Node*
typebsw(Case *c0, int ncase)
{
NodeList *cas;
Node *a, *n;
Case *c;
int i, half;
Val v;
cas = nil;
if(ncase < Ncase) {
for(i=0; i<ncase; i++) {
n = c0->node;
switch(c0->type) {
case Ttypenil:
v.ctype = CTNIL;
a = nod(OIF, N, N);
a->ntest = nod(OEQ, facename, nodlit(v));
typecheck(&a->ntest, Erv);
a->nbody = list1(n->right); // if i==nil { goto l }
cas = list(cas, a);
break;
case Ttypevar:
a = typeone(n);
cas = list(cas, a);
break;
case Ttypeconst:
a = nod(OIF, N, N);
a->ntest = nod(OEQ, hashname, nodintconst(c0->hash));
typecheck(&a->ntest, Erv);
a->nbody = list1(typeone(n));
cas = list(cas, a);
break;
}
c0 = c0->link;
}
return liststmt(cas);
}
// find the middle and recur
c = c0;
half = ncase>>1;
for(i=1; i<half; i++)
c = c->link;
a = nod(OIF, N, N);
a->ntest = nod(OLE, hashname, nodintconst(c->hash));
typecheck(&a->ntest, Erv);
a->nbody = list1(typebsw(c0, half));
a->nelse = list1(typebsw(c->link, ncase-half));
return a;
}
void
gdata(Node *nam, Node *nr, int wid)
{
Prog *p;
vlong v;
if(nr->op == OLITERAL) {
switch(nr->val.ctype) {
case CTCPLX:
gdatacomplex(nam, nr->val.u.cval);
return;
case CTSTR:
gdatastring(nam, nr->val.u.sval);
return;
}
}
if(wid == 8 && is64(nr->type)) {
v = mpgetfix(nr->val.u.xval);
p = gins(ADATA, nam, nodintconst(v));
p->reg = 4;
p = gins(ADATA, nam, nodintconst(v>>32));
p->reg = 4;
p->from.offset += 4;
return;
}
static Node*
typebsw(Case *c0, int ncase)
{
NodeList *cas;
Node *a, *n;
Case *c;
int i, half;
cas = nil;
if(ncase < Ncase) {
for(i=0; i<ncase; i++) {
n = c0->node;
if(c0->type != Ttypeconst)
fatal("typebsw");
a = nod(OIF, N, N);
a->ntest = nod(OEQ, hashname, nodintconst(c0->hash));
typecheck(&a->ntest, Erv);
a->nbody = list1(n->right);
cas = list(cas, a);
c0 = c0->link;
}
return liststmt(cas);
}
// find the middle and recur
c = c0;
half = ncase>>1;
for(i=1; i<half; i++)
c = c->link;
a = nod(OIF, N, N);
a->ntest = nod(OLE, hashname, nodintconst(c->hash));
typecheck(&a->ntest, Erv);
a->nbody = list1(typebsw(c0, half));
a->nelse = list1(typebsw(c->link, ncase-half));
return a;
}
void
gdata(Node *nam, Node *nr, int wid)
{
Prog *p;
vlong v;
if(wid == 8 && is64(nr->type)) {
v = mpgetfix(nr->val.u.xval);
p = gins(ADATA, nam, nodintconst(v));
p->reg = 4;
p = gins(ADATA, nam, nodintconst(v>>32));
p->reg = 4;
p->from.offset += 4;
return;
}
static int
callinstr(Node **np, NodeList **init, int wr, int skip)
{
Node *f, *b, *n;
Type *t;
int class, hascalls;
n = *np;
//print("callinstr for %+N [ %O ] etype=%E class=%d\n",
// n, n->op, n->type ? n->type->etype : -1, n->class);
if(skip || n->type == T || n->type->etype >= TIDEAL)
return 0;
t = n->type;
if(isartificial(n))
return 0;
b = basenod(n);
// it skips e.g. stores to ... parameter array
if(isartificial(b))
return 0;
class = b->class;
// BUG: we _may_ want to instrument PAUTO sometimes
// e.g. if we've got a local variable/method receiver
// that has got a pointer inside. Whether it points to
// the heap or not is impossible to know at compile time
if((class&PHEAP) || class == PPARAMREF || class == PEXTERN
|| b->op == OINDEX || b->op == ODOTPTR || b->op == OIND || b->op == OXDOT) {
hascalls = 0;
foreach(n, hascallspred, &hascalls);
if(hascalls) {
n = detachexpr(n, init);
*np = n;
}
n = treecopy(n);
makeaddable(n);
if(t->etype == TSTRUCT || isfixedarray(t)) {
f = mkcall(wr ? "racewriterange" : "racereadrange", T, init, uintptraddr(n),
nodintconst(t->width));
} else
f = mkcall(wr ? "racewrite" : "raceread", T, init, uintptraddr(n));
*init = list(*init, f);
return 1;
}
return 0;
}
void
walkrange(Node *n)
{
Node *ohv1, *hv1, *hv2; // hidden (old) val 1, 2
Node *ha, *hit; // hidden aggregate, iterator
Node *hn, *hp; // hidden len, pointer
Node *hb; // hidden bool
Node *a, *v1, *v2; // not hidden aggregate, val 1, 2
Node *fn, *tmp;
NodeList *body, *init;
Type *th, *t;
int lno;
t = n->type;
init = nil;
a = n->right;
lno = setlineno(a);
if(t->etype == TSTRING && !eqtype(t, types[TSTRING])) {
a = nod(OCONV, n->right, N);
a->type = types[TSTRING];
}
v1 = n->list->n;
v2 = N;
if(n->list->next)
v2 = n->list->next->n;
hv2 = N;
if(v2 == N && t->etype == TARRAY) {
// will have just one reference to argument.
// no need to make a potentially expensive copy.
ha = a;
} else {
ha = temp(a->type);
init = list(init, nod(OAS, ha, a));
}
switch(t->etype) {
default:
fatal("walkrange");
case TARRAY:
hv1 = temp(types[TINT]);
hn = temp(types[TINT]);
hp = nil;
init = list(init, nod(OAS, hv1, N));
init = list(init, nod(OAS, hn, nod(OLEN, ha, N)));
if(v2) {
hp = temp(ptrto(n->type->type));
tmp = nod(OINDEX, ha, nodintconst(0));
tmp->etype = 1; // no bounds check
init = list(init, nod(OAS, hp, nod(OADDR, tmp, N)));
}
n->ntest = nod(OLT, hv1, hn);
n->nincr = nod(OASOP, hv1, nodintconst(1));
n->nincr->etype = OADD;
if(v2 == N)
body = list1(nod(OAS, v1, hv1));
else {
a = nod(OAS2, N, N);
a->list = list(list1(v1), v2);
a->rlist = list(list1(hv1), nod(OIND, hp, N));
body = list1(a);
tmp = nod(OADD, hp, nodintconst(t->type->width));
tmp->type = hp->type;
tmp->typecheck = 1;
tmp->right->type = types[tptr];
tmp->right->typecheck = 1;
body = list(body, nod(OAS, hp, tmp));
}
break;
case TMAP:
th = typ(TARRAY);
th->type = ptrto(types[TUINT8]);
// see ../../pkg/runtime/hashmap.h:/hash_iter
// Size in words.
th->bound = 5 + 4*3 + 4*4/widthptr;
hit = temp(th);
fn = syslook("mapiterinit", 1);
argtype(fn, t->down);
argtype(fn, t->type);
argtype(fn, th);
init = list(init, mkcall1(fn, T, nil, typename(t), ha, nod(OADDR, hit, N)));
n->ntest = nod(ONE, nod(OINDEX, hit, nodintconst(0)), nodnil());
fn = syslook("mapiternext", 1);
argtype(fn, th);
n->nincr = mkcall1(fn, T, nil, nod(OADDR, hit, N));
if(v2 == N) {
fn = syslook("mapiter1", 1);
argtype(fn, th);
argtype(fn, t->down);
a = nod(OAS, v1, mkcall1(fn, t->down, nil, nod(OADDR, hit, N)));
} else {
fn = syslook("mapiter2", 1);
argtype(fn, th);
argtype(fn, t->down);
argtype(fn, t->type);
a = nod(OAS2, N, N);
a->list = list(list1(v1), v2);
a->rlist = list1(mkcall1(fn, getoutargx(fn->type), nil, nod(OADDR, hit, N)));
}
body = list1(a);
break;
case TCHAN:
hv1 = temp(t->type);
hb = temp(types[TBOOL]);
n->ntest = nod(ONE, hb, nodbool(0));
a = nod(OAS2RECV, N, N);
a->typecheck = 1;
a->list = list(list1(hv1), hb);
a->rlist = list1(nod(ORECV, ha, N));
n->ntest->ninit = list1(a);
body = list1(nod(OAS, v1, hv1));
break;
case TSTRING:
ohv1 = temp(types[TINT]);
hv1 = temp(types[TINT]);
init = list(init, nod(OAS, hv1, N));
if(v2 == N)
a = nod(OAS, hv1, mkcall("stringiter", types[TINT], nil, ha, hv1));
else {
hv2 = temp(runetype);
a = nod(OAS2, N, N);
a->list = list(list1(hv1), hv2);
fn = syslook("stringiter2", 0);
a->rlist = list1(mkcall1(fn, getoutargx(fn->type), nil, ha, hv1));
}
n->ntest = nod(ONE, hv1, nodintconst(0));
n->ntest->ninit = list(list1(nod(OAS, ohv1, hv1)), a);
body = list1(nod(OAS, v1, ohv1));
if(v2 != N)
body = list(body, nod(OAS, v2, hv2));
break;
}
n->op = OFOR;
typechecklist(init, Etop);
n->ninit = concat(n->ninit, init);
typechecklist(n->ntest->ninit, Etop);
typecheck(&n->ntest, Erv);
typecheck(&n->nincr, Etop);
typechecklist(body, Etop);
n->nbody = concat(body, n->nbody);
walkstmt(&n);
lineno = lno;
}
static void
maplit(int ctxt, Node *n, Node *var, NodeList **init)
{
Node *r, *a;
NodeList *l;
int nerr, b;
Type *t, *tk, *tv, *t1;
Node *vstat, *index, *value;
Sym *syma, *symb;
ctxt = 0;
// make the map var
nerr = nerrors;
a = nod(OMAKE, N, N);
a->list = list1(typenod(n->type));
litas(var, a, init);
// count the initializers
b = 0;
for(l=n->list; l; l=l->next) {
r = l->n;
if(r->op != OKEY)
fatal("slicelit: rhs not OKEY: %N", r);
index = r->left;
value = r->right;
if(isliteral(index) && isliteral(value))
b++;
}
t = T;
if(b != 0) {
// build type [count]struct { a Tindex, b Tvalue }
t = n->type;
tk = t->down;
tv = t->type;
symb = lookup("b");
t = typ(TFIELD);
t->type = tv;
t->sym = symb;
syma = lookup("a");
t1 = t;
t = typ(TFIELD);
t->type = tk;
t->sym = syma;
t->down = t1;
t1 = t;
t = typ(TSTRUCT);
t->type = t1;
t1 = t;
t = typ(TARRAY);
t->bound = b;
t->type = t1;
dowidth(t);
// make and initialize static array
vstat = staticname(t, ctxt);
b = 0;
for(l=n->list; l; l=l->next) {
r = l->n;
if(r->op != OKEY)
fatal("slicelit: rhs not OKEY: %N", r);
index = r->left;
value = r->right;
if(isliteral(index) && isliteral(value)) {
// build vstat[b].a = key;
a = nodintconst(b);
a = nod(OINDEX, vstat, a);
a = nod(ODOT, a, newname(syma));
a = nod(OAS, a, index);
typecheck(&a, Etop);
walkexpr(&a, init);
a->dodata = 2;
*init = list(*init, a);
// build vstat[b].b = value;
a = nodintconst(b);
a = nod(OINDEX, vstat, a);
a = nod(ODOT, a, newname(symb));
a = nod(OAS, a, value);
typecheck(&a, Etop);
walkexpr(&a, init);
a->dodata = 2;
*init = list(*init, a);
b++;
}
}
// loop adding structure elements to map
// for i = 0; i < len(vstat); i++ {
// map[vstat[i].a] = vstat[i].b
// }
index = nod(OXXX, N, N);
tempname(index, types[TINT]);
a = nod(OINDEX, vstat, index);
a->etype = 1; // no bounds checking
a = nod(ODOT, a, newname(symb));
r = nod(OINDEX, vstat, index);
r->etype = 1; // no bounds checking
r = nod(ODOT, r, newname(syma));
r = nod(OINDEX, var, r);
r = nod(OAS, r, a);
a = nod(OFOR, N, N);
a->nbody = list1(r);
a->ninit = list1(nod(OAS, index, nodintconst(0)));
a->ntest = nod(OLT, index, nodintconst(t->bound));
a->nincr = nod(OASOP, index, nodintconst(1));
a->nincr->etype = OADD;
typecheck(&a, Etop);
walkstmt(&a);
*init = list(*init, a);
}
// put in dynamic entries one-at-a-time
for(l=n->list; l; l=l->next) {
r = l->n;
if(r->op != OKEY)
fatal("slicelit: rhs not OKEY: %N", r);
index = r->left;
value = r->right;
if(isliteral(index) && isliteral(value))
continue;
// build list of var[c] = expr
a = nod(OINDEX, var, r->left);
a = nod(OAS, a, r->right);
typecheck(&a, Etop);
walkexpr(&a, init);
if(nerr != nerrors)
break;
*init = list(*init, a);
}
}
void
walkrange(Node *n)
{
Node *ohv1, *hv1, *hv2; // hidden (old) val 1, 2
Node *ha, *hit; // hidden aggregate, iterator
Node *a, *v1, *v2; // not hidden aggregate, val 1, 2
Node *fn;
NodeList *body, *init;
Type *th, *t;
t = n->type;
init = nil;
a = n->right;
if(t->etype == TSTRING && !eqtype(t, types[TSTRING])) {
a = nod(OCONV, n->right, N);
a->type = types[TSTRING];
}
ha = nod(OXXX, N, N);
tempname(ha, a->type);
init = list(init, nod(OAS, ha, a));
v1 = n->list->n;
hv1 = N;
v2 = N;
if(n->list->next)
v2 = n->list->next->n;
hv2 = N;
switch(t->etype) {
default:
fatal("walkrange");
case TARRAY:
hv1 = nod(OXXX, N, n);
tempname(hv1, types[TINT]);
init = list(init, nod(OAS, hv1, N));
n->ntest = nod(OLT, hv1, nod(OLEN, ha, N));
n->nincr = nod(OASOP, hv1, nodintconst(1));
n->nincr->etype = OADD;
body = list1(nod(OAS, v1, hv1));
if(v2)
body = list(body, nod(OAS, v2, nod(OINDEX, ha, hv1)));
break;
case TMAP:
th = typ(TARRAY);
th->type = ptrto(types[TUINT8]);
th->bound = (sizeof(struct Hiter) + widthptr - 1) / widthptr;
hit = nod(OXXX, N, N);
tempname(hit, th);
fn = syslook("mapiterinit", 1);
argtype(fn, t->down);
argtype(fn, t->type);
argtype(fn, th);
init = list(init, mkcall1(fn, T, nil, ha, nod(OADDR, hit, N)));
n->ntest = nod(ONE, nod(OINDEX, hit, nodintconst(0)), nodnil());
fn = syslook("mapiternext", 1);
argtype(fn, th);
n->nincr = mkcall1(fn, T, nil, nod(OADDR, hit, N));
if(v2 == N) {
fn = syslook("mapiter1", 1);
argtype(fn, th);
argtype(fn, t->down);
a = nod(OAS, v1, mkcall1(fn, t->down, nil, nod(OADDR, hit, N)));
} else {
fn = syslook("mapiter2", 1);
argtype(fn, th);
argtype(fn, t->down);
argtype(fn, t->type);
a = nod(OAS2, N, N);
a->list = list(list1(v1), v2);
a->rlist = list1(mkcall1(fn, getoutargx(fn->type), nil, nod(OADDR, hit, N)));
}
body = list1(a);
break;
case TCHAN:
hv1 = nod(OXXX, N, n);
tempname(hv1, t->type);
n->ntest = nod(ONOT, nod(OCLOSED, ha, N), N);
n->ntest->ninit = list1(nod(OAS, hv1, nod(ORECV, ha, N)));
body = list1(nod(OAS, v1, hv1));
break;
case TSTRING:
ohv1 = nod(OXXX, N, N);
tempname(ohv1, types[TINT]);
hv1 = nod(OXXX, N, N);
tempname(hv1, types[TINT]);
init = list(init, nod(OAS, hv1, N));
if(v2 == N)
a = nod(OAS, hv1, mkcall("stringiter", types[TINT], nil, ha, hv1));
else {
hv2 = nod(OXXX, N, N);
tempname(hv2, types[TINT]);
a = nod(OAS2, N, N);
a->list = list(list1(hv1), hv2);
fn = syslook("stringiter2", 0);
a->rlist = list1(mkcall1(fn, getoutargx(fn->type), nil, ha, hv1));
}
n->ntest = nod(ONE, hv1, nodintconst(0));
n->ntest->ninit = list(list1(nod(OAS, ohv1, hv1)), a);
body = list1(nod(OAS, v1, ohv1));
if(v2 != N)
body = list(body, nod(OAS, v2, hv2));
break;
}
n->op = OFOR;
typechecklist(init, Etop);
n->ninit = concat(n->ninit, init);
typechecklist(n->ntest->ninit, Etop);
typecheck(&n->ntest, Erv);
typecheck(&n->nincr, Etop);
typechecklist(body, Etop);
n->nbody = concat(body, n->nbody);
walkstmt(&n);
}
void
fninit(NodeList *n)
{
int i;
Node *gatevar;
Node *a, *b, *fn;
NodeList *r;
uint32 h;
Sym *s, *initsym;
if(debug['A']) {
// sys.go or unsafe.go during compiler build
return;
}
n = initfix(n);
if(!anyinit(n))
return;
r = nil;
// (1)
snprint(namebuf, sizeof(namebuf), "initdoneĀ·");
gatevar = newname(lookup(namebuf));
addvar(gatevar, types[TUINT8], PEXTERN);
// (2)
maxarg = 0;
snprint(namebuf, sizeof(namebuf), "init");
fn = nod(ODCLFUNC, N, N);
initsym = lookup(namebuf);
fn->nname = newname(initsym);
fn->nname->defn = fn;
fn->nname->ntype = nod(OTFUNC, N, N);
declare(fn->nname, PFUNC);
funchdr(fn);
// (3)
a = nod(OIF, N, N);
a->ntest = nod(ONE, gatevar, nodintconst(0));
r = list(r, a);
// (4)
b = nod(OIF, N, N);
b->ntest = nod(OEQ, gatevar, nodintconst(2));
b->nbody = list1(nod(ORETURN, N, N));
a->nbody = list1(b);
// (5)
b = syslook("throwinit", 0);
b = nod(OCALL, b, N);
a->nbody = list(a->nbody, b);
// (6)
a = nod(OAS, gatevar, nodintconst(1));
r = list(r, a);
// (7)
for(h=0; h<NHASH; h++)
for(s = hash[h]; s != S; s = s->link) {
if(s->name[0] != 'i' || strcmp(s->name, "init") != 0)
continue;
if(s->def == N)
continue;
if(s == initsym)
continue;
// could check that it is fn of no args/returns
a = nod(OCALL, s->def, N);
r = list(r, a);
}
// (8)
r = concat(r, n);
// (9)
// could check that it is fn of no args/returns
for(i=1;; i++) {
snprint(namebuf, sizeof(namebuf), "initĀ·%d", i);
s = lookup(namebuf);
if(s->def == N)
break;
a = nod(OCALL, s->def, N);
r = list(r, a);
}
// (10)
a = nod(OAS, gatevar, nodintconst(2));
r = list(r, a);
// (11)
a = nod(ORETURN, N, N);
r = list(r, a);
exportsym(fn->nname);
fn->nbody = r;
funcbody(fn);
curfn = fn;
typecheck(&fn, Etop);
typechecklist(r, Etop);
curfn = nil;
funccompile(fn, 0);
}
/*
* generate:
* res = &n;
*/
void
agen(Node *n, Node *res)
{
Node *nl, *nr;
Node n1, n2, n3, tmp, n4;
Prog *p1;
uint32 w;
uint64 v;
Type *t;
if(debug['g']) {
dump("\nagen-res", res);
dump("agen-r", n);
}
if(n == N || n->type == T)
return;
if(!isptr[res->type->etype])
fatal("agen: not tptr: %T", res->type);
while(n->op == OCONVNOP)
n = n->left;
if(n->addable) {
regalloc(&n1, types[tptr], res);
gins(ALEAQ, n, &n1);
gmove(&n1, res);
regfree(&n1);
goto ret;
}
nl = n->left;
nr = n->right;
switch(n->op) {
default:
fatal("agen: unknown op %N", n);
break;
case OCALLMETH:
cgen_callmeth(n, 0);
cgen_aret(n, res);
break;
case OCALLINTER:
cgen_callinter(n, res, 0);
cgen_aret(n, res);
break;
case OCALLFUNC:
cgen_call(n, 0);
cgen_aret(n, res);
break;
case OINDEX:
w = n->type->width;
if(nr->addable)
goto irad;
if(nl->addable) {
if(!isconst(nr, CTINT)) {
regalloc(&n1, nr->type, N);
cgen(nr, &n1);
}
regalloc(&n3, types[tptr], res);
agen(nl, &n3);
goto index;
}
tempname(&tmp, nr->type);
cgen(nr, &tmp);
nr = &tmp;
irad:
regalloc(&n3, types[tptr], res);
agen(nl, &n3);
if(!isconst(nr, CTINT)) {
regalloc(&n1, nr->type, N);
cgen(nr, &n1);
}
goto index;
index:
// &a is in &n3 (allocated in res)
// i is in &n1 (if not constant)
// w is width
// explicit check for nil if array is large enough
// that we might derive too big a pointer.
if(!isslice(nl->type) && nl->type->width >= unmappedzero) {
regalloc(&n4, types[tptr], &n3);
gmove(&n3, &n4);
n4.op = OINDREG;
n4.type = types[TUINT8];
n4.xoffset = 0;
gins(ATESTB, nodintconst(0), &n4);
regfree(&n4);
}
if(w == 0)
fatal("index is zero width");
// constant index
if(isconst(nr, CTINT)) {
v = mpgetfix(nr->val.u.xval);
if(isslice(nl->type)) {
if(!debug['B'] && !n->etype) {
n1 = n3;
n1.op = OINDREG;
n1.type = types[tptr];
n1.xoffset = Array_nel;
nodconst(&n2, types[TUINT64], v);
gins(optoas(OCMP, types[TUINT32]), &n1, &n2);
p1 = gbranch(optoas(OGT, types[TUINT32]), T);
ginscall(throwindex, 0);
patch(p1, pc);
}
n1 = n3;
n1.op = OINDREG;
n1.type = types[tptr];
n1.xoffset = Array_array;
gmove(&n1, &n3);
} else
if(!debug['B'] && !n->etype) {
if(v < 0)
yyerror("out of bounds on array");
else
if(v >= nl->type->bound)
yyerror("out of bounds on array");
}
nodconst(&n2, types[tptr], v*w);
gins(optoas(OADD, types[tptr]), &n2, &n3);
gmove(&n3, res);
regfree(&n3);
break;
}
// type of the index
t = types[TUINT64];
if(issigned[n1.type->etype])
t = types[TINT64];
regalloc(&n2, t, &n1); // i
gmove(&n1, &n2);
regfree(&n1);
if(!debug['B'] && !n->etype) {
// check bounds
if(isslice(nl->type)) {
n1 = n3;
n1.op = OINDREG;
n1.type = types[tptr];
n1.xoffset = Array_nel;
} else
nodconst(&n1, types[TUINT64], nl->type->bound);
gins(optoas(OCMP, types[TUINT32]), &n2, &n1);
p1 = gbranch(optoas(OLT, types[TUINT32]), T);
ginscall(throwindex, 0);
patch(p1, pc);
}
if(isslice(nl->type)) {
n1 = n3;
n1.op = OINDREG;
n1.type = types[tptr];
n1.xoffset = Array_array;
gmove(&n1, &n3);
}
if(w == 1 || w == 2 || w == 4 || w == 8) {
p1 = gins(ALEAQ, &n2, &n3);
p1->from.scale = w;
p1->from.index = p1->from.type;
p1->from.type = p1->to.type + D_INDIR;
} else {
nodconst(&n1, t, w);
gins(optoas(OMUL, t), &n1, &n2);
gins(optoas(OADD, types[tptr]), &n2, &n3);
gmove(&n3, res);
}
gmove(&n3, res);
regfree(&n2);
regfree(&n3);
break;
case ONAME:
// should only get here with names in this func.
if(n->funcdepth > 0 && n->funcdepth != funcdepth) {
dump("bad agen", n);
fatal("agen: bad ONAME funcdepth %d != %d",
n->funcdepth, funcdepth);
}
// should only get here for heap vars or paramref
if(!(n->class & PHEAP) && n->class != PPARAMREF) {
dump("bad agen", n);
fatal("agen: bad ONAME class %#x", n->class);
}
cgen(n->heapaddr, res);
if(n->xoffset != 0) {
nodconst(&n1, types[TINT64], n->xoffset);
gins(optoas(OADD, types[tptr]), &n1, res);
}
break;
case OIND:
cgen(nl, res);
break;
case ODOT:
agen(nl, res);
if(n->xoffset != 0) {
nodconst(&n1, types[TINT64], n->xoffset);
gins(optoas(OADD, types[tptr]), &n1, res);
}
break;
case ODOTPTR:
cgen(nl, res);
if(n->xoffset != 0) {
// explicit check for nil if struct is large enough
// that we might derive too big a pointer.
if(nl->type->type->width >= unmappedzero) {
regalloc(&n1, types[tptr], res);
gmove(res, &n1);
n1.op = OINDREG;
n1.type = types[TUINT8];
n1.xoffset = 0;
gins(ATESTB, nodintconst(0), &n1);
regfree(&n1);
}
nodconst(&n1, types[TINT64], n->xoffset);
gins(optoas(OADD, types[tptr]), &n1, res);
}
break;
}
ret:
;
}
/*
* generate:
* res = n;
* simplifies and calls gmove.
*/
void
cgen(Node *n, Node *res)
{
Node *nl, *nr, *r;
Node n1, n2;
int a, f;
Prog *p1, *p2, *p3;
Addr addr;
if(debug['g']) {
dump("\ncgen-n", n);
dump("cgen-res", res);
}
if(n == N || n->type == T)
goto ret;
if(res == N || res->type == T)
fatal("cgen: res nil");
while(n->op == OCONVNOP)
n = n->left;
// inline slices
if(cgen_inline(n, res))
goto ret;
if(n->ullman >= UINF) {
if(n->op == OINDREG)
fatal("cgen: this is going to misscompile");
if(res->ullman >= UINF) {
tempname(&n1, n->type);
cgen(n, &n1);
cgen(&n1, res);
goto ret;
}
}
if(isfat(n->type)) {
sgen(n, res, n->type->width);
goto ret;
}
if(!res->addable) {
if(n->ullman > res->ullman) {
regalloc(&n1, n->type, res);
cgen(n, &n1);
if(n1.ullman > res->ullman) {
dump("n1", &n1);
dump("res", res);
fatal("loop in cgen");
}
cgen(&n1, res);
regfree(&n1);
goto ret;
}
if(res->ullman >= UINF)
goto gen;
if(complexop(n, res)) {
complexgen(n, res);
goto ret;
}
f = 1; // gen thru register
switch(n->op) {
case OLITERAL:
if(smallintconst(n))
f = 0;
break;
case OREGISTER:
f = 0;
break;
}
if(!iscomplex[n->type->etype]) {
a = optoas(OAS, res->type);
if(sudoaddable(a, res, &addr)) {
if(f) {
regalloc(&n2, res->type, N);
cgen(n, &n2);
p1 = gins(a, &n2, N);
regfree(&n2);
} else
p1 = gins(a, n, N);
p1->to = addr;
if(debug['g'])
print("%P [ignore previous line]\n", p1);
sudoclean();
goto ret;
}
}
gen:
igen(res, &n1, N);
cgen(n, &n1);
regfree(&n1);
goto ret;
}
// update addressability for string, slice
// can't do in walk because n->left->addable
// changes if n->left is an escaping local variable.
switch(n->op) {
case OLEN:
if(isslice(n->left->type) || istype(n->left->type, TSTRING))
n->addable = n->left->addable;
break;
case OCAP:
if(isslice(n->left->type))
n->addable = n->left->addable;
break;
}
if(complexop(n, res)) {
complexgen(n, res);
goto ret;
}
if(n->addable) {
gmove(n, res);
goto ret;
}
nl = n->left;
nr = n->right;
if(nl != N && nl->ullman >= UINF)
if(nr != N && nr->ullman >= UINF) {
tempname(&n1, nl->type);
cgen(nl, &n1);
n2 = *n;
n2.left = &n1;
cgen(&n2, res);
goto ret;
}
if(!iscomplex[n->type->etype]) {
a = optoas(OAS, n->type);
if(sudoaddable(a, n, &addr)) {
if(res->op == OREGISTER) {
p1 = gins(a, N, res);
p1->from = addr;
} else {
regalloc(&n2, n->type, N);
p1 = gins(a, N, &n2);
p1->from = addr;
gins(a, &n2, res);
regfree(&n2);
}
sudoclean();
goto ret;
}
}
switch(n->op) {
default:
dump("cgen", n);
fatal("cgen: unknown op %N", n);
break;
// these call bgen to get a bool value
case OOROR:
case OANDAND:
case OEQ:
case ONE:
case OLT:
case OLE:
case OGE:
case OGT:
case ONOT:
p1 = gbranch(AJMP, T);
p2 = pc;
gmove(nodbool(1), res);
p3 = gbranch(AJMP, T);
patch(p1, pc);
bgen(n, 1, p2);
gmove(nodbool(0), res);
patch(p3, pc);
goto ret;
case OPLUS:
cgen(nl, res);
goto ret;
// unary
case OCOM:
a = optoas(OXOR, nl->type);
regalloc(&n1, nl->type, N);
cgen(nl, &n1);
nodconst(&n2, nl->type, -1);
gins(a, &n2, &n1);
gmove(&n1, res);
regfree(&n1);
goto ret;
case OMINUS:
if(isfloat[nl->type->etype]) {
nr = nodintconst(-1);
convlit(&nr, n->type);
a = optoas(OMUL, nl->type);
goto sbop;
}
a = optoas(n->op, nl->type);
goto uop;
// symmetric binary
case OAND:
case OOR:
case OXOR:
case OADD:
case OMUL:
a = optoas(n->op, nl->type);
if(a != AIMULB)
goto sbop;
cgen_bmul(n->op, nl, nr, res);
break;
// asymmetric binary
case OSUB:
a = optoas(n->op, nl->type);
goto abop;
case OCONV:
regalloc(&n1, nl->type, res);
regalloc(&n2, n->type, &n1);
cgen(nl, &n1);
// if we do the conversion n1 -> n2 here
// reusing the register, then gmove won't
// have to allocate its own register.
gmove(&n1, &n2);
gmove(&n2, res);
regfree(&n2);
regfree(&n1);
break;
case ODOT:
case ODOTPTR:
case OINDEX:
case OIND:
case ONAME: // PHEAP or PPARAMREF var
igen(n, &n1, res);
gmove(&n1, res);
regfree(&n1);
break;
case OLEN:
if(istype(nl->type, TMAP) || istype(nl->type, TCHAN)) {
// map and chan have len in the first 32-bit word.
// a zero pointer means zero length
regalloc(&n1, types[tptr], res);
cgen(nl, &n1);
nodconst(&n2, types[tptr], 0);
gins(optoas(OCMP, types[tptr]), &n1, &n2);
p1 = gbranch(optoas(OEQ, types[tptr]), T);
n2 = n1;
n2.op = OINDREG;
n2.type = types[TINT32];
gmove(&n2, &n1);
patch(p1, pc);
gmove(&n1, res);
regfree(&n1);
break;
}
if(istype(nl->type, TSTRING) || isslice(nl->type)) {
// both slice and string have len one pointer into the struct.
// a zero pointer means zero length
regalloc(&n1, types[tptr], res);
agen(nl, &n1);
n1.op = OINDREG;
n1.type = types[TUINT32];
n1.xoffset = Array_nel;
gmove(&n1, res);
regfree(&n1);
break;
}
fatal("cgen: OLEN: unknown type %lT", nl->type);
break;
case OCAP:
if(istype(nl->type, TCHAN)) {
// chan has cap in the second 32-bit word.
// a zero pointer means zero length
regalloc(&n1, types[tptr], res);
cgen(nl, &n1);
nodconst(&n2, types[tptr], 0);
gins(optoas(OCMP, types[tptr]), &n1, &n2);
p1 = gbranch(optoas(OEQ, types[tptr]), T);
n2 = n1;
n2.op = OINDREG;
n2.xoffset = 4;
n2.type = types[TINT32];
gmove(&n2, &n1);
patch(p1, pc);
gmove(&n1, res);
regfree(&n1);
break;
}
if(isslice(nl->type)) {
regalloc(&n1, types[tptr], res);
agen(nl, &n1);
n1.op = OINDREG;
n1.type = types[TUINT32];
n1.xoffset = Array_cap;
gmove(&n1, res);
regfree(&n1);
break;
}
fatal("cgen: OCAP: unknown type %lT", nl->type);
break;
case OADDR:
agen(nl, res);
break;
case OCALLMETH:
cgen_callmeth(n, 0);
cgen_callret(n, res);
break;
case OCALLINTER:
cgen_callinter(n, res, 0);
cgen_callret(n, res);
break;
case OCALLFUNC:
cgen_call(n, 0);
cgen_callret(n, res);
break;
case OMOD:
case ODIV:
if(isfloat[n->type->etype]) {
a = optoas(n->op, nl->type);
goto abop;
}
cgen_div(n->op, nl, nr, res);
break;
case OLSH:
case ORSH:
cgen_shift(n->op, nl, nr, res);
break;
}
goto ret;
sbop: // symmetric binary
if(nl->ullman < nr->ullman) {
r = nl;
nl = nr;
nr = r;
}
abop: // asymmetric binary
if(nl->ullman >= nr->ullman) {
regalloc(&n1, nl->type, res);
cgen(nl, &n1);
if(sudoaddable(a, nr, &addr)) {
p1 = gins(a, N, &n1);
p1->from = addr;
gmove(&n1, res);
sudoclean();
regfree(&n1);
goto ret;
}
regalloc(&n2, nr->type, N);
cgen(nr, &n2);
} else {
regalloc(&n2, nr->type, N);
cgen(nr, &n2);
regalloc(&n1, nl->type, res);
cgen(nl, &n1);
}
gins(a, &n2, &n1);
gmove(&n1, res);
regfree(&n1);
regfree(&n2);
goto ret;
uop: // unary
regalloc(&n1, nl->type, res);
cgen(nl, &n1);
gins(a, N, &n1);
gmove(&n1, res);
regfree(&n1);
goto ret;
ret:
;
}
