free(arg2); return c; } /* string conditionals */ PARSEFUNC(pseudo_parse_ifstr) { static struct strconds { char *str; int (*fn)(char **ptr); } strops[] = { { "eq", strcond_eq }, { "ieq", strcond_ieq }, { "ne", strcond_ne }, { "ine", strcond_ine }, { "peq", strcond_peq }, { "ipeq", strcond_ipeq }, { "pne", strcond_pne }, { "ipne", strcond_ipne }, { "seq", strcond_seq }, { "iseq", strcond_iseq }, { "sne", strcond_sne }, { "isne", strcond_isne }, { NULL, 0 } }; int tv = 0; char *tstr; int strop; l -> len = 0; if (as -> skipcond && !(as -> skipmacro)) { as -> skipcount++; skip_operand(p); return; } tstr = strcond_parsearg(p); if (!**p || isspace(**p)) { lwasm_register_error(as, l, "Bad string condition"); return; } for (strop = 0; strops[strop].str != NULL; strop++) if (strcasecmp(strops[strop].str, tstr) == 0) break; lw_free(tstr); if (strops[strop].str == NULL) { lwasm_register_error(as, l, "Bad string condition"); } tv = (*(strops[strop].fn))(p); if (!tv) { as -> skipcond = 1; as -> skipcount = 1; } }