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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.
*/
/**** c-code.c --- SID C code ADT routines.
*
** Author: Steve Folkes <smf@hermes.mod.uk>
*
**** Commentary:
*
* This file implements the C code ADT used to represent action definitions
* for the C output language.
*
**** Change Log:
* $Log: c-code.c,v $
* Revision 1.1.1.1 1998/01/17 15:57:42 release
* First version to be checked into rolling release.
*
* Revision 1.3 1996/03/01 09:53:12 smf
* c-code.c, c-out-info.c, c-out-info.h, c-output.c:
* - improved unreachable code analysis;
* - improved some output formatting;
* - added support for comment or macro to mark unreachable code.
*
* Revision 1.2 1994/12/15 09:56:23 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 16:04:17 smf
* Initial import of SID 1.8 non shared files.
*
**/
/****************************************************************************/
#include "c-code.h"
#include "c-out-key.h"
#include "c-output.h"
#include "gen-errors.h"
#include "name.h"
/*--------------------------------------------------------------------------*/
static void
c_code_set_labels PROTO_N ((code))
PROTO_T (CCodeP code)
{
CCodeItemP item;
for (item = code->head; item; item = item->next) {
if (item->type == CCT_LABEL) {
NameP name = entry_get_name (item->u.ident);
if (!name_has_label (name)) {
name_set_label (name, c_out_next_label ());
}
}
}
}
static void
c_code_reset_labels PROTO_N ((code))
PROTO_T (CCodeP code)
{
CCodeItemP item;
for (item = code->head; item; item = item->next) {
if (item->type == CCT_LABEL) {
NameP name = entry_get_name (item->u.ident);
name_reset_label (name);
}
}
}
static EntryP
c_code_get_translation PROTO_N ((state, translator, ident, type_ref,
reference_ref, entry_ref))
PROTO_T (SaveRStackP state X
TypeBTransP translator X
EntryP ident X
EntryP *type_ref X
BoolT *reference_ref X
EntryP *entry_ref)
{
EntryP entry = btrans_get_translation (translator, ident);
EntryP stack_entry;
ASSERT (entry);
stack_entry = rstack_get_translation (state, entry, type_ref,
reference_ref);
if ((stack_entry == NIL (EntryP)) && (entry_is_non_local (entry))) {
stack_entry = entry;
*type_ref = entry_get_non_local (entry);
*reference_ref = FALSE;
}
ASSERT (stack_entry);
if (entry_ref) {
*entry_ref = entry;
}
return (stack_entry);
}
/*--------------------------------------------------------------------------*/
CCodeP
c_code_create PROTO_N ((file, line))
PROTO_T (CStringP file X
unsigned line)
{
CCodeP code = ALLOCATE (CCodeT);
code->head = NIL (CCodeItemP);
code->tail = &(code->head);
code->file = file;
code->line = line;
types_init (&(code->param));
types_init (&(code->result));
return (code);
}
void
c_code_append_string PROTO_N ((code, string))
PROTO_T (CCodeP code X
NStringP string)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_STRING;
nstring_assign (&(item->u.string), string);
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_label PROTO_N ((code, string))
PROTO_T (CCodeP code X
NStringP string)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_LABEL;
nstring_assign (&(item->u.string), string);
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_identifier PROTO_N ((code, string))
PROTO_T (CCodeP code X
NStringP string)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_IDENT;
nstring_assign (&(item->u.string), string);
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_modifiable PROTO_N ((code, string))
PROTO_T (CCodeP code X
NStringP string)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_MOD_IDENT;
nstring_assign (&(item->u.string), string);
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_reference PROTO_N ((code, string))
PROTO_T (CCodeP code X
NStringP string)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_REF_IDENT;
nstring_assign (&(item->u.string), string);
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_exception PROTO_N ((code))
PROTO_T (CCodeP code)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_EXCEPTION;
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_advance PROTO_N ((code))
PROTO_T (CCodeP code)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_ADVANCE;
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_append_terminal PROTO_N ((code))
PROTO_T (CCodeP code)
{
CCodeItemP item = ALLOCATE (CCodeItemT);
item->next = NIL (CCodeItemP);
item->type = CCT_TERMINAL;
*(code->tail) = item;
code->tail = &(item->next);
}
void
c_code_check PROTO_N ((code, exceptions, param_op, param, result, table))
PROTO_T (CCodeP code X
BoolT exceptions X
BoolT param_op X
TypeTupleP param X
TypeTupleP result X
TableP table)
{
CCodeItemP item;
EntryP entry;
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_IDENT:
entry = table_add_name (table, &(item->u.string));
item->u.ident = entry;
if (((param == NIL (TypeTupleP)) ||
(!types_contains (param, entry))) &&
((result == NIL (TypeTupleP)) ||
(!types_contains (result, entry)))) {
E_bad_id_substitution (c_code_file (code), c_code_line (code),
entry);
} else if (result) {
name_used (entry_get_name (entry));
}
break;
case CCT_MOD_IDENT:
entry = table_add_name (table, &(item->u.string));
item->u.ident = entry;
if (exceptions) {
if ((param == NIL (TypeTupleP)) ||
(!types_mutated (param, entry))) {
E_bad_mod_id_substitution (c_code_file (code),
c_code_line (code), entry);
}
} else {
E_mod_id_in_assign (c_code_file (code), c_code_line (code),
entry);
}
break;
case CCT_REF_IDENT:
entry = table_add_name (table, &(item->u.string));
item->u.ident = entry;
if (!param_op) {
if ((param == NIL (TypeTupleP)) ||
(!types_contains (param, entry))) {
E_bad_ref_id_substitution (c_code_file (code),
c_code_line (code), entry);
}
} else {
E_ref_id_in_param_op (c_code_file (code), c_code_line (code),
entry);
}
break;
case CCT_LABEL:
entry = table_add_name (table, &(item->u.string));
item->u.ident = entry;
if ((param == NIL (TypeTupleP)) && (result == NIL (TypeTupleP))) {
E_bad_label_substitution (c_code_file (code),
c_code_line (code), entry);
}
break;
case CCT_EXCEPTION:
if (!exceptions) {
E_bad_exception_substitution (c_code_file (code),
c_code_line (code));
}
break;
case CCT_ADVANCE:
if (!exceptions) {
E_bad_advance_substitution (c_code_file (code),
c_code_line (code));
}
break;
case CCT_TERMINAL:
if (!exceptions) {
E_bad_terminal_substitution (c_code_file (code),
c_code_line (code));
}
break;
case CCT_STRING:
break;
}
}
if (result) {
types_check_used (result, E_code_undefined_result, (GenericP) code);
for (item = code->head; item; item = item->next) {
if (item->type == CCT_IDENT) {
name_not_used (entry_get_name (item->u.ident));
}
}
}
if (param) {
types_assign (&(code->param), param);
}
if (result) {
types_assign (&(code->result), result);
}
}
#ifdef FS_FAST
#undef c_code_file
#endif /* defined (FS_FAST) */
CStringP
c_code_file PROTO_N ((code))
PROTO_T (CCodeP code)
{
return (code->file);
}
#ifdef FS_FAST
#define c_code_file(c) ((c)->file)
#endif /* defined(FS_FAST) */
#ifdef FS_FAST
#undef c_code_line
#endif /* defined (FS_FAST) */
unsigned
c_code_line PROTO_N ((code))
PROTO_T (CCodeP code)
{
return (code->line);
}
#ifdef FS_FAST
#define c_code_line(c) ((c)->line)
#endif /* defined(FS_FAST) */
TypeTupleP
c_code_param PROTO_N ((code))
PROTO_T (CCodeP code)
{
return (&(code->param));
}
TypeTupleP
c_code_result PROTO_N ((code))
PROTO_T (CCodeP code)
{
return (&(code->result));
}
void
c_code_deallocate PROTO_N ((code))
PROTO_T (CCodeP code)
{
CCodeItemP item = code->head;
while (item) {
CCodeItemP next = item->next;
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
nstring_destroy (&(item->u.string));
break;
case CCT_IDENT:
case CCT_MOD_IDENT:
case CCT_REF_IDENT:
case CCT_LABEL:
case CCT_EXCEPTION:
case CCT_TERMINAL:
case CCT_ADVANCE:
break;
}
DEALLOCATE (item);
item = next;
}
types_destroy (&(code->param));
types_destroy (&(code->result));
DEALLOCATE (code);
}
void
c_output_c_code_action PROTO_N ((info, code, param, result, state,
handler_rule))
PROTO_T (COutputInfoP info X
CCodeP code X
TypeTupleP param X
TypeTupleP result X
SaveRStackP state X
RuleP handler_rule)
{
OStreamP ostream = c_out_info_ostream (info);
NStringP label_prefix = c_out_info_label_prefix (info);
NStringP in_prefix = c_out_info_in_prefix (info);
CCodeItemP item;
EntryP stack_entry;
EntryP entry;
EntryP stack_type;
BoolT stack_reference;
BoolT use_cast;
TypeBTransT translator;
c_code_set_labels (code);
btrans_init (&translator);
btrans_add_translations (&translator, &(code->param), param);
btrans_add_translations (&translator, &(code->result), result);
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
write_nstring (ostream, &(item->u.string));
break;
case CCT_LABEL:
write_nstring (ostream, label_prefix);
write_unsigned (ostream,
name_get_label (entry_get_name (item->u.ident)));
break;
case CCT_IDENT:
stack_entry = c_code_get_translation (state, &translator,
item->u.ident, &stack_type,
&stack_reference, &entry);
use_cast = (types_contains (param, entry) &&
c_out_info_get_casts (info));
if (use_cast) {
write_cstring (ostream, "((");
c_output_mapped_key (info, stack_type);
write_cstring (ostream, ") (");
} else {
write_char (ostream, '(');
}
if (stack_reference) {
write_char (ostream, '*');
}
c_output_key (info, entry_key (stack_entry), in_prefix);
if (use_cast) {
write_cstring (ostream, "))");
} else {
write_char (ostream, ')');
}
break;
case CCT_MOD_IDENT:
stack_entry = c_code_get_translation (state, &translator,
item->u.ident, &stack_type,
&stack_reference,
NIL (EntryP *));
write_char (ostream, '(');
if (stack_reference) {
write_char (ostream, '*');
}
c_output_key (info, entry_key (stack_entry), in_prefix);
write_char (ostream, ')');
break;
case CCT_REF_IDENT:
stack_entry = c_code_get_translation (state, &translator,
item->u.ident, &stack_type,
&stack_reference,
NIL (EntryP *));
write_char (ostream, '(');
if (!stack_reference) {
write_char (ostream, '&');
}
c_output_key (info, entry_key (stack_entry), in_prefix);
write_char (ostream, ')');
break;
case CCT_EXCEPTION:
write_cstring (ostream, "goto ");
write_nstring (ostream, label_prefix);
write_unsigned (ostream, rule_get_handler_label (handler_rule));
break;
case CCT_ADVANCE:
write_cstring (ostream, "ADVANCE_LEXER");
break;
case CCT_TERMINAL:
write_cstring (ostream, "CURRENT_TERMINAL");
break;
}
}
btrans_destroy (&translator);
c_code_reset_labels (code);
}
void
c_output_c_code_basic PROTO_N ((info, code, result, state))
PROTO_T (COutputInfoP info X
CCodeP code X
TypeTupleP result X
SaveRStackP state)
{
OStreamP ostream = c_out_info_ostream (info);
NStringP label_prefix = c_out_info_label_prefix (info);
NStringP in_prefix = c_out_info_in_prefix (info);
CCodeItemP item;
EntryP stack_entry;
EntryP stack_type;
BoolT stack_reference;
TypeBTransT translator;
c_code_set_labels (code);
btrans_init (&translator);
btrans_add_translations (&translator, &(code->result), result);
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
write_nstring (ostream, &(item->u.string));
break;
case CCT_LABEL:
write_nstring (ostream, label_prefix);
write_unsigned (ostream,
name_get_label (entry_get_name (item->u.ident)));
break;
case CCT_IDENT:
stack_entry = c_code_get_translation (state, &translator,
item->u.ident, &stack_type,
&stack_reference,
NIL (EntryP *));
c_output_key (info, entry_key (stack_entry), in_prefix);
break;
case CCT_MOD_IDENT:
case CCT_REF_IDENT:
case CCT_EXCEPTION:
case CCT_ADVANCE:
case CCT_TERMINAL:
UNREACHED;
}
}
btrans_destroy (&translator);
c_code_reset_labels (code);
}
void
c_output_c_code_assign PROTO_N ((info, code, type, from, to, from_reference,
to_reference))
PROTO_T (COutputInfoP info X
CCodeP code X
EntryP type X
EntryP from X
EntryP to X
BoolT from_reference X
BoolT to_reference)
{
OStreamP ostream = c_out_info_ostream (info);
NStringP label_prefix = c_out_info_label_prefix (info);
NStringP in_prefix = c_out_info_in_prefix (info);
BoolT is_param;
BoolT use_cast;
CCodeItemP item;
c_code_set_labels (code);
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
write_nstring (ostream, &(item->u.string));
break;
case CCT_LABEL:
write_nstring (ostream, label_prefix);
write_unsigned (ostream,
name_get_label (entry_get_name (item->u.ident)));
break;
case CCT_IDENT:
is_param = types_contains (&(code->param), item->u.ident);
use_cast = (is_param && c_out_info_get_casts (info));
if (use_cast) {
write_cstring (ostream, "((");
c_output_mapped_key (info, type);
write_cstring (ostream, ") (");
} else {
write_char (ostream, '(');
}
if (is_param) {
if (from_reference) {
write_char (ostream, '*');
}
c_output_key (info, entry_key (from), in_prefix);
} else {
if (to_reference) {
write_char (ostream, '*');
}
c_output_key (info, entry_key (to), in_prefix);
}
if (use_cast) {
write_cstring (ostream, "))");
} else {
write_char (ostream, ')');
}
break;
case CCT_REF_IDENT:
write_char (ostream, '(');
if (!from_reference) {
write_char (ostream, '&');
}
c_output_key (info, entry_key (from), in_prefix);
write_char (ostream, ')');
break;
case CCT_MOD_IDENT:
case CCT_EXCEPTION:
case CCT_ADVANCE:
case CCT_TERMINAL:
UNREACHED;
}
}
c_code_reset_labels (code);
}
void
c_output_c_code_param_assign PROTO_N ((info, code, type, entry))
PROTO_T (COutputInfoP info X
CCodeP code X
EntryP type X
EntryP entry)
{
OStreamP ostream = c_out_info_ostream (info);
NStringP label_prefix = c_out_info_label_prefix (info);
NStringP in_prefix = c_out_info_in_prefix (info);
NStringP out_prefix = c_out_info_out_prefix (info);
CCodeItemP item;
c_code_set_labels (code);
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
write_nstring (ostream, &(item->u.string));
break;
case CCT_LABEL:
write_nstring (ostream, label_prefix);
write_unsigned (ostream,
name_get_label (entry_get_name (item->u.ident)));
break;
case CCT_IDENT:
if (types_contains (&(code->param), item->u.ident)) {
BoolT use_cast = c_out_info_get_casts (info);
if (use_cast) {
write_cstring (ostream, "((");
c_output_mapped_key (info, type);
write_cstring (ostream, " *) (");
}
c_output_key (info, entry_key (entry), out_prefix);
if (use_cast) {
write_cstring (ostream, "))");
}
} else {
c_output_key (info, entry_key (entry), in_prefix);
}
break;
case CCT_MOD_IDENT:
case CCT_REF_IDENT:
case CCT_EXCEPTION:
case CCT_ADVANCE:
case CCT_TERMINAL:
UNREACHED;
}
}
c_code_reset_labels (code);
}
void
c_output_c_code_result_assign PROTO_N ((info, code, type, entry))
PROTO_T (COutputInfoP info X
CCodeP code X
EntryP type X
EntryP entry)
{
OStreamP ostream = c_out_info_ostream (info);
NStringP label_prefix = c_out_info_label_prefix (info);
NStringP in_prefix = c_out_info_in_prefix (info);
NStringP out_prefix = c_out_info_out_prefix (info);
CCodeItemP item;
c_code_set_labels (code);
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
write_nstring (ostream, &(item->u.string));
break;
case CCT_LABEL:
write_nstring (ostream, label_prefix);
write_unsigned (ostream,
name_get_label (entry_get_name (item->u.ident)));
break;
case CCT_IDENT:
if (types_contains (&(code->param), item->u.ident)) {
BoolT use_cast = c_out_info_get_casts (info);
if (use_cast) {
write_cstring (ostream, "((");
c_output_mapped_key (info, type);
write_cstring (ostream, ") (");
}
c_output_key (info, entry_key (entry), in_prefix);
if (use_cast) {
write_cstring (ostream, "))");
}
} else {
c_output_key (info, entry_key (entry), out_prefix);
}
break;
case CCT_REF_IDENT:
write_cstring (ostream, "(&");
c_output_key (info, entry_key (entry), in_prefix);
write_char (ostream, ')');
break;
case CCT_MOD_IDENT:
case CCT_EXCEPTION:
case CCT_ADVANCE:
case CCT_TERMINAL:
UNREACHED;
}
}
c_code_reset_labels (code);
}
void
c_output_c_code PROTO_N ((info, code))
PROTO_T (COutputInfoP info X
CCodeP code)
{
OStreamP ostream = c_out_info_ostream (info);
CCodeItemP item;
for (item = code->head; item; item = item->next) {
switch (item->type) EXHAUSTIVE {
case CCT_STRING:
write_nstring (ostream, &(item->u.string));
break;
case CCT_LABEL:
case CCT_IDENT:
case CCT_MOD_IDENT:
case CCT_REF_IDENT:
case CCT_EXCEPTION:
case CCT_ADVANCE:
case CCT_TERMINAL:
UNREACHED;
}
}
}
/*
* Local variables(smf):
* eval: (include::add-path-entry "../os-interface" "../library")
* eval: (include::add-path-entry "../transforms" "../output" "../generated")
* end:
**/