ack/util/opt/getline.c
1990-07-18 14:33:07 +00:00

549 lines
11 KiB
C

#ifndef NORCSID
static char rcsid[] = "$Header$";
#endif
#include <stdio.h>
#include "param.h"
#include "types.h"
#include "shc.h"
#include "line.h"
#include "lookup.h"
#include "alloc.h"
#include "proinf.h"
#include <em_spec.h>
#include <em_pseu.h>
#include <em_flag.h>
#include <em_mes.h>
#include "ext.h"
/*
* (c) copyright 1987 by the Vrije Universiteit, Amsterdam, The Netherlands.
* See the copyright notice in the ACK home directory, in the file "Copyright".
*
* Author: Hans van Staveren
*/
static short tabval; /* temp store for shorts */
static offset tabval2; /* temp store for offsets */
static char string[IDL+1]; /* temp store for names */
/*
* The next constants are close to sp_cend for fast switches
*/
#define INST 256 /* instruction: number in tabval */
#define PSEU 257 /* pseudo: number in tabval */
#define ILBX 258 /* label: number in tabval */
#define DLBX 259 /* symbol: name in string[] */
#define CSTX1 260 /* short constant: stored in tabval */
#define CSTX2 261 /* offset: value in tabval2 */
#define VALX1 262 /* symbol+short: in string[] and tabval */
#define VALX2 263 /* symbol+offset: in string[] and tabval2 */
#define ATEOF 264 /* bumped into end of file */
#define readbyte getchar
short readshort() {
register int l_byte, h_byte;
l_byte = readbyte();
h_byte = readbyte();
if ( h_byte>=128 ) h_byte -= 256 ;
return l_byte | (h_byte*256) ;
}
#ifdef LONGOFF
offset readoffset() {
register long l;
register int h_byte;
l = readbyte();
l |= ((unsigned) readbyte())*256 ;
l |= readbyte()*256L*256L ;
h_byte = readbyte() ;
if ( h_byte>=128 ) h_byte -= 256 ;
return l | (h_byte*256L*256*256L) ;
}
#endif
draininput() {
/*
* called when MES ERR is encountered.
* Drain input in case it is a pipe.
*/
while (getchar() != EOF)
;
}
short getint() {
switch(table2()) {
default: error("int expected");
case CSTX1:
return(tabval);
}
}
sym_p getsym(status) int status; {
switch(table2()) {
default:
error("symbol expected");
case DLBX:
return(symlookup(string,status,0));
case sp_pnam:
return(symlookup(string,status,SYMPRO));
}
}
offset getoff() {
switch (table2()) {
default: error("offset expected");
case CSTX1:
return((offset) tabval);
#ifdef LONGOFF
case CSTX2:
return(tabval2);
#endif
}
}
make_string(n) int n; {
sprintf(string,".%u",n);
}
inident() {
register n;
register char *p = string;
register c;
n = getint();
while (n--) {
c = readbyte();
if (p<&string[IDL])
*p++ = c;
}
*p++ = 0;
}
int table3(n) int n; {
switch (n) {
case sp_ilb1: tabval = readbyte(); return(ILBX);
case sp_ilb2: tabval = readshort(); return(ILBX);
case sp_dlb1: make_string(readbyte()); return(DLBX);
case sp_dlb2: make_string(readshort()); return(DLBX);
case sp_dnam: inident(); return(DLBX);
case sp_pnam: inident(); return(n);
case sp_cst2: tabval = readshort(); return(CSTX1);
#ifdef LONGOFF
case sp_cst4: tabval2 = readoffset(); return(CSTX2);
#endif
case sp_doff: if (table2()!=DLBX) error("symbol expected");
switch(table2()) {
default: error("offset expected");
case CSTX1: return(VALX1);
#ifdef LONGOFF
case CSTX2: return(VALX2);
#endif
}
default: return(n);
}
}
int table1() {
register n;
n = readbyte();
if (n == EOF)
return(ATEOF);
if ((n <= sp_lmnem) && (n >= sp_fmnem)) {
tabval = n;
return(INST);
}
if ((n <= sp_lpseu) && (n >= sp_fpseu)) {
tabval = n;
return(PSEU);
}
if ((n < sp_filb0 + sp_nilb0) && (n >= sp_filb0)) {
tabval = n - sp_filb0;
return(ILBX);
}
return(table3(n));
}
int table2() {
register n;
n = readbyte();
if ((n < sp_fcst0 + sp_ncst0) && (n >= sp_fcst0)) {
tabval = n - sp_zcst0;
return(CSTX1);
}
return(table3(n));
}
getlines() {
register line_p lnp;
register instr;
for(;;) {
linecount++;
switch(table1()) {
default:
error("unknown instruction byte");
/* NOTREACHED */
case ATEOF:
if (prodepth!=0)
error("procedure unterminated at eof");
process();
return;
case INST:
tstinpro();
instr = tabval;
break;
case DLBX:
lnp = newline(OPSYMBOL);
lnp->l_instr = ps_sym;
lnp->l_a.la_sp= symlookup(string,DEFINING,0);
lnp->l_next = curpro.lastline;
curpro.lastline = lnp;
continue;
case ILBX:
tstinpro();
lnp = newline(OPNUMLAB);
lnp->l_instr = op_lab;
lnp->l_a.la_np = numlookup((unsigned) tabval);
if (lnp->l_a.la_np->n_line != (line_p) 0)
error("label %u multiple defined",(unsigned) tabval);
lnp->l_a.la_np->n_line = lnp;
lnp->l_next = curpro.lastline;
curpro.lastline = lnp;
continue;
case PSEU:
if(inpseudo(tabval))
return;
continue;
}
/*
* Now we have an instruction number in instr
* There might be an operand, look for it
*/
if ((em_flag[instr-sp_fmnem]&EM_PAR)==PAR_NO) {
lnp = newline(OPNO);
} else switch(table2()) {
default:
error("unknown offset byte");
case sp_cend:
lnp = newline(OPNO);
break;
case CSTX1:
if ((em_flag[instr-sp_fmnem]&EM_PAR)!= PAR_B) {
if (CANMINI(tabval))
lnp = newline(tabval+Z_OPMINI);
else {
lnp = newline(OPSHORT);
lnp->l_a.la_short = tabval;
}
} else {
lnp = newline(OPNUMLAB);
lnp->l_a.la_np = numlookup((unsigned) tabval);
}
break;
#ifdef LONGOFF
case CSTX2:
lnp = newline(OPOFFSET);
lnp->l_a.la_offset = tabval2;
break;
#endif
case ILBX:
tstinpro();
lnp = newline(OPNUMLAB);
lnp->l_a.la_np = numlookup((unsigned) tabval);
break;
case DLBX:
lnp = newline(OPSYMBOL);
lnp->l_a.la_sp = symlookup(string,OCCURRING,0);
break;
case sp_pnam:
lnp = newline(OPSYMBOL);
lnp->l_a.la_sp = symlookup(string,OCCURRING,SYMPRO);
break;
case VALX1:
lnp = newline(OPSVAL);
lnp->l_a.la_sval.lasv_sp = symlookup(string,OCCURRING,0);
lnp->l_a.la_sval.lasv_short = tabval;
break;
#ifdef LONGOFF
case VALX2:
lnp = newline(OPLVAL);
lnp->l_a.la_lval.lalv_sp = symlookup(string,OCCURRING,0);
lnp->l_a.la_lval.lalv_offset = tabval2;
break;
#endif
}
lnp->l_instr = instr;
lnp->l_next = curpro.lastline;
curpro.lastline = lnp;
}
}
argstring(length,abp) offset length; register argb_p abp; {
while (length--) {
if (abp->ab_index == NARGBYTES)
abp = abp->ab_next = newargb();
abp->ab_contents[abp->ab_index++] = readbyte();
}
}
line_p arglist(n) int n; {
line_p lnp;
register arg_p ap,*app;
bool moretocome;
offset length;
/*
* creates an arglist with n elements
* if n == 0 the arglist is variable and terminated by sp_cend
*/
lnp = newline(OPLIST);
app = &lnp->l_a.la_arg;
moretocome = TRUE;
do {
switch(table2()) {
default:
error("unknown byte in arglist");
case CSTX1:
tabval2 = (offset) tabval;
case CSTX2:
*app = ap = newarg(ARGOFF);
ap->a_a.a_offset = tabval2;
app = &ap->a_next;
break;
case ILBX:
tstinpro();
*app = ap = newarg(ARGNUM);
ap->a_a.a_np = numlookup((unsigned) tabval);
ap->a_a.a_np->n_flags |= NUMDATA;
app = &ap->a_next;
break;
case DLBX:
*app = ap = newarg(ARGSYM);
ap->a_a.a_sp = symlookup(string,OCCURRING,0);
app = &ap->a_next;
break;
case sp_pnam:
*app = ap = newarg(ARGSYM);
ap->a_a.a_sp = symlookup(string,OCCURRING,SYMPRO);
app = &ap->a_next;
break;
case VALX1:
tabval2 = (offset) tabval;
case VALX2:
*app = ap = newarg(ARGVAL);
ap->a_a.a_val.av_sp = symlookup(string,OCCURRING,0);
ap->a_a.a_val.av_offset = tabval2;
app = &ap->a_next;
break;
case sp_scon:
*app = ap = newarg(ARGSTR);
length = getoff();
argstring(length,&ap->a_a.a_string);
app = &ap->a_next;
break;
case sp_icon:
*app = ap = newarg(ARGICN);
goto casecon;
case sp_ucon:
*app = ap = newarg(ARGUCN);
goto casecon;
case sp_fcon:
*app = ap = newarg(ARGFCN);
casecon:
length = getint();
ap->a_a.a_con.ac_length = (short) length;
argstring(getoff(),&ap->a_a.a_con.ac_con);
app = &ap->a_next;
break;
case sp_cend:
moretocome = FALSE;
}
if (n && (--n) == 0)
moretocome = FALSE;
} while (moretocome);
return(lnp);
}
offset aoff(ap,n) register arg_p ap; {
while (n>0) {
if (ap != (arg_p) 0)
ap = ap->a_next;
n--;
}
if (ap == (arg_p) 0)
error("too few parameters");
if (ap->a_typ != ARGOFF)
error("offset expected");
return(ap->a_a.a_offset);
}
int inpseudo(n) short n; {
register line_p lnp,head,tail;
short n1,n2;
proinf savearea;
#ifdef PSEUBETWEEN
static int pcount=0;
if (pcount++ >= PSEUBETWEEN && prodepth==0) {
process();
pcount=0;
}
#endif
switch(n) {
default:
error("unknown pseudo");
case ps_bss:
case ps_hol:
lnp = arglist(3);
break;
case ps_rom:
case ps_con:
lnp = arglist(0);
break;
case ps_ina:
case ps_inp:
case ps_exa:
case ps_exp:
lnp = newline(OPSYMBOL);
lnp->l_a.la_sp = getsym(NOTHING);
break;
case ps_exc:
n1 = getint(); n2 = getint();
if (n1 != 0 && n2 != 0) {
tail = curpro.lastline;
while (--n2) tail = tail->l_next;
head = tail;
while (n1--) head = head->l_next;
lnp = tail->l_next;
tail->l_next = head->l_next;
head->l_next = curpro.lastline;
curpro.lastline = lnp;
}
lnp = newline(OPNO);
break;
case ps_mes:
lnp = arglist(0);
switch((int) aoff(lnp->l_a.la_arg,0)) {
case ms_err:
draininput(); exit(-1);
case ms_opt:
nflag = TRUE; break;
case ms_emx:
wordsize = aoff(lnp->l_a.la_arg,1);
pointersize = aoff(lnp->l_a.la_arg,2);
#ifndef LONGOFF
if (wordsize>2)
error("This optimizer cannot handle wordsize>2");
#endif
break;
case ms_gto:
curpro.gtoproc=1;
/* Treat as empty mes ms_reg */
case ms_reg:
tstinpro();
regvar(lnp->l_a.la_arg->a_next);
oldline(lnp);
lnp=newline(OPNO);
n=ps_exc; /* kludge to force out this line */
break;
case ms_sth:
tstinpro();
oldline(lnp);
lnp=newline(OPNO);
n=ps_exc; /* kludge to force out this line */
break;
}
break;
case ps_pro:
if (prodepth>0)
savearea = curpro;
else
process();
curpro.symbol = getsym(DEFINING);
switch(table2()) {
case sp_cend:
curpro.localbytes = (offset) -1;
break;
case CSTX1:
tabval2 = (offset) tabval;
case CSTX2:
curpro.localbytes = tabval2;
break;
default:
error("bad second arg of PRO");
}
prodepth++;
curpro.gtoproc=0;
if (prodepth>1) {
register i;
curpro.lastline = (line_p) 0;
curpro.freg = (reg_p) 0;
for(i=0;i<NNUMHASH;i++)
curpro.numhash[i] = (num_p) 0;
getlines();
curpro = savearea;
prodepth--;
}
return(0);
case ps_end:
if (prodepth==0)
error("END misplaced");
switch(table2()) {
case sp_cend:
if (curpro.localbytes == (offset) -1)
error("bytes for locals still unknown");
break;
case CSTX1:
tabval2 = (offset) tabval;
case CSTX2:
if (curpro.localbytes != (offset) -1 && curpro.localbytes != tabval2)
error("inconsistency in number of bytes for locals");
curpro.localbytes = tabval2;
break;
}
process();
curpro.symbol = (sym_p) 0;
if (prodepth==1) {
prodepth=0;
#ifdef PSEUBETWEEN
pcount=0;
#endif
return(0);
} else
return(1);
}
lnp->l_instr = n;
lnp->l_next = curpro.lastline;
curpro.lastline = lnp;
return(0);
}
tstinpro() {
if (prodepth==0)
error("This is not allowed outside a procedure");
}