Operator Methods¶

This README describes support in the Chapel compiler for defining operators as methods on types. These features are still in the process of being improved. This README is intended to cover the expected behavior, but the expected behavior may change as experience with the feature is gained.

Defining Operators¶

Operators may be overloaded to support new behavior on one or more types using the operator keyword. Such overloads may be defined as standalone functions, e.g.

operator +(lhs: t1, rhs: t2) { ... }

or as methods defined on a particular type, e.g.

record R {
  var intField: int;

  operator +(lhs: R, rhs: R) {
    return new R(lhs.intField + rhs.intField);
  }
}

This README will focus on operator methods.

Operator methods are equivalent to type methods - the type on which the operator is declared causes the operator to have method-like visibility for that type, and the this receiver is a type.

Operator methods may be defined as primary, secondary, or tertiary methods. For example, the following code defines a primary + operator and a secondary - operator on a record:

record R {
  var intField: int;

  operator +(lhs: R, rhs: R) {
    return new R(lhs.intField + rhs.intField);
  }
}

operator R.-(lhs: R, rhs: R) {
  return new R(lhs.intField - rhs.intField);
}

The method receiver for an operator method will be used to determine when that operator is visible. This behavior is most useful when the method receiver matches the type of at least one of the other arguments to the operator. However, it is possible to define an operator method where the receiver type does not match the type for any other argument.

Operator methods can be defined on concrete types, generic types, or particular instantiations of generic types.

Operator Methods and Classes¶

Operators that are defined on classes that are inherited from can run into known issues. To avoid these issues, define the class arguments to operator methods with borrowed, e.g.:

class Parent {
  var parentField: int;

  operator <(lhs: borrowed Parent, rhs: borrowed Parent) {
    return lhs.x < rhs.x;
  }
}

class Child: Parent {
  var childField: bool;
}

Calling Operator Methods¶

A call to an operator - such as a + b which calls + - may resolve to any visible operator method or standalone operator function.

Operator Method Visibility¶

Primary and secondary operator methods have similar visibility to other primary and secondary methods. In both cases, these methods can be viewed as part of the type and will be available along with the type. For regular methods, the compiler searches for the method using the receiver’s type (e.g. R in myR.method() supposing myR has type R) definition point as well as any type definition points for parent classes. However, operator invocations (such as a + b) don’t have a method receiver in the same way. Instead, the compiler uses the types of all the operator’s arguments to find operator methods defined along with the type.

As with tertiary methods, import and use statements can be used to control the visibility of tertiary operator methods.

Determining Operator Candidate Functions¶

When determining if an operator method or function is an appropriate candidate, only the arguments to the operator method or function will be considered. The presence or absence of a type receiver is only used to determine visibility, and it will not eliminate an overload from candidate consideration.

Determining More Specific Operators¶

When determining which operator method or function is more specific, only the arguments to the operator method or function will be considered. The presence or absence of a type receiver is only used to determine visibility and does not impact the process of determining the best function (see Determining Best Functions).