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|
// 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.
#include <u.h>
#include <libc.h>
#include "go.h"
enum
{
Snorm = 0,
Strue,
Sfalse,
Stype,
Tdefault, // default case
Texprconst, // normal constant case
Texprvar, // normal variable case
Ttypenil, // case nil
Ttypeconst, // type hashes
Ttypevar, // interface type
Ncase = 4, // count needed to split
};
typedef struct Case Case;
struct Case
{
Node* node; // points at case statement
uint32 hash; // hash of a type switch
uint8 type; // type of case
uint8 diag; // suppress multiple diagnostics
uint16 ordinal; // position in switch
Case* link; // linked list to link
};
#define C ((Case*)nil)
void
dumpcase(Case *c0)
{
Case *c;
for(c=c0; c!=C; c=c->link) {
switch(c->type) {
case Tdefault:
print("case-default\n");
print(" ord=%d\n", c->ordinal);
break;
case Texprconst:
print("case-exprconst\n");
print(" ord=%d\n", c->ordinal);
break;
case Texprvar:
print("case-exprvar\n");
print(" ord=%d\n", c->ordinal);
print(" op=%O\n", c->node->left->op);
break;
case Ttypenil:
print("case-typenil\n");
print(" ord=%d\n", c->ordinal);
break;
case Ttypeconst:
print("case-typeconst\n");
print(" ord=%d\n", c->ordinal);
print(" hash=%ux\n", c->hash);
break;
case Ttypevar:
print("case-typevar\n");
print(" ord=%d\n", c->ordinal);
break;
default:
print("case-???\n");
print(" ord=%d\n", c->ordinal);
print(" op=%O\n", c->node->left->op);
print(" hash=%ux\n", c->hash);
break;
}
}
print("\n");
}
static int
ordlcmp(Case *c1, Case *c2)
{
// sort default first
if(c1->type == Tdefault)
return -1;
if(c2->type == Tdefault)
return +1;
// sort nil second
if(c1->type == Ttypenil)
return -1;
if(c2->type == Ttypenil)
return +1;
// sort by ordinal
if(c1->ordinal > c2->ordinal)
return +1;
if(c1->ordinal < c2->ordinal)
return -1;
return 0;
}
static int
exprcmp(Case *c1, Case *c2)
{
int ct, n;
Node *n1, *n2;
// sort non-constants last
if(c1->type != Texprconst)
return +1;
if(c2->type != Texprconst)
return -1;
n1 = c1->node->left;
n2 = c2->node->left;
// sort by type (for switches on interface)
ct = n1->val.ctype;
if(ct != n2->val.ctype)
return ct - n2->val.ctype;
if(!eqtype(n1->type, n2->type)) {
if(n1->type->vargen > n2->type->vargen)
return +1;
else
return -1;
}
// sort by constant value
n = 0;
switch(ct) {
case CTFLT:
n = mpcmpfltflt(n1->val.u.fval, n2->val.u.fval);
break;
case CTINT:
case CTRUNE:
n = mpcmpfixfix(n1->val.u.xval, n2->val.u.xval);
break;
case CTSTR:
n = cmpslit(n1, n2);
break;
}
return n;
}
static int
typecmp(Case *c1, Case *c2)
{
// sort non-constants last
if(c1->type != Ttypeconst)
return +1;
if(c2->type != Ttypeconst)
return -1;
// sort by hash code
if(c1->hash > c2->hash)
return +1;
if(c1->hash < c2->hash)
return -1;
// sort by ordinal so duplicate error
// happens on later case.
if(c1->ordinal > c2->ordinal)
return +1;
if(c1->ordinal < c2->ordinal)
return -1;
return 0;
}
static Case*
csort(Case *l, int(*f)(Case*, Case*))
{
Case *l1, *l2, *le;
if(l == C || l->link == C)
return l;
l1 = l;
l2 = l;
for(;;) {
l2 = l2->link;
if(l2 == C)
break;
l2 = l2->link;
if(l2 == C)
break;
l1 = l1->link;
}
l2 = l1->link;
l1->link = C;
l1 = csort(l, f);
l2 = csort(l2, f);
/* set up lead element */
if((*f)(l1, l2) < 0) {
l = l1;
l1 = l1->link;
} else {
l = l2;
l2 = l2->link;
}
le = l;
for(;;) {
if(l1 == C) {
while(l2) {
le->link = l2;
le = l2;
l2 = l2->link;
}
le->link = C;
break;
}
if(l2 == C) {
while(l1) {
le->link = l1;
le = l1;
l1 = l1->link;
}
break;
}
if((*f)(l1, l2) < 0) {
le->link = l1;
le = l1;
l1 = l1->link;
} else {
le->link = l2;
le = l2;
l2 = l2->link;
}
}
le->link = C;
return l;
}
static Node*
newlabel(void)
{
static int label;
label++;
snprint(namebuf, sizeof(namebuf), "%.6d", label);
return newname(lookup(namebuf));
}
/*
* build separate list of statements and cases
* make labels between cases and statements
* deal with fallthrough, break, unreachable statements
*/
static void
casebody(Node *sw, Node *typeswvar)
{
Node *n, *c, *last;
Node *def;
NodeList *cas, *stat, *l, *lc;
Node *go, *br;
int32 lno, needvar;
if(sw->list == nil)
return;
lno = setlineno(sw);
cas = nil; // cases
stat = nil; // statements
def = N; // defaults
br = nod(OBREAK, N, N);
for(l=sw->list; l; l=l->next) {
n = l->n;
setlineno(n);
if(n->op != OXCASE)
fatal("casebody %O", n->op);
n->op = OCASE;
needvar = count(n->list) != 1 || n->list->n->op == OLITERAL;
go = nod(OGOTO, newlabel(), N);
if(n->list == nil) {
if(def != N)
yyerror("more than one default case");
// reuse original default case
n->right = go;
def = n;
}
if(n->list != nil && n->list->next == nil) {
// one case - reuse OCASE node.
c = n->list->n;
n->left = c;
n->right = go;
n->list = nil;
cas = list(cas, n);
} else {
// expand multi-valued cases
for(lc=n->list; lc; lc=lc->next) {
c = lc->n;
cas = list(cas, nod(OCASE, c, go));
}
}
stat = list(stat, nod(OLABEL, go->left, N));
if(typeswvar && needvar && n->nname != N) {
NodeList *l;
l = list1(nod(ODCL, n->nname, N));
l = list(l, nod(OAS, n->nname, typeswvar));
typechecklist(l, Etop);
stat = concat(stat, l);
}
stat = concat(stat, n->nbody);
// botch - shouldn't fall thru declaration
last = stat->end->n;
if(last->op == OXFALL) {
if(typeswvar) {
setlineno(last);
yyerror("cannot fallthrough in type switch");
}
if(l->next == nil) {
setlineno(last);
yyerror("cannot fallthrough final case in switch");
}
last->op = OFALL;
} else
stat = list(stat, br);
}
stat = list(stat, br);
if(def)
cas = list(cas, def);
sw->list = cas;
sw->nbody = stat;
lineno = lno;
}
static Case*
mkcaselist(Node *sw, int arg)
{
Node *n;
Case *c, *c1, *c2;
NodeList *l;
int ord;
c = C;
ord = 0;
for(l=sw->list; l; l=l->next) {
n = l->n;
c1 = mal(sizeof(*c1));
c1->link = c;
c = c1;
ord++;
if((uint16)ord != ord)
fatal("too many cases in switch");
c->ordinal = ord;
c->node = n;
if(n->left == N) {
c->type = Tdefault;
continue;
}
switch(arg) {
case Stype:
c->hash = 0;
if(n->left->op == OLITERAL) {
c->type = Ttypenil;
continue;
}
if(istype(n->left->type, TINTER)) {
c->type = Ttypevar;
continue;
}
c->hash = typehash(n->left->type);
c->type = Ttypeconst;
continue;
case Snorm:
case Strue:
case Sfalse:
c->type = Texprvar;
c->hash = typehash(n->left->type);
switch(consttype(n->left)) {
case CTFLT:
case CTINT:
case CTRUNE:
case CTSTR:
c->type = Texprconst;
}
continue;
}
}
if(c == C)
return C;
// sort by value and diagnose duplicate cases
switch(arg) {
case Stype:
c = csort(c, typecmp);
for(c1=c; c1!=C; c1=c1->link) {
for(c2=c1->link; c2!=C && c2->hash==c1->hash; c2=c2->link) {
if(c1->type == Ttypenil || c1->type == Tdefault)
break;
if(c2->type == Ttypenil || c2->type == Tdefault)
break;
if(!eqtype(c1->node->left->type, c2->node->left->type))
continue;
yyerrorl(c2->node->lineno, "duplicate case %T in type switch\n\tprevious case at %L", c2->node->left->type, c1->node->lineno);
}
}
break;
case Snorm:
case Strue:
case Sfalse:
c = csort(c, exprcmp);
for(c1=c; c1->link!=C; c1=c1->link) {
if(exprcmp(c1, c1->link) != 0)
continue;
setlineno(c1->link->node);
yyerror("duplicate case %N in switch\n\tprevious case at %L", c1->node->left, c1->node->lineno);
}
break;
}
// put list back in processing order
c = csort(c, ordlcmp);
return c;
}
static Node* exprname;
static Node*
exprbsw(Case *c0, int ncase, int arg)
{
NodeList *cas;
Node *a, *n;
Case *c;
int i, half, lno;
cas = nil;
if(ncase < Ncase) {
for(i=0; i<ncase; i++) {
n = c0->node;
lno = setlineno(n);
if(assignop(n->left->type, exprname->type, nil) == OCONVIFACE ||
assignop(exprname->type, n->left->type, nil) == OCONVIFACE)
goto snorm;
switch(arg) {
case Strue:
a = nod(OIF, N, N);
a->ntest = n->left; // if val
a->nbody = list1(n->right); // then goto l
break;
case Sfalse:
a = nod(OIF, N, N);
a->ntest = nod(ONOT, n->left, N); // if !val
typecheck(&a->ntest, Erv);
a->nbody = list1(n->right); // then goto l
break;
default:
snorm:
a = nod(OIF, N, N);
a->ntest = nod(OEQ, exprname, n->left); // if name == val
typecheck(&a->ntest, Erv);
a->nbody = list1(n->right); // then goto l
break;
}
cas = list(cas, a);
c0 = c0->link;
lineno = lno;
}
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, exprname, c->node->left);
typecheck(&a->ntest, Erv);
a->nbody = list1(exprbsw(c0, half, arg));
a->nelse = list1(exprbsw(c->link, ncase-half, arg));
return a;
}
/*
* normal (expression) switch.
* rebulid case statements into if .. goto
*/
static void
exprswitch(Node *sw)
{
Node *def;
NodeList *cas;
Node *a;
Case *c0, *c, *c1;
Type *t;
int arg, ncase;
casebody(sw, N);
arg = Snorm;
if(isconst(sw->ntest, CTBOOL)) {
arg = Strue;
if(sw->ntest->val.u.bval == 0)
arg = Sfalse;
}
walkexpr(&sw->ntest, &sw->ninit);
t = sw->type;
if(t == T)
return;
/*
* convert the switch into OIF statements
*/
exprname = N;
cas = nil;
if(arg != Strue && arg != Sfalse) {
exprname = temp(sw->ntest->type);
cas = list1(nod(OAS, exprname, sw->ntest));
typechecklist(cas, Etop);
} else {
exprname = nodbool(arg == Strue);
}
c0 = mkcaselist(sw, arg);
if(c0 != C && c0->type == Tdefault) {
def = c0->node->right;
c0 = c0->link;
} else {
def = nod(OBREAK, N, N);
}
loop:
if(c0 == C) {
cas = list(cas, def);
sw->nbody = concat(cas, sw->nbody);
sw->list = nil;
walkstmtlist(sw->nbody);
return;
}
// deal with the variables one-at-a-time
if(!okforcmp[t->etype] || c0->type != Texprconst) {
a = exprbsw(c0, 1, arg);
cas = list(cas, a);
c0 = c0->link;
goto loop;
}
// do binary search on run of constants
ncase = 1;
for(c=c0; c->link!=C; c=c->link) {
if(c->link->type != Texprconst)
break;
ncase++;
}
// break the chain at the count
c1 = c->link;
c->link = C;
// sort and compile constants
c0 = csort(c0, exprcmp);
a = exprbsw(c0, ncase, arg);
cas = list(cas, a);
c0 = c1;
goto loop;
}
static Node* hashname;
static Node* facename;
static Node* boolname;
static Node*
typeone(Node *t)
{
NodeList *init;
Node *a, *b, *var;
var = t->nname;
init = nil;
if(var == N) {
typecheck(&nblank, Erv | Easgn);
var = nblank;
} else
init = list1(nod(ODCL, var, N));
a = nod(OAS2, N, N);
a->list = list(list1(var), boolname); // var,bool =
b = nod(ODOTTYPE, facename, N);
b->type = t->left->type; // interface.(type)
a->rlist = list1(b);
typecheck(&a, Etop);
init = list(init, a);
b = nod(OIF, N, N);
b->ntest = boolname;
b->nbody = list1(t->right); // if bool { goto l }
a = liststmt(list(init, b));
return a;
}
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;
}
/*
* convert switch of the form
* switch v := i.(type) { case t1: ..; case t2: ..; }
* into if statements
*/
static void
typeswitch(Node *sw)
{
Node *def;
NodeList *cas, *hash;
Node *a, *n;
Case *c, *c0, *c1;
int ncase;
Type *t;
Val v;
if(sw->ntest == nil)
return;
if(sw->ntest->right == nil) {
setlineno(sw);
yyerror("type switch must have an assignment");
return;
}
walkexpr(&sw->ntest->right, &sw->ninit);
if(!istype(sw->ntest->right->type, TINTER)) {
yyerror("type switch must be on an interface");
return;
}
cas = nil;
/*
* predeclare temporary variables
* and the boolean var
*/
facename = temp(sw->ntest->right->type);
a = nod(OAS, facename, sw->ntest->right);
typecheck(&a, Etop);
cas = list(cas, a);
casebody(sw, facename);
boolname = temp(types[TBOOL]);
typecheck(&boolname, Erv);
hashname = temp(types[TUINT32]);
typecheck(&hashname, Erv);
t = sw->ntest->right->type;
if(isnilinter(t))
a = syslook("efacethash", 1);
else
a = syslook("ifacethash", 1);
argtype(a, t);
a = nod(OCALL, a, N);
a->list = list1(facename);
a = nod(OAS, hashname, a);
typecheck(&a, Etop);
cas = list(cas, a);
c0 = mkcaselist(sw, Stype);
if(c0 != C && c0->type == Tdefault) {
def = c0->node->right;
c0 = c0->link;
} else {
def = nod(OBREAK, N, N);
}
/*
* insert if statement into each case block
*/
for(c=c0; c!=C; c=c->link) {
n = c->node;
switch(c->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 }
n->right = a;
break;
case Ttypevar:
case Ttypeconst:
n->right = typeone(n);
break;
}
}
/*
* generate list of if statements, binary search for constant sequences
*/
while(c0 != C) {
if(c0->type != Ttypeconst) {
n = c0->node;
cas = list(cas, n->right);
c0=c0->link;
continue;
}
// identify run of constants
c1 = c = c0;
while(c->link!=C && c->link->type==Ttypeconst)
c = c->link;
c0 = c->link;
c->link = nil;
// sort by hash
c1 = csort(c1, typecmp);
// for debugging: linear search
if(0) {
for(c=c1; c!=C; c=c->link) {
n = c->node;
cas = list(cas, n->right);
}
continue;
}
// combine adjacent cases with the same hash
ncase = 0;
for(c=c1; c!=C; c=c->link) {
ncase++;
hash = list1(c->node->right);
while(c->link != C && c->link->hash == c->hash) {
hash = list(hash, c->link->node->right);
c->link = c->link->link;
}
c->node->right = liststmt(hash);
}
// binary search among cases to narrow by hash
cas = list(cas, typebsw(c1, ncase));
}
if(nerrors == 0) {
cas = list(cas, def);
sw->nbody = concat(cas, sw->nbody);
sw->list = nil;
walkstmtlist(sw->nbody);
}
}
void
walkswitch(Node *sw)
{
/*
* reorder the body into (OLIST, cases, statements)
* cases have OGOTO into statements.
* both have inserted OBREAK statements
*/
if(sw->ntest == N) {
sw->ntest = nodbool(1);
typecheck(&sw->ntest, Erv);
}
if(sw->ntest->op == OTYPESW) {
typeswitch(sw);
//dump("sw", sw);
return;
}
exprswitch(sw);
// Discard old AST elements after a walk. They can confuse racewealk.
sw->ntest = nil;
sw->list = nil;
}
/*
* type check switch statement
*/
void
typecheckswitch(Node *n)
{
int top, lno, ptr;
char *nilonly;
Type *t, *badtype, *missing, *have;
NodeList *l, *ll;
Node *ncase, *nvar;
Node *def;
lno = lineno;
typechecklist(n->ninit, Etop);
nilonly = nil;
if(n->ntest != N && n->ntest->op == OTYPESW) {
// type switch
top = Etype;
typecheck(&n->ntest->right, Erv);
t = n->ntest->right->type;
if(t != T && t->etype != TINTER)
yyerror("cannot type switch on non-interface value %lN", n->ntest->right);
} else {
// value switch
top = Erv;
if(n->ntest) {
typecheck(&n->ntest, Erv);
defaultlit(&n->ntest, T);
t = n->ntest->type;
} else
t = types[TBOOL];
if(t) {
if(!okforeq[t->etype])
yyerror("cannot switch on %lN", n->ntest);
else if(t->etype == TARRAY && !isfixedarray(t))
nilonly = "slice";
else if(t->etype == TARRAY && isfixedarray(t) && algtype1(t, nil) == ANOEQ)
yyerror("cannot switch on %lN", n->ntest);
else if(t->etype == TSTRUCT && algtype1(t, &badtype) == ANOEQ)
yyerror("cannot switch on %lN (struct containing %T cannot be compared)", n->ntest, badtype);
else if(t->etype == TFUNC)
nilonly = "func";
else if(t->etype == TMAP)
nilonly = "map";
}
}
n->type = t;
def = N;
for(l=n->list; l; l=l->next) {
ncase = l->n;
setlineno(n);
if(ncase->list == nil) {
// default
if(def != N)
yyerror("multiple defaults in switch (first at %L)", def->lineno);
else
def = ncase;
} else {
for(ll=ncase->list; ll; ll=ll->next) {
setlineno(ll->n);
typecheck(&ll->n, Erv | Etype);
if(ll->n->type == T || t == T)
continue;
setlineno(ncase);
switch(top) {
case Erv: // expression switch
defaultlit(&ll->n, t);
if(ll->n->op == OTYPE)
yyerror("type %T is not an expression", ll->n->type);
else if(ll->n->type != T && !assignop(ll->n->type, t, nil) && !assignop(t, ll->n->type, nil)) {
if(n->ntest)
yyerror("invalid case %N in switch on %N (mismatched types %T and %T)", ll->n, n->ntest, ll->n->type, t);
else
yyerror("invalid case %N in switch (mismatched types %T and bool)", ll->n, ll->n->type);
} else if(nilonly && !isconst(ll->n, CTNIL)) {
yyerror("invalid case %N in switch (can only compare %s %N to nil)", ll->n, nilonly, n->ntest);
}
break;
case Etype: // type switch
if(ll->n->op == OLITERAL && istype(ll->n->type, TNIL)) {
;
} else if(ll->n->op != OTYPE && ll->n->type != T) { // should this be ||?
yyerror("%lN is not a type", ll->n);
// reset to original type
ll->n = n->ntest->right;
} else if(ll->n->type->etype != TINTER && t->etype == TINTER && !implements(ll->n->type, t, &missing, &have, &ptr)) {
if(have && !missing->broke && !have->broke)
yyerror("impossible type switch case: %lN cannot have dynamic type %T"
" (wrong type for %S method)\n\thave %S%hT\n\twant %S%hT",
n->ntest->right, ll->n->type, missing->sym, have->sym, have->type,
missing->sym, missing->type);
else if(!missing->broke)
yyerror("impossible type switch case: %lN cannot have dynamic type %T"
" (missing %S method)", n->ntest->right, ll->n->type, missing->sym);
}
break;
}
}
}
if(top == Etype && n->type != T) {
ll = ncase->list;
nvar = ncase->nname;
if(nvar != N) {
if(ll && ll->next == nil && ll->n->type != T && !istype(ll->n->type, TNIL)) {
// single entry type switch
nvar->ntype = typenod(ll->n->type);
} else {
// multiple entry type switch or default
nvar->ntype = typenod(n->type);
}
}
}
typechecklist(ncase->nbody, Etop);
}
lineno = lno;
}
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