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type_manipulation.go
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/
type_manipulation.go
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package lo
import "reflect"
// IsNil checks if a value is nil or if it's a reference type with a nil underlying value.
func IsNil(x any) bool {
defer func() { recover() }() // nolint:errcheck
return x == nil || reflect.ValueOf(x).IsNil()
}
// ToPtr returns a pointer copy of value.
func ToPtr[T any](x T) *T {
return &x
}
// Nil returns a nil pointer of type.
func Nil[T any]() *T {
return nil
}
// EmptyableToPtr returns a pointer copy of value if it's nonzero.
// Otherwise, returns nil pointer.
func EmptyableToPtr[T any](x T) *T {
// 🤮
isZero := reflect.ValueOf(&x).Elem().IsZero()
if isZero {
return nil
}
return &x
}
// FromPtr returns the pointer value or empty.
func FromPtr[T any](x *T) T {
if x == nil {
return Empty[T]()
}
return *x
}
// FromPtrOr returns the pointer value or the fallback value.
func FromPtrOr[T any](x *T, fallback T) T {
if x == nil {
return fallback
}
return *x
}
// ToSlicePtr returns a slice of pointer copy of value.
func ToSlicePtr[T any](collection []T) []*T {
result := make([]*T, len(collection))
for i := range collection {
result[i] = &collection[i]
}
return result
}
// FromSlicePtr returns a slice with the pointer values.
// Returns a zero value in case of a nil pointer element.
func FromSlicePtr[T any](collection []*T) []T {
return Map(collection, func(x *T, _ int) T {
if x == nil {
return Empty[T]()
}
return *x
})
}
// FromSlicePtrOr returns a slice with the pointer values or the fallback value.
func FromSlicePtrOr[T any](collection []*T, fallback T) []T {
return Map(collection, func(x *T, _ int) T {
if x == nil {
return fallback
}
return *x
})
}
// ToAnySlice returns a slice with all elements mapped to `any` type
func ToAnySlice[T any](collection []T) []any {
result := make([]any, len(collection))
for i := range collection {
result[i] = collection[i]
}
return result
}
// FromAnySlice returns an `any` slice with all elements mapped to a type.
// Returns false in case of type conversion failure.
func FromAnySlice[T any](in []any) (out []T, ok bool) {
defer func() {
if r := recover(); r != nil {
out = []T{}
ok = false
}
}()
result := make([]T, len(in))
for i := range in {
result[i] = in[i].(T)
}
return result, true
}
// Empty returns an empty value.
func Empty[T any]() T {
var zero T
return zero
}
// IsEmpty returns true if argument is a zero value.
func IsEmpty[T comparable](v T) bool {
var zero T
return zero == v
}
// IsNotEmpty returns true if argument is not a zero value.
func IsNotEmpty[T comparable](v T) bool {
var zero T
return zero != v
}
// Coalesce returns the first non-empty arguments. Arguments must be comparable.
func Coalesce[T comparable](values ...T) (result T, ok bool) {
for i := range values {
if values[i] != result {
result = values[i]
ok = true
return
}
}
return
}
// CoalesceOrEmpty returns the first non-empty arguments. Arguments must be comparable.
func CoalesceOrEmpty[T comparable](v ...T) T {
result, _ := Coalesce(v...)
return result
}