mirror of
https://github.com/golang/go
synced 2024-11-26 14:46:47 -07:00
simplifying grammar: delete LBASETYPE and LACONST
R=ken OCL=29300 CL=29302
This commit is contained in:
parent
b112d42ad6
commit
2a4dcfffc9
@ -1056,7 +1056,7 @@ addconst(Node *n, Node *e, int ctxt)
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redeclare("constant", s);
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s->oconst = e;
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s->lexical = LACONST;
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s->lexical = LNAME;
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d = dcl();
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d->dsym = s;
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@ -1136,6 +1136,14 @@ oldname(Sym *s)
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Node *n;
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Node *c;
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if(s->oconst) {
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n = nod(OLITERAL, N, N);
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n->sym = s;
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n->val = s->oconst->val;
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n->type = s->oconst->type;
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return n;
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}
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n = s->oname;
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if(n == N) {
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n = nod(ONONAME, N, N);
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@ -1205,11 +1213,11 @@ nametoanondcl(Node *na)
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for(l=&na; (n=*l)->op == OLIST; l=&n->left)
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n->right = nametoanondcl(n->right);
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if(n->sym->lexical != LATYPE && n->sym->lexical != LBASETYPE) {
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t = n->sym->otype;
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if(t == T) {
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yyerror("%s is not a type", n->sym->name);
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t = typ(TINT32);
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} else
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t = oldtype(n->sym);
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}
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n = nod(ODCLFIELD, N, N);
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n->type = t;
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*l = n;
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@ -190,7 +190,6 @@ dumpsym(Sym *s)
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yyerror("package export symbol: %S", s);
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break;
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case LATYPE:
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case LBASETYPE:
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// TODO(rsc): sort methods by name
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for(f=s->otype->method; f!=T; f=f->down)
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dumpprereq(f);
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@ -201,10 +200,10 @@ dumpsym(Sym *s)
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f->type->type->type, f->sym, f->type);
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break;
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case LNAME:
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dumpexportvar(s);
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break;
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case LACONST:
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dumpexportconst(s);
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if(s->oconst)
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dumpexportconst(s);
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else
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dumpexportvar(s);
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break;
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}
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}
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@ -344,7 +343,7 @@ importconst(Node *ss, Type *t, Node *n)
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return;
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convlit(n, t);
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s = importsym(ss, LACONST);
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s = importsym(ss, LNAME);
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if(s->oconst != N) {
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// TODO: check if already the same.
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return;
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@ -14,7 +14,7 @@
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}
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%token <val> LLITERAL
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%token <lint> LASOP
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%token <sym> LNAME LBASETYPE LATYPE LPACK LACONST
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%token <sym> LNAME LATYPE LPACK
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%token <sym> LPACKAGE LIMPORT LDEFER LCLOSE LCLOSED
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%token <sym> LMAP LCHAN LINTERFACE LFUNC LSTRUCT
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%token <sym> LCOLAS LFALL LRETURN LDDD
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@ -42,7 +42,7 @@
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* names like Bstmt, Bvardcl, etc. can't.
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*/
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%type <sym> sym sym1 sym2 sym3 keyword laconst lname latype lpackatype
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%type <sym> sym sym1 sym2 sym3 keyword lname latype lpackatype
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%type <node> xdcl xdcl_list_r oxdcl_list
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%type <node> common_dcl Acommon_dcl Bcommon_dcl
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%type <node> oarg_type_list arg_type_list_r arg_chunk arg_chunk_list_r arg_type_list
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@ -913,13 +913,6 @@ pexpr:
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{
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$$ = nodbool(0);
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}
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| laconst
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{
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$$ = nod(OLITERAL, N, N);
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$$->sym = $1;
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$$->val = $1->oconst->val;
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$$->type = $1->oconst->type;
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}
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| LIOTA
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{
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$$ = nodintconst(iota);
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@ -1023,14 +1016,6 @@ lpack:
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}
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*/
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laconst:
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LACONST
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| lpack '.' LACONST
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{
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$$ = $3;
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context = nil;
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}
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lname:
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LNAME
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| lpack '.' LNAME
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@ -1082,7 +1067,6 @@ onew_name:
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sym:
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LATYPE
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| LNAME
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| LACONST
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| LPACK
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sym1:
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@ -1112,7 +1096,6 @@ sym3:
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| LPRINTN
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| LNEW
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| LMAKE
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| LBASETYPE
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/*
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* keywords that we can
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@ -2129,20 +2112,8 @@ lpack:
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YYERROR;
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}
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laconst:
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LATYPE
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{
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yyerror("%s is type, not var", $1->name);
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YYERROR;
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}
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latype:
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LACONST
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{
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yyerror("%s is const, not type", $1->name);
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YYERROR;
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}
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| LPACK
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LPACK
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{
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yyerror("%s is package, not type", $1->name);
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YYERROR;
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@ -64,7 +64,7 @@ main(int argc, char *argv[])
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fatal("betypeinit failed");
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lexinit();
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typeinit(LBASETYPE);
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typeinit(LATYPE);
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lineno = 1;
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block = 1;
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@ -775,8 +775,6 @@ talph:
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DBG("lex: %S %s\n", s, lexname(s->lexical));
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yylval.sym = s;
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if(s->lexical == LBASETYPE)
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return LATYPE;
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return s->lexical;
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tnum:
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@ -1111,25 +1109,25 @@ static struct
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/* name lexical etype
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*/
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/* basic types */
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"int8", LBASETYPE, TINT8,
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"int16", LBASETYPE, TINT16,
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"int32", LBASETYPE, TINT32,
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"int64", LBASETYPE, TINT64,
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"int8", LATYPE, TINT8,
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"int16", LATYPE, TINT16,
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"int32", LATYPE, TINT32,
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"int64", LATYPE, TINT64,
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"uint8", LBASETYPE, TUINT8,
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"uint16", LBASETYPE, TUINT16,
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"uint32", LBASETYPE, TUINT32,
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"uint64", LBASETYPE, TUINT64,
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"uint8", LATYPE, TUINT8,
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"uint16", LATYPE, TUINT16,
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"uint32", LATYPE, TUINT32,
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"uint64", LATYPE, TUINT64,
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"float32", LBASETYPE, TFLOAT32,
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"float64", LBASETYPE, TFLOAT64,
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"float80", LBASETYPE, TFLOAT80,
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"float32", LATYPE, TFLOAT32,
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"float64", LATYPE, TFLOAT64,
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"float80", LATYPE, TFLOAT80,
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"bool", LBASETYPE, TBOOL,
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"byte", LBASETYPE, TUINT8,
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"string", LBASETYPE, TSTRING,
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"bool", LATYPE, TBOOL,
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"byte", LATYPE, TUINT8,
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"string", LATYPE, TSTRING,
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"any", LBASETYPE, TANY,
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"any", LATYPE, TANY,
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"break", LBREAK, Txxx,
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"case", LCASE, Txxx,
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@ -1197,10 +1195,10 @@ lexinit(void)
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s->lexical = lex;
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s->package = package;
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if(lex != LBASETYPE)
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etype = syms[i].etype;
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if(etype == Txxx)
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continue;
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etype = syms[i].etype;
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if(etype < 0 || etype >= nelem(types))
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fatal("lexinit: %s bad etype", s->name);
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@ -1234,9 +1232,6 @@ struct
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{
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LANDAND, "ANDAND",
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LASOP, "ASOP",
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LACONST, "ACONST",
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LATYPE, "ATYPE",
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LBASETYPE, "BASETYPE",
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LBREAK, "BREAK",
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LCASE, "CASE",
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LCHAN, "CHAN",
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@ -10,7 +10,7 @@ exvar.install: fmt.install http.install io.install log.install strconv.install s
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flag.install: fmt.install os.install strconv.install
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fmt.install: io.install os.install reflect.install strconv.install utf8.install
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go/ast.install: go/token.install unicode.install utf8.install
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go/doc.install: container/vector.install fmt.install go/ast.install go/token.install io.install once.install regexp.install sort.install strings.install
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go/doc.install: container/vector.install fmt.install go/ast.install go/token.install io.install once.install regexp.install sort.install strings.install template.install
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go/parser.install: container/vector.install fmt.install go/ast.install go/scanner.install go/token.install io.install os.install
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go/scanner.install: go/token.install strconv.install unicode.install utf8.install
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go/token.install: strconv.install
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@ -39,7 +39,7 @@ syscall.install: sync.install
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tabwriter.install: container/vector.install io.install os.install utf8.install
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template.install: container/vector.install fmt.install io.install os.install reflect.install runtime.install strings.install
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testing.install: flag.install fmt.install os.install runtime.install
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testing/iotest.install: io.install os.install
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testing/iotest.install: io.install log.install os.install
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time.install: io.install once.install os.install syscall.install
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unicode.install:
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utf8.install:
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@ -109,11 +109,11 @@ func (b *Reader) fill() os.Error {
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return nil
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}
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// Read reads data into p.
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// It returns the number of bytes read into p.
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// If nn < len(p), also returns an error explaining
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// Read reads data into p, returning the number of bytes read.
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// Read reads as much data as possible into p.
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// If nn < len(p), Read also returns an error explaining
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// why the read is short. At EOF, the count will be
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// zero and err will be io.ErrEOF.
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// zero and err will be io.ErrUnexpectedEOF.
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func (b *Reader) Read(p []byte) (nn int, err os.Error) {
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nn = 0;
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for len(p) > 0 {
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@ -69,7 +69,19 @@ type ReadWriteCloser interface {
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Closer;
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}
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// Convert a string to an array of bytes for easy marshaling.
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// ReadByter is the interface that wraps the basic ReadByte method.
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// Implementations of ReadByte typically use buffered I/O.
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type ReadByter interface {
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ReadByte() (byte, os.Error);
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}
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// WriteByter is the interface that wraps the basic WriteByte method.
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// Implementations of WriteByte typically use buffered I/O.
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type WriteByter interface {
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WriteByte(byte) os.Error;
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}
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// StringBytes converts a string to an array of bytes for easy marshaling.
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func StringBytes(s string) []byte {
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b := make([]byte, len(s));
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for i := 0; i < len(s); i++ {
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@ -21,7 +21,9 @@ type pipeReturn struct {
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// Shared pipe structure.
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type pipe struct {
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rclosed bool; // Read end closed?
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rerr os.Error; // Error supplied to CloseReader
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wclosed bool; // Write end closed?
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werr os.Error; // Error supplied to CloseWriter
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wpend []byte; // Written data waiting to be read.
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wtot int; // Bytes consumed so far in current write.
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cr chan []byte; // Write sends data here...
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@ -39,7 +41,7 @@ func (p *pipe) Read(data []byte) (n int, err os.Error) {
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p.wpend = <-p.cr;
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}
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if p.wpend == nil {
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return 0, nil;
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return 0, p.werr;
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}
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p.wtot = 0;
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}
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@ -70,7 +72,7 @@ func (p *pipe) Write(data []byte) (n int, err os.Error) {
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return 0, os.EINVAL;
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}
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if p.rclosed {
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return 0, os.EPIPE;
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return 0, p.rerr;
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}
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// Send data to reader.
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@ -81,29 +83,34 @@ func (p *pipe) Write(data []byte) (n int, err os.Error) {
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return res.n, res.err;
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}
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func (p *pipe) CloseReader() os.Error {
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func (p *pipe) CloseReader(rerr os.Error) os.Error {
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if p == nil || p.rclosed {
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return os.EINVAL;
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}
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// Stop any future writes.
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p.rclosed = true;
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if rerr == nil {
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rerr = os.EPIPE;
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}
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p.rerr = rerr;
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// Stop the current write.
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if !p.wclosed {
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p.cw <- pipeReturn{p.wtot, os.EPIPE};
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p.cw <- pipeReturn{p.wtot, rerr};
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}
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return nil;
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}
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func (p *pipe) CloseWriter() os.Error {
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func (p *pipe) CloseWriter(werr os.Error) os.Error {
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if p == nil || p.wclosed {
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return os.EINVAL;
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}
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// Stop any future reads.
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p.wclosed = true;
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p.werr = werr;
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// Stop the current read.
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if !p.rclosed {
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@ -121,70 +128,97 @@ func (p *pipe) CloseWriter() os.Error {
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// 2. Clients cannot use interface conversions on the
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// read end to find the Write method, and vice versa.
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// Read half of pipe.
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type pipeRead struct {
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// A PipeReader is the read half of a pipe.
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type PipeReader struct {
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lock sync.Mutex;
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p *pipe;
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}
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func (r *pipeRead) Read(data []byte) (n int, err os.Error) {
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// Read implements the standard Read interface:
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// it reads data from the pipe, blocking until a writer
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// arrives or the write end is closed.
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// If the write end is closed with an error, that error is
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// returned as err; otherwise err is nil.
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func (r *PipeReader) Read(data []byte) (n int, err os.Error) {
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r.lock.Lock();
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defer r.lock.Unlock();
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return r.p.Read(data);
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}
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func (r *pipeRead) Close() os.Error {
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// Close closes the reader; subsequent writes to the
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// write half of the pipe will return the error os.EPIPE.
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func (r *PipeReader) Close() os.Error {
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r.lock.Lock();
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defer r.lock.Unlock();
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return r.p.CloseReader();
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return r.p.CloseReader(nil);
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}
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func (r *pipeRead) finish() {
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// CloseWithError closes the reader; subsequent writes
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// to the write half of the pipe will return the error rerr.
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func (r *PipeReader) CloseWithError(rerr os.Error) os.Error {
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r.lock.Lock();
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defer r.lock.Unlock();
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return r.p.CloseReader(rerr);
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}
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func (r *PipeReader) finish() {
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r.Close();
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}
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// Write half of pipe.
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type pipeWrite struct {
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type PipeWriter struct {
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lock sync.Mutex;
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p *pipe;
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}
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func (w *pipeWrite) Write(data []byte) (n int, err os.Error) {
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// Write implements the standard Write interface:
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// it writes data to the pipe, blocking until readers
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// have consumed all the data or the read end is closed.
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// If the read end is closed with an error, that err is
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// returned as err; otherwise err is os.EPIPE.
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func (w *PipeWriter) Write(data []byte) (n int, err os.Error) {
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w.lock.Lock();
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defer w.lock.Unlock();
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return w.p.Write(data);
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}
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func (w *pipeWrite) Close() os.Error {
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// Close closes the writer; subsequent reads from the
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// read half of the pipe will return no bytes and a nil error.
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func (w *PipeWriter) Close() os.Error {
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w.lock.Lock();
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defer w.lock.Unlock();
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|
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return w.p.CloseWriter();
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return w.p.CloseWriter(nil);
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}
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func (w *pipeWrite) finish() {
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// CloseWithError closes the writer; subsequent reads from the
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// read half of the pipe will return no bytes and the error werr.
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func (w *PipeWriter) CloseWithError(werr os.Error) os.Error {
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w.lock.Lock();
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defer w.lock.Unlock();
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return w.p.CloseWriter(werr);
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}
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func (w *PipeWriter) finish() {
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w.Close();
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}
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// Pipe creates a synchronous in-memory pipe.
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// Used to connect code expecting an io.Reader
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// It can be used to connect code expecting an io.Reader
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// with code expecting an io.Writer.
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//
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||||
// Reads on one end are matched by writes on the other.
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// Writes don't complete until all the data has been
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// written or the read end is closed. Reads return
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// any available data or block until the next write
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// or the write end is closed.
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func Pipe() (io.ReadCloser, io.WriteCloser) {
|
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// Reads on one end are matched with writes on the other.
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func Pipe() (*PipeReader, *PipeWriter) {
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p := new(pipe);
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p.cr = make(chan []byte, 1);
|
||||
p.cw = make(chan pipeReturn, 1);
|
||||
r := new(pipeRead);
|
||||
r := new(PipeReader);
|
||||
r.p = p;
|
||||
w := new(pipeWrite);
|
||||
w := new(PipeWriter);
|
||||
w.p = p;
|
||||
return r, w;
|
||||
}
|
||||
|
121
src/lib/runtime/types.go
Normal file
121
src/lib/runtime/types.go
Normal file
@ -0,0 +1,121 @@
|
||||
// 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.
|
||||
|
||||
// TODO(rsc): Doc comments
|
||||
|
||||
package runtime
|
||||
|
||||
import "unsafe"
|
||||
|
||||
// The Type interface stands for any of the run-time type structures
|
||||
// in this package.
|
||||
type Type interface { }
|
||||
|
||||
// All types begin with a few common fields needed for
|
||||
// the interface runtime.
|
||||
type CommonType struct {
|
||||
Size uintptr;
|
||||
Hash uint32;
|
||||
Alg uint8;
|
||||
Align uint8;
|
||||
FieldAlign uint8;
|
||||
}
|
||||
|
||||
// Basic types; should these be one struct with an enum kind?
|
||||
// The benefit of splitting them up into many types is that
|
||||
// one can use a single type switch instead of needing an
|
||||
// enum switch inside a type switch.
|
||||
type BoolType CommonType
|
||||
type Float32Type CommonType
|
||||
type Float64Type CommonType
|
||||
type FloatType CommonType
|
||||
type Int16Type CommonType
|
||||
type Int32Type CommonType
|
||||
type Int64Type CommonType
|
||||
type Int8Type CommonType
|
||||
type IntType CommonType
|
||||
type Uint16Type CommonType
|
||||
type Uint32Type CommonType
|
||||
type Uint64Type CommonType
|
||||
type Uint8Type CommonType
|
||||
type UintType CommonType
|
||||
type StringType CommonType
|
||||
type UintptrType CommonType
|
||||
type UnsafePointerType CommonType
|
||||
|
||||
type ArrayType struct {
|
||||
CommonType;
|
||||
Elem *Type;
|
||||
Bound int32; // -1 means slice
|
||||
}
|
||||
|
||||
type ChanDir int
|
||||
const (
|
||||
SendDir ChanDir = 1<<iota;
|
||||
RecvDir;
|
||||
BothDir = SendDir | RecvDir;
|
||||
)
|
||||
|
||||
type ChanType struct {
|
||||
CommonType;
|
||||
Elem *Type;
|
||||
Dir ChanDir;
|
||||
}
|
||||
|
||||
type FuncType struct {
|
||||
CommonType;
|
||||
In []*Type;
|
||||
Out []*Type;
|
||||
}
|
||||
|
||||
type IMethod struct {
|
||||
Name *string;
|
||||
Package *string;
|
||||
Type *Type;
|
||||
}
|
||||
|
||||
type InterfaceType struct {
|
||||
CommonType;
|
||||
Methods []*IMethod;
|
||||
}
|
||||
|
||||
type MapType struct {
|
||||
CommonType;
|
||||
Key *Type;
|
||||
Elem *Type;
|
||||
}
|
||||
|
||||
type Method struct {
|
||||
Name *string;
|
||||
Package *string;
|
||||
Type *Type;
|
||||
Func unsafe.Pointer;
|
||||
}
|
||||
|
||||
type NamedType struct {
|
||||
CommonType;
|
||||
Name *string;
|
||||
Package *string;
|
||||
Type *Type;
|
||||
ValueMethods []*Method;
|
||||
PtrMethods []*Method;
|
||||
}
|
||||
|
||||
type PtrType struct {
|
||||
CommonType;
|
||||
Sub *Type;
|
||||
}
|
||||
|
||||
type StructField struct {
|
||||
Name *string;
|
||||
Type *Type;
|
||||
Tag *string;
|
||||
Offset uintptr;
|
||||
}
|
||||
|
||||
type StructType struct {
|
||||
CommonType;
|
||||
Fields []*StructField;
|
||||
}
|
||||
|
@ -2,19 +2,19 @@
|
||||
// Use of this source code is governed by a BSD-style
|
||||
// license that can be found in the LICENSE file.
|
||||
|
||||
// The sync package provides basic synchronization primitives
|
||||
// such as mutual exclusion locks. These are intended for use
|
||||
// by low-level library routines. Higher-level synchronization
|
||||
// is better done via channels and communication.
|
||||
/*
|
||||
The sync /* package * / provides basic sync primitives.
|
||||
// Such as mutual exclusion locks.
|
||||
*/
|
||||
package sync
|
||||
|
||||
func cas(val *int32, old, new int32) bool
|
||||
func semacquire(*int32)
|
||||
func semrelease(*int32)
|
||||
|
||||
// A Mutex is a mutual exclusion lock.
|
||||
// Mutexes can be created as part of other structures;
|
||||
// the zero value for a Mutex is an unlocked mutex.
|
||||
// A Mutex is a mutual exclusion lock.
|
||||
// Mutexes can be created as part of other structures;
|
||||
// the zero value for a Mutex is an unlocked mutex.
|
||||
type Mutex struct {
|
||||
key int32;
|
||||
sema int32;
|
||||
@ -30,9 +30,11 @@ func xadd(val *int32, delta int32) (new int32) {
|
||||
panic("unreached")
|
||||
}
|
||||
|
||||
// Lock locks m.
|
||||
// If the lock is already in use, the calling goroutine
|
||||
// blocks until the mutex is available.
|
||||
/*
|
||||
* Lock locks m.
|
||||
* If the lock is already in use, the calling goroutine
|
||||
* blocks until the mutex is available.
|
||||
*/
|
||||
func (m *Mutex) Lock() {
|
||||
if xadd(&m.key, 1) == 1 {
|
||||
// changed from 0 to 1; we hold lock
|
||||
|
Loading…
Reference in New Issue
Block a user