This chooses Option B, as stated would likely be the case in the previous
commit. The reasons are practical---I intend to support partial application
if doing so is worth it, either in implementation of the compiler or the
source language.
Closed templates can be referenced using `IdentRef` to trigger
expansion---their value is what they expand into, and they are spliced into
that point in the tree, like `,@` in Lisp. We are able to overload this
behavior because we have the necessary type information.
However, I don't want to have to generate an Ident for every single template
expansion; there are many tens of thousands of them in our production
system. Since AIR doesn't presently have a way to deal with this situation,
I'll for now add a special token that will close and expand a template in
place; it can be replaced with two separate tokens (`TplEnd` + `Ref`, for
example) in the future if such a need arises.
Are we there yet...?
DEV-13708
Also known as metavariables or template parameters.
This is a bit of a tortured excursion, trying to figure out how I want to
best represent this. I have a number of pages of hand-written notes that
I'd like to distill over time, but the rendered graph ontology (via
`asg-ontviz`) demonstrates the broad idea.
`AirTpl::TplApply` highlights some remaining questions. What I had _wanted_
to do is to separate the concepts of application and expansion, and support
partial application and such. But it's going to be too much work for now,
when it isn't needed---partial application can be worked around by simply
creating new templates and duplicating params, as we do today, although that
sucks and is a maintenance issue. But I'd rather address that head-on in
the future.
So it's looking like Option B is going to be the approach for now, with
templates being closed (as in, no free metavariables) and expanded at the
same time. This simplifies the parser and error conditions significantly
and makes it easier to utilize anonymous templates, since it'll still be the
active context.
My intent is to get at least the graph construction sorted out---not the
actual expansion and binding yet---enough that I can use templates to
represent parts of NIR that do not have proper graph representations or
desugaring yet, so that I can spit them back out again in the `xmli` file
and incrementally handle them. That was an option I had considered some
months ago, but didn't want to entertain it at the time because I wasn't
sure what doing so would look like; while it was an attractive approach
since it pushes existing primitives into the template system (something I've
wanted to do for years), I didn't want to potentially tank performance or
compromise the design for it after I had spent so much effort on all of this
so far.
But my efforts have yielded a system that significantly exceeds my initial
performance expectations, with a decent abstractions, and so this seems
viable.
DEV-13708
See the Air docblock for more information. I'm introducing new tokens for
the template system, which uses the terms "free" and "closed". I prefer
open/close for delimiters, as I've expressed elsewhere, but unfortunately it
conflicts too much (and too confusingly) with other standard terminology as
we get more into the formal side of the language.
DEV-13708
This removes special cases, but it does complicate the parent `AirAggregate`
parser. A pattern of delegation is forming, though abstracting it may be an
interesting challenge, given Rust's limitation on macro invocations as match
arms. But, I think I can manage by generating the entire match using a
macro with a match-compatible syntax, augmenting where
needed...maybe. This'll be messy.
...but if I can write the nightmare that is `ele_parse!`, I'm sure I can
manage this. I just prefer to avoid complex macros unless I really need
them.
DEV-13708
This is more of the same refactoring that has been happening. This
extraction also helps emphasize the relationship between imported objects,
and isolates the growing number of test cases. This parser will only grow.
DEV-13708
This introduces a new macro `sum_ir!` to help with a long-standing problem
of not being able to easily narrow types in Rust without a whole lot of
boilerplate. This patch includes a bit of documentation, so see that for
more information.
This was not a welcome change---I jumped down this rabbit hole trying to
decompose `AirAggregate` so that I can share portions of parsing with the
current parser and a template parser. I can now proceed with that.
This is not the only implementation that I had tried. I previously inverted
the approach, as I've been doing manually for some time: manually create
types to hold the sets of variants, and then create a sum type to hold those
types. That works, but it resulted in a mess for systems that have to use
the IR, since now you have two enums to contend with. I didn't find that to
be appropriate, because we shouldn't complicate the external API for
implementation details.
The enum for IRs is supposed to be like a bytecode---a list of operations
that can be performed with the IR. They can be grouped if it makes sense
for a public API, but in my case, I only wanted subsets for the sake of
delegating responsibilities to smaller subsystems, while retaining the
context that `match` provides via its exhaustiveness checking but does not
expose as something concrete (which is deeply frustrating!).
Anyway, here we are; this'll be refined over time, hopefully, and
portions of it can be generalized for removing boilerplate from other IRs.
Another thing to note is that this syntax is really a compromise---I had to
move on, and I was spending too much time trying to get creative with
`macro_rules!`. It isn't the best, and it doesn't seem very Rust-like in
some places and is therefore not necessarily all that intuitive. This can
be refined further in the future. But the end result, all things
considered, isn't too bad.
DEV-13708
Mike Gerwitz