ack/util/ego/share/put.c

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C
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1984-11-26 15:04:22 +00:00
/* P U T . C */
#include <stdio.h>
#include "types.h"
#include "global.h"
#include "debug.h"
#include "def.h"
#include "map.h"
#include "../../../h/em_pseu.h"
#include "../../../h/em_spec.h"
#include "lset.h"
#include "alloc.h"
#include "put.h"
/* the output file */
static FILE *f; /* current output file, can be EM text file,
* basic block file, data block file or proc table file.
*/
#define outbyte(b) putc(b,f)
/* The output can be either 'typed' or 'untyped'. Typed data
* consists of a value preceded by a byte specifying what kind
* of value it is (e.g. 2 bytes constant, 4 bytes constant,
* proc-id, lab-id, string etc.). Untyped data consists
* of the value only. We use typed data for the EM text and
* untyped data for all other files.
*/
/* putlines */
STATIC putargs(ap)
register arg_p ap;
{
while (ap != (arg_p) 0) {
outbyte((byte) ap->a_type & BMASK);
switch(ap->a_type) {
case ARGOFF:
outoff(ap->a_a.a_offset);
break;
case ARGINSTRLAB:
outlab(ap->a_a.a_instrlab);
break;
case ARGOBJECT:
outobject(ap->a_a.a_obj);
break;
case ARGPROC:
outproc(ap->a_a.a_proc);
break;
case ARGSTRING:
putstr(&ap->a_a.a_string);
break;
case ARGICN:
case ARGUCN:
case ARGFCN:
outshort(ap->a_a.a_con.ac_length);
putstr(&ap->a_a.a_con.ac_con);
break;
}
ap = ap->a_next;
}
outbyte((byte) ARGCEND);
}
STATIC putstr(abp) register argb_p abp; {
register argb_p tbp;
register length;
length = 0;
tbp = abp;
while (tbp!= (argb_p) 0) {
length += tbp->ab_index;
tbp = tbp->ab_next;
}
outshort(length);
while (abp != (argb_p) 0) {
for (length=0;length<abp->ab_index;length++)
outbyte( (byte) abp->ab_contents[length] );
abp = abp->ab_next;
}
}
STATIC outoff(off) offset off; {
outshort( (short) (off&0177777L) );
outshort( (short) (off>>16) );
}
STATIC outshort(i) short i; {
outbyte( (byte) (i&BMASK) );
outbyte( (byte) (i>>8) );
}
STATIC outint(i)
int i;
{
/* Write an integer to the output file. This routine is
* only used when outputting a bitvector-set. We expect an
* integer to be either a short or a long.
*/
if (sizeof(int) == sizeof(short)) {
outshort(i);
} else {
assert (sizeof(int) == sizeof(offset));
outoff(i);
}
}
STATIC outlab(lid) lab_id lid; {
outshort((short) lid);
}
STATIC outobject(obj) obj_p obj; {
outshort((short) obj->o_id);
}
STATIC outproc(p) proc_p p; {
outshort((short) p->p_id);
}
short putlines(l,lf)
line_p l;
FILE *lf;
{
/* Output the list of em instructions headed by l.
* Return the number of instruction written.
*/
register line_p lnp;
line_p next;
short instr;
short count= 0;
f = lf; /* Set f to the EM-text output file */
for (lnp = l; lnp != (line_p) 0; lnp = next) {
VL(lnp);
count++;
next = lnp->l_next;
instr = INSTR(lnp);
outbyte((byte) instr);
outbyte((byte) TYPE(lnp));
switch(TYPE(lnp)) {
case OPSHORT:
outshort(SHORT(lnp));
break;
case OPOFFSET:
outoff(OFFSET(lnp));
break;
case OPINSTRLAB:
outlab(INSTRLAB(lnp));
break;
case OPOBJECT:
outobject(OBJ(lnp));
break;
case OPPROC:
outproc(PROC(lnp));
break;
case OPLIST:
putargs(ARG(lnp));
break;
}
oldline(lnp);
}
return count;
}
/* putdtable */
#define outmark(m) outbyte((byte) m)
STATIC putobjects(obj)
register obj_p obj;
{
while (obj != (obj_p) 0) {
outmark(MARK_OBJ);
outshort(obj->o_id);
outoff(obj->o_size);
outoff(obj->o_off);
obj = obj->o_next;
}
}
STATIC putvalues(arg)
register arg_p arg;
{
while (arg != (arg_p) 0) {
assert(arg->a_type == ARGOFF);
outmark(MARK_ARG);
outoff(arg->a_a.a_offset);
arg = arg->a_next;
}
}
putdtable(head,df)
dblock_p head;
FILE *df;
{
/* Write the datablock table to the data block file df. */
register dblock_p dbl;
register obj_p obj;
dblock_p next;
register short n = 0;
f = df; /* set f to the data block output file */
/* Count the number of objects */
for (dbl = head; dbl != (dblock_p) 0; dbl = dbl->d_next) {
for (obj = dbl->d_objlist; obj != (obj_p) 0;
obj = obj->o_next) {
n++;
}
}
outshort(n); /* The table is preceded by #objects . */
for (dbl = head; dbl != (dblock_p) 0; dbl = next) {
next = dbl->d_next;
outmark(MARK_DBLOCK);
outshort(dbl->d_id);
outbyte(dbl->d_pseudo);
outoff(dbl->d_size);
outshort(dbl->d_fragmnr);
outbyte(dbl->d_flags1);
putobjects(dbl->d_objlist);
putvalues(dbl->d_values);
olddblock(dbl);
}
fclose(f);
if (omap != (obj_p *) 0) {
oldmap(omap,olength); /* release memory for omap */
}
}
/* putptable */
STATIC outcset(s)
cset s;
{
/* A 'compact' set is represented externally as a row of words
* (its bitvector) preceded by its length.
*/
register short i;
outshort(s->v_size);
for (i = 0; i <= DIVWL(s->v_size - 1); i++) {
outint(s->v_bits[i]);
}
}
putptable(head,pf,all)
proc_p head;
FILE *pf;
bool all;
{
register proc_p p;
proc_p next;
register short n = 0;
/* Write the proc table */
f = pf;
/* Determine the number of procs */
for (p = head; p != (proc_p) 0; p = p->p_next) {
n++;
}
outshort(n); /* The table is preceded by its length. */
outshort ((all?1:0)); /* if all=false, only some of the attributes
are written. */
for (p = head; p != (proc_p) 0; p = next) {
next = p->p_next;
outshort(p->p_id);
outbyte(p->p_flags1);
if (p->p_flags1 & PF_BODYSEEN) {
/* If we have no access to the EM text of the
* body of a procedure, we have no information
* about it whatsoever, so there is nothing
* to output in that case.
*/
outshort(p->p_nrlabels);
outoff(p->p_localbytes);
outoff(p->p_nrformals);
if (all) {
outcset(p->p_change->c_ext);
outshort(p->p_change->c_flags);
outshort(p->p_use->u_flags);
outcset(p->p_calling);
Cdeleteset(p->p_change->c_ext);
oldchange(p->p_change);
olduse(p->p_use);
Cdeleteset(p->p_calling);
}
}
oldproc(p);
}
fclose(f);
if (pmap != (proc_p *) 0) {
oldmap(pmap,plength); /* release memory for pmap */
}
}
/* putunit */
STATIC outloop(l)
loop_p l;
{
outshort((short) l->lp_id);
}
STATIC outblock(b)
bblock_p b;
{
if (b == (bblock_p) 0) {
outshort((short) 0);
} else {
outshort((short) b->b_id);
}
}
STATIC outid(e,p)
Lelem_t e;
int (*p) ();
{
/* Auxiliary routine used by outlset. */
/* NOSTRICT */
(*p) (e);
}
STATIC outlset(s,p)
lset s;
int (*p) ();
{
/* A 'long' set is represented externally as a
* a sequence of elements terminated by a 0 word.
* The procedural parameter p is a routine that
* prints an id (proc_id, obj_id etc.).
*/
register Lindex i;
for (i = Lfirst(s); i != (Lindex) 0; i = Lnext(i,s)) {
outid(Lelem(i),p);
}
outshort((short) 0);
}
putunit(kind,p,l,gf,lf)
short kind;
proc_p p;
line_p l;
FILE *gf, *lf;
{
register bblock_p b;
register short n = 0;
Lindex pi;
loop_p lp;
f = gf;
if (kind == LDATA) {
outshort(0); /* No basic blocks */
n = putlines(l,lf);
f = gf;
outshort(n);
return;
}
/* Determine the number of basic blocks */
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
n++;
}
outshort(n); /* # basic blocks */
outshort(Lnrelems(p->p_loops)); /* # loops */
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
n = putlines(b->b_start,lf);
f = gf;
outblock(b); /* put its block_id */
outshort(n); /* #instructions of the block */
outlset(b->b_succ, outblock); /* put succ set */
outlset(b->b_pred, outblock); /* put pred set */
outblock(b->b_idom); /* put id of immediate dominator */
outlset(b->b_loops, outloop); /* put loop set */
outshort(b->b_flags);
}
/* The Control Flow Graph of every procedure is followed
* by a description of the loops of the procedure.
* Every loop contains an id, an entry block and a level.
*/
for (pi = Lfirst(p->p_loops); pi != (Lindex) 0;
pi = Lnext(pi,p->p_loops)) {
lp = (loop_p) Lelem(pi);
outloop(lp); /* id */
outshort(lp->lp_level); /* nesting level */
outblock(lp->lp_entry); /* loop entry block */
outblock(lp->lp_end);
oldloop(lp);
}
Ldeleteset(p->p_loops);
/* We will now release the memory of the basic blocks.
* Note that it would be incorrect to release a basic block
* after it has been written, because there may be references
* to it from other (later) blocks.
*/
for (b = p->p_start; b != (bblock_p) 0; b = b->b_next) {
Ldeleteset(b->b_loops);
Ldeleteset(b->b_succ);
Ldeleteset(b->b_pred);
oldbblock(b);
}
/* Release the memory for the lmap, lbmap, bmap, lpmap tables */
if (lmap != (line_p *) 0) oldmap(lmap,llength);
if (lbmap != (bblock_p *) 0) oldmap(lbmap,llength);
if (bmap != (bblock_p *) 0) oldmap(bmap,blength);
if (lpmap != (loop_p *) 0) oldmap(lpmap,lplength);
f = lf;
}
/* The following routines are only used by the Inline Substitution phase */
STATIC putactuals(alist,cfile)
actual_p alist;
FILE *cfile;
{
/* output a list of actual parameters */
actual_p a,next;
line_p l;
int count;
count = 0;
for (a = alist; a != (actual_p) 0; a = a->ac_next) count++;
outshort(count); /* number of actuals */
for (a = alist; a != (actual_p) 0; a = next) {
next = a->ac_next;
count = 0;
for (l = a->ac_exp; l != (line_p) 0; l= l->l_next) count++;
outshort(count); /* length of actual */
outoff(a->ac_size);
outbyte(a->ac_inl);
count = putlines(a->ac_exp,cfile);
oldactual(a);
}
}
putcall(c,cfile,level)
call_p c;
FILE *cfile;
short level;
{
/* output a call */
call_p nc,nextc;
f = cfile;
outshort(level); /* nesting level */
outshort(c->cl_caller->p_id); /* calling proc */
outshort(c->cl_id);
outshort(c->cl_proc->p_id); /* called proc */
outbyte(c->cl_looplevel);
outbyte(c->cl_flags);
outshort(c->cl_ratio);
putactuals(c->cl_actuals,cfile);
nc = c->cl_car;
oldcall(c);
for (; nc != (call_p) 0; nc = nextc) {
/* take care of nested calls */
nextc = nc->cl_cdr;
putcall(nc,cfile,level+1);
}
}
long putcc(head,ccf)
calcnt_p head;
FILE *ccf;
{
/* Write call-count information to file ccf.
* Return the disk address of the info written.
*/
calcnt_p cc;
long addr;
short cnt;
addr = ftell(ccf);
f = ccf;
cnt = 0;
for (cc = head; cc != (calcnt_p) 0;cc = cc->cc_next) cnt++;
outshort(cnt);
for (cc = head; cc != (calcnt_p) 0; cc = cc->cc_next) {
outproc(cc->cc_proc);
outshort(cc->cc_count);
}
return addr;
}