| // Copyright 2016 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. |
| |
| package gc |
| |
| import ( |
| "fmt" |
| "os" |
| "path/filepath" |
| "runtime" |
| "strconv" |
| "strings" |
| "unicode/utf8" |
| |
| "cmd/compile/internal/syntax" |
| "cmd/compile/internal/types" |
| "cmd/internal/obj" |
| "cmd/internal/objabi" |
| "cmd/internal/src" |
| ) |
| |
| // parseFiles concurrently parses files into *syntax.File structures. |
| // Each declaration in every *syntax.File is converted to a syntax tree |
| // and its root represented by *Node is appended to xtop. |
| // Returns the total count of parsed lines. |
| func parseFiles(filenames []string) uint { |
| var noders []*noder |
| // Limit the number of simultaneously open files. |
| sem := make(chan struct{}, runtime.GOMAXPROCS(0)+10) |
| |
| for _, filename := range filenames { |
| p := &noder{ |
| basemap: make(map[*syntax.PosBase]*src.PosBase), |
| err: make(chan syntax.Error), |
| } |
| noders = append(noders, p) |
| |
| go func(filename string) { |
| sem <- struct{}{} |
| defer func() { <-sem }() |
| defer close(p.err) |
| base := syntax.NewFileBase(filename) |
| |
| f, err := os.Open(filename) |
| if err != nil { |
| p.error(syntax.Error{Pos: syntax.MakePos(base, 0, 0), Msg: err.Error()}) |
| return |
| } |
| defer f.Close() |
| |
| p.file, _ = syntax.Parse(base, f, p.error, p.pragma, syntax.CheckBranches) // errors are tracked via p.error |
| }(filename) |
| } |
| |
| var lines uint |
| for _, p := range noders { |
| for e := range p.err { |
| p.yyerrorpos(e.Pos, "%s", e.Msg) |
| } |
| |
| p.node() |
| lines += p.file.Lines |
| p.file = nil // release memory |
| |
| if nsyntaxerrors != 0 { |
| errorexit() |
| } |
| // Always run testdclstack here, even when debug_dclstack is not set, as a sanity measure. |
| testdclstack() |
| } |
| |
| localpkg.Height = myheight |
| |
| return lines |
| } |
| |
| // makeSrcPosBase translates from a *syntax.PosBase to a *src.PosBase. |
| func (p *noder) makeSrcPosBase(b0 *syntax.PosBase) *src.PosBase { |
| // fast path: most likely PosBase hasn't changed |
| if p.basecache.last == b0 { |
| return p.basecache.base |
| } |
| |
| b1, ok := p.basemap[b0] |
| if !ok { |
| fn := b0.Filename() |
| if b0.IsFileBase() { |
| b1 = src.NewFileBase(fn, absFilename(fn)) |
| } else { |
| // line directive base |
| p0 := b0.Pos() |
| p1 := src.MakePos(p.makeSrcPosBase(p0.Base()), p0.Line(), p0.Col()) |
| b1 = src.NewLinePragmaBase(p1, fn, fileh(fn), b0.Line(), b0.Col()) |
| } |
| p.basemap[b0] = b1 |
| } |
| |
| // update cache |
| p.basecache.last = b0 |
| p.basecache.base = b1 |
| |
| return b1 |
| } |
| |
| func (p *noder) makeXPos(pos syntax.Pos) (_ src.XPos) { |
| return Ctxt.PosTable.XPos(src.MakePos(p.makeSrcPosBase(pos.Base()), pos.Line(), pos.Col())) |
| } |
| |
| func (p *noder) yyerrorpos(pos syntax.Pos, format string, args ...interface{}) { |
| yyerrorl(p.makeXPos(pos), format, args...) |
| } |
| |
| var pathPrefix string |
| |
| // TODO(gri) Can we eliminate fileh in favor of absFilename? |
| func fileh(name string) string { |
| return objabi.AbsFile("", name, pathPrefix) |
| } |
| |
| func absFilename(name string) string { |
| return objabi.AbsFile(Ctxt.Pathname, name, pathPrefix) |
| } |
| |
| // noder transforms package syntax's AST into a Node tree. |
| type noder struct { |
| basemap map[*syntax.PosBase]*src.PosBase |
| basecache struct { |
| last *syntax.PosBase |
| base *src.PosBase |
| } |
| |
| file *syntax.File |
| linknames []linkname |
| pragcgobuf [][]string |
| err chan syntax.Error |
| scope ScopeID |
| |
| // scopeVars is a stack tracking the number of variables declared in the |
| // current function at the moment each open scope was opened. |
| scopeVars []int |
| |
| lastCloseScopePos syntax.Pos |
| } |
| |
| func (p *noder) funcBody(fn *Node, block *syntax.BlockStmt) { |
| oldScope := p.scope |
| p.scope = 0 |
| funchdr(fn) |
| |
| if block != nil { |
| body := p.stmts(block.List) |
| if body == nil { |
| body = []*Node{nod(OEMPTY, nil, nil)} |
| } |
| fn.Nbody.Set(body) |
| |
| lineno = p.makeXPos(block.Rbrace) |
| fn.Func.Endlineno = lineno |
| } |
| |
| funcbody() |
| p.scope = oldScope |
| } |
| |
| func (p *noder) openScope(pos syntax.Pos) { |
| types.Markdcl() |
| |
| if trackScopes { |
| Curfn.Func.Parents = append(Curfn.Func.Parents, p.scope) |
| p.scopeVars = append(p.scopeVars, len(Curfn.Func.Dcl)) |
| p.scope = ScopeID(len(Curfn.Func.Parents)) |
| |
| p.markScope(pos) |
| } |
| } |
| |
| func (p *noder) closeScope(pos syntax.Pos) { |
| p.lastCloseScopePos = pos |
| types.Popdcl() |
| |
| if trackScopes { |
| scopeVars := p.scopeVars[len(p.scopeVars)-1] |
| p.scopeVars = p.scopeVars[:len(p.scopeVars)-1] |
| if scopeVars == len(Curfn.Func.Dcl) { |
| // no variables were declared in this scope, so we can retract it. |
| |
| if int(p.scope) != len(Curfn.Func.Parents) { |
| Fatalf("scope tracking inconsistency, no variables declared but scopes were not retracted") |
| } |
| |
| p.scope = Curfn.Func.Parents[p.scope-1] |
| Curfn.Func.Parents = Curfn.Func.Parents[:len(Curfn.Func.Parents)-1] |
| |
| nmarks := len(Curfn.Func.Marks) |
| Curfn.Func.Marks[nmarks-1].Scope = p.scope |
| prevScope := ScopeID(0) |
| if nmarks >= 2 { |
| prevScope = Curfn.Func.Marks[nmarks-2].Scope |
| } |
| if Curfn.Func.Marks[nmarks-1].Scope == prevScope { |
| Curfn.Func.Marks = Curfn.Func.Marks[:nmarks-1] |
| } |
| return |
| } |
| |
| p.scope = Curfn.Func.Parents[p.scope-1] |
| |
| p.markScope(pos) |
| } |
| } |
| |
| func (p *noder) markScope(pos syntax.Pos) { |
| xpos := p.makeXPos(pos) |
| if i := len(Curfn.Func.Marks); i > 0 && Curfn.Func.Marks[i-1].Pos == xpos { |
| Curfn.Func.Marks[i-1].Scope = p.scope |
| } else { |
| Curfn.Func.Marks = append(Curfn.Func.Marks, Mark{xpos, p.scope}) |
| } |
| } |
| |
| // closeAnotherScope is like closeScope, but it reuses the same mark |
| // position as the last closeScope call. This is useful for "for" and |
| // "if" statements, as their implicit blocks always end at the same |
| // position as an explicit block. |
| func (p *noder) closeAnotherScope() { |
| p.closeScope(p.lastCloseScopePos) |
| } |
| |
| // linkname records a //go:linkname directive. |
| type linkname struct { |
| pos syntax.Pos |
| local string |
| remote string |
| } |
| |
| func (p *noder) node() { |
| types.Block = 1 |
| imported_unsafe = false |
| |
| p.setlineno(p.file.PkgName) |
| mkpackage(p.file.PkgName.Value) |
| |
| xtop = append(xtop, p.decls(p.file.DeclList)...) |
| |
| for _, n := range p.linknames { |
| if imported_unsafe { |
| lookup(n.local).Linkname = n.remote |
| } else { |
| p.yyerrorpos(n.pos, "//go:linkname only allowed in Go files that import \"unsafe\"") |
| } |
| } |
| |
| // The linker expects an ABI0 wrapper for all cgo-exported |
| // functions. |
| for _, prag := range p.pragcgobuf { |
| switch prag[0] { |
| case "cgo_export_static", "cgo_export_dynamic": |
| if symabiRefs == nil { |
| symabiRefs = make(map[string]obj.ABI) |
| } |
| symabiRefs[prag[1]] = obj.ABI0 |
| } |
| } |
| |
| pragcgobuf = append(pragcgobuf, p.pragcgobuf...) |
| lineno = src.NoXPos |
| clearImports() |
| } |
| |
| func (p *noder) decls(decls []syntax.Decl) (l []*Node) { |
| var cs constState |
| |
| for _, decl := range decls { |
| p.setlineno(decl) |
| switch decl := decl.(type) { |
| case *syntax.ImportDecl: |
| p.importDecl(decl) |
| |
| case *syntax.VarDecl: |
| l = append(l, p.varDecl(decl)...) |
| |
| case *syntax.ConstDecl: |
| l = append(l, p.constDecl(decl, &cs)...) |
| |
| case *syntax.TypeDecl: |
| l = append(l, p.typeDecl(decl)) |
| |
| case *syntax.FuncDecl: |
| l = append(l, p.funcDecl(decl)) |
| |
| default: |
| panic("unhandled Decl") |
| } |
| } |
| |
| return |
| } |
| |
| func (p *noder) importDecl(imp *syntax.ImportDecl) { |
| val := p.basicLit(imp.Path) |
| ipkg := importfile(&val) |
| |
| if ipkg == nil { |
| if nerrors == 0 { |
| Fatalf("phase error in import") |
| } |
| return |
| } |
| |
| ipkg.Direct = true |
| |
| var my *types.Sym |
| if imp.LocalPkgName != nil { |
| my = p.name(imp.LocalPkgName) |
| } else { |
| my = lookup(ipkg.Name) |
| } |
| |
| pack := p.nod(imp, OPACK, nil, nil) |
| pack.Sym = my |
| pack.Name.Pkg = ipkg |
| |
| switch my.Name { |
| case ".": |
| importdot(ipkg, pack) |
| return |
| case "init": |
| yyerrorl(pack.Pos, "cannot import package as init - init must be a func") |
| return |
| case "_": |
| return |
| } |
| if my.Def != nil { |
| redeclare(pack.Pos, my, "as imported package name") |
| } |
| my.Def = asTypesNode(pack) |
| my.Lastlineno = pack.Pos |
| my.Block = 1 // at top level |
| } |
| |
| func (p *noder) varDecl(decl *syntax.VarDecl) []*Node { |
| names := p.declNames(decl.NameList) |
| typ := p.typeExprOrNil(decl.Type) |
| |
| var exprs []*Node |
| if decl.Values != nil { |
| exprs = p.exprList(decl.Values) |
| } |
| |
| p.setlineno(decl) |
| return variter(names, typ, exprs) |
| } |
| |
| // constState tracks state between constant specifiers within a |
| // declaration group. This state is kept separate from noder so nested |
| // constant declarations are handled correctly (e.g., issue 15550). |
| type constState struct { |
| group *syntax.Group |
| typ *Node |
| values []*Node |
| iota int64 |
| } |
| |
| func (p *noder) constDecl(decl *syntax.ConstDecl, cs *constState) []*Node { |
| if decl.Group == nil || decl.Group != cs.group { |
| *cs = constState{ |
| group: decl.Group, |
| } |
| } |
| |
| names := p.declNames(decl.NameList) |
| typ := p.typeExprOrNil(decl.Type) |
| |
| var values []*Node |
| if decl.Values != nil { |
| values = p.exprList(decl.Values) |
| cs.typ, cs.values = typ, values |
| } else { |
| if typ != nil { |
| yyerror("const declaration cannot have type without expression") |
| } |
| typ, values = cs.typ, cs.values |
| } |
| |
| var nn []*Node |
| for i, n := range names { |
| if i >= len(values) { |
| yyerror("missing value in const declaration") |
| break |
| } |
| v := values[i] |
| if decl.Values == nil { |
| v = treecopy(v, n.Pos) |
| } |
| |
| n.Op = OLITERAL |
| declare(n, dclcontext) |
| |
| n.Name.Param.Ntype = typ |
| n.Name.Defn = v |
| n.SetIota(cs.iota) |
| |
| nn = append(nn, p.nod(decl, ODCLCONST, n, nil)) |
| } |
| |
| if len(values) > len(names) { |
| yyerror("extra expression in const declaration") |
| } |
| |
| cs.iota++ |
| |
| return nn |
| } |
| |
| func (p *noder) typeDecl(decl *syntax.TypeDecl) *Node { |
| n := p.declName(decl.Name) |
| n.Op = OTYPE |
| declare(n, dclcontext) |
| |
| // decl.Type may be nil but in that case we got a syntax error during parsing |
| typ := p.typeExprOrNil(decl.Type) |
| |
| param := n.Name.Param |
| param.Ntype = typ |
| param.Pragma = decl.Pragma |
| param.Alias = decl.Alias |
| if param.Alias && param.Pragma != 0 { |
| yyerror("cannot specify directive with type alias") |
| param.Pragma = 0 |
| } |
| |
| nod := p.nod(decl, ODCLTYPE, n, nil) |
| if param.Alias && !langSupported(1, 9) { |
| yyerrorl(nod.Pos, "type aliases only supported as of -lang=go1.9") |
| } |
| return nod |
| } |
| |
| func (p *noder) declNames(names []*syntax.Name) []*Node { |
| var nodes []*Node |
| for _, name := range names { |
| nodes = append(nodes, p.declName(name)) |
| } |
| return nodes |
| } |
| |
| func (p *noder) declName(name *syntax.Name) *Node { |
| n := dclname(p.name(name)) |
| n.Pos = p.pos(name) |
| return n |
| } |
| |
| func (p *noder) funcDecl(fun *syntax.FuncDecl) *Node { |
| name := p.name(fun.Name) |
| t := p.signature(fun.Recv, fun.Type) |
| f := p.nod(fun, ODCLFUNC, nil, nil) |
| |
| if fun.Recv == nil { |
| if name.Name == "init" { |
| name = renameinit() |
| if t.List.Len() > 0 || t.Rlist.Len() > 0 { |
| yyerrorl(f.Pos, "func init must have no arguments and no return values") |
| } |
| } |
| |
| if localpkg.Name == "main" && name.Name == "main" { |
| if t.List.Len() > 0 || t.Rlist.Len() > 0 { |
| yyerrorl(f.Pos, "func main must have no arguments and no return values") |
| } |
| } |
| } else { |
| f.Func.Shortname = name |
| name = nblank.Sym // filled in by typecheckfunc |
| } |
| |
| f.Func.Nname = newfuncnamel(p.pos(fun.Name), name) |
| f.Func.Nname.Name.Defn = f |
| f.Func.Nname.Name.Param.Ntype = t |
| |
| pragma := fun.Pragma |
| f.Func.Pragma = fun.Pragma |
| f.SetNoescape(pragma&Noescape != 0) |
| if pragma&Systemstack != 0 && pragma&Nosplit != 0 { |
| yyerrorl(f.Pos, "go:nosplit and go:systemstack cannot be combined") |
| } |
| |
| if fun.Recv == nil { |
| declare(f.Func.Nname, PFUNC) |
| } |
| |
| p.funcBody(f, fun.Body) |
| |
| if fun.Body != nil { |
| if f.Noescape() { |
| yyerrorl(f.Pos, "can only use //go:noescape with external func implementations") |
| } |
| } else { |
| if pure_go || strings.HasPrefix(f.funcname(), "init.") { |
| // Linknamed functions are allowed to have no body. Hopefully |
| // the linkname target has a body. See issue 23311. |
| isLinknamed := false |
| for _, n := range p.linknames { |
| if f.funcname() == n.local { |
| isLinknamed = true |
| break |
| } |
| } |
| if !isLinknamed { |
| yyerrorl(f.Pos, "missing function body") |
| } |
| } |
| } |
| |
| return f |
| } |
| |
| func (p *noder) signature(recv *syntax.Field, typ *syntax.FuncType) *Node { |
| n := p.nod(typ, OTFUNC, nil, nil) |
| if recv != nil { |
| n.Left = p.param(recv, false, false) |
| } |
| n.List.Set(p.params(typ.ParamList, true)) |
| n.Rlist.Set(p.params(typ.ResultList, false)) |
| return n |
| } |
| |
| func (p *noder) params(params []*syntax.Field, dddOk bool) []*Node { |
| var nodes []*Node |
| for i, param := range params { |
| p.setlineno(param) |
| nodes = append(nodes, p.param(param, dddOk, i+1 == len(params))) |
| } |
| return nodes |
| } |
| |
| func (p *noder) param(param *syntax.Field, dddOk, final bool) *Node { |
| var name *types.Sym |
| if param.Name != nil { |
| name = p.name(param.Name) |
| } |
| |
| typ := p.typeExpr(param.Type) |
| n := p.nodSym(param, ODCLFIELD, typ, name) |
| |
| // rewrite ...T parameter |
| if typ.Op == ODDD { |
| if !dddOk { |
| // We mark these as syntax errors to get automatic elimination |
| // of multiple such errors per line (see yyerrorl in subr.go). |
| yyerror("syntax error: cannot use ... in receiver or result parameter list") |
| } else if !final { |
| if param.Name == nil { |
| yyerror("syntax error: cannot use ... with non-final parameter") |
| } else { |
| p.yyerrorpos(param.Name.Pos(), "syntax error: cannot use ... with non-final parameter %s", param.Name.Value) |
| } |
| } |
| typ.Op = OTARRAY |
| typ.Right = typ.Left |
| typ.Left = nil |
| n.SetIsDDD(true) |
| if n.Left != nil { |
| n.Left.SetIsDDD(true) |
| } |
| } |
| |
| return n |
| } |
| |
| func (p *noder) exprList(expr syntax.Expr) []*Node { |
| if list, ok := expr.(*syntax.ListExpr); ok { |
| return p.exprs(list.ElemList) |
| } |
| return []*Node{p.expr(expr)} |
| } |
| |
| func (p *noder) exprs(exprs []syntax.Expr) []*Node { |
| var nodes []*Node |
| for _, expr := range exprs { |
| nodes = append(nodes, p.expr(expr)) |
| } |
| return nodes |
| } |
| |
| func (p *noder) expr(expr syntax.Expr) *Node { |
| p.setlineno(expr) |
| switch expr := expr.(type) { |
| case nil, *syntax.BadExpr: |
| return nil |
| case *syntax.Name: |
| return p.mkname(expr) |
| case *syntax.BasicLit: |
| return nodlit(p.basicLit(expr)) |
| case *syntax.CompositeLit: |
| n := p.nod(expr, OCOMPLIT, nil, nil) |
| if expr.Type != nil { |
| n.Right = p.expr(expr.Type) |
| } |
| l := p.exprs(expr.ElemList) |
| for i, e := range l { |
| l[i] = p.wrapname(expr.ElemList[i], e) |
| } |
| n.List.Set(l) |
| lineno = p.makeXPos(expr.Rbrace) |
| return n |
| case *syntax.KeyValueExpr: |
| // use position of expr.Key rather than of expr (which has position of ':') |
| return p.nod(expr.Key, OKEY, p.expr(expr.Key), p.wrapname(expr.Value, p.expr(expr.Value))) |
| case *syntax.FuncLit: |
| return p.funcLit(expr) |
| case *syntax.ParenExpr: |
| return p.nod(expr, OPAREN, p.expr(expr.X), nil) |
| case *syntax.SelectorExpr: |
| // parser.new_dotname |
| obj := p.expr(expr.X) |
| if obj.Op == OPACK { |
| obj.Name.SetUsed(true) |
| return oldname(restrictlookup(expr.Sel.Value, obj.Name.Pkg)) |
| } |
| n := nodSym(OXDOT, obj, p.name(expr.Sel)) |
| n.Pos = p.pos(expr) // lineno may have been changed by p.expr(expr.X) |
| return n |
| case *syntax.IndexExpr: |
| return p.nod(expr, OINDEX, p.expr(expr.X), p.expr(expr.Index)) |
| case *syntax.SliceExpr: |
| op := OSLICE |
| if expr.Full { |
| op = OSLICE3 |
| } |
| n := p.nod(expr, op, p.expr(expr.X), nil) |
| var index [3]*Node |
| for i, x := range expr.Index { |
| if x != nil { |
| index[i] = p.expr(x) |
| } |
| } |
| n.SetSliceBounds(index[0], index[1], index[2]) |
| return n |
| case *syntax.AssertExpr: |
| return p.nod(expr, ODOTTYPE, p.expr(expr.X), p.typeExpr(expr.Type)) |
| case *syntax.Operation: |
| if expr.Op == syntax.Add && expr.Y != nil { |
| return p.sum(expr) |
| } |
| x := p.expr(expr.X) |
| if expr.Y == nil { |
| if expr.Op == syntax.And { |
| x = unparen(x) // TODO(mdempsky): Needed? |
| if x.Op == OCOMPLIT { |
| // Special case for &T{...}: turn into (*T){...}. |
| x.Right = p.nod(expr, ODEREF, x.Right, nil) |
| x.Right.SetImplicit(true) |
| return x |
| } |
| } |
| return p.nod(expr, p.unOp(expr.Op), x, nil) |
| } |
| return p.nod(expr, p.binOp(expr.Op), x, p.expr(expr.Y)) |
| case *syntax.CallExpr: |
| n := p.nod(expr, OCALL, p.expr(expr.Fun), nil) |
| n.List.Set(p.exprs(expr.ArgList)) |
| n.SetIsDDD(expr.HasDots) |
| return n |
| |
| case *syntax.ArrayType: |
| var len *Node |
| if expr.Len != nil { |
| len = p.expr(expr.Len) |
| } else { |
| len = p.nod(expr, ODDD, nil, nil) |
| } |
| return p.nod(expr, OTARRAY, len, p.typeExpr(expr.Elem)) |
| case *syntax.SliceType: |
| return p.nod(expr, OTARRAY, nil, p.typeExpr(expr.Elem)) |
| case *syntax.DotsType: |
| return p.nod(expr, ODDD, p.typeExpr(expr.Elem), nil) |
| case *syntax.StructType: |
| return p.structType(expr) |
| case *syntax.InterfaceType: |
| return p.interfaceType(expr) |
| case *syntax.FuncType: |
| return p.signature(nil, expr) |
| case *syntax.MapType: |
| return p.nod(expr, OTMAP, p.typeExpr(expr.Key), p.typeExpr(expr.Value)) |
| case *syntax.ChanType: |
| n := p.nod(expr, OTCHAN, p.typeExpr(expr.Elem), nil) |
| n.SetTChanDir(p.chanDir(expr.Dir)) |
| return n |
| |
| case *syntax.TypeSwitchGuard: |
| n := p.nod(expr, OTYPESW, nil, p.expr(expr.X)) |
| if expr.Lhs != nil { |
| n.Left = p.declName(expr.Lhs) |
| if n.Left.isBlank() { |
| yyerror("invalid variable name %v in type switch", n.Left) |
| } |
| } |
| return n |
| } |
| panic("unhandled Expr") |
| } |
| |
| // sum efficiently handles very large summation expressions (such as |
| // in issue #16394). In particular, it avoids left recursion and |
| // collapses string literals. |
| func (p *noder) sum(x syntax.Expr) *Node { |
| // While we need to handle long sums with asymptotic |
| // efficiency, the vast majority of sums are very small: ~95% |
| // have only 2 or 3 operands, and ~99% of string literals are |
| // never concatenated. |
| |
| adds := make([]*syntax.Operation, 0, 2) |
| for { |
| add, ok := x.(*syntax.Operation) |
| if !ok || add.Op != syntax.Add || add.Y == nil { |
| break |
| } |
| adds = append(adds, add) |
| x = add.X |
| } |
| |
| // nstr is the current rightmost string literal in the |
| // summation (if any), and chunks holds its accumulated |
| // substrings. |
| // |
| // Consider the expression x + "a" + "b" + "c" + y. When we |
| // reach the string literal "a", we assign nstr to point to |
| // its corresponding Node and initialize chunks to {"a"}. |
| // Visiting the subsequent string literals "b" and "c", we |
| // simply append their values to chunks. Finally, when we |
| // reach the non-constant operand y, we'll join chunks to form |
| // "abc" and reassign the "a" string literal's value. |
| // |
| // N.B., we need to be careful about named string constants |
| // (indicated by Sym != nil) because 1) we can't modify their |
| // value, as doing so would affect other uses of the string |
| // constant, and 2) they may have types, which we need to |
| // handle correctly. For now, we avoid these problems by |
| // treating named string constants the same as non-constant |
| // operands. |
| var nstr *Node |
| chunks := make([]string, 0, 1) |
| |
| n := p.expr(x) |
| if Isconst(n, CTSTR) && n.Sym == nil { |
| nstr = n |
| chunks = append(chunks, nstr.Val().U.(string)) |
| } |
| |
| for i := len(adds) - 1; i >= 0; i-- { |
| add := adds[i] |
| |
| r := p.expr(add.Y) |
| if Isconst(r, CTSTR) && r.Sym == nil { |
| if nstr != nil { |
| // Collapse r into nstr instead of adding to n. |
| chunks = append(chunks, r.Val().U.(string)) |
| continue |
| } |
| |
| nstr = r |
| chunks = append(chunks, nstr.Val().U.(string)) |
| } else { |
| if len(chunks) > 1 { |
| nstr.SetVal(Val{U: strings.Join(chunks, "")}) |
| } |
| nstr = nil |
| chunks = chunks[:0] |
| } |
| n = p.nod(add, OADD, n, r) |
| } |
| if len(chunks) > 1 { |
| nstr.SetVal(Val{U: strings.Join(chunks, "")}) |
| } |
| |
| return n |
| } |
| |
| func (p *noder) typeExpr(typ syntax.Expr) *Node { |
| // TODO(mdempsky): Be stricter? typecheck should handle errors anyway. |
| return p.expr(typ) |
| } |
| |
| func (p *noder) typeExprOrNil(typ syntax.Expr) *Node { |
| if typ != nil { |
| return p.expr(typ) |
| } |
| return nil |
| } |
| |
| func (p *noder) chanDir(dir syntax.ChanDir) types.ChanDir { |
| switch dir { |
| case 0: |
| return types.Cboth |
| case syntax.SendOnly: |
| return types.Csend |
| case syntax.RecvOnly: |
| return types.Crecv |
| } |
| panic("unhandled ChanDir") |
| } |
| |
| func (p *noder) structType(expr *syntax.StructType) *Node { |
| var l []*Node |
| for i, field := range expr.FieldList { |
| p.setlineno(field) |
| var n *Node |
| if field.Name == nil { |
| n = p.embedded(field.Type) |
| } else { |
| n = p.nodSym(field, ODCLFIELD, p.typeExpr(field.Type), p.name(field.Name)) |
| } |
| if i < len(expr.TagList) && expr.TagList[i] != nil { |
| n.SetVal(p.basicLit(expr.TagList[i])) |
| } |
| l = append(l, n) |
| } |
| |
| p.setlineno(expr) |
| n := p.nod(expr, OTSTRUCT, nil, nil) |
| n.List.Set(l) |
| return n |
| } |
| |
| func (p *noder) interfaceType(expr *syntax.InterfaceType) *Node { |
| var l []*Node |
| for _, method := range expr.MethodList { |
| p.setlineno(method) |
| var n *Node |
| if method.Name == nil { |
| n = p.nodSym(method, ODCLFIELD, oldname(p.packname(method.Type)), nil) |
| } else { |
| mname := p.name(method.Name) |
| sig := p.typeExpr(method.Type) |
| sig.Left = fakeRecv() |
| n = p.nodSym(method, ODCLFIELD, sig, mname) |
| ifacedcl(n) |
| } |
| l = append(l, n) |
| } |
| |
| n := p.nod(expr, OTINTER, nil, nil) |
| n.List.Set(l) |
| return n |
| } |
| |
| func (p *noder) packname(expr syntax.Expr) *types.Sym { |
| switch expr := expr.(type) { |
| case *syntax.Name: |
| name := p.name(expr) |
| if n := oldname(name); n.Name != nil && n.Name.Pack != nil { |
| n.Name.Pack.Name.SetUsed(true) |
| } |
| return name |
| case *syntax.SelectorExpr: |
| name := p.name(expr.X.(*syntax.Name)) |
| def := asNode(name.Def) |
| if def == nil { |
| yyerror("undefined: %v", name) |
| return name |
| } |
| var pkg *types.Pkg |
| if def.Op != OPACK { |
| yyerror("%v is not a package", name) |
| pkg = localpkg |
| } else { |
| def.Name.SetUsed(true) |
| pkg = def.Name.Pkg |
| } |
| return restrictlookup(expr.Sel.Value, pkg) |
| } |
| panic(fmt.Sprintf("unexpected packname: %#v", expr)) |
| } |
| |
| func (p *noder) embedded(typ syntax.Expr) *Node { |
| op, isStar := typ.(*syntax.Operation) |
| if isStar { |
| if op.Op != syntax.Mul || op.Y != nil { |
| panic("unexpected Operation") |
| } |
| typ = op.X |
| } |
| |
| sym := p.packname(typ) |
| n := p.nodSym(typ, ODCLFIELD, oldname(sym), lookup(sym.Name)) |
| n.SetEmbedded(true) |
| |
| if isStar { |
| n.Left = p.nod(op, ODEREF, n.Left, nil) |
| } |
| return n |
| } |
| |
| func (p *noder) stmts(stmts []syntax.Stmt) []*Node { |
| return p.stmtsFall(stmts, false) |
| } |
| |
| func (p *noder) stmtsFall(stmts []syntax.Stmt, fallOK bool) []*Node { |
| var nodes []*Node |
| for i, stmt := range stmts { |
| s := p.stmtFall(stmt, fallOK && i+1 == len(stmts)) |
| if s == nil { |
| } else if s.Op == OBLOCK && s.Ninit.Len() == 0 { |
| nodes = append(nodes, s.List.Slice()...) |
| } else { |
| nodes = append(nodes, s) |
| } |
| } |
| return nodes |
| } |
| |
| func (p *noder) stmt(stmt syntax.Stmt) *Node { |
| return p.stmtFall(stmt, false) |
| } |
| |
| func (p *noder) stmtFall(stmt syntax.Stmt, fallOK bool) *Node { |
| p.setlineno(stmt) |
| switch stmt := stmt.(type) { |
| case *syntax.EmptyStmt: |
| return nil |
| case *syntax.LabeledStmt: |
| return p.labeledStmt(stmt, fallOK) |
| case *syntax.BlockStmt: |
| l := p.blockStmt(stmt) |
| if len(l) == 0 { |
| // TODO(mdempsky): Line number? |
| return nod(OEMPTY, nil, nil) |
| } |
| return liststmt(l) |
| case *syntax.ExprStmt: |
| return p.wrapname(stmt, p.expr(stmt.X)) |
| case *syntax.SendStmt: |
| return p.nod(stmt, OSEND, p.expr(stmt.Chan), p.expr(stmt.Value)) |
| case *syntax.DeclStmt: |
| return liststmt(p.decls(stmt.DeclList)) |
| case *syntax.AssignStmt: |
| if stmt.Op != 0 && stmt.Op != syntax.Def { |
| n := p.nod(stmt, OASOP, p.expr(stmt.Lhs), p.expr(stmt.Rhs)) |
| n.SetImplicit(stmt.Rhs == syntax.ImplicitOne) |
| n.SetSubOp(p.binOp(stmt.Op)) |
| return n |
| } |
| |
| n := p.nod(stmt, OAS, nil, nil) // assume common case |
| |
| rhs := p.exprList(stmt.Rhs) |
| lhs := p.assignList(stmt.Lhs, n, stmt.Op == syntax.Def) |
| |
| if len(lhs) == 1 && len(rhs) == 1 { |
| // common case |
| n.Left = lhs[0] |
| n.Right = rhs[0] |
| } else { |
| n.Op = OAS2 |
| n.List.Set(lhs) |
| n.Rlist.Set(rhs) |
| } |
| return n |
| |
| case *syntax.BranchStmt: |
| var op Op |
| switch stmt.Tok { |
| case syntax.Break: |
| op = OBREAK |
| case syntax.Continue: |
| op = OCONTINUE |
| case syntax.Fallthrough: |
| if !fallOK { |
| yyerror("fallthrough statement out of place") |
| } |
| op = OFALL |
| case syntax.Goto: |
| op = OGOTO |
| default: |
| panic("unhandled BranchStmt") |
| } |
| n := p.nod(stmt, op, nil, nil) |
| if stmt.Label != nil { |
| n.Sym = p.name(stmt.Label) |
| } |
| return n |
| case *syntax.CallStmt: |
| var op Op |
| switch stmt.Tok { |
| case syntax.Defer: |
| op = ODEFER |
| case syntax.Go: |
| op = OGO |
| default: |
| panic("unhandled CallStmt") |
| } |
| return p.nod(stmt, op, p.expr(stmt.Call), nil) |
| case *syntax.ReturnStmt: |
| var results []*Node |
| if stmt.Results != nil { |
| results = p.exprList(stmt.Results) |
| } |
| n := p.nod(stmt, ORETURN, nil, nil) |
| n.List.Set(results) |
| if n.List.Len() == 0 && Curfn != nil { |
| for _, ln := range Curfn.Func.Dcl { |
| if ln.Class() == PPARAM { |
| continue |
| } |
| if ln.Class() != PPARAMOUT { |
| break |
| } |
| if asNode(ln.Sym.Def) != ln { |
| yyerror("%s is shadowed during return", ln.Sym.Name) |
| } |
| } |
| } |
| return n |
| case *syntax.IfStmt: |
| return p.ifStmt(stmt) |
| case *syntax.ForStmt: |
| return p.forStmt(stmt) |
| case *syntax.SwitchStmt: |
| return p.switchStmt(stmt) |
| case *syntax.SelectStmt: |
| return p.selectStmt(stmt) |
| } |
| panic("unhandled Stmt") |
| } |
| |
| func (p *noder) assignList(expr syntax.Expr, defn *Node, colas bool) []*Node { |
| if !colas { |
| return p.exprList(expr) |
| } |
| |
| defn.SetColas(true) |
| |
| var exprs []syntax.Expr |
| if list, ok := expr.(*syntax.ListExpr); ok { |
| exprs = list.ElemList |
| } else { |
| exprs = []syntax.Expr{expr} |
| } |
| |
| res := make([]*Node, len(exprs)) |
| seen := make(map[*types.Sym]bool, len(exprs)) |
| |
| newOrErr := false |
| for i, expr := range exprs { |
| p.setlineno(expr) |
| res[i] = nblank |
| |
| name, ok := expr.(*syntax.Name) |
| if !ok { |
| p.yyerrorpos(expr.Pos(), "non-name %v on left side of :=", p.expr(expr)) |
| newOrErr = true |
| continue |
| } |
| |
| sym := p.name(name) |
| if sym.IsBlank() { |
| continue |
| } |
| |
| if seen[sym] { |
| p.yyerrorpos(expr.Pos(), "%v repeated on left side of :=", sym) |
| newOrErr = true |
| continue |
| } |
| seen[sym] = true |
| |
| if sym.Block == types.Block { |
| res[i] = oldname(sym) |
| continue |
| } |
| |
| newOrErr = true |
| n := newname(sym) |
| declare(n, dclcontext) |
| n.Name.Defn = defn |
| defn.Ninit.Append(nod(ODCL, n, nil)) |
| res[i] = n |
| } |
| |
| if !newOrErr { |
| yyerrorl(defn.Pos, "no new variables on left side of :=") |
| } |
| return res |
| } |
| |
| func (p *noder) blockStmt(stmt *syntax.BlockStmt) []*Node { |
| p.openScope(stmt.Pos()) |
| nodes := p.stmts(stmt.List) |
| p.closeScope(stmt.Rbrace) |
| return nodes |
| } |
| |
| func (p *noder) ifStmt(stmt *syntax.IfStmt) *Node { |
| p.openScope(stmt.Pos()) |
| n := p.nod(stmt, OIF, nil, nil) |
| if stmt.Init != nil { |
| n.Ninit.Set1(p.stmt(stmt.Init)) |
| } |
| if stmt.Cond != nil { |
| n.Left = p.expr(stmt.Cond) |
| } |
| n.Nbody.Set(p.blockStmt(stmt.Then)) |
| if stmt.Else != nil { |
| e := p.stmt(stmt.Else) |
| if e.Op == OBLOCK && e.Ninit.Len() == 0 { |
| n.Rlist.Set(e.List.Slice()) |
| } else { |
| n.Rlist.Set1(e) |
| } |
| } |
| p.closeAnotherScope() |
| return n |
| } |
| |
| func (p *noder) forStmt(stmt *syntax.ForStmt) *Node { |
| p.openScope(stmt.Pos()) |
| var n *Node |
| if r, ok := stmt.Init.(*syntax.RangeClause); ok { |
| if stmt.Cond != nil || stmt.Post != nil { |
| panic("unexpected RangeClause") |
| } |
| |
| n = p.nod(r, ORANGE, nil, p.expr(r.X)) |
| if r.Lhs != nil { |
| n.List.Set(p.assignList(r.Lhs, n, r.Def)) |
| } |
| } else { |
| n = p.nod(stmt, OFOR, nil, nil) |
| if stmt.Init != nil { |
| n.Ninit.Set1(p.stmt(stmt.Init)) |
| } |
| if stmt.Cond != nil { |
| n.Left = p.expr(stmt.Cond) |
| } |
| if stmt.Post != nil { |
| n.Right = p.stmt(stmt.Post) |
| } |
| } |
| n.Nbody.Set(p.blockStmt(stmt.Body)) |
| p.closeAnotherScope() |
| return n |
| } |
| |
| func (p *noder) switchStmt(stmt *syntax.SwitchStmt) *Node { |
| p.openScope(stmt.Pos()) |
| n := p.nod(stmt, OSWITCH, nil, nil) |
| if stmt.Init != nil { |
| n.Ninit.Set1(p.stmt(stmt.Init)) |
| } |
| if stmt.Tag != nil { |
| n.Left = p.expr(stmt.Tag) |
| } |
| |
| tswitch := n.Left |
| if tswitch != nil && tswitch.Op != OTYPESW { |
| tswitch = nil |
| } |
| n.List.Set(p.caseClauses(stmt.Body, tswitch, stmt.Rbrace)) |
| |
| p.closeScope(stmt.Rbrace) |
| return n |
| } |
| |
| func (p *noder) caseClauses(clauses []*syntax.CaseClause, tswitch *Node, rbrace syntax.Pos) []*Node { |
| var nodes []*Node |
| for i, clause := range clauses { |
| p.setlineno(clause) |
| if i > 0 { |
| p.closeScope(clause.Pos()) |
| } |
| p.openScope(clause.Pos()) |
| |
| n := p.nod(clause, OXCASE, nil, nil) |
| if clause.Cases != nil { |
| n.List.Set(p.exprList(clause.Cases)) |
| } |
| if tswitch != nil && tswitch.Left != nil { |
| nn := newname(tswitch.Left.Sym) |
| declare(nn, dclcontext) |
| n.Rlist.Set1(nn) |
| // keep track of the instances for reporting unused |
| nn.Name.Defn = tswitch |
| } |
| |
| // Trim trailing empty statements. We omit them from |
| // the Node AST anyway, and it's easier to identify |
| // out-of-place fallthrough statements without them. |
| body := clause.Body |
| for len(body) > 0 { |
| if _, ok := body[len(body)-1].(*syntax.EmptyStmt); !ok { |
| break |
| } |
| body = body[:len(body)-1] |
| } |
| |
| n.Nbody.Set(p.stmtsFall(body, true)) |
| if l := n.Nbody.Len(); l > 0 && n.Nbody.Index(l-1).Op == OFALL { |
| if tswitch != nil { |
| yyerror("cannot fallthrough in type switch") |
| } |
| if i+1 == len(clauses) { |
| yyerror("cannot fallthrough final case in switch") |
| } |
| } |
| |
| nodes = append(nodes, n) |
| } |
| if len(clauses) > 0 { |
| p.closeScope(rbrace) |
| } |
| return nodes |
| } |
| |
| func (p *noder) selectStmt(stmt *syntax.SelectStmt) *Node { |
| n := p.nod(stmt, OSELECT, nil, nil) |
| n.List.Set(p.commClauses(stmt.Body, stmt.Rbrace)) |
| return n |
| } |
| |
| func (p *noder) commClauses(clauses []*syntax.CommClause, rbrace syntax.Pos) []*Node { |
| var nodes []*Node |
| for i, clause := range clauses { |
| p.setlineno(clause) |
| if i > 0 { |
| p.closeScope(clause.Pos()) |
| } |
| p.openScope(clause.Pos()) |
| |
| n := p.nod(clause, OXCASE, nil, nil) |
| if clause.Comm != nil { |
| n.List.Set1(p.stmt(clause.Comm)) |
| } |
| n.Nbody.Set(p.stmts(clause.Body)) |
| nodes = append(nodes, n) |
| } |
| if len(clauses) > 0 { |
| p.closeScope(rbrace) |
| } |
| return nodes |
| } |
| |
| func (p *noder) labeledStmt(label *syntax.LabeledStmt, fallOK bool) *Node { |
| lhs := p.nodSym(label, OLABEL, nil, p.name(label.Label)) |
| |
| var ls *Node |
| if label.Stmt != nil { // TODO(mdempsky): Should always be present. |
| ls = p.stmtFall(label.Stmt, fallOK) |
| } |
| |
| lhs.Name.Defn = ls |
| l := []*Node{lhs} |
| if ls != nil { |
| if ls.Op == OBLOCK && ls.Ninit.Len() == 0 { |
| l = append(l, ls.List.Slice()...) |
| } else { |
| l = append(l, ls) |
| } |
| } |
| return liststmt(l) |
| } |
| |
| var unOps = [...]Op{ |
| syntax.Recv: ORECV, |
| syntax.Mul: ODEREF, |
| syntax.And: OADDR, |
| |
| syntax.Not: ONOT, |
| syntax.Xor: OBITNOT, |
| syntax.Add: OPLUS, |
| syntax.Sub: ONEG, |
| } |
| |
| func (p *noder) unOp(op syntax.Operator) Op { |
| if uint64(op) >= uint64(len(unOps)) || unOps[op] == 0 { |
| panic("invalid Operator") |
| } |
| return unOps[op] |
| } |
| |
| var binOps = [...]Op{ |
| syntax.OrOr: OOROR, |
| syntax.AndAnd: OANDAND, |
| |
| syntax.Eql: OEQ, |
| syntax.Neq: ONE, |
| syntax.Lss: OLT, |
| syntax.Leq: OLE, |
| syntax.Gtr: OGT, |
| syntax.Geq: OGE, |
| |
| syntax.Add: OADD, |
| syntax.Sub: OSUB, |
| syntax.Or: OOR, |
| syntax.Xor: OXOR, |
| |
| syntax.Mul: OMUL, |
| syntax.Div: ODIV, |
| syntax.Rem: OMOD, |
| syntax.And: OAND, |
| syntax.AndNot: OANDNOT, |
| syntax.Shl: OLSH, |
| syntax.Shr: ORSH, |
| } |
| |
| func (p *noder) binOp(op syntax.Operator) Op { |
| if uint64(op) >= uint64(len(binOps)) || binOps[op] == 0 { |
| panic("invalid Operator") |
| } |
| return binOps[op] |
| } |
| |
| func (p *noder) basicLit(lit *syntax.BasicLit) Val { |
| // TODO: Don't try to convert if we had syntax errors (conversions may fail). |
| // Use dummy values so we can continue to compile. Eventually, use a |
| // form of "unknown" literals that are ignored during type-checking so |
| // we can continue type-checking w/o spurious follow-up errors. |
| switch s := lit.Value; lit.Kind { |
| case syntax.IntLit: |
| x := new(Mpint) |
| x.SetString(s) |
| return Val{U: x} |
| |
| case syntax.FloatLit: |
| x := newMpflt() |
| x.SetString(s) |
| return Val{U: x} |
| |
| case syntax.ImagLit: |
| x := new(Mpcplx) |
| x.Imag.SetString(strings.TrimSuffix(s, "i")) |
| return Val{U: x} |
| |
| case syntax.RuneLit: |
| var r rune |
| if u, err := strconv.Unquote(s); err == nil && len(u) > 0 { |
| // Package syntax already reported any errors. |
| // Check for them again though because 0 is a |
| // better fallback value for invalid rune |
| // literals than 0xFFFD. |
| if len(u) == 1 { |
| r = rune(u[0]) |
| } else { |
| r, _ = utf8.DecodeRuneInString(u) |
| } |
| } |
| x := new(Mpint) |
| x.SetInt64(int64(r)) |
| x.Rune = true |
| return Val{U: x} |
| |
| case syntax.StringLit: |
| if len(s) > 0 && s[0] == '`' { |
| // strip carriage returns from raw string |
| s = strings.Replace(s, "\r", "", -1) |
| } |
| // Ignore errors because package syntax already reported them. |
| u, _ := strconv.Unquote(s) |
| return Val{U: u} |
| |
| default: |
| panic("unhandled BasicLit kind") |
| } |
| } |
| |
| func (p *noder) name(name *syntax.Name) *types.Sym { |
| return lookup(name.Value) |
| } |
| |
| func (p *noder) mkname(name *syntax.Name) *Node { |
| // TODO(mdempsky): Set line number? |
| return mkname(p.name(name)) |
| } |
| |
| func (p *noder) newname(name *syntax.Name) *Node { |
| // TODO(mdempsky): Set line number? |
| return newname(p.name(name)) |
| } |
| |
| func (p *noder) wrapname(n syntax.Node, x *Node) *Node { |
| // These nodes do not carry line numbers. |
| // Introduce a wrapper node to give them the correct line. |
| switch x.Op { |
| case OTYPE, OLITERAL: |
| if x.Sym == nil { |
| break |
| } |
| fallthrough |
| case ONAME, ONONAME, OPACK: |
| x = p.nod(n, OPAREN, x, nil) |
| x.SetImplicit(true) |
| } |
| return x |
| } |
| |
| func (p *noder) nod(orig syntax.Node, op Op, left, right *Node) *Node { |
| return nodl(p.pos(orig), op, left, right) |
| } |
| |
| func (p *noder) nodSym(orig syntax.Node, op Op, left *Node, sym *types.Sym) *Node { |
| n := nodSym(op, left, sym) |
| n.Pos = p.pos(orig) |
| return n |
| } |
| |
| func (p *noder) pos(n syntax.Node) src.XPos { |
| // TODO(gri): orig.Pos() should always be known - fix package syntax |
| xpos := lineno |
| if pos := n.Pos(); pos.IsKnown() { |
| xpos = p.makeXPos(pos) |
| } |
| return xpos |
| } |
| |
| func (p *noder) setlineno(n syntax.Node) { |
| if n != nil { |
| lineno = p.pos(n) |
| } |
| } |
| |
| // error is called concurrently if files are parsed concurrently. |
| func (p *noder) error(err error) { |
| p.err <- err.(syntax.Error) |
| } |
| |
| // pragmas that are allowed in the std lib, but don't have |
| // a syntax.Pragma value (see lex.go) associated with them. |
| var allowedStdPragmas = map[string]bool{ |
| "go:cgo_export_static": true, |
| "go:cgo_export_dynamic": true, |
| "go:cgo_import_static": true, |
| "go:cgo_import_dynamic": true, |
| "go:cgo_ldflag": true, |
| "go:cgo_dynamic_linker": true, |
| "go:generate": true, |
| } |
| |
| // pragma is called concurrently if files are parsed concurrently. |
| func (p *noder) pragma(pos syntax.Pos, text string) syntax.Pragma { |
| switch { |
| case strings.HasPrefix(text, "line "): |
| // line directives are handled by syntax package |
| panic("unreachable") |
| |
| case strings.HasPrefix(text, "go:linkname "): |
| f := strings.Fields(text) |
| if len(f) != 3 { |
| p.error(syntax.Error{Pos: pos, Msg: "usage: //go:linkname localname linkname"}) |
| break |
| } |
| p.linknames = append(p.linknames, linkname{pos, f[1], f[2]}) |
| |
| case strings.HasPrefix(text, "go:cgo_import_dynamic "): |
| // This is permitted for general use because Solaris |
| // code relies on it in golang.org/x/sys/unix and others. |
| fields := pragmaFields(text) |
| if len(fields) >= 4 { |
| lib := strings.Trim(fields[3], `"`) |
| if lib != "" && !safeArg(lib) && !isCgoGeneratedFile(pos) { |
| p.error(syntax.Error{Pos: pos, Msg: fmt.Sprintf("invalid library name %q in cgo_import_dynamic directive", lib)}) |
| } |
| p.pragcgo(pos, text) |
| return pragmaValue("go:cgo_import_dynamic") |
| } |
| fallthrough |
| case strings.HasPrefix(text, "go:cgo_"): |
| // For security, we disallow //go:cgo_* directives other |
| // than cgo_import_dynamic outside cgo-generated files. |
| // Exception: they are allowed in the standard library, for runtime and syscall. |
| if !isCgoGeneratedFile(pos) && !compiling_std { |
| p.error(syntax.Error{Pos: pos, Msg: fmt.Sprintf("//%s only allowed in cgo-generated code", text)}) |
| } |
| p.pragcgo(pos, text) |
| fallthrough // because of //go:cgo_unsafe_args |
| default: |
| verb := text |
| if i := strings.Index(text, " "); i >= 0 { |
| verb = verb[:i] |
| } |
| prag := pragmaValue(verb) |
| const runtimePragmas = Systemstack | Nowritebarrier | Nowritebarrierrec | Yeswritebarrierrec |
| if !compiling_runtime && prag&runtimePragmas != 0 { |
| p.error(syntax.Error{Pos: pos, Msg: fmt.Sprintf("//%s only allowed in runtime", verb)}) |
| } |
| if prag == 0 && !allowedStdPragmas[verb] && compiling_std { |
| p.error(syntax.Error{Pos: pos, Msg: fmt.Sprintf("//%s is not allowed in the standard library", verb)}) |
| } |
| return prag |
| } |
| |
| return 0 |
| } |
| |
| // isCgoGeneratedFile reports whether pos is in a file |
| // generated by cgo, which is to say a file with name |
| // beginning with "_cgo_". Such files are allowed to |
| // contain cgo directives, and for security reasons |
| // (primarily misuse of linker flags), other files are not. |
| // See golang.org/issue/23672. |
| func isCgoGeneratedFile(pos syntax.Pos) bool { |
| return strings.HasPrefix(filepath.Base(filepath.Clean(fileh(pos.Base().Filename()))), "_cgo_") |
| } |
| |
| // safeArg reports whether arg is a "safe" command-line argument, |
| // meaning that when it appears in a command-line, it probably |
| // doesn't have some special meaning other than its own name. |
| // This is copied from SafeArg in cmd/go/internal/load/pkg.go. |
| func safeArg(name string) bool { |
| if name == "" { |
| return false |
| } |
| c := name[0] |
| return '0' <= c && c <= '9' || 'A' <= c && c <= 'Z' || 'a' <= c && c <= 'z' || c == '.' || c == '_' || c == '/' || c >= utf8.RuneSelf |
| } |
| |
| func mkname(sym *types.Sym) *Node { |
| n := oldname(sym) |
| if n.Name != nil && n.Name.Pack != nil { |
| n.Name.Pack.Name.SetUsed(true) |
| } |
| return n |
| } |
| |
| func unparen(x *Node) *Node { |
| for x.Op == OPAREN { |
| x = x.Left |
| } |
| return x |
| } |