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go / go / d97bbabbaaeb28e374267c19aae5072d356c1353 / . / src / cmd / gc / typecheck.c
blob: d6df9ddb4f0ab89da75785bef93e6647d62c6ae3 [file] [log] [blame]
// 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.
/*
* type check the whole tree of an expression.
* calculates expression types.
* evaluates compile time constants.
* marks variables that escape the local frame.
* rewrites n->op to be more specific in some cases.
* sets n->walk to walking function.
*
* TODO:
* trailing ... section of function calls
*/
#include "go.h"
static void implicitstar(Node**);
static int onearg(Node*);
static int twoarg(Node*);
static int lookdot(Node*, Type*, int);
static void typecheckaste(int, Type*, NodeList*, char*);
static int exportassignok(Type*, char*);
static Type* lookdot1(Sym *s, Type *t, Type *f, int);
static int nokeys(NodeList*);
static void typecheckcomplit(Node**);
static void addrescapes(Node*);
static void typecheckas2(Node*);
static void typecheckas(Node*);
static void typecheckfunc(Node*);
static void checklvalue(Node*, char*);
static void checkassign(Node*);
static void checkassignlist(NodeList*);
static void toslice(Node**);
static void stringtoarraylit(Node**);
void
typechecklist(NodeList *l, int top)
{
for(; l; l=l->next)
typecheck(&l->n, top);
}
/*
* type check node *np.
* replaces *np with a new pointer in some cases.
* returns the final value of *np as a convenience.
*/
Node*
typecheck(Node **np, int top)
{
int et, op;
Node *n, *l, *r;
NodeList *args;
int lno, ok, ntop;
Type *t;
Sym *sym;
Val v;
// cannot type check until all the source has been parsed
if(!typecheckok)
fatal("early typecheck");
n = *np;
if(n == N)
return N;
// Skip typecheck if already done.
// But re-typecheck ONAME/OTYPE/OLITERAL/OPACK node in case context has changed.
if(n->typecheck == 1) {
switch(n->op) {
case ONAME:
case OTYPE:
case OLITERAL:
case OPACK:
break;
default:
return n;
}
}
if(n->typecheck == 2) {
yyerror("typechecking loop");
return n;
}
n->typecheck = 2;
redo:
lno = setlineno(n);
if(n->sym) {
walkdef(n);
if(n->op == ONONAME)
goto error;
}
reswitch:
ok = 0;
switch(n->op) {
default:
// until typecheck is complete, do nothing.
dump("typecheck", n);
fatal("typecheck %O", n->op);
/*
* names
*/
case OLITERAL:
ok |= Erv;
if(n->type == T && n->val.ctype == CTSTR)
n->type = idealstring;
goto ret;
case ONONAME:
ok |= Erv;
goto ret;
case ONAME:
if(n->etype != 0) {
ok |= Ecall;
goto ret;
}
if(!(top & Easgn)) {
// not a write to the variable
if(isblank(n)) {
yyerror("cannot use _ as value");
goto error;
}
n->used = 1;
}
ok |= Erv;
goto ret;
case OPACK:
yyerror("use of package %S not in selector", n->sym);
goto error;
case OIOTA:
// looked like iota during parsing but might
// have been redefined. decide.
if(n->left->op != ONONAME)
n = n->left;
else
n = n->right;
goto redo;
case ODDD:
break;
/*
* types (OIND is with exprs)
*/
case OTYPE:
ok |= Etype;
if(n->type == T)
goto error;
break;
case OTARRAY:
ok |= Etype;
t = typ(TARRAY);
l = n->left;
r = n->right;
if(l == nil) {
t->bound = -1; // slice
} else if(l->op == ODDD) {
t->bound = -100; // to be filled in
} else {
l = typecheck(&n->left, Erv);
switch(consttype(l)) {
case CTINT:
v = l->val;
break;
case CTFLT:
v = toint(l->val);
break;
default:
yyerror("invalid array bound %#N", l);
goto error;
}
t->bound = mpgetfix(v.u.xval);
if(t->bound < 0) {
yyerror("array bound must be non-negative");
goto error;
} else
overflow(v, types[TINT]);
}
typecheck(&r, Etype);
if(r->type == T)
goto error;
t->type = r->type;
n->op = OTYPE;
n->type = t;
n->left = N;
n->right = N;
if(t->bound != -100)
checkwidth(t);
break;
case OTMAP:
ok |= Etype;
l = typecheck(&n->left, Etype);
r = typecheck(&n->right, Etype);
if(l->type == T || r->type == T)
goto error;
n->op = OTYPE;
n->type = maptype(l->type, r->type);
n->left = N;
n->right = N;
break;
case OTCHAN:
ok |= Etype;
l = typecheck(&n->left, Etype);
if(l->type == T)
goto error;
t = typ(TCHAN);
t->type = l->type;
t->chan = n->etype;
n->op = OTYPE;
n->type = t;
n->left = N;
n->etype = 0;
break;
case OTSTRUCT:
ok |= Etype;
n->op = OTYPE;
n->type = dostruct(n->list, TSTRUCT);
if(n->type == T)
goto error;
n->list = nil;
break;
case OTINTER:
ok |= Etype;
n->op = OTYPE;
n->type = dostruct(n->list, TINTER);
if(n->type == T)
goto error;
n->type = sortinter(n->type);
break;
case OTFUNC:
ok |= Etype;
n->op = OTYPE;
n->type = functype(n->left, n->list, n->rlist);
if(n->type == T)
goto error;
break;
/*
* type or expr
*/
case OIND:
ntop = Erv | Etype;
if(!(top & Eaddr))
ntop |= Eindir;
l = typecheck(&n->left, ntop);
if((t = l->type) == T)
goto error;
if(l->op == OTYPE) {
ok |= Etype;
n->op = OTYPE;
n->type = ptrto(l->type);
n->left = N;
goto ret;
}
if(!isptr[t->etype]) {
yyerror("invalid indirect of %+N", n->left);
goto error;
}
ok |= Erv;
n->type = t->type;
goto ret;
/*
* arithmetic exprs
*/
case OASOP:
ok |= Etop;
l = typecheck(&n->left, Erv);
checkassign(n->left);
r = typecheck(&n->right, Erv);
if(l->type == T || r->type == T)
goto error;
op = n->etype;
goto arith;
case OADD:
case OAND:
case OANDAND:
case OANDNOT:
case ODIV:
case OEQ:
case OGE:
case OGT:
case OLE:
case OLT:
case OLSH:
case ORSH:
case OMOD:
case OMUL:
case ONE:
case OOR:
case OOROR:
case OSUB:
case OXOR:
ok |= Erv;
l = typecheck(&n->left, Erv | (top & Eiota));
r = typecheck(&n->right, Erv | (top & Eiota));
if(l->type == T || r->type == T)
goto error;
op = n->op;
arith:
if(op == OLSH || op == ORSH)
goto shift;
// ideal mixed with non-ideal
defaultlit2(&l, &r, 0);
n->left = l;
n->right = r;
if(l->type == T || r->type == T)
goto error;
t = l->type;
if(t->etype == TIDEAL)
t = r->type;
et = t->etype;
if(et == TIDEAL)
et = TINT;
if(t->etype != TIDEAL && !eqtype(l->type, r->type)) {
badbinary:
defaultlit2(&l, &r, 1);
yyerror("invalid operation: %#N (type %T %#O %T)", n, l->type, op, r->type);
goto error;
}
if(!okfor[op][et])
goto badbinary;
// okfor allows any array == array;
// restrict to slice == nil and nil == slice.
if(l->type->etype == TARRAY && !isslice(l->type))
goto badbinary;
if(r->type->etype == TARRAY && !isslice(r->type))
goto badbinary;
if(isslice(l->type) && !isnil(l) && !isnil(r))
goto badbinary;
t = l->type;
if(iscmp[n->op]) {
evconst(n);
t = types[TBOOL];
if(n->op != OLITERAL) {
defaultlit2(&l, &r, 1);
n->left = l;
n->right = r;
}
}
if(et == TSTRING) {
if(iscmp[n->op]) {
n->etype = n->op;
n->op = OCMPSTR;
} else if(n->op == OADD)
n->op = OADDSTR;
}
if(et == TINTER) {
if(l->op == OLITERAL && l->val.ctype == CTNIL) {
// swap for back end
n->left = r;
n->right = l;
} else if(r->op == OLITERAL && r->val.ctype == CTNIL) {
// leave alone for back end
} else {
n->etype = n->op;
n->op = OCMPIFACE;
}
}
n->type = t;
goto ret;
shift:
defaultlit(&r, types[TUINT]);
n->right = r;
t = r->type;
if(!isint[t->etype] || issigned[t->etype]) {
yyerror("invalid operation: %#N (shift count type %T)", n, r->type);
goto error;
}
t = l->type;
if(t != T && t->etype != TIDEAL && !isint[t->etype]) {
yyerror("invalid operation: %#N (shift of type %T)", n, t);
goto error;
}
// no defaultlit for left
// the outer context gives the type
n->type = l->type;
goto ret;
case OCOM:
case OMINUS:
case ONOT:
case OPLUS:
ok |= Erv;
l = typecheck(&n->left, Erv | (top & Eiota));
if((t = l->type) == T)
goto error;
if(!okfor[n->op][t->etype]) {
yyerror("invalid operation: %#O %T", n->op, t);
goto error;
}
n->type = t;
goto ret;
/*
* exprs
*/
case OADDR:
ok |= Erv;
typecheck(&n->left, Erv | Eaddr);
if(n->left->type == T)
goto error;
switch(n->left->op) {
case OMAPLIT:
case OSTRUCTLIT:
case OARRAYLIT:
break;
default:
checklvalue(n->left, "take the address of");
}
defaultlit(&n->left, T);
l = n->left;
if((t = l->type) == T)
goto error;
if(!(top & Eindir))
addrescapes(n->left);
n->type = ptrto(t);
goto ret;
case OCOMPLIT:
ok |= Erv;
typecheckcomplit(&n);
if(n->type == T)
goto error;
goto ret;
case OXDOT:
n = adddot(n);
n->op = ODOT;
// fall through
case ODOT:
typecheck(&n->left, Erv|Etype);
defaultlit(&n->left, T);
l = n->left;
if((t = l->type) == T)
goto error;
if(n->right->op != ONAME) {
yyerror("rhs of . must be a name"); // impossible
goto error;
}
if(isptr[t->etype]) {
t = t->type;
if(t == T)
goto error;
n->op = ODOTPTR;
checkwidth(t);
}
sym = n->right->sym;
if(!lookdot(n, t, 0)) {
if(lookdot(n, t, 1))
yyerror("%#N undefined (cannot refer to unexported field %S)", n, n->right->sym);
else
yyerror("%#N undefined (type %T has no field %S)", n, t, n->right->sym);
goto error;
}
if(l->op == OTYPE) {
if(n->type->etype != TFUNC || n->type->thistuple != 1) {
yyerror("type %T has no method %hS", n->left->type, sym);
n->type = T;
goto error;
}
if(t->etype == TINTER) {
yyerror("method expression on interface not implemented");
n->type = T;
goto error;
}
n->op = ONAME;
n->sym = methodsym(sym, l->type);
n->type = methodfunc(n->type, 1);
n->xoffset = 0;
getinargx(n->type)->type->type = l->type; // fix up receiver
n->class = PFUNC;
ok = Erv;
goto ret;
}
switch(n->op) {
case ODOTINTER:
case ODOTMETH:
ok |= Ecall;
break;
default:
ok |= Erv;
break;
}
goto ret;
case ODOTTYPE:
ok |= Erv;
typecheck(&n->left, Erv);
defaultlit(&n->left, T);
l = n->left;
if((t = l->type) == T)
goto error;
if(!isinter(t)) {
yyerror("invalid type assertion: %#N (non-interface type %T on left)", n, t);
goto error;
}
if(n->right != N) {
typecheck(&n->right, Etype);
n->type = n->right->type;
n->right = N;
if(n->type == T)
goto error;
}
goto ret;
case OINDEX:
ok |= Erv;
typecheck(&n->left, Erv);
defaultlit(&n->left, T);
implicitstar(&n->left);
l = n->left;
typecheck(&n->right, Erv);
r = n->right;
if((t = l->type) == T || r->type == T)
goto error;
switch(t->etype) {
default:
yyerror("invalid operation: %#N (index of type %T)", n, t);
goto error;
case TARRAY:
defaultlit(&n->right, types[TUINT]);
if(n->right->type != T && !isint[n->right->type->etype])
yyerror("non-integer array index %#N", n->right);
n->type = t->type;
break;
case TMAP:
n->etype = 0;
defaultlit(&n->right, t->down);
if(n->right->type != T && !eqtype(n->right->type, t->down))
yyerror("invalid map index %#N - need type %T", n->right, t->down);
n->type = t->type;
n->op = OINDEXMAP;
break;
case TSTRING:
defaultlit(&n->right, types[TUINT]);
if(n->right->type != T && !isint[n->right->type->etype])
yyerror("non-integer string index %#N", n->right);
n->type = types[TUINT8];
n->op = OINDEXSTR;
break;
}
goto ret;
case ORECV:
ok |= Etop | Erv;
typecheck(&n->left, Erv);
defaultlit(&n->left, T);
l = n->left;
if((t = l->type) == T)
goto error;
if(t->etype != TCHAN) {
yyerror("invalid operation: %#N (receive from non-chan type %T)", n, t);
goto error;
}
if(!(t->chan & Crecv)) {
yyerror("invalid operation: %#N (receive from send-only type %T)", n, t);
goto error;
}
n->type = t->type;
goto ret;
case OSEND:
ok |= Etop | Erv;
l = typecheck(&n->left, Erv);
typecheck(&n->right, Erv);
defaultlit(&n->left, T);
l = n->left;
if((t = l->type) == T)
goto error;
if(!(t->chan & Csend)) {
yyerror("invalid operation: %#N (send to receive-only type %T)", n, t);
goto error;
}
defaultlit(&n->right, t->type);
r = n->right;
if((t = r->type) == T)
goto error;
// TODO: more aggressive
n->etype = 0;
n->type = T;
if(top & Erv) {
n->op = OSENDNB;
n->type = types[TBOOL];
}
goto ret;
case OSLICE:
ok |= Erv;
typecheck(&n->left, top);
typecheck(&n->right->left, Erv);
typecheck(&n->right->right, Erv);
defaultlit(&n->left, T);
defaultlit(&n->right->left, types[TUINT]);
defaultlit(&n->right->right, types[TUINT]);
implicitstar(&n->left);
if(n->right->left == N) {
yyerror("missing slice bounds?");
goto error;
}
if((t = n->right->left->type) == T)
goto error;
if(!isint[t->etype]) {
yyerror("invalid slice index %#N (type %T)", n->right->left, t);
goto error;
}
if(n->right->right != N) {
if((t = n->right->right->type) == T)
goto error;
if(!isint[t->etype]) {
yyerror("invalid slice index %#N (type %T)", n->right->right, t);
goto error;
}
}
l = n->left;
if((t = l->type) == T)
goto error;
// TODO(rsc): 64-bit slice index needs to be checked
// for overflow in generated code
if(istype(t, TSTRING)) {
n->type = t;
n->op = OSLICESTR;
goto ret;
}
if(isfixedarray(t)) {
n->type = typ(TARRAY);
n->type->type = t->type;
n->type->bound = -1;
dowidth(n->type);
n->op = OSLICEARR;
goto ret;
}
if(isslice(t)) {
n->type = t;
goto ret;
}
yyerror("cannot slice %#N (type %T)", l, t);
goto error;
/*
* call and call like
*/
case OCALL:
l = n->left;
if(l->op == ONAME && l->etype != 0) {
// builtin: OLEN, OCAP, etc.
n->op = l->etype;
n->left = n->right;
n->right = N;
goto reswitch;
}
if(l->op == ONAME && (r = unsafenmagic(l, n->list)) != N) {
n = r;
goto reswitch;
}
typecheck(&n->left, Erv | Etype | Ecall);
defaultlit(&n->left, T);
l = n->left;
if(l->op == OTYPE) {
// pick off before type-checking arguments
ok |= Erv;
// turn CALL(type, arg) into CONV(arg) w/ type
n->left = N;
if(onearg(n) < 0)
goto error;
n->op = OCONV;
n->type = l->type;
goto doconv;
}
if(count(n->list) == 1)
typecheck(&n->list->n, Erv | Efnstruct);
else
typechecklist(n->list, Erv);
if((t = l->type) == T)
goto error;
checkwidth(t);
switch(l->op) {
case ODOTINTER:
n->op = OCALLINTER;
break;
case ODOTMETH:
n->op = OCALLMETH;
typecheckaste(OCALL, getthisx(t), list1(l->left), "method receiver");
break;
default:
n->op = OCALLFUNC;
if(t->etype != TFUNC) {
yyerror("cannot call non-function %#N (type %T)", l, t);
goto error;
}
break;
}
typecheckaste(OCALL, getinargx(t), n->list, "function argument");
ok |= Etop;
if(t->outtuple == 0)
goto ret;
ok |= Erv;
if(t->outtuple == 1) {
t = getoutargx(l->type)->type;
if(t == T)
goto error;
if(t->etype == TFIELD)
t = t->type;
n->type = t;
goto ret;
}
// multiple return
if(!(top & (Efnstruct | Etop))) {
yyerror("multiple-value %#N() in single-value context", l);
goto ret;
}
n->type = getoutargx(l->type);
goto ret;
case OCAP:
case OLEN:
case OREAL:
case OIMAG:
ok |= Erv;
if(onearg(n) < 0)
goto error;
typecheck(&n->left, Erv);
defaultlit(&n->left, T);
implicitstar(&n->left);
l = n->left;
t = l->type;
if(t == T)
goto error;
switch(n->op) {
case OCAP:
if(!okforcap[t->etype])
goto badcall1;
break;
case OLEN:
if(!okforlen[t->etype])
goto badcall1;
break;
case OREAL:
case OIMAG:
if(!iscomplex[t->etype])
goto badcall1;
n->type = types[cplxsubtype(t->etype)];
goto ret;
}
// might be constant
switch(t->etype) {
case TSTRING:
if(isconst(l, CTSTR))
nodconst(n, types[TINT], l->val.u.sval->len);
break;
case TARRAY:
if(t->bound >= 0)
nodconst(n, types[TINT], t->bound);
break;
}
n->type = types[TINT];
goto ret;
case OCMPLX:
ok |= Erv;
if(twoarg(n) < 0)
goto error;
l = typecheck(&n->left, Erv | (top & Eiota));
r = typecheck(&n->right, Erv | (top & Eiota));
if(l->type == T || r->type == T)
goto error;
defaultlit2(&l, &r, 0);
n->left = l;
n->right = r;
if(l->type->etype != r->type->etype) {
badcmplx:
yyerror("invalid operation: %#N (cmplx of types %T, %T)", n, l->type, r->type);
goto error;
}
switch(l->type->etype) {
default:
goto badcmplx;
case TIDEAL:
t = types[TIDEAL];
break;
case TFLOAT:
t = types[TCOMPLEX];
break;
case TFLOAT32:
t = types[TCOMPLEX64];
break;
case TFLOAT64:
t = types[TCOMPLEX128];
break;
}
if(l->op == OLITERAL && r->op == OLITERAL) {
// make it a complex literal
n = nodcplxlit(l->val, r->val);
}
n->type = t;
goto ret;
case OCLOSED:
case OCLOSE:
if(onearg(n) < 0)
goto error;
typecheck(&n->left, Erv);
defaultlit(&n->left, T);
l = n->left;
if((t = l->type) == T)
goto error;
if(t->etype != TCHAN) {
yyerror("invalid operation: %#N (non-chan type %T)", n, t);
goto error;
}
if(n->op == OCLOSED) {
n->type = types[TBOOL];
ok |= Erv;
} else
ok |= Etop;
goto ret;
case OCOPY:
ok |= Etop|Erv;
args = n->list;
if(args == nil || args->next == nil) {
yyerror("missing arguments to copy");
goto error;
}
if(args->next->next != nil) {
yyerror("too many arguments to copy");
goto error;
}
n->left = args->n;
n->right = args->next->n;
n->type = types[TINT];
typecheck(&n->left, Erv);
typecheck(&n->right, Erv);
if(n->left->type == T || n->right->type == T)
goto error;
toslice(&n->left);
toslice(&n->right);
defaultlit(&n->left, T);
defaultlit(&n->right, T);
if(!isslice(n->left->type) || !isslice(n->right->type)) {
if(!isslice(n->left->type) && !isslice(n->right->type))
yyerror("arguments to copy must be array pointer or slice; have %lT, %lT", n->left->type, n->right->type);
else if(!isslice(n->left->type))
yyerror("first argument to copy should be array pointer or slice; have %lT", n->left->type);
else
yyerror("second argument to copy should be array pointer or slice; have %lT", n->right->type);
goto error;
}
if(!eqtype(n->left->type, n->right->type)) {
yyerror("arguments to copy have different element types %lT and %lT", n->left->type, n->right->type);
goto error;
}
goto ret;
case OCONV:
doconv:
ok |= Erv;
typecheck(&n->left, Erv | (top & Eindir));
convlit1(&n->left, n->type, 1);
if((t = n->left->type) == T || n->type == T)
goto error;
n = typecheckconv(n, n->left, n->type, 1, "conversion");
if(n->type == T)
goto error;
switch(n->op) {
case OSTRARRAYBYTE:
case OSTRARRAYRUNE:
if(n->left->op == OLITERAL)
stringtoarraylit(&n);
break;
}
goto ret;
case OMAKE:
ok |= Erv;
args = n->list;
if(args == nil) {
yyerror("missing argument to make");
goto error;
}
l = args->n;
args = args->next;
typecheck(&l, Etype);
if((t = l->type) == T)
goto error;
switch(t->etype) {
default:
badmake:
yyerror("cannot make type %T", t);
goto error;
case TARRAY:
if(!isslice(t))
goto badmake;
if(args == nil) {
yyerror("missing len argument to make(%T)", t);
goto error;
}
l = args->n;
args = args->next;
typecheck(&l, Erv);
defaultlit(&l, types[TUINT]);
r = N;
if(args != nil) {
r = args->n;
args = args->next;
typecheck(&r, Erv);
defaultlit(&r, types[TUINT]);
}
if(l->type == T || (r && r->type == T))
goto error;
if(!isint[l->type->etype]) {
yyerror("non-integer len argument to make(%T)", t);
goto error;
}
if(r && !isint[r->type->etype]) {
yyerror("non-integer cap argument to make(%T)", t);
goto error;
}
if(r == N)
r = nodintconst(0);
n->left = l;
n->right = r;
n->op = OMAKESLICE;
break;
case TMAP:
if(args != nil) {
l = args->n;
args = args->next;
typecheck(&l, Erv);
defaultlit(&l, types[TUINT]);
if(l->type == T)
goto error;
if(!isint[l->type->etype]) {
yyerror("non-integer size argument to make(%T)", t);
goto error;
}
n->left = l;
} else
n->left = nodintconst(0);
n->op = OMAKEMAP;
break;
case TCHAN:
l = N;
if(args != nil) {
l = args->n;
args = args->next;
typecheck(&l, Erv);
defaultlit(&l, types[TUINT]);
if(l->type == T)
goto error;
if(!isint[l->type->etype]) {
yyerror("non-integer buffer argument to make(%T)", t);
goto error;
}
n->left = l;
} else
n->left = nodintconst(0);
n->op = OMAKECHAN;
break;
}
if(args != nil) {
yyerror("too many arguments to make(%T)", t);
n->op = OMAKE;
goto error;
}
n->type = t;
goto ret;
case ONEW:
ok |= Erv;
args = n->list;
if(args == nil) {
yyerror("missing argument to new");
goto error;
}
l = args->n;
typecheck(&l, Etype);
if((t = l->type) == T)
goto error;
if(args->next != nil) {
yyerror("too many arguments to new(%T)", t);
goto error;
}
n->left = l;
n->type = ptrto(t);
goto ret;
case OPRINT:
case OPRINTN:
ok |= Etop;
typechecklist(n->list, Erv);
goto ret;
case OPANIC:
ok |= Etop;
if(onearg(n) < 0)
goto error;
typecheck(&n->left, Erv);
defaultlit(&n->left, types[TINTER]);
if(n->left->type == T)
goto error;
goto ret;
case ORECOVER:
ok |= Erv|Etop;
if(n->list != nil) {
yyerror("too many arguments to recover");
goto error;
}
n->type = types[TINTER];
goto ret;
case OCLOSURE:
ok |= Erv;
typecheckclosure(n);
if(n->type == T)
goto error;
goto ret;
/*
* statements
*/
case OAS:
ok |= Etop;
typecheckas(n);
goto ret;
case OAS2:
ok |= Etop;
typecheckas2(n);
goto ret;
case OBREAK:
case OCONTINUE:
case ODCL:
case OEMPTY:
case OGOTO:
case OLABEL:
case OXFALL:
ok |= Etop;
goto ret;
case ODEFER:
case OPROC:
ok |= Etop;
typecheck(&n->left, Etop);
goto ret;
case OFOR:
ok |= Etop;
typechecklist(n->ninit, Etop);
typecheck(&n->ntest, Erv);
if(n->ntest != N && (t = n->ntest->type) != T && t->etype != TBOOL)
yyerror("non-bool %+N used as for condition", n->ntest);
typecheck(&n->nincr, Etop);
typechecklist(n->nbody, Etop);
goto ret;
case OIF:
ok |= Etop;
typechecklist(n->ninit, Etop);
typecheck(&n->ntest, Erv);
if(n->ntest != N && (t = n->ntest->type) != T && t->etype != TBOOL)
yyerror("non-bool %+N used as if condition", n->ntest);
typechecklist(n->nbody, Etop);
typechecklist(n->nelse, Etop);
goto ret;
case ORETURN:
ok |= Etop;
typechecklist(n->list, Erv | Efnstruct);
if(curfn->type->outnamed && n->list == nil)
goto ret;
typecheckaste(ORETURN, getoutargx(curfn->type), n->list, "return argument");
goto ret;
case OSELECT:
ok |= Etop;
typecheckselect(n);
goto ret;
case OSWITCH:
ok |= Etop;
typecheckswitch(n);
goto ret;
case ORANGE:
ok |= Etop;
typecheckrange(n);
goto ret;
case OTYPECASE:
ok |= Etop | Erv;
typecheck(&n->left, Erv);
goto ret;
case OTYPESW:
yyerror("use of .(type) outside type switch");
goto error;
case OXCASE:
ok |= Etop;
typechecklist(n->list, Erv);
typechecklist(n->nbody, Etop);
goto ret;
case ODCLFUNC:
ok |= Etop;
typecheckfunc(n);
goto ret;
case ODCLCONST:
ok |= Etop;
typecheck(&n->left, Erv);
goto ret;
case ODCLTYPE:
ok |= Etop;
typecheck(&n->left, Etype);
if(!incannedimport)
checkwidth(n->left->type);
goto ret;
}
ret:
t = n->type;
if(t && !t->funarg && n->op != OTYPE) {
switch(t->etype) {
case TFUNC: // might have TANY; wait until its called
case TANY:
case TFORW:
case TIDEAL:
case TNIL:
case TBLANK:
break;
case TARRAY:
if(t->bound == -100) {
yyerror("use of [...] array outside of array literal");
t->bound = 1;
}
default:
checkwidth(t);
}
}
evconst(n);
if(n->op == OTYPE && !(top & Etype)) {
yyerror("type %T is not an expression", n->type);
goto error;
}
if((top & (Erv|Etype)) == Etype && n->op != OTYPE) {
yyerror("%#N is not a type", n);
goto error;
}
if((ok & Ecall) && !(top & Ecall)) {
yyerror("must call %#N", n);
goto error;
}
// TODO(rsc): simplify
if((top & (Ecall|Erv|Etype)) && !(top & Etop) && !(ok & (Erv|Etype|Ecall))) {
yyerror("%#N used as value", n);
goto error;
}
if((top & Etop) && !(top & (Ecall|Erv|Etype)) && !(ok & Etop)) {
yyerror("%#N not used", n);
goto error;
}
/* TODO
if(n->type == T)
fatal("typecheck nil type");
*/
goto out;
badcall1:
yyerror("invalid argument %#N (type %T) for %#O", n->left, n->left->type, n->op);
goto error;
error:
n->type = T;
out:
lineno = lno;
n->typecheck = 1;
*np = n;
return n;
}
static void
implicitstar(Node **nn)
{
Type *t;
Node *n;
// insert implicit * if needed
n = *nn;
t = n->type;
if(t == T || !isptr[t->etype])
return;
t = t->type;
if(t == T)
return;
if(!isfixedarray(t))
return;
n = nod(OIND, n, N);
typecheck(&n, Erv);
*nn = n;
}
static void
toslice(Node **nn)
{
Node *n;
Type *t;
n = *nn;
if(n->type == T)
return;
if(isptr[n->type->etype] && isfixedarray(n->type->type)) {
// convert to slice
t = typ(TARRAY);
t->bound = -1;
t->type = n->type->type->type;
n = typecheckconv(nil, n, t, 0, "conversion of array pointer to slice");
*nn = n;
}
}
static int
onearg(Node *n)
{
if(n->left != N)
return 0;
if(n->list == nil) {
yyerror("missing argument to %#O - %#N", n->op, n);
return -1;
}
n->left = n->list->n;
if(n->list->next != nil) {
yyerror("too many arguments to %#O", n->op);
n->list = nil;
return -1;
}
n->list = nil;
return 0;
}
static int
twoarg(Node *n)
{
if(n->left != N)
return 0;
if(n->list == nil) {
yyerror("missing argument to %#O - %#N", n->op, n);
return -1;
}
n->left = n->list->n;
if(n->list->next == nil) {
yyerror("missing argument to %#O - %#N", n->op, n);
n->list = nil;
return -1;
}
if(n->list->next->next != nil) {
yyerror("too many arguments to %#O", n->op);
n->list = nil;
return -1;
}
n->right = n->list->next->n;
n->list = nil;
return 0;
}
static Type*
lookdot1(Sym *s, Type *t, Type *f, int dostrcmp)
{
Type *r;
r = T;
for(; f!=T; f=f->down) {
if(dostrcmp && strcmp(f->sym->name, s->name) == 0)
return f;
if(f->sym != s)
continue;
if(r != T) {
yyerror("ambiguous DOT reference %T.%S", t, s);
break;
}
r = f;
}
return r;
}
static int
lookdot(Node *n, Type *t, int dostrcmp)
{
Type *f1, *f2, *tt, *rcvr;
Sym *s;
s = n->right->sym;
dowidth(t);
f1 = T;
if(t->etype == TSTRUCT || t->etype == TINTER)
f1 = lookdot1(s, t, t->type, dostrcmp);
f2 = methtype(n->left->type);
if(f2 != T)
f2 = lookdot1(s, f2, f2->method, dostrcmp);
if(f1 != T) {
if(f2 != T)
yyerror("ambiguous DOT reference %S as both field and method",
n->right->sym);
if(f1->width == BADWIDTH)
fatal("lookdot badwidth %T %p", f1, f1);
n->xoffset = f1->width;
n->type = f1->type;
if(t->etype == TINTER) {
if(isptr[n->left->type->etype]) {
n->left = nod(OIND, n->left, N); // implicitstar
typecheck(&n->left, Erv);
}
n->op = ODOTINTER;
}
return 1;
}
if(f2 != T) {
tt = n->left->type;
dowidth(tt);
rcvr = getthisx(f2->type)->type->type;
if(n->left->op != OTYPE && !eqtype(rcvr, tt)) {
if(rcvr->etype == tptr && eqtype(rcvr->type, tt)) {
checklvalue(n->left, "call pointer method on");
addrescapes(n->left);
n->left = nod(OADDR, n->left, N);
typecheck(&n->left, Etype|Erv);
} else if(tt->etype == tptr && eqtype(tt->type, rcvr)) {
n->left = nod(OIND, n->left, N);
typecheck(&n->left, Etype|Erv);
} else {
// method is attached to wrong type?
fatal("method mismatch: %T for %T", rcvr, tt);
}
}
n->right = methodname(n->right, n->left->type);
n->xoffset = f2->width;
n->type = f2->type;
n->op = ODOTMETH;
return 1;
}
return 0;
}
static int
nokeys(NodeList *l)
{
for(; l; l=l->next)
if(l->n->op == OKEY)
return 0;
return 1;
}
/*
* check implicit or explicit conversion from node type nt to type t.
*/
int
checkconv(Type *nt, Type *t, int explicit, int *op, int *et, char *desc)
{
*op = OCONV;
*et = 0;
// preexisting error
if(t == T || t->etype == TFORW)
return 0;
/*
* implicit conversions
*/
if(nt == T)
return 0;
if(t->etype == TBLANK) {
*op = OCONVNOP;
return 0;
}
if(eqtype(t, nt)) {
exportassignok(t, desc);
*op = OCONVNOP;
if(!explicit || t == nt)
return 0;
return 1;
}
// interfaces are not subject to the name restrictions below.
// accept anything involving interfaces and let ifacecvt
// generate a good message. some messages have to be
// delayed anyway.
// TODO(rsc): now that everything is delayed for whole-package
// compilation, the messages could be generated right here.
if(isnilinter(t) || isnilinter(nt) || isinter(t) || isinter(nt)) {
*et = ifaceas1(t, nt, 0);
*op = OCONVIFACE;
return 1;
}
// otherwise, if concrete types have names, they must match.
if(!explicit && t->sym && nt->sym && t != nt)
return -1;
// channel must not lose directionality
if(t->etype == TCHAN && nt->etype == TCHAN) {
if(t->chan & ~nt->chan)
return -1;
if(eqtype(t->type, nt->type)) {
*op = OCONVNOP;
return 1;
}
}
// array to slice
if(isslice(t) && isptr[nt->etype] && isfixedarray(nt->type)
&& eqtype(t->type, nt->type->type)) {
*op = OCONVSLICE;
return 1;
}
/*
* explicit conversions
*/
if(!explicit)
return -1;
// same representation
if(cvttype(t, nt)) {
*op = OCONVNOP;
return 1;
}
// simple fix-float
if(isint[t->etype] || isfloat[t->etype])
if(isint[nt->etype] || isfloat[nt->etype])
return 1;
// simple complex-complex
if(iscomplex[t->etype])
if(iscomplex[nt->etype])
return 1;
// to string
if(istype(t, TSTRING)) {
// integer rune
if(isint[nt->etype]) {
*op = ORUNESTR;
return 1;
}
// *[10]byte -> string
// in preparation for next step
if(isptr[nt->etype] && isfixedarray(nt->type)) {
switch(nt->type->type->etype) {
case TUINT8:
*op = OARRAYBYTESTR;
return 1;
case TINT:
*op = OARRAYRUNESTR;
return 1;
}
}
// []byte -> string
if(isslice(nt)) {
switch(nt->type->etype) {
case TUINT8:
*op = OARRAYBYTESTR;
return 1;
case TINT:
*op = OARRAYRUNESTR;
return 1;
}
}
}
// from string
if(istype(nt, TSTRING) && isslice(t) && t->sym == S) {
switch(t->type->etype) {
case TUINT8:
*op = OSTRARRAYBYTE;
return 1;
case TINT:
*op = OSTRARRAYRUNE;
return 1;
}
}
// convert to unsafe pointer
if(isptrto(t, TANY)
&& (isptr[nt->etype] || nt->etype == TUINTPTR))
return 1;
// convert from unsafe pointer
if(isptrto(nt, TANY)
&& (isptr[t->etype] || t->etype == TUINTPTR))
return 1;
return -1;
}
Node*
typecheckconv(Node *nconv, Node *n, Type *t, int explicit, char *desc)
{
int et, op;
Node *n1;
char *prefix;
convlit1(&n, t, explicit);
if(n->type == T)
return n;
if(n->op == OLITERAL)
if(explicit || isideal(n->type))
if(cvttype(t, n->type)) {
// can convert literal in place
// TODO(rsc) is this needed?
n1 = nod(OXXX, N, N);
*n1 = *n;
n1->type = t;
return n1;
}
prefix = "";
if(desc != nil)
prefix = " in ";
else
desc = "";
switch(checkconv(n->type, t, explicit, &op, &et, desc)) {
case -1:
if(explicit)
yyerror("cannot convert %+N to type %T%s%s", n, t, prefix, desc);
else
yyerror("cannot use %+N as type %T%s%s", n, t, prefix, desc);
return n;
case 0:
if(nconv) {
nconv->op = OCONVNOP;
return nconv;
}
return n;
}
if(op == OCONVIFACE)
defaultlit(&n, T);
if(nconv == N)
nconv = nod(OCONV, n, N);
nconv->op = op;
nconv->etype = et;
nconv->type = t;
nconv->typecheck = 1;
return nconv;
}
/*
* typecheck assignment: type list = expression list
*/
static void
typecheckaste(int op, Type *tstruct, NodeList *nl, char *desc)
{
Type *t, *tl, *tn;
Node *n;
int lno;
lno = lineno;
if(tstruct->broke)
goto out;
if(nl != nil && nl->next == nil && (n = nl->n)->type != T)
if(n->type->etype == TSTRUCT && n->type->funarg) {
setlineno(n);
tn = n->type->type;
for(tl=tstruct->type; tl; tl=tl->down) {
int xx, yy;
if(tl->isddd) {
// TODO(rsc): delete if (but not body) in DDD cleanup.
if(tl->type->etype != TINTER)
for(; tn; tn=tn->down)
if(checkconv(tn->type, tl->type->type, 0, &xx, &yy, desc) < 0)
yyerror("cannot use %T as type %T in %s", tn->type, tl->type->type, desc);
goto out;
}
if(tn == T) {
yyerror("not enough arguments to %#O", op);
goto out;
}
if(checkconv(tn->type, tl->type, 0, &xx, &yy, desc) < 0)
yyerror("cannot use type %T as type %T in %s", tn->type, tl->type, desc);
tn = tn->down;
}
if(tn != T)
yyerror("too many arguments to %#O", op);
goto out;
}
for(tl=tstruct->type; tl; tl=tl->down) {
t = tl->type;
if(tl->isddd) {
if(nl != nil && nl->n->isddd && !eqtype(nl->n->type, t)) {
// TODO(rsc): This is not actually illegal but will
// help catch bugs.
yyerror("cannot pass %+N as %T (... mismatch)", nl->n, tl);
}
if(nl != nil && nl->next == nil && nl->n->isddd && eqtype(nl->n->type, t))
goto out;
for(; nl; nl=nl->next) {
int xx, yy;
setlineno(nl->n);
defaultlit(&nl->n, t->type);
// TODO(rsc): drop first if in DDD cleanup
if(t->etype != TINTER)
if(checkconv(nl->n->type, t->type, 0, &xx, &yy, desc) < 0)
yyerror("cannot use %+N as type %T in %s", nl->n, t->type, desc);
}
goto out;
}
if(nl == nil) {
yyerror("not enough arguments to %#O", op);
goto out;
}
n = nl->n;
setlineno(nl->n);
if(n->type != T)
nl->n = typecheckconv(nil, n, t, 0, desc);
nl = nl->next;
}
if(nl != nil) {
yyerror("too many arguments to %#O", op);
goto out;
}
out:
lineno = lno;
}
/*
* do the export rules allow writing to this type?
* cannot be implicitly assigning to any type with
* an unavailable field.
*/
static int
exportassignok(Type *t, char *desc)
{
Type *f;
Sym *s;
if(t == T)
return 1;
if(t->trecur)
return 1;
t->trecur = 1;
switch(t->etype) {
default:
// most types can't contain others; they're all fine.
break;
case TSTRUCT:
for(f=t->type; f; f=f->down) {
if(f->etype != TFIELD)
fatal("structas: not field");
s = f->sym;
// s == nil doesn't happen for embedded fields (they get the type symbol).
// it only happens for fields in a ... struct.
if(s != nil && !exportname(s->name) && s->pkg != localpkg) {
char *prefix;
prefix = "";
if(desc != nil)
prefix = " in ";
else
desc = "";
yyerror("implicit assignment of unexported field '%s' of %T%s%s", s->name, t, prefix, desc);
goto no;
}
if(!exportassignok(f->type, desc))
goto no;
}
break;
case TARRAY:
if(t->bound < 0) // slices are pointers; that's fine
break;
if(!exportassignok(t->type, desc))
goto no;
break;
}
t->trecur = 0;
return 1;
no:
t->trecur = 0;
return 0;
}
/*
* type check composite
*/
static void
fielddup(Node *n, Node *hash[], ulong nhash)
{
uint h;
char *s;
Node *a;
if(n->op != ONAME)
fatal("fielddup: not ONAME");
s = n->sym->name;
h = stringhash(s)%nhash;
for(a=hash[h]; a!=N; a=a->ntest) {
if(strcmp(a->sym->name, s) == 0) {
yyerror("duplicate field name in struct literal: %s", s);
return;
}
}
n->ntest = hash[h];
hash[h] = n;
}
static void
keydup(Node *n, Node *hash[], ulong nhash)
{
uint h;
ulong b;
double d;
int i;
Node *a;
Node cmp;
char *s;
evconst(n);
if(n->op != OLITERAL)
return; // we dont check variables
switch(n->val.ctype) {
default: // unknown, bool, nil
b = 23;
break;
case CTINT:
b = mpgetfix(n->val.u.xval);
break;
case CTFLT:
d = mpgetflt(n->val.u.fval);
s = (char*)&d;
b = 0;
for(i=sizeof(d); i>0; i--)
b = b*PRIME1 + *s++;
break;
case CTSTR:
b = 0;
s = n->val.u.sval->s;
for(i=n->val.u.sval->len; i>0; i--)
b = b*PRIME1 + *s++;
break;
}
h = b%nhash;
memset(&cmp, 0, sizeof(cmp));
for(a=hash[h]; a!=N; a=a->ntest) {
cmp.op = OEQ;
cmp.left = n;
cmp.right = a;
evconst(&cmp);
b = cmp.val.u.bval;
if(b) {
// too lazy to print the literal
yyerror("duplicate key in map literal");
return;
}
}
n->ntest = hash[h];
hash[h] = n;
}
static void
indexdup(Node *n, Node *hash[], ulong nhash)
{
uint h;
Node *a;
ulong b, c;
if(n->op != OLITERAL)
fatal("indexdup: not OLITERAL");
b = mpgetfix(n->val.u.xval);
h = b%nhash;
for(a=hash[h]; a!=N; a=a->ntest) {
c = mpgetfix(a->val.u.xval);
if(b == c) {
yyerror("duplicate index in array literal: %ld", b);
return;
}
}
n->ntest = hash[h];
hash[h] = n;
}
static void
typecheckcomplit(Node **np)
{
int bad, i, len, nerr;
Node *l, *n, *hash[101];
NodeList *ll;
Type *t, *f;
Sym *s;
n = *np;
memset(hash, 0, sizeof hash);
l = typecheck(&n->right /* sic */, Etype);
if((t = l->type) == T)
goto error;
nerr = nerrors;
switch(t->etype) {
default:
yyerror("invalid type for composite literal: %T", t);
n->type = T;
break;
case TARRAY:
len = 0;
i = 0;
for(ll=n->list; ll; ll=ll->next) {
l = ll->n;
if(l->op == OKEY) {
typecheck(&l->left, Erv);
evconst(l->left);
i = nonnegconst(l->left);
if(i < 0) {
yyerror("array index must be non-negative integer constant");
i = -(1<<30); // stay negative for a while
}
typecheck(&l->right, Erv);
defaultlit(&l->right, t->type);
l->right = typecheckconv(nil, l->right, t->type, 0, "array index");
} else {
typecheck(&ll->n, Erv);
defaultlit(&ll->n, t->type);
ll->n = typecheckconv(nil, ll->n, t->type, 0, "array index");
ll->n = nod(OKEY, nodintconst(i), ll->n);
ll->n->left->type = types[TINT];
ll->n->left->typecheck = 1;
}
if(i >= 0)
indexdup(ll->n->left, hash, nelem(hash));
i++;
if(i > len) {
len = i;
if(t->bound >= 0 && len > t->bound) {
setlineno(l);
yyerror("array index %d out of bounds [0:%d]", len, t->bound);
t->bound = -1; // no more errors
}
}
}
if(t->bound == -100)
t->bound = len;
if(t->bound < 0)
n->right = nodintconst(len);
n->op = OARRAYLIT;
break;
case TMAP:
for(ll=n->list; ll; ll=ll->next) {
l = ll->n;
if(l->op != OKEY) {
typecheck(&ll->n, Erv);
yyerror("missing key in map literal");
continue;
}
typecheck(&l->left, Erv);
typecheck(&l->right, Erv);
defaultlit(&l->left, t->down);
defaultlit(&l->right, t->type);
l->left = typecheckconv(nil, l->left, t->down, 0, "map key");
l->right = typecheckconv(nil, l->right, t->type, 0, "map value");
keydup(l->left, hash, nelem(hash));
}
n->op = OMAPLIT;
break;
case TSTRUCT:
bad = 0;
if(n->list != nil && nokeys(n->list)) {
// simple list of variables
f = t->type;
for(ll=n->list; ll; ll=ll->next) {
typecheck(&ll->n, Erv);
if(f == nil) {
if(!bad++)
yyerror("too many values in struct initializer");
continue;
}
s = f->sym;
if(s != nil && !exportname(s->name) && s->pkg != localpkg)
yyerror("implicit assignment of unexported field '%s' in %T literal", s->name, t);
ll->n = typecheckconv(nil, ll->n, f->type, 0, "field value");
ll->n = nod(OKEY, newname(f->sym), ll->n);
ll->n->left->typecheck = 1;
f = f->down;
}
if(f != nil)
yyerror("too few values in struct initializer");
} else {
// keyed list
for(ll=n->list; ll; ll=ll->next) {
l = ll->n;
if(l->op != OKEY) {
if(!bad++)
yyerror("mixture of field:value and value initializers");
typecheck(&ll->n, Erv);
continue;
}
s = l->left->sym;
if(s == S) {
yyerror("invalid field name %#N in struct initializer", l->left);
typecheck(&l->right, Erv);
continue;
}
l->left = newname(s);
l->left->typecheck = 1;
f = lookdot1(s, t, t->type, 0);
typecheck(&l->right, Erv);
if(f == nil) {
yyerror("unknown %T field '%s' in struct literal", t, s->name);
continue;
}
s = f->sym;
fielddup(newname(s), hash, nelem(hash));
l->right = typecheckconv(nil, l->right, f->type, 0, "field value");
}
}
n->op = OSTRUCTLIT;
break;
}
if(nerr != nerrors)
goto error;
n->type = t;
*np = n;
return;
error:
n->type = T;
*np = n;
}
/*
* the address of n has been taken and might be used after
* the current function returns. mark any local vars
* as needing to move to the heap.
*/
static void
addrescapes(Node *n)
{
char buf[100];
switch(n->op) {
default:
// probably a type error already.
// dump("addrescapes", n);
break;
case ONAME:
if(n->noescape)
break;
switch(n->class) {
case PAUTO:
case PPARAM:
case PPARAMOUT:
// if func param, need separate temporary
// to hold heap pointer.
// the function type has already been checked
// (we're in the function body)
// so the param already has a valid xoffset.
if(n->class == PPARAM || n->class == PPARAMOUT) {
// expression to refer to stack copy
n->stackparam = nod(OPARAM, n, N);
n->stackparam->type = n->type;
n->stackparam->addable = 1;
if(n->xoffset == BADWIDTH)
fatal("addrescapes before param assignment");
n->stackparam->xoffset = n->xoffset;
n->xoffset = 0;
}
n->class |= PHEAP;
n->addable = 0;
n->ullman = 2;
n->xoffset = 0;
// create stack variable to hold pointer to heap
n->heapaddr = nod(ONAME, N, N);
n->heapaddr->type = ptrto(n->type);
snprint(buf, sizeof buf, "&%S", n->sym);
n->heapaddr->sym = lookup(buf);
n->heapaddr->class = PHEAP-1; // defer tempname to allocparams
curfn->dcl = list(curfn->dcl, n->heapaddr);
break;
}
break;
case OIND:
case ODOTPTR:
break;
case ODOT:
case OINDEX:
// ODOTPTR has already been introduced,
// so these are the non-pointer ODOT and OINDEX.
// In &x[0], if x is a slice, then x does not
// escape--the pointer inside x does, but that
// is always a heap pointer anyway.
if(!isslice(n->left->type))
addrescapes(n->left);
break;
}
}
/*
* lvalue etc
*/
int
islvalue(Node *n)
{
switch(n->op) {
case OINDEX:
case OIND:
case ODOTPTR:
return 1;
case ODOT:
return islvalue(n->left);
case ONAME:
if(n->class == PFUNC)
return 0;
return 1;
}
return 0;
}
static void
checklvalue(Node *n, char *verb)
{
if(!islvalue(n))
yyerror("cannot %s %#N", verb, n);
}
static void
checkassign(Node *n)
{
if(islvalue(n))
return;
if(n->op == OINDEXMAP) {
n->etype = 1;
return;
}
yyerror("cannot assign to %#N", n);
}
static void
checkassignlist(NodeList *l)
{
for(; l; l=l->next)
checkassign(l->n);
}
/*
* type check assignment.
* if this assignment is the definition of a var on the left side,
* fill in the var's type.
*/
static void
typecheckas(Node *n)
{
// delicate little dance.
// the definition of n may refer to this assignment
// as its definition, in which case it will call typecheckas.
// in that case, do not call typecheck back, or it will cycle.
// if the variable has a type (ntype) then typechecking
// will not look at defn, so it is okay (and desirable,
// so that the conversion below happens).
if(n->left->defn != n || n->left->ntype)
typecheck(&n->left, Erv | Easgn);
checkassign(n->left);
typecheck(&n->right, Erv);
if(n->right && n->right->type != T) {
if(n->left->type != T)
n->right = typecheckconv(nil, n->right, n->left->type, 0, "assignment");
else
exportassignok(n->right->type, "assignment");
}
if(n->left->defn == n && n->left->ntype == N) {
defaultlit(&n->right, T);
n->left->type = n->right->type;
}
// second half of dance.
// now that right is done, typecheck the left
// just to get it over with. see dance above.
n->typecheck = 1;
if(n->left->typecheck == 0)
typecheck(&n->left, Erv | Easgn);
}
static void
typecheckas2(Node *n)
{
int cl, cr, op, et;
NodeList *ll, *lr;
Node *l, *r;
Iter s;
Type *t;
for(ll=n->list; ll; ll=ll->next) {
// delicate little dance.
if(ll->n->defn != n || ll->n->ntype)
typecheck(&ll->n, Erv | Easgn);
}
cl = count(n->list);
cr = count(n->rlist);
checkassignlist(n->list);
if(cl > 1 && cr == 1)
typecheck(&n->rlist->n, Erv | Efnstruct);
else
typechecklist(n->rlist, Erv);
if(cl == cr) {
// easy
for(ll=n->list, lr=n->rlist; ll; ll=ll->next, lr=lr->next) {
if(ll->n->type != T && lr->n->type != T)
lr->n = typecheckconv(nil, lr->n, ll->n->type, 0, nil);
if(ll->n->defn == n && ll->n->ntype == N) {
defaultlit(&lr->n, T);
ll->n->type = lr->n->type;
}
}
goto out;
}
l = n->list->n;
r = n->rlist->n;
// m[i] = x, ok
if(cl == 1 && cr == 2 && l->op == OINDEXMAP) {
if(l->type == T)
goto out;
n->op = OAS2MAPW;
n->rlist->n = typecheckconv(nil, r, l->type, 0, nil);
r = n->rlist->next->n;
n->rlist->next->n = typecheckconv(nil, r, types[TBOOL], 0, nil);
goto out;
}
// x,y,z = f()
if(cr == 1) {
if(r->type == T)
goto out;
switch(r->op) {
case OCALLMETH:
case OCALLINTER:
case OCALLFUNC:
if(r->type->etype != TSTRUCT || r->type->funarg == 0)
break;
cr = structcount(r->type);
if(cr != cl)
goto mismatch;
n->op = OAS2FUNC;
t = structfirst(&s, &r->type);
for(ll=n->list; ll; ll=ll->next) {
if(ll->n->type != T)
if(checkconv(t->type, ll->n->type, 0, &op, &et, nil) < 0)
yyerror("cannot assign type %T to %+N", t->type, ll->n);
if(ll->n->defn == n && ll->n->ntype == N)
ll->n->type = t->type;
t = structnext(&s);
}
goto out;
}
}
// x, ok = y
if(cl == 2 && cr == 1) {
if(r->type == T)
goto out;
switch(r->op) {
case OINDEXMAP:
n->op = OAS2MAPR;
goto common;
case ORECV:
n->op = OAS2RECV;
goto common;
case ODOTTYPE:
n->op = OAS2DOTTYPE;
common:
if(l->type != T && checkconv(r->type, l->type, 0, &op, &et, nil) < 0)
yyerror("cannot assign %+N to %+N", r, l);
if(l->defn == n)
l->type = r->type;
l = n->list->next->n;
if(l->type != T && checkconv(types[TBOOL], l->type, 0, &op, &et, nil) < 0)
yyerror("cannot assign bool value to %+N", l);
if(l->defn == n && l->ntype == N)
l->type = types[TBOOL];
goto out;
}
}
mismatch:
yyerror("assignment count mismatch: %d = %d", cl, cr);
out:
// second half of dance
n->typecheck = 1;
for(ll=n->list; ll; ll=ll->next)
if(ll->n->typecheck == 0)
typecheck(&ll->n, Erv | Easgn);
}
/*
* type check function definition
*/
static void
typecheckfunc(Node *n)
{
Type *t, *rcvr;
//dump("nname", n->nname);
typecheck(&n->nname, Erv | Easgn);
if((t = n->nname->type) == T)
return;
n->type = t;
rcvr = getthisx(t)->type;
if(rcvr != nil && n->shortname != N && !isblank(n->shortname))
addmethod(n->shortname->sym, t, 1);
}
static void
stringtoarraylit(Node **np)
{
int32 i;
NodeList *l;
Strlit *s;
char *p, *ep;
Rune r;
Node *nn, *n;
n = *np;
if(n->left->op != OLITERAL || n->left->val.ctype != CTSTR)
fatal("stringtoarraylit %N", n);
s = n->left->val.u.sval;
l = nil;
p = s->s;
ep = s->s + s->len;
i = 0;
if(n->type->type->etype == TUINT8) {
// raw []byte
while(p < ep)
l = list(l, nod(OKEY, nodintconst(i++), nodintconst((uchar)*p++)));
} else {
// utf-8 []int
while(p < ep) {
p += chartorune(&r, p);
l = list(l, nod(OKEY, nodintconst(i++), nodintconst(r)));
}
}
nn = nod(OCOMPLIT, N, typenod(n->type));
nn->list = l;
typecheck(&nn, Erv);
*np = nn;
}