First of all, Scala is a beautiful language. But it doesn't meet my needs, particularly because of the JVM's memory usage (for millions of objects, for example).
Python has the same memory usage problem, but actually less so than Scala. Unfortunately it doesn't support concurrency well at all, and is only fast when using something like PyPy.
I looked at D a while back, when it was in the middle of a library change, and was turned off. Having learned Scala, but realized that the JVM can't handle memory efficiently enough for many objects, I had another look. Learning Scala really helped me to appreciate D's features. They're a little undersold in the D community, but they're all there. D offers:
- A hybrid of OO & FP -- D's support for "pure" functions may even make it more functional than Scala. [next big thing]
- Actor-style concurrency [other next big thing]
- Transactional memory [other next big thing]
- Immutable objects [supports FP]
- Pattern matching [supports FP] [also supports OO in Scala, but I'm not sure D does this]
- Statically typed, but without having to specify types too often
- Dynamic typing, if you need it
- High-level strings, bigints, dynamic arrays, etc.
- "Safe" programs that don't risk pointer addressing problems etc.
- The option to write unsafe programs.
- Memory management
- The option to override/disable memory management
- Compile-time evaluation [very efficient, and allows more solid code via compile-time checks]
Direct access to all that C offers, in the way that Scala has direct access to all that Java offers. I think it's probably harder to interact with C++, but not much. In the end, D is a systems language, so you can quite literally interact with ANYTHING: write device drivers, interrupt handlers, write an OS kernel and load scala programs directly into your custom JVM layer... whatever you want.
Not "built on top of C++", but an equal of C++ and C, built on top of assembler and/or machine code. I believe it is possible to compile Scala to C using GCJ, but that's quite a marginal thing to do -- it never took off, for java, and I think GCJ is largely unmaintained now.
At least three working, accepted implementations in existence: GDC (Free Software, made by GNU), LDC (an LLVM-based, well optimised, many-platform compiler), and DMD (the official/reference implementation). By contrast, Scala only has the proprietary JVM-targetting implemention available, and an incomplete (abandoned? on hold?) .NET
version, which will probably be incompatible in lots of ways.
D has parallel collections, just like Scala.
D treats some things as objects, other things as primitives with "properties" instead of object attributes. For example, arrays are primitives, not class instances. This is the ugly kind of thing I want a compiler to hide from me, unless I choose to get my hands dirty.
D seems to support various types of strings. I believe the "preferred" form is, internally, a pointer to a char, plus a length. I'm not sure if this is good, in terms of compatibility and performance. But maybe it is.
While D has fibers and actors, I'm not sure they're as integrated or advanced as Scala's, and certainly not as advanced as Erlang's. But maybe having lower-level actors with more control, yet a simple API, is better.
References can be NULL in D. This seems pretty INSANE to me -- even C++ is better at this. Worse, even turning on the supposedly "memory safe" compilation flags etc., will not detect a simple declaration and use of a null reference.
Related to the above, even with an entire program built in memory safe mode, you can make a two-line program segfault. Also INSANE. If not blatant mis-advertising of features.
The compilers are flaky, have missing documented options (-safe, for instance), and, occasionally, very vague/uninformative error messages.
That's a short list of small faults though. I could make a MUCH longer list for most languages, C++ especially.
All in all, D seems appropriately named; it seems like a worthy successor to both C++, and, arguably, is a more worthy successor to C than C++ is. By that I mean, C++ never seems small, efficient, and elegant to me, in the way that C is. D provides more than C or C++, but it does feel small, efficient, and elegant relative to its feature set.
Update: Nimrod is also very nice. I'm torn between the two at the moment.
Updating, most of a year later: Rust is now the correct answer to this question. It's only at version 0.8 right now, but 0.9 is coming in the next month (or two?), and 1.0 should be along soon after. I expect it'll be a solid, very usable product at release, and combined with its nice feature set, I expect interest in Rust to EXPLODE.