// Copyright 2009 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
/*
* portable half of code generator.
* mainly statements and control flow.
*/
#include "go.h"
Node*
sysfunc(char *name)
{
Node *n;
n = newname(pkglookup(name, "runtime"));
n->class = PFUNC;
return n;
}
void
allocparams(void)
{
NodeList *l;
Node *n;
uint32 w;
Sym *s;
int lno;
if(stksize < 0)
fatal("allocparams not during code generation");
/*
* allocate (set xoffset) the stack
* slots for all automatics.
* allocated starting at -w down.
*/
lno = lineno;
for(l=curfn->dcl; l; l=l->next) {
n = l->n;
if(n->op == ONAME && n->class == PHEAP-1) {
// heap address variable; finish the job
// started in addrescapes.
s = n->sym;
tempname(n, n->type);
n->sym = s;
}
if(n->op != ONAME || n->class != PAUTO)
continue;
if(n->type == T)
continue;
dowidth(n->type);
w = n->type->width;
if(w >= MAXWIDTH)
fatal("bad width");
stksize += w;
stksize = rnd(stksize, w);
n->xoffset = -stksize;
}
lineno = lno;
}
void
newlab(int op, Sym *s, Node *stmt)
{
Label *lab;
lab = mal(sizeof(*lab));
lab->link = labellist;
labellist = lab;
lab->sym = s;
lab->op = op;
lab->label = pc;
lab->stmt = stmt;
}
void
checklabels(void)
{
Label *l, *m;
Sym *s;
// // print the label list
// for(l=labellist; l!=L; l=l->link) {
// print("lab %O %S\n", l->op, l->sym);
// }
for(l=labellist; l!=L; l=l->link) {
switch(l->op) {
case OLABEL:
// these are definitions -
s = l->sym;
for(m=labellist; m!=L; m=m->link) {
if(m->sym != s)
continue;
switch(m->op) {
case OLABEL:
// these are definitions -
// look for redefinitions
if(l != m)
yyerror("label %S redefined", s);
break;
case OGOTO:
// these are references -
// patch to definition
patch(m->label, l->label);
m->sym = S; // mark done
break;
}
}
}
}
// diagnostic for all undefined references
for(l=labellist; l!=L; l=l->link)
if(l->op == OGOTO && l->sym != S)
yyerror("label %S not defined", l->sym);
}
/*
* compile statements
*/
void
genlist(NodeList *l)
{
for(; l; l=l->next)
gen(l->n);
}
void
gen(Node *n)
{
int32 lno;
Prog *scontin, *sbreak;
Prog *p1, *p2, *p3;
Label *lab;
lno = setlineno(n);
if(n == N)
goto ret;
p3 = pc; // save pc for loop labels
if(n->ninit)
genlist(n->ninit);
setlineno(n);
switch(n->op) {
default:
fatal("gen: unknown op %N", n);
break;
case OCASE:
case OFALL:
case OXCASE:
case OXFALL:
case ODCLCONST:
case ODCLFUNC:
case ODCLTYPE:
break;
case OEMPTY:
// insert no-op so that
// L:; for { }
// does not treat L as a label for the loop.
if(labellist && labellist->label == p3)
gused(N);
break;
case OBLOCK:
genlist(n->list);
break;
case OLABEL:
newlab(OLABEL, n->left->sym, n->right);
break;
case OGOTO:
newlab(OGOTO, n->left->sym, N);
gjmp(P);
break;
case OBREAK:
if(n->left != N) {
for(lab=labellist; lab!=L; lab=lab->link) {
if(lab->sym == n->left->sym) {
if(lab->breakpc == P)
yyerror("invalid break label %S", n->left->sym);
gjmp(lab->breakpc);
goto donebreak;
}
}
if(lab == L)
yyerror("break label not defined: %S", n->left->sym);
break;
}
if(breakpc == P) {
yyerror("break is not in a loop");
break;
}
gjmp(breakpc);
donebreak:
break;
case OCONTINUE:
if(n->left != N) {
for(lab=labellist; lab!=L; lab=lab->link) {
if(lab->sym == n->left->sym) {
if(lab->continpc == P)
yyerror("invalid continue label %S", n->left->sym);
gjmp(lab->continpc);
goto donecont;
}
}
if(lab == L)
yyerror("continue label not defined: %S", n->left->sym);
break;
}
if(continpc == P) {
yyerror("continue is not in a loop");
break;
}
gjmp(continpc);
donecont:
break;
case OFOR:
sbreak = breakpc;
p1 = gjmp(P); // goto test
breakpc = gjmp(P); // break: goto done
scontin = continpc;
continpc = pc;
// define break and continue labels
if((lab = labellist) != L && lab->label == p3 && lab->op == OLABEL && lab->stmt == n) {
lab->breakpc = breakpc;
lab->continpc = continpc;
}
gen(n->nincr); // contin: incr
patch(p1, pc); // test:
if(n->ntest != N)
if(n->ntest->ninit != nil)
genlist(n->ntest->ninit);
bgen(n->ntest, 0, breakpc); // if(!test) goto break
genlist(n->nbody); // body
gjmp(continpc);
patch(breakpc, pc); // done:
continpc = scontin;
breakpc = sbreak;
break;
case OIF:
p1 = gjmp(P); // goto test
p2 = gjmp(P); // p2: goto else
patch(p1, pc); // test:
if(n->ntest != N)
if(n->ntest->ninit != nil)
genlist(n->ntest->ninit);
bgen(n->ntest, 0, p2); // if(!test) goto p2
genlist(n->nbody); // then
p3 = gjmp(P); // goto done
patch(p2, pc); // else:
genlist(n->nelse); // else
patch(p3, pc); // done:
break;
case OSWITCH:
sbreak = breakpc;
p1 = gjmp(P); // goto test
breakpc = gjmp(P); // break: goto done
// define break label
if((lab = labellist) != L && lab->label == p3 && lab->op == OLABEL && lab->stmt == n)
lab->breakpc = breakpc;
patch(p1, pc); // test:
genlist(n->nbody); // switch(test) body
patch(breakpc, pc); // done:
breakpc = sbreak;
break;
case OSELECT:
sbreak = breakpc;
p1 = gjmp(P); // goto test
breakpc = gjmp(P); // break: goto done
// define break label
if((lab = labellist) != L && lab->label == p3 && lab->op == OLABEL && lab->stmt == n)
lab->breakpc = breakpc;
patch(p1, pc); // test:
genlist(n->nbody); // select() body
patch(breakpc, pc); // done:
breakpc = sbreak;
break;
case OASOP:
cgen_asop(n);
break;
case ODCL:
cgen_dcl(n->left);
break;
case OAS:
if(gen_as_init(n))
break;
cgen_as(n->left, n->right);
break;
case OCALLMETH:
cgen_callmeth(n, 0);
break;
case OCALLINTER:
cgen_callinter(n, N, 0);
break;
case OCALLFUNC:
cgen_call(n, 0);
break;
case OPROC:
cgen_proc(n, 1);
break;
case ODEFER:
cgen_proc(n, 2);
break;
case ORETURN:
cgen_ret(n);
break;
}
ret:
lineno = lno;
}
/*
* generate call to non-interface method
* proc=0 normal call
* proc=1 goroutine run in new proc
* proc=2 defer call save away stack
*/
void
cgen_callmeth(Node *n, int proc)
{
Node *l;
// generate a rewrite for method call
// (p.f)(...) goes to (f)(p,...)
l = n->left;
if(l->op != ODOTMETH)
fatal("cgen_callmeth: not dotmethod: %N");
n->op = OCALLFUNC;
n->left = n->left->right;
n->left->type = l->type;
if(n->left->op == ONAME)
n->left->class = PFUNC;
cgen_call(n, proc);
}
/*
* generate code to start new proc running call n.
*/
void
cgen_proc(Node *n, int proc)
{
switch(n->left->op) {
default:
fatal("cgen_proc: unknown call %O", n->left->op);
case OCALLMETH:
cgen_callmeth(n->left, proc);
break;
case OCALLINTER:
cgen_callinter(n->left, N, proc);
break;
case OCALLFUNC:
cgen_call(n->left, proc);
break;
}
}
/*
* generate declaration.
* nothing to do for on-stack automatics,
* but might have to allocate heap copy
* for escaped variables.
*/
void
cgen_dcl(Node *n)
{
if(debug['g'])
dump("\ncgen-dcl", n);
if(n->op != ONAME) {
dump("cgen_dcl", n);
fatal("cgen_dcl");
}
if(!(n->class & PHEAP))
return;
cgen_as(n->heapaddr, n->alloc);
}
/*
* generate discard of value
*/
void
cgen_discard(Node *nr)
{
Node tmp;
if(nr == N)
return;
switch(nr->op) {
case ONAME:
if(!(nr->class & PHEAP) && nr->class != PEXTERN && nr->class != PFUNC)
gused(nr);
break;
// unary
case OADD:
case OAND:
case ODIV:
case OEQ:
case OGE:
case OGT:
case OLE:
case OLSH:
case OLT:
case OMOD:
case OMUL:
case ONE:
case OOR:
case ORSH:
case OSUB:
case OXOR:
cgen_discard(nr->left);
cgen_discard(nr->right);
break;
// binary
case OCAP:
case OCOM:
case OLEN:
case OMINUS:
case ONOT:
case OPLUS:
cgen_discard(nr->left);
break;
// special enough to just evaluate
default:
tempname(&tmp, nr->type);
cgen_as(&tmp, nr);
gused(&tmp);
}
}
/*
* generate assignment:
* nl = nr
* nr == N means zero nl.
*/
void
cgen_as(Node *nl, Node *nr)
{
Node nc;
Type *tl;
int iszer;
if(nl == N)
return;
if(debug['g']) {
dump("cgen_as", nl);
dump("cgen_as = ", nr);
}
if(isblank(nl)) {
cgen_discard(nr);
return;
}
iszer = 0;
if(nr == N || isnil(nr)) {
// externals and heaps should already be clear
if(nr == N) {
if(nl->class == PEXTERN)
return;
if(nl->class & PHEAP)
return;
}
tl = nl->type;
if(tl == T)
return;
if(isfat(tl)) {
clearfat(nl);
goto ret;
}
/* invent a "zero" for the rhs */
iszer = 1;
nr = &nc;
memset(nr, 0, sizeof(*nr));
switch(simtype[tl->etype]) {
default:
fatal("cgen_as: tl %T", tl);
break;
case TINT8:
case TUINT8:
case TINT16:
case TUINT16:
case TINT32:
case TUINT32:
case TINT64:
case TUINT64:
nr->val.u.xval = mal(sizeof(*nr->val.u.xval));
mpmovecfix(nr->val.u.xval, 0);
nr->val.ctype = CTINT;
break;
case TFLOAT32:
case TFLOAT64:
nr->val.u.fval = mal(sizeof(*nr->val.u.fval));
mpmovecflt(nr->val.u.fval, 0.0);
nr->val.ctype = CTFLT;
break;
case TBOOL:
nr->val.u.bval = 0;
nr->val.ctype = CTBOOL;
break;
case TPTR32:
case TPTR64:
nr->val.ctype = CTNIL;
break;
}
nr->op = OLITERAL;
nr->type = tl;
nr->addable = 1;
ullmancalc(nr);
}
tl = nl->type;
if(tl == T)
return;
cgen(nr, nl);
if(iszer && nl->addable)
gused(nl);
ret:
;
}
/*
* gather series of offsets
* >=0 is direct addressed field
* <0 is pointer to next field (+1)
*/
int
dotoffset(Node *n, int *oary, Node **nn)
{
int i;
switch(n->op) {
case ODOT:
if(n->xoffset == BADWIDTH) {
dump("bad width in dotoffset", n);
fatal("bad width in dotoffset");
}
i = dotoffset(n->left, oary, nn);
if(i > 0) {
if(oary[i-1] >= 0)
oary[i-1] += n->xoffset;
else
oary[i-1] -= n->xoffset;
break;
}
if(i < 10)
oary[i++] = n->xoffset;
break;
case ODOTPTR:
if(n->xoffset == BADWIDTH) {
dump("bad width in dotoffset", n);
fatal("bad width in dotoffset");
}
i = dotoffset(n->left, oary, nn);
if(i < 10)
oary[i++] = -(n->xoffset+1);
break;
default:
*nn = n;
return 0;
}
if(i >= 10)
*nn = N;
return i;
}
/*
* make a new off the books
*/
void
tempname(Node *n, Type *t)
{
Sym *s;
uint32 w;
if(stksize < 0)
fatal("tempname not during code generation");
if(t == T) {
yyerror("tempname called with nil type");
t = types[TINT32];
}
// give each tmp a different name so that there
// a chance to registerizer them
snprint(namebuf, sizeof(namebuf), "autotmp_%.4d", statuniqgen);
statuniqgen++;
s = lookup(namebuf);
memset(n, 0, sizeof(*n));
n->op = ONAME;
n->sym = s;
n->type = t;
n->class = PAUTO;
n->addable = 1;
n->ullman = 1;
n->noescape = 1;
dowidth(t);
w = t->width;
stksize += w;
stksize = rnd(stksize, w);
n->xoffset = -stksize;
}
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