Garciat/Parser.java

## Parser.java
package com.uber.playground;

import lombok.NonNull;
import lombok.SneakyThrows;
import lombok.Value;
import org.jetbrains.annotations.Nullable;

import java.io.Serializable;
import java.lang.invoke.SerializedLambda;
import java.lang.reflect.InvocationTargetException;
import java.lang.reflect.Method;
import java.time.Instant;
import java.util.*;
import java.util.function.BiFunction;
import java.util.function.BinaryOperator;
import java.util.function.Function;
import java.util.function.Supplier;


@Value
class Unit {}

@FunctionalInterface
interface NullableFunction<T, R> {
  @Nullable R apply(T t);
}

abstract class Either<T, F> {

  private Either() {}

  public abstract <R> R match(Function<T, R> success, Function<F, R> failure);

  // semantic

  public <E extends Throwable> T orElseThrow(Function<F, E> handler) throws E {
    return match(Function.identity(), new Function<F, T>() {
      @SneakyThrows
      @Override
      public T apply(F f) {
        throw handler.apply(f);
      }
    });
  }

  // structural

  // Functor
  public <U> Either<U, F> map(Function<T, U> mapper) {
    return match(t -> success(mapper.apply(t)), Either::failure);
  }

  public <G> Either<T, G> mapFailure(Function<F, G> mapper) {
    return match(Either::success, f -> failure(mapper.apply(f)));
  }

  // Monad
  public <U> Either<U, F> flatMap(Function<T, Either<U, F>> callback) {
    return match(callback, Either::failure);
  }

  // constructors

  public static <T, F> Either<T, F> success(T t) {
    Objects.requireNonNull(t);
    return new Success<>(t);
  }

  public static <T, F> Either<T, F> failure(F f) {
    Objects.requireNonNull(f);
    return new Failure<>(f);
  }

  public static <T> Either<T, Unit> fromOptional(Optional<T> opt) {
    if (opt.isPresent()) {
      return success(opt.get());
    } else {
      return failure(new Unit());
    }
  }

  public static <T> Either<T, Throwable> run(Supplier<T> supplier) {
    Objects.requireNonNull(supplier);
    T value;
    try {
      value = supplier.get();
    } catch (Throwable t) {
      return failure(t);
    }
    return success(value);
  }

  public static <A, B> Function<A, Either<B, Throwable>> lift(Function<A, B> func) {
    return a -> run(() -> func.apply(a));
  }

  public static <A, B> Function<A, Either<Optional<B>, Throwable>> liftNullable(NullableFunction<A, B> func) {
    return a -> run(() -> Optional.ofNullable(func.apply(a)));
  }

  // combinators

  public static <F, A, B, C> Either<C, F> merge(Either<A, F> eitherA, Either<B, F> eitherB, BiFunction<A, B, C> valueMerge, BinaryOperator<F> failureMerge) {
    return eitherA.match(
            a -> eitherB.match(b -> Either.success(valueMerge.apply(a, b)), Either::failure),
            f1 -> eitherB.match(b -> Either.failure(f1), f2 -> Either.failure(failureMerge.apply(f1, f2))));
  }

  // data

  @Value
  private static class Success<T, F> extends Either<T, F> {

    @NonNull T t;

    @Override
    public <R> R match(Function<T, R> success, Function<F, R> failure) {
      return success.apply(t);
    }

    @Override
    public String toString() {
      return "Either.success(" + t + ")";
    }
  }

  @Value
  private static class Failure<T, F> extends Either<T, F> {

    @NonNull F f;

    @Override
    public <R> R match(Function<T, R> success, Function<F, R> failure) {
      return failure.apply(f);
    }

    @Override
    public String toString() {
      return "Either.failure(" + f + ")";
    }
  }
}

abstract class ParseFailure {

  private ParseFailure() {}

  // constructors

  public static ParseFailure message(String message) {
    return new Message(message);
  }

  public static ParseFailure exception(Throwable t) {
    return new Exception(t);
  }

  // combinators

  public static ParseFailure tag(String tag, ParseFailure sub) {
    return new Tag(tag, sub);
  }

  public static ParseFailure merge(ParseFailure left, ParseFailure right) {
    return new Merge(left, right);
  }

  // data

  @Value
  public static class Message extends ParseFailure {
    String message;

    @Override
    public String toString() {
      return "ParseFailure.message(\"" + message + "\")";
    }
  }

  @Value
  public static class Exception extends ParseFailure {
    Throwable throwable;

    @Override
    public String toString() {
      String s = "ParseFailure.exception(type=" + throwable.getClass().getName();
      if (throwable.getMessage() != null) {
        s += ", message=\"" + throwable.getMessage() + '"';
      }
      return s + ")";
    }
  }

  @Value
  public static class Tag extends ParseFailure {
    String tag;
    ParseFailure sub;

    @Override
    public String toString() {
      return "ParseFailure.tag(\"" + tag + "\", " + sub + ")";
    }
  }

  @Value
  public static class Merge extends ParseFailure {
    ParseFailure left, right;

    @Override
    public String toString() {
      return "ParseFailure.merge(" + left + ", " + right + ")";
    }
  }
}

class ParseException extends RuntimeException {
  public ParseException(ParseFailure failure) {
    super(failure.toString());
  }
}

interface Parser<T, R> {

  Either<R, ParseFailure> parse(T input);

  default R parseStrict(T input) throws ParseException {
    return parse(input).orElseThrow(ParseException::new);
  }

  // semantic

  default Parser<T, R> tagged(String tag) {
    return input -> parse(input).mapFailure(f -> ParseFailure.tag(tag, f));
  }

  // structural

  // Functor
  default <S> Parser<T, S> map(Function<R, S> mapper) {
    return andThen(lift(mapper));
  }

  // Category (composition)
  default <S> Parser<T, S> andThen(Parser<R, S> next) {
    return input -> parse(input).flatMap(next::parse);
  }

  // Alternative
  default Parser<T, R> recoverWith(Parser<T, R> fallback) {
    return input -> parse(input)
            .match(Either::success, $ -> fallback.parse(input));
  }

  // constructors

  static <T> Parser<T, T> id() {
    return input -> Either.success(input);
  }

  // Pure
  static <T, R> Parser<T, R> returning(R r) {
    return input -> Either.success(r);
  }

  static <T, R> Parser<T, R> fail() {
    return input -> Either.failure(ParseFailure.message("fail"));
  }

  static <T> Parser<Optional<T>, T> nonEmpty() {
    return input -> Either.fromOptional(input)
            .mapFailure(unit -> ParseFailure.message("value is null"));
  }

  static <T, R> Parser<T, R> lift(Function<T, R> function) {
    return input -> Either.lift(function).apply(input)
            .mapFailure(ParseFailure::exception);
  }

  static <T, R> Parser<T, Optional<R>> liftNullable(NullableFunction<T, R> function) {
    return input -> Either.liftNullable(function).apply(input)
            .mapFailure(ParseFailure::exception);
  }

  static <T, R> Parser<T, R> liftPure(Function<T, R> function) {
    return input -> Either.success(function.apply(input));
  }

  static <T, R> Parser<Optional<T>, Optional<R>> liftOptional(Parser<T, R> parser) {
    return input -> input.isPresent()
            ? parser.parse(input.get()).map(Optional::of)
            : Either.success(Optional.empty());
  }

  // combinators

  // Applicative
  static <T, A, B, C> Parser<T, C> merge(Parser<T, A> left, Parser<T, B> right, BiFunction<A, B, C> merger) {
    return input -> Either.merge(left.parse(input), right.parse(input), merger, ParseFailure::merge);
  }
}

abstract class ParserComposition<T, R, F> {

  public final Parser<T, R> build(F f) {
    return build()
            .map(cont -> cont.apply(f))
            .tagged(getInputType().getSimpleName());
  }

  protected abstract Parser<T, Function<F, R>> build();

  protected abstract Class<T> getInputType();

  protected abstract Class<R> getResultType();

  public <A, B> ParserComposition<T, R, Function<B, F>> required(Getter<T, A> getter, Parser<A, B> parser) {
    return with(Parser.liftNullable(getter)
            .andThen(Parser.nonEmpty())
            .andThen(parser)
            .tagged(getter.getInfo().getPropertyName()));
  }

  public <A> ParserComposition<T, R, Function<A, F>> required(Getter<T, A> getter) {
    return required(getter, Parser.id());
  }

  public <A, B> ParserComposition<T, R, Function<Optional<B>, F>> optional(Getter<T, A> getter, Parser<A, B> parser) {
    return with(Parser.liftNullable(getter)
            .andThen(Parser.liftOptional(parser))
            .tagged(getter.getInfo().getPropertyName()));
  }

  public <A> ParserComposition<T, R, Function<Optional<A>, F>> optional(Getter<T, A> getter) {
    return optional(getter, Parser.id());
  }

  public <A> ParserComposition<T, R, Function<A, F>> with(Parser<T, A> field) {
    return new ParserComposition<T, R, Function<A, F>>() {
      @Override
      protected Parser<T, Function<Function<A, F>, R>> build() {
        Parser<T, Function<F, R>> parent = ParserComposition.this.build();
        return Parser.merge(field, parent, (a, fr) -> af -> fr.apply(af.apply(a)));
      }

      @Override
      protected Class<T> getInputType() {
        return ParserComposition.this.getInputType();
      }

      @Override
      protected Class<R> getResultType() {
        return ParserComposition.this.getResultType();
      }
    };
  }

  public static <T, R> ParserComposition<T, R, R> of(Class<T> input, Class<R> result) {
    return new ParserComposition<T, R, R>() {
      @Override
      protected Parser<T, Function<R, R>> build() {
        return Parser.returning(r -> r);
      }

      @Override
      protected Class<T> getInputType() {
        return input;
      }

      @Override
      protected Class<R> getResultType() {
        return result;
      }
    };
  }
}

// https://stackoverflow.com/a/21879031
@FunctionalInterface
interface Getter<T, R> extends NullableFunction<T, R>, Serializable {

  default Info getInfo() {
    for (Class<?> cl = getClass(); cl != null; cl = cl.getSuperclass()) {
      try {
        Method m = cl.getDeclaredMethod("writeReplace");
        m.setAccessible(true);
        Object replacement = m.invoke(this);
        if(!(replacement instanceof SerializedLambda))
          break;// custom interface implementation
        SerializedLambda l = (SerializedLambda) replacement;
        return new Info(l.getImplClass(), l.getImplMethodName());
      }
      catch (NoSuchMethodException e) {}
      catch (IllegalAccessException | InvocationTargetException e) {
        break;
      }
    }
    throw new RuntimeException("not a method reference");
  }

  @Value
  class Info {
    String implClass;
    String implMethodName;

    String toReferenceName() {
      return implClass + "::" + implMethodName;
    }

    String getPropertyName() {
      if (implMethodName.startsWith("get")) {
        return implMethodName.substring("get".length());
      } else {
        return implMethodName;
      }
    }
  }
}

@Value
class ThriftThing {
  @Nullable String uuid;
  @Nullable String timestamp;
  @Nullable String currencyCode;
  @Nullable ThriftNested nested;
}

@Value
class ThriftNested {
  @Nullable String name;
}

@Value
class ProperThing {
  UUID uuid;
  Instant timestamp;
  Optional<Currency> currency;
  ProperNested nested;
}

@Value
class ProperNested {
  String name;
}

public class Program {

  public static void main(String[] args) {

    ThriftThing bad1 = new ThriftThing("123", null, "111", null);
    ThriftThing bad2 = new ThriftThing("123", null, "111", new ThriftNested(null));
    ThriftThing good = new ThriftThing("1-1-1-1-1", "2020-05-20T10:23:31Z", null, new ThriftNested("hello"));

    Parser<String, UUID> uuidParser = Parser.lift(UUID::fromString);
    Parser<String, Instant> instantParser = Parser.lift(Instant::parse);
    Parser<String, Currency> currencyParser = Parser.lift(Currency::getInstance);

    Parser<ThriftNested, ProperNested> nestedParser =
            ParserComposition.of(ThriftNested.class, ProperNested.class)
            .required(ThriftNested::getName)
            .build(reversed(curry(ProperNested::new)));

    Parser<ThriftThing, ProperThing> thingParser =
            ParserComposition.of(ThriftThing.class, ProperThing.class)
            .required(ThriftThing::getUuid, uuidParser)
            .required(ThriftThing::getTimestamp, instantParser)
            .optional(ThriftThing::getCurrencyCode, currencyParser)
            .required(ThriftThing::getNested, nestedParser)
            .build(reversed(curry(ProperThing::new)));

    System.out.println(thingParser.parse(bad1));
    System.out.println(thingParser.parse(bad2));
    System.out.println(thingParser.parse(good));

    /*
Either.failure(ParseFailure.tag("ThriftThing", ParseFailure.merge(ParseFailure.tag("Nested", ParseFailure.message("value is null")), ParseFailure.merge(ParseFailure.tag("CurrencyCode", ParseFailure.exception(type=java.lang.IllegalArgumentException)), ParseFailure.merge(ParseFailure.tag("Timestamp", ParseFailure.message("value is null")), ParseFailure.tag("Uuid", ParseFailure.exception(type=java.lang.IllegalArgumentException, message="Invalid UUID string: 123")))))))
Either.failure(ParseFailure.tag("ThriftThing", ParseFailure.merge(ParseFailure.tag("Nested", ParseFailure.tag("ThriftNested", ParseFailure.tag("Name", ParseFailure.message("value is null")))), ParseFailure.merge(ParseFailure.tag("CurrencyCode", ParseFailure.exception(type=java.lang.IllegalArgumentException)), ParseFailure.merge(ParseFailure.tag("Timestamp", ParseFailure.message("value is null")), ParseFailure.tag("Uuid", ParseFailure.exception(type=java.lang.IllegalArgumentException, message="Invalid UUID string: 123")))))))
Either.success(ProperThing(uuid=00000001-0001-0001-0001-000000000001, timestamp=2020-05-20T10:23:31Z, currency=Optional.empty, nested=ProperNested(name=hello)))
    */
  }

  static <A, R> Fn1<A, R> curry(Fn1<A, R> f) {
    return f;
  }

  static <A, B, R> Fn2<A, B, R> curry(Fn2<A, B, R> f) {
    return f;
  }

  static <A, B, C, R> Fn3<A, B, C, R> curry(Fn3<A, B, C, R> f) {
    return f;
  }

  static <A, B, C, D, R> Fn4<A, B, C, D, R> curry(Fn4<A, B, C, D, R> f) {
    return f;
  }

  static <A, R> Fn1<A, R> reversed(Fn1<A, R> f) {
    return f.rev1();
  }

  static <A, B, R> Fn2<B, A, R> reversed(Fn2<A, B, R> f) {
    return f.rev2();
  }

  static <A, B, C, R> Fn3<C, B, A, R> reversed(Fn3<A, B, C, R> f) {
    return f.rev3();
  }

  static <A, B, C, D, R> Fn4<D, C, B, A, R> reversed(Fn4<A, B, C, D, R> f) {
    return f.rev4();
  }
}

@FunctionalInterface
interface Fn1<A, R> extends Function<A, R> {
  @Override
  R apply(A a);

  default Fn1<A, R> rev1() {
    return this;
  }
}

@FunctionalInterface
interface Fn2<A, B, R> extends Fn1<A, Function<B, R>> {
  R apply(A a, B b);

  @Override
  default Function<B, R> apply(A a) {
    return b -> apply(a, b);
  }

  default Fn2<B, A, R> rev2() {
    return (b, a) -> apply(a, b);
  }
}

@FunctionalInterface
interface Fn3<A, B, C, R> extends Fn2<A, B, Function<C, R>> {
  R apply(A a, B b, C c);

  @Override
  default Function<C, R> apply(A a, B b) {
    return c -> apply(a, b, c);
  }

  default Fn3<C, B, A, R> rev3() {
    return (c, b, a) -> apply(a, b, c);
  }
}

@FunctionalInterface
interface Fn4<A, B, C, D, R> extends Fn3<A, B, C, Function<D, R>> {
  R apply(A a, B b, C c, D d);

  @Override
  default Function<D, R> apply(A a, B b, C c) {
    return d -> apply(a, b, c, d);
  }

  default Fn4<D, C, B, A, R> rev4() {
    return (d, c, b, a) -> apply(a, b, c, d);
  }
}
	package com.uber.playground;

	import lombok.NonNull;
	import lombok.SneakyThrows;
	import lombok.Value;
	import org.jetbrains.annotations.Nullable;

	import java.io.Serializable;
	import java.lang.invoke.SerializedLambda;
	import java.lang.reflect.InvocationTargetException;
	import java.lang.reflect.Method;
	import java.time.Instant;
	import java.util.*;
	import java.util.function.BiFunction;
	import java.util.function.BinaryOperator;
	import java.util.function.Function;
	import java.util.function.Supplier;


	@Value
	class Unit {}

	@FunctionalInterface
	interface NullableFunction<T, R> {
	@Nullable R apply(T t);
	}

	abstract class Either<T, F> {

	private Either() {}

	public abstract <R> R match(Function<T, R> success, Function<F, R> failure);

	// semantic

	public <E extends Throwable> T orElseThrow(Function<F, E> handler) throws E {
	return match(Function.identity(), new Function<F, T>() {
	@SneakyThrows
	@Override
	public T apply(F f) {
	throw handler.apply(f);
	}
	});
	}

	// structural

	// Functor
	public <U> Either<U, F> map(Function<T, U> mapper) {
	return match(t -> success(mapper.apply(t)), Either::failure);
	}

	public <G> Either<T, G> mapFailure(Function<F, G> mapper) {
	return match(Either::success, f -> failure(mapper.apply(f)));
	}

	// Monad
	public <U> Either<U, F> flatMap(Function<T, Either<U, F>> callback) {
	return match(callback, Either::failure);
	}

	// constructors

	public static <T, F> Either<T, F> success(T t) {
	Objects.requireNonNull(t);
	return new Success<>(t);
	}

	public static <T, F> Either<T, F> failure(F f) {
	Objects.requireNonNull(f);
	return new Failure<>(f);
	}

	public static <T> Either<T, Unit> fromOptional(Optional<T> opt) {
	if (opt.isPresent()) {
	return success(opt.get());
	} else {
	return failure(new Unit());
	}
	}

	public static <T> Either<T, Throwable> run(Supplier<T> supplier) {
	Objects.requireNonNull(supplier);
	T value;
	try {
	value = supplier.get();
	} catch (Throwable t) {
	return failure(t);
	}
	return success(value);
	}

	public static <A, B> Function<A, Either<B, Throwable>> lift(Function<A, B> func) {
	return a -> run(() -> func.apply(a));
	}

	public static <A, B> Function<A, Either<Optional<B>, Throwable>> liftNullable(NullableFunction<A, B> func) {
	return a -> run(() -> Optional.ofNullable(func.apply(a)));
	}

	// combinators

	public static <F, A, B, C> Either<C, F> merge(Either<A, F> eitherA, Either<B, F> eitherB, BiFunction<A, B, C> valueMerge, BinaryOperator<F> failureMerge) {
	return eitherA.match(
	a -> eitherB.match(b -> Either.success(valueMerge.apply(a, b)), Either::failure),
	f1 -> eitherB.match(b -> Either.failure(f1), f2 -> Either.failure(failureMerge.apply(f1, f2))));
	}

	// data

	@Value
	private static class Success<T, F> extends Either<T, F> {

	@NonNull T t;

	@Override
	public <R> R match(Function<T, R> success, Function<F, R> failure) {
	return success.apply(t);
	}

	@Override
	public String toString() {
	return "Either.success(" + t + ")";
	}
	}

	@Value
	private static class Failure<T, F> extends Either<T, F> {

	@NonNull F f;

	@Override
	public <R> R match(Function<T, R> success, Function<F, R> failure) {
	return failure.apply(f);
	}

	@Override
	public String toString() {
	return "Either.failure(" + f + ")";
	}
	}
	}

	abstract class ParseFailure {

	private ParseFailure() {}

	// constructors

	public static ParseFailure message(String message) {
	return new Message(message);
	}

	public static ParseFailure exception(Throwable t) {
	return new Exception(t);
	}

	// combinators

	public static ParseFailure tag(String tag, ParseFailure sub) {
	return new Tag(tag, sub);
	}

	public static ParseFailure merge(ParseFailure left, ParseFailure right) {
	return new Merge(left, right);
	}

	// data

	@Value
	public static class Message extends ParseFailure {
	String message;

	@Override
	public String toString() {
	return "ParseFailure.message(\"" + message + "\")";
	}
	}

	@Value
	public static class Exception extends ParseFailure {
	Throwable throwable;

	@Override
	public String toString() {
	String s = "ParseFailure.exception(type=" + throwable.getClass().getName();
	if (throwable.getMessage() != null) {
	s += ", message=\"" + throwable.getMessage() + '"';
	}
	return s + ")";
	}
	}

	@Value
	public static class Tag extends ParseFailure {
	String tag;
	ParseFailure sub;

	@Override
	public String toString() {
	return "ParseFailure.tag(\"" + tag + "\", " + sub + ")";
	}
	}

	@Value
	public static class Merge extends ParseFailure {
	ParseFailure left, right;

	@Override
	public String toString() {
	return "ParseFailure.merge(" + left + ", " + right + ")";
	}
	}
	}

	class ParseException extends RuntimeException {
	public ParseException(ParseFailure failure) {
	super(failure.toString());
	}
	}

	interface Parser<T, R> {

	Either<R, ParseFailure> parse(T input);

	default R parseStrict(T input) throws ParseException {
	return parse(input).orElseThrow(ParseException::new);
	}

	// semantic

	default Parser<T, R> tagged(String tag) {
	return input -> parse(input).mapFailure(f -> ParseFailure.tag(tag, f));
	}

	// structural

	// Functor
	default <S> Parser<T, S> map(Function<R, S> mapper) {
	return andThen(lift(mapper));
	}

	// Category (composition)
	default <S> Parser<T, S> andThen(Parser<R, S> next) {
	return input -> parse(input).flatMap(next::parse);
	}

	// Alternative
	default Parser<T, R> recoverWith(Parser<T, R> fallback) {
	return input -> parse(input)
	.match(Either::success, $ -> fallback.parse(input));
	}

	// constructors

	static <T> Parser<T, T> id() {
	return input -> Either.success(input);
	}

	// Pure
	static <T, R> Parser<T, R> returning(R r) {
	return input -> Either.success(r);
	}

	static <T, R> Parser<T, R> fail() {
	return input -> Either.failure(ParseFailure.message("fail"));
	}

	static <T> Parser<Optional<T>, T> nonEmpty() {
	return input -> Either.fromOptional(input)
	.mapFailure(unit -> ParseFailure.message("value is null"));
	}

	static <T, R> Parser<T, R> lift(Function<T, R> function) {
	return input -> Either.lift(function).apply(input)
	.mapFailure(ParseFailure::exception);
	}

	static <T, R> Parser<T, Optional<R>> liftNullable(NullableFunction<T, R> function) {
	return input -> Either.liftNullable(function).apply(input)
	.mapFailure(ParseFailure::exception);
	}

	static <T, R> Parser<T, R> liftPure(Function<T, R> function) {
	return input -> Either.success(function.apply(input));
	}

	static <T, R> Parser<Optional<T>, Optional<R>> liftOptional(Parser<T, R> parser) {
	return input -> input.isPresent()
	? parser.parse(input.get()).map(Optional::of)
	: Either.success(Optional.empty());
	}

	// combinators

	// Applicative
	static <T, A, B, C> Parser<T, C> merge(Parser<T, A> left, Parser<T, B> right, BiFunction<A, B, C> merger) {
	return input -> Either.merge(left.parse(input), right.parse(input), merger, ParseFailure::merge);
	}
	}

	abstract class ParserComposition<T, R, F> {

	public final Parser<T, R> build(F f) {
	return build()
	.map(cont -> cont.apply(f))
	.tagged(getInputType().getSimpleName());
	}

	protected abstract Parser<T, Function<F, R>> build();

	protected abstract Class<T> getInputType();

	protected abstract Class<R> getResultType();

	public <A, B> ParserComposition<T, R, Function<B, F>> required(Getter<T, A> getter, Parser<A, B> parser) {
	return with(Parser.liftNullable(getter)
	.andThen(Parser.nonEmpty())
	.andThen(parser)
	.tagged(getter.getInfo().getPropertyName()));
	}

	public <A> ParserComposition<T, R, Function<A, F>> required(Getter<T, A> getter) {
	return required(getter, Parser.id());
	}

	public <A, B> ParserComposition<T, R, Function<Optional<B>, F>> optional(Getter<T, A> getter, Parser<A, B> parser) {
	return with(Parser.liftNullable(getter)
	.andThen(Parser.liftOptional(parser))
	.tagged(getter.getInfo().getPropertyName()));
	}

	public <A> ParserComposition<T, R, Function<Optional<A>, F>> optional(Getter<T, A> getter) {
	return optional(getter, Parser.id());
	}

	public <A> ParserComposition<T, R, Function<A, F>> with(Parser<T, A> field) {
	return new ParserComposition<T, R, Function<A, F>>() {
	@Override
	protected Parser<T, Function<Function<A, F>, R>> build() {
	Parser<T, Function<F, R>> parent = ParserComposition.this.build();
	return Parser.merge(field, parent, (a, fr) -> af -> fr.apply(af.apply(a)));
	}

	@Override
	protected Class<T> getInputType() {
	return ParserComposition.this.getInputType();
	}

	@Override
	protected Class<R> getResultType() {
	return ParserComposition.this.getResultType();
	}
	};
	}

	public static <T, R> ParserComposition<T, R, R> of(Class<T> input, Class<R> result) {
	return new ParserComposition<T, R, R>() {
	@Override
	protected Parser<T, Function<R, R>> build() {
	return Parser.returning(r -> r);
	}

	@Override
	protected Class<T> getInputType() {
	return input;
	}

	@Override
	protected Class<R> getResultType() {
	return result;
	}
	};
	}
	}

	// https://stackoverflow.com/a/21879031
	@FunctionalInterface
	interface Getter<T, R> extends NullableFunction<T, R>, Serializable {

	default Info getInfo() {
	for (Class<?> cl = getClass(); cl != null; cl = cl.getSuperclass()) {
	try {
	Method m = cl.getDeclaredMethod("writeReplace");
	m.setAccessible(true);
	Object replacement = m.invoke(this);
	if(!(replacement instanceof SerializedLambda))
	break;// custom interface implementation
	SerializedLambda l = (SerializedLambda) replacement;
	return new Info(l.getImplClass(), l.getImplMethodName());
	}
	catch (NoSuchMethodException e) {}
	catch (IllegalAccessException \| InvocationTargetException e) {
	break;
	}
	}
	throw new RuntimeException("not a method reference");
	}

	@Value
	class Info {
	String implClass;
	String implMethodName;

	String toReferenceName() {
	return implClass + "::" + implMethodName;
	}

	String getPropertyName() {
	if (implMethodName.startsWith("get")) {
	return implMethodName.substring("get".length());
	} else {
	return implMethodName;
	}
	}
	}
	}

	@Value
	class ThriftThing {
	@Nullable String uuid;
	@Nullable String timestamp;
	@Nullable String currencyCode;
	@Nullable ThriftNested nested;
	}

	@Value
	class ThriftNested {
	@Nullable String name;
	}

	@Value
	class ProperThing {
	UUID uuid;
	Instant timestamp;
	Optional<Currency> currency;
	ProperNested nested;
	}

	@Value
	class ProperNested {
	String name;
	}

	public class Program {

	public static void main(String[] args) {

	ThriftThing bad1 = new ThriftThing("123", null, "111", null);
	ThriftThing bad2 = new ThriftThing("123", null, "111", new ThriftNested(null));
	ThriftThing good = new ThriftThing("1-1-1-1-1", "2020-05-20T10:23:31Z", null, new ThriftNested("hello"));

	Parser<String, UUID> uuidParser = Parser.lift(UUID::fromString);
	Parser<String, Instant> instantParser = Parser.lift(Instant::parse);
	Parser<String, Currency> currencyParser = Parser.lift(Currency::getInstance);

	Parser<ThriftNested, ProperNested> nestedParser =
	ParserComposition.of(ThriftNested.class, ProperNested.class)
	.required(ThriftNested::getName)
	.build(reversed(curry(ProperNested::new)));

	Parser<ThriftThing, ProperThing> thingParser =
	ParserComposition.of(ThriftThing.class, ProperThing.class)
	.required(ThriftThing::getUuid, uuidParser)
	.required(ThriftThing::getTimestamp, instantParser)
	.optional(ThriftThing::getCurrencyCode, currencyParser)
	.required(ThriftThing::getNested, nestedParser)
	.build(reversed(curry(ProperThing::new)));

	System.out.println(thingParser.parse(bad1));
	System.out.println(thingParser.parse(bad2));
	System.out.println(thingParser.parse(good));

	/*
	Either.failure(ParseFailure.tag("ThriftThing", ParseFailure.merge(ParseFailure.tag("Nested", ParseFailure.message("value is null")), ParseFailure.merge(ParseFailure.tag("CurrencyCode", ParseFailure.exception(type=java.lang.IllegalArgumentException)), ParseFailure.merge(ParseFailure.tag("Timestamp", ParseFailure.message("value is null")), ParseFailure.tag("Uuid", ParseFailure.exception(type=java.lang.IllegalArgumentException, message="Invalid UUID string: 123")))))))
	Either.failure(ParseFailure.tag("ThriftThing", ParseFailure.merge(ParseFailure.tag("Nested", ParseFailure.tag("ThriftNested", ParseFailure.tag("Name", ParseFailure.message("value is null")))), ParseFailure.merge(ParseFailure.tag("CurrencyCode", ParseFailure.exception(type=java.lang.IllegalArgumentException)), ParseFailure.merge(ParseFailure.tag("Timestamp", ParseFailure.message("value is null")), ParseFailure.tag("Uuid", ParseFailure.exception(type=java.lang.IllegalArgumentException, message="Invalid UUID string: 123")))))))
	Either.success(ProperThing(uuid=00000001-0001-0001-0001-000000000001, timestamp=2020-05-20T10:23:31Z, currency=Optional.empty, nested=ProperNested(name=hello)))
	*/
	}

	static <A, R> Fn1<A, R> curry(Fn1<A, R> f) {
	return f;
	}

	static <A, B, R> Fn2<A, B, R> curry(Fn2<A, B, R> f) {
	return f;
	}

	static <A, B, C, R> Fn3<A, B, C, R> curry(Fn3<A, B, C, R> f) {
	return f;
	}

	static <A, B, C, D, R> Fn4<A, B, C, D, R> curry(Fn4<A, B, C, D, R> f) {
	return f;
	}

	static <A, R> Fn1<A, R> reversed(Fn1<A, R> f) {
	return f.rev1();
	}

	static <A, B, R> Fn2<B, A, R> reversed(Fn2<A, B, R> f) {
	return f.rev2();
	}

	static <A, B, C, R> Fn3<C, B, A, R> reversed(Fn3<A, B, C, R> f) {
	return f.rev3();
	}

	static <A, B, C, D, R> Fn4<D, C, B, A, R> reversed(Fn4<A, B, C, D, R> f) {
	return f.rev4();
	}
	}

	@FunctionalInterface
	interface Fn1<A, R> extends Function<A, R> {
	@Override
	R apply(A a);

	default Fn1<A, R> rev1() {
	return this;
	}
	}

	@FunctionalInterface
	interface Fn2<A, B, R> extends Fn1<A, Function<B, R>> {
	R apply(A a, B b);

	@Override
	default Function<B, R> apply(A a) {
	return b -> apply(a, b);
	}

	default Fn2<B, A, R> rev2() {
	return (b, a) -> apply(a, b);
	}
	}

	@FunctionalInterface
	interface Fn3<A, B, C, R> extends Fn2<A, B, Function<C, R>> {
	R apply(A a, B b, C c);

	@Override
	default Function<C, R> apply(A a, B b) {
	return c -> apply(a, b, c);
	}

	default Fn3<C, B, A, R> rev3() {
	return (c, b, a) -> apply(a, b, c);
	}
	}

	@FunctionalInterface
	interface Fn4<A, B, C, D, R> extends Fn3<A, B, C, Function<D, R>> {
	R apply(A a, B b, C c, D d);

	@Override
	default Function<D, R> apply(A a, B b, C c) {
	return d -> apply(a, b, c, d);
	}

	default Fn4<D, C, B, A, R> rev4() {
	return (d, c, b, a) -> apply(a, b, c, d);
	}
	}