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0 pointsPaulHoule9mo ago0 comments

In languages like Java (or C) you can build S-expression like structures like so

   Variable<Integer> x = newVariable();
   Expression<Integer> = add(x,literal(5));
   x.set(15);
   System.out.println(eval(x))  // prints "20"

and it is not that hard to either serialize these to code or run them in a tree-walking interpreter where quote() and eval() imply an extended language where you can write functions that work on Expression<Expression<X>>. Type erasure causes some problems in Java that make you sometimes write a type you shouldn't have to and you do have to unerase types in method names which is a little ugly but it works.

I did some experiments towards this to convince myself it would work

https://github.com/paulhoule/ferocity/blob/main/ferocity0/sr...

had I really kept at it I would have bootstrapped by developing a ferocity0 which was sufficient to write a code generator that could generate stubs for the Java stdlib + a persistent collections library and then write a ferocity1 in ferocity0, and if necessary ferocity(N+1) in ferocityN until it supported "all" of Java, though "all" might have omitted some features like "var" that are both sugar and use type inference that ferocity would struggle with -- if you need sugar in this system you implement it with metaprogramming.

The idea is that certain projects would benefit from balls-to-the-walls metaprogramming and the code compression you get would compensate for the code getting puffed up. My guess is a lot of people would see it as an unholy mating of the worst of Java and Common Lisp. However, I'm certain it would be good for writing code generators.

0 comments

molteanu9mo ago

The solution, which I often seen in practice, is to eventually write code generators, which is what Lisp macros are, after all. I've seen it in C and wrote a big piece about it that was posted here some time ago[1], about the extra tools, code generators, special formats and standards employed and needed to make up for C's deficiencies (in respect to meta-programming, at least).

Everywhere I see code generators it means a feature is lacking in the main language used for the project. Then you bring in other tools to make up for that deficiency. Only, usually, we don't call that deficiency, since we are used to things being that way. It is called day-to-day business. I think that's what I've tried to convey in the article.

[1] https://news.ycombinator.com/item?id=41066544

PaulHouleOP9mo ago

I don't see code generation as a bad smell at all.

At my job we use the JooQ code generator which is well integrated with maven and either IntellJ IDEA or Eclipse so autcompletion "just works". In modern Java you can pack up a code generator as a maven plugin [1] and put something in your POM that runs the generator. It's easy. There are other ways to hook the compiler too, see the controversial

https://projectlombok.org/

Lisp does come closest to a "language construction set" that lets you bend a language to your will. I think a compiler could be built for a language that looks more conventional that would be just as malleable, maybe even more malleable, but a generation of system programmers were traumatized by slow C++ builds and want to have nothing to do with a compiler which could be slow, even if you could make up for the slowness by having dramatically less code.

[1] A maven plugin is just a Java class which can do everything in the ordinary Java way which gets dependencies injected by the maven runtime. It's a common rookie mistake to try to solve problems by writing XML. I mean, if you can write a POM that makes existing plugins do what you want go right ahead, but if you can't just write your own plugin.

molteanu9mo ago

> I don't see code generation as a bad smell at all.

Well, exactly!

> At my job we use the JooQ code generator...

And in Lisp one would use the...Lisp code generator. That is, the macro. And the beauty of it is that it doesn't work with pure strings but 'understands', parses, manipulates the code as expressions in its own language. That is, it has at its disposal the entire language for manipulating those expressions.

And I think that is one of the "aha" moments. At least, it was for me. When you realize the reason for having those code generators, regardless of the project and language, in the first place. That is, something missing from the language. Some extra feature that can't be implemented. Some solution that works really close to 99%, but not beyond. Something that one would like to express, but can't. Some piece of code that you want to be parameterized like you would a function, some piece of code that you want to use in multiple places but you don't want to write the same boilerplate or copy/paste it all over the place with the risk that when you modify something, you'll need to modify in all those places. Or some piece of code that you want to be auto-generated when you build/deploy/etc.

The examples are countless. The world of meta-programming offers enough of them. The article gives the control statements as an example, as a hint to build the appetite, as is suggested in the intro, in fact.

qsort9mo ago

I have done something exactly like this in production for a system that turned natural language into SQL. This was pre-LLM, so we had models that produced intent and keywords as structured output and we had to turn it into queries for several backends. The project didn't work out for a variety of reasons, but technically it was beautiful: it produced query plans that in many cases were identical to those from the queries analysts wrote by hand. So yeah, I accidentally wrote a compiler. Does it still count?

PaulHouleOP9mo ago

Two good examples of "builders to SQL" are

https://www.jooq.org/

and

https://www.sqlalchemy.org/

JooQ isn't everybody's taste but I use it for my job and I think it's great particularly in that you can reuse expressions and write generators for complex queries. We have a powerful search interface that combines full-text with other kinds of queries ("Is about topic T", "Data was collected between S and E") that is beautiful. I think it's funny how JooQ has that lispy f(a,b) style (no accident it is like ferocity) and how Sqlalchemy is really fluent and takes advantage of operator overloading.

j / k navigate · click thread line to collapse

0 pointsPaulHoule9mo ago0 comments

In languages like Java (or C) you can build S-expression like structures like so

   Variable<Integer> x = newVariable();
   Expression<Integer> = add(x,literal(5));
   x.set(15);
   System.out.println(eval(x))  // prints "20"

I did some experiments towards this to convince myself it would work

https://github.com/paulhoule/ferocity/blob/main/ferocity0/sr...

0 comments

molteanu9mo ago

[1] https://news.ycombinator.com/item?id=41066544

PaulHouleOP9mo ago

I don't see code generation as a bad smell at all.

https://projectlombok.org/

molteanu9mo ago

> I don't see code generation as a bad smell at all.

Well, exactly!

> At my job we use the JooQ code generator...

qsort9mo ago

PaulHouleOP9mo ago

Two good examples of "builders to SQL" are

https://www.jooq.org/

and

https://www.sqlalchemy.org/

j / k navigate · click thread line to collapse