github.com/flyinox/gosm@v0.0.0-20171117061539-16768cb62077/src/cmd/compile/internal/gc/noder.go (about) 1 // Copyright 2016 The Go Authors. All rights reserved. 2 // Use of this source code is governed by a BSD-style 3 // license that can be found in the LICENSE file. 4 5 package gc 6 7 import ( 8 "fmt" 9 "os" 10 "runtime" 11 "strconv" 12 "strings" 13 "unicode/utf8" 14 15 "cmd/compile/internal/syntax" 16 "cmd/compile/internal/types" 17 "cmd/internal/objabi" 18 "cmd/internal/src" 19 ) 20 21 func parseFiles(filenames []string) uint { 22 var lines uint 23 var noders []*noder 24 // Limit the number of simultaneously open files. 25 sem := make(chan struct{}, runtime.GOMAXPROCS(0)+10) 26 27 for _, filename := range filenames { 28 p := &noder{err: make(chan syntax.Error)} 29 noders = append(noders, p) 30 31 go func(filename string) { 32 sem <- struct{}{} 33 defer func() { <-sem }() 34 defer close(p.err) 35 base := src.NewFileBase(filename, absFilename(filename)) 36 37 f, err := os.Open(filename) 38 if err != nil { 39 p.error(syntax.Error{Pos: src.MakePos(base, 0, 0), Msg: err.Error()}) 40 return 41 } 42 defer f.Close() 43 44 p.file, _ = syntax.Parse(base, f, p.error, p.pragma, fileh, syntax.CheckBranches) // errors are tracked via p.error 45 }(filename) 46 } 47 48 for _, p := range noders { 49 for e := range p.err { 50 yyerrorpos(e.Pos, "%s", e.Msg) 51 } 52 53 p.node() 54 lines += p.file.Lines 55 p.file = nil // release memory 56 57 if nsyntaxerrors != 0 { 58 errorexit() 59 } 60 // Always run testdclstack here, even when debug_dclstack is not set, as a sanity measure. 61 testdclstack() 62 } 63 64 return lines 65 } 66 67 func yyerrorpos(pos src.Pos, format string, args ...interface{}) { 68 yyerrorl(Ctxt.PosTable.XPos(pos), format, args...) 69 } 70 71 var pathPrefix string 72 73 func fileh(name string) string { 74 return objabi.AbsFile("", name, pathPrefix) 75 } 76 77 func absFilename(name string) string { 78 return objabi.AbsFile(Ctxt.Pathname, name, pathPrefix) 79 } 80 81 // noder transforms package syntax's AST into a Node tree. 82 type noder struct { 83 file *syntax.File 84 linknames []linkname 85 pragcgobuf string 86 err chan syntax.Error 87 scope ScopeID 88 } 89 90 func (p *noder) funchdr(n *Node, pos src.Pos) ScopeID { 91 old := p.scope 92 p.scope = 0 93 funchdr(n) 94 return old 95 } 96 97 func (p *noder) funcbody(n *Node, pos src.Pos, old ScopeID) { 98 funcbody(n) 99 p.scope = old 100 } 101 102 func (p *noder) openScope(pos src.Pos) { 103 types.Markdcl() 104 105 if trackScopes { 106 Curfn.Func.Parents = append(Curfn.Func.Parents, p.scope) 107 p.scope = ScopeID(len(Curfn.Func.Parents)) 108 109 p.markScope(pos) 110 } 111 } 112 113 func (p *noder) closeScope(pos src.Pos) { 114 types.Popdcl() 115 116 if trackScopes { 117 p.scope = Curfn.Func.Parents[p.scope-1] 118 119 p.markScope(pos) 120 } 121 } 122 123 func (p *noder) markScope(pos src.Pos) { 124 xpos := Ctxt.PosTable.XPos(pos) 125 if i := len(Curfn.Func.Marks); i > 0 && Curfn.Func.Marks[i-1].Pos == xpos { 126 Curfn.Func.Marks[i-1].Scope = p.scope 127 } else { 128 Curfn.Func.Marks = append(Curfn.Func.Marks, Mark{xpos, p.scope}) 129 } 130 } 131 132 // closeAnotherScope is like closeScope, but it reuses the same mark 133 // position as the last closeScope call. This is useful for "for" and 134 // "if" statements, as their implicit blocks always end at the same 135 // position as an explicit block. 136 func (p *noder) closeAnotherScope() { 137 types.Popdcl() 138 139 if trackScopes { 140 p.scope = Curfn.Func.Parents[p.scope-1] 141 Curfn.Func.Marks[len(Curfn.Func.Marks)-1].Scope = p.scope 142 } 143 } 144 145 // linkname records a //go:linkname directive. 146 type linkname struct { 147 pos src.Pos 148 local string 149 remote string 150 } 151 152 func (p *noder) node() { 153 types.Block = 1 154 imported_unsafe = false 155 156 p.lineno(p.file.PkgName) 157 mkpackage(p.file.PkgName.Value) 158 159 xtop = append(xtop, p.decls(p.file.DeclList)...) 160 161 for _, n := range p.linknames { 162 if imported_unsafe { 163 lookup(n.local).Linkname = n.remote 164 } else { 165 yyerrorpos(n.pos, "//go:linkname only allowed in Go files that import \"unsafe\"") 166 } 167 } 168 169 pragcgobuf += p.pragcgobuf 170 lineno = src.NoXPos 171 clearImports() 172 } 173 174 func (p *noder) decls(decls []syntax.Decl) (l []*Node) { 175 var cs constState 176 177 for _, decl := range decls { 178 p.lineno(decl) 179 switch decl := decl.(type) { 180 case *syntax.ImportDecl: 181 p.importDecl(decl) 182 183 case *syntax.VarDecl: 184 l = append(l, p.varDecl(decl)...) 185 186 case *syntax.ConstDecl: 187 l = append(l, p.constDecl(decl, &cs)...) 188 189 case *syntax.TypeDecl: 190 l = append(l, p.typeDecl(decl)) 191 192 case *syntax.FuncDecl: 193 l = append(l, p.funcDecl(decl)) 194 195 default: 196 panic("unhandled Decl") 197 } 198 } 199 200 return 201 } 202 203 func (p *noder) importDecl(imp *syntax.ImportDecl) { 204 val := p.basicLit(imp.Path) 205 ipkg := importfile(&val) 206 207 if ipkg == nil { 208 if nerrors == 0 { 209 Fatalf("phase error in import") 210 } 211 return 212 } 213 214 ipkg.Direct = true 215 216 var my *types.Sym 217 if imp.LocalPkgName != nil { 218 my = p.name(imp.LocalPkgName) 219 } else { 220 my = lookup(ipkg.Name) 221 } 222 223 pack := p.nod(imp, OPACK, nil, nil) 224 pack.Sym = my 225 pack.Name.Pkg = ipkg 226 227 if my.Name == "." { 228 importdot(ipkg, pack) 229 return 230 } 231 if my.Name == "init" { 232 yyerrorl(pack.Pos, "cannot import package as init - init must be a func") 233 return 234 } 235 if my.Name == "_" { 236 return 237 } 238 if my.Def != nil { 239 lineno = pack.Pos 240 redeclare(my, "as imported package name") 241 } 242 my.Def = asTypesNode(pack) 243 my.Lastlineno = pack.Pos 244 my.Block = 1 // at top level 245 } 246 247 func (p *noder) varDecl(decl *syntax.VarDecl) []*Node { 248 names := p.declNames(decl.NameList) 249 typ := p.typeExprOrNil(decl.Type) 250 251 var exprs []*Node 252 if decl.Values != nil { 253 exprs = p.exprList(decl.Values) 254 } 255 256 p.lineno(decl) 257 return variter(names, typ, exprs) 258 } 259 260 // constState tracks state between constant specifiers within a 261 // declaration group. This state is kept separate from noder so nested 262 // constant declarations are handled correctly (e.g., issue 15550). 263 type constState struct { 264 group *syntax.Group 265 typ *Node 266 values []*Node 267 iota int64 268 } 269 270 func (p *noder) constDecl(decl *syntax.ConstDecl, cs *constState) []*Node { 271 if decl.Group == nil || decl.Group != cs.group { 272 *cs = constState{ 273 group: decl.Group, 274 } 275 } 276 277 names := p.declNames(decl.NameList) 278 typ := p.typeExprOrNil(decl.Type) 279 280 var values []*Node 281 if decl.Values != nil { 282 values = p.exprList(decl.Values) 283 cs.typ, cs.values = typ, values 284 } else { 285 if typ != nil { 286 yyerror("const declaration cannot have type without expression") 287 } 288 typ, values = cs.typ, cs.values 289 } 290 291 var nn []*Node 292 for i, n := range names { 293 if i >= len(values) { 294 yyerror("missing value in const declaration") 295 break 296 } 297 v := values[i] 298 if decl.Values == nil { 299 v = treecopy(v, n.Pos) 300 } 301 302 n.Op = OLITERAL 303 declare(n, dclcontext) 304 305 n.Name.Param.Ntype = typ 306 n.Name.Defn = v 307 n.SetIota(cs.iota) 308 309 nn = append(nn, p.nod(decl, ODCLCONST, n, nil)) 310 } 311 312 if len(values) > len(names) { 313 yyerror("extra expression in const declaration") 314 } 315 316 cs.iota++ 317 318 return nn 319 } 320 321 func (p *noder) typeDecl(decl *syntax.TypeDecl) *Node { 322 n := p.declName(decl.Name) 323 n.Op = OTYPE 324 declare(n, dclcontext) 325 n.SetLocal(true) 326 327 // decl.Type may be nil but in that case we got a syntax error during parsing 328 typ := p.typeExprOrNil(decl.Type) 329 330 param := n.Name.Param 331 param.Ntype = typ 332 param.Pragma = decl.Pragma 333 param.Alias = decl.Alias 334 if param.Alias && param.Pragma != 0 { 335 yyerror("cannot specify directive with type alias") 336 param.Pragma = 0 337 } 338 339 return p.nod(decl, ODCLTYPE, n, nil) 340 341 } 342 343 func (p *noder) declNames(names []*syntax.Name) []*Node { 344 var nodes []*Node 345 for _, name := range names { 346 nodes = append(nodes, p.declName(name)) 347 } 348 return nodes 349 } 350 351 func (p *noder) declName(name *syntax.Name) *Node { 352 // TODO(mdempsky): Set lineno? 353 return dclname(p.name(name)) 354 } 355 356 func (p *noder) funcDecl(fun *syntax.FuncDecl) *Node { 357 name := p.name(fun.Name) 358 t := p.signature(fun.Recv, fun.Type) 359 f := p.nod(fun, ODCLFUNC, nil, nil) 360 361 if fun.Recv == nil { 362 if name.Name == "init" { 363 name = renameinit() 364 if t.List.Len() > 0 || t.Rlist.Len() > 0 { 365 yyerrorl(f.Pos, "func init must have no arguments and no return values") 366 } 367 } 368 369 if localpkg.Name == "main" && name.Name == "main" { 370 if t.List.Len() > 0 || t.Rlist.Len() > 0 { 371 yyerrorl(f.Pos, "func main must have no arguments and no return values") 372 } 373 } 374 } else { 375 f.Func.Shortname = name 376 name = nblank.Sym // filled in by typecheckfunc 377 } 378 379 f.Func.Nname = newfuncname(name) 380 f.Func.Nname.Name.Defn = f 381 f.Func.Nname.Name.Param.Ntype = t 382 383 pragma := fun.Pragma 384 f.Func.Pragma = fun.Pragma 385 f.SetNoescape(pragma&Noescape != 0) 386 if pragma&Systemstack != 0 && pragma&Nosplit != 0 { 387 yyerrorl(f.Pos, "go:nosplit and go:systemstack cannot be combined") 388 } 389 390 if fun.Recv == nil { 391 declare(f.Func.Nname, PFUNC) 392 } 393 394 oldScope := p.funchdr(f, fun.Pos()) 395 396 endPos := fun.Pos() 397 if fun.Body != nil { 398 if f.Noescape() { 399 yyerrorl(f.Pos, "can only use //go:noescape with external func implementations") 400 } 401 402 body := p.stmts(fun.Body.List) 403 if body == nil { 404 body = []*Node{p.nod(fun, OEMPTY, nil, nil)} 405 } 406 f.Nbody.Set(body) 407 408 endPos = fun.Body.Rbrace 409 lineno = Ctxt.PosTable.XPos(fun.Body.Rbrace) 410 f.Func.Endlineno = lineno 411 } else { 412 if pure_go || strings.HasPrefix(f.funcname(), "init.") { 413 yyerrorl(f.Pos, "missing function body") 414 } 415 } 416 417 p.funcbody(f, endPos, oldScope) 418 return f 419 } 420 421 func (p *noder) signature(recv *syntax.Field, typ *syntax.FuncType) *Node { 422 n := p.nod(typ, OTFUNC, nil, nil) 423 if recv != nil { 424 n.Left = p.param(recv, false, false) 425 } 426 n.List.Set(p.params(typ.ParamList, true)) 427 n.Rlist.Set(p.params(typ.ResultList, false)) 428 return n 429 } 430 431 func (p *noder) params(params []*syntax.Field, dddOk bool) []*Node { 432 var nodes []*Node 433 for i, param := range params { 434 p.lineno(param) 435 nodes = append(nodes, p.param(param, dddOk, i+1 == len(params))) 436 } 437 return nodes 438 } 439 440 func (p *noder) param(param *syntax.Field, dddOk, final bool) *Node { 441 var name *Node 442 if param.Name != nil { 443 name = p.newname(param.Name) 444 } 445 446 typ := p.typeExpr(param.Type) 447 n := p.nod(param, ODCLFIELD, name, typ) 448 449 // rewrite ...T parameter 450 if typ.Op == ODDD { 451 if !dddOk { 452 yyerror("cannot use ... in receiver or result parameter list") 453 } else if !final { 454 yyerror("can only use ... with final parameter in list") 455 } 456 typ.Op = OTARRAY 457 typ.Right = typ.Left 458 typ.Left = nil 459 n.SetIsddd(true) 460 if n.Left != nil { 461 n.Left.SetIsddd(true) 462 } 463 } 464 465 return n 466 } 467 468 func (p *noder) exprList(expr syntax.Expr) []*Node { 469 if list, ok := expr.(*syntax.ListExpr); ok { 470 return p.exprs(list.ElemList) 471 } 472 return []*Node{p.expr(expr)} 473 } 474 475 func (p *noder) exprs(exprs []syntax.Expr) []*Node { 476 var nodes []*Node 477 for _, expr := range exprs { 478 nodes = append(nodes, p.expr(expr)) 479 } 480 return nodes 481 } 482 483 func (p *noder) expr(expr syntax.Expr) *Node { 484 p.lineno(expr) 485 switch expr := expr.(type) { 486 case nil, *syntax.BadExpr: 487 return nil 488 case *syntax.Name: 489 return p.mkname(expr) 490 case *syntax.BasicLit: 491 return p.setlineno(expr, nodlit(p.basicLit(expr))) 492 493 case *syntax.CompositeLit: 494 n := p.nod(expr, OCOMPLIT, nil, nil) 495 if expr.Type != nil { 496 n.Right = p.expr(expr.Type) 497 } 498 l := p.exprs(expr.ElemList) 499 for i, e := range l { 500 l[i] = p.wrapname(expr.ElemList[i], e) 501 } 502 n.List.Set(l) 503 lineno = Ctxt.PosTable.XPos(expr.Rbrace) 504 return n 505 case *syntax.KeyValueExpr: 506 return p.nod(expr, OKEY, p.expr(expr.Key), p.wrapname(expr.Value, p.expr(expr.Value))) 507 case *syntax.FuncLit: 508 return p.funcLit(expr) 509 case *syntax.ParenExpr: 510 return p.nod(expr, OPAREN, p.expr(expr.X), nil) 511 case *syntax.SelectorExpr: 512 // parser.new_dotname 513 obj := p.expr(expr.X) 514 if obj.Op == OPACK { 515 obj.Name.SetUsed(true) 516 return oldname(restrictlookup(expr.Sel.Value, obj.Name.Pkg)) 517 } 518 return p.setlineno(expr, nodSym(OXDOT, obj, p.name(expr.Sel))) 519 case *syntax.IndexExpr: 520 return p.nod(expr, OINDEX, p.expr(expr.X), p.expr(expr.Index)) 521 case *syntax.SliceExpr: 522 op := OSLICE 523 if expr.Full { 524 op = OSLICE3 525 } 526 n := p.nod(expr, op, p.expr(expr.X), nil) 527 var index [3]*Node 528 for i, x := range expr.Index { 529 if x != nil { 530 index[i] = p.expr(x) 531 } 532 } 533 n.SetSliceBounds(index[0], index[1], index[2]) 534 return n 535 case *syntax.AssertExpr: 536 if expr.Type == nil { 537 panic("unexpected AssertExpr") 538 } 539 // TODO(mdempsky): parser.pexpr uses p.expr(), but 540 // seems like the type field should be parsed with 541 // ntype? Shrug, doesn't matter here. 542 return p.nod(expr, ODOTTYPE, p.expr(expr.X), p.expr(expr.Type)) 543 case *syntax.Operation: 544 x := p.expr(expr.X) 545 if expr.Y == nil { 546 if expr.Op == syntax.And { 547 x = unparen(x) // TODO(mdempsky): Needed? 548 if x.Op == OCOMPLIT { 549 // Special case for &T{...}: turn into (*T){...}. 550 // TODO(mdempsky): Switch back to p.nod after we 551 // get rid of gcCompat. 552 x.Right = nod(OIND, x.Right, nil) 553 x.Right.SetImplicit(true) 554 return x 555 } 556 } 557 return p.nod(expr, p.unOp(expr.Op), x, nil) 558 } 559 return p.nod(expr, p.binOp(expr.Op), x, p.expr(expr.Y)) 560 case *syntax.CallExpr: 561 n := p.nod(expr, OCALL, p.expr(expr.Fun), nil) 562 n.List.Set(p.exprs(expr.ArgList)) 563 n.SetIsddd(expr.HasDots) 564 return n 565 566 case *syntax.ArrayType: 567 var len *Node 568 if expr.Len != nil { 569 len = p.expr(expr.Len) 570 } else { 571 len = p.nod(expr, ODDD, nil, nil) 572 } 573 return p.nod(expr, OTARRAY, len, p.typeExpr(expr.Elem)) 574 case *syntax.SliceType: 575 return p.nod(expr, OTARRAY, nil, p.typeExpr(expr.Elem)) 576 case *syntax.DotsType: 577 return p.nod(expr, ODDD, p.typeExpr(expr.Elem), nil) 578 case *syntax.StructType: 579 return p.structType(expr) 580 case *syntax.InterfaceType: 581 return p.interfaceType(expr) 582 case *syntax.FuncType: 583 return p.signature(nil, expr) 584 case *syntax.MapType: 585 return p.nod(expr, OTMAP, p.typeExpr(expr.Key), p.typeExpr(expr.Value)) 586 case *syntax.ChanType: 587 n := p.nod(expr, OTCHAN, p.typeExpr(expr.Elem), nil) 588 n.Etype = types.EType(p.chanDir(expr.Dir)) 589 return n 590 591 case *syntax.TypeSwitchGuard: 592 n := p.nod(expr, OTYPESW, nil, p.expr(expr.X)) 593 if expr.Lhs != nil { 594 n.Left = p.declName(expr.Lhs) 595 if isblank(n.Left) { 596 yyerror("invalid variable name %v in type switch", n.Left) 597 } 598 } 599 return n 600 } 601 panic("unhandled Expr") 602 } 603 604 func (p *noder) typeExpr(typ syntax.Expr) *Node { 605 // TODO(mdempsky): Be stricter? typecheck should handle errors anyway. 606 return p.expr(typ) 607 } 608 609 func (p *noder) typeExprOrNil(typ syntax.Expr) *Node { 610 if typ != nil { 611 return p.expr(typ) 612 } 613 return nil 614 } 615 616 func (p *noder) chanDir(dir syntax.ChanDir) types.ChanDir { 617 switch dir { 618 case 0: 619 return types.Cboth 620 case syntax.SendOnly: 621 return types.Csend 622 case syntax.RecvOnly: 623 return types.Crecv 624 } 625 panic("unhandled ChanDir") 626 } 627 628 func (p *noder) structType(expr *syntax.StructType) *Node { 629 var l []*Node 630 for i, field := range expr.FieldList { 631 p.lineno(field) 632 var n *Node 633 if field.Name == nil { 634 n = p.embedded(field.Type) 635 } else { 636 n = p.nod(field, ODCLFIELD, p.newname(field.Name), p.typeExpr(field.Type)) 637 } 638 if i < len(expr.TagList) && expr.TagList[i] != nil { 639 n.SetVal(p.basicLit(expr.TagList[i])) 640 } 641 l = append(l, n) 642 } 643 644 p.lineno(expr) 645 n := p.nod(expr, OTSTRUCT, nil, nil) 646 n.List.Set(l) 647 return n 648 } 649 650 func (p *noder) interfaceType(expr *syntax.InterfaceType) *Node { 651 var l []*Node 652 for _, method := range expr.MethodList { 653 p.lineno(method) 654 var n *Node 655 if method.Name == nil { 656 n = p.nod(method, ODCLFIELD, nil, oldname(p.packname(method.Type))) 657 } else { 658 mname := p.newname(method.Name) 659 sig := p.typeExpr(method.Type) 660 sig.Left = fakeRecv() 661 n = p.nod(method, ODCLFIELD, mname, sig) 662 ifacedcl(n) 663 } 664 l = append(l, n) 665 } 666 667 n := p.nod(expr, OTINTER, nil, nil) 668 n.List.Set(l) 669 return n 670 } 671 672 func (p *noder) packname(expr syntax.Expr) *types.Sym { 673 switch expr := expr.(type) { 674 case *syntax.Name: 675 name := p.name(expr) 676 if n := oldname(name); n.Name != nil && n.Name.Pack != nil { 677 n.Name.Pack.Name.SetUsed(true) 678 } 679 return name 680 case *syntax.SelectorExpr: 681 name := p.name(expr.X.(*syntax.Name)) 682 var pkg *types.Pkg 683 if asNode(name.Def) == nil || asNode(name.Def).Op != OPACK { 684 yyerror("%v is not a package", name) 685 pkg = localpkg 686 } else { 687 asNode(name.Def).Name.SetUsed(true) 688 pkg = asNode(name.Def).Name.Pkg 689 } 690 return restrictlookup(expr.Sel.Value, pkg) 691 } 692 panic(fmt.Sprintf("unexpected packname: %#v", expr)) 693 } 694 695 func (p *noder) embedded(typ syntax.Expr) *Node { 696 op, isStar := typ.(*syntax.Operation) 697 if isStar { 698 if op.Op != syntax.Mul || op.Y != nil { 699 panic("unexpected Operation") 700 } 701 typ = op.X 702 } 703 n := embedded(p.packname(typ), localpkg) 704 if isStar { 705 n.Right = p.nod(op, OIND, n.Right, nil) 706 } 707 return n 708 } 709 710 func (p *noder) stmts(stmts []syntax.Stmt) []*Node { 711 var nodes []*Node 712 for _, stmt := range stmts { 713 s := p.stmt(stmt) 714 if s == nil { 715 } else if s.Op == OBLOCK && s.Ninit.Len() == 0 { 716 nodes = append(nodes, s.List.Slice()...) 717 } else { 718 nodes = append(nodes, s) 719 } 720 } 721 return nodes 722 } 723 724 func (p *noder) stmt(stmt syntax.Stmt) *Node { 725 p.lineno(stmt) 726 switch stmt := stmt.(type) { 727 case *syntax.EmptyStmt: 728 return nil 729 case *syntax.LabeledStmt: 730 return p.labeledStmt(stmt) 731 case *syntax.BlockStmt: 732 l := p.blockStmt(stmt) 733 if len(l) == 0 { 734 // TODO(mdempsky): Line number? 735 return nod(OEMPTY, nil, nil) 736 } 737 return liststmt(l) 738 case *syntax.ExprStmt: 739 return p.wrapname(stmt, p.expr(stmt.X)) 740 case *syntax.SendStmt: 741 return p.nod(stmt, OSEND, p.expr(stmt.Chan), p.expr(stmt.Value)) 742 case *syntax.DeclStmt: 743 return liststmt(p.decls(stmt.DeclList)) 744 case *syntax.AssignStmt: 745 if stmt.Op != 0 && stmt.Op != syntax.Def { 746 n := p.nod(stmt, OASOP, p.expr(stmt.Lhs), p.expr(stmt.Rhs)) 747 n.SetImplicit(stmt.Rhs == syntax.ImplicitOne) 748 n.Etype = types.EType(p.binOp(stmt.Op)) 749 return n 750 } 751 752 lhs := p.exprList(stmt.Lhs) 753 rhs := p.exprList(stmt.Rhs) 754 755 n := p.nod(stmt, OAS, nil, nil) // assume common case 756 757 if stmt.Op == syntax.Def { 758 n.SetColas(true) 759 colasdefn(lhs, n) // modifies lhs, call before using lhs[0] in common case 760 } 761 762 if len(lhs) == 1 && len(rhs) == 1 { 763 // common case 764 n.Left = lhs[0] 765 n.Right = rhs[0] 766 } else { 767 n.Op = OAS2 768 n.List.Set(lhs) 769 n.Rlist.Set(rhs) 770 } 771 return n 772 773 case *syntax.BranchStmt: 774 var op Op 775 switch stmt.Tok { 776 case syntax.Break: 777 op = OBREAK 778 case syntax.Continue: 779 op = OCONTINUE 780 case syntax.Fallthrough: 781 op = OXFALL 782 case syntax.Goto: 783 op = OGOTO 784 default: 785 panic("unhandled BranchStmt") 786 } 787 n := p.nod(stmt, op, nil, nil) 788 if stmt.Label != nil { 789 n.Left = p.newname(stmt.Label) 790 } 791 if op == OXFALL { 792 n.Xoffset = int64(types.Block) 793 } 794 return n 795 case *syntax.CallStmt: 796 var op Op 797 switch stmt.Tok { 798 case syntax.Defer: 799 op = ODEFER 800 case syntax.Go: 801 op = OPROC 802 default: 803 panic("unhandled CallStmt") 804 } 805 return p.nod(stmt, op, p.expr(stmt.Call), nil) 806 case *syntax.ReturnStmt: 807 var results []*Node 808 if stmt.Results != nil { 809 results = p.exprList(stmt.Results) 810 } 811 n := p.nod(stmt, ORETURN, nil, nil) 812 n.List.Set(results) 813 if n.List.Len() == 0 && Curfn != nil { 814 for _, ln := range Curfn.Func.Dcl { 815 if ln.Class() == PPARAM { 816 continue 817 } 818 if ln.Class() != PPARAMOUT { 819 break 820 } 821 if asNode(ln.Sym.Def) != ln { 822 yyerror("%s is shadowed during return", ln.Sym.Name) 823 } 824 } 825 } 826 return n 827 case *syntax.IfStmt: 828 return p.ifStmt(stmt) 829 case *syntax.ForStmt: 830 return p.forStmt(stmt) 831 case *syntax.SwitchStmt: 832 return p.switchStmt(stmt) 833 case *syntax.SelectStmt: 834 return p.selectStmt(stmt) 835 } 836 panic("unhandled Stmt") 837 } 838 839 func (p *noder) blockStmt(stmt *syntax.BlockStmt) []*Node { 840 p.openScope(stmt.Pos()) 841 nodes := p.stmts(stmt.List) 842 p.closeScope(stmt.Rbrace) 843 return nodes 844 } 845 846 func (p *noder) ifStmt(stmt *syntax.IfStmt) *Node { 847 p.openScope(stmt.Pos()) 848 n := p.nod(stmt, OIF, nil, nil) 849 if stmt.Init != nil { 850 n.Ninit.Set1(p.stmt(stmt.Init)) 851 } 852 if stmt.Cond != nil { 853 n.Left = p.expr(stmt.Cond) 854 } 855 n.Nbody.Set(p.blockStmt(stmt.Then)) 856 if stmt.Else != nil { 857 e := p.stmt(stmt.Else) 858 if e.Op == OBLOCK && e.Ninit.Len() == 0 { 859 n.Rlist.Set(e.List.Slice()) 860 } else { 861 n.Rlist.Set1(e) 862 } 863 } 864 p.closeAnotherScope() 865 return n 866 } 867 868 func (p *noder) forStmt(stmt *syntax.ForStmt) *Node { 869 p.openScope(stmt.Pos()) 870 var n *Node 871 if r, ok := stmt.Init.(*syntax.RangeClause); ok { 872 if stmt.Cond != nil || stmt.Post != nil { 873 panic("unexpected RangeClause") 874 } 875 876 n = p.nod(r, ORANGE, nil, p.expr(r.X)) 877 if r.Lhs != nil { 878 lhs := p.exprList(r.Lhs) 879 n.List.Set(lhs) 880 if r.Def { 881 n.SetColas(true) 882 colasdefn(lhs, n) 883 } 884 } 885 } else { 886 n = p.nod(stmt, OFOR, nil, nil) 887 if stmt.Init != nil { 888 n.Ninit.Set1(p.stmt(stmt.Init)) 889 } 890 if stmt.Cond != nil { 891 n.Left = p.expr(stmt.Cond) 892 } 893 if stmt.Post != nil { 894 n.Right = p.stmt(stmt.Post) 895 } 896 } 897 n.Nbody.Set(p.blockStmt(stmt.Body)) 898 p.closeAnotherScope() 899 return n 900 } 901 902 func (p *noder) switchStmt(stmt *syntax.SwitchStmt) *Node { 903 p.openScope(stmt.Pos()) 904 n := p.nod(stmt, OSWITCH, nil, nil) 905 if stmt.Init != nil { 906 n.Ninit.Set1(p.stmt(stmt.Init)) 907 } 908 if stmt.Tag != nil { 909 n.Left = p.expr(stmt.Tag) 910 } 911 912 tswitch := n.Left 913 if tswitch != nil && (tswitch.Op != OTYPESW || tswitch.Left == nil) { 914 tswitch = nil 915 } 916 n.List.Set(p.caseClauses(stmt.Body, tswitch, stmt.Rbrace)) 917 918 p.closeScope(stmt.Rbrace) 919 return n 920 } 921 922 func (p *noder) caseClauses(clauses []*syntax.CaseClause, tswitch *Node, rbrace src.Pos) []*Node { 923 var nodes []*Node 924 for i, clause := range clauses { 925 p.lineno(clause) 926 if i > 0 { 927 p.closeScope(clause.Pos()) 928 } 929 p.openScope(clause.Pos()) 930 931 n := p.nod(clause, OXCASE, nil, nil) 932 if clause.Cases != nil { 933 n.List.Set(p.exprList(clause.Cases)) 934 } 935 if tswitch != nil { 936 nn := newname(tswitch.Left.Sym) 937 declare(nn, dclcontext) 938 n.Rlist.Set1(nn) 939 // keep track of the instances for reporting unused 940 nn.Name.Defn = tswitch 941 } 942 n.Xoffset = int64(types.Block) 943 n.Nbody.Set(p.stmts(clause.Body)) 944 nodes = append(nodes, n) 945 } 946 if len(clauses) > 0 { 947 p.closeScope(rbrace) 948 } 949 return nodes 950 } 951 952 func (p *noder) selectStmt(stmt *syntax.SelectStmt) *Node { 953 n := p.nod(stmt, OSELECT, nil, nil) 954 n.List.Set(p.commClauses(stmt.Body, stmt.Rbrace)) 955 return n 956 } 957 958 func (p *noder) commClauses(clauses []*syntax.CommClause, rbrace src.Pos) []*Node { 959 var nodes []*Node 960 for i, clause := range clauses { 961 p.lineno(clause) 962 if i > 0 { 963 p.closeScope(clause.Pos()) 964 } 965 p.openScope(clause.Pos()) 966 967 n := p.nod(clause, OXCASE, nil, nil) 968 if clause.Comm != nil { 969 n.List.Set1(p.stmt(clause.Comm)) 970 } 971 n.Xoffset = int64(types.Block) 972 n.Nbody.Set(p.stmts(clause.Body)) 973 nodes = append(nodes, n) 974 } 975 if len(clauses) > 0 { 976 p.closeScope(rbrace) 977 } 978 return nodes 979 } 980 981 func (p *noder) labeledStmt(label *syntax.LabeledStmt) *Node { 982 lhs := p.nod(label, OLABEL, p.newname(label.Label), nil) 983 984 var ls *Node 985 if label.Stmt != nil { // TODO(mdempsky): Should always be present. 986 ls = p.stmt(label.Stmt) 987 } 988 989 lhs.Name.Defn = ls 990 l := []*Node{lhs} 991 if ls != nil { 992 if ls.Op == OBLOCK && ls.Ninit.Len() == 0 { 993 l = append(l, ls.List.Slice()...) 994 } else { 995 l = append(l, ls) 996 } 997 } 998 return liststmt(l) 999 } 1000 1001 var unOps = [...]Op{ 1002 syntax.Recv: ORECV, 1003 syntax.Mul: OIND, 1004 syntax.And: OADDR, 1005 1006 syntax.Not: ONOT, 1007 syntax.Xor: OCOM, 1008 syntax.Add: OPLUS, 1009 syntax.Sub: OMINUS, 1010 } 1011 1012 func (p *noder) unOp(op syntax.Operator) Op { 1013 if uint64(op) >= uint64(len(unOps)) || unOps[op] == 0 { 1014 panic("invalid Operator") 1015 } 1016 return unOps[op] 1017 } 1018 1019 var binOps = [...]Op{ 1020 syntax.OrOr: OOROR, 1021 syntax.AndAnd: OANDAND, 1022 1023 syntax.Eql: OEQ, 1024 syntax.Neq: ONE, 1025 syntax.Lss: OLT, 1026 syntax.Leq: OLE, 1027 syntax.Gtr: OGT, 1028 syntax.Geq: OGE, 1029 1030 syntax.Add: OADD, 1031 syntax.Sub: OSUB, 1032 syntax.Or: OOR, 1033 syntax.Xor: OXOR, 1034 1035 syntax.Mul: OMUL, 1036 syntax.Div: ODIV, 1037 syntax.Rem: OMOD, 1038 syntax.And: OAND, 1039 syntax.AndNot: OANDNOT, 1040 syntax.Shl: OLSH, 1041 syntax.Shr: ORSH, 1042 } 1043 1044 func (p *noder) binOp(op syntax.Operator) Op { 1045 if uint64(op) >= uint64(len(binOps)) || binOps[op] == 0 { 1046 panic("invalid Operator") 1047 } 1048 return binOps[op] 1049 } 1050 1051 func (p *noder) basicLit(lit *syntax.BasicLit) Val { 1052 // TODO: Don't try to convert if we had syntax errors (conversions may fail). 1053 // Use dummy values so we can continue to compile. Eventually, use a 1054 // form of "unknown" literals that are ignored during type-checking so 1055 // we can continue type-checking w/o spurious follow-up errors. 1056 switch s := lit.Value; lit.Kind { 1057 case syntax.IntLit: 1058 x := new(Mpint) 1059 x.SetString(s) 1060 return Val{U: x} 1061 1062 case syntax.FloatLit: 1063 x := newMpflt() 1064 x.SetString(s) 1065 return Val{U: x} 1066 1067 case syntax.ImagLit: 1068 x := new(Mpcplx) 1069 x.Imag.SetString(strings.TrimSuffix(s, "i")) 1070 return Val{U: x} 1071 1072 case syntax.RuneLit: 1073 var r rune 1074 if u, err := strconv.Unquote(s); err == nil && len(u) > 0 { 1075 // Package syntax already reported any errors. 1076 // Check for them again though because 0 is a 1077 // better fallback value for invalid rune 1078 // literals than 0xFFFD. 1079 if len(u) == 1 { 1080 r = rune(u[0]) 1081 } else { 1082 r, _ = utf8.DecodeRuneInString(u) 1083 } 1084 } 1085 x := new(Mpint) 1086 x.SetInt64(int64(r)) 1087 x.Rune = true 1088 return Val{U: x} 1089 1090 case syntax.StringLit: 1091 if len(s) > 0 && s[0] == '`' { 1092 // strip carriage returns from raw string 1093 s = strings.Replace(s, "\r", "", -1) 1094 } 1095 // Ignore errors because package syntax already reported them. 1096 u, _ := strconv.Unquote(s) 1097 return Val{U: u} 1098 1099 default: 1100 panic("unhandled BasicLit kind") 1101 } 1102 } 1103 1104 func (p *noder) name(name *syntax.Name) *types.Sym { 1105 return lookup(name.Value) 1106 } 1107 1108 func (p *noder) mkname(name *syntax.Name) *Node { 1109 // TODO(mdempsky): Set line number? 1110 return mkname(p.name(name)) 1111 } 1112 1113 func (p *noder) newname(name *syntax.Name) *Node { 1114 // TODO(mdempsky): Set line number? 1115 return newname(p.name(name)) 1116 } 1117 1118 func (p *noder) wrapname(n syntax.Node, x *Node) *Node { 1119 // These nodes do not carry line numbers. 1120 // Introduce a wrapper node to give them the correct line. 1121 switch x.Op { 1122 case OTYPE, OLITERAL: 1123 if x.Sym == nil { 1124 break 1125 } 1126 fallthrough 1127 case ONAME, ONONAME, OPACK: 1128 x = p.nod(n, OPAREN, x, nil) 1129 x.SetImplicit(true) 1130 } 1131 return x 1132 } 1133 1134 func (p *noder) nod(orig syntax.Node, op Op, left, right *Node) *Node { 1135 return p.setlineno(orig, nod(op, left, right)) 1136 } 1137 1138 func (p *noder) setlineno(src_ syntax.Node, dst *Node) *Node { 1139 pos := src_.Pos() 1140 if !pos.IsKnown() { 1141 // TODO(mdempsky): Shouldn't happen. Fix package syntax. 1142 return dst 1143 } 1144 dst.Pos = Ctxt.PosTable.XPos(pos) 1145 return dst 1146 } 1147 1148 func (p *noder) lineno(n syntax.Node) { 1149 if n == nil { 1150 return 1151 } 1152 pos := n.Pos() 1153 if !pos.IsKnown() { 1154 // TODO(mdempsky): Shouldn't happen. Fix package syntax. 1155 return 1156 } 1157 lineno = Ctxt.PosTable.XPos(pos) 1158 } 1159 1160 // error is called concurrently if files are parsed concurrently. 1161 func (p *noder) error(err error) { 1162 p.err <- err.(syntax.Error) 1163 } 1164 1165 // pragmas that are allowed in the std lib, but don't have 1166 // a syntax.Pragma value (see lex.go) associated with them. 1167 var allowedStdPragmas = map[string]bool{ 1168 "go:cgo_export_static": true, 1169 "go:cgo_export_dynamic": true, 1170 "go:cgo_import_static": true, 1171 "go:cgo_import_dynamic": true, 1172 "go:cgo_ldflag": true, 1173 "go:cgo_dynamic_linker": true, 1174 "go:generate": true, 1175 } 1176 1177 // pragma is called concurrently if files are parsed concurrently. 1178 func (p *noder) pragma(pos src.Pos, text string) syntax.Pragma { 1179 switch { 1180 case strings.HasPrefix(text, "line "): 1181 // line directives are handled by syntax package 1182 panic("unreachable") 1183 1184 case strings.HasPrefix(text, "go:linkname "): 1185 f := strings.Fields(text) 1186 if len(f) != 3 { 1187 p.error(syntax.Error{Pos: pos, Msg: "usage: //go:linkname localname linkname"}) 1188 break 1189 } 1190 p.linknames = append(p.linknames, linkname{pos, f[1], f[2]}) 1191 1192 case strings.HasPrefix(text, "go:cgo_"): 1193 p.pragcgobuf += p.pragcgo(pos, text) 1194 fallthrough // because of //go:cgo_unsafe_args 1195 default: 1196 verb := text 1197 if i := strings.Index(text, " "); i >= 0 { 1198 verb = verb[:i] 1199 } 1200 prag := pragmaValue(verb) 1201 const runtimePragmas = Systemstack | Nowritebarrier | Nowritebarrierrec | Yeswritebarrierrec 1202 if !compiling_runtime && prag&runtimePragmas != 0 { 1203 p.error(syntax.Error{Pos: pos, Msg: fmt.Sprintf("//%s only allowed in runtime", verb)}) 1204 } 1205 if prag == 0 && !allowedStdPragmas[verb] && compiling_std { 1206 p.error(syntax.Error{Pos: pos, Msg: fmt.Sprintf("//%s is not allowed in the standard library", verb)}) 1207 } 1208 return prag 1209 } 1210 1211 return 0 1212 } 1213 1214 func mkname(sym *types.Sym) *Node { 1215 n := oldname(sym) 1216 if n.Name != nil && n.Name.Pack != nil { 1217 n.Name.Pack.Name.SetUsed(true) 1218 } 1219 return n 1220 } 1221 1222 func unparen(x *Node) *Node { 1223 for x.Op == OPAREN { 1224 x = x.Left 1225 } 1226 return x 1227 }