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|
// Copyright 2011 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.
// TODO(rsc): Once there is better support for writing
// multi-package commands, this should really be in
// its own package, and then we can drop all the "reflect"
// prefixes on the global variables and functions.
package main
import (
"go/ast"
"go/token"
"strings"
)
var reflectFix = fix{
"reflect",
reflectFn,
`Adapt code to new reflect API.
http://codereview.appspot.com/4281055
http://codereview.appspot.com/4433066
`,
}
func init() {
register(reflectFix)
}
// The reflect API change dropped the concrete types *reflect.ArrayType etc.
// Any type assertions prior to method calls can be deleted:
// x.(*reflect.ArrayType).Len() -> x.Len()
//
// Any type checks can be replaced by assignment and check of Kind:
// x, y := z.(*reflect.ArrayType)
// ->
// x := z
// y := x.Kind() == reflect.Array
//
// If z is an ordinary variable name and x is not subsequently assigned to,
// references to x can be replaced by z and the assignment deleted.
// We only bother if x and z are the same name.
// If y is not subsequently assigned to and neither is x, references to
// y can be replaced by its expression. We only bother when there is
// just one use or when the use appears in an if clause.
//
// Not all type checks result in a single Kind check. The rewrite of the type check for
// reflect.ArrayOrSliceType checks x.Kind() against reflect.Array and reflect.Slice.
// The rewrite for *reflect.IntType checks againt Int, Int8, Int16, Int32, Int64.
// The rewrite for *reflect.UintType adds Uintptr.
//
// A type switch turns into an assignment and a switch on Kind:
// switch x := y.(type) {
// case reflect.ArrayOrSliceType:
// ...
// case *reflect.ChanType:
// ...
// case *reflect.IntType:
// ...
// }
// ->
// switch x := y; x.Kind() {
// case reflect.Array, reflect.Slice:
// ...
// case reflect.Chan:
// ...
// case reflect.Int, reflect.Int8, reflect.Int16, reflect.Int32, reflect.Int64:
// ...
// }
//
// The same simplification applies: we drop x := x if x is not assigned
// to in the switch cases.
//
// Because the type check assignment includes a type assertion in its
// syntax and the rewrite traversal is bottom up, we must do a pass to
// rewrite the type check assignments and then a separate pass to
// rewrite the type assertions.
//
// The same process applies to the API changes for reflect.Value.
//
// For both cases, but especially Value, the code needs to be aware
// of the type of a receiver when rewriting a method call. For example,
// x.(*reflect.ArrayValue).Elem(i) becomes x.Index(i) while
// x.(*reflect.MapValue).Elem(v) becomes x.MapIndex(v).
// In general, reflectFn needs to know the type of the receiver expression.
// In most cases (and in all the cases in the Go source tree), the toy
// type checker in typecheck.go provides enough information for gofix
// to make the rewrite. If gofix misses a rewrite, the code that is left over
// will not compile, so it will be noticed immediately.
func reflectFn(f *ast.File) bool {
if !imports(f, "reflect") {
return false
}
fixed := false
// Rewrite names in method calls.
// Needs basic type information (see above).
typeof := typecheck(reflectTypeConfig, f)
walk(f, func(n interface{}) {
switch n := n.(type) {
case *ast.SelectorExpr:
typ := typeof[n.X]
if m := reflectRewriteMethod[typ]; m != nil {
if replace := m[n.Sel.Name]; replace != "" {
n.Sel.Name = replace
fixed = true
return
}
}
// For all reflect Values, replace SetValue with Set.
if isReflectValue[typ] && n.Sel.Name == "SetValue" {
n.Sel.Name = "Set"
fixed = true
return
}
// Replace reflect.MakeZero with reflect.Zero.
if isPkgDot(n, "reflect", "MakeZero") {
n.Sel.Name = "Zero"
fixed = true
return
}
}
})
// Replace PtrValue's PointTo(x) with Set(x.Addr()).
walk(f, func(n interface{}) {
call, ok := n.(*ast.CallExpr)
if !ok || len(call.Args) != 1 {
return
}
sel, ok := call.Fun.(*ast.SelectorExpr)
if !ok || sel.Sel.Name != "PointTo" {
return
}
typ := typeof[sel.X]
if typ != "*reflect.PtrValue" {
return
}
sel.Sel.Name = "Set"
if !isTopName(call.Args[0], "nil") {
call.Args[0] = &ast.SelectorExpr{
X: call.Args[0],
Sel: ast.NewIdent("Addr()"),
}
}
fixed = true
})
// Fix type switches.
walk(f, func(n interface{}) {
if reflectFixSwitch(n) {
fixed = true
}
})
// Fix type assertion checks (multiple assignment statements).
// Have to work on the statement context (statement list or if statement)
// so that we can insert an extra statement occasionally.
// Ignoring for and switch because they don't come up in
// typical code.
walk(f, func(n interface{}) {
switch n := n.(type) {
case *[]ast.Stmt:
// v is the replacement statement list.
var v []ast.Stmt
insert := func(x ast.Stmt) {
v = append(v, x)
}
for i, x := range *n {
// Tentatively append to v; if we rewrite x
// we'll have to update the entry, so remember
// the index.
j := len(v)
v = append(v, x)
if reflectFixTypecheck(&x, insert, (*n)[i+1:]) {
// reflectFixTypecheck may have overwritten x.
// Update the entry we appended just before the call.
v[j] = x
fixed = true
}
}
*n = v
case *ast.IfStmt:
x := &ast.ExprStmt{n.Cond}
if reflectFixTypecheck(&n.Init, nil, []ast.Stmt{x, n.Body, n.Else}) {
n.Cond = x.X
fixed = true
}
}
})
// Warn about any typecheck statements that we missed.
walk(f, reflectWarnTypecheckStmt)
// Now that those are gone, fix remaining type assertions.
// Delayed because the type checks have
// type assertions as part of their syntax.
walk(f, func(n interface{}) {
if reflectFixAssert(n) {
fixed = true
}
})
// Now that the type assertions are gone, rewrite remaining
// references to specific reflect types to use the general ones.
walk(f, func(n interface{}) {
ptr, ok := n.(*ast.Expr)
if !ok {
return
}
nn := *ptr
typ := reflectType(nn)
if typ == "" {
return
}
if strings.HasSuffix(typ, "Type") {
*ptr = newPkgDot(nn.Pos(), "reflect", "Type")
} else {
*ptr = newPkgDot(nn.Pos(), "reflect", "Value")
}
fixed = true
})
// Rewrite v.Set(nil) to v.Set(reflect.MakeZero(v.Type())).
walk(f, func(n interface{}) {
call, ok := n.(*ast.CallExpr)
if !ok || len(call.Args) != 1 || !isTopName(call.Args[0], "nil") {
return
}
sel, ok := call.Fun.(*ast.SelectorExpr)
if !ok || !isReflectValue[typeof[sel.X]] || sel.Sel.Name != "Set" {
return
}
call.Args[0] = &ast.CallExpr{
Fun: newPkgDot(call.Args[0].Pos(), "reflect", "Zero"),
Args: []ast.Expr{
&ast.CallExpr{
Fun: &ast.SelectorExpr{
X: sel.X,
Sel: &ast.Ident{Name: "Type"},
},
},
},
}
fixed = true
})
// Rewrite v != nil to v.IsValid().
// Rewrite nil used as reflect.Value (in function argument or return) to reflect.Value{}.
walk(f, func(n interface{}) {
ptr, ok := n.(*ast.Expr)
if !ok {
return
}
if isTopName(*ptr, "nil") && isReflectValue[typeof[*ptr]] {
*ptr = ast.NewIdent("reflect.Value{}")
fixed = true
return
}
nn, ok := (*ptr).(*ast.BinaryExpr)
if !ok || (nn.Op != token.EQL && nn.Op != token.NEQ) || !isTopName(nn.Y, "nil") || !isReflectValue[typeof[nn.X]] {
return
}
var call ast.Expr = &ast.CallExpr{
Fun: &ast.SelectorExpr{
X: nn.X,
Sel: &ast.Ident{Name: "IsValid"},
},
}
if nn.Op == token.EQL {
call = &ast.UnaryExpr{Op: token.NOT, X: call}
}
*ptr = call
fixed = true
})
// Rewrite
// reflect.Typeof -> reflect.TypeOf,
walk(f, func(n interface{}) {
sel, ok := n.(*ast.SelectorExpr)
if !ok {
return
}
if isTopName(sel.X, "reflect") && sel.Sel.Name == "Typeof" {
sel.Sel.Name = "TypeOf"
fixed = true
}
if isTopName(sel.X, "reflect") && sel.Sel.Name == "NewValue" {
sel.Sel.Name = "ValueOf"
fixed = true
}
})
return fixed
}
// reflectFixSwitch rewrites *n (if n is an *ast.Stmt) corresponding
// to a type switch.
func reflectFixSwitch(n interface{}) bool {
ptr, ok := n.(*ast.Stmt)
if !ok {
return false
}
n = *ptr
ts, ok := n.(*ast.TypeSwitchStmt)
if !ok {
return false
}
// Are any switch cases referring to reflect types?
// (That is, is this an old reflect type switch?)
for _, cas := range ts.Body.List {
for _, typ := range cas.(*ast.CaseClause).List {
if reflectType(typ) != "" {
goto haveReflect
}
}
}
return false
haveReflect:
// Now we know it's an old reflect type switch. Prepare the new version,
// but don't replace or edit the original until we're sure of success.
// Figure out the initializer statement, if any, and the receiver for the Kind call.
var init ast.Stmt
var rcvr ast.Expr
init = ts.Init
switch n := ts.Assign.(type) {
default:
warn(ts.Pos(), "unexpected form in type switch")
return false
case *ast.AssignStmt:
as := n
ta := as.Rhs[0].(*ast.TypeAssertExpr)
x := isIdent(as.Lhs[0])
z := isIdent(ta.X)
if isBlank(x) || x != nil && z != nil && x.Name == z.Name && !assignsTo(x, ts.Body.List) {
// Can drop the variable creation.
rcvr = ta.X
} else {
// Need to use initialization statement.
if init != nil {
warn(ts.Pos(), "cannot rewrite reflect type switch with initializing statement")
return false
}
init = &ast.AssignStmt{
Lhs: []ast.Expr{as.Lhs[0]},
TokPos: as.TokPos,
Tok: token.DEFINE,
Rhs: []ast.Expr{ta.X},
}
rcvr = as.Lhs[0]
}
case *ast.ExprStmt:
rcvr = n.X.(*ast.TypeAssertExpr).X
}
// Prepare rewritten type switch (see large comment above for form).
sw := &ast.SwitchStmt{
Switch: ts.Switch,
Init: init,
Tag: &ast.CallExpr{
Fun: &ast.SelectorExpr{
X: rcvr,
Sel: &ast.Ident{
NamePos: rcvr.End(),
Name: "Kind",
Obj: nil,
},
},
Lparen: rcvr.End(),
Rparen: rcvr.End(),
},
Body: &ast.BlockStmt{
Lbrace: ts.Body.Lbrace,
List: nil, // to be filled in
Rbrace: ts.Body.Rbrace,
},
}
// Translate cases.
for _, tcas := range ts.Body.List {
tcas := tcas.(*ast.CaseClause)
cas := &ast.CaseClause{
Case: tcas.Case,
Colon: tcas.Colon,
Body: tcas.Body,
}
for _, t := range tcas.List {
if isTopName(t, "nil") {
cas.List = append(cas.List, newPkgDot(t.Pos(), "reflect", "Invalid"))
continue
}
typ := reflectType(t)
if typ == "" {
warn(t.Pos(), "cannot rewrite reflect type switch case with non-reflect type %s", gofmt(t))
cas.List = append(cas.List, t)
continue
}
for _, k := range reflectKind[typ] {
cas.List = append(cas.List, newPkgDot(t.Pos(), "reflect", k))
}
}
sw.Body.List = append(sw.Body.List, cas)
}
// Everything worked. Rewrite AST.
*ptr = sw
return true
}
// Rewrite x, y = z.(T) into
// x = z
// y = x.Kind() == K
// as described in the long comment above.
//
// If insert != nil, it can be called to insert a statement after *ptr in its block.
// If insert == nil, insertion is not possible.
// At most one call to insert is allowed.
//
// Scope gives the statements for which a declaration
// in *ptr would be in scope.
//
// The result is true of the statement was rewritten.
//
func reflectFixTypecheck(ptr *ast.Stmt, insert func(ast.Stmt), scope []ast.Stmt) bool {
st := *ptr
as, ok := st.(*ast.AssignStmt)
if !ok || len(as.Lhs) != 2 || len(as.Rhs) != 1 {
return false
}
ta, ok := as.Rhs[0].(*ast.TypeAssertExpr)
if !ok {
return false
}
typ := reflectType(ta.Type)
if typ == "" {
return false
}
// Have x, y := z.(t).
x := isIdent(as.Lhs[0])
y := isIdent(as.Lhs[1])
z := isIdent(ta.X)
// First step is x := z, unless it's x := x and the resulting x is never reassigned.
// rcvr is the x in x.Kind().
var rcvr ast.Expr
if isBlank(x) ||
as.Tok == token.DEFINE && x != nil && z != nil && x.Name == z.Name && !assignsTo(x, scope) {
// Can drop the statement.
// If we need to insert a statement later, now we have a slot.
*ptr = &ast.EmptyStmt{}
insert = func(x ast.Stmt) { *ptr = x }
rcvr = ta.X
} else {
*ptr = &ast.AssignStmt{
Lhs: []ast.Expr{as.Lhs[0]},
TokPos: as.TokPos,
Tok: as.Tok,
Rhs: []ast.Expr{ta.X},
}
rcvr = as.Lhs[0]
}
// Prepare x.Kind() == T expression appropriate to t.
// If x is not a simple identifier, warn that we might be
// reevaluating x.
if x == nil {
warn(as.Pos(), "rewrite reevaluates expr with possible side effects: %s", gofmt(as.Lhs[0]))
}
yExpr, yNotExpr := reflectKindEq(rcvr, reflectKind[typ])
// Second step is y := x.Kind() == T, unless it's only used once
// or we have no way to insert that statement.
var yStmt *ast.AssignStmt
if as.Tok == token.DEFINE && countUses(y, scope) <= 1 || insert == nil {
// Can drop the statement and use the expression directly.
rewriteUses(y,
func(token.Pos) ast.Expr { return yExpr },
func(token.Pos) ast.Expr { return yNotExpr },
scope)
} else {
yStmt = &ast.AssignStmt{
Lhs: []ast.Expr{as.Lhs[1]},
TokPos: as.End(),
Tok: as.Tok,
Rhs: []ast.Expr{yExpr},
}
insert(yStmt)
}
return true
}
// reflectKindEq returns the expression z.Kind() == kinds[0] || z.Kind() == kinds[1] || ...
// and its negation.
// The qualifier "reflect." is inserted before each kinds[i] expression.
func reflectKindEq(z ast.Expr, kinds []string) (ast.Expr, ast.Expr) {
n := len(kinds)
if n == 1 {
y := &ast.BinaryExpr{
X: &ast.CallExpr{
Fun: &ast.SelectorExpr{
X: z,
Sel: ast.NewIdent("Kind"),
},
},
Op: token.EQL,
Y: newPkgDot(token.NoPos, "reflect", kinds[0]),
}
ynot := &ast.BinaryExpr{
X: &ast.CallExpr{
Fun: &ast.SelectorExpr{
X: z,
Sel: ast.NewIdent("Kind"),
},
},
Op: token.NEQ,
Y: newPkgDot(token.NoPos, "reflect", kinds[0]),
}
return y, ynot
}
x, xnot := reflectKindEq(z, kinds[0:n-1])
y, ynot := reflectKindEq(z, kinds[n-1:])
or := &ast.BinaryExpr{
X: x,
Op: token.LOR,
Y: y,
}
andnot := &ast.BinaryExpr{
X: xnot,
Op: token.LAND,
Y: ynot,
}
return or, andnot
}
// if x represents a known old reflect type/value like *reflect.PtrType or reflect.ArrayOrSliceValue,
// reflectType returns the string form of that type.
func reflectType(x ast.Expr) string {
ptr, ok := x.(*ast.StarExpr)
if ok {
x = ptr.X
}
sel, ok := x.(*ast.SelectorExpr)
if !ok || !isName(sel.X, "reflect") {
return ""
}
var s = "reflect."
if ptr != nil {
s = "*reflect."
}
s += sel.Sel.Name
if reflectKind[s] != nil {
return s
}
return ""
}
// reflectWarnTypecheckStmt warns about statements
// of the form x, y = z.(T) for any old reflect type T.
// The last pass should have gotten them all, and if it didn't,
// the next pass is going to turn them into x, y = z.
func reflectWarnTypecheckStmt(n interface{}) {
as, ok := n.(*ast.AssignStmt)
if !ok || len(as.Lhs) != 2 || len(as.Rhs) != 1 {
return
}
ta, ok := as.Rhs[0].(*ast.TypeAssertExpr)
if !ok || reflectType(ta.Type) == "" {
return
}
warn(n.(ast.Node).Pos(), "unfixed reflect type check")
}
// reflectFixAssert rewrites x.(T) to x for any old reflect type T.
func reflectFixAssert(n interface{}) bool {
ptr, ok := n.(*ast.Expr)
if ok {
ta, ok := (*ptr).(*ast.TypeAssertExpr)
if ok && reflectType(ta.Type) != "" {
*ptr = ta.X
return true
}
}
return false
}
// Tables describing the transformations.
// Description of old reflect API for partial type checking.
// We pretend the Elem method is on Type and Value instead
// of enumerating all the types it is actually on.
// Also, we pretend that ArrayType etc embeds Type for the
// purposes of describing the API. (In fact they embed commonType,
// which implements Type.)
var reflectTypeConfig = &TypeConfig{
Type: map[string]*Type{
"reflect.ArrayOrSliceType": &Type{Embed: []string{"reflect.Type"}},
"reflect.ArrayOrSliceValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.ArrayType": &Type{Embed: []string{"reflect.Type"}},
"reflect.ArrayValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.BoolType": &Type{Embed: []string{"reflect.Type"}},
"reflect.BoolValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.ChanType": &Type{Embed: []string{"reflect.Type"}},
"reflect.ChanValue": &Type{
Method: map[string]string{
"Recv": "func() (reflect.Value, bool)",
"TryRecv": "func() (reflect.Value, bool)",
},
Embed: []string{"reflect.Value"},
},
"reflect.ComplexType": &Type{Embed: []string{"reflect.Type"}},
"reflect.ComplexValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.FloatType": &Type{Embed: []string{"reflect.Type"}},
"reflect.FloatValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.FuncType": &Type{
Method: map[string]string{
"In": "func(int) reflect.Type",
"Out": "func(int) reflect.Type",
},
Embed: []string{"reflect.Type"},
},
"reflect.FuncValue": &Type{
Method: map[string]string{
"Call": "func([]reflect.Value) []reflect.Value",
},
},
"reflect.IntType": &Type{Embed: []string{"reflect.Type"}},
"reflect.IntValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.InterfaceType": &Type{Embed: []string{"reflect.Type"}},
"reflect.InterfaceValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.MapType": &Type{
Method: map[string]string{
"Key": "func() reflect.Type",
},
Embed: []string{"reflect.Type"},
},
"reflect.MapValue": &Type{
Method: map[string]string{
"Keys": "func() []reflect.Value",
},
Embed: []string{"reflect.Value"},
},
"reflect.Method": &Type{
Field: map[string]string{
"Type": "*reflect.FuncType",
"Func": "*reflect.FuncValue",
},
},
"reflect.PtrType": &Type{Embed: []string{"reflect.Type"}},
"reflect.PtrValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.SliceType": &Type{Embed: []string{"reflect.Type"}},
"reflect.SliceValue": &Type{
Method: map[string]string{
"Slice": "func(int, int) *reflect.SliceValue",
},
Embed: []string{"reflect.Value"},
},
"reflect.StringType": &Type{Embed: []string{"reflect.Type"}},
"reflect.StringValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.StructField": &Type{
Field: map[string]string{
"Type": "reflect.Type",
},
},
"reflect.StructType": &Type{
Method: map[string]string{
"Field": "func() reflect.StructField",
"FieldByIndex": "func() reflect.StructField",
"FieldByName": "func() reflect.StructField,bool",
"FieldByNameFunc": "func() reflect.StructField,bool",
},
Embed: []string{"reflect.Type"},
},
"reflect.StructValue": &Type{
Method: map[string]string{
"Field": "func() reflect.Value",
"FieldByIndex": "func() reflect.Value",
"FieldByName": "func() reflect.Value",
"FieldByNameFunc": "func() reflect.Value",
},
Embed: []string{"reflect.Value"},
},
"reflect.Type": &Type{
Method: map[string]string{
"Elem": "func() reflect.Type",
"Method": "func() reflect.Method",
},
},
"reflect.UintType": &Type{Embed: []string{"reflect.Type"}},
"reflect.UintValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.UnsafePointerType": &Type{Embed: []string{"reflect.Type"}},
"reflect.UnsafePointerValue": &Type{Embed: []string{"reflect.Value"}},
"reflect.Value": &Type{
Method: map[string]string{
"Addr": "func() *reflect.PtrValue",
"Elem": "func() reflect.Value",
"Method": "func() *reflect.FuncValue",
"SetValue": "func(reflect.Value)",
},
},
},
Func: map[string]string{
"reflect.Append": "*reflect.SliceValue",
"reflect.AppendSlice": "*reflect.SliceValue",
"reflect.Indirect": "reflect.Value",
"reflect.MakeSlice": "*reflect.SliceValue",
"reflect.MakeChan": "*reflect.ChanValue",
"reflect.MakeMap": "*reflect.MapValue",
"reflect.MakeZero": "reflect.Value",
"reflect.NewValue": "reflect.Value",
"reflect.PtrTo": "*reflect.PtrType",
"reflect.Typeof": "reflect.Type",
},
}
var reflectRewriteMethod = map[string]map[string]string{
// The type API didn't change much.
"*reflect.ChanType": {"Dir": "ChanDir"},
"*reflect.FuncType": {"DotDotDot": "IsVariadic"},
// The value API has longer names to disambiguate
// methods with different signatures.
"reflect.ArrayOrSliceValue": { // interface, not pointer
"Elem": "Index",
},
"*reflect.ArrayValue": {
"Elem": "Index",
},
"*reflect.BoolValue": {
"Get": "Bool",
"Set": "SetBool",
},
"*reflect.ChanValue": {
"Get": "Pointer",
},
"*reflect.ComplexValue": {
"Get": "Complex",
"Set": "SetComplex",
"Overflow": "OverflowComplex",
},
"*reflect.FloatValue": {
"Get": "Float",
"Set": "SetFloat",
"Overflow": "OverflowFloat",
},
"*reflect.FuncValue": {
"Get": "Pointer",
},
"*reflect.IntValue": {
"Get": "Int",
"Set": "SetInt",
"Overflow": "OverflowInt",
},
"*reflect.InterfaceValue": {
"Get": "InterfaceData",
},
"*reflect.MapValue": {
"Elem": "MapIndex",
"Get": "Pointer",
"Keys": "MapKeys",
"SetElem": "SetMapIndex",
},
"*reflect.PtrValue": {
"Get": "Pointer",
},
"*reflect.SliceValue": {
"Elem": "Index",
"Get": "Pointer",
},
"*reflect.StringValue": {
"Get": "String",
"Set": "SetString",
},
"*reflect.UintValue": {
"Get": "Uint",
"Set": "SetUint",
"Overflow": "OverflowUint",
},
"*reflect.UnsafePointerValue": {
"Get": "Pointer",
"Set": "SetPointer",
},
}
var reflectKind = map[string][]string{
"reflect.ArrayOrSliceType": {"Array", "Slice"}, // interface, not pointer
"*reflect.ArrayType": {"Array"},
"*reflect.BoolType": {"Bool"},
"*reflect.ChanType": {"Chan"},
"*reflect.ComplexType": {"Complex64", "Complex128"},
"*reflect.FloatType": {"Float32", "Float64"},
"*reflect.FuncType": {"Func"},
"*reflect.IntType": {"Int", "Int8", "Int16", "Int32", "Int64"},
"*reflect.InterfaceType": {"Interface"},
"*reflect.MapType": {"Map"},
"*reflect.PtrType": {"Ptr"},
"*reflect.SliceType": {"Slice"},
"*reflect.StringType": {"String"},
"*reflect.StructType": {"Struct"},
"*reflect.UintType": {"Uint", "Uint8", "Uint16", "Uint32", "Uint64", "Uintptr"},
"*reflect.UnsafePointerType": {"UnsafePointer"},
"reflect.ArrayOrSliceValue": {"Array", "Slice"}, // interface, not pointer
"*reflect.ArrayValue": {"Array"},
"*reflect.BoolValue": {"Bool"},
"*reflect.ChanValue": {"Chan"},
"*reflect.ComplexValue": {"Complex64", "Complex128"},
"*reflect.FloatValue": {"Float32", "Float64"},
"*reflect.FuncValue": {"Func"},
"*reflect.IntValue": {"Int", "Int8", "Int16", "Int32", "Int64"},
"*reflect.InterfaceValue": {"Interface"},
"*reflect.MapValue": {"Map"},
"*reflect.PtrValue": {"Ptr"},
"*reflect.SliceValue": {"Slice"},
"*reflect.StringValue": {"String"},
"*reflect.StructValue": {"Struct"},
"*reflect.UintValue": {"Uint", "Uint8", "Uint16", "Uint32", "Uint64", "Uintptr"},
"*reflect.UnsafePointerValue": {"UnsafePointer"},
}
var isReflectValue = map[string]bool{
"reflect.ArrayOrSliceValue": true, // interface, not pointer
"*reflect.ArrayValue": true,
"*reflect.BoolValue": true,
"*reflect.ChanValue": true,
"*reflect.ComplexValue": true,
"*reflect.FloatValue": true,
"*reflect.FuncValue": true,
"*reflect.IntValue": true,
"*reflect.InterfaceValue": true,
"*reflect.MapValue": true,
"*reflect.PtrValue": true,
"*reflect.SliceValue": true,
"*reflect.StringValue": true,
"*reflect.StructValue": true,
"*reflect.UintValue": true,
"*reflect.UnsafePointerValue": true,
"reflect.Value": true, // interface, not pointer
}
|