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|
/* kvx-parse.c -- Recursive decent parser driver for the KVX ISA
Copyright (C) 2009-2024 Free Software Foundation, Inc.
Contributed by Kalray SA.
This file is part of GAS.
GAS 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.
GAS 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; see the file COPYING3. If not,
see <http://www.gnu.org/licenses/>. */
#include "as.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <ctype.h>
#include <stdarg.h>
#include <elf/kvx_elfids.h>
#include "kvx-parse.h"
/* This is bad! */
struct node_list_s {
struct node_s *node;
struct node_list_s *nxt;
};
struct node_s {
char *val;
int len;
struct node_list_s *succs;
int nb_succs;
};
static int
has_relocation_of_size (const struct kvx_reloc **relocs)
{
const int symbol_size = env.params.arch_size;
/*
* This is a bit hackish: in case of PCREL here, it means we are
* trying to fit a symbol in the insn, not a pseudo function
* (eg. @gotaddr, ...).
* We don't want to use a GOTADDR (pcrel) in any insn that tries to fit a symbol.
* One way to filter out these is to use the following assumption:
* - Any insn that accepts a pcrel immediate has only one immediate variant.
* Example:
* - call accepts only a pcrel27 -> allow pcrel reloc here
* - cb accepts only a pcrel17 -> allow pcrel reloc here
* - addd accepts signed10,37,64 -> deny pcrel reloc here
*
* The motivation here is to prevent the function to allow a 64bits
* symbol in a 37bits variant of any ALU insn (that would match with
* the GOTADDR 37bits reloc switch case below)
*/
if (!relocs)
return 0;
struct kvx_reloc **relocs_it = (struct kvx_reloc **) relocs;
int has_only_one_p = relocs[0] && !relocs[1];
while (*relocs_it)
{
switch ((*relocs_it)->relative)
{
/* An absolute reloc needs a full size symbol reloc */
case KVX_REL_ABS:
if ((*relocs_it)->bitsize >= symbol_size)
return 1;
break;
/* Most likely relative jumps. Let something else check size is
OK. We don't currently have several relocations for such insns */
case KVX_REL_PC:
if (has_only_one_p)
return 1;
break;
/* These relocations should be handled elsewhere with pseudo functions */
case KVX_REL_GP:
case KVX_REL_TP:
case KVX_REL_GOT:
case KVX_REL_BASE:
break;
}
relocs_it++;
}
return 0;
}
struct pseudo_func *
kvx_get_pseudo_func2 (symbolS * sym, struct kvx_reloc **relocs);
struct pseudo_func *
kvx_get_pseudo_func2 (symbolS *sym, struct kvx_reloc **relocs)
{
if (!relocs)
return NULL;
struct kvx_reloc **relocs_it = (struct kvx_reloc **) relocs;
for (int i = 0; i < 26; i++)
{
if (sym == kvx_core_info->pseudo_funcs[i].sym)
{
relocs_it = relocs;
while (*relocs_it)
{
if (*relocs_it == kvx_core_info->pseudo_funcs[i].pseudo_relocs.kreloc
&& (env.params.arch_size == (int) kvx_core_info->pseudo_funcs[i].pseudo_relocs.avail_modes
|| kvx_core_info->pseudo_funcs[i].pseudo_relocs.avail_modes == PSEUDO_ALL))
return &kvx_core_info->pseudo_funcs[i];
relocs_it++;
}
}
}
return NULL;
}
/* Trie */
static
struct node_list_s *
insert_in_succ_list (struct node_s *node, struct node_s *base)
{
struct node_list_s *new_hd = NULL;
if (!(new_hd = calloc (1, sizeof (*new_hd))))
return NULL;
new_hd->node = node;
new_hd->nxt = base->succs;
base->nb_succs += 1;
return new_hd;
}
static
struct node_s *
make_node (const char *str, int len)
{
struct node_s *n = NULL;
if (!(n = calloc (1, sizeof (*n))))
goto err;
n->len = len;
n->succs = NULL;
if (!(n->val = calloc (n->len + 1, sizeof (*n->val))))
goto err1;
strncpy (n->val, str, n->len);
return n;
err1:
free (n), n = NULL;
err:
return NULL;
}
static
struct node_s *
insert (const char *str, struct node_s *node)
{
int i = 0;
int len = strlen (str);
if (!node)
{
struct node_s *n = make_node (str, len);
n->succs = insert_in_succ_list (NULL, n);
return n;
}
while (i < len && i < node->len && str[i] == node->val[i])
++i;
/* The strings share a prefix. */
if (i < len && i < node->len)
{
/* Split the current node on that common prefix. */
/* Create a new node with only the unshared suffix, and makes it inherit
the successor of the node under consideration. */
struct node_s *suf = make_node (node->val + i, node->len - i);
suf->succs = node->succs;
suf->nb_succs = node->nb_succs;
/* Insert the remainder on the other branch */
struct node_s *rem = make_node (str + i, len - i);
rem->succs = insert_in_succ_list (NULL, rem);
node->val[i] = '\0';
node->len = i;
node->succs = NULL;
node->nb_succs = 0;
node->succs = insert_in_succ_list (suf, node);
node->succs = insert_in_succ_list (rem, node);
return node;
}
/* str is a strict prefix of node->val */
if (i == len && i < node->len)
{
/* Split the current node at position */
struct node_s *suf = make_node (node->val + i, node->len - i);
suf->succs = node->succs;
suf->nb_succs = node->nb_succs;
node->val[i] = '\0';
node->len = i;
/* Insert an empty leaf */
node->succs = NULL;
node->nb_succs = 0;
node->succs = insert_in_succ_list (NULL, node);
node->succs = insert_in_succ_list (suf, node);
return node;
}
/* node->val is a prefix of str */
if (i == node->len)
{
/* Find a successor of node into which the remainder can be inserted. */
struct node_list_s *cur_succ = node->succs;
while (cur_succ)
{
struct node_s *n = cur_succ->node;
if (n && n->val && n->val[0] == str[i])
{
cur_succ->node = insert (str + i, cur_succ->node);
break;
}
cur_succ = cur_succ->nxt;
}
/* No successor shares a common prefix */
if (cur_succ == NULL)
{
struct node_s *suf = make_node (str + i, len - i);
suf->succs = insert_in_succ_list (NULL, suf);
node->succs = insert_in_succ_list (suf, node);
}
return node;
}
return node;
}
static
void
free_node (struct node_s *node)
{
if (!node)
return;
free (node->val);
struct node_list_s *cur_succ = node->succs;
struct node_list_s *tmp = NULL;
while ((tmp = cur_succ))
{
struct node_s *n = cur_succ->node;
if (n)
free_node (n), n = NULL;
cur_succ = cur_succ->nxt;
free (tmp);
}
free (node);
}
#define max(a,b) (((a)>(b))?(a):(b))
static
int
longest_match (const char *str, int len, struct node_s *node)
{
int i = 0;
int last_mark = 0;
struct node_s *cur = node;
while (1)
{
if (i + cur->len > len
|| strncmp (str + i, cur->val, max(0, cur->len)))
return last_mark;
i += cur->len;
struct node_list_s *cur_succ = cur->succs;
cur = NULL;
while (cur_succ)
{
struct node_s *n = cur_succ->node;
if (!n)
last_mark = i;
else if (n->val[0] == str[i])
cur = n;
cur_succ = cur_succ->nxt;
}
if (!cur)
return last_mark;
}
}
__attribute__((unused))
static void
dump_graph_1 (FILE *fd, struct node_s *node, int id)
{
struct node_list_s *cur_succ = node->succs;
int i = 0;
if (id == 1)
fprintf (fd, "\t%d [label=\"%s\"];\n", id, node->val);
while (cur_succ)
{
if (cur_succ->node == NULL)
fprintf (fd, "\t%d -> \"()\";\n", id);
else
{
fprintf (fd, "\t%d [label=\"%s\"];\n",
node->nb_succs * id + i, cur_succ->node->val);
fprintf (fd, "\t%d -> %d;\n", id, node->nb_succs * id + i);
dump_graph_1 (fd, cur_succ->node, node->nb_succs * id + i);
}
i += 1;
cur_succ = cur_succ->nxt;
}
}
__attribute__((unused))
static void
dump_graph (char *name, char *path, struct node_s *node)
{
FILE *fd = fopen (path, "w");
fprintf (fd, "digraph %s {\n", name);
dump_graph_1 (fd, node, 1);
fprintf (fd, "}\n");
fclose (fd);
}
__attribute__((unused))
static void
print_n (const char *str, int n)
{
for (int i = 0 ; i < n ; ++i)
putchar (str[i]);
putchar('\n');
}
int debug_level = 0;
__attribute__((unused))
static int
printf_debug (int lvl, const char *fmt, ...)
{
int ret = 0;
if (debug_level >= lvl)
{
va_list args;
va_start (args, fmt);
ret = vprintf (fmt, args);
va_end (args);
}
return ret;
}
static int
is_delim (char c)
{
char delims[] = { '[', ']', '?', ',', '=' };
int nb_delims = sizeof (delims) / (sizeof (*delims));
for (int i = 0; i < nb_delims; ++i)
if (c == delims[i])
return 1;
return 0;
}
__attribute__((unused))
static void
print_token (struct token_s token, char *buf, int bufsz)
{
for (int i = 0; i < token.end - token.begin && i < bufsz; ++i)
buf[i] = token.insn[token.begin + i];
for (int i = token.end - token.begin ; i < bufsz; ++i)
buf[i] = 0;
}
static int64_t
promote_token (struct token_s tok)
{
int64_t cur_class = tok.class_id & -tok.class_id;
switch (tok.category)
{
case CAT_REGISTER:
case CAT_MODIFIER:
return (cur_class != tok.class_id)
? tok.class_id ^ cur_class
: tok.class_id;
case CAT_IMMEDIATE:
{
expressionS exp = { 0 };
char *ilp_save = input_line_pointer;
input_line_pointer = tok.insn + tok.begin;
expression (&exp);
input_line_pointer = ilp_save;
int64_t new_class_id = tok.class_id;
int64_t old_class_id = tok.class_id;
while (((new_class_id = env.promote_immediate (old_class_id))
!= old_class_id)
&& ((exp.X_op == O_symbol
&& !(has_relocation_of_size
(str_hash_find (env.reloc_hash,
TOKEN_NAME (new_class_id)))))
|| (exp.X_op == O_pseudo_fixup
&& !(kvx_get_pseudo_func2
(exp.X_op_symbol,
str_hash_find (env.reloc_hash,
TOKEN_NAME (new_class_id)))))))
old_class_id = new_class_id;
return new_class_id;
}
default:
return tok.class_id;
}
}
static int
is_insn (const struct token_s *token, struct token_class *classes)
{
int res = false;
int i = 0;
int tok_sz = token->end - token->begin;
char *tok = token->insn + token->begin;
while (!res && classes[i].class_values != NULL)
{
res = !strncmp (classes[i].class_values[0], tok, tok_sz);
i += 1;
}
return res;
}
static int64_t
get_token_class (struct token_s *token, struct token_classes *classes, int insn_p, int modifier_p)
{
int cur = 0;
int found = 0;
int tok_sz = token->end - token->begin;
char *tok = token->insn + token->begin;
expressionS exp = {0};
token->val = 0;
int token_val_p = 0;
struct token_class *class;
if (tok[0] == '$')
{
class = classes->reg_classes;
token->category = CAT_REGISTER;
}
else if (modifier_p && tok[0] == '.')
{
class = classes->mod_classes;
token->category = CAT_MODIFIER;
}
else if (isdigit (tok[0]) || tok[0] == '+' || tok[0] == '-')
{
class = classes->imm_classes;
token->category = CAT_IMMEDIATE;
char *ilp_save = input_line_pointer;
input_line_pointer = tok;
expression (&exp);
token->val = exp.X_add_number;
token_val_p = 1;
input_line_pointer = ilp_save;
}
else if (tok_sz == 1 && is_delim (tok[0]))
{
class = classes->sep_classes;
token->category = CAT_SEPARATOR;
}
else if (insn_p && is_insn (token, classes->insn_classes))
{
class = classes->insn_classes;
token->category = CAT_INSTRUCTION;
}
else
{
/* We are in fact dealing with a symbol. */
class = classes->imm_classes;
token->category = CAT_IMMEDIATE;
char *ilp_save = input_line_pointer;
input_line_pointer = tok;
expression (&exp);
/* If the symbol can be resolved easily takes it value now. Otherwise it
means that is either a symbol which will need a real relocation or an
internal fixup (ie, a pseudo-function, or a computation on symbols). */
if (exp.X_op != O_symbol && exp.X_op != O_pseudo_fixup)
{
token->val = exp.X_add_number;
token_val_p = 1;
}
input_line_pointer = ilp_save;
}
if (class == classes->imm_classes)
{
uint64_t uval
= (token_val_p
? token->val
: strtoull (tok + (tok[0] == '-') + (tok[0] == '+'), NULL, 0));
int64_t val = uval;
int64_t pval = val < 0 ? -uval : uval;
int neg_power2_p = val < 0 && !(uval & (uval - 1));
unsigned len = pval ? 8 * sizeof (pval) - __builtin_clzll (pval) : 0;
while (class[cur].class_id != -1
&& ((unsigned) (class[cur].sz < 0
? -class[cur].sz - !neg_power2_p
: class[cur].sz) < len
|| (exp.X_op == O_symbol
&& !(has_relocation_of_size
(str_hash_find (env.reloc_hash,
TOKEN_NAME (class[cur].class_id)))))
|| (exp.X_op == O_pseudo_fixup
&& !(kvx_get_pseudo_func2
(exp.X_op_symbol,
str_hash_find (env.reloc_hash,
TOKEN_NAME (class[cur].class_id)))))))
++cur;
token->val = uval;
// if (exp.X_op == O_pseudo_fixup)
// token->val = (uintptr_t) !kvx_get_pseudo_func2 (exp.X_op_symbol, str_hash_find (env.reloc_hash, TOKEN_NAME (class[cur].class_id)));
found = 1;
}
else
{
do
{
for (int i = 0; !found && i < class[cur].sz; ++i)
{
const char *ref = class[cur].class_values[i];
found = ((long) strlen (ref) == tok_sz) && !strncmp (tok, ref, tok_sz);
token->val = i;
}
cur += !(found);
}
while (!found && class[cur].class_id != -1);
}
if (!found)
{
token->category = CAT_IMMEDIATE;
return token->class_id = classes->imm_classes[0].class_id;
}
#define unset(w, rg) ((w) & (~(1ULL << ((rg) - env.fst_reg))))
if (class == classes->reg_classes && !env.opts.allow_all_sfr)
return token->class_id = unset (class[cur].class_id, env.sys_reg);
#undef unset
return token->class_id = class[cur].class_id;
}
static int
read_token (struct token_s *tok)
{
int insn_p = tok->begin == 0;
int modifier_p = 0;
char *str = tok->insn;
int *begin = &tok->begin;
int *end = &tok->end;
/* Eat up all leading spaces. */
while (str[*begin] && (str[*begin] == ' ' || str[*begin] == '\n'))
*begin += 1;
*end = *begin;
if (!str[*begin])
return 0;
/* Special case, we're reading an instruction. Try to read as much as possible
as long as the prefix is a valid instruction. */
if (insn_p)
*end += longest_match (str + *begin, strlen (str + *begin), env.insns);
else
{
if (is_delim (str[*begin]))
{
*end += 1;
get_token_class (tok, env.token_classes, insn_p, modifier_p);
return 1;
}
if (str[*begin] == '.' && !(*begin > 0 && (str[*begin - 1] == ' ' || is_delim(str[*begin - 1]))))
modifier_p = 1;
/* This is a modifier or a register */
if (str[*begin] == '.' || str[*begin] == '$')
*end += 1;
/* Stop when reaching the start of the new token. */
while (!(!str[*end] || is_delim (str[*end]) || str[*end] == ' ' || (modifier_p && str[*end] == '.')))
*end += 1;
}
get_token_class (tok, env.token_classes, insn_p, modifier_p);
return 1;
}
/* Rewrite with as_bad. */
static void
rule_expect_error (int rule_id, char *buf, int bufsz __attribute__((unused)))
{
int i = 0;
int pos = 0;
int comma = 0;
pos += sprintf (buf + pos, "expected one of [");
struct steering_rule *rules = env.rules[rule_id].rules;
while (rules[i].steering != -1)
{
if ((env.opts.allow_all_sfr || rules[i].steering != env.sys_reg)
&& rules[i].steering != -3)
{
pos += sprintf (buf + pos, "%s%s", comma ? ", " : "", TOKEN_NAME (rules[i].steering));
comma = 1;
}
i += 1;
}
pos += sprintf (buf + pos, "].");
}
static struct token_list *
create_token (struct token_s tok, int len, int loc)
{
struct token_list *tl = calloc (1, sizeof *tl);
int tok_sz = tok.end - tok.begin;
tl->tok = calloc (tok_sz + 1, sizeof (char));
memcpy (tl->tok, tok.insn + tok.begin, tok_sz * sizeof (char));
tl->val = tok.val;
tl->class_id = tok.class_id;
tl->category = tok.category;
tl->next = NULL;
tl->len = len;
tl->loc = loc;
return tl;
}
void
print_token_list (struct token_list *lst)
{
struct token_list *cur = lst;
while (cur)
{
printf_debug (1, "%s (%d : %s : %d) / ",
cur->tok, cur->val, TOKEN_NAME (cur->class_id), cur->loc);
cur = cur->next;
}
printf_debug (1, "\n");
}
void
free_token_list (struct token_list *tok_list)
{
struct token_list *cur = tok_list;
struct token_list *tmp;
while (cur)
{
tmp = cur->next;
free (cur->tok);
free (cur);
cur = tmp;
}
}
static struct token_list *
token_list_append (struct token_list *lst1, struct token_list *lst2)
{
if (lst1 == NULL)
return lst2;
if (lst2 == NULL)
return NULL;
struct token_list *hd = lst1;
while (hd->next)
{
hd->len += lst2->len;
hd = hd->next;
}
hd->len += lst2->len;
hd->next = lst2;
return lst1;
}
struct error_list
{
int loc, rule;
struct error_list *nxt;
};
static struct error_list *
error_list_insert (int rule, int loc, struct error_list *nxt)
{
struct error_list *n = calloc (1, sizeof (*n));
n->loc = loc > 0 ? loc - 1 : loc;
n->rule = rule;
n->nxt = nxt;
return n;
}
static void
free_error_list (struct error_list *l)
{
struct error_list *tmp, *cur_err = l;
while ((tmp = cur_err))
{
cur_err = cur_err->nxt;
free (tmp);
}
}
static int
CLASS_ID (struct token_s tok)
{
int offset = __builtin_ctzll (tok.class_id & -tok.class_id);
switch (tok.category)
{
case CAT_REGISTER:
return env.fst_reg + offset;
case CAT_MODIFIER:
return env.fst_mod + offset;
default:
return tok.class_id;
}
}
struct parser {
};
static struct token_list *
parse_with_restarts (struct token_s tok, int jump_target, struct rule rules[],
struct error_list **errs)
{
int end_of_line = 0;
struct steering_rule *cur_rule = rules[jump_target].rules;
if (!tok.insn[tok.begin])
tok.class_id = -3;
if (CLASS_ID (tok) == -1)
{
/* Unknown token */
*errs = error_list_insert (jump_target, tok.begin, *errs);
return NULL;
}
printf_debug (1, "\nEntering rule: %d (Trying to match: (%s)[%d])\n",
jump_target, TOKEN_NAME (CLASS_ID (tok)), CLASS_ID (tok));
/* 1. Find a rule that can be used with the current token. */
int i = 0;
while (cur_rule[i].steering != -1 && cur_rule[i].steering != CLASS_ID (tok))
i += 1;
printf_debug (1, "steering: %d (%s), jump_target: %d, stack_it: %d\n",
cur_rule[i].steering, TOKEN_NAME (cur_rule[i].steering),
cur_rule[i].jump_target, cur_rule[i].stack_it);
struct token_s init_tok = tok;
retry:;
tok = init_tok;
if (cur_rule[i].jump_target == -2 && cur_rule[i].stack_it == -2)
{
/* We're reading eps. */
printf_debug (1, "successfully ignored: %s\n", TOKEN_NAME (jump_target));
struct token_s tok_ =
{ (char *)".", 0, 1, CAT_MODIFIER, jump_target, 0 };
return create_token (tok_, 0, tok.begin);
}
else if (cur_rule[i].jump_target == -1 && cur_rule[i].stack_it == -1)
{
/* We're handling the rule for a terminal (not eps) */
if (cur_rule[i].steering == CLASS_ID (tok))
// && tok.begin != tok.end) -- only fails when eps is last, eg. fence.
{
/* We matched a token */
printf_debug (1, "matched %s\n", TOKEN_NAME (CLASS_ID (tok)));
tok.class_id = CLASS_ID (tok);
return create_token (tok, 1, tok.begin);
}
else
{
/* This is a mandatory modifier */
*errs = error_list_insert (jump_target, tok.begin, *errs);
return NULL;
}
}
/* Not on a terminal */
struct token_list *fst_part =
parse_with_restarts (tok, cur_rule[i].jump_target, rules, errs);
/* While parsing fails but there is hope since the current token can be
promoted. */
while (!fst_part && tok.class_id != (int64_t) promote_token (tok))
{
free_token_list (fst_part);
tok.class_id = promote_token (tok);
printf_debug (1, "> Restart with %s?\n", TOKEN_NAME (CLASS_ID (tok)));
fst_part = parse_with_restarts (tok, cur_rule[i].jump_target, rules, errs);
};
if (!fst_part)
{
i += 1;
while (cur_rule[i].steering != CLASS_ID(tok) && cur_rule[i].steering != -1)
i += 1;
if (cur_rule[i].steering != -1)
goto retry;
}
if (!fst_part)
{
printf_debug (1, "fst_part == NULL (Exiting %d)\n", jump_target);
return NULL;
}
for (int _ = 0; _ < fst_part->len; ++_)
{
tok.begin = tok.end;
end_of_line = !read_token (&tok);
}
if (end_of_line && cur_rule[i].stack_it == -1)
{
/* No more tokens and no more place to go */
printf_debug (1, "return fst_part.\n");
return fst_part;
}
else if (!end_of_line && cur_rule[i].stack_it == -1)
{
/* Too much tokens. */
printf_debug (1, "too much tokens\n");
*errs = error_list_insert (cur_rule[i].stack_it, tok.begin, *errs);
return NULL;
}
else if (cur_rule[i].stack_it == -1)
{
printf_debug (1, "return fst_part. (end of rule)\n");
return fst_part;
}
printf_debug (1, "snd_part: Trying to match: %s\n", TOKEN_NAME (CLASS_ID (tok)));
struct token_list *snd_part = parse_with_restarts (tok, cur_rule[i].stack_it, rules, errs);
while (!snd_part && tok.class_id != (int64_t) promote_token (tok))
{
tok.class_id = promote_token (tok);
printf_debug (1, ">> Restart with %s?\n", TOKEN_NAME (CLASS_ID (tok)));
snd_part = parse_with_restarts (tok, cur_rule[i].stack_it, rules, errs);
}
if (!snd_part)
{
free_token_list (fst_part);
i += 1;
tok = init_tok;
while (cur_rule[i].steering != CLASS_ID (tok) && cur_rule[i].steering != -1)
i += 1;
if (cur_rule[i].steering != -1)
goto retry;
}
if (!snd_part)
{
printf_debug (1, "snd_part == NULL (Exiting %d)\n", jump_target);
return NULL;
}
printf_debug (1, "Exiting rule: %d\n", jump_target,
TOKEN_NAME (CLASS_ID (tok)), tok.class_id);
/* Combine fst & snd parts */
return token_list_append (fst_part, snd_part);
}
/* During the parsing the modifiers and registers are handled through pseudo
classes such that each register and modifier appears in at most one pseudo
class. Since the pseudo-classes are not correlated with how the modifiers
and registers are encoded we fix that after a successful match instead of
updating it many times during the parsing.
Currently, only assigning correct values to modifiers is of interest. The
real value of registers is computed in tc-kvx.c:insert_operand. */
static void
assign_final_values (struct token_list *lst)
{
(void) lst;
struct token_list *cur = lst;
while (cur)
{
if (cur->category == CAT_MODIFIER)
{
int idx = cur->class_id - env.fst_mod;
int found = 0;
for (int i = 0 ; !found && kvx_modifiers[idx][i]; ++i)
if ((found = !strcmp (cur->tok, kvx_modifiers[idx][i])))
cur->val = i;
}
cur = cur->next;
}
}
struct token_list *
parse (struct token_s tok)
{
int error_code = 0;
int error_char = 0;
struct error_list *errs = NULL;
read_token (&tok);
struct token_list *tok_list =
parse_with_restarts (tok, 0, env.rules, &errs);
if (!tok_list)
{
struct error_list *cur_err = errs;
while (cur_err)
{
if (cur_err->loc > error_char)
{
error_char = cur_err->loc;
error_code = cur_err->rule;
}
cur_err = cur_err->nxt;
}
}
free_error_list (errs);
if (!tok_list)
{
if (error_code != -1)
{
char buf[256] = { 0 };
const char * msg = "Unexpected token when parsing %s.";
for (int i = 0; i < (int) (strlen (msg) + error_char + 1 - 4) ; ++i)
buf[i] = ' ';
buf[strlen (msg) + error_char + 1 - 4] = '^';
as_bad (msg, tok.insn);
if (env.opts.diagnostics)
{
as_bad ("%s", buf);
char err_buf[10000] = { 0 };
rule_expect_error (error_code, err_buf, 10000);
as_bad ("%s", err_buf);
}
}
else
{
char buf[256] = { 0 };
const char * msg = "Extra token when parsing %s.";
for (int i = 0; i < (int) (strlen (msg) + error_char + 1 - 4) ; ++i)
buf[i] = ' ';
buf[strlen (msg) + error_char + 1 - 4] = '^';
as_bad (msg, tok.insn);
if (env.opts.diagnostics)
as_bad ("%s\n", buf);
}
}
else
{
printf_debug (1, "[PASS] Successfully matched %s\n", tok.insn);
assign_final_values (tok_list);
// print_token_list (tok_list);
// free_token_list (tok_list);
}
return tok_list;
}
void
setup (int core)
{
switch (core)
{
case ELF_KVX_CORE_KV3_1:
setup_kv3_v1 ();
break;
case ELF_KVX_CORE_KV3_2:
setup_kv3_v2 ();
break;
case ELF_KVX_CORE_KV4_1:
setup_kv4_v1 ();
break;
default:
as_bad ("Unknown architecture");
abort ();
}
for (int i = 0; env.token_classes->insn_classes[i].class_values ; ++i)
env.insns =
insert (env.token_classes->insn_classes[i].class_values[0], env.insns);
}
void
cleanup ()
{
free_node (env.insns);
}
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