if ptr, ok := types2.CoreType(typ).(*types2.Pointer); ok {
typ = ptr.Elem()
}
- str, isStruct := types2.CoreType(typ).(*types2.Struct)
+ var keyType, elemType types2.Type
+ var structType *types2.Struct
+ switch typ := types2.CoreType(typ).(type) {
+ default:
+ w.p.fatalf(lit, "unexpected composite literal type: %v", typ)
+ case *types2.Array:
+ elemType = typ.Elem()
+ case *types2.Map:
+ keyType, elemType = typ.Key(), typ.Elem()
+ case *types2.Slice:
+ elemType = typ.Elem()
+ case *types2.Struct:
+ structType = typ
+ }
w.Len(len(lit.ElemList))
for i, elem := range lit.ElemList {
- if isStruct {
+ elemType := elemType
+ if structType != nil {
if kv, ok := elem.(*syntax.KeyValueExpr); ok {
// use position of expr.Key rather than of elem (which has position of ':')
w.pos(kv.Key)
- w.Len(fieldIndex(w.p.info, str, kv.Key.(*syntax.Name)))
+ i = fieldIndex(w.p.info, structType, kv.Key.(*syntax.Name))
elem = kv.Value
} else {
w.pos(elem)
- w.Len(i)
}
+ elemType = structType.Field(i).Type()
+ w.Len(i)
} else {
if kv, ok := elem.(*syntax.KeyValueExpr); w.Bool(ok) {
// use position of expr.Key rather than of elem (which has position of ':')
w.pos(kv.Key)
- w.expr(kv.Key) // TODO(mdempsky): Implicit conversion to (map) key type.
+ w.implicitExpr(kv.Key, keyType, kv.Key)
elem = kv.Value
}
}
w.pos(elem)
- w.expr(elem) // TODO(mdempsky): Implicit conversion to element type.
+ w.implicitExpr(elem, elemType, elem)
}
}