ack/util/ego/il/il3_change.c
George Koehler 17bc9cdef7 More void, fewer clang warnings in util/ego
Most warnings are for functions implicitly returning int.  Change most
of these functions to return void.  (Traditional K&R C had no void
type, but C89 has it.)

Add prototypes to most function declarations in headers.  This is
easy, because ego declares most of its extern functions, and the
comments listed most parameters.  There were a few outdated or missing
declarations, and a few .c files that failed to include an .h with the
declarations.

Add prototypes to a few function definitions in .c files.  Most
functions still have traditional K&R definitions.  Most STATIC
functions still don't have prototypes, because they have no earlier
declaration where I would have added the prototype.

Change some prototypes in util/ego/share/alloc.h.  Functions newmap()
and oldmap() handle an array of pointers to something; change the
array's type from `short **` to `void **`.  Callers use casts to go
between `void **` and the correct type, like `line_p *`.  Function
oldtable() takes a `short *`, not a `short **`; I added the wrong type
in 5bbbaf4.

Make a few other changes to silence warnings.  There are a few places
where clang wants extra parentheses in the code.

Edit util/ego/ra/build.lua to add the missing dependency on ra*.h; I
needed this to prevent crashes from ra.
2019-11-01 15:27:16 -04:00

592 lines
12 KiB
C

/* $Id$ */
/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*/
/* 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>
#include <em_mnem.h>
#include <em_pseu.h>
#include <em_spec.h>
#include <em_mes.h>
#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"
#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)
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)
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)
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)
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)
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)
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)
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)
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)
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)
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)
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)
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)
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)
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
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)
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);
}