This PR implements support for null- and undefined-aware types and strict null checking that can be enabled with a new --strictNullChecks compiler switch. For context on this topic, see discussion in #185.

Null- and undefined-aware types

TypeScript has two special types, Null and Undefined, that have the values null and undefined respectively. Previously it was not possible to explicitly name these types, but null and undefined may now be used as type names regardless of type checking mode.

The type checker previously considered null and undefined assignable to anything. Effectively, null and undefined were valid values of every type and it wasn't possible to specifically exclude them (and therefore not possible to detect erroneous use of them). This changes in the new strict null checking mode.

In strict null checking mode, the null and undefined values are not in the domain of every type and are only assignable to themselves and any (the one exception being that undefined is also assignable to void). So, whereas T and T | undefined are considered synonymous in regular type checking mode (because undefined is considered a subtype of any T), they are different types in strict type checking mode, and only T | undefined permits undefined values. The same is true for the relationship of T to T | null.

// Compiled with --strictNullChecks
let x: number;
let y: number | undefined;
let z: number | null | undefined;
x = 1;  // Ok
y = 1;  // Ok
z = 1;  // Ok
x = undefined;  // Error
y = undefined;  // Ok
z = undefined;  // Ok
x = null;  // Error
y = null;  // Error
z = null;  // Ok
x = y;  // Error
x = z;  // Error
y = x;  // Ok
y = z;  // Error
z = x;  // Ok
z = y;  // Ok

Assigned-before-use checking

In strict null checking mode the compiler requires every reference to a local variable of a type that doesn't include undefined to be preceded by an assignment to that variable in every possible preceding code path.

For example:

// Compiled with --strictNullChecks
let x: number;
let y: number | null;
let z: number | undefined;
x;  // Error, reference not preceded by assignment
y;  // Error, reference not preceded by assignment
z;  // Ok
x = 1;
y = null;
x;  // Ok
y;  // Ok

The compiler checks that variables are definitely assigned by performing control flow based type analysis. For further details on this topic, see #8010.

Optional parameters and properties

Optional parameters and properties automatically have undefined added to their types, even when their type annotations don't specifically include undefined. For example, the following two types are identical:

// Compiled with --strictNullChecks
type T1 = (x?: number) => string;              // x has type number | undefined
type T2 = (x?: number | undefined) => string;  // x has type number | undefined

Non-null and non-undefined type guards

A property access or a function call produces a compile-time error if the object or function is of a type that includes null or undefined. However, type guards are extended to support non-null and non-undefined checks. For example:

// Compiled with --strictNullChecks
declare function f(x: number): string;
let x: number | null | undefined;
if (x) {
    f(x);  // Ok, type of x is number here
}
else {
    f(x);  // Error, type of x is number? here
}
let a = x != null ? f(x) : "";  // Type of a is string
let b = x && f(x);  // Type of b is string?

Non-null and non-undefined type guards may use the ==, !=, ===, or !== operator to compare to null or undefined, as in x != null or x === undefined. The effects on subject variable types accurately reflect JavaScript semantics (e.g. double-equals operators check for both values no matter which one is specified whereas triple-equals only checks for the specified value).

Dotted names in type guards

Type guards previously only supported checking local variables and parameters. Type guards now support checking "dotted names" consisting of a variable or parameter name followed one or more property accesses. For example:

interface Options {
    location?: {
        x?: number;
        y?: number;
    };
}
function foo(options?: Options) {
    if (options && options.location && options.location.x) {
        const x = options.location.x;  // Type of x is number
    }
}

Type guards for dotted names also work with user defined type guard functions and the typeof and instanceof operators and do not depend on the --strictNullChecks compiler option.

A type guard for a dotted name has no effect following an assignment to any part of the dotted name. For example, a type guard for x.y.z will have no effect following an assignment to x, x.y, or x.y.z.

Expression operators

Expression operators permit operand types to include null and/or undefined but always produce values of non-null and non-undefined types.

// Compiled with --strictNullChecks
function sum(a: number | null, b: number | null) {
    return a + b;  // Produces value of type number
}

The && operator adds null and/or undefined to the type of the right operand depending on which are present in the type of the left operand, and the || operator removes both null and undefined from the type of the left operand in the resulting union type.

// Compiled with --strictNullChecks
interface Entity {
    name: string;
}
let x: Entity | null;
let s = x && x.name;  // s is of type string | null
let y = x || { name: "test" };  // y is of type Entity

Type widening

The null and undefined types are not widened to any in strict null checking mode.

let z = null;  // Type of z is null

In regular type checking mode the inferred type of z is any because of widening, but in strict null checking mode the inferred type of z is null (and therefore, absent a type annotation, null is the only possible value for z).

Non-null assertion operator

A new ! postfix expression operator may be used to assert that its operand is non-null and non-undefined in contexts where the type checker is unable to conclude that fact. Specifically, the operation x! produces a value of the type of x with null and undefined excluded. Similar to type assertions of the forms <T>x and x as T, the ! non-null assertion operator is simply removed in the emitted JavaScript code.

// Compiled with --strictNullChecks
function validateEntity(e: Entity?) {
    // Throw exception if e is null or invalid entity
}
function processEntity(e: Entity?) {
    validateEntity(e);
    let s = e!.name;  // Assert that e is non-null and access name
}

Compatibility

The new features are designed such that they can be used in both strict null checking mode and regular type checking mode. In particular, the null and undefined types are automatically erased from union types in regular type checking mode (because they are subtypes of all other types), and the ! non-null assertion expression operator is permitted but has no effect in regular type checking mode. Thus, declaration files that are updated to use null- and undefined-aware types can still be used in regular type checking mode for backwards compatiblity.

In practical terms, strict null checking mode requires that all files in a compilation are null- and undefined-aware. We are contemplating a pragma of some form that can be added to declaration files such that the compiler can verify that all referenced declaration files are null- and undefined-aware in a compilation that uses strict null checking.