// 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. // +build ignore // Generate builtin.go from builtin/runtime.go. package main import ( "bytes" "flag" "fmt" "go/ast" "go/format" "go/parser" "go/token" "io" "io/ioutil" "log" "os" "path/filepath" "strconv" "strings" ) var stdout = flag.Bool("stdout", false, "write to stdout instead of builtin.go") func main() { flag.Parse() var b bytes.Buffer fmt.Fprintln(&b, "// Code generated by mkbuiltin.go. DO NOT EDIT.") fmt.Fprintln(&b) fmt.Fprintln(&b, "package gc") fmt.Fprintln(&b) fmt.Fprintln(&b, `import "cmd/compile/internal/types"`) mkbuiltin(&b, "runtime") out, err := format.Source(b.Bytes()) if err != nil { log.Fatal(err) } if *stdout { _, err = os.Stdout.Write(out) } else { err = ioutil.WriteFile("builtin.go", out, 0666) } if err != nil { log.Fatal(err) } } func mkbuiltin(w io.Writer, name string) { fset := token.NewFileSet() f, err := parser.ParseFile(fset, filepath.Join("builtin", name+".go"), nil, 0) if err != nil { log.Fatal(err) } var interner typeInterner fmt.Fprintf(w, "var %sDecls = [...]struct { name string; tag int; typ int }{\n", name) for _, decl := range f.Decls { switch decl := decl.(type) { case *ast.FuncDecl: if decl.Recv != nil { log.Fatal("methods unsupported") } if decl.Body != nil { log.Fatal("unexpected function body") } fmt.Fprintf(w, "{%q, funcTag, %d},\n", decl.Name.Name, interner.intern(decl.Type)) case *ast.GenDecl: if decl.Tok == token.IMPORT { if len(decl.Specs) != 1 || decl.Specs[0].(*ast.ImportSpec).Path.Value != "\"unsafe\"" { log.Fatal("runtime cannot import other package") } continue } if decl.Tok != token.VAR { log.Fatal("unhandled declaration kind", decl.Tok) } for _, spec := range decl.Specs { spec := spec.(*ast.ValueSpec) if len(spec.Values) != 0 { log.Fatal("unexpected values") } typ := interner.intern(spec.Type) for _, name := range spec.Names { fmt.Fprintf(w, "{%q, varTag, %d},\n", name.Name, typ) } } default: log.Fatal("unhandled decl type", decl) } } fmt.Fprintln(w, "}") fmt.Fprintln(w) fmt.Fprintf(w, "func %sTypes() []*types.Type {\n", name) fmt.Fprintf(w, "var typs [%d]*types.Type\n", len(interner.typs)) for i, typ := range interner.typs { fmt.Fprintf(w, "typs[%d] = %s\n", i, typ) } fmt.Fprintln(w, "return typs[:]") fmt.Fprintln(w, "}") } // typeInterner maps Go type expressions to compiler code that // constructs the denoted type. It recognizes and reuses common // subtype expressions. type typeInterner struct { typs []string hash map[string]int } func (i *typeInterner) intern(t ast.Expr) int { x := i.mktype(t) v, ok := i.hash[x] if !ok { v = len(i.typs) if i.hash == nil { i.hash = make(map[string]int) } i.hash[x] = v i.typs = append(i.typs, x) } return v } func (i *typeInterner) subtype(t ast.Expr) string { return fmt.Sprintf("typs[%d]", i.intern(t)) } func (i *typeInterner) mktype(t ast.Expr) string { switch t := t.(type) { case *ast.Ident: switch t.Name { case "byte": return "types.Bytetype" case "rune": return "types.Runetype" } return fmt.Sprintf("types.Types[T%s]", strings.ToUpper(t.Name)) case *ast.SelectorExpr: if t.X.(*ast.Ident).Name != "unsafe" || t.Sel.Name != "Pointer" { log.Fatalf("unhandled type: %#v", t) } return "types.Types[TUNSAFEPTR]" case *ast.ArrayType: if t.Len == nil { return fmt.Sprintf("types.NewSlice(%s)", i.subtype(t.Elt)) } return fmt.Sprintf("types.NewArray(%s, %d)", i.subtype(t.Elt), intconst(t.Len)) case *ast.ChanType: dir := "types.Cboth" switch t.Dir { case ast.SEND: dir = "types.Csend" case ast.RECV: dir = "types.Crecv" } return fmt.Sprintf("types.NewChan(%s, %s)", i.subtype(t.Value), dir) case *ast.FuncType: return fmt.Sprintf("functype(nil, %s, %s)", i.fields(t.Params, false), i.fields(t.Results, false)) case *ast.InterfaceType: if len(t.Methods.List) != 0 { log.Fatal("non-empty interfaces unsupported") } return "types.Types[TINTER]" case *ast.MapType: return fmt.Sprintf("types.NewMap(%s, %s)", i.subtype(t.Key), i.subtype(t.Value)) case *ast.StarExpr: return fmt.Sprintf("types.NewPtr(%s)", i.subtype(t.X)) case *ast.StructType: return fmt.Sprintf("tostruct(%s)", i.fields(t.Fields, true)) default: log.Fatalf("unhandled type: %#v", t) panic("unreachable") } } func (i *typeInterner) fields(fl *ast.FieldList, keepNames bool) string { if fl == nil || len(fl.List) == 0 { return "nil" } var res []string for _, f := range fl.List { typ := i.subtype(f.Type) if len(f.Names) == 0 { res = append(res, fmt.Sprintf("anonfield(%s)", typ)) } else { for _, name := range f.Names { if keepNames { res = append(res, fmt.Sprintf("namedfield(%q, %s)", name.Name, typ)) } else { res = append(res, fmt.Sprintf("anonfield(%s)", typ)) } } } } return fmt.Sprintf("[]*Node{%s}", strings.Join(res, ", ")) } func intconst(e ast.Expr) int64 { switch e := e.(type) { case *ast.BasicLit: if e.Kind != token.INT { log.Fatalf("expected INT, got %v", e.Kind) } x, err := strconv.ParseInt(e.Value, 0, 64) if err != nil { log.Fatal(err) } return x default: log.Fatalf("unhandled expr: %#v", e) panic("unreachable") } }