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//! This module holds the machinery behind LabelledGeneric.
//!
//! A `LabelledGeneric` instance is pretty much exactly the same as a `Generic`
//! instance, except that the generic representation should contain information
//! about field names.
//!
//! Having a separate trait for `LabelledGeneric`s gives us the freedom to
//! derive both labelled and non-labelled generic trait instances for our types.
//!
//! Aside from the main `LabelledGeneric` trait, this module holds helper
//! methods that allow users to use `LabelledGeneric` without using universal
//! function call syntax.
//!
//! In addition, this module holds macro-generated enums that map to letters
//! in field names (identifiers).
//!
//! # Examples
//!
//! ```
//! # fn main() {
//! use frunk::labelled::chars::*;
//! use frunk_core::field;
//!
//! // Optionally alias our tuple that represents our type-level string
//! type name = (n, a, m, e);
//! let labelled = field![name, "Lloyd"];
//! assert_eq!(labelled.name, "name");
//! assert_eq!(labelled.value, "Lloyd")
//! # }
//! ```
//!
//! A more common usage is to use `LabelledGeneric` to transform structs that
//! have mismatched fields!
//!
//! ```
//! // required when using custom derives
//! use frunk::LabelledGeneric;
//!
//! # fn main() {
//! #[derive(LabelledGeneric)]
//! struct NewUser<'a> {
//! first_name: &'a str,
//! last_name: &'a str,
//! age: usize,
//! }
//!
//! // Notice that the fields are mismatched in terms of ordering
//! // *and* also in terms of the number of fields.
//! #[derive(LabelledGeneric)]
//! struct ShortUser<'a> {
//! last_name: &'a str,
//! first_name: &'a str,
//! }
//!
//! let n_user = NewUser {
//! first_name: "Joe",
//! last_name: "Blow",
//! age: 30,
//! };
//!
//! // transform_from automagically sculpts the labelled generic
//! // representation of the source object to that of the target type
//! let s_user: ShortUser = frunk::transform_from(n_user); // done
//! # }
//! ```
//!
//! If you have the need to transform types that are similarly-shaped recursively, then
//! use the Transmogrifier trait.
//!
//! ```
//! // required when using custom derives
//! # fn main() {
//! use frunk::labelled::Transmogrifier;
//! use frunk::LabelledGeneric;
//!
//! #[derive(LabelledGeneric)]
//! struct InternalPhoneNumber {
//! emergency: Option<usize>,
//! main: usize,
//! secondary: Option<usize>,
//! }
//!
//! #[derive(LabelledGeneric)]
//! struct InternalAddress<'a> {
//! is_whitelisted: bool,
//! name: &'a str,
//! phone: InternalPhoneNumber,
//! }
//!
//! #[derive(LabelledGeneric)]
//! struct InternalUser<'a> {
//! name: &'a str,
//! age: usize,
//! address: InternalAddress<'a>,
//! is_banned: bool,
//! }
//!
//! #[derive(LabelledGeneric, PartialEq, Debug)]
//! struct ExternalPhoneNumber {
//! main: usize,
//! }
//!
//! #[derive(LabelledGeneric, PartialEq, Debug)]
//! struct ExternalAddress<'a> {
//! name: &'a str,
//! phone: ExternalPhoneNumber,
//! }
//!
//! #[derive(LabelledGeneric, PartialEq, Debug)]
//! struct ExternalUser<'a> {
//! age: usize,
//! address: ExternalAddress<'a>,
//! name: &'a str,
//! }
//!
//! let internal_user = InternalUser {
//! name: "John",
//! age: 10,
//! address: InternalAddress {
//! is_whitelisted: true,
//! name: "somewhere out there",
//! phone: InternalPhoneNumber {
//! main: 1234,
//! secondary: None,
//! emergency: Some(5678),
//! },
//! },
//! is_banned: true,
//! };
//!
//! /// Boilerplate-free conversion of a top-level InternalUser into an
//! /// ExternalUser, taking care of subfield conversions as well.
//! let external_user: ExternalUser = internal_user.transmogrify();
//!
//! let expected_external_user = ExternalUser {
//! name: "John",
//! age: 10,
//! address: ExternalAddress {
//! name: "somewhere out there",
//! phone: ExternalPhoneNumber {
//! main: 1234,
//! },
//! }
//! };
//!
//! assert_eq!(external_user, expected_external_user);
//! # }
//! ```
use crate::hlist::*;
use crate::indices::*;
#[cfg(feature = "serde")]
use serde::{Deserialize, Serialize};
use ::std::fmt;
use ::std::marker::PhantomData;
/// A trait that converts from a type to a labelled generic representation.
///
/// `LabelledGeneric`s allow us to have completely type-safe,
/// boilerplate free conversions between different structs.
///
/// For the most part, you should be using the derivation that is available
/// through `frunk_derive` to generate instances of this trait for your types.
///
/// # Examples
///
/// ```rust
/// use frunk::LabelledGeneric;
///
/// # fn main() {
/// #[derive(LabelledGeneric)]
/// struct NewUser<'a> {
/// first_name: &'a str,
/// last_name: &'a str,
/// age: usize,
/// }
///
/// // Notice that the fields are mismatched in terms of ordering
/// #[derive(LabelledGeneric)]
/// struct SavedUser<'a> {
/// last_name: &'a str,
/// age: usize,
/// first_name: &'a str,
/// }
///
/// let n_user = NewUser {
/// first_name: "Joe",
/// last_name: "Blow",
/// age: 30,
/// };
///
/// // transform_from automagically sculpts the labelled generic
/// // representation of the source object to that of the target type
/// let s_user: SavedUser = frunk::transform_from(n_user); // done
/// # }
pub trait LabelledGeneric {
/// The labelled generic representation type.
type Repr;
/// Convert a value to its representation type `Repr`.
fn into(self) -> Self::Repr;
/// Convert a value's labelled representation type `Repr`
/// to the values's type.
fn from(repr: Self::Repr) -> Self;
/// Convert from one type to another using a type with the same
/// labelled generic representation
#[inline(always)]
fn convert_from<Src>(src: Src) -> Self
where
Src: LabelledGeneric<Repr = Self::Repr>,
Self: Sized,
{
let repr = <Src as LabelledGeneric>::into(src);
<Self as LabelledGeneric>::from(repr)
}
/// Converts from another type A into Self assuming that A and Self have
/// labelled generic representations that can be sculpted into each other.
///
/// Note that this method tosses away the "remainder" of the sculpted representation. In other
/// words, anything that is not needed from A gets tossed out.
#[deprecated(note = "obsolete, transform_from instead")]
fn sculpted_convert_from<A, Indices>(a: A) -> Self
where
A: LabelledGeneric,
Self: Sized,
// The labelled representation of A must be sculpt-able into the labelled representation of Self
<A as LabelledGeneric>::Repr: Sculptor<<Self as LabelledGeneric>::Repr, Indices>,
{
<Self as LabelledGeneric>::transform_from(a)
}
/// Converts from another type `Src` into `Self` assuming that `Src` and
/// `Self` have labelled generic representations that can be sculpted into
/// each other.
///
/// Note that this method tosses away the "remainder" of the sculpted
/// representation. In other words, anything that is not needed from `Src`
/// gets tossed out.
#[inline(always)]
fn transform_from<Src, Indices>(src: Src) -> Self
where
Src: LabelledGeneric,
Self: Sized,
// The labelled representation of `Src` must be sculpt-able into the labelled representation of `Self`
<Src as LabelledGeneric>::Repr: Sculptor<<Self as LabelledGeneric>::Repr, Indices>,
{
let src_gen = <Src as LabelledGeneric>::into(src);
// We toss away the remainder.
let (self_gen, _): (<Self as LabelledGeneric>::Repr, _) = src_gen.sculpt();
<Self as LabelledGeneric>::from(self_gen)
}
}
pub trait IntoLabelledGeneric {
/// The labelled generic representation type.
type Repr;
/// Convert a value to its representation type `Repr`.
fn into(self) -> Self::Repr;
}
impl<A> IntoLabelledGeneric for A
where
A: LabelledGeneric,
{
type Repr = <A as LabelledGeneric>::Repr;
#[inline(always)]
fn into(self) -> <Self as IntoLabelledGeneric>::Repr {
self.into()
}
}
/// Given a labelled generic representation of a `Dst`, returns `Dst`
pub fn from_labelled_generic<Dst, Repr>(repr: Repr) -> Dst
where
Dst: LabelledGeneric<Repr = Repr>,
{
<Dst as LabelledGeneric>::from(repr)
}
/// Given a `Src`, returns its labelled generic representation.
pub fn into_labelled_generic<Src, Repr>(src: Src) -> Repr
where
Src: LabelledGeneric<Repr = Repr>,
{
<Src as LabelledGeneric>::into(src)
}
/// Converts one type into another assuming they have the same labelled generic
/// representation.
pub fn labelled_convert_from<Src, Dst, Repr>(src: Src) -> Dst
where
Src: LabelledGeneric<Repr = Repr>,
Dst: LabelledGeneric<Repr = Repr>,
{
<Dst as LabelledGeneric>::convert_from(src)
}
/// Converts from one type into another assuming that their labelled generic representations
/// can be sculpted into each other.
///
/// The "Indices" type parameter allows the compiler to figure out that the two representations
/// can indeed be morphed into each other.
#[deprecated(note = "obsolete, transform_from instead")]
pub fn sculpted_convert_from<A, B, Indices>(a: A) -> B
where
A: LabelledGeneric,
B: LabelledGeneric,
// The labelled representation of A must be sculpt-able into the labelled representation of B
<A as LabelledGeneric>::Repr: Sculptor<<B as LabelledGeneric>::Repr, Indices>,
{
<B as LabelledGeneric>::transform_from(a)
}
/// Converts from one type into another assuming that their labelled generic representations
/// can be sculpted into each other.
///
/// The "Indices" type parameter allows the compiler to figure out that the two representations
/// can indeed be morphed into each other.
pub fn transform_from<Src, Dst, Indices>(src: Src) -> Dst
where
Src: LabelledGeneric,
Dst: LabelledGeneric,
// The labelled representation of Src must be sculpt-able into the labelled representation of Dst
<Src as LabelledGeneric>::Repr: Sculptor<<Dst as LabelledGeneric>::Repr, Indices>,
{
<Dst as LabelledGeneric>::transform_from(src)
}
pub mod chars {
//! Types for building type-level labels from character sequences.
//!
//! This is designed to be glob-imported:
//!
//! ```rust
//! # extern crate frunk;
//! # fn main() {
//! # #[allow(unused)]
//! use frunk::labelled::chars::*;
//! # }
//! ```
macro_rules! create_enums_for {
($($i: ident)*) => {
$(
#[allow(non_snake_case, non_camel_case_types)]
#[derive(PartialEq, Debug, Eq, Clone, Copy, PartialOrd, Ord, Hash)]
pub enum $i {}
)*
}
}
// Add more as needed.
create_enums_for! {
// all valid identifier characters
a b c d e f g h i j k l m n o p q r s t u v w x y z
A B C D E F G H I J K L M N O P Q R S T U V W X Y Z
_1 _2 _3 _4 _5 _6 _7 _8 _9 _0 __ _uc uc_
}
#[test]
fn simple_var_names_are_allowed() {
// Rust forbids variable bindings that shadow unit structs,
// so unit struct characters would cause a lot of trouble.
//
// Good thing I don't plan on adding reified labels. - Exp
let a = 3;
#[allow(clippy::match_single_binding)]
match a {
a => assert_eq!(a, 3),
}
}
}
/// A Label contains a type-level Name, a runtime value, and
/// a reference to a `&'static str` name.
///
/// To construct one, use the `field!` macro.
///
/// # Examples
///
/// ```
/// use frunk::labelled::chars::*;
/// use frunk_core::field;
/// # fn main() {
/// let labelled = field![(n,a,m,e), "joe"];
/// assert_eq!(labelled.name, "name");
/// assert_eq!(labelled.value, "joe")
/// # }
/// ```
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
#[derive(PartialEq, Eq, Clone, Copy, PartialOrd, Ord, Hash)]
pub struct Field<Name, Type> {
name_type_holder: PhantomData<Name>,
pub name: &'static str,
pub value: Type,
}
/// A version of Field that doesn't have a type-level label, just a
/// value-level one
#[cfg_attr(feature = "serde", derive(Serialize, Deserialize))]
#[derive(PartialEq, Eq, Clone, Copy, PartialOrd, Ord, Hash)]
pub struct ValueField<Type> {
pub name: &'static str,
pub value: Type,
}
impl<Name, Type> fmt::Debug for Field<Name, Type>
where
Type: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("Field")
// show name without quotes
.field("name", &DebugAsDisplay(&self.name))
.field("value", &self.value)
.finish()
}
}
impl<Type> fmt::Debug for ValueField<Type>
where
Type: fmt::Debug,
{
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
f.debug_struct("ValueField")
// show name without quotes
.field("name", &DebugAsDisplay(&self.name))
.field("value", &self.value)
.finish()
}
}
/// Utility type that implements Debug in terms of Display.
struct DebugAsDisplay<T>(T);
impl<T: fmt::Display> fmt::Debug for DebugAsDisplay<T> {
fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
fmt::Display::fmt(&self.0, f)
}
}
/// Returns a new Field for a given value and custom name.
///
/// If you don't want to provide a custom name and want to rely on the type you provide
/// to build a name, then please use the field! macro.
///
/// # Examples
///
/// ```
/// use frunk::labelled::chars::*;
/// use frunk::labelled::field_with_name;
///
/// let l = field_with_name::<(n,a,m,e),_>("name", "joe");
/// assert_eq!(l.value, "joe");
/// assert_eq!(l.name, "name");
/// ```
pub fn field_with_name<Label, Value>(name: &'static str, value: Value) -> Field<Label, Value> {
Field {
name_type_holder: PhantomData,
name,
value,
}
}
/// Trait for turning a Field HList into an un-labelled HList
pub trait IntoUnlabelled {
type Output;
/// Turns the current HList into an unlabelled one.
///
/// Effectively extracts the values held inside the individual Field
///
/// # Examples
///
/// ```
/// # fn main() {
/// use frunk::labelled::chars::*;
/// use frunk::labelled::IntoUnlabelled;
/// use frunk_core::{field, hlist};
///
/// let labelled_hlist = hlist![
/// field!((n, a, m, e), "joe"),
/// field!((a, g, e), 3)
/// ];
///
/// let unlabelled = labelled_hlist.into_unlabelled();
///
/// assert_eq!(unlabelled, hlist!["joe", 3])
/// # }
/// ```
fn into_unlabelled(self) -> Self::Output;
}
/// Implementation for HNil
impl IntoUnlabelled for HNil {
type Output = HNil;
fn into_unlabelled(self) -> Self::Output {
self
}
}
/// Implementation when we have a non-empty HCons holding a label in its head
impl<Label, Value, Tail> IntoUnlabelled for HCons<Field<Label, Value>, Tail>
where
Tail: IntoUnlabelled,
{
type Output = HCons<Value, <Tail as IntoUnlabelled>::Output>;
fn into_unlabelled(self) -> Self::Output {
HCons {
head: self.head.value,
tail: self.tail.into_unlabelled(),
}
}
}
/// A trait that strips type-level strings from the labels
pub trait IntoValueLabelled {
type Output;
/// Turns the current HList into a value-labelled one.
///
/// Effectively extracts the names and values held inside the individual Fields
/// and puts them into ValueFields, which do not have type-level names.
///
/// # Examples
///
/// ```
/// # fn main() {
/// use frunk::labelled::{ValueField, IntoValueLabelled};
/// use frunk::labelled::chars::*;
/// use frunk_core::{field, hlist, HList};
///
/// let labelled_hlist = hlist![
/// field!((n, a, m, e), "joe"),
/// field!((a, g, e), 3)
/// ];
/// // Notice the lack of type-level names
/// let value_labelled: HList![ValueField<&str>, ValueField<isize>] = labelled_hlist.into_value_labelled();
///
/// assert_eq!(
/// value_labelled,
/// hlist![
/// ValueField {
/// name: "name",
/// value: "joe",
/// },
/// ValueField {
/// name: "age",
/// value: 3,
/// },
/// ]);
/// # }
/// ```
fn into_value_labelled(self) -> Self::Output;
}
impl IntoValueLabelled for HNil {
type Output = HNil;
fn into_value_labelled(self) -> Self::Output {
self
}
}
impl<Label, Value, Tail> IntoValueLabelled for HCons<Field<Label, Value>, Tail>
where
Tail: IntoValueLabelled,
{
type Output = HCons<ValueField<Value>, <Tail as IntoValueLabelled>::Output>;
fn into_value_labelled(self) -> Self::Output {
HCons {
head: ValueField {
name: self.head.name,
value: self.head.value,
},
tail: self.tail.into_value_labelled(),
}
}
}
/// Trait for plucking out a `Field` from a type by type-level `TargetKey`.
pub trait ByNameFieldPlucker<TargetKey, Index> {
type TargetValue;
type Remainder;
/// Returns a pair consisting of the value pointed to by the target key and the remainder.
fn pluck_by_name(self) -> (Field<TargetKey, Self::TargetValue>, Self::Remainder);
}
/// Implementation when the pluck target key is in the head.
impl<K, V, Tail> ByNameFieldPlucker<K, Here> for HCons<Field<K, V>, Tail> {
type TargetValue = V;
type Remainder = Tail;
#[inline(always)]
fn pluck_by_name(self) -> (Field<K, Self::TargetValue>, Self::Remainder) {
let field = field_with_name(self.head.name, self.head.value);
(field, self.tail)
}
}
/// Implementation when the pluck target key is in the tail.
impl<Head, Tail, K, TailIndex> ByNameFieldPlucker<K, There<TailIndex>> for HCons<Head, Tail>
where
Tail: ByNameFieldPlucker<K, TailIndex>,
{
type TargetValue = <Tail as ByNameFieldPlucker<K, TailIndex>>::TargetValue;
type Remainder = HCons<Head, <Tail as ByNameFieldPlucker<K, TailIndex>>::Remainder>;
#[inline(always)]
fn pluck_by_name(self) -> (Field<K, Self::TargetValue>, Self::Remainder) {
let (target, tail_remainder) =
<Tail as ByNameFieldPlucker<K, TailIndex>>::pluck_by_name(self.tail);
(
target,
HCons {
head: self.head,
tail: tail_remainder,
},
)
}
}
/// Trait for transmogrifying a `Source` type into a `Target` type.
///
/// What is "transmogrifying"? In this context, it means to convert some data of type `A`
/// into data of type `B`, in a typesafe, recursive way, as long as `A` and `B` are "similarly-shaped".
/// In other words, as long as `B`'s fields and their subfields are subsets of `A`'s fields and
/// their respective subfields, then `A` can be turned into `B`.
///
/// # Example
///
/// ```
/// // required when using custom derives
/// # fn main() {
/// use frunk::LabelledGeneric;
/// use frunk::labelled::Transmogrifier;
/// #[derive(LabelledGeneric)]
/// struct InternalPhoneNumber {
/// emergency: Option<usize>,
/// main: usize,
/// secondary: Option<usize>,
/// }
///
/// #[derive(LabelledGeneric)]
/// struct InternalAddress<'a> {
/// is_whitelisted: bool,
/// name: &'a str,
/// phone: InternalPhoneNumber,
/// }
///
/// #[derive(LabelledGeneric)]
/// struct InternalUser<'a> {
/// name: &'a str,
/// age: usize,
/// address: InternalAddress<'a>,
/// is_banned: bool,
/// }
///
/// #[derive(LabelledGeneric, PartialEq, Debug)]
/// struct ExternalPhoneNumber {
/// main: usize,
/// }
///
/// #[derive(LabelledGeneric, PartialEq, Debug)]
/// struct ExternalAddress<'a> {
/// name: &'a str,
/// phone: ExternalPhoneNumber,
/// }
///
/// #[derive(LabelledGeneric, PartialEq, Debug)]
/// struct ExternalUser<'a> {
/// age: usize,
/// address: ExternalAddress<'a>,
/// name: &'a str,
/// }
///
/// let internal_user = InternalUser {
/// name: "John",
/// age: 10,
/// address: InternalAddress {
/// is_whitelisted: true,
/// name: "somewhere out there",
/// phone: InternalPhoneNumber {
/// main: 1234,
/// secondary: None,
/// emergency: Some(5678),
/// },
/// },
/// is_banned: true,
/// };
///
/// /// Boilerplate-free conversion of a top-level InternalUser into an
/// /// ExternalUser, taking care of subfield conversions as well.
/// let external_user: ExternalUser = internal_user.transmogrify();
///
/// let expected_external_user = ExternalUser {
/// name: "John",
/// age: 10,
/// address: ExternalAddress {
/// name: "somewhere out there",
/// phone: ExternalPhoneNumber {
/// main: 1234,
/// },
/// }
/// };
///
/// assert_eq!(external_user, expected_external_user);
/// # }
/// ```
///
/// Credit:
/// 1. Haskell "transmogrify" Github repo: <https://github.com/ivan-m/transmogrify>
pub trait Transmogrifier<Target, TransmogrifyIndexIndices> {
/// Consume this current object and return an object of the Target type.
///
/// Although similar to sculpting, transmogrifying does its job recursively.
fn transmogrify(self) -> Target;
}
/// Implementation of `Transmogrifier` for identity plucked `Field` to `Field` Transforms.
impl<Key, SourceValue> Transmogrifier<SourceValue, IdentityTransMog> for Field<Key, SourceValue> {
#[inline(always)]
fn transmogrify(self) -> SourceValue {
self.value
}
}
/// Implementations of `Transmogrifier` that allow recursion through stdlib container types.
#[cfg(feature = "std")]
mod std {
use super::MappingIndicesWrapper;
use super::{Field, Transmogrifier};
use std::collections::{LinkedList, VecDeque};
macro_rules! transmogrify_seq {
($container:ident) => {
/// Implementation of `Transmogrifier` that maps over a `$container` in a `Field`, transmogrifying the
/// elements on the way past.
impl<Key, Source, Target, InnerIndices>
Transmogrifier<$container<Target>, MappingIndicesWrapper<InnerIndices>>
for Field<Key, $container<Source>>
where
Source: Transmogrifier<Target, InnerIndices>,
{
fn transmogrify(self) -> $container<Target> {
self.value.into_iter().map(|e| e.transmogrify()).collect()
}
}
};
}
transmogrify_seq!(Vec);
transmogrify_seq!(LinkedList);
transmogrify_seq!(VecDeque);
/// Implementation of `Transmogrifier` that maps over an `Box` in a `Field`, transmogrifying the
/// contained element on the way past.
impl<Key, Source, Target, InnerIndices>
Transmogrifier<Box<Target>, MappingIndicesWrapper<InnerIndices>> for Field<Key, Box<Source>>
where
Source: Transmogrifier<Target, InnerIndices>,
{
fn transmogrify(self) -> Box<Target> {
Box::new(self.value.transmogrify())
}
}
}
/// Implementation of `Transmogrifier` that maps over an `Option` in a `Field`, transmogrifying the
/// contained element on the way past if present.
impl<Key, Source, Target, InnerIndices>
Transmogrifier<Option<Target>, MappingIndicesWrapper<InnerIndices>>
for Field<Key, Option<Source>>
where
Source: Transmogrifier<Target, InnerIndices>,
{
fn transmogrify(self) -> Option<Target> {
self.value.map(|e| e.transmogrify())
}
}
/// Implementation of `Transmogrifier` for when the `Target` is empty and the `Source` is empty.
impl Transmogrifier<HNil, HNil> for HNil {
#[inline(always)]
fn transmogrify(self) -> HNil {
HNil
}
}
/// Implementation of `Transmogrifier` for when the `Target` is empty and the `Source` is non-empty.
impl<SourceHead, SourceTail> Transmogrifier<HNil, HNil> for HCons<SourceHead, SourceTail> {
#[inline(always)]
fn transmogrify(self) -> HNil {
HNil
}
}
/// Implementation of `Transmogrifier` for when the target is an `HList`, and the `Source` is a plucked
/// `HList`.
impl<
SourceHead,
SourceTail,
TargetName,
TargetHead,
TargetTail,
TransmogHeadIndex,
TransmogTailIndices,
> Transmogrifier<HCons<TargetHead, TargetTail>, HCons<TransmogHeadIndex, TransmogTailIndices>>
for Field<TargetName, HCons<SourceHead, SourceTail>>
where
HCons<SourceHead, SourceTail>: Transmogrifier<
HCons<TargetHead, TargetTail>,
HCons<TransmogHeadIndex, TransmogTailIndices>,
>,
{
#[inline(always)]
fn transmogrify(self) -> HCons<TargetHead, TargetTail> {
self.value.transmogrify()
}
}
/// Non-trivial implementation of `Transmogrifier` where similarly-shaped `Source` and `Target` types are
/// both Labelled HLists, but do not immediately transform into one another due to mis-matched
/// fields, possibly recursively so.
impl<
SourceHead,
SourceTail,
TargetHeadName,
TargetHeadValue,
TargetTail,
PluckSourceHeadNameIndex,
TransMogSourceHeadValueIndices,
TransMogTailIndices,
>
Transmogrifier<
HCons<Field<TargetHeadName, TargetHeadValue>, TargetTail>,
HCons<
DoTransmog<PluckSourceHeadNameIndex, TransMogSourceHeadValueIndices>,
TransMogTailIndices,
>,
> for HCons<SourceHead, SourceTail>
where
// Pluck a value out of the Source by the Head Target Name
HCons<SourceHead, SourceTail>: ByNameFieldPlucker<TargetHeadName, PluckSourceHeadNameIndex>,
// The value we pluck out needs to be able to be transmogrified to the Head Target Value type
Field<
TargetHeadName,
<HCons<SourceHead, SourceTail> as ByNameFieldPlucker<
TargetHeadName,
PluckSourceHeadNameIndex,
>>::TargetValue,
>: Transmogrifier<TargetHeadValue, TransMogSourceHeadValueIndices>,
// The remainder from plucking out the Head Target Name must be able to be transmogrified to the
// target tail, utilising the other remaining indices
<HCons<SourceHead, SourceTail> as ByNameFieldPlucker<
TargetHeadName,
PluckSourceHeadNameIndex,
>>::Remainder: Transmogrifier<TargetTail, TransMogTailIndices>,
{
#[inline(always)]
fn transmogrify(self) -> HCons<Field<TargetHeadName, TargetHeadValue>, TargetTail> {
let (source_field_for_head_target_name, remainder) = self.pluck_by_name();
let name = source_field_for_head_target_name.name;
let transmogrified_value: TargetHeadValue =
source_field_for_head_target_name.transmogrify();
let as_field: Field<TargetHeadName, TargetHeadValue> =
field_with_name(name, transmogrified_value);
HCons {
head: as_field,
tail: remainder.transmogrify(),
}
}
}
impl<Source, Target, TransmogIndices>
Transmogrifier<Target, LabelledGenericTransmogIndicesWrapper<TransmogIndices>> for Source
where
Source: LabelledGeneric,
Target: LabelledGeneric,
<Source as LabelledGeneric>::Repr:
Transmogrifier<<Target as LabelledGeneric>::Repr, TransmogIndices>,
{
#[inline(always)]
fn transmogrify(self) -> Target {
let source_as_repr = self.into();
let source_transmogged = source_as_repr.transmogrify();
<Target as LabelledGeneric>::from(source_transmogged)
}
}
// Implementation for when the source value is plucked
impl<Source, TargetName, TargetValue, TransmogIndices>
Transmogrifier<TargetValue, PluckedLabelledGenericIndicesWrapper<TransmogIndices>>
for Field<TargetName, Source>
where
Source: LabelledGeneric,
TargetValue: LabelledGeneric,
Source: Transmogrifier<TargetValue, TransmogIndices>,
{
#[inline(always)]
fn transmogrify(self) -> TargetValue {
self.value.transmogrify()
}
}
#[cfg(test)]
mod tests {
use super::chars::*;
use super::*;
use ::std::collections::{LinkedList, VecDeque};
// Set up some aliases
#[allow(non_camel_case_types)]
type abc = (a, b, c);
#[allow(non_camel_case_types)]
type name = (n, a, m, e);
#[allow(non_camel_case_types)]
type age = (a, g, e);
#[allow(non_camel_case_types)]
type is_admin = (i, s, __, a, d, m, i, n);
#[allow(non_camel_case_types)]
type inner = (i, n, n, e, r);
#[test]
fn test_label_new_building() {
let l1 = field!(abc, 3);
assert_eq!(l1.value, 3);
assert_eq!(l1.name, "abc");
let l2 = field!((a, b, c), 3);
assert_eq!(l2.value, 3);
assert_eq!(l2.name, "abc");
// test named
let l3 = field!(abc, 3, "nope");
assert_eq!(l3.value, 3);
assert_eq!(l3.name, "nope");
let l4 = field!((a, b, c), 3, "nope");
assert_eq!(l4.value, 3);
assert_eq!(l4.name, "nope");
}
#[test]
fn test_field_construction() {
let f1 = field!(age, 3);
let f2 = field!((a, g, e), 3);
assert_eq!(f1, f2)
}
#[test]
fn test_field_debug() {
let field = field!(age, 3);
let hlist_pat![value_field] = hlist![field].into_value_labelled();
// names don't have quotation marks
assert!(format!("{:?}", field).contains("name: age"));
assert!(format!("{:?}", value_field).contains("name: age"));
// :#? works
assert!(format!("{:#?}", field).contains('\n'));
assert!(format!("{:#?}", value_field).contains('\n'));
}
#[test]
fn test_anonymous_record_usage() {
let record = hlist![field!(name, "Joe"), field!((a, g, e), 30)];
let (name, _): (Field<name, _>, _) = record.pluck();
assert_eq!(name.value, "Joe")
}
#[test]
fn test_unlabelling() {
let labelled_hlist = hlist![field!(name, "joe"), field!((a, g, e), 3)];
let unlabelled = labelled_hlist.into_unlabelled();
assert_eq!(unlabelled, hlist!["joe", 3])
}
#[test]
fn test_value_labelling() {
let labelled_hlist = hlist![field!(name, "joe"), field!((a, g, e), 3)];
let value_labelled: HList![ValueField<&str>, ValueField<isize>] =
labelled_hlist.into_value_labelled();
let hlist_pat!(f1, f2) = value_labelled;
assert_eq!(f1.name, "name");
assert_eq!(f2.name, "age");
}
#[test]
fn test_name() {
let labelled = field!(name, "joe");
assert_eq!(labelled.name, "name")
}
#[test]
fn test_transmogrify_hnil_identity() {
let hnil_again: HNil = HNil.transmogrify();
assert_eq!(HNil, hnil_again);
}
#[test]
fn test_transmogrify_hcons_sculpting_super_simple() {
type Source = HList![Field<name, &'static str>, Field<age, i32>, Field<is_admin, bool>];
type Target = HList![Field<age, i32>];
let hcons: Source = hlist!(field!(name, "joe"), field!(age, 3), field!(is_admin, true));
let t_hcons: Target = hcons.transmogrify();
assert_eq!(t_hcons, hlist!(field!(age, 3)));
}
#[test]
fn test_transmogrify_hcons_sculpting_somewhat_simple() {
type Source = HList![Field<name, &'static str>, Field<age, i32>, Field<is_admin, bool>];
type Target = HList![Field<is_admin, bool>, Field<name, &'static str>];
let hcons: Source = hlist!(field!(name, "joe"), field!(age, 3), field!(is_admin, true));
let t_hcons: Target = hcons.transmogrify();
assert_eq!(t_hcons, hlist!(field!(is_admin, true), field!(name, "joe")));
}
#[test]
fn test_transmogrify_hcons_recursive_simple() {
type Source = HList![
Field<name, HList![
Field<inner, f32>,
Field<is_admin, bool>,
]>,
Field<age, i32>,
Field<is_admin, bool>];
type Target = HList![
Field<is_admin, bool>,
Field<name, HList![
Field<is_admin, bool>,
]>,
];
let source: Source = hlist![
field!(name, hlist![field!(inner, 42f32), field!(is_admin, true)]),
field!(age, 32),
field!(is_admin, true)
];
let target: Target = source.transmogrify();
assert_eq!(
target,
hlist![
field!(is_admin, true),
field!(name, hlist![field!(is_admin, true)]),
]
)
}
#[test]
fn test_transmogrify_hcons_sculpting_required_simple() {
type Source = HList![Field<name, &'static str>, Field<age, i32>, Field<is_admin, bool>];
type Target = HList![Field<is_admin, bool>, Field<name, &'static str>, Field<age, i32>];
let hcons: Source = hlist!(field!(name, "joe"), field!(age, 3), field!(is_admin, true));
let t_hcons: Target = hcons.transmogrify();
assert_eq!(
t_hcons,
hlist!(field!(is_admin, true), field!(name, "joe"), field!(age, 3))
);
}
#[test]
fn test_transmogrify_identical_transform_labelled_fields() {
type Source = HList![
Field<name, &'static str>,
Field<age, i32>,
Field<is_admin, bool>
];
type Target = Source;
let source: Source = hlist![field!(name, "joe"), field!(age, 32), field!(is_admin, true)];
let target: Target = source.transmogrify();
assert_eq!(
target,
hlist![field!(name, "joe"), field!(age, 32), field!(is_admin, true)]
)
}
#[test]
fn test_transmogrify_through_containers() {
type SourceOuter<T> = HList![
Field<name, &'static str>,
Field<inner, T>,
];
type SourceInner = HList![
Field<is_admin, bool>,
Field<age, i32>,
];
type TargetOuter<T> = HList![
Field<name, &'static str>,
Field<inner, T>,
];
type TargetInner = HList![
Field<age, i32>,
Field<is_admin, bool>,
];
fn create_inner() -> (SourceInner, TargetInner) {
let source_inner: SourceInner = hlist![field!(is_admin, true), field!(age, 14)];
let target_inner: TargetInner = hlist![field!(age, 14), field!(is_admin, true)];
(source_inner, target_inner)
}
// Vec -> Vec
let (source_inner, target_inner) = create_inner();
let source: SourceOuter<Vec<SourceInner>> =
hlist![field!(name, "Joe"), field!(inner, vec![source_inner])];
let target: TargetOuter<Vec<TargetInner>> = source.transmogrify();
assert_eq!(
target,
hlist![field!(name, "Joe"), field!(inner, vec![target_inner])]
);
// LInkedList -> LinkedList
let (source_inner, target_inner) = create_inner();
let source_inner = {
let mut list = LinkedList::new();
list.push_front(source_inner);
list
};
let target_inner = {
let mut list = LinkedList::new();
list.push_front(target_inner);
list
};
let source: SourceOuter<LinkedList<SourceInner>> =
hlist![field!(name, "Joe"), field!(inner, source_inner)];
let target: TargetOuter<LinkedList<TargetInner>> = source.transmogrify();
assert_eq!(
target,
hlist![field!(name, "Joe"), field!(inner, target_inner)]
);
// VecDeque -> VecDeque
let (source_inner, target_inner) = create_inner();
let source_inner = {
let mut list = VecDeque::new();
list.push_front(source_inner);
list
};
let target_inner = {
let mut list = VecDeque::new();
list.push_front(target_inner);
list
};
let source: SourceOuter<VecDeque<SourceInner>> =
hlist![field!(name, "Joe"), field!(inner, source_inner)];
let target: TargetOuter<VecDeque<TargetInner>> = source.transmogrify();
assert_eq!(
target,
hlist![field!(name, "Joe"), field!(inner, target_inner)]
);
// Option -> Option
let (source_inner, target_inner) = create_inner();
let source_inner = Some(source_inner);
let target_inner = Some(target_inner);
let source: SourceOuter<Option<SourceInner>> =
hlist![field!(name, "Joe"), field!(inner, source_inner)];
let target: TargetOuter<Option<TargetInner>> = source.transmogrify();
assert_eq!(
target,
hlist![field!(name, "Joe"), field!(inner, target_inner)]
);
let source: SourceOuter<Option<SourceInner>> =
hlist![field!(name, "Joe"), field!(inner, None)];
let target: TargetOuter<Option<TargetInner>> = source.transmogrify();
assert_eq!(target, hlist![field!(name, "Joe"), field!(inner, None)]);
// Box -> Box
let (source_inner, target_inner) = create_inner();
let source_inner = Box::new(source_inner);
let target_inner = Box::new(target_inner);
let source: SourceOuter<Box<SourceInner>> =
hlist![field!(name, "Joe"), field!(inner, source_inner)];
let target: TargetOuter<Box<TargetInner>> = source.transmogrify();
assert_eq!(
target,
hlist![field!(name, "Joe"), field!(inner, target_inner)]
);
}
// #[test]
// fn test_transmogrify_identical_transform_nested_labelled_fields() {
// type Source = HList![
// Field<name, HList![
// Field<inner, f32>,
// Field<is_admin, bool>,
// ]>,
// Field<age, i32>,
// Field<is_admin, bool>];
// type Target = Source;
// let source: Source = hlist![
// field!(name, hlist![field!(inner, 42f32), field!(is_admin, true)]),
// field!(age, 32),
// field!(is_admin, true)
// ];
// let target: Target = source.transmogrify();
// assert_eq!(
// target,
// hlist![
// field!(name, hlist![field!(inner, 42f32), field!(is_admin, true)]),
// field!(age, 32),
// field!(is_admin, true)
// ]
// )
// }
}