Programming in D for CSharp Programmers
Contents
Introduction: Hello workd
The C# Way
using System; class Hello { static void Main(string[] args) { Console.WriteLine("Hello world!"); } }
The D Way
import std.stdio; void main(string[] args) { writeln("Hello world"); }
Things we learnt so far:
- standard file extension for D source code files is
.d
- we
import
a module instead ofusing
a namespace; - static methods can be declared outside a class;
- we can call directly any method even if it’s not declared in a class (
writeln
); writeln
is D equivalent for C#Console.WriteLine
;- syntax is exactly the same as in C# (method definitions, string qualifiers, array declarations, comments)
- many of the keywords are exactly the same (
void
,string
);
Coding styles
- D programmers prefer to use the camelCase notation instead of PascalCase for method names, variable names and enum members;
- Module names (C# namespaces) are always in lowercase due to cross-platform compatibility regarding file names.
- If there are conflicts between a named entity and a keyword, in C# you can use verbatim identifiers (@while). D does not have verbatim identifiers, but the convention is to add an underscore at the end of the entity (while_).
Type system
Built-in types
Basic type names are very similar in both languages with the following differences:
- The 8 bit signed integer from C#
sbyte
is written in D asbyte
; - The 8 bit unsigned integer from C#
byte
is written in D asubyte
; - There is no type equivalence for
decimal
- There are three types of char in D:
char
,wchar
anddchar
, each of them corresponding to an UTF encoding : UTF-8, UTF-16 and UTF-32. Since C# is using internally UTF-16 chars, the direct equivalent of C#char
is Dwchar
. - There are also three types of string in D:
string
,wstring
anddstring
. The direct equivalent of C#string
is in fact Dwstring
. These are not keywords in D, they are in fact declared as aliases to immutable char arrays. - There is another floating point type in D:
real
with no type equivalence in C#. - Complex floating point types
Complex<T>
are keywords in D:cfloat, cdouble, creal
and they imaginary counterparts areifloat
,idouble
,ireal
;
Arrays
Arrays in D are not too different than the ones form C#
The C# Way
int[] array; fixed int array[20];
The D Way
int[] array; int array[20]
Pointers
Since D is not a managed language, you are free to use pointers anywhere in the code, without encompassing them in an unsafe context. On the contrary, D code is by default unsafe, but you can force the safe context using the @safe
keyword:
The C# Way
int value; //here you can't use pointers unsafe { int * p = &value }
The D Way
int value; int * p = &value @safe { //here you can't use pointers }
Delegates
Delegates in D are declared with the same keyword, but the return type precedes the declaration:
The C# Way
delegate int F
The D Way
int delegate(int x) Foo; int function(int x) Foo;
Since D doesn't need to declare methods inside a class, you can declare also a function, equivalent to a delegate without class context. A notable difference between C# and D is the fact that delegates are not multicast in D, therefore you cannot join or remove them.
Enums
There is no difference between enum declarations, except that so called C# flags enums are not necessarely decorated with the [Flags] attribute:
The C# Way
enum Option { Option1, Option2 } [Flags] enum Options { Option1, Option2, All = Option1 | Option2 }
The D Way
enum Option { Option1, Option2 }
enum Options { Option1, Option2, All = Option1 | Option2 }