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238 lines
7 KiB
Go
238 lines
7 KiB
Go
package cty
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// Walk visits all of the values in a possibly-complex structure, calling
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// a given function for each value.
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//
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// For example, given a list of strings the callback would first be called
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// with the whole list and then called once for each element of the list.
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//
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// The callback function may prevent recursive visits to child values by
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// returning false. The callback function my halt the walk altogether by
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// returning a non-nil error. If the returned error is about the element
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// currently being visited, it is recommended to use the provided path
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// value to produce a PathError describing that context.
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//
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// The path passed to the given function may not be used after that function
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// returns, since its backing array is re-used for other calls.
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func Walk(val Value, cb func(Path, Value) (bool, error)) error {
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var path Path
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return walk(path, val, cb)
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}
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func walk(path Path, val Value, cb func(Path, Value) (bool, error)) error {
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deeper, err := cb(path, val)
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if err != nil {
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return err
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}
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if !deeper {
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return nil
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}
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if val.IsNull() || !val.IsKnown() {
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// Can't recurse into null or unknown values, regardless of type
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return nil
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}
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// The callback already got a chance to see the mark in our
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// call above, so can safely strip it off here in order to
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// visit the child elements, which might still have their own marks.
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rawVal, _ := val.Unmark()
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ty := val.Type()
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switch {
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case ty.IsObjectType():
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for it := rawVal.ElementIterator(); it.Next(); {
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nameVal, av := it.Element()
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path := append(path, GetAttrStep{
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Name: nameVal.AsString(),
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})
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err := walk(path, av, cb)
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if err != nil {
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return err
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}
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}
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case rawVal.CanIterateElements():
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for it := rawVal.ElementIterator(); it.Next(); {
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kv, ev := it.Element()
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path := append(path, IndexStep{
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Key: kv,
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})
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err := walk(path, ev, cb)
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if err != nil {
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return err
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}
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}
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}
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return nil
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}
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// Transformer is the interface used to optionally transform values in a
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// possibly-complex structure. The Enter method is called before traversing
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// through a given path, and the Exit method is called when traversal of a
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// path is complete.
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//
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// Use Enter when you want to transform a complex value before traversal
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// (preorder), and Exit when you want to transform a value after traversal
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// (postorder).
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//
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// The path passed to the given function may not be used after that function
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// returns, since its backing array is re-used for other calls.
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type Transformer interface {
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Enter(Path, Value) (Value, error)
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Exit(Path, Value) (Value, error)
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}
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type postorderTransformer struct {
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callback func(Path, Value) (Value, error)
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}
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func (t *postorderTransformer) Enter(p Path, v Value) (Value, error) {
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return v, nil
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}
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func (t *postorderTransformer) Exit(p Path, v Value) (Value, error) {
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return t.callback(p, v)
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}
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// Transform visits all of the values in a possibly-complex structure,
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// calling a given function for each value which has an opportunity to
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// replace that value.
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//
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// Unlike Walk, Transform visits child nodes first, so for a list of strings
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// it would first visit the strings and then the _new_ list constructed
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// from the transformed values of the list items.
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//
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// This is useful for creating the effect of being able to make deep mutations
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// to a value even though values are immutable. However, it's the responsibility
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// of the given function to preserve expected invariants, such as homogenity of
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// element types in collections; this function can panic if such invariants
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// are violated, just as if new values were constructed directly using the
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// value constructor functions. An easy way to preserve invariants is to
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// ensure that the transform function never changes the value type.
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//
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// The callback function may halt the walk altogether by
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// returning a non-nil error. If the returned error is about the element
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// currently being visited, it is recommended to use the provided path
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// value to produce a PathError describing that context.
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//
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// The path passed to the given function may not be used after that function
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// returns, since its backing array is re-used for other calls.
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func Transform(val Value, cb func(Path, Value) (Value, error)) (Value, error) {
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var path Path
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return transform(path, val, &postorderTransformer{cb})
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}
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// TransformWithTransformer allows the caller to more closely control the
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// traversal used for transformation. See the documentation for Transformer for
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// more details.
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func TransformWithTransformer(val Value, t Transformer) (Value, error) {
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var path Path
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return transform(path, val, t)
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}
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func transform(path Path, val Value, t Transformer) (Value, error) {
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val, err := t.Enter(path, val)
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if err != nil {
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return DynamicVal, err
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}
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ty := val.Type()
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var newVal Value
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// We need to peel off any marks here so that we can dig around
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// inside any collection values. We'll reapply these to any
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// new collections we construct, but the transformer's Exit
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// method gets the final say on what to do with those.
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rawVal, marks := val.Unmark()
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switch {
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case val.IsNull() || !val.IsKnown():
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// Can't recurse into null or unknown values, regardless of type
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newVal = val
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case ty.IsListType() || ty.IsSetType() || ty.IsTupleType():
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l := rawVal.LengthInt()
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switch l {
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case 0:
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// No deep transform for an empty sequence
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newVal = val
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default:
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elems := make([]Value, 0, l)
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for it := rawVal.ElementIterator(); it.Next(); {
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kv, ev := it.Element()
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path := append(path, IndexStep{
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Key: kv,
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})
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newEv, err := transform(path, ev, t)
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if err != nil {
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return DynamicVal, err
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}
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elems = append(elems, newEv)
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}
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switch {
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case ty.IsListType():
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newVal = ListVal(elems).WithMarks(marks)
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case ty.IsSetType():
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newVal = SetVal(elems).WithMarks(marks)
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case ty.IsTupleType():
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newVal = TupleVal(elems).WithMarks(marks)
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default:
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panic("unknown sequence type") // should never happen because of the case we are in
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}
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}
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case ty.IsMapType():
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l := rawVal.LengthInt()
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switch l {
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case 0:
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// No deep transform for an empty map
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newVal = val
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default:
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elems := make(map[string]Value)
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for it := rawVal.ElementIterator(); it.Next(); {
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kv, ev := it.Element()
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path := append(path, IndexStep{
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Key: kv,
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})
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newEv, err := transform(path, ev, t)
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if err != nil {
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return DynamicVal, err
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}
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elems[kv.AsString()] = newEv
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}
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newVal = MapVal(elems).WithMarks(marks)
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}
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case ty.IsObjectType():
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switch {
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case ty.Equals(EmptyObject):
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// No deep transform for an empty object
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newVal = val
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default:
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atys := ty.AttributeTypes()
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newAVs := make(map[string]Value)
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for name := range atys {
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av := val.GetAttr(name)
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path := append(path, GetAttrStep{
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Name: name,
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})
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newAV, err := transform(path, av, t)
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if err != nil {
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return DynamicVal, err
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}
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newAVs[name] = newAV
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}
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newVal = ObjectVal(newAVs).WithMarks(marks)
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}
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default:
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newVal = val
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}
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newVal, err = t.Exit(path, newVal)
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if err != nil {
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return DynamicVal, err
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}
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return newVal, err
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}
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