This may now index _any_ type of object, in preparation for indexing package
import paths. In practice, this only makes sense (at least currently) for
`Pkg` and `Ident`.
This generalization also applies to `Asg::lookup_or_missing`.
DEV-13162
Historically, the ASG was better described as a "dependency graph",
containing only identifiers (which are simply called "symbols" in the
XSLT-based compiler). Consequently, it was appropriate for the graph to
have operations specific to identifiers. (Indeed, that's the only type of
object the graph supported.)
Much has changed since then. This cleans things up, and makes parenting
identifiers to root an _explicit_ operation. This will make it easier to
move forward with handling of scope, and importing identifiers into
packages, and removing `Source`, and so on.
DEV-13162
These are used by virtually every `ObjectKind`; I've been meaning to do this
for a while, but now that I'm about to introduce a new one (`Doc`), let's
just get it out of the way.
DEV-13708
I had hoped this would be considerably easier to implement, but there are
some confounding factors.
First of all: this accomplishes the initial task of getting nested template
applications and definitions re-output in the `xmli` file. But to do so
successfully, some assumptions had to be made.
The primary issue is that of scope. The old (XSLT-based) TAME relied on the
output JS to handle lexical scope for it at runtime in most situations. In
the case of the template system, when scoping/shadowing were needed, complex
and buggy XPaths were used to make a best effort. The equivalent here would
be a graph traversal, which is not ideal.
I had begun going down the rabbit hole of formalizing lexical scope for
TAMER with environments, but I want to get this committed and working first;
I've been holding onto this and breaking off changes for some time now.
DEV-13708
This creates another trait and struct `ObjectIndexToTree` that assert a
stronger invariant than `ObjectIndexRelTo`---that not only does it uphold
the invariants of `ObjectIndexRelTo`, but also that it represents a _tree_
edge, which indicates _ownership_ rather than just a reference.
This will be used to statically infer what can serve as a scope boundary for
upcoming changes. Specifically, anything that can own an `Ident` introduces
a new level of scope.
DEV-13708
The graph's ontology is defined in the direction of the edge: from OA
to OB. This is enforced by the type system to ensure that no code path is
able to generate an invalid graph.
But that also makes it very difficult to work with a generic source to a
specific target.
This introduces a `ObjectIndexRelTo` trait that says whether `Self` is able
to be related to some `ObjectKind` `OB`, implements it for `ObjectIndex
where ObjectRelTo<OB>`, and introduces a new semi-opaque type
`ObjectIndexTo` that allows for the source `ObjectIndex` to be generic.
This then redefines some existing graph primitives in terms of
`ObjectIndexRelTo`, in particular creating edges, so that `ObjectIndex` can
be used as today, and the new `ObjectIndexTo` can be used in the same way
with the same API, without violating the graph ontology.
This will be used by `AirAggregate` to create dynamic targets for rooting
and splicing/expansion.
DEV-13708
This applies to template application only; there's still some work to do for
template parameters in definitions (well, for deriving them in `xmli` at
least). And, as you can see, there's still a lot of TODO items here.
I ended up backtracking on tree edges to Meta, and even on cross edges to
Meta, because it complicated xmli derivation with no benefit right now;
maybe a cross edge will be re-added in the future, but I need to move on and
see where this takes me.
But, it works.
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
This sets the stage for template parsing, and finally decides how we're
going to represent templates on the ASG. This is going to start simple,
since my original plans for improving how templates are
handled (conceptually) is going to have to wait.
This is the last difficult object type to figure out, with respect to graph
representation and derivation, so I wanted to get it out of the way.
DEV-13708
The previous commit demonstrated the amount of boilerplate necessary for
introducing new `ObjectKind`s; this abstracts away a lot of that
boilerplate, and allows for declarative relationship definition for the
ASG's ontology.
DEV-13708
There's quite a bit of boilerplate here that'll eventually need factoring
out. But it's also clear that it is somewhat onerous to add new object
types.
Note that a good chunk of this burden is _intentional_, via exhaustiveness
checks---adding a new type of object is an exceptional occurrence (well, in
principle, but we haven't added them all yet, so it'll be more common
initially), and we'd rather be safe to ensure that everything is properly
considering how that new type of object interacts with it.
Let's not confuse coupling with safety---the latter causes a burden because
of the former, not because of itself; it provides a service to us.
But, nonetheless, we'll want to reduce this burden somewhat since there are
a number more to add.
DEV-13708
The `TreePreOrderDfs` iterator needed to expose additional edge context to
the caller (specifically, the `Span`). This was getting a bit messy, so
this consolodates everything into a new `DynObjectRel`, which also
emphasizes that it is in need of narrowing.
Packing everything up like that also allows us to return more information to
the caller without complicating the API, since the caller does not need to
be concerned with all of those values individually.
Depth is kept separate, since that is a property of the traversal and is not
stored on the graph. (Rather, it _is_ a property of the graph, but it's not
calculated until traversal. But, depth will also vary for a given node
because of cross edges, and so we cannot store any concrete depth on the
graph for a given node. Not even a canonical one, because once we start
doing inlining and common subexpression elimination, there will be shared
edges that are _not_ cross edges (the node is conceptually part of _both_
trees). Okay, enough of this rambling parenthetical.)
DEV-13708
I noticed this while working on a graph traversal. The unit test used the
same span for both the reference _and_ the binding, so I didn't notice. -_-
The problem with this, though, is that we do not have a separate span
representing the source location of the identifier reference. The reason is
that we decided to re-use an existing node rather than creating another one,
which would add another inconvenient layer of indirection (and complexity).
So, I may have to add (optional?) spans to edges.
DEV-13708
This introduces the concept of ontological cross edges.
The term "cross edge" is most often seen in the context of graph traversals,
e.g. the trees formed by a depth-first search. This, however, refers to the
trees that are inherent in the ontology of the graph.
For example, an `ExprRef` will produce a cross edge to the referenced
`Ident`, that that is a different tree than the current expression. (Well,
I suppose technically it _could_ be a back edge, but then that'd be a cycle
which would fail the process once we get to preventing it. So let's ignore
that for now.)
DEV-13708
This causes a package definition to be rooted (so that it can be easily
accessed for a graph walk). This keeps consistent with the new
`ObjectIndex`-based API by introducing a unit `Root` `ObjectKind` and the
boilerplate that goes with it.
This boilerplate, now glaringly obvious, will be refactored at some point,
since its repetition is onerous and distracting.
DEV-13159
Included in this diff are the corresponding changes to the graph to support
the change. Adding the edge was easy, but we also need a way to get the
package for an identifier. The easiest way to do that is to modify the edge
weight to include not just the target node type, but also the source.
DEV-13159
This adds support for identifier references, adding `Ident` as a valid edge
type for `Expr`.
There is nothing in the system yet to enforce ontology through levels of
indirection; that will come later on.
I'm testing these changes with a very minimal NIR parse, which I'll commit
shortly.
DEV-13597
I'm spending a lot of time considering how the future system will work,
which is complicating the needs of the system now, which is to re-output the
source XML so that we can selectively start to replace things.
So I'm going to punt on this.
I was also planning out how that edge reassignment out to work, along with
traits to try to enforce it, and that is also complicated, so I may wind up
wanting to leave them in the end, or handling this
differently. Specifically, I'll want to know how `value-of` expressions are
going to work on the graph first, since its target is going to be dynamic
and therefore not knowable at compile-time. (Rather, I know how I want to
make them work, but I want to observe that working in practice first.)
DEV-13597
There is extensive rationale in the documentation for this new macro. I'm
utilizing it to provide a more clear and friendly message for incomplete
ident resolution so that I can move on and return to those situations later.
It's worth noting that:
- Externs _will_ need to be handled in the near-term;
- Opaque and IdentFragment almost certainly won't be bound to a definition
until I introduce LTO, which is quite a ways off; and
- They may use the same mechanism and so may be able to be handled at the
same time anyway.
DEV-13597
The ASG delegates certain operations to Objects so that they may enforce
their own invariants and ontology. It is therefore important that only
objects have access to certain methods on `Asg`, otherwise those invariants
could be circumvented.
It should be noted that the nesting of this module is such that AIR should
_not_ have privileged access to the ASG---it too must utilize objects to
ensure those invariants are enforced in a single place.
DEV-13597