The Dart Dev Compiler (DDC) is a fast, modular compiler that generates modern JavaScript (EcmaScript 6). Its primary use today is to support fast, iterative development of Dart web applications for Chrome and other modern browsers.
DDC is built upon Dart's sound type system. It only compiles programs that statically type check (i.e., no strong mode errors). It leverages static type checking to generate simpler, readable, and more idiomatic code with fewer runtime checks. In general, DDC is able to provide stronger type guarantees - i.e., soundness - than traditional Dart checked mode with significantly fewer runtime checks.
With strong mode, DDC is stricter than traditional Dart production mode or checked mode. Running existing Dart code on DDC will generally require fixing both static and runtime type errors.
For example, although the following snippet will run in production or checked mode, it will fail to compile with DDC:
var list = ["hello", "world"]; // Inferred as List<String> in strong mode List<int> list2 = list; // Static type error: incompatible types
On the other hand, the following snippet - which tries to mask the type error via casts - will compile with DDC, but fail with a runtime type error.
var list = ["hello", "world"]; List<Object> list2 = list; // Generics are covariant. No runtime check required. List<int> list3 = list2; // Implicit runtime downcast triggers error.
DDC provides fast, incremental compilation based on standard JavaScript modules. Unlike Dart2JS, DDC does not require an entire Dart application. Instead, it operates modularly: it compiles a set of Dart files into a JavaScript module. A DDC compilation step requires a set of input Dart files and a set of summaries of dependencies. It performs modular type checking as part of this compilation step, and, if the input type checks, it generates a JavaScript module (e.g., ES6, AMD, or CommonJS). The browser (i.e., the JavaScript runtime) loads and links the generated modules when running the application. During development, a compilation step only needs to be rerun if the Dart files or summaries it relies upon change. For most changes, only a very small part of your code will require recompilation. Moreover, modules that are unchanged can be cached in the browser.
DDC attempts to map Dart to idiomatic EcmaScript 6 (ES6) as cleanly as possible, and it relies heavily on static typing to do this. In general, where Dart concepts map directly to ES6, DDC generates code accordingly. For example, Dart classes are mapped to ES6 classes, Dart fields to ES6 properties, Dart getters/setters to ES6 getters/setters, Dart methods to ES6 methods, and so on. In most cases, names are preserved and calling conventions are natural JavaScript ones.
There are some import caveats where Dart concepts do not map directly:
HashMap$(core.String, core.int) produces a class that represents a HashMap from strings to ints). Similarly, generic methods are mapped to factories that, given one or more type parameters, return a method.dynamic type), but it will typically generate less readable and less efficient ES6 output as many type checks must be deferred to runtime. All dynamic operations are invoked via runtime helper code.a._x may map to a[_x] where _x is a symbol only defined in the scope of the generated library.In general, the current conventions (i.e., the Application Binary Interface or ABI in compiler terminology) should not be considered stable. We reserve the right to change these in the future.
DDC currently supports Chrome stable (though users have had success running on FireFox and Safari). In the near future, we expect to target all common modern browsers that support ES6. ES6 itself is in active development across all modern browsers, but at advanced stages of support: