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/*
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.
*/
/*** alt.c --- Alternative ADT.
*
** Author: Steve Folkes <smf@hermes.mod.uk>
*
*** Commentary:
*
* This file implements the alternative manipulation routines. They are
* specified in the file "rule.h".
*
*** Change Log:
* $Log: alt.c,v $
* Revision 1.1.1.1 1998/01/17 15:57:42 release
* First version to be checked into rolling release.
*
* Revision 1.2 1994/12/15 09:57:59 smf
* Brought into line with OSSG C Coding Standards Document, as per
* "CR94_178.sid+tld-update".
*
* Revision 1.1.1.1 1994/07/25 16:04:31 smf
* Initial import of SID 1.8 non shared files.
*
**/
/****************************************************************************/
#include "rule.h"
#include "action.h"
#include "basic.h"
#include "name.h"
#include "type.h"
/*--------------------------------------------------------------------------*/
AltP
alt_create PROTO_Z ()
{
AltP alt = ALLOCATE (AltT);
alt->next = NIL (AltP);
types_init (alt_names (alt));
bitvec_init (alt_first_set (alt));
alt->item_head = NIL (ItemP);
alt->item_tail = &(alt->item_head);
return (alt);
}
AltP
alt_create_merge PROTO_N ((initial_item, trailing_item, translator, table))
PROTO_T (ItemP initial_item X
ItemP trailing_item X
TypeTransP translator X
TableP table)
{
AltP alt = alt_create ();
for (; initial_item; initial_item = item_next (initial_item)) {
ItemP new_item = item_duplicate_and_translate (initial_item,
translator,
table);
alt_add_item (alt, new_item);
}
for (; trailing_item; trailing_item = item_next (trailing_item)) {
ItemP new_item = item_duplicate (trailing_item);
alt_add_item (alt, new_item);
}
return (alt);
}
AltP
alt_duplicate PROTO_N ((alt))
PROTO_T (AltP alt)
{
AltP new_alt = alt_create ();
ItemP item;
for (item = alt_item_head (alt); item; item = item_next (item)) {
ItemP new_item = item_duplicate (item);
alt_add_item (new_alt, new_item);
}
return (new_alt);
}
BoolT
alt_less_than PROTO_N ((alt1, alt2))
PROTO_T (AltP alt1 X
AltP alt2)
{
ItemP item1 = alt_item_head (alt1);
ItemP item2 = alt_item_head (alt2);
KeyP key1;
KeyP key2;
TypeTupleP type1;
TypeTupleP type2;
if (item_type (item1) < item_type (item2)) {
return (TRUE);
} else if (item_type (item1) > item_type (item2)) {
return (FALSE);
}
key1 = entry_key (item_entry (item1));
key2 = entry_key (item_entry (item2));
switch (key_compare (key1, key2)) EXHAUSTIVE {
case CMP_LT:
return (TRUE);
case CMP_GT:
return (FALSE);
case CMP_EQ:
break;
}
type1 = item_param (item1);
type2 = item_param (item2);
switch (types_compare (type1, type2)) EXHAUSTIVE {
case CMP_LT:
return (TRUE);
case CMP_GT:
return (FALSE);
case CMP_EQ:
break;
}
type1 = item_result (item1);
type2 = item_result (item2);
switch (types_compare (type1, type2)) EXHAUSTIVE {
case CMP_LT:
return (TRUE);
case CMP_GT:
return (FALSE);
case CMP_EQ:
break;
}
UNREACHED;
}
BoolT
alt_equal PROTO_N ((alt1, alt2))
PROTO_T (AltP alt1 X
AltP alt2)
{
ItemP item1;
ItemP item2;
if ((alt1 == NIL (AltP)) && (alt2 == NIL (AltP))) {
return (TRUE);
} else if ((alt1 == NIL (AltP)) || (alt2 == NIL (AltP))) {
return (FALSE);
}
item1 = alt_item_head (alt1);
item2 = alt_item_head (alt2);
while (item1 && item2) {
if ((item_entry (item1) == item_entry (item2)) &&
(types_equal_numbers (item_param (item1), item_param (item2))) &&
(types_equal_numbers (item_result (item1), item_result (item2)))) {
item1 = item_next (item1);
item2 = item_next (item2);
} else {
return (FALSE);
}
}
return (item1 == item2);
}
#ifdef FS_FAST
#undef alt_next
#endif /* defined (FS_FAST) */
AltP
alt_next PROTO_N ((alt))
PROTO_T (AltP alt)
{
return (alt->next);
}
#ifdef FS_FAST
#define alt_next(a) ((a)->next)
#endif /* defined (FS_FAST) */
#ifdef FS_FAST
#undef alt_next_ref
#endif /* defined (FS_FAST) */
AltP *
alt_next_ref PROTO_N ((alt))
PROTO_T (AltP alt)
{
return (&(alt->next));
}
#ifdef FS_FAST
#define alt_next_ref(a) (&((a)->next))
#endif /* defined (FS_FAST) */
#ifdef FS_FAST
#undef alt_set_next
#endif /* defined (FS_FAST) */
void
alt_set_next PROTO_N ((alt1, alt2))
PROTO_T (AltP alt1 X
AltP alt2)
{
alt1->next = alt2;
}
#ifdef FS_FAST
#define alt_set_next(a1, a2) ((a1)->next = (a2))
#endif /* defined (FS_FAST) */
#ifdef FS_FAST
#undef alt_names
#endif /* defined (FS_FAST) */
TypeTupleP
alt_names PROTO_N ((alt))
PROTO_T (AltP alt)
{
return (&(alt->names));
}
#ifdef FS_FAST
#define alt_names(a) (&((a)->names))
#endif /* defined (FS_FAST) */
#ifdef FS_FAST
#undef alt_first_set
#endif /* defined (FS_FAST) */
BitVecP
alt_first_set PROTO_N ((alt))
PROTO_T (AltP alt)
{
return (&(alt->first_set));
}
#ifdef FS_FAST
#define alt_first_set(a) (&((a)->first_set))
#endif /* defined (FS_FAST) */
#ifdef FS_FAST
#undef alt_item_head
#endif /* defined (FS_FAST) */
ItemP
alt_item_head PROTO_N ((alt))
PROTO_T (AltP alt)
{
return (alt->item_head);
}
#ifdef FS_FAST
#define alt_item_head(a) ((a)->item_head)
#endif /* defined (FS_FAST) */
ItemP
alt_unlink_item_head PROTO_N ((alt))
PROTO_T (AltP alt)
{
ItemP item = alt_item_head (alt);
alt->item_head = item_next (item);
item_set_next (item, NIL (ItemP));
if (alt->item_tail == item_next_ref (item)) {
alt->item_tail = &(alt->item_head);
}
return (item);
}
void
alt_add_item PROTO_N ((alt, item))
PROTO_T (AltP alt X
ItemP item)
{
*(alt->item_tail) = item;
alt->item_tail = item_next_ref (item);
}
AltP
alt_deallocate PROTO_N ((alt))
PROTO_T (AltP alt)
{
AltP next = alt_next (alt);
ItemP item;
for (item = alt_item_head (alt); item; item = item_deallocate (item)) {
/*NOTHING*/
}
types_destroy (alt_names (alt));
bitvec_destroy (alt_first_set (alt));
DEALLOCATE (alt);
return (next);
}
void
write_alt PROTO_N ((ostream, alt))
PROTO_T (OStreamP ostream X
AltP alt)
{
ItemP item;
for (item = alt_item_head (alt); item; item = item_next (item)) {
write_tab (ostream);
write_item (ostream, item);
write_newline (ostream);
}
}
void
write_alt_highlighting PROTO_N ((ostream, alt, highlight))
PROTO_T (OStreamP ostream X
AltP alt X
ItemP highlight)
{
ItemP item;
for (item = alt_item_head (alt); item; item = item_next (item)) {
if (item == highlight) {
write_cstring (ostream, "==>>");
}
write_tab (ostream);
write_item (ostream, item);
write_newline (ostream);
}
}
/*
* Local variables(smf):
* eval: (include::add-path-entry "../os-interface" "../library")
* eval: (include::add-path-entry "../generated")
* end:
**/