package dyn import ( "fmt" ) type Value struct { v any k Kind l Location // Whether or not this value is an anchor. // If this node doesn't map to a type, we don't need to warn about it. anchor bool } // InvalidValue is equal to the zero-value of Value. var InvalidValue = Value{ k: KindInvalid, } // NilValue is a convenient constant for a nil value. var NilValue = Value{ k: KindNil, } // V constructs a new Value with the given value. func V(v any) Value { return Value{ v: v, k: kindOf(v), } } // NewValue constructs a new Value with the given value and location. func NewValue(v any, loc Location) Value { return Value{ v: v, k: kindOf(v), l: loc, } } func (v Value) Kind() Kind { return v.k } func (v Value) Location() Location { return v.l } func (v Value) IsValid() bool { return v.k != KindInvalid } func (v Value) AsAny() any { switch v.k { case KindInvalid: panic("invoked AsAny on invalid value") case KindMap: vv := v.v.(map[string]Value) m := make(map[string]any, len(vv)) for k, v := range vv { m[k] = v.AsAny() } return m case KindSequence: vv := v.v.([]Value) a := make([]any, len(vv)) for i, v := range vv { a[i] = v.AsAny() } return a case KindNil: return v.v case KindString: return v.v case KindBool: return v.v case KindInt: return v.v case KindFloat: return v.v case KindTime: return v.v default: // Panic because we only want to deal with known types. panic(fmt.Sprintf("invalid kind: %d", v.k)) } } func (v Value) Get(key string) Value { m, ok := v.AsMap() if !ok { return NilValue } vv, ok := m[key] if !ok { return NilValue } return vv } func (v Value) Index(i int) Value { s, ok := v.v.([]Value) if !ok { return NilValue } if i < 0 || i >= len(s) { return NilValue } return s[i] } func (v Value) MarkAnchor() Value { return Value{ v: v.v, k: v.k, l: v.l, anchor: true, } } func (v Value) IsAnchor() bool { return v.anchor }