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https://github.com/golang/go
synced 2024-11-21 19:14:44 -07:00
gc: implement []int(string) and []byte(string)
R=ken2 CC=golang-dev https://golang.org/cl/224060
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b86c0b0c4a
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3910161307
@ -26,6 +26,8 @@ char *runtimeimport =
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"func \"\".intstring (? int64) string\n"
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"func \"\".slicebytetostring (? []uint8) string\n"
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"func \"\".sliceinttostring (? []int) string\n"
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"func \"\".stringtoslicebyte (? string) []uint8\n"
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"func \"\".stringtosliceint (? string) []int\n"
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"func \"\".stringiter (? string, ? int) int\n"
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"func \"\".stringiter2 (? string, ? int) (retk int, retv int)\n"
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"func \"\".slicecopy (to any, fr any, wid uint32) int\n"
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@ -351,6 +351,7 @@ enum
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OAPPENDSTR,
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OARRAY,
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OARRAYBYTESTR, OARRAYRUNESTR,
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OSTRARRAYBYTE, OSTRARRAYRUNE,
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OAS, OAS2, OAS2MAPW, OAS2FUNC, OAS2RECV, OAS2MAPR, OAS2DOTTYPE, OASOP,
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OBAD,
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OCALL, OCALLFUNC, OCALLMETH, OCALLINTER,
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@ -38,6 +38,8 @@ func indexstring(string, int) byte
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func intstring(int64) string
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func slicebytetostring([]byte) string
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func sliceinttostring([]int) string
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func stringtoslicebyte(string) []byte
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func stringtosliceint(string) []int
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func stringiter(string, int) int
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func stringiter2(string, int) (retk int, retv int)
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func slicecopy(to any, fr any, wid uint32) int
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@ -32,6 +32,7 @@ static void checklvalue(Node*, char*);
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static void checkassign(Node*);
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static void checkassignlist(NodeList*);
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static void toslice(Node**);
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static void stringtoarraylit(Node**);
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void
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typechecklist(NodeList *l, int top)
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@ -835,6 +836,13 @@ reswitch:
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n = typecheckconv(n, n->left, n->type, 1, "conversion");
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if(n->type == T)
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goto error;
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switch(n->op) {
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case OSTRARRAYBYTE:
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case OSTRARRAYRUNE:
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if(n->left->op == OLITERAL)
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stringtoarraylit(&n);
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break;
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}
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goto ret;
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case OMAKE:
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@ -1406,6 +1414,18 @@ checkconv(Type *nt, Type *t, int explicit, int *op, int *et, char *desc)
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}
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}
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// from string
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if(istype(nt, TSTRING) && isslice(t) && t->sym == S) {
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switch(t->type->etype) {
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case TUINT8:
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*op = OSTRARRAYBYTE;
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return 1;
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case TINT:
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*op = OSTRARRAYRUNE;
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return 1;
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}
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}
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// convert to unsafe pointer
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if(isptrto(t, TANY)
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&& (isptr[nt->etype] || nt->etype == TUINTPTR))
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@ -2164,3 +2184,39 @@ typecheckfunc(Node *n)
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if(rcvr != nil && n->shortname != N && !isblank(n->shortname))
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addmethod(n->shortname->sym, t, 1);
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}
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static void
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stringtoarraylit(Node **np)
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{
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int32 i;
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NodeList *l;
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Strlit *s;
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char *p, *ep;
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Rune r;
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Node *nn, *n;
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n = *np;
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if(n->left->op != OLITERAL || n->left->val.ctype != CTSTR)
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fatal("stringtoarraylit %N", n);
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s = n->left->val.u.sval;
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l = nil;
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p = s->s;
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ep = s->s + s->len;
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i = 0;
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if(n->type->type->etype == TUINT8) {
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// raw []byte
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while(p < ep)
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l = list(l, nod(OKEY, nodintconst(i++), nodintconst((uchar)*p++)));
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} else {
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// utf-8 []int
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while(p < ep) {
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p += chartorune(&r, p);
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l = list(l, nod(OKEY, nodintconst(i++), nodintconst(r)));
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}
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}
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nn = nod(OCOMPLIT, N, typenod(n->type));
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nn->list = l;
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typecheck(&nn, Erv);
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*np = nn;
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}
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@ -8,6 +8,7 @@ static Node* walkprint(Node*, NodeList**, int);
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static Node* conv(Node*, Type*);
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static Node* mapfn(char*, Type*);
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static Node* makenewvar(Type*, NodeList**, Node**);
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enum
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{
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Inone,
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@ -1092,10 +1093,20 @@ walkexpr(Node **np, NodeList **init)
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goto ret;
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case OARRAYRUNESTR:
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// sliceinttostring([]byte) string;
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// sliceinttostring([]int) string;
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n = mkcall("sliceinttostring", n->type, init, n->left);
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goto ret;
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case OSTRARRAYBYTE:
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// stringtoslicebyte(string) []byte;
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n = mkcall("stringtoslicebyte", n->type, init, n->left);
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goto ret;
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case OSTRARRAYRUNE:
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// stringtosliceint(string) []int
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n = mkcall("stringtosliceint", n->type, init, n->left);
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goto ret;
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case OCMPIFACE:
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// ifaceeq(i1 any-1, i2 any-2) (ret bool);
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if(!eqtype(n->left->type, n->right->type))
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@ -1117,6 +1128,7 @@ walkexpr(Node **np, NodeList **init)
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case OARRAYLIT:
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case OMAPLIT:
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case OSTRUCTLIT:
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arraylit:
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nvar = nod(OXXX, N, N);
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tempname(nvar, n->type);
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anylit(n, nvar, init);
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@ -4,6 +4,7 @@
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package runtime
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#include "runtime.h"
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#include "malloc.h"
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String emptystring;
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@ -210,6 +211,12 @@ func slicebytetostring(b Slice) (s String) {
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mcpy(s.str, b.array, s.len);
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}
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func stringtoslicebyte(s String) (b Slice) {
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b.array = mallocgc(s.len, RefNoPointers, 1, 1);
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b.len = s.len;
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b.cap = s.len;
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mcpy(b.array, s.str, s.len);
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}
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func sliceinttostring(b Slice) (s String) {
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int32 siz1, siz2, i;
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@ -233,6 +240,30 @@ func sliceinttostring(b Slice) (s String) {
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s.len = siz2;
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}
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func stringtosliceint(s String) (b Slice) {
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int32 n;
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int32 dum, *r;
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uint8 *p, *ep;
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// two passes.
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// unlike sliceinttostring, no race because strings are immutable.
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p = s.str;
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ep = s.str+s.len;
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n = 0;
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while(p < ep) {
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p += charntorune(&dum, p, ep-p);
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n++;
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}
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b.array = mallocgc(n*sizeof(r[0]), RefNoPointers, 1, 1);
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b.len = n;
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b.cap = n;
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p = s.str;
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r = (int32*)b.array;
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while(p < ep)
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p += charntorune(r++, p, ep-p);
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}
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enum
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{
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Runeself = 0x80,
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@ -35,3 +35,30 @@ var good2 int = 1.0;
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var good3 int = 1e9;
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var good4 float = 1e20;
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// explicit conversion of string is okay
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var _ = []int("abc")
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var _ = []byte("abc")
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// implicit is not
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var _ []int = "abc" // ERROR "cannot use|incompatible|invalid"
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var _ []byte = "abc" // ERROR "cannot use|incompatible|invalid"
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// named string is okay
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type Tstring string
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var ss Tstring = "abc"
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var _ = []int(ss)
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var _ = []byte(ss)
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// implicit is still not
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var _ []int = ss // ERROR "cannot use|incompatible|invalid"
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var _ []byte = ss // ERROR "cannot use|incompatible|invalid"
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// named slice is not
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type Tint []int
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type Tbyte []byte
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var _ = Tint("abc") // ERROR "convert|incompatible|invalid"
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var _ = Tbyte("abc") // ERROR "convert|incompatible|invalid"
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// implicit is still not
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var _ Tint = "abc" // ERROR "cannot use|incompatible|invalid"
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var _ Tbyte = "abc" // ERROR "cannot use|incompatible|invalid"
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}
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}
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const (
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gx1 = "aä本☺"
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gx2 = "aä\xFF\xFF本☺"
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gx2fix = "aä\uFFFD\uFFFD本☺"
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)
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var (
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gr1 = []int(gx1)
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gr2 = []int(gx2)
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gb1 = []byte(gx1)
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gb2 = []byte(gx2)
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)
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func main() {
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ecode = 0;
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s :=
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@ -86,5 +99,22 @@ func main() {
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r = 0x10ffff + 1;
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s = string(r);
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assert(s, "\xef\xbf\xbd", "too-large rune");
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assert(string(gr1), gx1, "global ->[]int")
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assert(string(gr2), gx2fix, "global invalid ->[]int")
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assert(string(gb1), gx1, "->[]byte")
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assert(string(gb2), gx2, "global invalid ->[]byte")
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var (
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r1 = []int(gx1)
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r2 = []int(gx2)
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b1 = []byte(gx1)
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b2 = []byte(gx2)
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)
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assert(string(r1), gx1, "->[]int")
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assert(string(r2), gx2fix, "invalid ->[]int")
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assert(string(b1), gx1, "->[]byte")
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assert(string(b2), gx2, "invalid ->[]byte")
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os.Exit(ecode);
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}
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