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go/typechecker: 2nd step towards augmenting AST with full type information.

Browse Source 
- refine/define Scope, Object, and Type structures
  (note: scope.go has the addition of types, the rest is only re-organized
  for better readability)
- implemented top-level of type checker:
  resolve global type declarations (deal with double decls, cycles, etc.)
- temporary hooks for checking of const/var declarations, function/method bodies
- test harness for fine-grained testing (exact error locations)
  with initial set of tests

This is a subset of the code for easier review.

R=rsc
CC=golang-dev
https://golang.org/cl/1967049
This commit is contained in:
Robert Griesemer 2010-08-26 14:36:13 -07:00
parent 4ae2b43ef2
commit c606b964a0
12 changed files with 1230 additions and 87 deletions
Show Stats Download Patch File Download Diff File Expand all files Collapse all files

46
src/cmd/godoc/godoc.go
View File

@ -144,13 +144,6 @@ func pkgName(filename string) string {
}
func htmlEscape(s string) string {
var buf bytes.Buffer
template.HTMLEscape(&buf, []byte(s))
return buf.String()
}
func firstSentence(s string) string {
i := -1 // index+1 of first terminator (punctuation ending a sentence)
j := -1 // index+1 of first terminator followed by white space
@ -448,6 +441,37 @@ func (root *Directory) listing(skipRoot bool) *DirList {
// ----------------------------------------------------------------------------
// HTML formatting support
// aposescaper implements an io.Writer that escapes single quotes:
// ' is written as \' . It is used to escape text such that it can
// be used as the content of single-quoted string literals.
type aposescaper struct {
w io.Writer
}
func (e *aposescaper) Write(p []byte) (n int, err os.Error) {
backslash := []byte{'\\'}
var i, m int
for j, b := range p {
if b == '\'' {
m, err = e.w.Write(p[i:j])
n += m
if err != nil {
return
}
_, err = e.w.Write(backslash)
if err != nil {
return
}
i = j
}
}
m, err = e.w.Write(p[i:])
n += m
return
}
// Styler implements a printer.Styler.
type Styler struct {
linetags bool
@ -496,6 +520,11 @@ func writeObjInfo(w io.Writer, obj *ast.Object) {
fmt.Fprintf(w, "%s ", obj.Kind)
}
template.HTMLEscape(w, []byte(obj.Name))
// show type if we know it
if obj.Type != nil && obj.Type.Expr != nil {
fmt.Fprint(w, " ")
writeNode(&aposescaper{w}, obj.Type.Expr, true, &defaultStyler)
}
}
@ -1035,8 +1064,9 @@ func serveGoSource(c *http.Conn, r *http.Request, abspath, relpath string) {
return
}
// TODO(gri) enable once we are confident it works for all files
// augment AST with types; ignore errors (partial type information ok)
// TODO(gri): invoke typechecker
// typechecker.CheckFile(file, nil)
var buf bytes.Buffer
styler := newStyler(r.FormValue("h"))

1
src/pkg/Makefile
View File

@ -70,6 +70,7 @@ DIRS=\
go/printer\
go/scanner\
go/token\
go/typechecker\
gob\
hash\
hash/adler32\

286
src/pkg/go/ast/scope.go
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@ -2,54 +2,12 @@
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// This file implements scopes, the objects they contain,
// and object types.
package ast
type ObjKind int
// The list of possible Object kinds.
const (
Bad ObjKind = iota // bad object
Pkg // package
Con // constant
Typ // type
Var // variable
Fun // function or method
)
var objKindStrings = [...]string{
Bad: "bad",
Pkg: "package",
Con: "const",
Typ: "type",
Var: "var",
Fun: "func",
}
func (kind ObjKind) String() string { return objKindStrings[kind] }
// An Object describes a language entity such as a package,
// constant, type, variable, or function (incl. methods).
//
type Object struct {
Kind ObjKind
Name string // declared name
Decl interface{} // corresponding Field, xxxSpec or FuncDecl
}
func NewObj(kind ObjKind, name string) *Object {
return &Object{kind, name, nil}
}
// IsExported returns whether obj is exported.
func (obj *Object) IsExported() bool { return IsExported(obj.Name) }
// A Scope maintains the set of named language entities visible
// A Scope maintains the set of named language entities declared
// in the scope and a link to the immediately surrounding (outer)
// scope.
//
@ -72,6 +30,41 @@ func NewScope(outer *Scope) *Scope {
}
// Lookup returns the object with the given name if it is
// found in scope s, otherwise it returns nil. Outer scopes
// are ignored.
//
// Lookup always returns nil if name is "_", even if the scope
// contains objects with that name.
//
func (s *Scope) Lookup(name string) *Object {
if name != "_" {
for _, obj := range s.Objects {
if obj.Name == name {
return obj
}
}
}
return nil
}
// Insert attempts to insert a named object into the scope s.
// If the scope does not contain an object with that name yet
// or if the object is named "_", Insert inserts the object
// and returns it. Otherwise, Insert leaves the scope unchanged
// and returns the object found in the scope instead.
//
func (s *Scope) Insert(obj *Object) *Object {
alt := s.Lookup(obj.Name)
if alt == nil {
s.append(obj)
alt = obj
}
return alt
}
func (s *Scope) append(obj *Object) {
n := len(s.Objects)
if n >= cap(s.Objects) {
@ -84,39 +77,174 @@ func (s *Scope) append(obj *Object) {
}
func (s *Scope) lookup(name string) *Object {
for _, obj := range s.Objects {
if obj.Name == name {
return obj
}
}
return nil
}
// ----------------------------------------------------------------------------
// Objects
// Declare attempts to insert a named object into the scope s.
// If the scope does not contain an object with that name yet,
// Declare inserts the object, and returns it. Otherwise, the
// scope remains unchanged and Declare returns the object found
// in the scope instead.
func (s *Scope) Declare(obj *Object) *Object {
alt := s.lookup(obj.Name)
if alt == nil {
s.append(obj)
alt = obj
}
return alt
}
// Lookup looks up an object in the current scope chain.
// The result is nil if the object is not found.
// An Object describes a language entity such as a package,
// constant, type, variable, or function (incl. methods).
//
func (s *Scope) Lookup(name string) *Object {
for ; s != nil; s = s.Outer {
if obj := s.lookup(name); obj != nil {
return obj
}
}
return nil
type Object struct {
Kind Kind
Name string // declared name
Type *Type
Decl interface{} // corresponding Field, XxxSpec or FuncDecl
N int // value of iota for this declaration
}
// NewObj creates a new object of a given kind and name.
func NewObj(kind Kind, name string) *Object {
return &Object{Kind: kind, Name: name}
}
// Kind describes what an object represents.
type Kind int
// The list of possible Object kinds.
const (
Bad Kind = iota // for error handling
Pkg // package
Con // constant
Typ // type
Var // variable
Fun // function or method
)
var objKindStrings = [...]string{
Bad: "bad",
Pkg: "package",
Con: "const",
Typ: "type",
Var: "var",
Fun: "func",
}
func (kind Kind) String() string { return objKindStrings[kind] }
// IsExported returns whether obj is exported.
func (obj *Object) IsExported() bool { return IsExported(obj.Name) }
// ----------------------------------------------------------------------------
// Types
// A Type represents a Go type.
type Type struct {
Form Form
Obj *Object // corresponding type name, or nil
Scope *Scope // fields and methods, always present
N uint // basic type id, array length, number of function results, or channel direction
Key, Elt *Type // map key and array, pointer, slice, map or channel element
Params *Scope // function (receiver, input and result) parameters, tuple expressions (results of function calls), or nil
Expr Expr // corresponding AST expression
}
// NewType creates a new type of a given form.
func NewType(form Form) *Type {
return &Type{Form: form, Scope: NewScope(nil)}
}
// Form describes the form of a type.
type Form int
// The list of possible type forms.
const (
BadType Form = iota // for error handling
Unresolved // type not fully setup
Basic
Array
Struct
Pointer
Function
Method
Interface
Slice
Map
Channel
Tuple
)
var formStrings = [...]string{
BadType: "badType",
Unresolved: "unresolved",
Basic: "basic",
Array: "array",
Struct: "struct",
Pointer: "pointer",
Function: "function",
Method: "method",
Interface: "interface",
Slice: "slice",
Map: "map",
Channel: "channel",
Tuple: "tuple",
}
func (form Form) String() string { return formStrings[form] }
// The list of basic type id's.
const (
Bool = iota
Byte
Uint
Int
Float
Complex
Uintptr
String
Uint8
Uint16
Uint32
Uint64
Int8
Int16
Int32
Int64
Float32
Float64
Complex64
Complex128
// TODO(gri) ideal types are missing
)
var BasicTypes = map[uint]string{
Bool: "bool",
Byte: "byte",
Uint: "uint",
Int: "int",
Float: "float",
Complex: "complex",
Uintptr: "uintptr",
String: "string",
Uint8: "uint8",
Uint16: "uint16",
Uint32: "uint32",
Uint64: "uint64",
Int8: "int8",
Int16: "int16",
Int32: "int32",
Int64: "int64",
Float32: "float32",
Float64: "float64",
Complex64: "complex64",
Complex128: "complex128",
}

13
src/pkg/go/typechecker/Makefile Normal file
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@ -0,0 +1,13 @@
# Copyright 2010 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.
include ../../../Make.inc
TARG=go/typechecker
GOFILES=\
scope.go\
typechecker.go\
universe.go\
include ../../../Make.pkg

119
src/pkg/go/typechecker/scope.go Normal file
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@ -0,0 +1,119 @@
// Copyright 2010 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.
// This file implements scope support functions.
package typechecker
import (
"fmt"
"go/ast"
"go/token"
)
func (tc *typechecker) openScope() *ast.Scope {
tc.topScope = ast.NewScope(tc.topScope)
return tc.topScope
}
func (tc *typechecker) closeScope() {
tc.topScope = tc.topScope.Outer
}
// objPos computes the source position of the declaration of an object name.
// Only required for error reporting, so doesn't have to be fast.
func objPos(obj *ast.Object) (pos token.Position) {
switch d := obj.Decl.(type) {
case *ast.Field:
for _, n := range d.Names {
if n.Name == obj.Name {
return n.Pos()
}
}
case *ast.ValueSpec:
for _, n := range d.Names {
if n.Name == obj.Name {
return n.Pos()
}
}
case *ast.TypeSpec:
return d.Name.Pos()
case *ast.FuncDecl:
return d.Name.Pos()
}
if debug {
fmt.Printf("decl = %T\n", obj.Decl)
}
panic("unreachable")
}
// declInScope declares an object of a given kind and name in scope and sets the object's Decl and N fields.
// It returns the newly allocated object. If an object with the same name already exists in scope, an error
// is reported and the object is not inserted.
// (Objects with _ name are always inserted into a scope without errors, but they cannot be found.)
func (tc *typechecker) declInScope(scope *ast.Scope, kind ast.Kind, name *ast.Ident, decl interface{}, n int) *ast.Object {
obj := ast.NewObj(kind, name.Name)
obj.Decl = decl
obj.N = n
name.Obj = obj
if alt := scope.Insert(obj); alt != obj {
tc.Errorf(name.Pos(), "%s already declared at %s", name.Name, objPos(alt))
}
return obj
}
// decl is the same as declInScope(tc.topScope, ...)
func (tc *typechecker) decl(kind ast.Kind, name *ast.Ident, decl interface{}, n int) *ast.Object {
return tc.declInScope(tc.topScope, kind, name, decl, n)
}
// find returns the object with the given name if visible in the current scope hierarchy.
// If no such object is found, an error is reported and a bad object is returned instead.
func (tc *typechecker) find(name *ast.Ident) (obj *ast.Object) {
for s := tc.topScope; s != nil && obj == nil; s = s.Outer {
obj = s.Lookup(name.Name)
}
if obj == nil {
tc.Errorf(name.Pos(), "%s not declared", name.Name)
obj = ast.NewObj(ast.Bad, name.Name)
}
name.Obj = obj
return
}
// findField returns the object with the given name if visible in the type's scope.
// If no such object is found, an error is reported and a bad object is returned instead.
func (tc *typechecker) findField(typ *ast.Type, name *ast.Ident) (obj *ast.Object) {
// TODO(gri) This is simplistic at the moment and ignores anonymous fields.
obj = typ.Scope.Lookup(name.Name)
if obj == nil {
tc.Errorf(name.Pos(), "%s not declared", name.Name)
obj = ast.NewObj(ast.Bad, name.Name)
}
return
}
// printScope prints the objects in a scope.
func printScope(scope *ast.Scope) {
fmt.Printf("scope %p {", scope)
if scope != nil && len(scope.Objects) > 0 {
fmt.Println()
for _, obj := range scope.Objects {
form := "void"
if obj.Type != nil {
form = obj.Type.Form.String()
}
fmt.Printf("\t%s\t%s\n", obj.Name, form)
}
}
fmt.Printf("}\n")
}

94
src/pkg/go/typechecker/testdata/test0.go vendored Normal file
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@ -0,0 +1,94 @@
// Copyright 2010 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.
// type declarations
package P0
type (
B bool
I int32
A [10]P
T struct {
x, y P
}
P *T
R *R
F func(A) I
Y interface {
f(A) I
}
S []P
M map[I]F
C chan<- I
)
type (
a/* ERROR "illegal cycle" */ a
a/* ERROR "already declared" */ int
b/* ERROR "illegal cycle" */ c
c d
d e
e b /* ERROR "not a type" */
t *t
U V
V W
W *U
P1 *S2
P2 P1
S1 struct {
a, b, c int
u, v, a/* ERROR "already declared" */ float
}
S2/* ERROR "illegal cycle" */ struct {
x S2
}
L1 []L1
L2 []int
A1 [10]int
A2/* ERROR "illegal cycle" */ [10]A2
A3/* ERROR "illegal cycle" */ [10]struct {
x A4
}
A4 [10]A3
F1 func()
F2 func(x, y, z float)
F3 func(x, y, x /* ERROR "already declared" */ float)
F4 func() (x, y, x /* ERROR "already declared" */ float)
F5 func(x int) (x /* ERROR "already declared" */ float)
I1 interface{}
I2 interface {
m1()
}
I3 interface {
m1()
m1 /* ERROR "already declared" */ ()
}
I4 interface {
m1(x, y, x /* ERROR "already declared" */ float)
m2() (x, y, x /* ERROR "already declared" */ float)
m3(x int) (x /* ERROR "already declared" */ float)
}
I5 interface {
m1(I5)
}
C1 chan int
C2 <-chan int
C3 chan<- C3
M1 map[Last]string
M2 map[string]M2
Last int
)

13
src/pkg/go/typechecker/testdata/test1.go vendored Normal file
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@ -0,0 +1,13 @@
// Copyright 2010 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.
// const and var declarations
package P1
const (
c1 /* ERROR "missing initializer" */
c2 int = 0
c3, c4 = 0
)

38
src/pkg/go/typechecker/testdata/test3.go vendored Normal file
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@ -0,0 +1,38 @@
// Copyright 2010 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 P3
// function and method signatures
func _() {}
func _() {}
func _(x, x /* ERROR "already declared" */ int) {}
func f() {}
func f /* ERROR "already declared" */ () {}
func (*foo /* ERROR "invalid receiver" */ ) m() {}
func (bar /* ERROR "not a type" */ ) m() {}
func f1(x, _, _ int) (_, _ float) {}
func f2(x, y, x /* ERROR "already declared" */ int) {}
func f3(x, y int) (a, b, x /* ERROR "already declared" */ int) {}
func (x *T) m1() {}
func (x *T) m1 /* ERROR "already declared" */ () {}
func (x T) m1 /* ERROR "already declared" */ () {}
func (T) m1 /* ERROR "already declared" */ () {}
func (x *T) m2(u, x /* ERROR "already declared" */ int) {}
func (x *T) m3(a, b, c int) (u, x /* ERROR "already declared" */ int) {}
func (T) _(x, x /* ERROR "already declared" */ int) {}
func (T) _() (x, x /* ERROR "already declared" */ int) {}
//func (PT) _() {}
var bar int
type T struct{}
type PT (T)

11
src/pkg/go/typechecker/testdata/test4.go vendored Normal file
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@ -0,0 +1,11 @@
// Copyright 2010 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.
// Constant declarations
package P4
const (
c0 /* ERROR "missing initializer" */
)

484
src/pkg/go/typechecker/typechecker.go Normal file
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@ -0,0 +1,484 @@
// Copyright 2010 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.
// This package implements typechecking of a Go AST.
// The result of the typecheck is an augmented AST
// with object and type information for each identifier.
//
package typechecker
import (
"container/vector"
"fmt"
"go/ast"
"go/token"
"go/scanner"
"os"
)
// TODO(gri) don't report errors for objects/types that are marked as bad.
const debug = true // set for debugging output
// An importer takes an import path and returns the data describing the
// respective package's exported interface. The data format is TBD.
//
type Importer func(path string) ([]byte, os.Error)
// CheckPackage typechecks a package and augments the AST by setting
// *ast.Object, *ast.Type, and *ast.Scope fields accordingly. If an
// importer is provided, it is used to handle imports, otherwise they
// are ignored (likely leading to typechecking errors).
//
// If errors are reported, the AST may be incompletely augmented (fields
// may be nil) or contain incomplete object, type, or scope information.
//
func CheckPackage(pkg *ast.Package, importer Importer) os.Error {
var tc typechecker
tc.importer = importer
tc.checkPackage(pkg)
return tc.GetError(scanner.Sorted)
}
// CheckFile typechecks a single file, but otherwise behaves like
// CheckPackage. If the complete package consists of more than just
// one file, the file may not typecheck without errors.
//
func CheckFile(file *ast.File, importer Importer) os.Error {
// create a single-file dummy package
pkg := &ast.Package{file.Name.Name, nil, map[string]*ast.File{file.Name.Position.Filename: file}}
return CheckPackage(pkg, importer)
}
// ----------------------------------------------------------------------------
// Typechecker state
type typechecker struct {
scanner.ErrorVector
importer Importer
topScope *ast.Scope // current top-most scope
cyclemap map[*ast.Object]bool // for cycle detection
iota int // current value of iota
}
func (tc *typechecker) Errorf(pos token.Position, format string, args ...interface{}) {
tc.Error(pos, fmt.Sprintf(format, args))
}
func assert(pred bool) {
if !pred {
panic("internal error")
}
}
/*
Typechecking is done in several phases:
phase 1: declare all global objects; also collect all function and method declarations
- all objects have kind, name, decl fields; the decl field permits
quick lookup of an object's declaration
- constant objects have an iota value
- type objects have unresolved types with empty scopes, all others have nil types
- report global double declarations
phase 2: bind methods to their receiver base types
- received base types must be declared in the package, thus for
each method a corresponding (unresolved) type must exist
- report method double declarations and errors with base types
phase 3: resolve all global objects
- sequentially iterate through all objects in the global scope
- resolve types for all unresolved types and assign types to
all attached methods
- assign types to all other objects, possibly by evaluating
constant and initializer expressions
- resolution may recurse; a cyclemap is used to detect cycles
- report global typing errors
phase 4: sequentially typecheck function and method bodies
- all global objects are declared and have types and values;
all methods have types
- sequentially process statements in each body; any object
referred to must be fully defined at this point
- report local typing errors
*/
func (tc *typechecker) checkPackage(pkg *ast.Package) {
// setup package scope
tc.topScope = Universe
tc.openScope()
defer tc.closeScope()
// TODO(gri) there's no file scope at the moment since we ignore imports
// phase 1: declare all global objects; also collect all function and method declarations
var funcs vector.Vector
for _, file := range pkg.Files {
for _, decl := range file.Decls {
tc.declGlobal(decl)
if f, isFunc := decl.(*ast.FuncDecl); isFunc {
funcs.Push(f)
}
}
}
// phase 2: bind methods to their receiver base types
for _, decl := range funcs {
d := decl.(*ast.FuncDecl)
if d.Recv != nil {
tc.bindMethod(d)
}
}
// phase 3: resolve all global objects
// (note that objects with _ name are also in the scope)
tc.cyclemap = make(map[*ast.Object]bool)
for _, obj := range tc.topScope.Objects {
tc.resolve(obj)
}
assert(len(tc.cyclemap) == 0)
// 4: sequentially typecheck function and method bodies
for _, decl := range funcs {
d := decl.(*ast.FuncDecl)
tc.checkBlock(d.Body.List, d.Name.Obj.Type)
}
pkg.Scope = tc.topScope
}
func (tc *typechecker) declGlobal(global ast.Decl) {
switch d := global.(type) {
case *ast.BadDecl:
// ignore
case *ast.GenDecl:
iota := 0
var prev *ast.ValueSpec
for _, spec := range d.Specs {
switch s := spec.(type) {
case *ast.ImportSpec:
// TODO(gri) imports go into file scope
case *ast.ValueSpec:
switch d.Tok {
case token.CONST:
if s.Values == nil {
// create a new spec with type and values from the previous one
if prev != nil {
s = &ast.ValueSpec{s.Doc, s.Names, prev.Type, prev.Values, s.Comment}
} else {
// TODO(gri) this should probably go into the const decl code
tc.Errorf(s.Pos(), "missing initializer for const %s", s.Names[0].Name)
}
}
for _, name := range s.Names {
tc.decl(ast.Con, name, s, iota)
}
case token.VAR:
for _, name := range s.Names {
tc.decl(ast.Var, name, s, 0)
}
default:
panic("unreachable")
}
prev = s
iota++
case *ast.TypeSpec:
obj := tc.decl(ast.Typ, s.Name, s, 0)
// give all type objects an unresolved type so
// that we can collect methods in the type scope
typ := ast.NewType(ast.Unresolved)
obj.Type = typ
typ.Obj = obj
default:
panic("unreachable")
}
}
case *ast.FuncDecl:
if d.Recv == nil {
tc.decl(ast.Fun, d.Name, d, 0)
}
default:
panic("unreachable")
}
}
// If x is of the form *T, deref returns T, otherwise it returns x.
func deref(x ast.Expr) ast.Expr {
if p, isPtr := x.(*ast.StarExpr); isPtr {
x = p.X
}
return x
}
func (tc *typechecker) bindMethod(method *ast.FuncDecl) {
// a method is declared in the receiver base type's scope
var scope *ast.Scope
base := deref(method.Recv.List[0].Type)
if name, isIdent := base.(*ast.Ident); isIdent {
// if base is not an *ast.Ident, we had a syntax
// error and the parser reported an error already
obj := tc.topScope.Lookup(name.Name)
if obj == nil {
tc.Errorf(name.Pos(), "invalid receiver: %s is not declared in this package", name.Name)
} else if obj.Kind != ast.Typ {
tc.Errorf(name.Pos(), "invalid receiver: %s is not a type", name.Name)
} else {
typ := obj.Type
assert(typ.Form == ast.Unresolved)
scope = typ.Scope
}
}
if scope == nil {
// no receiver type found; use a dummy scope
// (we still want to type-check the method
// body, so make sure there is a name object
// and type)
// TODO(gri) should we record the scope so
// that we don't lose the receiver for type-
// checking of the method body?
scope = ast.NewScope(nil)
}
tc.declInScope(scope, ast.Fun, method.Name, method, 0)
}
func (tc *typechecker) resolve(obj *ast.Object) {
// check for declaration cycles
if tc.cyclemap[obj] {
tc.Errorf(objPos(obj), "illegal cycle in declaration of %s", obj.Name)
obj.Kind = ast.Bad
return
}
tc.cyclemap[obj] = true
defer func() {
tc.cyclemap[obj] = false, false
}()
// resolve non-type objects
typ := obj.Type
if typ == nil {
switch obj.Kind {
case ast.Bad:
// ignore
case ast.Con:
tc.declConst(obj)
case ast.Var:
tc.declVar(obj)
//obj.Type = tc.typeFor(nil, obj.Decl.(*ast.ValueSpec).Type, false)
case ast.Fun:
obj.Type = ast.NewType(ast.Function)
t := obj.Decl.(*ast.FuncDecl).Type
tc.declSignature(obj.Type, nil, t.Params, t.Results)
default:
// type objects have non-nil types when resolve is called
if debug {
fmt.Printf("kind = %s\n", obj.Kind)
}
panic("unreachable")
}
return
}
// resolve type objects
if typ.Form == ast.Unresolved {
tc.typeFor(typ, typ.Obj.Decl.(*ast.TypeSpec).Type, false)
// provide types for all methods
for _, obj := range typ.Scope.Objects {
if obj.Kind == ast.Fun {
assert(obj.Type == nil)
obj.Type = ast.NewType(ast.Method)
f := obj.Decl.(*ast.FuncDecl)
t := f.Type
tc.declSignature(obj.Type, f.Recv, t.Params, t.Results)
}
}
}
}
func (tc *typechecker) checkBlock(body []ast.Stmt, ftype *ast.Type) {
tc.openScope()
defer tc.closeScope()
// inject function/method parameters into block scope, if any
if ftype != nil {
for _, par := range ftype.Params.Objects {
obj := tc.topScope.Insert(par)
assert(obj == par) // ftype has no double declarations
}
}
for _, stmt := range body {
tc.checkStmt(stmt)
}
}
// ----------------------------------------------------------------------------
// Types
// unparen removes parentheses around x, if any.
func unparen(x ast.Expr) ast.Expr {
if ux, hasParens := x.(*ast.ParenExpr); hasParens {
return unparen(ux.X)
}
return x
}
func (tc *typechecker) declFields(scope *ast.Scope, fields *ast.FieldList, ref bool) (n uint) {
if fields != nil {
for _, f := range fields.List {
typ := tc.typeFor(nil, f.Type, ref)
for _, name := range f.Names {
fld := tc.declInScope(scope, ast.Var, name, f, 0)
fld.Type = typ
n++
}
}
}
return n
}
func (tc *typechecker) declSignature(typ *ast.Type, recv, params, results *ast.FieldList) {
assert((typ.Form == ast.Method) == (recv != nil))
typ.Params = ast.NewScope(nil)
tc.declFields(typ.Params, recv, true)
tc.declFields(typ.Params, params, true)
typ.N = tc.declFields(typ.Params, results, true)
}
func (tc *typechecker) typeFor(def *ast.Type, x ast.Expr, ref bool) (typ *ast.Type) {
x = unparen(x)
// type name
if t, isIdent := x.(*ast.Ident); isIdent {
obj := tc.find(t)
if obj.Kind != ast.Typ {
tc.Errorf(t.Pos(), "%s is not a type", t.Name)
if def == nil {
typ = ast.NewType(ast.BadType)
} else {
typ = def
typ.Form = ast.BadType
}
typ.Expr = x
return
}
if !ref {
tc.resolve(obj) // check for cycles even if type resolved
}
typ = obj.Type
if def != nil {
// new type declaration: copy type structure
def.Form = typ.Form
def.N = typ.N
def.Key, def.Elt = typ.Key, typ.Elt
def.Params = typ.Params
def.Expr = x
typ = def
}
return
}
// type literal
typ = def
if typ == nil {
typ = ast.NewType(ast.BadType)
}
typ.Expr = x
switch t := x.(type) {
case *ast.SelectorExpr:
if debug {
fmt.Println("qualified identifier unimplemented")
}
typ.Form = ast.BadType
case *ast.StarExpr:
typ.Form = ast.Pointer
typ.Elt = tc.typeFor(nil, t.X, true)
case *ast.ArrayType:
if t.Len != nil {
typ.Form = ast.Array
// TODO(gri) compute the real length
// (this may call resolve recursively)
(*typ).N = 42
} else {
typ.Form = ast.Slice
}
typ.Elt = tc.typeFor(nil, t.Elt, t.Len == nil)
case *ast.StructType:
typ.Form = ast.Struct
tc.declFields(typ.Scope, t.Fields, false)
case *ast.FuncType:
typ.Form = ast.Function
tc.declSignature(typ, nil, t.Params, t.Results)
case *ast.InterfaceType:
typ.Form = ast.Interface
tc.declFields(typ.Scope, t.Methods, true)
case *ast.MapType:
typ.Form = ast.Map
typ.Key = tc.typeFor(nil, t.Key, true)
typ.Elt = tc.typeFor(nil, t.Value, true)
case *ast.ChanType:
typ.Form = ast.Channel
typ.N = uint(t.Dir)
typ.Elt = tc.typeFor(nil, t.Value, true)
default:
if debug {
fmt.Printf("x is %T\n", x)
}
panic("unreachable")
}
return
}
// ----------------------------------------------------------------------------
// TODO(gri) implement these place holders
func (tc *typechecker) declConst(*ast.Object) {
}
func (tc *typechecker) declVar(*ast.Object) {
}
func (tc *typechecker) checkStmt(ast.Stmt) {
}

174
src/pkg/go/typechecker/typechecker_test.go Normal file
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// Copyright 2010 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.
// This file implements a simple typechecker test harness. Packages found
// in the testDir directory are typechecked. Error messages reported by
// the typechecker are compared against the error messages expected for
// the test files.
//
// Expected errors are indicated in the test files by putting a comment
// of the form /* ERROR "rx" */ immediately following an offending token.
// The harness will verify that an error matching the regular expression
// rx is reported at that source position. Consecutive comments may be
// used to indicate multiple errors for the same token position.
//
// For instance, the following test file indicates that a "not declared"
// error should be reported for the undeclared variable x:
//
// package P0
// func f() {
// _ = x /* ERROR "not declared" */ + 1
// }
//
// If the -pkg flag is set, only packages with package names matching
// the regular expression provided via the flag value are tested.
package typechecker
import (
"container/vector"
"flag"
"fmt"
"go/ast"
"go/parser"
"go/scanner"
"go/token"
"io/ioutil"
"os"
"regexp"
"sort"
"strings"
"testing"
)
const testDir = "./testdata" // location of test packages
var (
pkgPat = flag.String("pkg", ".*", "regular expression to select test packages by package name")
trace = flag.Bool("trace", false, "print package names")
)
// ERROR comments must be of the form /* ERROR "rx" */ and rx is
// a regular expression that matches the expected error message.
var errRx = regexp.MustCompile(`^/\* *ERROR *"([^"]*)" *\*/$`)
// expectedErrors collects the regular expressions of ERROR comments
// found in the package files of pkg and returns them in sorted order
// (by filename and position).
func expectedErrors(t *testing.T, pkg *ast.Package) scanner.ErrorList {
var list vector.Vector
// scan all package files
for filename := range pkg.Files {
src, err := ioutil.ReadFile(filename)
if err != nil {
t.Fatalf("expectedErrors(%s): %v", pkg.Name, err)
}
var s scanner.Scanner
s.Init(filename, src, nil, scanner.ScanComments)
var prev token.Position // position of last non-comment token
loop:
for {
pos, tok, lit := s.Scan()
switch tok {
case token.EOF:
break loop
case token.COMMENT:
s := errRx.FindSubmatch(lit)
if len(s) == 2 {
list.Push(&scanner.Error{prev, string(s[1])})
}
default:
prev = pos
}
}
}
// convert list
errs := make(scanner.ErrorList, len(list))
for i, e := range list {
errs[i] = e.(*scanner.Error)
}
sort.Sort(errs) // multiple files may not be sorted
return errs
}
func testFilter(f *os.FileInfo) bool {
return strings.HasSuffix(f.Name, ".go") && f.Name[0] != '.'
}
func checkError(t *testing.T, expected, found *scanner.Error) {
rx, err := regexp.Compile(expected.Msg)
if err != nil {
t.Errorf("%s: %v", expected.Pos, err)
return
}
match := rx.MatchString(found.Msg)
if expected.Pos.Offset != found.Pos.Offset {
if match {
t.Errorf("%s: expected error should have been at %s", expected.Pos, found.Pos)
} else {
t.Errorf("%s: error matching %q expected", expected.Pos, expected.Msg)
return
}
}
if !match {
t.Errorf("%s: %q does not match %q", expected.Pos, expected.Msg, found.Msg)
}
}
func TestTypeCheck(t *testing.T) {
flag.Parse()
pkgRx, err := regexp.Compile(*pkgPat)
if err != nil {
t.Fatalf("illegal flag value %q: %s", *pkgPat, err)
}
pkgs, err := parser.ParseDir(testDir, testFilter, 0)
if err != nil {
scanner.PrintError(os.Stderr, err)
t.Fatalf("packages in %s contain syntax errors", testDir)
}
for _, pkg := range pkgs {
if !pkgRx.MatchString(pkg.Name) {
continue // only test selected packages
}
if *trace {
fmt.Println(pkg.Name)
}
xlist := expectedErrors(t, pkg)
err := CheckPackage(pkg, nil)
if err != nil {
if elist, ok := err.(scanner.ErrorList); ok {
// verify that errors match
for i := 0; i < len(xlist) && i < len(elist); i++ {
checkError(t, xlist[i], elist[i])
}
// the correct number or errors must have been found
if len(xlist) != len(elist) {
fmt.Fprintf(os.Stderr, "%s\n", pkg.Name)
scanner.PrintError(os.Stderr, elist)
fmt.Fprintln(os.Stderr)
t.Errorf("TypeCheck(%s): %d errors expected but %d reported", pkg.Name, len(xlist), len(elist))
}
} else {
t.Errorf("TypeCheck(%s): %v", pkg.Name, err)
}
} else if len(xlist) > 0 {
t.Errorf("TypeCheck(%s): %d errors expected but 0 reported", pkg.Name, len(xlist))
}
}
}

38
src/pkg/go/typechecker/universe.go Normal file
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// Copyright 2010 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 typechecker
import "go/ast"
// TODO(gri) should this be in package ast?
// The Universe scope contains all predeclared identifiers.
var Universe *ast.Scope
func def(obj *ast.Object) {
alt := Universe.Insert(obj)
if alt != obj {
panic("object declared twice")
}
}
func init() {
Universe = ast.NewScope(nil)
// basic types
for n, name := range ast.BasicTypes {
typ := ast.NewType(ast.Basic)
typ.N = n
obj := ast.NewObj(ast.Typ, name)
obj.Type = typ
typ.Obj = obj
def(obj)
}
// built-in functions
// TODO(gri) implement this
}