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chromium / chromium / deps / yasm / patched-yasm / d65182f1818d1c19e6f3866ab6e68a262fad5185 / . / modules / parsers / nasm / nasm-parse.c
blob: 44d3b5d7074bc8f6dd82cb58b7a24f2741d5f00c [file] [log] [blame]
/*
* NASM-compatible parser
*
* Copyright (C) 2001-2007 Peter Johnson, Michael Urman
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND OTHER CONTRIBUTORS ``AS IS''
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR OTHER CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <util.h>
#include <libyasm.h>
#include <math.h>
#include "modules/parsers/nasm/nasm-parser.h"
#include "modules/preprocs/nasm/nasm.h"
typedef enum {
NORM_EXPR,
DIR_EXPR, /* Can't have seg:off or WRT anywhere */
DV_EXPR /* Can't have registers anywhere */
} expr_type;
static yasm_bytecode *parse_line(yasm_parser_nasm *parser_nasm);
static int parse_directive_valparams(yasm_parser_nasm *parser_nasm,
/*@out@*/ yasm_valparamhead *vps);
static yasm_bytecode *parse_times(yasm_parser_nasm *parser_nasm);
static yasm_bytecode *parse_exp(yasm_parser_nasm *parser_nasm);
static yasm_bytecode *parse_instr(yasm_parser_nasm *parser_nasm);
static yasm_insn_operand *parse_operand(yasm_parser_nasm *parser_nasm);
static yasm_insn_operand *parse_memaddr(yasm_parser_nasm *parser_nasm);
static yasm_expr *parse_expr(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_bexpr(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr0(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr1(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr2(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr3(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr4(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr5(yasm_parser_nasm *parser_nasm, expr_type type);
static yasm_expr *parse_expr6(yasm_parser_nasm *parser_nasm, expr_type type);
static void nasm_parser_directive
(yasm_parser_nasm *parser_nasm, const char *name,
/*@null@*/ yasm_valparamhead *valparams,
/*@null@*/ yasm_valparamhead *objext_valparams);
static void set_nonlocal_label(yasm_parser_nasm *parser_nasm, const char *name);
static void define_label(yasm_parser_nasm *parser_nasm, /*@only@*/ char *name,
unsigned int size);
static void yasm_ea_set_implicit_size_segment(yasm_parser_nasm *parser_nasm,
yasm_effaddr *ea, yasm_expr *e)
{
if (parser_nasm->tasm) {
const char *segment = yasm_expr_segment(e);
ea->data_len = yasm_expr_size(e);
if (segment) {
const char *segreg = tasm_get_segment_register(segment);
if (segreg)
yasm_arch_parse_check_regtmod(p_object->arch, segreg,
strlen(segreg), &ea->segreg);
}
}
}
#define is_eol_tok(tok) ((tok) == 0)
#define is_eol() is_eol_tok(curtok)
#define get_next_token() (curtok = nasm_parser_lex(&curval, parser_nasm))
static void
get_peek_token(yasm_parser_nasm *parser_nasm)
{
char savech = parser_nasm->tokch;
if (parser_nasm->peek_token != NONE)
yasm_internal_error(N_("only can have one token of lookahead"));
parser_nasm->peek_token =
nasm_parser_lex(&parser_nasm->peek_tokval, parser_nasm);
parser_nasm->peek_tokch = parser_nasm->tokch;
parser_nasm->tokch = savech;
}
static void
destroy_curtok_(yasm_parser_nasm *parser_nasm)
{
if (curtok < 256)
;
else switch ((enum tokentype)curtok) {
case INTNUM:
yasm_intnum_destroy(curval.intn);
break;
case FLTNUM:
yasm_floatnum_destroy(curval.flt);
break;
case DIRECTIVE_NAME:
case FILENAME:
case ID:
case LOCAL_ID:
case SPECIAL_ID:
case NONLOCAL_ID:
yasm_xfree(curval.str_val);
break;
case STRING:
yasm_xfree(curval.str.contents);
break;
case INSN:
yasm_bc_destroy(curval.bc);
break;
default:
break;
}
curtok = NONE; /* sanity */
}
#define destroy_curtok() destroy_curtok_(parser_nasm)
/* Eat all remaining tokens to EOL, discarding all of them. If there's any
* intervening tokens, generates an error (junk at end of line).
*/
static void
demand_eol_(yasm_parser_nasm *parser_nasm)
{
if (is_eol())
return;
yasm_error_set(YASM_ERROR_SYNTAX,
N_("junk at end of line, first unrecognized character is `%c'"),
parser_nasm->tokch);
do {
destroy_curtok();
get_next_token();
} while (!is_eol());
}
#define demand_eol() demand_eol_(parser_nasm)
static const char *
describe_token(int token)
{
static char strch[] = "` '";
const char *str;
switch (token) {
case 0: str = "end of line"; break;
case INTNUM: str = "integer"; break;
case FLTNUM: str = "floating point value"; break;
case DIRECTIVE_NAME: str = "directive name"; break;
case FILENAME: str = "filename"; break;
case STRING: str = "string"; break;
case SIZE_OVERRIDE: str = "size override"; break;
case DECLARE_DATA: str = "DB/DW/etc."; break;
case RESERVE_SPACE: str = "RESB/RESW/etc."; break;
case INCBIN: str = "INCBIN"; break;
case EQU: str = "EQU"; break;
case TIMES: str = "TIMES"; break;
case SEG: str = "SEG"; break;
case WRT: str = "WRT"; break;
case NOSPLIT: str = "NOSPLIT"; break;
case STRICT: str = "STRICT"; break;
case INSN: str = "instruction"; break;
case PREFIX: str = "instruction prefix"; break;
case REG: str = "register"; break;
case REGGROUP: str = "register group"; break;
case SEGREG: str = "segment register"; break;
case TARGETMOD: str = "target modifier"; break;
case LEFT_OP: str = "<<"; break;
case RIGHT_OP: str = ">>"; break;
case SIGNDIV: str = "//"; break;
case SIGNMOD: str = "%%"; break;
case START_SECTION_ID: str = "$$"; break;
case ID: str = "identifier"; break;
case LOCAL_ID: str = ".identifier"; break;
case SPECIAL_ID: str = "..identifier"; break;
case NONLOCAL_ID: str = "..@identifier"; break;
case LINE: str = "%line"; break;
default:
strch[1] = token;
str = strch;
break;
}
return str;
}
static int
expect_(yasm_parser_nasm *parser_nasm, int token)
{
if (curtok == token)
return 1;
yasm_error_set(YASM_ERROR_PARSE, "expected %s", describe_token(token));
destroy_curtok();
return 0;
}
#define expect(token) expect_(parser_nasm, token)
void
nasm_parser_parse(yasm_parser_nasm *parser_nasm)
{
unsigned char *line;
while ((line = (unsigned char *)
yasm_preproc_get_line(parser_nasm->preproc)) != NULL) {
yasm_bytecode *bc = NULL, *temp_bc;
parser_nasm->s.bot = line;
parser_nasm->s.tok = line;
parser_nasm->s.ptr = line;
parser_nasm->s.cur = line;
parser_nasm->s.lim = line + strlen((char *)line)+1;
parser_nasm->s.top = parser_nasm->s.lim;
get_next_token();
if (!is_eol()) {
bc = parse_line(parser_nasm);
demand_eol();
}
if (parser_nasm->abspos) {
/* If we're inside an absolute section, just add to the absolute
* position rather than appending bytecodes to a section.
* Only RES* are allowed in an absolute section, so this is easy.
*/
if (bc) {
/*@null@*/ const yasm_expr *numitems, *multiple;
unsigned int itemsize;
numitems = yasm_bc_reserve_numitems(bc, &itemsize);
if (numitems) {
yasm_expr *e;
e = yasm_expr_create(YASM_EXPR_MUL,
yasm_expr_expr(yasm_expr_copy(numitems)),
yasm_expr_int(yasm_intnum_create_uint(itemsize)),
cur_line);
multiple = yasm_bc_get_multiple_expr(bc);
if (multiple)
e = yasm_expr_create_tree(e, YASM_EXPR_MUL,
yasm_expr_copy(multiple),
cur_line);
parser_nasm->abspos = yasm_expr_create_tree(
parser_nasm->abspos, YASM_EXPR_ADD, e, cur_line);
} else
yasm_error_set(YASM_ERROR_SYNTAX,
N_("only RES* allowed within absolute section"));
yasm_bc_destroy(bc);
}
temp_bc = NULL;
} else if (bc) {
temp_bc = yasm_section_bcs_append(cursect, bc);
if (temp_bc)
parser_nasm->prev_bc = temp_bc;
} else
temp_bc = NULL;
yasm_errwarn_propagate(parser_nasm->errwarns, cur_line);
if (parser_nasm->save_input)
yasm_linemap_add_source(parser_nasm->linemap, temp_bc,
(char *)line);
yasm_linemap_goto_next(parser_nasm->linemap);
yasm_xfree(line);
}
}
/* All parse_* functions expect to be called with curtok being their first
* token. They should return with curtok being the token *after* their
* information.
*/
static yasm_bytecode *
parse_line(yasm_parser_nasm *parser_nasm)
{
yasm_bytecode *bc;
bc = parse_exp(parser_nasm);
if (bc)
return bc;
switch (curtok) {
case LINE: /* LINE INTNUM '+' INTNUM FILENAME */
{
yasm_intnum *line, *incr;
char *filename;
get_next_token();
if (!expect(INTNUM)) return NULL;
line = INTNUM_val;
get_next_token();
if (!expect('+')) return NULL;
get_next_token();
if (!expect(INTNUM)) return NULL;
incr = INTNUM_val;
get_next_token();
if (!expect(FILENAME)) return NULL;
filename = FILENAME_val;
get_next_token();
/* %line indicates the line number of the *next* line, so subtract
* out the increment when setting the line number.
*/
yasm_linemap_set(parser_nasm->linemap, filename, 0,
yasm_intnum_get_uint(line) - yasm_intnum_get_uint(incr),
yasm_intnum_get_uint(incr));
yasm_intnum_destroy(line);
yasm_intnum_destroy(incr);
yasm_xfree(filename);
return NULL;
}
case '[': /* [ directive ] */
{
char *dirname;
yasm_valparamhead dir_vps;
int have_vps = 1;
parser_nasm->state = DIRECTIVE;
get_next_token();
if (!expect(DIRECTIVE_NAME))
return NULL;
dirname = DIRECTIVE_NAME_val;
get_next_token();
/* ignore [warning]. TODO: actually implement */
if (yasm__strcasecmp(dirname, "warning") == 0) {
yasm_warn_set(YASM_WARN_GENERAL,
N_("[warning] directive not supported; ignored"));
/* throw away the rest of the directive tokens */
while (!is_eol() && curtok != ']')
{
destroy_curtok();
get_next_token();
}
expect(']');
get_next_token();
return NULL;
}
if (curtok == ']' || curtok == ':')
have_vps = 0;
else if (!parse_directive_valparams(parser_nasm, &dir_vps)) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("invalid arguments to [%s]"), dirname);
yasm_xfree(dirname);
return NULL;
}
if (curtok == ':') {
yasm_valparamhead ext_vps;
get_next_token();
if (!parse_directive_valparams(parser_nasm, &ext_vps)) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("invalid arguments to [%s]"), dirname);
yasm_xfree(dirname);
return NULL;
}
nasm_parser_directive(parser_nasm, dirname,
have_vps ? &dir_vps : NULL, &ext_vps);
} else
nasm_parser_directive(parser_nasm, dirname,
have_vps ? &dir_vps : NULL, NULL);
yasm_xfree(dirname);
expect(']');
get_next_token();
return NULL;
}
case TIMES: /* TIMES expr exp */
get_next_token();
return parse_times(parser_nasm);
case ID:
case SPECIAL_ID:
case NONLOCAL_ID:
case LOCAL_ID:
{
char *name = ID_val;
int local = parser_nasm->tasm
? (curtok == ID || curtok == LOCAL_ID ||
(curtok == SPECIAL_ID && name[0] == '@'))
: (curtok != ID);
unsigned int size = 0;
get_next_token();
if (is_eol()) {
/* label alone on the line */
yasm_warn_set(YASM_WARN_ORPHAN_LABEL,
N_("label alone on a line without a colon might be in error"));
if (!local)
set_nonlocal_label(parser_nasm, name);
define_label(parser_nasm, name, 0);
return NULL;
}
if (curtok == ':')
get_next_token();
if (curtok == EQU || (parser_nasm->tasm && curtok == '=')) {
/* label EQU expr */
yasm_expr *e;
get_next_token();
if (parser_nasm->tasm && curtok == SIZE_OVERRIDE) {
size = SIZE_OVERRIDE_val;
get_next_token();
}
e = parse_expr(parser_nasm, NORM_EXPR);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expression expected after %s"), "EQU");
yasm_xfree(name);
return NULL;
}
yasm_symtab_define_equ(p_symtab, name, e, cur_line);
yasm_xfree(name);
return NULL;
}
if (parser_nasm->tasm && curtok == LABEL)
get_next_token();
if (parser_nasm->tasm && curtok == SIZE_OVERRIDE) {
size = SIZE_OVERRIDE_val;
get_next_token();
}
if (!local)
set_nonlocal_label(parser_nasm, name);
if (is_eol()) {
define_label(parser_nasm, name, size);
return NULL;
}
if (curtok == TIMES) {
define_label(parser_nasm, name, size);
get_next_token();
return parse_times(parser_nasm);
}
bc = parse_exp(parser_nasm);
if (!parser_nasm->tasm && !bc)
yasm_error_set(YASM_ERROR_SYNTAX,
N_("instruction expected after label"));
if (parser_nasm->tasm && bc && !size)
size = yasm_bc_elem_size(bc);
define_label(parser_nasm, name, size);
return bc;
}
default:
yasm_error_set(YASM_ERROR_SYNTAX,
N_("label or instruction expected at start of line"));
return NULL;
}
}
static int
parse_directive_valparams(yasm_parser_nasm *parser_nasm,
/*@out@*/ yasm_valparamhead *vps)
{
yasm_vps_initialize(vps);
for (;;) {
yasm_valparam *vp;
yasm_expr *e;
char *id = NULL;
/* Look for value first */
if (curtok == ID) {
get_peek_token(parser_nasm);
if (parser_nasm->peek_token == '=') {
id = ID_val;
get_next_token(); /* id */
get_next_token(); /* '=' */
}
}
/* Look for parameter */
switch (curtok) {
case STRING:
vp = yasm_vp_create_string(id, STRING_val.contents);
get_next_token();
break;
case ID:
/* We need a peek token, but avoid error if we have one
* already; we need to work whether or not we hit the
* "value=" if test above.
*
* We cheat and peek ahead to see if this is just an ID or
* the ID is part of an expression. We assume a + or - means
* that it's part of an expression (e.g. "x+y" is parsed as
* the expression "x+y" and not as "x", "+y").
*/
if (parser_nasm->peek_token == NONE)
get_peek_token(parser_nasm);
switch (parser_nasm->peek_token) {
case '|': case '^': case '&': case LEFT_OP: case RIGHT_OP:
case '+': case '-':
case '*': case '/': case '%': case SIGNDIV: case SIGNMOD:
break;
default:
/* Just an id */
vp = yasm_vp_create_id(id, ID_val, '$');
get_next_token();
goto next;
}
/*@fallthrough@*/
default:
e = parse_expr(parser_nasm, DIR_EXPR);
if (!e) {
yasm_vps_delete(vps);
return 0;
}
vp = yasm_vp_create_expr(id, e);
break;
}
next:
yasm_vps_append(vps, vp);
if (curtok == ',')
get_next_token();
if (curtok == ']' || curtok == ':' || is_eol())
return 1;
}
}
static yasm_bytecode *
parse_times(yasm_parser_nasm *parser_nasm)
{
yasm_expr *multiple;
yasm_bytecode *bc;
multiple = parse_bexpr(parser_nasm, DV_EXPR);
if (!multiple) {
yasm_error_set(YASM_ERROR_SYNTAX, N_("expression expected after %s"),
"TIMES");
return NULL;
}
bc = parse_exp(parser_nasm);
if (!bc) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("instruction expected after TIMES expression"));
yasm_expr_destroy(multiple);
return NULL;
}
yasm_bc_set_multiple(bc, multiple);
return bc;
}
static yasm_bytecode *
parse_exp(yasm_parser_nasm *parser_nasm)
{
yasm_bytecode *bc;
bc = parse_instr(parser_nasm);
if (bc)
return bc;
switch (curtok) {
case DECLARE_DATA:
{
unsigned int size = DECLARE_DATA_val/8;
yasm_datavalhead dvs;
yasm_dataval *dv;
yasm_expr *e, *e2;
get_next_token();
yasm_dvs_initialize(&dvs);
for (;;) {
if (curtok == STRING) {
/* Peek ahead to see if we're in an expr. If we're not,
* then generate a real string dataval.
*/
get_peek_token(parser_nasm);
if (parser_nasm->peek_token == ','
|| is_eol_tok(parser_nasm->peek_token)) {
dv = yasm_dv_create_string(STRING_val.contents,
STRING_val.len);
get_next_token();
goto dv_done;
}
}
if (curtok == '?') {
yasm_dvs_delete(&dvs);
get_next_token();
if (! is_eol_tok(curtok)) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("can not handle more than one '?'"));
return NULL;
}
return yasm_bc_create_reserve(
p_expr_new_ident(yasm_expr_int(
yasm_intnum_create_uint(1))),
size, cur_line);
}
if (!(e = parse_bexpr(parser_nasm, DV_EXPR))) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expression or string expected"));
yasm_dvs_delete(&dvs);
return NULL;
}
if (curtok == DUP) {
get_next_token();
if (curtok != '(') {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected ( after DUP"));
goto error;
}
get_next_token();
if (curtok == '?') {
get_next_token();
if (curtok != ')') {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected ) after DUPlicated expression"));
goto error;
}
get_next_token();
if (! is_eol_tok(curtok)) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("can not handle more than one '?'"));
goto error;
}
yasm_dvs_delete(&dvs);
return yasm_bc_create_reserve(e, size, cur_line);
} else if ((e2 = parse_bexpr(parser_nasm, DV_EXPR))) {
if (curtok != ')') {
yasm_expr_destroy(e2);
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected ) after DUPlicated expression"));
goto error;
}
get_next_token();
dv = yasm_dv_create_expr(e2);
yasm_dv_set_multiple(dv, e);
} else {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expression or string expected"));
error:
yasm_expr_destroy(e);
yasm_dvs_delete(&dvs);
return NULL;
}
} else
dv = yasm_dv_create_expr(e);
dv_done:
yasm_dvs_append(&dvs, dv);
if (is_eol())
break;
if (!expect(',')) {
yasm_dvs_delete(&dvs);
return NULL;
}
get_next_token();
if (is_eol()) /* allow trailing , on list */
break;
}
return yasm_bc_create_data(&dvs, size, 0, p_object->arch,
cur_line);
}
case RESERVE_SPACE:
{
unsigned int size = RESERVE_SPACE_val/8;
yasm_expr *e;
get_next_token();
e = parse_bexpr(parser_nasm, DV_EXPR);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expression expected after %s"), "RESx");
return NULL;
}
return yasm_bc_create_reserve(e, size, cur_line);
}
case INCBIN:
{
char *filename;
yasm_expr *start = NULL, *maxlen = NULL;
get_next_token();
if (!expect(STRING)) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("filename string expected after INCBIN"));
return NULL;
}
filename = STRING_val.contents;
get_next_token();
/* optional start expression */
if (curtok == ',')
get_next_token();
if (is_eol())
goto incbin_done;
start = parse_bexpr(parser_nasm, DV_EXPR);
if (!start) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expression expected for INCBIN start"));
return NULL;
}
/* optional maxlen expression */
if (curtok == ',')
get_next_token();
if (is_eol())
goto incbin_done;
maxlen = parse_bexpr(parser_nasm, DV_EXPR);
if (!maxlen) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expression expected for INCBIN maximum length"));
return NULL;
}
incbin_done:
return yasm_bc_create_incbin(filename, start, maxlen,
parser_nasm->linemap, cur_line);
}
default:
return NULL;
}
}
static yasm_bytecode *
parse_instr(yasm_parser_nasm *parser_nasm)
{
yasm_bytecode *bc;
switch (curtok) {
case INSN:
{
yasm_insn *insn;
bc = INSN_val;
insn = yasm_bc_get_insn(bc);
get_next_token();
if (is_eol())
return bc; /* no operands */
/* parse operands */
for (;;) {
yasm_insn_operand *op = parse_operand(parser_nasm);
if (!op) {
if (insn->num_operands == 0)
yasm_error_set(YASM_ERROR_SYNTAX,
N_("unexpected %s after instruction"),
describe_token(curtok));
else
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected operand, got %s"),
describe_token(curtok));
yasm_bc_destroy(bc);
return NULL;
}
yasm_insn_ops_append(insn, op);
if (is_eol())
break;
if (!expect(',')) {
yasm_bc_destroy(bc);
return NULL;
}
get_next_token();
}
return bc;
}
case PREFIX:
{
uintptr_t prefix = PREFIX_val;
get_next_token();
bc = parse_instr(parser_nasm);
if (!bc)
bc = yasm_arch_create_empty_insn(p_object->arch, cur_line);
yasm_insn_add_prefix(yasm_bc_get_insn(bc), prefix);
return bc;
}
case SEGREG:
{
uintptr_t segreg = SEGREG_val;
get_next_token();
bc = parse_instr(parser_nasm);
if (!bc)
bc = yasm_arch_create_empty_insn(p_object->arch, cur_line);
yasm_insn_add_seg_prefix(yasm_bc_get_insn(bc), segreg);
return bc;
}
default:
return NULL;
}
}
static yasm_insn_operand *
parse_operand(yasm_parser_nasm *parser_nasm)
{
yasm_insn_operand *op;
switch (curtok) {
case '[':
{
get_next_token();
op = parse_memaddr(parser_nasm);
expect(']');
get_next_token();
if (!op) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("memory address expected"));
return NULL;
}
if (parser_nasm->tasm && !is_eol() && curtok != ',') {
yasm_expr *e = NULL, *f;
yasm_effaddr *ea;
switch (op->type) {
case YASM_INSN__OPERAND_IMM:
e = op->data.val;
break;
case YASM_INSN__OPERAND_MEMORY:
if (op->data.ea->disp.rel) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("relative adressing not supported\n"));
return NULL;
}
e = yasm_expr_copy(op->data.ea->disp.abs);
yasm_arch_ea_destroy(p_object->arch, op->data.ea);
break;
case YASM_INSN__OPERAND_REG:
case YASM_INSN__OPERAND_SEGREG:
yasm_error_set(YASM_ERROR_SYNTAX,
N_("register adressing not supported\n"));
return NULL;
}
yasm_xfree(op);
f = parse_bexpr(parser_nasm, NORM_EXPR);
if (!f) {
yasm_expr_destroy(e);
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after ]"));
return NULL;
}
e = p_expr_new_tree(e, YASM_EXPR_ADD, f);
ea = yasm_arch_ea_create(p_object->arch, e);
yasm_ea_set_implicit_size_segment(parser_nasm, ea, e);
op = yasm_operand_create_mem(ea);
}
return op;
}
case OFFSET:
{
yasm_insn_operand *op2;
get_next_token();
if (parser_nasm->masm && curtok == ID && !yasm__strcasecmp(ID_val, "flat")) {
get_next_token();
if (curtok == ':') {
get_next_token();
}
}
op = parse_operand(parser_nasm);
if (!op) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("memory address expected"));
return NULL;
}
if (op->type == YASM_INSN__OPERAND_IMM)
return op;
if (op->type != YASM_INSN__OPERAND_MEMORY) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("OFFSET applied to non-memory operand"));
return NULL;
}
if (op->data.ea->disp.rel) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("OFFSET applied to non-absolute memory operand"));
return NULL;
}
if (op->data.ea->disp.abs)
op2 = yasm_operand_create_imm(op->data.ea->disp.abs);
else
op2 = yasm_operand_create_imm(p_expr_new_ident(
yasm_expr_int(yasm_intnum_create_uint(0))));
yasm_xfree(op);
return op2;
}
case SEGREG:
{
uintptr_t segreg = SEGREG_val;
get_next_token();
if (parser_nasm->tasm && curtok == ':') {
get_next_token();
op = parse_operand(parser_nasm);
if (!op)
return NULL;
if (op->type == YASM_INSN__OPERAND_IMM) {
yasm_effaddr *ea = yasm_arch_ea_create(p_object->arch,
op->data.val);
yasm_insn_operand *op2;
yasm_ea_set_implicit_size_segment(parser_nasm, ea,
op->data.val);
op2 = yasm_operand_create_mem(ea);
op2->size = op->size;
yasm_xfree(op);
op = op2;
}
if (op->type != YASM_INSN__OPERAND_MEMORY) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("segment applied to non-memory operand"));
return NULL;
}
yasm_ea_set_segreg(op->data.ea, segreg);
return op;
}
op = yasm_operand_create_segreg(segreg);
return op;
}
case REG:
op = yasm_operand_create_reg(REG_val);
get_next_token();
return op;
case REGGROUP:
{
unsigned long regindex;
uintptr_t reg = REGGROUP_val;
get_next_token(); /* REGGROUP */
if (curtok != '(')
return yasm_operand_create_reg(reg);
get_next_token(); /* '(' */
if (!expect(INTNUM)) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("integer register index expected"));
return NULL;
}
regindex = yasm_intnum_get_uint(INTNUM_val);
get_next_token(); /* INTNUM */
if (!expect(')')) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("missing closing parenthesis for register index"));
return NULL;
}
get_next_token(); /* ')' */
reg = yasm_arch_reggroup_get_reg(p_object->arch, reg, regindex);
if (reg == 0) {
yasm_error_set(YASM_ERROR_SYNTAX, N_("bad register index `%u'"),
regindex);
return NULL;
}
return yasm_operand_create_reg(reg);
}
case STRICT:
get_next_token();
op = parse_operand(parser_nasm);
if (op)
op->strict = 1;
return op;
case SIZE_OVERRIDE:
{
unsigned int size = SIZE_OVERRIDE_val;
get_next_token();
if (parser_nasm->masm && curtok == ID && !yasm__strcasecmp(ID_val, "ptr")) {
get_next_token();
}
op = parse_operand(parser_nasm);
if (!op)
return NULL;
if (op->type == YASM_INSN__OPERAND_REG &&
yasm_arch_get_reg_size(p_object->arch, op->data.reg) != size)
yasm_error_set(YASM_ERROR_TYPE,
N_("cannot override register size"));
else {
/* Silently override others unless a warning is turned on.
* This is to allow overrides such as:
* %define arg1 dword [bp+4]
* cmp word arg1, 2
* Which expands to:
* cmp word dword [bp+4], 2
*/
if (op->size != 0) {
if (op->size != size)
yasm_warn_set(YASM_WARN_SIZE_OVERRIDE,
N_("overriding operand size from %u-bit to %u-bit"),
op->size, size);
else
yasm_warn_set(YASM_WARN_SIZE_OVERRIDE,
N_("double operand size override"));
}
op->size = size;
}
return op;
}
case TARGETMOD:
{
uintptr_t tmod = TARGETMOD_val;
get_next_token();
op = parse_operand(parser_nasm);
if (op)
op->targetmod = tmod;
return op;
}
case ID:
case LOCAL_ID:
case NONLOCAL_ID:
if (parser_nasm->tasm) {
get_peek_token(parser_nasm);
if (parser_nasm->peek_token == '[') {
yasm_symrec *sym = yasm_symtab_use(p_symtab, ID_val,
cur_line);
yasm_expr *e = p_expr_new_ident(yasm_expr_sym(sym)), *f;
yasm_effaddr *ea;
yasm_xfree(ID_val);
get_next_token();
get_next_token();
f = parse_bexpr(parser_nasm, NORM_EXPR);
if (!f) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after ["));
return NULL;
}
e = p_expr_new_tree(e, YASM_EXPR_ADD, f);
if (!expect(']')) {
yasm_error_set(YASM_ERROR_SYNTAX, N_("missing closing bracket"));
return NULL;
}
get_next_token();
ea = yasm_arch_ea_create(p_object->arch, e);
yasm_ea_set_implicit_size_segment(parser_nasm, ea, e);
op = yasm_operand_create_mem(ea);
return op;
}
}
/* Fallthrough */
default:
{
yasm_expr *e = parse_bexpr(parser_nasm, NORM_EXPR);
if (!e)
return NULL;
if (curtok != ':') {
if (parser_nasm->tasm && yasm_expr_size(e)) {
yasm_effaddr *ea = yasm_arch_ea_create(p_object->arch, e);
yasm_ea_set_implicit_size_segment(parser_nasm, ea, e);
op = yasm_operand_create_mem(ea);
return op;
} else if (curtok == '[') {
yasm_expr *f;
yasm_effaddr *ea;
yasm_insn_operand *op2;
op = parse_operand(parser_nasm);
if (!op)
return NULL;
f = op->data.ea->disp.abs;
e = p_expr_new_tree(e, YASM_EXPR_ADD, f);
ea = yasm_arch_ea_create(p_object->arch, e);
yasm_ea_set_implicit_size_segment(parser_nasm, ea, e);
op2 = yasm_operand_create_mem(ea);
yasm_xfree(op);
return op2;
} else {
return yasm_operand_create_imm(e);
}
} else {
yasm_expr *off;
get_next_token();
off = parse_bexpr(parser_nasm, NORM_EXPR);
if (!off) {
yasm_expr_destroy(e);
return NULL;
}
op = yasm_operand_create_imm(off);
op->seg = e;
return op;
}
}
}
}
/* memory addresses */
static yasm_insn_operand *
parse_memaddr(yasm_parser_nasm *parser_nasm)
{
yasm_insn_operand *op;
switch (curtok) {
case SEGREG:
{
uintptr_t segreg = SEGREG_val;
get_next_token();
if (!expect(':')) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("`:' required after segment register"));
return NULL;
}
get_next_token();
op = parse_memaddr(parser_nasm);
if (op)
yasm_ea_set_segreg(op->data.ea, segreg);
return op;
}
case SIZE_OVERRIDE:
{
unsigned int size = SIZE_OVERRIDE_val;
get_next_token();
op = parse_memaddr(parser_nasm);
if (op)
op->data.ea->disp.size = size;
return op;
}
case NOSPLIT:
get_next_token();
op = parse_memaddr(parser_nasm);
if (op)
op->data.ea->nosplit = 1;
return op;
case REL:
get_next_token();
op = parse_memaddr(parser_nasm);
if (op) {
op->data.ea->pc_rel = 1;
op->data.ea->not_pc_rel = 0;
}
return op;
case ABS:
get_next_token();
op = parse_memaddr(parser_nasm);
if (op) {
op->data.ea->pc_rel = 0;
op->data.ea->not_pc_rel = 1;
}
return op;
default:
{
yasm_expr *e = parse_bexpr(parser_nasm, NORM_EXPR);
if (!e)
return NULL;
if (curtok != ':') {
yasm_effaddr *ea = yasm_arch_ea_create(p_object->arch, e);
yasm_ea_set_implicit_size_segment(parser_nasm, ea, e);
return yasm_operand_create_mem(ea);
} else {
yasm_effaddr *ea;
yasm_expr *off;
get_next_token();
off = parse_bexpr(parser_nasm, NORM_EXPR);
if (!off) {
yasm_expr_destroy(e);
return NULL;
}
ea = yasm_arch_ea_create(p_object->arch, off);
yasm_ea_set_implicit_size_segment(parser_nasm, ea, off);
op = yasm_operand_create_mem(ea);
op->seg = e;
return op;
}
}
}
}
/* Expression grammar parsed is:
*
* expr : bexpr [ : bexpr ]
* bexpr : expr0 [ WRT expr6 ]
* expr0 : expr1 [ {|} expr1...]
* expr1 : expr2 [ {^} expr2...]
* expr2 : expr3 [ {&} expr3...]
* expr3 : expr4 [ {<<,>>} expr4...]
* expr4 : expr5 [ {+,-} expr5...]
* expr5 : expr6 [ {*,/,%,//,%%} expr6...]
* expr6 : { ~,+,-,SEG } expr6
* | (expr)
* | symbol
* | $
* | number
*/
#define parse_expr_common(leftfunc, tok, rightfunc, op) \
do { \
yasm_expr *e, *f; \
e = leftfunc(parser_nasm, type); \
if (!e) \
return NULL; \
\
while (curtok == tok) { \
get_next_token(); \
f = rightfunc(parser_nasm, type); \
if (!f) { \
yasm_error_set(YASM_ERROR_SYNTAX, \
N_("expected expression after %s"), \
describe_token(op)); \
yasm_expr_destroy(e); \
return NULL; \
} \
e = p_expr_new_tree(e, op, f); \
} \
return e; \
} while(0)
static yasm_expr *
parse_expr(yasm_parser_nasm *parser_nasm, expr_type type)
{
switch (type) {
case DIR_EXPR:
/* directive expressions can't handle seg:off or WRT */
return parse_expr0(parser_nasm, type);
default:
parse_expr_common(parse_bexpr, ':', parse_bexpr, YASM_EXPR_SEGOFF);
}
/*@notreached@*/
return NULL;
}
static yasm_expr *
parse_bexpr(yasm_parser_nasm *parser_nasm, expr_type type)
{
parse_expr_common(parse_expr0, WRT, parse_expr6, YASM_EXPR_WRT);
}
static yasm_expr *
parse_expr0(yasm_parser_nasm *parser_nasm, expr_type type)
{
parse_expr_common(parse_expr1, '|', parse_expr1, YASM_EXPR_OR);
}
static yasm_expr *
parse_expr1(yasm_parser_nasm *parser_nasm, expr_type type)
{
parse_expr_common(parse_expr2, '^', parse_expr2, YASM_EXPR_XOR);
}
static yasm_expr *
parse_expr2(yasm_parser_nasm *parser_nasm, expr_type type)
{
parse_expr_common(parse_expr3, '&', parse_expr3, YASM_EXPR_AND);
}
static yasm_expr *
parse_expr3(yasm_parser_nasm *parser_nasm, expr_type type)
{
yasm_expr *e, *f;
e = parse_expr4(parser_nasm, type);
if (!e)
return NULL;
while (curtok == LEFT_OP || curtok == RIGHT_OP) {
int op = curtok;
get_next_token();
f = parse_expr4(parser_nasm, type);
if (!f) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"),
describe_token(op));
yasm_expr_destroy(e);
return NULL;
}
switch (op) {
case LEFT_OP: e = p_expr_new_tree(e, YASM_EXPR_SHL, f); break;
case RIGHT_OP: e = p_expr_new_tree(e, YASM_EXPR_SHR, f); break;
}
}
return e;
}
static yasm_expr *
parse_expr4(yasm_parser_nasm *parser_nasm, expr_type type)
{
yasm_expr *e, *f;
e = parse_expr5(parser_nasm, type);
if (!e)
return NULL;
while (curtok == '+' || curtok == '-') {
int op = curtok;
get_next_token();
f = parse_expr5(parser_nasm, type);
if (!f) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"),
describe_token(op));
yasm_expr_destroy(e);
return NULL;
}
switch (op) {
case '+': e = p_expr_new_tree(e, YASM_EXPR_ADD, f); break;
case '-': e = p_expr_new_tree(e, YASM_EXPR_SUB, f); break;
}
}
return e;
}
static yasm_expr *
parse_expr5(yasm_parser_nasm *parser_nasm, expr_type type)
{
yasm_expr *e, *f;
e = parse_expr6(parser_nasm, type);
if (!e)
return NULL;
while (curtok == '*' || curtok == '/' || curtok == '%'
|| curtok == SIGNDIV || curtok == SIGNMOD) {
int op = curtok;
get_next_token();
f = parse_expr6(parser_nasm, type);
if (!f) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"),
describe_token(op));
yasm_expr_destroy(e);
return NULL;
}
switch (op) {
case '*': e = p_expr_new_tree(e, YASM_EXPR_MUL, f); break;
case '/': e = p_expr_new_tree(e, YASM_EXPR_DIV, f); break;
case '%': e = p_expr_new_tree(e, YASM_EXPR_MOD, f); break;
case SIGNDIV: e = p_expr_new_tree(e, YASM_EXPR_SIGNDIV, f); break;
case SIGNMOD: e = p_expr_new_tree(e, YASM_EXPR_SIGNMOD, f); break;
}
}
return e;
}
static yasm_expr *
parse_expr6(yasm_parser_nasm *parser_nasm, expr_type type)
{
yasm_expr *e;
yasm_symrec *sym;
switch (curtok) {
case '+':
get_next_token();
e = parse_expr6(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "`+'");
}
return e;
case '-':
get_next_token();
e = parse_expr6(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "`-'");
return NULL;
}
return p_expr_new_branch(YASM_EXPR_NEG, e);
case '~':
get_next_token();
e = parse_expr6(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "`~'");
return NULL;
}
return p_expr_new_branch(YASM_EXPR_NOT, e);
case LOW:
get_next_token();
e = parse_expr6(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "LOW");
return NULL;
}
return p_expr_new_tree(e, YASM_EXPR_AND,
p_expr_new_ident(yasm_expr_int(yasm_intnum_create_uint(0xff))));
case HIGH:
get_next_token();
e = parse_expr6(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "HIGH");
return NULL;
}
return p_expr_new_tree(
p_expr_new_tree(e, YASM_EXPR_SHR,
p_expr_new_ident(yasm_expr_int(
yasm_intnum_create_uint(8)))),
YASM_EXPR_AND,
p_expr_new_ident(yasm_expr_int(yasm_intnum_create_uint(0xff))));
case SEG:
get_next_token();
e = parse_expr6(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "SEG");
return NULL;
}
return p_expr_new_branch(YASM_EXPR_SEG, e);
case '(':
get_next_token();
e = parse_expr(parser_nasm, type);
if (!e) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("expected expression after %s"), "`('");
return NULL;
}
if (!expect(')')) {
yasm_error_set(YASM_ERROR_SYNTAX, N_("missing parenthesis"));
return NULL;
}
get_next_token();
return e;
case INTNUM:
e = p_expr_new_ident(yasm_expr_int(INTNUM_val));
get_next_token();
return e;
case REG:
if (type == DV_EXPR) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("data values can't have registers"));
return NULL;
}
e = p_expr_new_ident(yasm_expr_reg(REG_val));
get_next_token();
return e;
}
/* directives allow very little and handle IDs specially */
if (type == DIR_EXPR) {
switch (curtok) {
case ID:
sym = yasm_symtab_use(p_symtab, ID_val, cur_line);
e = p_expr_new_ident(yasm_expr_sym(sym));
yasm_xfree(ID_val);
break;
default:
return NULL;
}
} else switch (curtok) {
case FLTNUM:
e = p_expr_new_ident(yasm_expr_float(FLTNUM_val));
break;
case STRING:
{
yasm_intnum *intn;
if (parser_nasm->tasm)
intn = yasm_intnum_create_charconst_tasm(STRING_val.contents);
else
intn = yasm_intnum_create_charconst_nasm(STRING_val.contents);
e = p_expr_new_ident(yasm_expr_int(intn));
yasm_xfree(STRING_val.contents);
break;
}
case SPECIAL_ID:
sym = yasm_objfmt_get_special_sym(p_object, ID_val+2, "nasm");
if (sym) {
e = p_expr_new_ident(yasm_expr_sym(sym));
yasm_xfree(ID_val);
break;
}
/*@fallthrough@*/
case ID:
case LOCAL_ID:
case NONLOCAL_ID:
sym = yasm_symtab_use(p_symtab, ID_val, cur_line);
e = p_expr_new_ident(yasm_expr_sym(sym));
yasm_xfree(ID_val);
break;
case '$':
/* "$" references the current assembly position */
if (parser_nasm->abspos)
e = yasm_expr_copy(parser_nasm->abspos);
else {
sym = yasm_symtab_define_curpos(p_symtab, "$",
parser_nasm->prev_bc, cur_line);
e = p_expr_new_ident(yasm_expr_sym(sym));
}
break;
case START_SECTION_ID:
/* "$$" references the start of the current section */
if (parser_nasm->absstart)
e = yasm_expr_copy(parser_nasm->absstart);
else {
sym = yasm_symtab_define_label(p_symtab, "$$",
yasm_section_bcs_first(cursect), 0, cur_line);
e = p_expr_new_ident(yasm_expr_sym(sym));
}
break;
default:
return NULL;
}
get_next_token();
return e;
}
static void
set_nonlocal_label(yasm_parser_nasm *parser_nasm, const char *name)
{
if (!parser_nasm->tasm || tasm_locals) {
if (parser_nasm->locallabel_base)
yasm_xfree(parser_nasm->locallabel_base);
parser_nasm->locallabel_base_len = strlen(name);
parser_nasm->locallabel_base =
yasm_xmalloc(parser_nasm->locallabel_base_len+1);
strcpy(parser_nasm->locallabel_base, name);
}
}
static void
define_label(yasm_parser_nasm *parser_nasm, char *name, unsigned int size)
{
yasm_symrec *symrec;
if (parser_nasm->abspos)
symrec = yasm_symtab_define_equ(p_symtab, name,
yasm_expr_copy(parser_nasm->abspos),
cur_line);
else
symrec = yasm_symtab_define_label(p_symtab, name, parser_nasm->prev_bc,
1, cur_line);
yasm_symrec_set_size(symrec, size);
yasm_symrec_set_segment(symrec, tasm_segment);
yasm_xfree(name);
}
static void
dir_align(yasm_object *object, yasm_valparamhead *valparams,
yasm_valparamhead *objext_valparams, unsigned long line)
{
yasm_valparam *vp = yasm_vps_first(valparams);
yasm_expr *boundval = yasm_vp_expr(vp, object->symtab, line);
/*@depedent@*/ yasm_intnum *boundintn;
/* Largest .align in the section specifies section alignment.
* Note: this doesn't match NASM behavior, but is a lot more
* intelligent!
*/
if (boundval && (boundintn = yasm_expr_get_intnum(&boundval, 0))) {
unsigned long boundint = yasm_intnum_get_uint(boundintn);
/* Alignments must be a power of two. */
if (is_exp2(boundint)) {
if (boundint > yasm_section_get_align(object->cur_section))
yasm_section_set_align(object->cur_section, boundint, line);
}
}
/* As this directive is called only when nop is used as fill, always
* use arch (nop) fill.
*/
yasm_section_bcs_append(object->cur_section,
yasm_bc_create_align(boundval, NULL, NULL,
/*yasm_section_is_code(object->cur_section) ?*/
yasm_arch_get_fill(object->arch)/* : NULL*/,
line));
}
static void
nasm_parser_directive(yasm_parser_nasm *parser_nasm, const char *name,
yasm_valparamhead *valparams,
yasm_valparamhead *objext_valparams)
{
unsigned long line = cur_line;
yasm_valparam *vp;
if (!yasm_object_directive(p_object, name, "nasm", valparams,
objext_valparams, line))
;
else if (yasm__strcasecmp(name, "absolute") == 0) {
if (!valparams) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("directive `%s' requires an argument"),
"absolute");
} else {
vp = yasm_vps_first(valparams);
if (parser_nasm->absstart)
yasm_expr_destroy(parser_nasm->absstart);
if (parser_nasm->abspos)
yasm_expr_destroy(parser_nasm->abspos);
parser_nasm->absstart = yasm_vp_expr(vp, p_object->symtab, line);
parser_nasm->abspos = yasm_expr_copy(parser_nasm->absstart);
cursect = NULL;
parser_nasm->prev_bc = NULL;
}
} else if (yasm__strcasecmp(name, "align") == 0) {
/* Really, we shouldn't end up with an align directive in an absolute
* section (as it's supposed to be only used for nop fill), but handle
* it gracefully anyway.
*/
if (parser_nasm->abspos) {
yasm_expr *boundval, *e;
vp = yasm_vps_first(valparams);
boundval = yasm_vp_expr(vp, p_object->symtab, line);
e = yasm_expr_create_tree(
yasm_expr_create_tree(yasm_expr_copy(parser_nasm->absstart),
YASM_EXPR_SUB,
yasm_expr_copy(parser_nasm->abspos),
cur_line),
YASM_EXPR_AND,
yasm_expr_create(YASM_EXPR_SUB, yasm_expr_expr(boundval),
yasm_expr_int(yasm_intnum_create_uint(1)),
cur_line),
cur_line);
parser_nasm->abspos = yasm_expr_create_tree(
parser_nasm->abspos, YASM_EXPR_ADD, e, cur_line);
} else if (!valparams) {
yasm_error_set(YASM_ERROR_SYNTAX,
N_("directive `%s' requires an argument"), "align");
} else
dir_align(p_object, valparams, objext_valparams, line);
} else if (yasm__strcasecmp(name, "default") == 0) {
if (!valparams)
;
else {
vp = yasm_vps_first(valparams);
while (vp) {
const char *id = yasm_vp_id(vp);
if (id) {
if (yasm__strcasecmp(id, "rel") == 0)
yasm_arch_set_var(p_object->arch, "default_rel", 1);
else if (yasm__strcasecmp(id, "abs") == 0)
yasm_arch_set_var(p_object->arch, "default_rel", 0);
else
yasm_error_set(YASM_ERROR_SYNTAX,
N_("unrecognized default `%s'"), id);
} else
yasm_error_set(YASM_ERROR_SYNTAX,
N_("unrecognized default value"));
vp = yasm_vps_next(vp);
}
}
} else
yasm_error_set(YASM_ERROR_SYNTAX, N_("unrecognized directive `%s'"),
name);
if (parser_nasm->absstart && cursect) {
/* We switched to a new section. Get out of absolute section mode. */
yasm_expr_destroy(parser_nasm->absstart);
parser_nasm->absstart = NULL;
if (parser_nasm->abspos) {
yasm_expr_destroy(parser_nasm->abspos);
parser_nasm->abspos = NULL;
}
}
if (cursect) {
/* In case cursect changed or a bytecode was added, update prev_bc. */
parser_nasm->prev_bc = yasm_section_bcs_last(cursect);
}
if (valparams)
yasm_vps_delete(valparams);
if (objext_valparams)
yasm_vps_delete(objext_valparams);
}
yasm_bytecode *
gas_intel_syntax_parse_instr(yasm_parser_nasm *parser_nasm, unsigned char *instr)
{
yasm_bytecode *bc = NULL;
char *sinstr = (char *) instr;
parser_nasm->s.bot = instr;
parser_nasm->s.tok = instr;
parser_nasm->s.ptr = instr;
parser_nasm->s.cur = instr;
parser_nasm->s.lim = instr + strlen(sinstr) + 1;
parser_nasm->s.top = parser_nasm->s.lim;
parser_nasm->peek_token = NONE;
get_next_token();
if (!is_eol()) {
bc = parse_instr(parser_nasm);
}
return bc;
}