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I like a lot of what I've read about D.

  • Unified Documentation (That would make my job a lot easier.)
  • Testing capability built in to the language.
  • Debug code support in the language.
  • Forward Declarations. (I always thought it was stupid to declare the same function twice.)
  • Built in features to replace the Preprocessor.
  • Modules
  • Typedef used for proper type checking instead of aliasing.
  • Nested functions. (Cough PASCAL Cough)
  • In and Out Parameters. (How obvious is that!)
  • Supports low level programming - Embedded systems, oh yeah!


  • Can D support an embedded system that not going to be running an OS?
  • Does the outright declearation that it doesn't support 16 bit processors proclude it entirely from embedded applications running on such machines? Sometimes you don't need a hammer to solve your problem.
  • Garbage collection is great on Windows or Linux, but, and unfortunately embedded applications sometime must do explicit memory management.
  • Array bounds checking, you love it, you hate it. Great for design assurance, but not alway permissable for performance issues.
  • What are the implications on an embedded system, not running an OS, for multithreading support? We have a customer that doesn't even like interrupts. Much less OS/multithreading.
  • Is there a D-Lite for embedded systems?

So basically is D suitable for embedded systems with only a few megabytes (sometimes less than a magabyte), not running an OS, where max memory usage must be known at compile time (Per requirements.) and possibly on something smaller than a 32 bit processor?

I'm very interested in some of the features, but I get the impression it's aimed at desktop application developers.

What is specifically that makes it unsuitable for a 16-bit implementation? (Assuming the 16 bit architecture could address sufficient amounts of memory to hold the runtimes, either in flash memory or RAM.) 32 bit values could still be calculated, albeit slower than 16 bit and requiring more operations, using library code.

share|improve this question
Walter Bright is a stackoverflow user, hopefully he chimes in – Brian Ramsay Jul 30 '09 at 17:11
larsivi is one of the developers of the Tango library, so give serious credence to his answer too. – quark Jul 30 '09 at 17:40
Oh and "D-Lite" is a great name :). I hope someone uses it. – quark Jul 30 '09 at 17:43
Possible dupe:… – Daniel Earwicker Jul 30 '09 at 18:04
It's simalar, but this is somewhat more specific. – NoMoreZealots Jul 30 '09 at 18:26

2 Answers 2

up vote 10 down vote accepted

I have to say that the short answer to this question is "No".

  • If your machines are 16 bit, you'll have big problems fitting D into it - it is explicitly not designed for it.
  • D is not a light languages in itself, it generates a lot of runtime type info that normally is linked into your app, and that also is needed for typesafe variadics (and thus the standard formatting features be it Tango or Phobos). This means that even the smallest applications are surprisingly large in size, and may thus disqualify D from the systems with low RAM. Also D with a runtime as a shared lib (which could alleviate some of these issues), has been little tested.
  • All current D libraries requires a C standard library below it, and thus typically also an OS, so even that works against using D. However, there do exist experimental kernels in D, so it is not impossible per se. There just wouldn't be any libraries for it, as of today.

I would personally like to see you succeed, but doubt that it will be easy work.

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We have some clients that are very concerned with program verification and program correctness. Some of D's features seem spot on for that. As far as the "standard C lib" most embedded dev systems have a certain amount of support for that, they may say you have to fill in low level support for I/O, kinda like doing callbacks, but you typically don't do file access anyway. – NoMoreZealots Jul 30 '09 at 17:37
A "lite" set of libaries may eliminate some of the bulk. I don't NEED alot features that would be applicable to an OS based system. However ADA also supports Multitasking and that does imply a large runtime support library on an embedded system. Embedded ADA runtimes practically came with an OS just to support multitasking. – NoMoreZealots Jul 30 '09 at 17:44
If you are willing/capable of putting some effort into this, I would be interested in co-operating. – larsivi Jul 30 '09 at 22:31
Willing yes. Capable, maybe after I get my head around the language. Right now, my understanding is more or less just the "surface" material. I need to get it installed in a environment where I can "play" and get the syntax and features to sink in. – NoMoreZealots Aug 4 '09 at 19:50
@larsivi Is this still the status quo in 2014? – RedX Aug 15 '14 at 8:46

First and foremost read larsivi's answer. He's worked on the D runtime and knows of what he's talking about.

I just wanted to add: Some of what you asked about is already possible. It won't get you all the way, and a miss is as good as a mile here but still, FYI:

Garbage collection is great on Windoze or Linux, but, and unfortunately embedded apps sometime must do explicite memory management.

You can turn garbage collection off. The various experimental D OSes out there do it. See the std.gc module, in particular std.gc.disable. Note also that you do not need to allocate memory with new: you can use malloc and free. Even arrays can be allocated with it, you just need to attach a D array around the allocated memory using a slice.

Array bounds checking, you love it, you hate it. Great for design assurance, but not alway permissable for performance issues.

The specification for arrays specifically requires that compilers allow for bounds checking to be turned off (see the "Implementation Note"). gdc provides -fno-bounds-check, and in dmd using -release should disable it.

What are the implications on an embedded system, not running an OS, for multithreading support? We have a customer that doesn't even like interrupts. Much less OS/multithreading.

This I'm less clear on, but given that most C runtimes allow turning off multithreading, it seems likely one could get the D runtime to disable it as well. Whether that's easy or possible right now though I can't tell you.

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I did read his post. As a matter of fact I even commented to it! :) Disabling bounds checking in the compiler is good, but I think it would be nice to specify bounds checking off for specific pieces of code, and use it in others that are't timing critical for safty purposes. In most case I don't even use malloc, I preallocate sometimes to specific memory addressing (i.e. internal vs external ramblocks) via the linker. – NoMoreZealots Jul 30 '09 at 18:08
"I did read his post." Sorry Pete, not meant to sound pushy! When I posted you didn't have comments (we were editing at the same time). But I mainly meant to note to anyone else who might read this answer that they should read his first, and on StackOverflow answers can get re-ordered. – quark Jul 30 '09 at 18:54
"Specify bounds checking off for specific pieces of code". I agree. I don't know if there's any facility for that. – quark Jul 30 '09 at 18:56
It's a hack but you can turn bounds checking on and off on a per file bases and link the mix together. This might force some "odd" codeing style constraints. – BCS Jul 30 '09 at 20:10
@quark, no worrys note the smiley face. @BCS as long as the compiler doesn't lose it's mind when you do that it doesn't sound unreasonable. In general there is some ulgyness associated with hardware programming that most languages don't have nice syntax for. i.e. It would be nice to be able to tell the compiler that a variable or structure existed ontop of memory mapped registers, as a volatile read only value. – NoMoreZealots Jul 30 '09 at 20:26

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