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Functional Java is an open source library that supports closures for the Java programming language

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package fj;

/**
 * A product-4.
 *
 * @version %build.number%
 */
public abstract class P4 {
  /**
   * Access the first element of the product.
   *
   * @return The first element of the product.
   */
  public abstract A _1();

  /**
   * Access the second element of the product.
   *
   * @return The second element of the product.
   */
  public abstract B _2();

  /**
   * Access the third element of the product.
   *
   * @return The third element of the product.
   */
  public abstract C _3();

  /**
   * Access the fourth element of the product.
   *
   * @return The fourth element of the product.
   */
  public abstract D _4();

  /**
   * Map the first element of the product.
   *
   * @param f The function to map with.
   * @return A product with the given function applied.
   */
  public final  P4 map1(final F f) {
    return new P4() {
      public X _1() {
        return f.f(P4.this._1());
      }

      public B _2() {
        return P4.this._2();
      }

      public C _3() {
        return P4.this._3();
      }

      public D _4() {
        return P4.this._4();
      }
    };
  }

  /**
   * Map the second element of the product.
   *
   * @param f The function to map with.
   * @return A product with the given function applied.
   */
  public final  P4 map2(final F f) {
    return new P4() {
      public A _1() {
        return P4.this._1();
      }

      public X _2() {
        return f.f(P4.this._2());
      }

      public C _3() {
        return P4.this._3();
      }

      public D _4() {
        return P4.this._4();
      }
    };
  }

  /**
   * Map the third element of the product.
   *
   * @param f The function to map with.
   * @return A product with the given function applied.
   */
  public final  P4 map3(final F f) {
    return new P4() {
      public A _1() {
        return P4.this._1();
      }

      public B _2() {
        return P4.this._2();
      }

      public X _3() {
        return f.f(P4.this._3());
      }

      public D _4() {
        return P4.this._4();
      }
    };
  }

  /**
   * Map the fourth element of the product.
   *
   * @param f The function to map with.
   * @return A product with the given function applied.
   */
  public final  P4 map4(final F f) {
    return new P4() {
      public A _1() {
        return P4.this._1();
      }

      public B _2() {
        return P4.this._2();
      }

      public C _3() {
        return P4.this._3();
      }

      public X _4() {
        return f.f(P4.this._4());
      }
    };
  }

  /**
   * Returns the 1-product projection over the first element.
   *
   * @return the 1-product projection over the first element.
   */
  public final P1 _1_() {
    return F1Functions.lazy(P4.__1()).f(this);
  }

  /**
   * Returns the 1-product projection over the second element.
   *
   * @return the 1-product projection over the second element.
   */
  public final P1 _2_() {
    return F1Functions.lazy(P4.__2()).f(this);
  }

  /**
   * Returns the 1-product projection over the third element.
   *
   * @return the 1-product projection over the third element.
   */
  public final P1 _3_() {
    return F1Functions.lazy(P4.__3()).f(this);
  }

  /**
   * Returns the 1-product projection over the fourth element.
   *
   * @return the 1-product projection over the fourth element.
   */
  public final P1 _4_() {
    return F1Functions.lazy(P4.__4()).f(this);
  }

  /**
   * Provides a memoising P4 that remembers its values.
   *
   * @return A P4 that calls this P4 once for any given element and remembers the value for subsequent calls.
   */
  public final P4 memo() {
      P4 self = this;
    return new P4() {
      private final P1 a = P1.memo(u -> self._1());
      private final P1 b = P1.memo(u -> self._2());
      private final P1 c = P1.memo(u -> self._3());
      private final P1 d = P1.memo(u -> self._4());

      public A _1() {
        return a._1();
      }

      public B _2() {
        return b._1();
      }

      public C _3() {
        return c._1();
      }

      public D _4() {
        return d._1();
      }
    };
  }


  /**
   * Returns a function that returns the first element of a product.
   *
   * @return A function that returns the first element of a product.
   */
  public static  F, A> __1() {
    return P4::_1;
  }

  /**
   * Returns a function that returns the second element of a product.
   *
   * @return A function that returns the second element of a product.
   */
  public static  F, B> __2() {
    return P4::_2;
  }

  /**
   * Returns a function that returns the third element of a product.
   *
   * @return A function that returns the third element of a product.
   */
  public static  F, C> __3() {
    return P4::_3;
  }

  /**
   * Returns a function that returns the fourth element of a product.
   *
   * @return A function that returns the fourth element of a product.
   */
  public static  F, D> __4() {
    return P4::_4;
  }

  @Override
	public final String toString() {
		return Show.p4Show(Show.anyShow(), Show.anyShow(), Show.anyShow(), Show.anyShow()).showS(this);
	}

  @Override
  public final boolean equals(Object other) {
    return Equal.equals0(P4.class, this, other,
        () -> Equal.p4Equal(Equal.anyEqual(), Equal.anyEqual(), Equal.anyEqual(), Equal.anyEqual()));
  }

  @Override
  public final int hashCode() {
    return Hash.p4Hash(Hash.anyHash(), Hash.anyHash(), Hash.anyHash(), Hash.anyHash()).hash(this);
  }

}