ack/lang/occam/comp/code.c

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/* $Id$ */
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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".
*/
#include "occam-em.h"
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#include "expr.h"
#include "symtab.h"
#include "sizes.h"
#include "Lpars.h"
#include "code.h"
extern err;
static void subscript();
enum addr_val { address, value };
void code_val(e) register struct expr *e;
/* Compile e for its value, which is put on the stack. */
{
register struct expr *left, *right;
if (err) return;
switch(e->kind) {
case E_NODE:
left=e->u.node.left;
right=e->u.node.right;
switch (e->u.node.op) {
case '+':
case '-':
case '*':
case '/':
case BS:
code_val(left);
code_val(right);
xxi(e->u.node.op);
break;
case '<':
case '>':
case LE:
case GE:
case NE:
case '=':
code_val(left);
code_val(right);
cmi();
Txx(e->u.node.op);
break;
case AFTER:
code_val(left);
code_val(right);
xxi('-');
cvw();
tst();
Txx('>');
break;
case BA:
code_val(left);
code_val(right);
and();
break;
case BO:
code_val(left);
code_val(right);
ior();
break;
case BX:
code_val(left);
code_val(right);
xor();
break;
case AND:
case OR: {
int T=0, F=0, L=0;
code_bool(e, positive, &T, &F);
Label(T);
Loc(-1L);
branch(&L);
Label(F);
Loc(0L);
Label(L);
}break;
case LS:
code_val(left);
code_val(right);
cvw();
sli();
break;
case RS:
code_val(left);
code_val(right);
cvw();
sri();
break;
case '~':
code_val(left);
ngi();
break;
case NOT:
code_val(left);
com();
break;
case '[':
subscript(e, value);
break;
}
break;
case E_VAR: {
register struct symbol *var=e->u.var;
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if (var->s_type&T_BUILTIN)
Loe(var->s_info.vc.st.builtin, var->s_info.vc.offset);
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else
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if (var->s_info.vc.st.level==curr_level)
if (var->s_type&T_PARAM && (var->s_type&T_TYPE)!=T_VALUE)
Lil(var->s_info.vc.offset);
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else
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Lol(var->s_info.vc.offset);
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else {
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if (var->s_info.vc.offset<0)
lxl(curr_level-var->s_info.vc.st.level);
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else
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lxa(curr_level-var->s_info.vc.st.level);
if (var->s_type&T_PARAM && (var->s_type&T_TYPE)!=T_VALUE)
Lif(var->s_info.vc.offset);
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else
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Lof(var->s_info.vc.offset);
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}
}break;
case E_CONST:
Loc(e->u.cst);
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break;
case E_NOW:
cal("now");
lfr(vz);
break;
}
}
static void subscript(e, av) register struct expr *e; enum addr_val av;
/* Produce code to compute the address or value of e->left[e->right] or
* the address of e->left[e->right->left FOR e->right->right].
*/
{
register char *des;
register struct expr *left;
register struct expr *index;
code_addr(left=e->u.node.left);
if ((index=e->u.node.right)->kind==E_NODE && index->u.node.op==FOR)
index=index->u.node.left;
if (left->arr_siz==0) {
if ((left->type&T_TYPE)==T_CHAN)
des="maxcdes";
else
des= e->type&T_BYTE ? "maxbdes" : "maxwdes";
} else {
register lsiz=left->arr_siz;
if (left->type&T_BYTE && !(e->type&T_BYTE))
lsiz/=vz;
else
if (!(left->type&T_BYTE) && e->type&T_BYTE)
lsiz*=vz;
if (e->type&T_ARR)
lsiz-=(e->arr_siz -1);
if (constant(index)) {
if (index->u.cst<0 || index->u.cst>=lsiz) {
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warning("constant index outside vector");
lin();
loc(0);
trp();
}
} else {
loc(lsiz);
if ((left->type&T_TYPE)==T_CHAN)
des="chandes";
else
des= e->type&T_BYTE ? "bytedes" : "worddes";
ste(des, wz);
}
}
if (constant(index)) {
register offset=index->u.cst;
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if ((left->type&T_TYPE)==T_CHAN)
offset*=(wz+vz);
else
if ( !(e->type&T_BYTE) )
offset*=vz;
if (av==address)
adp(offset);
else {
if (e->type&T_BYTE) {
adp(offset);
loi(1);
cwv();
} else
Lof(offset);
}
} else {
code_val(index);
cvw();
lin();
lae(des, 0);
if (av==address) {
aar();
} else {
lar();
if (e->type&T_BYTE) cwv();
}
}
}
void code_addr(e) register struct expr *e;
/* The address of e is wat we want. */
{
if (err) return;
switch(e->kind) {
case E_NODE:
subscript(e, address);
break;
case E_VAR: { /* variable or channel */
register struct symbol *var=e->u.var;
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if (var->s_type&T_BUILTIN)
lae(var->s_info.vc.st.builtin, var->s_info.vc.offset);
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else
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if (var->s_info.vc.st.level==curr_level)
if (var->s_type&T_PARAM
&& (var->s_type&(T_TYPE|T_ARR))!=T_VALUE)
Lolp(var->s_info.vc.offset);
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else
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lal(var->s_info.vc.offset);
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else {
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if (var->s_info.vc.offset<0)
lxl(curr_level-var->s_info.vc.st.level);
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else
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lxa(curr_level-var->s_info.vc.st.level);
if (var->s_type&T_PARAM
&& (var->s_type&(T_TYPE|T_ARR))!=T_VALUE)
Lofp(var->s_info.vc.offset);
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else
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adp(var->s_info.vc.offset);
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}
} break;
case E_TABLE:
case E_BTAB:
laedot(e->u.tab);
break;
}
}
void code_bool(e, pos, T, F)
register struct expr *e;
register pos;
register int *T, *F;
/* if e = pos then
fall through or jump to T;
else
jump to F;
fi
*/
{
register Default=0;
if (err) return;
if (e->kind==E_NODE) {
register struct expr *left=e->u.node.left;
register struct expr *right=e->u.node.right;
switch(e->u.node.op) {
case '<':
case '>':
case LE:
case GE:
case NE:
case '=':
case AFTER:
code_val(left);
code_val(right);
bxx(pos, e->u.node.op, new_label(F));
break;
case AND:
case OR:
if ((e->u.node.op==AND && pos)
|| (e->u.node.op==OR && !pos)
) {
int L=0;
code_bool(left, pos, &L, F);
Label(L);
code_bool(right, pos, T, F);
} else {
int L=0;
code_bool(left, !pos, &L, T);
Label(L);
code_bool(right, pos, T, F);
}
break;
case NOT:
code_bool(left, !pos, T, F);
break;
default:
Default=1;
}
} else
Default=1;
if (Default) {
code_val(e);
if (vz>wz) {
ldc0();
cmi();
} else
tst();
if (pos) zeq(new_label(F)); else zne(new_label(F));
}
}
void code_assignment(e) register struct expr *e;
/* e->left := e->right */
{
register struct expr *left=e->u.node.left;
register struct expr *right=e->u.node.right;
if (left->type&T_ARR) {
register siz=left->arr_siz;
code_addr(right);
code_addr(left);
blm(left->type&T_BYTE ? siz : siz*vz);
} else {
code_val(right);
code_addr(left);
sti(left->type&T_BYTE ? 1 : vz);
}
}
void code_input(e) register struct expr *e;
/* Input one v from c ? v0; v1; ... */
{
if (e==nil) {
lae("any", 0);
cal("chan_in");
asp(pz);
} else
if (e->type&T_ARR) {
loc(e->arr_siz);
code_addr(e);
cal(e->type&T_BYTE ? "c_ba_in" : "c_wa_in");
asp(pz+wz);
} else {
code_addr(e);
cal(e->type&T_BYTE ? "cbyte_in" : "chan_in");
asp(pz);
}
}
void code_output(e) register struct expr *e;
/* Output one e from c ? e0; e1; ... */
{
if (e==nil) {
Loc(0L);
cal("chan_out");
asp(vz);
} else
if (e->type&T_ARR) {
loc(e->arr_siz);
code_addr(e);
cal(e->type&T_BYTE ? "c_ba_out" : "c_wa_out");
asp(pz+wz);
} else {
code_val(e);
cal("chan_out");
asp(vz);
}
}
void code_any(e, NO) register struct expr *e; int *NO;
/* Test if the channel (push address on stack) has input. If not so remove the
* channel pointer and jump to NO. Otherwise input values.
*/
{
int YES=0;
register struct expr_list *elp;
if (err) return;
code_addr(e->u.io.chan);
cal("chan_any");
lfr(wz);
tst();
zne(new_label(&YES));
asp(pz);
branch(NO);
Label(YES);
elp=e->u.io.args;
while (elp!=nil) {
code_input(elp->arg);
elp=elp->next;
}
asp(pz);
}
void code_void(e) register struct expr *e;
/* Assignment, I/O, or procedure call. */
{
if (err) return;
switch (e->kind) {
case E_NODE: /* Must be assignment */
code_assignment(e);
break;
case E_IO: {
register struct expr_list *elp;
code_addr(e->u.io.chan);
elp=e->u.io.args;
while (elp!=nil) {
if (e->u.io.out)
code_output(elp->arg);
else
code_input(elp->arg);
elp=elp->next;
}
asp(pz);
}
break;
case E_CALL: {
register size=0;
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register struct expr_list *elp=e->u.call.c_args;
register struct symbol *proc=e->u.call.c_proc->u.var;
register struct par_list *pars=proc->s_info.proc.pars;
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while (elp!=nil) {
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if (pars->pr_type==T_VALUE) {
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code_val(elp->arg);
size+=vz;
} else {
code_addr(elp->arg);
size+=pz;
}
elp=elp->next;
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pars=pars->pr_next;
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}
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if (proc->s_type&T_BUILTIN) {
cal(proc->s_info.proc.st.builtin);
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asp(size);
} else {
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if (proc->s_info.proc.st.level>curr_level) {
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/* Call down */
lor0();
} else
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if (proc->s_info.proc.st.level==curr_level) {
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/* Call at same level */
Lolp(0);
} else {
/* Call up */
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lxa(curr_level-proc->s_info.proc.st.level);
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loi(pz);
}
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cal(proc_label(proc->s_info.proc.label, proc->s_name));
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asp(size+pz);
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if (proc->s_info.proc.file!=curr_file) fil();
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}
} break;
}
}
void prologue(proc) register struct symbol *proc;
/* Open up the scope for a new proc definition. */
{
static P=0;
if (err) return;
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proc->s_info.proc.st.level= ++curr_level;
proc->s_info.proc.file= curr_file;
proc->s_info.proc.label= ++P;
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curr_offset=min_offset=0;
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pro(proc_label(proc->s_info.proc.label, proc->s_name));
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if (curr_level==1) fil();
}
void epilogue(proc) register struct symbol *proc;
/* Close the scope of a proc def. */
{
if (err) return;
curr_level--;
ret(0);
x_end(-min_offset);
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}
void rep_init(v, e1, e2, r_info)
struct symbol *v;
register struct expr *e1, *e2;
register struct replicator *r_info;
/* Compile v=[e1 FOR e2]. Info tells rep_test what decisions rep_init makes. */
{
if (err) return;
r_info->BEGIN=r_info->END=0;
code_val(e1);
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Stl(v->s_info.vc.offset);
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if (!constant(e1) || !constant(e2)) {
if (constant(e2) && word_constant(e2->u.cst)) {
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r_info->counter=memory(wz);
loc((int) e2->u.cst);
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stl(r_info->counter);
} else {
r_info->counter=memory(vz);
code_val(e2);
Stl(r_info->counter);
}
}
if (!constant(e2) || e2->u.cst<=0L)
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branch(&r_info->END);
Label(new_label(&r_info->BEGIN));
}
void rep_test(v, e1, e2, r_info)
register struct symbol *v;
register struct expr *e1, *e2;
register struct replicator *r_info;
{
if (err) return;
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Inl(v->s_info.vc.offset);
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if (constant(e1) && constant(e2)) {
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Lol(v->s_info.vc.offset);
Loc(e1->u.cst+e2->u.cst);
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if (vz>wz) {
cmi();
zlt(r_info->BEGIN);
} else
blt(r_info->BEGIN);
Label(r_info->END);
} else {
if (constant(e2) && word_constant(e2->u.cst)) {
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del(r_info->counter);
Label(r_info->END);
lol(r_info->counter);
tst();
} else {
Del(r_info->counter);
Label(r_info->END);
Lol(r_info->counter);
if (vz>wz) {
ldc0();
cmi();
} else
tst();
}
zgt(r_info->BEGIN);
}
}
void chan_init(info, arr_siz) union type_info *info; int arr_siz;
/* Garbage disposal unit for fresh channels. */
{
if (err) return;
loc(arr_siz);
lal(info->vc.offset);
cal("c_init");
asp(wz+pz);
}
void leader()
{
init();
openfile((char *) nil);
magic();
meswp();
maxdes();
}
void header()
{
exp("main");
pro("main");
init_rt();
main_fil();
}
void trailer()
{
if (err)
meserr();
else {
loc(0);
ret(wz);
x_end(-min_offset);
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}
closefile();
}