D is a general-purpose programming language with
static typing, systems-level access, and C-like syntax.
With the D Programming Language, write fast,
read fast, and run fast.
Fast code, fast.
Got a brief example illustrating D?
Submit your code to the digitalmars.D forum specifying "[your code here]" in the subject.
Upon approval it will be showcased here on a random schedule.
Industry Proven
News
Stay updated with lastest article in the Official D Blog from March 12, 2018: The D Language Foundation at Open Collective by Michael Parker.
From March 9, 2018: The New New DIP Process by Michael Parker.
Learn
Take the Tour, explore major features in D, quick start with C or C++ background, setup your IDE or editor, and ask questions in the Learn forum.
For a deeper dive into D check out books about D, among others Ali Çehreli's Programming in D.
Community
Discuss D on the forums, join the IRC channel, read our official Blog, or follow us on Twitter. Browse the wiki where among other things you can find the high-level vision of the D Language Foundation.
Documentation
Refer to the documentation for the language and for phobos, D's standard library. The DMD manual tells you how to use the compiler. Read various articles to deepen your understanding.
Contribute
Report any bugs you find to our bug tracker. If you can fix an issue, make a pull request on GitHub. There are many other ways to help, too!
Packages
DUB is the package manager for D. Get started with DUB, and check out the available packages.
Fast code, fast.
Write Fast
D allows writing large code fragments without redundantly specifying types, like dynamic languages do. On the other hand, static inference deduces types and other code properties, giving the best of both the static and the dynamic worlds.
void main() { // Define an array of numbers, double[]. // Compiler recognizes the common // type of all initializers. auto arr = [ 1, 2, 3.14, 5.1, 6 ]; // Dictionary that maps string to int, // type is spelled int[string] auto dictionary = [ "one" : 1, "two" : 2, "three" : 3 ]; // Calls the min function defined below auto x = min(arr[0], dictionary["two"]); } // Type deduction works for function results. // This is important for generic functions, // such as min below, which works correctly // for all comparable types. auto min(T1, T2)(T1 lhs, T2 rhs) { return rhs < lhs ? rhs : lhs; }
Automatic memory management makes for safe, simple, and robust code. D also supports scoped resource management (aka the RAII idiom) and scope statements for deterministic transactional code that is easy to write and read.
import std.stdio; class Widget { } void main() { // Automatically managed. auto w = new Widget; // Code is executed in any case upon scope exit. scope(exit) { writeln("Exiting main."); } // File is closed deterministically at scope's end. foreach (line; File("text.txt").byLine()) { writeln(line); } writeln(); }
Built-in linear and associative arrays, slices, and ranges make daily programming simple and pleasant for tasks, both small and large.
The D programming language
Modern convenience.
Modeling power.
Native efficiency.
// Compute average line length for stdin void main() { import std.range, std.stdio; auto sum = 0.0; auto count = stdin.byLine .tee!(l => sum += l.length).walkLength; writeln("Average line length: ", count ? sum / count : 0); }
Read Fast
The best paradigm is to not impose something at the expense of others. D offers classic polymorphism, value semantics, functional style, generics, generative programming, contract programming, and more—all harmoniously integrated.
// Interfaces and classes interface Printable { void print(uint level) // contract is part of the interface in { assert(level > 0); } } // Interface implementation class Widget : Printable { void print(uint level) in{ } body{ } } // Single inheritance of state class ExtendedWidget : Widget { override void print(uint level) in { /* weakening precondition is okay */ } body { //... level may be 0 here ... } } // Immutable data shared across threads immutable string programName = "demo"; // Mutable data is thread-local int perThread = 42; // Explicitly shared data shared int perApp = 5; // Structs have value semantics struct BigNum { // intercept copying this(this) { } // intercept destructor ~this() { } } void main() { // ... }
D offers an innovative approach to concurrency, featuring true immutable data, message passing, no sharing by default, and controlled mutable sharing across threads. Read more.
From simple scripts to large projects, D has the breadth to scale with any application's needs: unit testing, information hiding, refined modularity, fast compilation, precise interfaces. Read more.
Run Fast
D compiles naturally to efficient native code.
D is designed such that most "obvious" code is fast and safe. On occasion a function might need to escape the confines of type safety for ultimate speed and control. For such rare cases D offers native pointers, type casts, access to any C function without any intervening translation, manual memory management, custom allocators and even inline assembly code.
import core.stdc.stdlib; void livingDangerously() { // Access to C's malloc and free primitives auto buf = malloc(1024 * 1024); // free automatically upon scope exit scope(exit) free(buf); // Interprets memory as an array of floats auto floats = cast(float[]) buf[0 .. 1024 * 1024]; // Even stack allocation is possible auto moreBuf = alloca(4096 * 100); //... } // Using inline asm for extra speed on x86 uint checked_multiply(uint x, uint y) { uint result; version (D_InlineAsm_X86) { // Inline assembler "sees" D variables. asm { mov EAX,x ; mul EAX,y ; mov result,EAX ; jc Loverflow ; } return result; } else { result = x * y; if (!y || x <= uint.max / y) return result; } Loverflow: throw new Exception("multiply overflow"); } void main() { // ... }
The @safe, @trusted, and @system function attributes allow the programmer to best decide the safety-efficiency tradeoffs of an application, and have the compiler check for consistency. Read more.
Support the D language
D is made possible through the hard work and dedication of many volunteers, with the coordination and outreach of the D Language Foundation, a 501(c)(3) non-profit organization. You can help further the development of the D language and help grow our community by supporting the Foundation.
Donate
Learn More About The Foundation
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contributors.