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/* -*-c-*- -------------- mix_parser.c :
* Implementation of the functions declared in mix_parser.h and
* xmix_parser.h
* ------------------------------------------------------------------
* Copyright (C) 2000, 2001, 2003, 2004 Free Software Foundation, Inc.
*
* This program 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 2 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, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*
*/
#include <string.h>
#include "mix.h"
#include "mix_code_file.h"
#include "xmix_parser.h"
/* The flex-generated scanner, according to file mix_scanner.l */
extern mix_parser_err_t
mix_flex_scan (mix_parser_t *parser);
/*------------ mixparser.h functions -------------------------------------*/
/* error messages */
static const gchar * const ERR_MESSAGE_[] = {
N_("successful compilation"),
N_("file not yet compiled"),
N_("internal error"),
N_("unable to open MIX source file"),
N_("unable to open MIX output file"),
N_("unexpected end of file"),
N_("invalid location field"),
N_("duplicated symbol"),
N_("symbol too long"),
N_("missing operator field"),
N_("unexpected location symbol"),
N_("invalid address field"),
N_("invalid index field"),
N_("invalid f-specification"),
N_("invalid operation field"),
N_("invalid expression"),
N_("undefined symbol"),
N_("mismatched parenthesis"),
N_("unexpected f-specfication"),
N_("missing symbol name"),
N_("symbol is an instruction name"),
N_("failed write access to code file"),
N_("operand of ALF pseudo instruction has less than 5 chars"),
N_("operand of ALF pseudo instruction has more than 5 chars"),
N_("operand of ALF pseudo instruction must be quoted")
};
static const guint NO_OF_MESSAGES_ = sizeof(ERR_MESSAGE_)/sizeof (gchar*);
const gchar *
mix_parser_err_string (mix_parser_err_t error)
{
return (error < NO_OF_MESSAGES_) ? _(ERR_MESSAGE_[error]) : NULL;
}
guint
mix_parser_err_count (const mix_parser_t *parser)
{
return (parser) ? parser->err_count : 0;
}
guint
mix_parser_warning_count (const mix_parser_t *parser)
{
return (parser) ? parser->warn_count : 0;
}
const gchar *
mix_parser_src_file_base_name (const mix_parser_t *parser)
{
return (parser) ? mix_file_base_name (parser->in_file) : NULL;
}
const gchar *
mix_parser_src_file_extension (const mix_parser_t *parser)
{
return (parser) ? mix_file_extension (parser->in_file) : NULL;
}
/* Create/destroy a mix_parser */
/* compare function for the table of ins */
static gint
compare_shorts_ (gconstpointer s1, gconstpointer s2)
{
mix_short_t a = (mix_short_t)GPOINTER_TO_UINT(s1);
mix_short_t b = (mix_short_t)GPOINTER_TO_UINT (s2);
if ( mix_short_sign (a) == mix_short_sign (b) )
return mix_short_magnitude (a) - mix_short_magnitude (b);
else if ( mix_short_magnitude (a) == 0 && mix_short_magnitude (b) == 0 )
return 0;
else if ( mix_short_is_positive (a) )
return 1;
return -1;
}
mix_parser_t *
mix_parser_new (const gchar *in_file)
{
mix_parser_t *result;
mix_file_t *f = mix_file_new_with_def_ext (in_file, mix_io_READ,
MIX_SRC_DEFEXT);
if ( f == NULL ) return NULL;
result = g_new (mix_parser_t, 1);
result->symbol_table = mix_symbol_table_new ();
result->ls_table = mix_symbol_table_new ();
result->cur_ls = 0;
result->future_refs = g_hash_table_new (g_str_hash, g_str_equal);
result->ins_table = g_tree_new (compare_shorts_);
if ( result->symbol_table == NULL || result->future_refs == NULL
|| result->ins_table == NULL || result->ls_table == NULL )
{
mix_symbol_table_delete (result->symbol_table);
mix_symbol_table_delete (result->ls_table);
g_hash_table_destroy (result->future_refs);
g_tree_destroy (result->ins_table);
mix_file_delete (f);
g_free (result);
g_warning (_("No system resources"));
return NULL;
}
result->in_file = f;
result->loc_count = MIX_SHORT_ZERO;
result->status = MIX_PERR_NOCOMP;
result->err_line = 0;
result->err_count = 0;
result->warn_count = 0;
return result;
}
static void
delete_list_vals_ (gpointer key, gpointer value, gpointer data)
{
g_free (key);
g_slist_free ((GSList*)value);
}
static int
delete_tree_vals_ (gpointer key, gpointer value, gpointer data)
{
g_free (value);
return FALSE;
}
void
mix_parser_delete (mix_parser_t *parser)
{
g_return_if_fail (parser != NULL);
/* clear the GSList values of future_refs and its keys */
g_hash_table_foreach (parser->future_refs, delete_list_vals_, NULL);
/* clear the ins_node_'s of the ins tree */
g_tree_traverse (parser->ins_table, delete_tree_vals_, G_IN_ORDER, NULL);
/* destroy the tree and hash tables */
g_tree_destroy (parser->ins_table);
mix_symbol_table_delete (parser->symbol_table);
mix_symbol_table_delete (parser->ls_table);
g_hash_table_destroy (parser->future_refs);
mix_file_delete (parser->in_file);
g_free (parser);
}
/* Compile a mix source file */
static guint
update_future_refs_value_ (mix_parser_t *parser, const gchar *name,
mix_short_t value, gboolean remove)
{
GSList *list = NULL;
gpointer key;
guint line = 0;
g_assert (parser != NULL && name != NULL);
if ( g_hash_table_lookup_extended (parser->future_refs, name, &key,
(gpointer *)(&list)) )
{
GSList *tmp = list;
ins_node_ *node;
while ( tmp != NULL )
{
node =
(ins_node_ *)g_tree_lookup (parser->ins_table, tmp->data);
g_assert (node);
if (mix_get_ins_address (node->ins) == 1) {
value = mix_short_negative (value);
node->ins = mix_word_set_field (node->ins,
MIX_WORD_ZERO,
mix_fspec_new (1,2));
}
mix_word_add_address (node->ins, value);
g_tree_insert (parser->ins_table, tmp->data, (gpointer)node);
/* record the first line the ref appears */
if (line == 0 || line > node->lineno) line = node->lineno;
tmp = g_slist_next (tmp);
}
if (remove) {
g_hash_table_remove (parser->future_refs, name);
g_free (key);
}
g_slist_free (list);
}
return line;
}
#define update_future_refs_(parser,name,rem) \
update_future_refs_value_(parser, name, (parser)->loc_count, rem)
static void
update_ls_ (gpointer symbol, gpointer value, gpointer parser)
{ /* add an instruction on current location and update refs to it */
mix_ins_t ins;
mix_word_t w = (mix_word_t) GPOINTER_TO_UINT (value);
mix_parser_t *par = (mix_parser_t *) parser;
mix_word_to_ins_uncheck (w, ins);
mix_parser_add_ins (par, &ins,
update_future_refs_ (par, (const gchar *)symbol, TRUE));
par->loc_count++;
}
static gboolean
undef_warning_ (gpointer symbol, gpointer value, gpointer data)
{
mix_parser_t *parser = (mix_parser_t *)data;
const gchar *name = (const gchar *)symbol;
mix_ins_t ins;
mix_parser_log_error (parser, MIX_PERR_UNDEF_SYM, 0, name, TRUE);
mix_word_to_ins_uncheck (MIX_WORD_ZERO, ins);
mix_parser_add_ins (parser, &ins, update_future_refs_ (parser, name, FALSE));
mix_symbol_table_insert (parser->symbol_table, name,
mix_short_to_word_fast (parser->loc_count));
parser->loc_count++;
return TRUE;
}
mix_parser_err_t
mix_parser_compile (mix_parser_t *parser)
{
g_return_val_if_fail (parser != NULL, MIX_PERR_INTERNAL);
g_return_val_if_fail (parser->in_file != NULL, MIX_PERR_NOIN);
g_return_val_if_fail (parser->symbol_table != NULL, MIX_PERR_INTERNAL);
g_return_val_if_fail (parser->future_refs != NULL, MIX_PERR_INTERNAL);
g_return_val_if_fail (parser->ins_table != NULL, MIX_PERR_INTERNAL);
parser->status = mix_flex_scan (parser);
if ( parser->status == MIX_PERR_OK )
{
mix_symbol_table_foreach (parser->ls_table, update_ls_, (gpointer)parser);
if ( g_hash_table_size (parser->future_refs) > 0)
{
parser->loc_count--;
g_hash_table_foreach_remove (parser->future_refs,
undef_warning_, (gpointer)parser);
}
}
return parser->status;
}
/* Write a compiled source to a code file */
struct write_code_context_
{
mix_code_file_t *file;
mix_parser_t *parser;
};
static gint
write_code_ (gpointer address, gpointer ins_node, gpointer context)
{
mix_ins_desc_t desc;
struct write_code_context_ *cntx = (struct write_code_context_ *)context;
desc.ins = ((ins_node_ *)ins_node)->ins;
desc.lineno = ((ins_node_ *)ins_node)->lineno;
desc.address = (mix_address_t)GPOINTER_TO_UINT (address);
if ( mix_code_file_write_ins (cntx->file, &desc) )
return FALSE;
else
{
cntx->parser->status = MIX_PERR_NOWRITE;
return TRUE;
}
}
mix_parser_err_t
mix_parser_write_code (mix_parser_t *parser, const gchar *code_file,
gboolean debug)
{
struct write_code_context_ context;
const gchar *cfname = (code_file) ?
code_file : mix_file_base_name (parser->in_file);
gchar *source_path;
g_return_val_if_fail (parser != NULL, MIX_PERR_INTERNAL);
if (parser->status != MIX_PERR_OK ) return parser->status;
context.parser = parser;
if (!g_path_is_absolute (mix_file_base_name (parser->in_file)))
{
gchar *dir = g_get_current_dir ();
source_path = g_strconcat (dir, G_DIR_SEPARATOR_S,
mix_file_base_name (parser->in_file), NULL);
g_free (dir);
}
else
source_path = g_strdup (mix_file_base_name (parser->in_file));
context.file = mix_code_file_new_write (cfname, parser->start, source_path,
debug, parser->symbol_table);
g_free (source_path);
if (context.file == NULL) return MIX_PERR_NOOUT;
g_tree_traverse (parser->ins_table, write_code_,
G_IN_ORDER, (gpointer)&context);
mix_code_file_delete (context.file);
return parser->status;
}
/* Produce a listing file summarising the compilation */
typedef struct
{
FILE *file;
guint end;
} listing_context_t;
static gint
write_listing_ (gpointer address, gpointer ins, gpointer context)
{
guint k;
FILE *file = ((listing_context_t *)context)->file;
guint end = ((listing_context_t *)context)->end;
ins_node_ *ins_node = (ins_node_ *)ins;
mix_ins_t instruct;
gchar *instext = NULL;
mix_ins_id_t id = mix_word_to_ins (ins_node->ins, &instruct);
if (id != mix_INVALID_INS)
instext = mix_ins_to_string (&instruct);
fprintf (file, "%03d %05d %s ",
ins_node->lineno,
GPOINTER_TO_INT (address),
mix_word_is_negative (ins_node->ins)? "-":"+");
for ( k = 1; k < 6; ++k )
fprintf (file, "%02d ", mix_word_get_byte (ins_node->ins, k));
if (GPOINTER_TO_UINT (address) < end)
fprintf (file, _("\t%s\n"), instext);
else
fprintf (file, "\tCON\t%04d\n", (int)(ins_node->ins));
if (instext) g_free (instext);
return FALSE;
}
mix_parser_err_t
mix_parser_write_listing (mix_parser_t *parser, const gchar *list_file)
{
mix_file_t *mfile;
const gchar *name;
listing_context_t context;
static const char *sep =
"-----------------------------------------------------------------\n";
g_return_val_if_fail (parser != NULL, MIX_PERR_INTERNAL);
if (parser->status != MIX_PERR_OK ) return parser->status;
name = (list_file) ? list_file : mix_file_base_name (parser->in_file);
mfile = mix_file_new_with_def_ext (name, mix_io_WRITE, MIX_LIST_DEFEXT);
if ( mfile == NULL ) return MIX_PERR_NOOUT;
context.file = mix_file_to_FILE (mfile);
fprintf (context.file, _("*** %s%s: compilation summary ***\n\n"),
mix_file_base_name (parser->in_file),
mix_file_extension (parser->in_file));
fputs (sep, context.file);
fputs ( _("Src Address Compiled word Symbolic rep\n"),
context.file);
fputs (sep, context.file);
context.end = (guint)parser->end;
g_tree_traverse (parser->ins_table, write_listing_,
G_IN_ORDER, (gpointer)(&context));
fputs (sep, context.file);
fprintf (context.file, _("\n*** Start address:\t%d\n*** End address:\t%d\n"),
mix_short_magnitude (parser->start),
mix_short_magnitude (parser->end));
fprintf (context.file, _("\n*** Symbol table\n"));
mix_symbol_table_print (parser->symbol_table, MIX_SYM_ROWS,
context.file, TRUE);
fprintf (context.file, _("\n*** End of summary ***\n"));
mix_file_delete (mfile);
return parser->status;
}
/* load a virtual machine's memory with the contents of a compiled file */
static gint
load_vm_ (gpointer address, gpointer ins, gpointer vm)
{
mix_vm_set_addr_contents ((mix_vm_t*)vm,
(mix_address_t)GPOINTER_TO_UINT (address),
((ins_node_ *)ins)->ins);
return FALSE;
}
mix_parser_err_t
mix_parser_load_vm (const mix_parser_t *parser, mix_vm_t *vm)
{
g_return_val_if_fail (parser != NULL, MIX_PERR_INTERNAL);
g_return_val_if_fail (vm != NULL, MIX_PERR_INTERNAL);
g_return_val_if_fail (parser->status == MIX_PERR_OK, parser->status);
mix_vm_reset (vm);
g_tree_traverse (parser->ins_table, load_vm_, G_IN_ORDER, (gpointer)vm);
mix_vm_set_start_addr (vm, parser->start);
return parser->status;
}
/*------------ xmiparser.h functions -------------------------------------*/
/* functions to manipulate mix_parser_t during compilation */
/* symbol table */
/* Define a new symbol with value equal to the current loc_count
* and update future refs to this symbol
*/
mix_parser_err_t
mix_parser_define_symbol_here (mix_parser_t *parser, const gchar *name)
{
mix_word_t value = mix_short_to_word_fast (parser->loc_count);
return mix_parser_define_symbol_value (parser, name, value);
}
mix_parser_err_t
mix_parser_define_symbol_value (mix_parser_t *parser, const gchar *name,
mix_word_t value)
{
g_assert (parser != NULL && name != NULL);
switch (mix_symbol_table_add (parser->symbol_table, name, value))
{
case MIX_SYM_OK:
if ( parser->status == MIX_PERR_NOCOMP )
update_future_refs_value_ (parser, name, value, TRUE);
return MIX_PERR_OK;
case MIX_SYM_LONG: return MIX_PERR_LONG_SYMBOL;
case MIX_SYM_DUP: return MIX_PERR_DUP_SYMBOL;
default: return MIX_PERR_INTERNAL;
}
}
/* Obtain the value of a symbol */
void
mix_parser_set_future_ref (mix_parser_t *parser, const gchar *name)
{
const gchar *nname = name;
GSList *list;
g_assert (parser != NULL && name != NULL);
if ( parser->status == MIX_PERR_NOCOMP )
{
list = g_hash_table_lookup (parser->future_refs, name);
if ( list == NULL ) nname = g_strdup (name);
list = g_slist_prepend (list, (gpointer)((guint)parser->loc_count));
g_hash_table_insert (parser->future_refs, (gpointer)nname, list);
}
}
/* Redefine the value of a local symbol as the current loc_count */
void
mix_parser_manage_local_symbol (mix_parser_t *parser, const gchar *name,
mix_short_t value)
{
gchar ref[3];
ref[2] = 0;
g_assert (parser != NULL && name != NULL);
g_assert (strlen(name) == 2);
switch (name[1])
{
case 'f': case 'F':
mix_parser_set_future_ref (parser, name);
break;
case 'h': case 'H':
ref[0] = name[0];
ref[1] = 'F';
if ( parser->status == MIX_PERR_NOCOMP )
update_future_refs_value_ (parser, ref, value, TRUE);
ref[1] = 'B';
mix_symbol_table_insert (parser->symbol_table, ref,
mix_short_to_word_fast (value));
break;
default:
return;
}
}
/* Literal strings symbols */
void
mix_parser_define_ls (mix_parser_t *parser, mix_word_t value)
{
gchar *name = g_strdup_printf ("%05d", parser->cur_ls++);
mix_symbol_table_add (parser->ls_table, name, value);
mix_parser_set_future_ref (parser, name);
g_free (name);
}
/* Compilation */
void
mix_parser_add_ins (mix_parser_t *parser, const mix_ins_t *new_ins,
guint lineno)
{
g_assert (parser != NULL && new_ins != NULL);
mix_parser_add_raw (parser, mix_ins_to_word_uncheck (*new_ins), lineno);
}
void
mix_parser_add_raw (mix_parser_t *parser, mix_word_t word, guint lineno)
{
g_assert (parser != NULL);
if ( parser->status == MIX_PERR_NOCOMP || parser->status == MIX_PERR_OK )
{
ins_node_ *node = g_new (ins_node_, 1);
node->ins = word;
node->lineno = lineno;
g_tree_insert (parser->ins_table, (gpointer)((guint)parser->loc_count),
(gpointer)node);
}
}
/* Error handling */
void
mix_parser_log_error (mix_parser_t *parser, mix_parser_err_t error,
gint lineno, const gchar *comment, gboolean warn)
{
g_assert (parser != NULL);
if ( warn )
parser->warn_count += 1;
else
{
parser->err_count += 1;
parser->err_line = lineno;
parser->status = error;
}
fprintf (stderr, "%s%s:%d: %s: %s",
mix_file_base_name (parser->in_file),
mix_file_extension (parser->in_file),
lineno, warn ? _("warning"):_("error"), _(ERR_MESSAGE_[error]));
if (comment != NULL)
fprintf (stderr, ": %s\n", comment);
else
fputs ("\n", stderr);
}
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