Triple-Slash Directives
Triple-slash directives are single-line comments containing a single XML tag. The contents of the comment are used as compiler directives.
Triple-slash directives are only valid at the top of their containing file. A triple-slash directive can only be preceded by single or multi-line comments, including other triple-slash directives. If they are encountered following a statement or a declaration they are treated as regular single-line comments, and hold no special meaning.
/// <reference path="..." />
The /// <reference path="..." />
directive is the most common of this group. It serves as a declaration of dependency between files.
Triple-slash references instruct the compiler to include additional files in the compilation process.
They also serve as a method to order the output when using --out
or --outFile
. Files are emitted to the output file location in the same order as the input after preprocessing pass.
Preprocessing input files
The compiler performs a preprocessing pass on input files to resolve all triple-slash reference directives. During this process, additional files are added to the compilation.
The process starts with a set of root files; these are the file names specified on the command-line or in the "files"
list in the tsconfig.json
file. These root files are preprocessed in the same order they are specified. Before a file is added to the list, all triple-slash references in it are processed, and their targets included. Triple-slash references are resolved in a depth-first manner, in the order they have been seen in the file.
A triple-slash reference path is resolved relative to the containing file, if a relative path is used.
Errors
It is an error to reference a file that does not exist. It is an error for a file to have a triple-slash reference to itself.
Using --noResolve
If the compiler flag --noResolve
is specified, triple-slash references are ignored; they neither result in adding new files, nor change the order of the files provided.
/// <reference types="..." />
Similar to a /// <reference path="..." />
directive, which serves as a declaration of dependency, a /// <reference types="..." />
directive declares a dependency on a package.
The process of resolving these package names is similar to the process of resolving module names in an import
statement. An easy way to think of triple-slash-reference-types directives are as an import
for declaration packages.
For example, including /// <reference types="node" />
in a declaration file declares that this file uses names declared in @types/node/index.d.ts
; and thus, this package needs to be included in the compilation along with the declaration file.
Use these directives only when you’re authoring a d.ts
file by hand.
For declaration files generated during compilation, the compiler will automatically add /// <reference types="..." />
for you; A /// <reference types="..." />
in a generated declaration file is added if and only if the resulting file uses any declarations from the referenced package.
For declaring a dependency on an @types
package in a .ts
file, use --types
on the command line or in your tsconfig.json
instead. See using @types
, typeRoots
and types
in tsconfig.json
files for more details.
/// <reference lib="..." />
This directive allows a file to explicitly include an existing built-in lib file.
Built-in lib files are referenced in the same fashion as the "lib"
compiler option in tsconfig.json (e.g. use lib="es2015"
and not lib="lib.es2015.d.ts"
, etc.).
For declaration file authors who rely on built-in types, e.g. DOM APIs or built-in JS run-time constructors like Symbol
or Iterable
, triple-slash-reference lib directives are recommended. Previously these .d.ts files had to add forward/duplicate declarations of such types.
For example, adding /// <reference lib="es2017.string" />
to one of the files in a compilation is equivalent to compiling with --lib es2017.string
.
ts
/// <reference lib="es2017.string" />"foo".padStart(4);
/// <reference no-default-lib="true"/>
This directive marks a file as a default library. You will see this comment at the top of lib.d.ts
and its different variants.
This directive instructs the compiler to not include the default library (i.e. lib.d.ts
) in the compilation. The impact here is similar to passing --noLib
on the command line.
Also note that when passing --skipDefaultLibCheck
, the compiler will only skip checking files with /// <reference no-default-lib="true"/>
.
/// <amd-module />
By default AMD modules are generated anonymous. This can lead to problems when other tools are used to process the resulting modules, such as bundlers (e.g. r.js
).
The amd-module
directive allows passing an optional module name to the compiler:
amdModule.ts
ts
///<amd-module name="NamedModule"/>export class C {}
Will result in assigning the name NamedModule
to the module as part of calling the AMD define
:
amdModule.js
js
define("NamedModule", ["require", "exports"], function (require, exports) {var C = (function () {function C() {}return C;})();exports.C = C;});
/// <amd-dependency />
Note: this directive has been deprecated. Use
import "moduleName";
statements instead.
/// <amd-dependency path="x" />
informs the compiler about a non-TS module dependency that needs to be injected in the resulting module’s require call.
The amd-dependency
directive can also have an optional name
property; this allows passing an optional name for an amd-dependency:
ts
/// <amd-dependency path="legacy/moduleA" name="moduleA"/>declare var moduleA: MyType;moduleA.callStuff();
Generated JS code:
js
define(["require", "exports", "legacy/moduleA"], function (require,exports,moduleA) {moduleA.callStuff();});