This, finally, introduces identifier pooling in the global environment,
represented by `Root`. All package-level identifiers will be scoped as
such, which at the moment means anything that's not within a template.
As mentioned in recent commits, this does require additional cleanup to
finalize, and some more test will make additional rationale more clear.
It's also worth noting the intent of storing the `ObjectIndex<Root>`---not
only does it mean that the active root can be derived solely from the
current parsing state, but it also means that in the future we can
contribute to any, potentially multiple, roots. I had previously used Neo4J
to effectively diff two dependency graphs between versions in the current
XSLT-based TAMER; I'd like to be able to do that with TAMER in the future,
which is an important concept when considering automated data migration, as
well as querying for the effects of changes.
More to come. I'm hoping this is finally nearing a conclusion and I can
finally tie everything together with package imports. `AirIdent` will be
introduced into the mix soon now too, now that this commit is able to root
them.
DEV-13162
Okay, this is finally distilling into something fairly simple and
reasonable, but I'm not quite there yet.
In particular, the responsibility is simply between `Asg` (as the owner of
the index) and `AirAggregateCtx` (as the owner of the stack frames from
which environments and scope are derived). This was inevitable and I was
waiting for it, but now I have a good idea of how to clean it up and
proceed.
This also doesn't index in root yet (`active_rooting_oi` is still `None` for
`Root`), and I think I may remove `Pool` and just make it `Visible` at that
point, since it won't be going any further anyway. I don't think the
distinction is meaningful and will just complicate implementations.
The tests also need some more cleanup---the assertions ideally would live in
independent tests, and the assertion failure is in a function call rather
than the test (function) itself, so requires a Rust backtrace to locate the
line number of (unless you look at the failure data).
So I suppose this is more of a mental synchronization point than
anything. Nothing's broken, though.
DEV-13162
There's a lot of documentation on this in the commit itself, but this stems
from
a) frustration with trying to understand how the system needs to operate
with all of the objects involved; and
b) recognizing that if I'm having difficulty, then others reading the
system later on (including myself) and possibly looking to improve upon
it are going to have a whole lot of trouble.
Identifier scope is something I've been mulling over for years, and more
formally for the past couple of months. This finally begins to formalize
that, out of frustration with package imports. But it will be a weight
lifted off of me as well, with issues of scope always looming.
This demonstrates a declarative means of testing for scope by scanning the
entire graph in tests to determine where an identifier has been
scoped. Since no such scoping has been implemented yet, the tests
demonstrate how they will look, but otherwise just test for current
behavior. There is more existing behavior to check, and further there will
be _references_ to check, as they'll also leave a trail of scope indexing
behind as part of the resolution process.
See the documentation introduced by this commit for more information on
that part of this commit.
Introducing the graph scanning, with the ASG's static assurances, required
more lowering of dynamic types into the static types required by the
API. This was itself a confusing challenge that, while not all that bad in
retrospect, was something that I initially had some trouble with. The
documentation includes clarifying remarks that hopefully make it all
understandable.
DEV-13162
This begins demonstrating that the root will be utilized for identifier
lookup and indexing, as it was originally for TAME and is currently for the
linker.
This was _not_ the original plan---the plan was to have identifiers indexed
only at the package level, at least until we need a global lookup for
something else---but that plan was upended by how externs are currently
handled. So, for now, we need a global scope.
(Externs are resolved by the linker in such a way that _any_ package that
happens to be imported transitively may resolve the import. This is a
global environment, which I had hoped to get rid of, and which will need to
eventually go away (possibly along with externs) to support loading multiple
programs into the graph simultaneously for cross-program analysis.)
This commit renames the base state for `AirAggregate` to emphasize the fact,
especially when observing it in the `AirStack`, and changes
`AirAggregateCtx::lookup_lexical_or_missing` to resolve from the _bottom_ of
the stack upward, rather than reverse, to prove that the system still
operates correctly with this change in place.
The reason for this direction change is to simplify lookup in the most
general case of non-local identifiers, which are almost all of them in
practice---they'll be immediately resolved at the root once they're
indexed. This can be done because I determined that I will _not_ support
shadowing; rationale for that will come later, but TAME is intended to be a
language suitable for non-programmer audiences as well. Note that
identifiers will be resolved lexically within templates in TAMER, unlike
TAME, which means that the expansion context will _not_ be considered when
checking for shadowing, so templates will still be able to compose without a
problem so long as they do not shadow in their definition context. (I'll
have to consider how that affects template-generating templates later on,
but that's an ambiguous construction in TAME today anyway.)
This _does not_ yet index anything at the root where it wasn't already being
indexed explicitly.
DEV-13162
This requires the name as part of the package definition, which in turn
removes a state (and all the combinations resulting from it) from
AirAggregate, which results in significant complexity reduction for a very
complex part of the system.
Pushing this complexity outward results in a reduction of overall
complexity, and obviates the question of where NIR will receive a generated
name.
DEV-13162
This is something I've wanted to do for some time, but the system is
becoming hard enough to reason about (with some attempted future changes)
that I require the consistency afforded by this change.
It's not entirely done---as noted by the TODO for `UnnamedPkg`---but it's
close, and then `AirAggregate` will just be a delegating superstate, like
`ele_parse!`.
Importantly, this also puts a package parser on the stack, which will work
better with the stack-based scoping system being developed. It will also
make it easier to fall back to a base case that I had really wanted to
avoid, and will have more information on in the future: root indexing for a
shared global environment for package-level identifiers. (Imports are still
package-scoped, but only in appearance, by contributing to the global
environment of the compilation unit during import. Well, it doesn't do that
yet. The XSLT compiler works in that way.)
DEV-13162
This is one of many changes that have been lingering that I need to start to
break apart in an attempt to commit the confusing and disappointing
conclusion to this package loading madness.
More information to come.
DEV-13162
I had apparently forgotten about this, because I didn't benefit from the
exhaustiveness check; this needs to be eliminated so that this doesn't
happen again, and to provide a proper non-panicking error.
DEV-13162
This reverts commit da7fe96254e425bc7b75f8cf454465b71e27e372.
I'm a fool---this would be pursuant to a future plan that removes AirIdent
opaque tokens. But for now, I need it on IdentDecl and others, which
currently has a `Source` (that I want to go away, as just mentioned), which
contains the same information.
So maybe more to come on this...
DEV-13162
This allows for a canonical package name to be optionally provided to
explicitly resolve a reference against, avoiding a lexical lookup.
This change doesn't actually utilize this new value yet; it just
retains BC. The new argument will be used for the linker, since it already
knows the package that defined an identifier while reading the object file's
symbol table. It will also be used by tamec for the same purposes while
processing package imports.
DEV-13162
-- squashed with --
tamer: asg::air::ir::RefIdent: CanonicalName=SPair
The use of CanonicalName created an asymmetry between RefIdent and
BindIdent. The hope was to move CanonicalName instantiation outside of AIR
and into NIR, but doing so would be confusing and awkward without doing
something with BindIdent.
I don't have the time to deal with that for now, so let's observe how the
system continues to evolve and see whether hoisting it out makes sense in the
end. For now, this works just fine and I need to move on with the actual
goal of finishing package imports so that I can expand templates.
DEV-13162
This change requires every package to have a canonical name, and performs
namespec canonicalization on imports.
Since all package names are canonicalized, this opens the door to being able
to index package names at import, allowing the object to be shared on the
graph and properly reference a package after it has been resolved.
Note that the system tests' canonicalization is relative to the hard-coded
`/TODO` presently; that will change in the near future once `tamec`
generates names from the provided path.
DEV-13162
This introduces, but does not yet integrate, `CanonicalName`, which not only
represents canonicalized package names, but handles namespec resolution.
The term "namespec" is motivated by Git's use of *spec (e.g. refspec)
referring to various ways of specifying a particular object. Names look
like paths, and are derived from them, but they _are not paths_. Their
resolution is a purely lexical operation, and they include a number of
restrictions to simplify their clarity and handling. I expect them to
evolve more in the future, and I've had ideas to do so for quite some time.
In particular, resolving packages in this way and then loading the from the
filesystem relative to the project root will ensure that
traversing (conceptually) to a parent directory will not operate
unintuitively with symlinks. The path will always resolve unambigiously.
(With that said, if the symlink is to a shared directory with different
directory structures, that doesn't solve the compilation problem---we'll
have to move object files into a project-specific build directory to handle
that.)
Span Slicing
------------
Okay, it's worth commenting on the horridity of the path name slicing that
goes on here. Care has been taken to ensure that spans will be able to be
properly sliced in all relevant contexts, and there are plenty of words
devoted to that in the documentation committed here.
But there is a more fundamental problem here that I regret not having solved
earlier, because I don't have the time for it right now: while we do have
SPair, it makes no guarantees that the span associated with the corresponding
SymbolId is actually the span that matches the original source lexeme. In
fact, it's often not.
This is a problem when we want to slice up a symbol in an SPair and produce
a sensible span. If it _is_ a source lexeme with its original span, that's
no problem. But if it's _not_, then the two are not in sync, and slicing up
the span won't produce something that actually makes sense to the user. Or,
worse (or maybe it's not worse?), it may cause a panic if the slicing is out
of bounds.
The solution in the future might be to store explicitly the state of an
SPair, or call it Lexeme, or something, so that we know the conditions under
which slicing is safe. If I ever have time for that in this project.
But the result of the lack of a proper abstraction really shows here: this
is some of the most confusing code in TAMER, and it's really not doing
anything all that complicated. It is disproportionately confusing.
DEV-13162
NOTE: This temporarily breaks `tameld`. It is fixed in a future commit when
names are bound. This was an oversight when breaking apart changes into
separate commits, because the linker does not yet have system tests like
tamec does.
This is preparing for a full transition to requiring a canonical package
name. The previous `Unnamed` variant has been removed and `AirAggregate`
will provide a default `WS_EMPTY` name, as `Pkg` had done before.
The intent of this change is to allow for consulting the index before a
new `Pkg` object is created on the graph, but we're not quite ready for that
yet.
Well, that's not entirely true---the linker can be ready for that. But the
compiler needs to canonicalize import paths relative to the active package
canonical name, which it can't even do yet because tamec isn't generating a
name.
So maybe the linker will be first; it's useful to have that in a separate
commit anyway to emphasize the change.
DEV-13162
The previous commit introduced canonical names, and this uses them to index.
The next step will be to utilize those names to look up packages on
definition rather than creating a new package node, so that references to
yet-to-be-defined (or yet-to-be-imported) packages can be resolved on the
graph.
DEV-13162
This is already a concept in the XSLT-based compiler, where each package has
a `package/@name` generated from its path. The same will happen with tamec.
Before we can load packages into the graph, we need canonical identifiers so
that they can be indexed. The next commit will handle indexing using this
information.
DEV-13162
With the previous commit using a visitor implemented within the `asg`
module, we can now finally encapsulate the graph. This is a wonderfully
liberating, long-awaited change, since I have been fighting with the lack of
encapsulation for some time; it has made certain changes challenging and has
made the system more difficult to reason about. It also made it impossible
to assert that invariants were _actually_ properly enforced, if things could
just peer into and modify the graph directly, out from underneath the API
that provides those assurances.
This also removes our dependency on Petgraph outside of the `asg`
module. There are no plans to migrate away from it currently; we'll see how
the graph continues to evolve over time and what redundancies are introduced
with our data structures. It may render petgraph unnecessary.
Interestingly, because my DFS implementation is so similar to Petgraph's,
the emitted ordering is _identical_ between this commit and the previous.
DEV-13162
This commit includes plenty of documentation, so you should look there.
It's desirable to describe the sorting that TAME performs as a topological
sort, since that's the end result we want. This uses the ontology to
determine what to do to the graph when a cycle is encountered. So
technically we're sorting a graph with cycles, but you can equivalently view
this as first transforming the graph to cut all cycles and then sorting it.
For the sake of trivia, the term "cut" is used for two reasons: (1) it's an
intuitive visualization, and (2) the term "cut" has precedence in logic
programming (e.g. Prolog), where it (`!`) is used to prevent
backtracking. We're also preventing backtracking, via a back edge, which
would produce a cycle.
DEV-13162
This introduces cycle detection, but it does not yet filter ontologically
permitted cycles, which will be needed prior to utilizing this in `tameld`.
There's a considerable amount of documentation here. While the
implementation is fairly simple, there are important algorithmic decisions,
both in the DFS construction and the derivation of the cycle path from data
that already exists.
This also supports recovery (by ignoring cycles), which can then be utilized
to find more cycles and other errors in the system.
DEV-13162
This is an initial implementation that does not yet produce errors on
cycles. Documentation is not yet complete.
The implementation is fairly basic, and similar to Petgraph's DFS.
A terminology note: the DFS will be ontology-aware (or at least aware of
edge metadata) to avoid traversing edges that would introduce cycles in
situations where they are permitted, which effectively performs a
topological sort on an implicitly _filtered_ graph.
This will end up replacing ld::xmle::lower::sort.
DEV-13162
tameld isn't yet adding edges to Idents from their associated Pkg (see
previous commit), but this formalizes how the ontology will interpret such a
relationship. The idea is that Idents are always owned by Pkgs, but they
may be optionally explicitly rooted, which will be used by a particular type
of DFS walk that is about to be written, which can ignore Root->Pkg and
focus instead on cross edges to Idents.
Though it's not lost on me that now that I'll be introducing a DFS for the
linker, the terms "cross" and "tree" edge now become ambiguous; I used to
call them "ontological X edge", but I had fallen out of that habit; perhaps
I need to reintroduce that rigor.
DEV-13162
This modifies the xmlo reader, xmlo->AIR lowering, and AIR->ASG to introduce
a package for identifiers. It does not yet, however, add edges from the
package to the identifier.
Once edges are added, the DFS will change in undesirable ways, which will
require a new implementation. This is desirable to decouple from Petgraph
anyway, and then will be able to restore the prior single-pass sort+cycle
check.
That will also encapsulate visiting behavior within the `asg::graph` module
and, in turn, allow encapsulating `Asg.graph` finally.
DEV-13162
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
I've been torturing myself trying to figure out how I want to generalize
indexing, lookups, and value numbering in a way that is appropriate for this
project (that is, not over-engineered relative to my needs).
Before I can do much of anything, though, I need to stop having indexing
only as a `Root` thing (previously it wasn't even tied to `Root`). This
makes that change for tamec, but temporarily removes scoping concerns until
I can add more specific types of indexing.
Not only does this allow cleaning up some `Ident`-specific stuff from `Asg`,
but the cleanup also helps to show that portions of the system aren't still
using Root-based globals.
The linker (`tameld`) still uses the old `global` methods for now; those
will eventually go away, but this needs to change to unify both tamec and
tameld once we get to imports as part of the compiler.
DEV-13162
This is needed to then support `@desc` for shorthand desugaring; it's
required by the XSLT-based compiler (and will eventually be required by
TAMER too).
DEV-13708
This supports arbitrary documentation as sibling text (mixed content, in XML
terms). The motivation behind this change is to permit existing system
tests to succeed when `Todo | TodoAttr` are both rejected, rather than
having to ignore this.
TAME has always had a philosophy of literate documentation, however it was
never fully realized. This just maintains the status quo; the text is
unstructured, and maybe will be parsed in the future.
Unfortunately, this does _not_ include the output in the `xmli` file or the
system tests. The reason has nothing to do with TAMER---`xmllint` does not
format the output when there is mixed content, it seems, and I need to move
on for now; I'll consider my options in the future. But, it's available on
the graph and ready to go.
DEV-13708
This introduces a new `Doc` object that can be owned by `Expr` (only atm)
and contain what it describes as a concise independent clause. This
construction is not enforced, and is only really obvious today via the
Summary Pages.
There's a lot of latent and unrealized potential in TAME's documentation
philosophy that was never realized, so this will certainly evolve over
time. But for now, the primary purpose was to get `@desc` working on things
like classifications so that `xmli` output can compile for certain
packages.
DEV-13708
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
This doesn't do the actual hard work yet of resolving and loading a package,
but it does place it on the graph and re-derive it into the xmli output.
DEV-13708
This introduces `<match on="foo" />` and `<match on="foo" value="bar" />`,
which are both equality predicates. Other types of predicates are not yet
supported.
This change is a bit messy and leaves a bit to be desired. `NirToAir` is
quite messy and needs some cleanup. There's also the issue of introducing
XML-specific errors in NIR so that users know what things like "subject"
mean, but not being able to do so yet because NIR is agnostic to the source
document type; another layer of abstraction is needed.
But, my priority is first to get derivation of a particularly
expensive (generated) package in our internal systems working first.
DEV-13708
This recognizes template application within expressions. Since expressions
can occur within templates, this can occur arbitrarily deeply.
And with that, we have the core of the template system represented on the
graph. Of course, there are some glaring scoping issues to be resolved, but
those aren't unique to template application.
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
All ObjectIndex-like objects hash using only the underlying identifier,
which ultimately boils down to a `NodeIndex` (petgraph), which is just a
u32. And so in that sense, the only purpose we have for hashing it is to
(a) reduce the space required to store mappings, and (b) compose with other
`Hash`es.
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
This allows this method to be used on anything that is able to relate to an
identifier, which is needed for the changes being made for the template
system.
This linear lookup is actually going away (as hinted at by preceding
commits); this is extracted as part of a larger change and I wanted to get
it committed to make it easier to follow upcoming changes.
DEV-13708
The prior commit begins to explain the end goal of being able to index
identifiers outside of the global environment.
This change continues to index things as before, but introduces a new key
based on the pair of the symbol id together with a node that is _part of_
its target environment. The only environment utilized at the moment (in this
commit) is that of the root node (which is the global scope), in both
indexing and lookup. Future commits will extend this, and contain more
information about and rationale for the implementation.
The new general index methods are restricted to `pub(super)` until an
abstraction can be put in place that is responsible for environment
indexing; that's a responsibility that is currently handled by
`AirAggregateCtx` for tamec, and the linker has no scoping
requirements since all of that has already been dealt with.
DEV-13708
This reverts commit 1b7eac337cd5909c01ede3a5b3fba577898d5961.
This is a revert of the previous revert, just so that I (and you) have
references to prior rationale.
This was previously reverted because it wasn't worth doing, but now we have
a situation where we need to begin implementing lexical scoping rules for
nested containers (packages and templates). In particular, as you'll see in
the commits that follow, we need to be able to look up an identifier that
may have been created as Missing at one level of scope (certain types of
blocks), but then define it at another level.
Or, even more simply at this point, since I'm not yet doing anything
sophisticated with scope: we're only indexing in the global environment, and
we need to be able to index elsewhere too.
The next commit will go into more information, but suffice it to say for now
that indexing is going to get more complicated than a SymbolId.
Sticking with FxHash for now; we don't need a stable hash now.
DEV-13708
There are no such invalid expansion contexts yet, but this gets rid of the
final remaining TODO from introducing the stack. With the existing feature
set, at least.
DEV-13708
This eliminates the TODOs that existed when looking for an OI for rooting an
identifier.
The change to `rooting_ci` is ridiculous, but I want to get other things
done before I jump down the rabbit hole of generalizing that (indexing local
identifiers). Though I have an approach in mind.
DEV-13708
Just some continued cleanup.
Unfortunately, we have sacrificed knowing a package OI must exist
statically, even though one will always be available.
DEV-13708
This has AirAggregate preempt Expr parsing in the same way as templates,
rather than having `AirTplAggregate` concern itself with expression
tokens. This continues to simplify `AirTplAggregate`, which was getting
quite complex not too long ago.
A pattern is now emerging for the call/ret convention for preemption. That
was intentional, but it's nice to see it manifest so obviously before I
abstract it away.
DEV-13708
This was extracted from xir::parse::ele in previous commits. The
conventions help to ensure that pushing and returns are being performed
correctly. The abstraction will continue to evolve.
This ends up using `Ready` as the dead state. I need to determine if this
is ideal, and if so, maybe just use `Default`, otherwise yield an error.
DEV-13708
`AirAggregate` now handles all delegation to `AirExprAggregate`. This is
possible because `AirAggregate` is now the superstate for each of these
parsers, so `AirTplAggregate` is able to transition to a state that is not
its own.
This does not go so far as reaching the ultimate objective---having nested
template support---even though it'd be fairly simple to do now; there's
going to be a number of interesting consequences to these changes, and a bit
of cleanup is still needed, and I want tests observing this functionality to
accompany those changes. That is: let's keep this a refactoring, to the
extent that it's possible.
Things are getting much easier to understand now, and much cleaner.
DEV-13708
I love deleting code I just wrote...
This doesn't solve the underlying problems with identifiers, but it does at
least lift it into the `AirAggregateCtx`, allowing `AirExprAggregate` to be
even further simplified. Now the `From` implementation is not specialized
and we can readily convert to a SuperState.
There's still a lot of TODOs here, though. And some of them will
unfortunately require runtime checks where there was previously a
compile-time check. But that's okay in a lot of the cases, because the
empty behavior will replace existing error checks.
DEV-13708
Whether or not dangling expressions are permitted is now based solely off of
the stack context, which is also much more intuitive.
`RootStrategy` now only does one thing, and the existing comments describe
why it exists despite that one thing seeming very similar.
`RootStrategy` further alludes to how `ExprStack` could also be
eliminated, should it be worth doing so. It is a tad redundant now with the
new stack.
DEV-13708
This does the same thing to `AirExprAggregate` that was previously done for
`AirAggregate`, taking all parent context from the stack.
This results in a fairly significant simplification of the code, which is
nice, and it makes the `RootStrategy` obviously obsolete in the dangling
case, which will result in more refactoring to simplify it even more.
I regret not taking this route to begin with, but not only was I hoping I
wouldn't need to, but I was still deriving the graph structure and wasn't
sure how this would eventually turn out. These commits serve as a proof of
necessity. Or, at least, concrete rationale.
It's worth noting that this also introduces `From` implementations for
`AirAggregate` and the child parsers, and then uses _that_ to push context
from the `AirTplAggregate` parser. This means that we're just about ready
for it to serve as a superstate. But there is still a specialization of
`AirExprAggregate` in that `From` impl, which must be removed.
DEV-13708