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types.go
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types.go
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package gno
import (
"fmt"
"reflect"
"sort"
"strconv"
"strings"
)
// NOTE: TypeID() implementations are currently
// experimental, and will probably get replaced with
// some other system. TypeID may become variable length,
// rather than contain a single Hashlet.
//----------------------------------------
// (runtime) Type
type Type interface {
assertType()
Kind() Kind // penetrates *DeclaredType & *NativeType
TypeID() TypeID // deterministic
String() string // for dev/debugging
Elem() Type // for TODO... types
GetPkgPath() string
}
type TypeID string
func (tid TypeID) IsZero() bool {
return tid == ""
}
func (tid TypeID) Bytes() []byte {
return []byte(tid)
}
func (tid TypeID) String() string {
return string(tid)
}
func typeid(f string, args ...interface{}) (tid TypeID) {
fs := fmt.Sprintf(f, args...)
x := TypeID(fs)
if debug {
debug.Println("TYPEID", fs)
}
return x
}
// Complex types are pointers, but due to the design goal
// of the language to enable mass scale persistence, we
// cannot use pointer equality to test for type equality.
// Instead, for checking equalty use the TypeID.
func (PrimitiveType) assertType() {}
func (*PointerType) assertType() {}
func (FieldType) assertType() {}
func (*ArrayType) assertType() {}
func (*SliceType) assertType() {}
func (*StructType) assertType() {}
func (*FuncType) assertType() {}
func (*MapType) assertType() {}
func (*InterfaceType) assertType() {}
func (*TypeType) assertType() {}
func (*DeclaredType) assertType() {}
func (*PackageType) assertType() {}
func (*ChanType) assertType() {}
func (*NativeType) assertType() {}
func (blockType) assertType() {}
func (*tupleType) assertType() {}
func (RefType) assertType() {}
func (MaybeNativeType) assertType() {}
//----------------------------------------
// Primitive types
type PrimitiveType int
const (
InvalidType PrimitiveType = 1 << iota
UntypedBoolType
BoolType
UntypedStringType
StringType
IntType
Int8Type
Int16Type
UntypedRuneType
Int32Type
Int64Type
UintType
Uint8Type
DataByteType
Uint16Type
Uint32Type
Uint64Type
//UintptrType
UntypedBigintType
BigintType
)
// Used for converting constant binary expressions.
// Smaller number means more specific.
// Spec: "If the untyped operands of a binary operation (other than a shift) are
// of different kinds, the result is of the operand's kind that appears later
// in this list: integer, rune, floating-point, complex. For example, an
// untyped integer constant divided by an untyped complex constant yields an
// untyped complex constant."
func (pt PrimitiveType) Specificity() int {
switch pt {
case InvalidType:
panic("invalid type has no specificity")
case BoolType:
return 0
case StringType:
return 0
case IntType:
return 0
case Int8Type:
return 0
case Int16Type:
return 0
case Int32Type:
return 0
case Int64Type:
return 0
case UintType:
return 0
case Uint8Type, DataByteType:
return 0
case Uint16Type:
return 0
case Uint32Type:
return 0
case Uint64Type:
return 0
case BigintType:
return 1
case UntypedBoolType:
return 2
case UntypedRuneType:
return 3
case UntypedStringType:
return 4
case UntypedBigintType:
return 4
default:
panic(fmt.Sprintf("unexpected primitive type %v", pt))
}
}
func (pt PrimitiveType) Kind() Kind {
switch pt {
case InvalidType:
panic("invalid type has no kind")
case BoolType, UntypedBoolType:
return BoolKind
case StringType, UntypedStringType:
return StringKind
case IntType:
return IntKind
case Int8Type:
return Int8Kind
case Int16Type:
return Int16Kind
case Int32Type, UntypedRuneType:
return Int32Kind
case Int64Type:
return Int64Kind
case UintType:
return UintKind
case Uint8Type, DataByteType:
return Uint8Kind
case Uint16Type:
return Uint16Kind
case Uint32Type:
return Uint32Kind
case Uint64Type:
return Uint64Kind
case BigintType, UntypedBigintType:
return BigintKind
default:
panic(fmt.Sprintf("unexpected primitive type %v", pt))
}
}
func (pt PrimitiveType) TypeID() TypeID {
switch pt {
case InvalidType:
panic("invalid type has no typeid")
case UntypedBoolType:
return typeid("<untyped> bool")
case BoolType:
return typeid("bool")
case UntypedStringType:
return typeid("<untyped> string")
case StringType:
return typeid("string")
case IntType:
return typeid("int")
case Int8Type:
return typeid("int8")
case Int16Type:
return typeid("int16")
case UntypedRuneType:
return typeid("<untyped> rune")
case Int32Type:
return typeid("int32")
case Int64Type:
return typeid("int64")
case UintType:
return typeid("uint")
case Uint8Type:
return typeid("uint8")
case DataByteType:
// should not be persisted...
panic("untyped data byte type has no typeid")
case Uint16Type:
return typeid("uint16")
case Uint32Type:
return typeid("uint32")
case Uint64Type:
return typeid("uint64")
case UntypedBigintType:
return typeid("<untyped> bigint")
case BigintType:
return typeid("bigint")
default:
panic(fmt.Sprintf("unexpected primitive type %v", pt))
}
}
func (pt PrimitiveType) String() string {
switch pt {
case InvalidType:
return string("<invalid type>")
case UntypedBoolType:
return string("<untyped> bool")
case BoolType:
return string("bool")
case UntypedStringType:
return string("<untyped> string")
case StringType:
return string("string")
case IntType:
return string("int")
case Int8Type:
return string("int8")
case Int16Type:
return string("int16")
case UntypedRuneType:
return string("<untyped> int32")
case Int32Type:
return string("int32")
case Int64Type:
return string("int64")
case UintType:
return string("uint")
case Uint8Type:
return string("uint8")
case DataByteType:
return string("<databyte> uint8")
case Uint16Type:
return string("uint16")
case Uint32Type:
return string("uint32")
case Uint64Type:
return string("uint64")
case UntypedBigintType:
return string("<untyped> bigint")
case BigintType:
return string("bigint")
default:
panic(fmt.Sprintf("unexpected primitive type %d", pt))
}
}
func (pt PrimitiveType) Elem() Type {
if pt.Kind() == StringKind {
// NOTE: this is different than Go1.
return Uint8Type
} else {
panic("non-string primitive types have no elements")
}
}
func (pt PrimitiveType) GetPkgPath() string {
return ""
}
//----------------------------------------
// Field type (partial)
type Tag string
type FieldType struct {
Name Name
Type Type
Embedded bool
Tag Tag
}
func (ft FieldType) Kind() Kind {
panic("FieldType is a pseudotype of unknown kind")
}
func (ft FieldType) TypeID() TypeID {
s := ""
if ft.Name == "" {
s += ft.Type.TypeID().String()
} else {
s += string(ft.Name) + " " + ft.Type.TypeID().String()
}
return typeid(s)
}
func (ft FieldType) String() string {
tag := ""
if ft.Tag != "" {
tag = " " + strconv.Quote(string(ft.Tag))
}
if ft.Name == "" {
return fmt.Sprintf("(embedded) %s%s", ft.Type.String(), tag)
} else {
return fmt.Sprintf("%s %s%s", ft.Name, ft.Type.String(), tag)
}
}
func (ft FieldType) Elem() Type {
panic("FieldType is a pseudotype with no elements")
}
func (ft FieldType) GetPkgPath() string {
panic("FieldType is a pseudotype with no package path")
}
//----------------------------------------
// FieldTypeList
type FieldTypeList []FieldType
// FieldTypeList implements sort.Interface.
func (l FieldTypeList) Len() int {
return len(l)
}
// FieldTypeList implements sort.Interface.
func (l FieldTypeList) Less(i, j int) bool {
iname, jname := l[i].Name, l[j].Name
if iname == jname {
panic(fmt.Sprintf("duplicate name found in field list: %s", iname))
}
return iname < jname
}
// FieldTypeList implements sort.Interface.
func (l FieldTypeList) Swap(i, j int) {
t := l[i]
l[i] = l[j]
l[j] = t
}
// User should call sort for interface methods.
// XXX how though?
func (l FieldTypeList) TypeID() TypeID {
ll := len(l)
s := ""
for i, ft := range l {
if ft.Name == "" {
s += ft.Type.TypeID().String()
} else {
s += string(ft.Name) + " " + ft.Type.TypeID().String()
}
if i != ll-1 {
s += ";"
}
}
return typeid(s)
}
// For use in fields of packages, structs, and interfaces, where any
// unexported lowercase fields are private and unequal to other package
// types.
func (l FieldTypeList) TypeIDForPackage(pkgPath string) TypeID {
ll := len(l)
s := ""
for i, ft := range l {
fn := ft.Name
if isUpper(string(fn)) {
s += string(fn) + " " + ft.Type.TypeID().String()
} else {
s += pkgPath + "." + string(fn) + " " + ft.Type.TypeID().String()
}
if i != ll-1 {
s += ";"
}
}
return typeid(s)
}
func (l FieldTypeList) HasUnexported() bool {
for _, ft := range l {
if debug {
if ft.Name == "" {
// incorrect usage.
panic("should not happen")
}
}
if !isUpper(string(ft.Name)) {
return true
}
}
return false
}
func (l FieldTypeList) String() string {
ll := len(l)
s := ""
for i, ft := range l {
s += string(ft.Name) + " " + ft.Type.TypeID().String()
if i != ll-1 {
s += ";"
}
}
return s
}
func (l FieldTypeList) StringWithCommas() string {
ll := len(l)
s := ""
for i, ft := range l {
s += string(ft.Name) + " " + ft.Type.String()
if i != ll-1 {
s += ","
}
}
return s
}
// Like TypeID() but without considering field names;
// used for function parameters and results.
func (l FieldTypeList) UnnamedTypeID() TypeID {
ll := len(l)
s := ""
for i, ft := range l {
s += ft.Type.TypeID().String()
if i != ll-1 {
s += ";"
}
}
return typeid(s)
}
func (l FieldTypeList) Types() []Type {
res := make([]Type, len(l))
for i, ft := range l {
res[i] = ft.Type
}
return res
}
//----------------------------------------
// Array type
type ArrayType struct {
Len int
Elt Type
Vrd bool
typeid TypeID
}
func (at *ArrayType) Kind() Kind {
return ArrayKind
}
func (at *ArrayType) TypeID() TypeID {
if at.typeid.IsZero() {
at.typeid = typeid("[%d]%s", at.Len, at.Elt.TypeID().String())
}
return at.typeid
}
func (at *ArrayType) String() string {
return fmt.Sprintf("[%d]%s", at.Len, at.Elt.String())
}
func (at *ArrayType) Elem() Type {
return at.Elt
}
func (at *ArrayType) GetPkgPath() string {
return ""
}
//----------------------------------------
// Slice type
var gByteSliceType = &SliceType{
Elt: Uint8Type,
Vrd: false,
}
type SliceType struct {
Elt Type
Vrd bool // used for *FuncType.HasVarg()
typeid TypeID
}
func (st *SliceType) Kind() Kind {
return SliceKind
}
func (st *SliceType) TypeID() TypeID {
if st.typeid.IsZero() {
if st.Vrd {
st.typeid = typeid("...%s", st.Elt.TypeID().String())
} else {
st.typeid = typeid("[]%s", st.Elt.TypeID().String())
}
}
return st.typeid
}
func (st *SliceType) String() string {
if st.Vrd {
return fmt.Sprintf("...%s", st.Elt.String())
} else {
return fmt.Sprintf("[]%s", st.Elt.String())
}
}
func (st *SliceType) Elem() Type {
return st.Elt
}
func (st *SliceType) GetPkgPath() string {
return ""
}
//----------------------------------------
// Pointer type
type PointerType struct {
Elt Type
typeid TypeID
}
func (pt *PointerType) Kind() Kind {
return PointerKind
}
func (pt *PointerType) TypeID() TypeID {
if pt.typeid.IsZero() {
pt.typeid = typeid("*%s", pt.Elt.TypeID().String())
}
return pt.typeid
}
func (pt *PointerType) String() string {
if pt == nil {
panic("invalid nil pointer type")
} else if pt.Elt == nil {
panic("invalid nil pointer element type")
} else {
return fmt.Sprintf("*%v", pt.Elt)
}
}
func (pt *PointerType) Elem() Type {
return pt.Elt
}
func (pt *PointerType) GetPkgPath() string {
return pt.Elt.GetPkgPath()
}
func (pt *PointerType) FindEmbeddedFieldType(callerPath string, n Name, m map[Type]struct{}) (
trail []ValuePath, hasPtr bool, rcvr Type, field Type, accessError bool) {
// Recursion guard.
if m == nil {
m = map[Type]struct{}{pt: (struct{}{})}
} else if _, exists := m[pt]; exists {
return nil, false, nil, nil, false
} else {
m[pt] = struct{}{}
}
// ...
switch cet := pt.Elt.(type) {
case *DeclaredType, *StructType:
// Pointer to declared types and structs
// expose embedded methods and fields.
// See tests/selector_test.go for examples.
trail, hasPtr, rcvr, field, accessError = findEmbeddedFieldType(callerPath, cet, n, m)
if trail != nil { // found
hasPtr = true // pt *is* a pointer.
switch trail[0].Type {
case VPField:
// Case 1: If trail is of form [VPField, VPField, ... VPPtrMethod],
// that is, one or more fields followed by a pointer method,
// convert to [VPSubrefField, VPSubrefField, ... VPDerefPtrMethod].
if func() bool {
for i, path := range trail {
if i < len(trail)-1 {
if path.Type != VPField {
return false
}
} else {
if path.Type != VPPtrMethod {
return false
}
}
}
return true
}() {
for i, _ := range trail {
if i < len(trail)-1 {
trail[i].Type = VPSubrefField
} else {
trail[i].Type = VPDerefPtrMethod
}
}
return
} else {
// Case 2: otherwise, is just a deref field.
trail[0].Type = VPDerefField
switch trail[0].Depth {
case 0:
// *PointerType > *StructType.Field has depth 0.
case 1:
// *DeclaredType > *StructType.Field has depth 1 (& type VPField).
// *PointerType > *DeclaredType > *StructType.Field has depth 2.
trail[0].Depth = 2
/*
// If trail[-1].Type == VPPtrMethod, set VPDerefPtrMethod.
if len(trail) > 1 && trail[1].Type == VPPtrMethod {
trail[1].Type = VPDerefPtrMethod
}
*/
default:
panic("should not happen")
}
return
}
case VPValMethod:
trail[0].Type = VPDerefValMethod
return
case VPPtrMethod:
trail[0].Type = VPDerefPtrMethod
return
case VPDerefValMethod, VPDerefPtrMethod:
panic("should not happen")
default:
panic("should not happen")
}
} else { // not found
return
}
case *NativeType:
npt := &NativeType{
Type: reflect.PtrTo(cet.Type),
}
return npt.FindEmbeddedFieldType(n, m)
default:
// nester pointers or pointer to interfaces
// and other pointer types do not expose their methods.
return
}
}
//----------------------------------------
// Struct type
type StructType struct {
PkgPath string
Fields []FieldType
typeid TypeID
}
func (st *StructType) Kind() Kind {
return StructKind
}
func (st *StructType) TypeID() TypeID {
if st.typeid.IsZero() {
// NOTE Struct types expressed or declared in different packages
// may have the same TypeID if and only if neither have
// unexported fields. st.PkgPath is only included in field
// names that are not uppercase.
st.typeid = typeid(
"struct{%s}",
FieldTypeList(st.Fields).TypeIDForPackage(st.PkgPath),
)
}
return st.typeid
}
func (st *StructType) String() string {
return fmt.Sprintf("struct{%s}",
FieldTypeList(st.Fields).String())
}
func (st *StructType) Elem() Type {
panic("struct types have no (universal) elements")
}
func (st *StructType) GetPkgPath() string {
return st.PkgPath
}
// NOTE only works for exposed non-embedded fields.
func (st *StructType) GetPathForName(n Name) ValuePath {
for i := 0; i < len(st.Fields); i++ {
ft := st.Fields[i]
if ft.Name == n {
if i > 2<<16-1 {
panic("too many fields")
}
return NewValuePathField(0, uint16(i), n)
}
if st, ok := ft.Type.(*StructType); ok {
if ft.Name != "" {
// skip fields not promoted.
i += len(st.Fields)
}
}
}
panic(fmt.Sprintf("struct type %s has no field %s",
st.String(), n))
}
func (st *StructType) GetStaticTypeOfAt(path ValuePath) Type {
if debug {
if path.Depth != 0 {
panic("expected path.Depth of 0")
}
}
return st.Fields[path.Index].Type
}
// Searches embedded fields to find matching method or field,
// which may be embedded. This function is slow. DeclaredType uses
// this. There is probably no need to cache positive results here;
// it may be better to implement it on DeclaredType. The resulting
// ValuePaths may be modified. If not found, all returned values
// are nil; for consistency, check the trail.
func (st *StructType) FindEmbeddedFieldType(callerPath string, n Name, m map[Type]struct{}) (
trail []ValuePath, hasPtr bool, rcvr Type, field Type, accessError bool) {
// Recursion guard
if m == nil {
m = map[Type]struct{}{st: (struct{}{})}
} else if _, exists := m[st]; exists {
return nil, false, nil, nil, false
} else {
m[st] = struct{}{}
}
// Search fields.
for i := 0; i < len(st.Fields); i++ {
sf := &st.Fields[i]
// Maybe is a field of the struct.
if sf.Name == n {
// Ensure exposed or package match.
if !isUpper(string(n)) && st.PkgPath != callerPath {
return nil, false, nil, nil, true
}
vp := NewValuePathField(0, uint16(i), n)
return []ValuePath{vp}, false, nil, sf.Type, false
}
// Maybe is embedded within a field.
if sf.Embedded {
st := sf.Type
trail2, hasPtr2, rcvr2, field2, accessError2 :=
findEmbeddedFieldType(callerPath, st, n, m)
if accessError2 {
// XXX make test case and check against go
return nil, false, nil, nil, true
} else if trail2 != nil {
if trail != nil {
// conflict detected. return none.
return nil, false, nil, nil, false
} else {
// remember.
vp := NewValuePathField(0, uint16(i), sf.Name)
trail, hasPtr, rcvr, field =
append([]ValuePath{vp}, trail2...), hasPtr2, rcvr2, field2
}
}
}
}
return // may be found or nil.
}
//----------------------------------------
// Package type
// The package type holds no data.
// The PackageNode holds static declarations,
// and the PackageValue embeds a block.
var gPackageType = &PackageType{}
type PackageType struct {
typeid TypeID
}
func (pt *PackageType) Kind() Kind {
return PackageKind
}
func (pt *PackageType) TypeID() TypeID {
if pt.typeid.IsZero() {
// NOTE Different package types may have the same
// TypeID if and only if neither have unexported fields.
// pt.Path is only included in field names that are not
// uppercase.
pt.typeid = typeid("package{}")
}
return pt.typeid
}
func (pt *PackageType) String() string {
return "package{}"
}
func (pt *PackageType) Elem() Type {
panic("package types have no elements")
}
func (pt *PackageType) GetPkgPath() string {
panic("package types has no package path (unlike package values)")
}
//----------------------------------------
// Interface type
type InterfaceType struct {
PkgPath string
Methods []FieldType
Generic Name // for uverse "generics"
typeid TypeID
}
// General empty interface.
var gEmptyInterfaceType *InterfaceType = &InterfaceType{}
func (it *InterfaceType) IsEmptyInterface() bool {
return len(it.Methods) == 0
}
func (it *InterfaceType) Kind() Kind {
return InterfaceKind
}
func (it *InterfaceType) TypeID() TypeID {
if debug {
if it.Generic != "" {
panic("generic type has no TypeID")
}
}
if it.typeid.IsZero() {
// NOTE Interface types expressed or declared in different
// packages may have the same TypeID if and only if
// neither have unexported fields. pt.Path is only
// included in field names that are not uppercase.
ms := FieldTypeList(it.Methods)
// XXX pre-sort.
sort.Sort(ms)
it.typeid = typeid("interface{" + ms.TypeIDForPackage(it.PkgPath).String() + "}")
}
return it.typeid
}
func (it *InterfaceType) String() string {
if it.Generic != "" {
return fmt.Sprintf("<%s>{%s}",
it.Generic,
FieldTypeList(it.Methods).String())
} else {
return fmt.Sprintf("interface{%s}",
FieldTypeList(it.Methods).String())
}
}
func (it *InterfaceType) Elem() Type {
panic("interface types have no elements")
}
func (it *InterfaceType) GetPkgPath() string {
return it.PkgPath
}
func (it *InterfaceType) FindEmbeddedFieldType(callerPath string, n Name, m map[Type]struct{}) (
trail []ValuePath, hasPtr bool, rcvr Type, ft Type, accessError bool) {
// Recursion guard
if m == nil {
m = map[Type]struct{}{it: (struct{}{})}
} else if _, exists := m[it]; exists {
return nil, false, nil, nil, false
} else {
m[it] = struct{}{}
}
// ...
for _, im := range it.Methods {
if im.Name == n {
// Ensure exposed or package match.
if !isUpper(string(n)) && it.PkgPath != callerPath {
return nil, false, nil, nil, true
}
// a matched name cannot be an embedded interface.
if im.Type.Kind() == InterfaceKind {
return nil, false, nil, nil, false
}
// match found.
tr := []ValuePath{NewValuePathInterface(n)}
hasPtr := false
rcvr := Type(nil)
ft := im.Type
return tr, hasPtr, rcvr, ft, false
}
if et, ok := baseOf(im.Type).(*InterfaceType); ok {
// embedded interfaces must be recursively searched.
trail, hasPtr, rcvr, ft, accessError = et.FindEmbeddedFieldType(callerPath, n, m)
if accessError {
// XXX make test case and check against go
return nil, false, nil, nil, true
} else if trail != nil {
if debug {
if len(trail) != 1 || trail[0].Type != VPInterface {
panic("should not happen")
}
}
return trail, hasPtr, rcvr, ft, false
} // else continue search.
} // else continue search.
}
return nil, false, nil, nil, false
}
// For run-time type assertion.
// TODO: optimize somehow.
func (it *InterfaceType) IsImplementedBy(ot Type) (result bool) {
for _, im := range it.Methods {
if im.Type.Kind() == InterfaceKind {
// field is embedded interface...
im2 := baseOf(im.Type).(*InterfaceType)
if !im2.IsImplementedBy(ot) {
return false
} else {
continue
}
}
// find method in field.
tr, hp, rt, ft, _ := findEmbeddedFieldType(it.PkgPath, ot, im.Name, nil)
if tr == nil { // not found.
return false
}
if nft, ok := ft.(*NativeType); ok {
// Treat native function types as autoNative calls.
// ft: possibly gonative function type.
// gnot: the corresponding gno type (GnoType()).
// im.Type: the desired interface gno type.
// ie, if each of ft's arg types can match
// against the desired arg types in im.Types.
if !gno2GoTypeMatches(im.Type, nft.Type) {
return false
}
} else if mt, ok := ft.(*FuncType); ok {
// if method is pointer receiver, check addressability:
if _, ptrRcvr := rt.(*PointerType); ptrRcvr && !hp {
return false // not addressable.
}
// check for func type equality.
dmtid := mt.TypeID()
imtid := im.Type.TypeID()
if dmtid != imtid {
return false
}
}
}
return true
}
func (it *InterfaceType) GetPathForName(n Name) ValuePath {
return NewValuePathInterface(n)
}
//----------------------------------------
// Chan type
type ChanType struct {
Dir ChanDir
Elt Type