ack/util/ego/il/il3_change.c

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1994-06-24 11:31:16 +00:00
/* $Id$ */
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/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
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/* I N L I N E S U B S T I T U T I O N
*
* I L 3 _ C H A N G E . C
*/
#include <stdlib.h>
#include <stdio.h>
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#include <em_mnem.h>
#include <em_pseu.h>
#include <em_spec.h>
#include <em_mes.h>
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#include "../share/types.h"
#include "il.h"
#include "../share/debug.h"
#include "../share/alloc.h"
#include "../share/global.h"
#include "../share/def.h"
#include "../share/lset.h"
#include "../share/utils.h"
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#include "../share/get.h"
#include "../share/put.h"
#include "il_aux.h"
#include "il3_change.h"
#include "il3_aux.h"
/* chg_callseq */
STATIC line_p par_expr(l,expr)
line_p l, expr;
{
/* Find the first line of the expression of which
* l is the last line; expr contains a pointer
* to a copy of that expression; effectively we
* just have to tally lines.
*/
line_p lnp;
for (lnp = expr->l_next; lnp != (line_p) 0; lnp = lnp->l_next) {
assert(l != (line_p) 0);
l = PREV(l);
}
return l;
}
STATIC void rem_text(l1,l2)
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line_p l1,l2;
{
/* Remove the lines from l1 to l2 (inclusive) */
line_p l, lstop;
l = PREV(l1);
lstop = l2->l_next;
while (l->l_next != lstop) {
rem_line(l->l_next);
}
}
STATIC void store_tmp(p,l,size)
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proc_p p;
line_p l;
offset size;
{
/* Emit code to store a 'size'-byte value in a new
* temporary local variable in the stack frame of p.
* Put this code after line l.
*/
line_p lnp;
lnp = int_line(tmplocal(p,size)); /* line with operand temp. */
if (size == ws) {
lnp->l_instr = op_stl; /* STL temp. */
} else {
if (size == 2*ws) {
lnp->l_instr = op_sdl; /* SDL temp. */
} else {
/* emit 'LAL temp; STI size' */
lnp->l_instr = op_lal;
appnd_line(lnp,l);
l = lnp;
assert ((short) size == size);
lnp = newline(OPSHORT);
SHORT(lnp) = size;
lnp->l_instr = op_sti;
}
}
appnd_line(lnp,l);
}
STATIC void chg_actuals(c,cal)
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call_p c;
line_p cal;
{
/* Change the actual parameter expressions of the call. */
actual_p act;
line_p llast,lfirst,l;
llast = PREV(cal);
for (act = c->cl_actuals; act != (actual_p) 0; act = act->ac_next) {
lfirst = par_expr(llast,act->ac_exp);
/* the code from lfirst to llast is a parameter expression */
if (act->ac_inl) {
/* in line parameter; remove it */
l = llast;
llast = PREV(lfirst);
rem_text(lfirst,l);
} else {
store_tmp(curproc,llast,act->ac_size);
/* put a "STL tmp" -like instruction after the code */
llast = PREV(lfirst);
}
}
}
STATIC void rm_callpart(c,cal)
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call_p c;
line_p cal;
{
/* Remove the call part, consisting of a CAL,
* an optional ASP and an optional LFR.
*/
line_p l;
l= PREV(cal);
rem_line(cal);
if (c->cl_proc->p_nrformals > 0) {
/* called procedure has parameters */
assert (INSTR(l->l_next) == op_asp);
rem_line(l->l_next);
}
if (INSTR(l->l_next) == op_lfr) {
rem_line(l->l_next);
}
}
void chg_callseq(c,cal,l_out)
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call_p c;
line_p cal,*l_out;
{
/* Change the calling sequence. The actual parameter
* expressions are changed (in line parameters are
* removed, all other ones now store their result
* in a temporary local of the caller);
* the sequence "CAL ; ASP ; LFR" is removed.
*/
chg_actuals(c,cal);
*l_out = PREV(cal); /* last instr. of new parameter part */
rm_callpart(c,cal);
}
/* make_label */
line_p make_label(l,p)
line_p l;
proc_p p;
{
/* Make sure that the instruction after l
* contains an instruction label. If this is
* not already the case, create a new label.
*/
line_p lab;
if (l->l_next != (line_p) 0 && INSTR(l->l_next) == op_lab) {
return l->l_next;
}
lab = newline(OPINSTRLAB);
lab->l_instr = op_lab;
p->p_nrlabels++;
INSTRLAB(lab) = p->p_nrlabels;
appnd_line(lab,l);
return lab;
}
/* modify */
STATIC void act_info(off,acts,ab_off,act_out,off_out)
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offset off, ab_off, *off_out;
actual_p acts, *act_out;
{
/* Find the actual parameter that corresponds to
* the formal parameter with the given offset.
* Return it via act_out. If the actual is not
* an in-line actual, determine which temporary
* local is used for it; return the offset of that
* local via off_out.
*/
offset sum = 0, tmp = 0;
actual_p act;
for (act = acts; act != (actual_p) 0; act = act->ac_next) {
if (!act->ac_inl) {
tmp -= act->ac_size;
}
if (sum >= off) {
/* found */
*act_out = act;
if (!act->ac_inl) {
*off_out = tmp + sum - off + ab_off;
} else {
assert (sum == off);
}
return;
}
sum += act->ac_size;
}
assert(FALSE);
}
STATIC void store_off(off,l)
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offset off;
line_p l;
{
if (TYPE(l) == OPSHORT) {
assert ((short) off == off);
SHORT(l) = (short) off;
} else {
OFFSET(l) = off;
}
}
STATIC void inl_actual(l,expr)
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line_p l, expr;
{
/* Expand an actual parameter in line.
* A LOL or LDL instruction is replaced
* by an expression.
* A SIL or LIL is replaced by the expression
* followed by a STI or LOI.
*/
line_p e, lnp, s;
short instr;
instr = INSTR(l);
assert(expr != (line_p) 0);
e = copy_expr(expr); /* make a copy of expr. */
if (instr == op_sil || instr == op_lil) {
s = int_line((offset) ws);
s->l_instr = (instr == op_sil ? op_sti : op_loi);
appnd_line(s,last_line(e));
} else {
assert(instr == op_lol || instr == op_ldl);
}
lnp = PREV(l);
rem_line(l);
app_list(e,lnp);
}
STATIC void localref(l,c,ab_off,lb_off)
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line_p l;
call_p c;
offset ab_off, lb_off;
{
/* Change a reference to a local variable or parameter
* of the called procedure.
*/
offset off, tmpoff;
actual_p act;
off = off_set(l);
if (off < 0) {
/* local variable, only the offset changes */
store_off(lb_off + off,l);
} else {
act_info(off,c->cl_actuals,ab_off,&act,&tmpoff); /* find actual */
if (act->ac_inl) {
/* inline actual parameter */
inl_actual(l,act->ac_exp);
} else {
/* parameter stored in temporary local */
store_off(tmpoff,l);
}
}
}
STATIC void chg_mes(l,c,ab_off,lb_off)
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line_p l;
call_p c;
offset ab_off, lb_off;
{
/* The register messages of the called procedure
* must be changed. If the message applies to a
* local variable or to a parameter that is not
* expanded in line, the offset of the variable
* is changed; else the entire message is deleted.
*/
offset off, tmpoff;
actual_p act;
arg_p arg;
arg = ARG(l);
switch ((int) arg->a_a.a_offset) {
case ms_reg:
if ((arg = arg->a_next) != (arg_p) 0) {
/* "mes 3" without further argument is not changed */
off = arg->a_a.a_offset;
if (off < 0) {
/* local variable */
arg->a_a.a_offset += lb_off;
} else {
act_info(off,c->cl_actuals,ab_off,&act,&tmpoff);
if (act->ac_inl) {
/* in line actual */
rem_line(l);
} else {
arg->a_a.a_offset = tmpoff;
}
}
}
break;
case ms_par:
rem_line(l);
break;
}
}
STATIC void chg_ret(l,c,lab)
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line_p l,lab;
call_p c;
{
/* Change the RET instruction appearing in the
* expanded text of a call. If the called procedure
* falls through, the RET is just deleted; else it
* is replaced by a branch.
*/
line_p lnp, bra;
lnp = PREV(l);
rem_line(l);
if (!FALLTHROUGH(c->cl_proc)) {
bra = newline(OPINSTRLAB);
bra->l_instr = op_bra;
INSTRLAB(bra) = INSTRLAB(lab);
appnd_line(bra,lnp);
}
}
STATIC void mod_instr(l,c,lab,ab_off,lb_off,lab_off)
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line_p l,lab;
call_p c;
offset ab_off,lb_off;
int lab_off;
{
if (TYPE(l) == OPINSTRLAB) {
INSTRLAB(l) += lab_off;
} else {
switch(INSTR(l)) {
case op_stl:
case op_inl:
case op_del:
case op_zrl:
case op_sdl:
case op_lol:
case op_ldl:
case op_sil:
case op_lil:
case op_lal:
localref(l,c,ab_off,lb_off);
break;
case op_ret:
chg_ret(l,c,lab);
break;
case ps_pro:
case ps_end:
case ps_sym:
case ps_hol:
case ps_bss:
case ps_con:
case ps_rom:
rem_line(l);
break;
case ps_mes:
chg_mes(l,c,ab_off,lb_off);
break;
}
}
}
void modify(text,c,lab,ab_off,lb_off,lab_off)
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line_p text,lab;
call_p c;
offset ab_off,lb_off;
int lab_off;
{
/* Modify the EM text of the called procedure.
* References to locals and parameters are
* changed; RETs are either deleted or replaced
* by a BRA to the given label; PRO and END pseudos
* are removed; instruction labels are changed, in
* order to make them different from any label used
* by the caller; some messages need to be changed too.
* Note that the first line of the text is a dummy instruction.
*/
register line_p l;
line_p next;
for (l = text->l_next; l != (line_p) 0; l = next) {
next = l->l_next;
/* This is rather tricky. An instruction like
* LOL 2 may be replaced by a number of instructions
* (if the parameter is expanded in line). This inserted
* code, however, should not be modified!
*/
mod_instr(l,c,lab,ab_off,lb_off,lab_off);
}
}
void mod_actuals(nc,c,lab,ab_off,lb_off,lab_off)
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call_p nc,c;
line_p lab;
offset ab_off,lb_off;
int lab_off;
{
actual_p act;
line_p l, next, dum;
dum = newline(OPNO);
PREV(dum) = (line_p) 0;
for (act = nc->cl_actuals; act != (actual_p) 0; act = act->ac_next) {
l = act->ac_exp;
assert(l != (line_p) 0);
/* Insert a dummy instruction before l */
dum->l_next = l;
PREV(l) = dum;
while(l != (line_p) 0) {
next = l->l_next;
mod_instr(l,c,lab,ab_off,lb_off,lab_off);
l = next;
}
act->ac_exp = dum->l_next;
PREV(dum->l_next) = (line_p) 0;
}
oldline(dum);
}
/* insert */
STATIC line_p first_nonpseudo(l)
line_p l;
{
/* Find the first non-pseudo instruction of
* a list of instructions.
*/
while (l != (line_p) 0 && INSTR(l) >= sp_fpseu &&
INSTR(l) <= ps_last) l = l->l_next;
return l;
}
void
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insert(text,l,firstline)
line_p text,l,firstline;
{
/* Insert the modified EM text of the called
* routine in the calling routine. Pseudos are
* put after the pseudos of the caller; all
* normal instructions are put at the place
* where the CAL originally was.
*/
line_p l1,l2,lastpseu;
l1 = text->l_next;
oldline(text); /* remove dummy head instruction */
if (l1 == (line_p) 0) return; /* no text at all! */
l2 = first_nonpseudo(l1);
if (l2 == (line_p) 0) {
/* modified code consists only of pseudos */
app_list(l1,PREV(first_nonpseudo(firstline)));
} else {
if (l1 == l2) {
/* no pseudos */
app_list(l2,l);
} else {
lastpseu = PREV(first_nonpseudo(firstline));
PREV(l2)->l_next = (line_p) 0; /* cut link */
app_list(l2,l); /* insert normal instructions */
app_list(l1,lastpseu);
}
}
}
void liquidate(p,text)
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proc_p p;
line_p text;
{
/* All calls to procedure p were expanded in line, so
* p is no longer needed. However, we must not throw away
* any data declarations appearing in p.
* The proctable entry of p is not removed, as we do not
* want to create holes in this table; however the PF_BODYSEEN
* flag is cleared, so p gets the same status as a procedure
* whose body is unmkown.
*/
line_p l, nextl, lastkept = (line_p) 0;
call_p c, nextc;
for (l = text; l != (line_p) 0; l = nextl) {
nextl = l->l_next;
switch(INSTR(l)) {
case ps_sym:
case ps_hol:
case ps_bss:
case ps_con:
case ps_rom:
lastkept = l;
break;
default:
rem_line(l);
}
}
if (lastkept != (line_p) 0) {
/* There were some data declarations in p,
* so we'll turn p into a data-unit; we'll
* have to append an end-pseudo for this
* purpose.
*/
lastkept->l_next = newline(OPNO);
lastkept->l_next->l_instr = (byte) ps_end;
}
/* There may be some calls in the body of p that
* ought to be expanded in line. As p is removed
* anyway, there is no use in really performing
* these substitutions, so the call-descriptors
* are just thrown away.
*/
for (c = p->P_CALS; c != (call_p) 0; c = nextc) {
nextc = c->cl_cdr;
rem_call(c);
}
/* change the proctable entry */
p->p_flags1 &= (byte) ~PF_BODYSEEN;
oldchange(p->p_change);
olduse(p->p_use);
}