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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.
*/
#include "config.h"
#include "c_types.h"
#include "error.h"
#include "xalloc.h"
/*
CHECK FOR CORRECT HEADERS
The functions defined in this file give the implementations of various
support functions used by the c_class implementation. They should
therefore be compiled with the c_class implementation rather than the
specification.
*/
#if c_class_SPECIFICATION
FAIL_COMPILER ( Implementation functions compiled with token specifications )
#endif
/*
FREE OBJECTS
These variables indicate the free c_classes. There is an array
containing lists of small blocks, plus a single larger block.
*/
#define SMALL_BLOCK 24
#define ALLOC_BLOCK 2048
#if ( c_class_GEN_MAX > SMALL_BLOCK )
FAIL_COMPILER ( Free block array is too small )
#endif
static c_class *free_c_classes = NULL ;
static unsigned free_c_classes_left = 0 ;
unsigned total_c_classes = 0 ;
static c_class *free_c_class_array [ SMALL_BLOCK ] = {
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL,
NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL, NULL
} ;
/*
GENERATE A NEW OBJECT BLOCK
This routine generates a new block of c_classes of size sz. Small
blocks are allocated from the c_class array, others from the main
c_class list.
*/
c_class *gen_c_class
PROTO_N ( ( sz ) )
PROTO_T ( unsigned sz )
{
c_class *p ;
unsigned n = sz ;
if ( n < SMALL_BLOCK ) {
/* Allocate from small block array */
if ( n == 0 ) return ( NULL ) ;
p = free_c_class_array [n] ;
if ( p ) {
free_c_class_array [n] = TAIL_list ( p ) ;
return ( p ) ;
}
}
if ( n > free_c_classes_left ) {
/* Allocate new blocks */
unsigned m = ALLOC_BLOCK ;
if ( n > m ) m = n ;
free_c_classes = xmalloc_nof ( c_class, m ) ;
free_c_classes_left = m ;
}
p = free_c_classes ;
free_c_classes += n ;
free_c_classes_left -= n ;
return ( p ) ;
}
/*
MARK AN OBJECT AS FREE
This routine is used in the object destruction routines to mark an
object as having been freed. This only has any effect in conjunction
with the debugging routine below.
*/
#ifdef RUNTIME
#define clean_c_class( P, Z )\
{\
ASSERT ( TYPEID ( P ) != TYPEID_free ) ;\
TYPEID ( P ) = TYPEID_free ;\
total_c_classes -= ( Z ) ;\
}
#else
#define clean_c_class( P, Z ) /* empty */
#endif
/*
GENERATE A NEW OBJECT BLOCK (DEBUG VERSION)
This routine is identical to gen_c_class except that it includes the
run-time type information t in the allocated block.
*/
#ifdef RUNTIME
c_class *debug_c_class
PROTO_N ( ( sz, t ) )
PROTO_T ( unsigned sz X unsigned t )
{
c_class *p ;
unsigned n = sz ;
total_c_classes += n ;
if ( n < SMALL_BLOCK ) {
/* Allocate from small block array */
if ( n == 0 ) return ( NULL ) ;
p = free_c_class_array [n] ;
if ( p ) {
free_c_class_array [n] = TAIL_list ( p ) ;
ASSERT ( TYPEID ( p ) == TYPEID_free ) ;
TYPEID ( p ) = t ;
return ( p ) ;
}
}
n += 1 ;
if ( n > free_c_classes_left ) {
/* Allocate new blocks */
unsigned m = ALLOC_BLOCK ;
if ( n > m ) m = n ;
free_c_classes = xmalloc_nof ( c_class, m ) ;
free_c_classes_left = m ;
}
p = free_c_classes + 1 ;
TYPEID ( p ) = t ;
free_c_classes += n ;
free_c_classes_left -= n ;
return ( p ) ;
}
#endif /* RUNTIME */
/*
DESTROY AN OBJECT BLOCK
This routine destroys the block of c_classes p of size sz.
*/
void destroy_c_class
PROTO_N ( ( p, sz ) )
PROTO_T ( c_class *p X unsigned sz )
{
if ( p ) {
unsigned n = sz ;
c_class **r = free_c_class_array ;
if ( n < SMALL_BLOCK ) r += n ;
clean_c_class ( p, n ) ;
TAIL_list ( p ) = *r ;
*r = p ;
}
return ;
}
/*
DUMMY OBJECT BLOCK DESTRUCTOR
This routine is a dummy destructor which does nothing.
*/
void dummy_destroy_c_class
PROTO_N ( ( p, sz ) )
PROTO_T ( c_class *p X unsigned sz )
{
UNUSED ( p ) ;
UNUSED ( sz ) ;
return ;
}
/*
DESTROY A LIST OF OBJECT BLOCKS
This routine destroys the list p of blocks of c_classes of size sz.
The list is added to the appropriate entry of the free c_class array.
*/
void destroy_c_class_list
PROTO_N ( ( p, sz ) )
PROTO_T ( c_class *p X unsigned sz )
{
if ( p ) {
c_class *q = p ;
unsigned n = sz + 1 ;
c_class **r = free_c_class_array ;
if ( n < SMALL_BLOCK ) r += n ;
while ( TAIL_list ( p ) ) {
clean_c_class ( p, n ) ;
p = TAIL_list ( p ) ;
}
clean_c_class ( p, n ) ;
TAIL_list ( p ) = *r ;
*r = q ;
}
return ;
}
/*
FIND THE LENGTH OF A LIST
This routine calculates the length of the list p.
*/
unsigned length_c_class_list
PROTO_N ( ( p ) )
PROTO_T ( c_class *p )
{
unsigned n = 0 ;
c_class *q = p ;
while ( q ) {
n++ ;
q = TAIL_list ( q ) ;
}
return ( n ) ;
}
/*
REVERSE A LIST
This routine reverses the order of the list p.
*/
c_class *reverse_c_class_list
PROTO_N ( ( p ) )
PROTO_T ( c_class *p )
{
c_class *r = NULL ;
c_class *q = p ;
while ( q ) {
c_class *nq = TAIL_list ( q ) ;
TAIL_list ( q ) = r ;
r = q ;
q = nq ;
}
return ( r ) ;
}
/*
APPEND TWO LISTS
This routine appends the lists of c_class blocks p and q.
*/
c_class *append_c_class_list
PROTO_N ( ( p, q ) )
PROTO_T ( c_class *p X c_class *q )
{
c_class *r = p ;
if ( r == NULL ) return ( q ) ;
while ( TAIL_list ( r ) ) r = TAIL_list ( r ) ;
TAIL_list ( r ) = q ;
return ( p ) ;
}
/*
FIND THE LAST MEMBER OF A LIST
This routine returns the last member of the list of c_class blocks p.
*/
c_class *end_c_class_list
PROTO_N ( ( p ) )
PROTO_T ( c_class *p )
{
c_class *r = p ;
if ( r == NULL ) return ( NULL ) ;
while ( TAIL_list ( r ) ) r = TAIL_list ( r ) ;
return ( r ) ;
}
/*
GENERIC EMPTY VECTOR
This c_class represents the generic empty vector. It is only defined
if vector operations have been enabled. Note that the element field
of a vector is not be NULL, even if the vector is empty.
*/
#ifdef VEC
static c_class dummy_elem ;
c_class_VEC empty_c_class_vec = { 0, { &dummy_elem, &dummy_elem } } ;
#endif
#ifdef c_class_IO_ROUTINES
/*
ALIASING VARIABLES
These variables give respectively the current alias number and the
list of all aliases.
*/
unsigned crt_c_class_alias = 0 ;
static c_class *crt_alias_list = NULL ;
/*
SET AN ALIAS
This routine sets up an alias of p to n.
*/
void set_c_class_alias
PROTO_N ( ( p, n ) )
PROTO_T ( c_class *p X unsigned n )
{
c_class *q = GEN_c_class ( 2, TYPEID_list ) ;
TAIL_list ( q ) = crt_alias_list ;
HEAD_list ( q )->ag_ptr = p ;
ASSERT ( p != NULL ) ;
p->ag_tag = n ;
crt_alias_list = q ;
return ;
}
/*
FIND AN ALIAS
This routine searches for alias number n.
*/
c_class *find_c_class_alias
PROTO_N ( ( n ) )
PROTO_T ( unsigned n )
{
c_class *p = crt_alias_list ;
while ( p ) {
c_class *q = HEAD_list ( p )->ag_ptr ;
if ( q->ag_tag == n ) return ( q ) ;
p = TAIL_list ( p ) ;
}
error ( ERROR_INTERNAL, "Can't find alias %u", n ) ;
return ( NULL ) ;
}
/*
CLEAR ALL ALIASES
This routine clears all aliases. Each alias in the list is reset to
zero, and the list itself is freed.
*/
void clear_c_class_alias
PROTO_Z ()
{
c_class *p = crt_alias_list ;
c_class *q = NULL ;
while ( p ) {
HEAD_list ( p )->ag_ptr->ag_tag = 0 ;
q = p ;
p = TAIL_list ( p ) ;
}
if ( q ) {
TAIL_list ( q ) = free_c_class_array [2] ;
free_c_class_array [2] = crt_alias_list ;
}
crt_c_class_alias = 0 ;
crt_alias_list = NULL ;
return ;
}
#endif /* c_class_IO_ROUTINES */
/*
ASSERTION ROUTINES
These routine implement the assertion checks.
*/
#ifdef ASSERTS
#define assert_c_class assertion
#include "assert_def.h"
#endif