// ChanType = ( "chan" [ "<-" ] | "<-" "chan" ) Type .
//
func (p *parser) parseChanType() types.Type {
dir := types.SendRecv
if p.tok == scanner.Ident {
p.expectKeyword("chan")
if p.tok == '<' {
p.expectSpecial("<-")
dir = types.SendOnly
}
} else {
p.expectSpecial("<-")
p.expectKeyword("chan")
dir = types.RecvOnly
}
elem := p.parseType()
return types.NewChan(dir, elem)
}
// ChanType = "chan" ["<-" | "-<"] Type .
func (p *parser) parseChanType(pkg *types.Package) types.Type {
p.expectKeyword("chan")
dir := types.SendRecv
switch p.tok {
case '-':
p.next()
p.expect('<')
dir = types.SendOnly
case '<':
// don't consume '<' if it belongs to Type
if p.scanner.Peek() == '-' {
p.next()
p.expect('-')
dir = types.RecvOnly
}
}
return types.NewChan(dir, p.parseType(pkg))
}
func (p *importer) typ() types.Type {
// if the type was seen before, i is its index (>= 0)
i := p.int()
if i >= 0 {
return p.typList[i]
}
// otherwise, i is the type tag (< 0)
switch i {
case arrayTag:
t := new(types.Array)
p.record(t)
n := p.int64()
*t = *types.NewArray(p.typ(), n)
return t
case sliceTag:
t := new(types.Slice)
p.record(t)
*t = *types.NewSlice(p.typ())
return t
case structTag:
t := new(types.Struct)
p.record(t)
n := p.int()
fields := make([]*types.Var, n)
tags := make([]string, n)
for i := range fields {
fields[i] = p.field()
tags[i] = p.string()
}
*t = *types.NewStruct(fields, tags)
return t
case pointerTag:
t := new(types.Pointer)
p.record(t)
*t = *types.NewPointer(p.typ())
return t
case signatureTag:
t := new(types.Signature)
p.record(t)
*t = *p.signature()
return t
case interfaceTag:
// Create a dummy entry in the type list. This is safe because we
// cannot expect the interface type to appear in a cycle, as any
// such cycle must contain a named type which would have been
// first defined earlier.
n := len(p.typList)
p.record(nil)
// read embedded interfaces
embeddeds := make([]*types.Named, p.int())
for i := range embeddeds {
embeddeds[i] = p.typ().(*types.Named)
}
// read methods
methods := make([]*types.Func, p.int())
for i := range methods {
pkg, name := p.qualifiedName()
methods[i] = types.NewFunc(token.NoPos, pkg, name, p.typ().(*types.Signature))
}
t := types.NewInterface(methods, embeddeds)
p.typList[n] = t
return t
case mapTag:
t := new(types.Map)
p.record(t)
*t = *types.NewMap(p.typ(), p.typ())
return t
case chanTag:
t := new(types.Chan)
p.record(t)
*t = *types.NewChan(types.ChanDir(p.int()), p.typ())
return t
case namedTag:
// read type object
name := p.string()
pkg := p.pkg()
scope := pkg.Scope()
obj := scope.Lookup(name)
// if the object doesn't exist yet, create and insert it
if obj == nil {
obj = types.NewTypeName(token.NoPos, pkg, name, nil)
scope.Insert(obj)
}
// associate new named type with obj if it doesn't exist yet
t0 := types.NewNamed(obj.(*types.TypeName), nil, nil)
// but record the existing type, if any
t := obj.Type().(*types.Named)
p.record(t)
// read underlying type
t0.SetUnderlying(p.typ())
// read associated methods
for i, n := 0, p.int(); i < n; i++ {
t0.AddMethod(types.NewFunc(token.NoPos, pkg, p.string(), p.typ().(*types.Signature)))
}
return t
default:
panic(fmt.Sprintf("unexpected type tag %d", i))
}
}
// - test hashcodes are consistent with equals for a range of types
// (e.g. all types generated by type-checking some body of real code).
import (
"testing"
"golang.org/x/tools/go/types"
"golang.org/x/tools/go/types/typeutil"
)
var (
tStr = types.Typ[types.String] // string
tPStr1 = types.NewPointer(tStr) // *string
tPStr2 = types.NewPointer(tStr) // *string, again
tInt = types.Typ[types.Int] // int
tChanInt1 = types.NewChan(types.RecvOnly, tInt) // <-chan int
tChanInt2 = types.NewChan(types.RecvOnly, tInt) // <-chan int, again
)
func checkEqualButNotIdentical(t *testing.T, x, y types.Type, comment string) {
if !types.Identical(x, y) {
t.Errorf("%s: not equal: %s, %s", comment, x, y)
}
if x == y {
t.Errorf("%s: identical: %v, %v", comment, x, y)
}
}
func TestAxioms(t *testing.T) {
checkEqualButNotIdentical(t, tPStr1, tPStr2, "tPstr{1,2}")
checkEqualButNotIdentical(t, tChanInt1, tChanInt2, "tChanInt{1,2}")