ack/util/opt/alloc.c
1984-05-17 13:57:07 +00:00

446 lines
8.6 KiB
C

#ifndef NORCSID
static char rcsid[] = "$Header$";
#endif
#include <stdio.h>
#include "param.h"
#include "types.h"
#include "assert.h"
#include "alloc.h"
#include "line.h"
#include "lookup.h"
#include "proinf.h"
/*
* (c) copyright 1983 by the Vrije Universiteit, Amsterdam, The Netherlands.
*
* This product is part of the Amsterdam Compiler Kit.
*
* Permission to use, sell, duplicate or disclose this software must be
* obtained in writing. Requests for such permissions may be sent to
*
* Dr. Andrew S. Tanenbaum
* Wiskundig Seminarium
* Vrije Universiteit
* Postbox 7161
* 1007 MC Amsterdam
* The Netherlands
*
* Author: Hans van Staveren
*/
#ifdef USEMALLOC
short * myalloc();
#define newcore(size) myalloc(size)
#define oldcore(p,size) free(p)
#else
/* #define CORECHECK /* if defined tests are made to insure
each block occurs at most once */
#define CCHUNK 1024 /* number of shorts asked from system */
short *newcore(),*freshcore();
extern char *sbrk();
#ifdef COREDEBUG
int shortsasked=0;
#endif
#endif
/*
* The following two sizetables contain the sizes of the various kinds
* of line and argument structures.
* Care has been taken to make this table implementation independent,
* but if you think very hard you might find a compiler failing the
* assumptions made.
* A wasteful but safe approach is to replace every line of them by
* sizeof(line_t)
* and
* sizeof(arg_t)
* respectively.
*/
#define LBASE (sizeof(line_t)-sizeof(un_l_a))
int lsizetab[] = {
LBASE,
LBASE+sizeof(short),
LBASE+sizeof(offset),
LBASE+sizeof(num_p),
LBASE+sizeof(sym_p),
LBASE+sizeof(s_la_sval),
LBASE+sizeof(s_la_lval),
LBASE+sizeof(arg_p),
LBASE
};
#define ABASE (sizeof(arg_t)-sizeof(un_a_a))
int asizetab[] = {
ABASE+sizeof(offset),
ABASE+sizeof(num_p),
ABASE+sizeof(sym_p),
ABASE+sizeof(s_a_val),
ABASE+sizeof(argb_t),
ABASE+sizeof(s_a_con),
ABASE+sizeof(s_a_con),
ABASE+sizeof(s_a_con),
};
/*
* alloc routines:
* Two parts:
* 1) typed alloc and free routines
* 2) untyped raw core allocation
*/
/*
* PART 1
*/
line_p newline(optyp) int optyp; {
register line_p lnp;
register kind=optyp;
if (kind>OPMINI)
kind = OPMINI;
lnp = (line_p) newcore(lsizetab[kind]);
lnp->l_optyp = optyp;
return(lnp);
}
oldline(lnp) register line_p lnp; {
register kind=lnp->l_optyp&BMASK;
if (kind>OPMINI)
kind = OPMINI;
if (kind == OPLIST)
oldargs(lnp->l_a.la_arg);
oldcore((short *) lnp,lsizetab[kind]);
}
arg_p newarg(kind) int kind; {
register arg_p ap;
ap = (arg_p) newcore(asizetab[kind]);
ap->a_typ = kind;
return(ap);
}
oldargs(ap) register arg_p ap; {
register arg_p next;
while (ap != (arg_p) 0) {
next = ap->a_next;
switch(ap->a_typ) {
case ARGSTR:
oldargb(ap->a_a.a_string.ab_next);
break;
case ARGICN:
case ARGUCN:
case ARGFCN:
oldargb(ap->a_a.a_con.ac_con.ab_next);
break;
}
oldcore((short *) ap,asizetab[ap->a_typ]);
ap = next;
}
}
oldargb(abp) register argb_p abp; {
register argb_p next;
while (abp != (argb_p) 0) {
next = abp->ab_next;
oldcore((short *) abp,sizeof (argb_t));
abp = next;
}
}
reg_p newreg() {
return((reg_p) newcore(sizeof(reg_t)));
}
oldreg(rp) reg_p rp; {
oldcore((short *) rp,sizeof(reg_t));
}
num_p newnum() {
return((num_p) newcore(sizeof(num_t)));
}
oldnum(lp) num_p lp; {
oldcore((short *) lp,sizeof(num_t));
}
offset *newrom() {
return((offset *) newcore(MAXROM*sizeof(offset)));
}
sym_p newsym() {
return((sym_p) newcore(sizeof(sym_t)));
}
argb_p newargb() {
return((argb_p) newcore(sizeof(argb_t)));
}
#ifndef USEMALLOC
/******************************************************************/
/****** Start of raw core management package *****************/
/******************************************************************/
#define MAXSHORT 30 /* Maximum number of shorts one can ask for */
short *freelist[MAXSHORT];
typedef struct coreblock {
struct coreblock *co_next;
short co_size;
} core_t,*core_p;
#define SINC (sizeof(core_t)/sizeof(short))
#ifdef COREDEBUG
coreverbose() {
register size;
register short *p;
register sum;
sum = 0;
for(size=1;size<MAXSHORT;size++)
for (p=freelist[size];p!=0;p = *(short **) p)
sum += size;
fprintf(stderr,"Used core %u\n",(shortsasked-sum)*sizeof(short));
}
#endif
#ifdef SEPID
compactcore() {
register core_p corelist=0,tp,cl;
int size;
#ifdef COREDEBUG
fprintf(stderr,"Almost out of core\n");
#endif
for(size=SINC;size<MAXSHORT;size++) {
while ((tp = (core_p) freelist[size]) != (core_p) 0) {
freelist[size] = (short *) tp->co_next;
tp->co_size = size;
if (corelist==0 || tp<corelist) {
tp->co_next = corelist;
corelist = tp;
} else {
for(cl=corelist;cl->co_next != 0 && tp>cl->co_next;
cl = cl->co_next)
;
tp->co_next = cl->co_next;
cl->co_next = tp;
}
}
}
while (corelist != 0) {
while ((short *) corelist->co_next ==
(short *) corelist + corelist->co_size) {
corelist->co_size += corelist->co_next->co_size;
corelist->co_next = corelist->co_next->co_next;
}
assert(corelist->co_next==0 ||
(short *) corelist->co_next >
(short *) corelist + corelist->co_size);
while (corelist->co_size >= MAXSHORT+SINC) {
oldcore((short *) corelist + corelist->co_size-(MAXSHORT-1),
sizeof(short)*(MAXSHORT-1));
corelist->co_size -= MAXSHORT;
}
if (corelist->co_size >= MAXSHORT) {
oldcore((short *) corelist + corelist->co_size-SINC,
sizeof(short)*SINC);
corelist->co_size -= SINC;
}
cl = corelist->co_next;
oldcore((short *) corelist, sizeof(short)*corelist->co_size);
corelist = cl;
}
}
short *grabcore(size) int size; {
register short *p;
register trysize;
/*
* Desperate situation, can't get more core from system.
* Postpone giving up just a little bit by splitting up
* larger free blocks if possible.
* Algorithm is worst fit.
*/
assert(size<2*MAXSHORT);
for(trysize=2*MAXSHORT-2; trysize>size; trysize -= 2) {
p = freelist[trysize/sizeof(short)];
if ( p != (short *) 0) {
freelist[trysize/sizeof(short)] = *(short **) p;
oldcore(p+size/sizeof(short),trysize-size);
return(p);
}
}
/*
* Can't get more core from the biggies, try to combine the
* little ones. This is expensive but probably better than
* giving up.
*/
compactcore();
if ((p=freelist[size/sizeof(short)]) != 0) {
freelist[size/sizeof(short)] = * (short **) p;
return(p);
}
for(trysize=2*MAXSHORT-2; trysize>size; trysize -= 2) {
p = freelist[trysize/sizeof(short)];
if ( p != (short *) 0) {
freelist[trysize/sizeof(short)] = *(short **) p;
oldcore(p+size/sizeof(short),trysize-size);
return(p);
}
}
/*
* That's it then. Finished.
*/
return(0);
}
#endif /* SEPID */
short *newcore(size) int size; {
register short *p,*q;
if( size < 2*MAXSHORT ) {
if ((p=freelist[size/sizeof(short)]) != (short *) 0)
freelist[size/sizeof(short)] = *(short **) p;
else {
p = freshcore(size);
#ifdef SEPID
if (p == (short *) 0)
p = grabcore(size);
#endif
}
} else
p = freshcore(size);
if (p == 0)
error("out of memory");
for (q=p; size > 0 ; size -= sizeof(short))
*q++ = 0;
return(p);
}
#ifdef NOMALLOC
/*
* stdio uses malloc and free.
* you can use these as substitutes
*/
char *malloc(size) int size; {
/*
* malloc(III) is called by stdio,
* this routine is a substitute.
*/
return( (char *) newcore(size));
}
free() {
}
#endif
oldcore(p,size) short *p; int size; {
#ifdef CORECHECK
register short *cp;
#endif
assert(size<2*MAXSHORT);
#ifdef CORECHECK
for (cp=freelist[size/sizeof(short)]; cp != (short *) 0;
cp = (short *) *cp)
assert(cp != p);
#endif
*(short **) p = freelist[size/sizeof(short)];
freelist[size/sizeof(short)] = p;
}
short *ccur,*cend;
coreinit(p1,p2) short *p1,*p2; {
/*
* coreinit is called with the boundaries of a piece of
* memory that can be used for starters.
*/
ccur = p1;
cend = p2;
}
short *freshcore(size) int size; {
register short *temp;
static int cchunk=CCHUNK;
while(&ccur[size/sizeof(short)] >= cend && cchunk>0) {
do {
temp = (short *) sbrk(cchunk*sizeof(short));
if (temp == (short *) -1)
cchunk >>= 1;
else if (temp != cend)
ccur = cend = temp;
} while (temp == (short *) -1 && cchunk>0);
cend += cchunk;
#ifdef COREDEBUG
shortsasked += cchunk;
#endif
}
if (cchunk==0)
return(0);
temp = ccur;
ccur = &ccur[size/sizeof(short)];
return(temp);
}
#else /* USEMALLOC */
coreinit() {
/*
* Empty function, no initialization needed
*/
}
short *myalloc(size) register size; {
register short *p,*q;
extern char *malloc();
p = (short *)malloc(size);
if (p == 0)
error("out of memory");
for(q=p;size>0;size -= sizeof(short))
*q++ = 0;
return(p);
}
#endif