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view lwasm/insn_gen.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 | 7317fbe024af |
children | b78b2f1e011e |
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/* insn_gen.c, Copyright © 2009 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/>. Contains code for parsing general addressing modes (IMM+DIR+EXT+IND) */ #include <ctype.h> #include <stdlib.h> #include <lw_expr.h> #include "lwasm.h" #include "instab.h" extern void insn_indexed_parse_aux(asmstate_t *as, line_t *l, char **p); extern void insn_indexed_resolve_aux(asmstate_t *as, line_t *l, int force, int elen); extern void insn_indexed_emit_aux(asmstate_t *as, line_t *l); extern void insn_parse_indexed_aux(asmstate_t *as, line_t *l, char **p); extern void insn_resolve_indexed_aux(asmstate_t *as, line_t *l, int force, int elen); // "extra" is required due to the way OIM, EIM, TIM, and AIM work void insn_parse_gen_aux(asmstate_t *as, line_t *l, char **p) { const char *optr2; int v1, tv; lw_expr_t s; optr2 = *p; while (*optr2 && !isspace(*optr2) && *optr2 != ',') optr2++ /* do nothing */ ; if (*optr2 == ',' || **p == '[') { l -> lint = -1; l -> lint2 = 1; insn_parse_indexed_aux(as, l, p); goto out; } if (**p == '<') { (*p)++; l -> lint2 = 0; } // for compatibility with asxxxx // * followed by a digit, alpha, or _, or ., or ?, or another * is "f8" else if (**p == '*') { tv = *(*p + 1); if (isdigit(tv) || isalpha(tv) || tv == '_' || tv == '.' || tv == '?' || tv == '@' || tv == '*' || tv == '+' || tv == '-') { l -> lint2 = 0; (*p)++; } } else if (**p == '>') { (*p)++; l -> lint2 = 2; } else { l -> lint2 = -1; } s = lwasm_parse_expr(as, p); if (!s) { lwasm_register_error(as, l, "Bad operand"); return; } lwasm_save_expr(l, 0, s); if (as -> output_format == OUTPUT_OBJ && l -> lint2 == -1) { l -> lint2 = 2; goto out; } if (l -> lint2 != -1) goto out; // if we have a constant now, figure out dp vs nondp if (lw_expr_istype(s, lw_expr_type_int)) { v1 = lw_expr_intval(s); if (((v1 >> 8) & 0xff) == (l -> dpval & 0xff)) { l -> lint2 = 0; goto out; } l -> lint2 = 2; } out: if (l -> lint2 != -1) { if (l -> lint2 == 0) { l -> len = OPLEN(instab[l -> insn].ops[0]) + 1; } else if (l -> lint2 == 2) { l -> len = OPLEN(instab[l -> insn].ops[2]) + 2; } else if (l -> lint2 == 1 && l -> lint != -1) { l -> len = OPLEN(instab[l -> insn].ops[1]) + l -> lint + 1; } } } void insn_resolve_gen_aux(asmstate_t *as, line_t *l, int force, int elen) { lw_expr_t e; if (l -> lint2 == 1) { // indexed insn_resolve_indexed_aux(as, l, force, elen); goto out; } if (l -> lint2 != -1) return; e = lwasm_fetch_expr(l, 0); if (lw_expr_istype(e, lw_expr_type_int)) { int v; v = lw_expr_intval(e); if (((v >> 8) & 0xff) == (l -> dpval & 0xff)) { l -> lint2 = 0; goto out; } l -> lint2 = 2; goto out; } if (force) { l -> lint2 = 2; } out: if (l -> lint2 != -1) { if (l -> lint2 == 0) { l -> len = OPLEN(instab[l -> insn].ops[0]) + 1; } else if (l -> lint2 == 2) { l -> len = OPLEN(instab[l -> insn].ops[2]) + 2; } else if (l -> lint2 == 1 && l -> lint != -1) { l -> len = OPLEN(instab[l -> insn].ops[1]) + l -> lint + 1; } } } void insn_emit_gen_aux(asmstate_t *as, line_t *l, int extra) { lw_expr_t e; e = lwasm_fetch_expr(l, 0); lwasm_emitop(l, instab[l -> insn].ops[l -> lint2]); if (extra != -1) lwasm_emit(l, extra); if (l -> lint2 == 1) { lwasm_emit(l, l -> pb); if (l -> lint > 0) lwasm_emitexpr(l, e, l -> lint); return; } if (l -> lint2 == 2) lwasm_emitexpr(l, e, 2); else lwasm_emitexpr(l, e, 1); } // the various insn_gen? functions have an immediate mode of ? bits PARSEFUNC(insn_parse_gen0) { if (**p == '#') { lwasm_register_error(as, l, "Immediate mode not allowed"); return; } // handle non-immediate insn_parse_gen_aux(as, l, p); } RESOLVEFUNC(insn_resolve_gen0) { if (l -> len != -1) return; // handle non-immediate insn_resolve_gen_aux(as, l, force, 0); } EMITFUNC(insn_emit_gen0) { insn_emit_gen_aux(as, l, -1); } PARSEFUNC(insn_parse_gen8) { if (**p == '#') { lw_expr_t e; (*p)++; e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } l -> len = OPLEN(instab[l -> insn].ops[3]) + 1; l -> lint2 = 3; lwasm_save_expr(l, 0, e); return; } // handle non-immediate insn_parse_gen_aux(as, l, p); if (l -> lint2 != -1) { if (l -> lint2 == 0) { l -> len = OPLEN(instab[l -> insn].ops[0]) + 1; } else if (l -> lint2 == 2) { l -> len = OPLEN(instab[l -> insn].ops[2]) + 2; } else if (l -> lint2 == 1 && l -> lint != -1) { l -> len = OPLEN(instab[l -> insn].ops[1]) + l -> lint + 1; } } } RESOLVEFUNC(insn_resolve_gen8) { if (l -> len != -1) return; // handle non-immediate insn_resolve_gen_aux(as, l, force, 0); } EMITFUNC(insn_emit_gen8) { if (l -> lint2 == 3) { lw_expr_t e; e = lwasm_fetch_expr(l, 0); lwasm_emitop(l, instab[l -> insn].ops[3]); lwasm_emitexpr(l, e, 1); return; } insn_emit_gen_aux(as, l, -1); } PARSEFUNC(insn_parse_gen16) { if (**p == '#') { lw_expr_t e; (*p)++; e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } l -> len = OPLEN(instab[l -> insn].ops[3]) + 2; l -> lint2 = 3; lwasm_save_expr(l, 0, e); return; } // handle non-immediate insn_parse_gen_aux(as, l, p); if (l -> lint2 != -1) { if (l -> lint2 == 0) { l -> len = OPLEN(instab[l -> insn].ops[0]) + 1; } else if (l -> lint2 == 2) { l -> len = OPLEN(instab[l -> insn].ops[2]) + 2; } else if (l -> lint2 == 1 && l -> lint != -1) { l -> len = OPLEN(instab[l -> insn].ops[1]) + l -> lint + 1; } } } RESOLVEFUNC(insn_resolve_gen16) { if (l -> len != -1) return; // handle non-immediate insn_resolve_gen_aux(as, l, force, 0); } EMITFUNC(insn_emit_gen16) { if (l -> lint2 == 3) { lw_expr_t e; e = lwasm_fetch_expr(l, 0); lwasm_emitop(l, instab[l -> insn].ops[3]); lwasm_emitexpr(l, e, 2); return; } insn_emit_gen_aux(as, l, -1); } PARSEFUNC(insn_parse_gen32) { if (**p == '#') { lw_expr_t e; (*p)++; e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } l -> len = OPLEN(instab[l -> insn].ops[3]) + 4; l -> lint2 = 3; lwasm_save_expr(l, 0, e); return; } // handle non-immediate insn_parse_gen_aux(as, l, p); if (l -> lint2 != -1) { if (l -> lint2 == 0) { l -> len = OPLEN(instab[l -> insn].ops[0]) + 1; } else if (l -> lint2 == 2) { l -> len = OPLEN(instab[l -> insn].ops[2]) + 2; } else if (l -> lint2 == 1 && l -> lint != -1) { l -> len = OPLEN(instab[l -> insn].ops[1]) + l -> lint + 1; } } } RESOLVEFUNC(insn_resolve_gen32) { if (l -> len != -1) return; // handle non-immediate insn_resolve_gen_aux(as, l, force, 0); } EMITFUNC(insn_emit_gen32) { if (l -> lint2 == 3) { lw_expr_t e; e = lwasm_fetch_expr(l, 0); lwasm_emitop(l, instab[l -> insn].ops[3]); lwasm_emitexpr(l, e, 4); return; } insn_emit_gen_aux(as, l, -1); } PARSEFUNC(insn_parse_imm8) { lw_expr_t e; if (**p == '#') { (*p)++; e = lwasm_parse_expr(as, p); if (!e) { lwasm_register_error(as, l, "Bad operand"); return; } l -> len = OPLEN(instab[l -> insn].ops[0]) + 1; lwasm_save_expr(l, 0, e); } } EMITFUNC(insn_emit_imm8) { lw_expr_t e; lwasm_emitop(l, instab[l -> insn].ops[0]); e = lwasm_fetch_expr(l, 0); lwasm_emitexpr(l, e, 1); }