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/*
* Copyright (c) 2002-2005 The TenDRA Project <http://www.tendra.org/>.
* All rights reserved.
*
* 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.
* 3. Neither the name of The TenDRA Project nor the names of its contributors
* may be used to endorse or promote products derived from this software
* without specific, prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND 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 COPYRIGHT HOLDERS OR
* 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.
*
* $Id$
*/
/*
Crown Copyright (c) 1997
This TenDRA(r) Computer Program is subject to Copyright
owned by the United Kingdom Secretary of State for Defence
acting through the Defence Evaluation and Research Agency
(DERA). It is made available to Recipients with a
royalty-free licence for its use, reproduction, transfer
to other parties and amendment for any purpose not excluding
product development provided that any such use et cetera
shall be deemed to be acceptance of the following conditions:-
(1) Its Recipients shall ensure that this Notice is
reproduced upon any copies or amended versions of it;
(2) Any amended version of it shall be clearly marked to
show both the nature of and the organisation responsible
for the relevant amendment or amendments;
(3) Its onward transfer from a recipient to another
party shall be deemed to be that party's acceptance of
these conditions;
(4) DERA gives no warranty or assurance as to its
quality or suitability for any purpose and DERA accepts
no liability whatsoever in relation to any use to which
it may be put.
*/
#include "config.h"
#include "types.h"
#include "de_types.h"
#include "de_capsule.h"
#include "de_unit.h"
#include "decode.h"
#include "fetch.h"
#include "names.h"
#include "node.h"
#include "table.h"
#include "tdf.h"
#include "utility.h"
/*
FLAG : DECODE STATUS
A value of 0 indicates that we are decoding the names at the start
of the capsule, 1 that we are decoding the linkage information, and
2 that we are decoding a main equation body.
*/
int decode_status = -1;
/*
FLAG : ONLY DECODE TOKEN DECLARATIONS
This flag is true if we are only interested in the token
declarations in a capsule.
*/
boolean extract_tokdecs = 0;
/*
THE ARRAY OF ALL VARIABLE SORTS
The array vars of size no_var gives all variable sorts. The
indexes in this array of the alignment tags, tags and tokens are
given by al_tag_var, tag_var, tok_var respectively.
*/
static long no_var;
static var_sort *vars;
long al_tag_var, tag_var, tok_var;
/*
LIST OF UNUSED CONSTRUCTS
All unused constructs in a capsule are formed into a list for
later reuse.
*/
static construct *garbage = null;
/*
CURRENT BINDINGS
The current bindings are held in crt_binding. spare_binding, if not
null, contains a binding suitable for reuse.
*/
binding *crt_binding;
static binding *spare_binding = null;
/*
CREATE A NEW BINDING
A new binding with space for no_var variable sorts is created and
cleared.
*/
static binding *
new_binding(void)
{
binding *b;
long i, n = no_var;
if (n == 0) return(null);
if (spare_binding) {
b = spare_binding;
spare_binding = null;
for (i = 0; i < n; i++)b[i].max_no = 0;
return(b);
}
b = alloc_nof(binding, n);
for (i = 0; i < n; i++) {
b[i].max_no = 0;
b[i].sz = 0;
b[i].table = null;
}
return(b);
}
/*
FREE A BINDING
The binding b is returned to free.
*/
static void
free_binding(binding *b)
{
spare_binding = b;
return;
}
/*
SET THE SIZE OF AN ENTRY IN A BINDING
The size of the table of the vth variable sort in the binding bt
is set to n.
*/
static void
set_binding_size(binding *bt, long v, long n)
{
binding *b;
construct **p;
long i, m = n + 10;
if (v < 0 || v >= no_var) {
input_error("Illegal binding sort");
return;
}
b = bt + v;
b->max_no = n;
if (b->sz < m) {
p = realloc_nof(b->table, construct *, m);
b->sz = m;
b->table = p;
} else {
p = b->table;
}
for (i = 0; i < b->sz; i++)p[i] = null;
return;
}
/*
COMPLETE A BINDING
The unused entries in the binding b are filled in.
*/
static void
complete_binding(binding *b)
{
long v;
for (v = 0; v < no_var; v++) {
long i;
binding *bv = b + v;
sortname s = vars[v].sortnum;
for (i = 0; i < bv->max_no; i++) {
if (bv->table[i] == null) {
construct *p = make_construct(s);
if (extract_tokdecs) {
/* This construct is unused - free it */
(sort_count[s]) --;
p->next = garbage;
garbage = p;
} else {
/* Make up an internal name */
long n = p->encoding;
char *nm = alloc_nof(char, 32);
IGNORE sprintf(nm, "~~%s_%ld", vars[v].name, n);
p->name = nm;
if (add_to_var_hash(p, s)) {
input_error("%s has already been defined", nm);
}
}
bv->table[i] = p;
}
}
}
return;
}
/*
SET AN ENTRY IN A BINDING
The nth entry of the vth variable sort of the binding bt is set to
the construct p.
*/
static void
set_binding(binding *bt, long v, long n, construct *p)
{
binding *b;
if (v < 0 || v >= no_var) {
input_error("Illegal binding sort");
return;
}
b = bt + v;
if (n >= b->max_no || n < 0) {
input_error("Object number %ld (%s) too big", n, vars[v].name);
return;
}
if (b->table[n]) {
input_error("Object %ld (%s) already bound", n, vars[v].name);
return;
}
b->table[n] = p;
return;
}
/*
FIND AN ENTRY IN A BINDING
The nth entry of the vth variable sort of the binding bt is returned.
*/
construct *
find_binding(binding *bt, long v, long n)
{
binding *b;
if (v < 0 || v >= no_var) {
input_error("Illegal binding sort");
return(null);
}
b = bt + v;
if (n >= b->max_no || n < 0) {
input_error("Object number %ld (%s) too big", n, vars[v].name);
return(null);
}
return(b->table[n]);
}
/*
DECODE AN ALIGNED STRING
An aligned string (in an external name) is decoded and returned
as an array of characters.
*/
static char *
de_aligned_string(void)
{
char *p;
long i, n = tdf_int();
if (n != 8)input_error("Only 8-bit strings allowed");
n = tdf_int();
byte_align();
p = alloc_nof(char, n + 1);
for ( i = 0 ; i < n ; i++ ) p [i] = ( char ) fetch ( 8 ) /* LINT */ ;
p[n] = 0;
byte_align();
return(p);
}
/*
FLAG INDICATING SKIP PASS
This flag is true if we are in the skip pass of a set of equations
(primarily token definitions).
*/
boolean in_skip_pass = 0;
/*
DECODE A SET OF EQUATIONS
A set of equations with decoding routine f is decoded. If f is null
the equations are stepped over, otherwise they are decoded.
*/
typedef void(*equation_func)(void);
static void
de_equation(equation_func f)
{
long i, n;
binding *old_binding = null;
/* Read new bindings */
n = tdf_int();
if (n) {
if (n != no_var)input_error("Number of local variables wrong");
old_binding = crt_binding;
crt_binding = new_binding();
for (i = 0; i < n; i++) {
long sz = tdf_int();
set_binding_size(crt_binding, i, sz);
}
n = tdf_int();
if (n != no_var)input_error("Number of linkage units wrong");
for (i = 0; i < n; i++) {
long j, no_links = tdf_int();
for (j = 0; j < no_links; j++) {
long inner = tdf_int();
long outer = tdf_int();
construct *p = find_binding(old_binding, i, outer);
set_binding(crt_binding, i, inner, p);
}
}
complete_binding(crt_binding);
} else {
n = tdf_int();
if (n)input_error("Number of linkage units wrong");
}
/* Read the actual equation */
n = BYTESIZE * tdf_int();
byte_align();
if (f == null) {
input_skip(n);
} else {
long end_posn = input_posn() + n;
decode_status = 2;
(*f)();
byte_align();
decode_status = 1;
if (input_posn()!= end_posn)input_error("Unit length wrong");
}
/* Restore the old bindings */
if (old_binding) {
free_binding(crt_binding);
crt_binding = old_binding;
}
return;
}
/*
DECODE A CAPSULE
An entire TDF capsule is decoded.
*/
void
de_capsule(void)
{
long i, n;
long no_eqn;
char **eqns;
/* Reset variables */
al_tag_var = -1;
tag_var = -2;
tok_var = -3;
spare_binding = null;
have_version = 0;
decode_status = 0;
/* Read magic number */
de_magic(MAGIC_NUMBER);
/* Read equation names */
no_eqn = tdf_int();
eqns = alloc_nof(char *, no_eqn);
for (i = 0; i < no_eqn; i++)eqns[i] = de_aligned_string();
/* Read variable sort names */
no_var = tdf_int();
vars = alloc_nof(var_sort, no_var);
crt_binding = new_binding();
for (i = 0; i < no_var; i++) {
char *s = de_aligned_string();
long sz = tdf_int();
vars[i].name = s;
if (streq(s, LINK_al_tag)) {
vars[i].sortnum = SORT_al_tag;
al_tag_var = i;
} else if (streq(s, LINK_tag)) {
vars[i].sortnum = SORT_tag;
tag_var = i;
} else if (streq(s, LINK_token)) {
vars[i].sortnum = SORT_token;
tok_var = i;
} else {
vars[i].sortnum = SORT_unknown;
}
set_binding_size(crt_binding, i, sz);
}
/* Read external names */
decode_status = 1;
n = tdf_int();
if (n != no_var)input_error("Number of variable sorts wrong");
for (i = 0; i < no_var; i++) {
static int un = 0;
sortname si = vars[i].sortnum;
long j, no_links = tdf_int();
boolean reject = 0;
if (extract_tokdecs && i != tok_var)reject = 1;
for (j = 0; j < no_links; j++) {
construct *p, *q;
long id = tdf_int();
n = de_external_bits();
byte_align();
p = make_construct(si);
if (extract_tokdecs) {
(sort_count[si]) --;
p->encoding = -1;
}
if (n == ENC_string_extern) {
/* Simple external name */
boolean name_ok = 1;
node *ns = de_node("=");
if (reject) {
free_node(ns);
} else {
/* Check that name is a valid identifier */
char *nm = ns->cons->name;
if (alpha(*nm)) {
long k;
for (k = 1; k < ns->cons->encoding; k++) {
char c = nm[k];
if (!alphanum(c))name_ok = 0;
}
} else {
name_ok = 0;
}
if (name_ok) {
/* Use external name as internal name */
p->name = nm;
if (!is_local_name(nm)) {
p->ename = new_node();
p->ename->cons = &false_cons;
}
} else {
/* Make up internal name */
p->name = alloc_nof(char, 32);
IGNORE sprintf(p->name, "~~extern_%d", un++);
if (!is_local_name(nm)) {
p->ename = new_node();
p->ename->cons = &true_cons;
p->ename->son = ns;
}
}
}
} else if (n == ENC_unique_extern) {
/* Unique external name */
node *nu = de_node("%[=]");
if (reject) {
free_node(nu);
} else {
/* Make up internal name */
p->name = alloc_nof(char, 32);
IGNORE sprintf(p->name, "~~extern_%d", un++);
p->ename = new_node();
p->ename->cons = &true_cons;
p->ename->son = nu;
}
} else if (n == ENC_chain_extern) {
/* Chain external name */
node *nc = de_node("=i");
if (reject) {
free_node(nc);
} else {
/* Make up internal name */
p->name = alloc_nof(char, 32);
IGNORE sprintf(p->name, "~~extern_%d", un++);
p->ename = new_node();
p->ename->cons = &true_cons;
p->ename->son = nc;
}
} else {
input_error("Illegal EXTERN value, %ld", n);
}
/* Add construct to tables */
if (reject) {
set_binding(crt_binding, i, id, p);
p->next = garbage;
garbage = p;
} else {
q = add_to_var_hash(p, si);
if (q) {
if (!extract_tokdecs) {
(sort_count[si]) --;
if (q->encoding == -1) {
q->encoding = (sort_count[si]) ++;
}
}
set_binding(crt_binding, i, id, q);
p->next = garbage;
garbage = p;
} else {
set_binding(crt_binding, i, id, p);
}
}
}
}
/* Complete the bindings */
complete_binding(crt_binding);
/* Read the equations */
n = tdf_int();
if (n != no_eqn)input_error("Number of equations wrong");
for (i = 0; i < no_eqn; i++) {
char *eq = eqns[i];
long j, no_units = tdf_int();
if (no_units) {
boolean skip_pass = 0;
equation_func f = null;
/* Find equation decoding routine */
if (extract_tokdecs) {
if (streq(eq, LINK_tokdec_props)) {
f = de_tokdec;
} else if (streq(eq, LINK_tokdef_props)) {
f = de_tokdef;
in_skip_pass = 1;
}
} else {
if (streq(eq, LINK_al_tagdef_props)) {
f = de_aldef;
} else if (streq(eq, LINK_tagdec_props)) {
f = de_tagdec;
} else if (streq(eq, LINK_tagdef_props)) {
f = de_tagdef;
} else if (streq(eq, LINK_tokdec_props)) {
f = de_tokdec;
} else if (streq(eq, LINK_tokdef_props)) {
f = de_tokdef;
skip_pass = 1;
} else if (streq(eq, LINK_version_props)) {
f = de_version;
}
}
/* Skip pass */
if (skip_pass) {
long old_posn = input_posn();
in_skip_pass = 1;
for (j = 0; j < no_units; j++)de_equation(f);
in_skip_pass = 0;
input_goto(old_posn);
}
/* Main pass */
for (j = 0; j < no_units; j++)de_equation(f);
in_skip_pass = 0;
}
}
/* Free unused constructs */
free_construct(&garbage);
return;
}
/*
NAME OF CURRENT CAPSULE
The current capsule of a library is recorded to use in error messages.
*/
char *capname = null;
/*
DECODE A TDF LIBRARY
*/
void
de_library(void)
{
long old_posn;
long i, no_cap;
boolean old_extract = extract_tokdecs;
de_magic(MAGIC_LINK_NUMBER);
IGNORE tdf_int();
no_cap = tdf_int();
old_posn = input_posn();
/* First pass - extract all token declaration */
extract_tokdecs = 1;
for (i = 0; i < no_cap; i++) {
long end_posn;
long j, n;
decode_status = 0;
n = tdf_int();
if (n != 8)input_error("Only 8-bit strings allowed");
n = tdf_int();
byte_align();
capname = alloc_nof(char, n + 1);
for (j = 0; j < n; j++) {
capname [j] = ( char ) fetch ( 8 ) ; /* LINT */
}
capname[n] = 0;
n = BYTESIZE * tdf_int();
byte_align();
end_posn = input_posn() + n;
de_capsule();
byte_align();
if (input_posn()!= end_posn) {
input_error("Capsule length wrong");
}
capname = null;
}
/* Second pass - if the first pass didn't do everything */
extract_tokdecs = old_extract;
if (extract_tokdecs) return;
input_goto(old_posn);
for (i = 0; i < no_cap; i++) {
long end_posn;
long j, n;
decode_status = 0;
n = tdf_int();
if (n != 8)input_error("Only 8-bit strings allowed");
n = tdf_int();
byte_align();
capname = alloc_nof(char, n + 1);
for (j = 0; j < n; j++) {
capname [j] = ( char ) fetch ( 8 ) ; /* LINT */
}
capname[n] = 0;
n = BYTESIZE * tdf_int();
byte_align();
end_posn = input_posn() + n;
de_capsule();
byte_align();
if (input_posn()!= end_posn) {
input_error("Capsule length wrong");
}
capname = null;
}
return;
}