When looking at the sourcecode for a tslint rule, I came across the following statement:

if (node.parent!.kind === ts.SyntaxKind.ObjectLiteralExpression) {

Notice the ! operator after node.parent. Interesting!

I first tried compiling the file locally with my currently installed version of TS (1.5.3). The resulting error pointed to the exact location of the bang:

$ tsc --noImplicitAny memberAccessRule.ts 
noPublicModifierRule.ts(57,24): error TS1005: ')' expected.

Next I upgraded to the latest TS (2.1.6), which compiled it without issue. So it seems to be feature of TS 2.x. But the transpilation ignored the bang completely, resulting in the following JS:

if (node.parent.kind === ts.SyntaxKind.ObjectLiteralExpression) {

My Google fu has thus far failed me.

What is TS's exclamation mark operator, and how does it work?


That's the non-null assertion operator. It is a way to tell the compiler "this expression cannot be null or undefined here, so don't complain about the possibility of it being null or undefined." Sometimes the type checker is unable to make that determination itself.

It is explained here:

A new ! post-fix 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.

I find the use of the term "assert" a bit misleading in that explanation. It is "assert" in the sense that the developer is asserting it, not in the sense that a test is going to be performed. The last line indeed indicates that it results in no JavaScript code being emitted.

  • 64
    Good call on 'assert' ambiguity. – Estus Flask Feb 16 '17 at 12:39
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    Good explanation. I find it a good practice to do a console.assert() on the variable in question before appending a ! after it. Because add ! is telling the compiler to ignore the null check, it compiles to noop in javascript. So if you are not sure that the variable is non-null, then better do an explicit assert check. – Jayesh Aug 28 '17 at 19:35
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    As a motivating example: using the new ES Map type with code like dict.has(key) ? dict.get(key) : 'default'; the TS compiler can't infer that the get call never returns null/undefined. dict.has(key) ? dict.get(key)! : 'default'; narrows the type correctly. – kitsu.eb May 30 '18 at 22:58

Louis' answer is great, but I thought I would try to sum it up succinctly:

The bang operator tells the compiler to temporarily relax the "not null" constraint that it might otherwise demand. It says to the compiler: "As the developer, I know better than you that this variable cannot be null right now".

  • 3
    But it is null at that point. – Mukus Jun 26 '18 at 5:04
  • 62
    Then, as the developer, you've messed up. – Mike Chamberlain Jun 26 '18 at 8:43
  • Or, as the compiler, it has messed up. If the constructor does not initialize a property but a lifecycle hook does it and the compiler does not recognize this. – Mukus Jun 26 '18 at 23:50
  • 16
    This is not the responsibility of the TS compiler. Unlike some other languages (eg. C#), JS (and therefore TS) does not demand that variables are initialized before use. Or, to look at it another way, in JS all variables declared with var or let are implicitly initialized to undefined. Further, class instance properties can be declared as such, so class C { constructor() { this.myVar = undefined; } } is perfectly legal. Finally, lifecycle hooks are framework dependent; for instance Angular and React implement them differently. So the TS compiler cannot be expected to reason about them. – Mike Chamberlain Jul 3 '18 at 14:22

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