Commit Graph

30 Commits (15e04d63e25681bca38e94eefa901673c75f3dd8)

Author SHA1 Message Date
Mike Gerwitz 15e04d63e2 tamer: xir::parse::ele: Transition trampoline
This properly integrates the trampoline into `ele_parse!`.  The
implementation leaves some TODOs, most notably broken mixed text handling
since we can no longer intercept those tokens before passing to the
child.  That is temporarily marked as incomplete; see a future commit.

The introduced test `ParseState`s were to help me reason about the system
intuitively as I struggled to track down some type errors in the monstrosity
that is `ele_parse!`.  It will fail to compile if those invariants are
violated.  (In the end, the problems were pretty simple to resolve, and the
struggle was the type system doing its job in telling me that I needed to
step back and try to reason about the problem again until it was intuitive.)

This keeps around the NT states for now, which are quickly used to
transition to the next NT state, like a couple of bounces on a trampoline:

  NT -> Dead -> Parent -> Next NT

This could be optimized in the future, if it's worth doing.

This also makes no attempt to implement tail calls; that would have to come
after fixing mixed content and really isn't worth the added complexity
now.  I (desperately) need to move on, and still have a bunch of cleanup to
do.

I had hoped for a smaller commit, but that was too difficult to do with all
the types involved.

DEV-7145
2022-08-10 11:46:45 -04:00
Mike Gerwitz 454b7a163f tamer: xir::parse::ele: Move repeat configuration out of Context
I had previously used `Context` to hold the parser configuration for
repetition, since that was the easier option.  But I now want to utilize the
`Context` for a stack for the superstate trampoline, and I don't want to
have to deal with the awkwardness of the repetition in doing so, since it
requires that the configuration be created during delegation, rather than
just being passed through to all child parsers.

This adds to a mess that needs cleaning up, but I'll do that after
everything is working.

DEV-7145
2022-08-08 15:23:55 -04:00
Mike Gerwitz 6bc872eb38 tamer: xir::parse::ele: Generate superstate
And here's the thing that I've been dreading, partly because of the
`macro_rules` issues involved.  But, it's not too terrible.

This module was already large and complex, and this just adds to it---it's
in need of refactoring, but I want to be sure it's fully working and capable
of handling NIR before I go spending time refactoring only to undo it.

_This does not yet use trampolining in place of the call stack._  That'll
come next; I just wanted to get the macro updated, the superstate generated,
and tests passing.  This does convert into the
superstate (`ParseState::Super`), but then converts back to the original
`ParseState` for BC with the existing composition-based delegation.  That
will go away and will then use the equivalent of CPS, using the
superstate+`Parser` as a trampoline.  This will require an explicit stack
via `Context`, like XIRF.  And it will allow for tail calls, with respect to
parser delegation, if I decide it's worth doing.

The root problem is that source XML requires recursive parsing (for
expressions and statements like `<section>`), which results in recursive
data structures (`ParseState` enum variants).  Resolving this with boxing is
not appropriate, because that puts heap indirection in an extremely hot code
path, and may also inhibit the aggressive optimizations that I need Rust to
perform to optimize away the majority of the lowering pipeline.

Once this is sorted out, this should be the last big thing for the
parser.  This unfortunately has been a nagging and looming issue for months,
that I was hoping to avoid, and in retrospect that was naive.

DEV-7145
2022-08-08 15:23:55 -04:00
Mike Gerwitz 53a689741b tamer: parse::state::ParseState::Super: Superstate concept
I'm disappointed that I keep having to implement features that I had hoped
to avoid implementing.

This introduces a "superstate" feature, which is intended really just to be
a sum type that is able to delegate to stitched `ParseState`s.  This then
allows a `ParseState` to transition directly to another `ParseState` and
have the parent `ParseState` handle the delegation---a trampoline.

This issue naturally arises out of the recursive nature of parsing a TAME
XML document, where certain statements can be nested (like `<section>`), and
where expressions can be nested.  I had gotten away with composition-based
delegation for now because `xmlo` headers do not have such nesting.

The composition-based approach falls flat for recursive structures.  The
typical naive solution is boxing, which I cannot do, because not only is
this on an extremely hot code path, but I require that Rust be able to
deeply introspect and optimize away the lowering pipeline as much as
possible.

Many months ago, I figured that such a solution would require a trampoline,
as it typically does in stack-based languages, but I was hoping to avoid
it.  Well, no longer; let's just get on with it.

This intends to implement trampolining in a `ParseState` that serves as that
sum type, rather than introducing it as yet another feature to `Parser`; the
latter would provide a more convenient API, but it would continue to bloat
`Parser` itself.  Right now, only the element parser generator will require
use of this, so if it's needed beyond that, then I'll debate whether it's
worth providing a better abstraction.  For now, the intent will be to use
the `Context` to store a stack that it can pop off of to restore the
previous `ParseState` before delegation.

DEV-7145
2022-08-08 15:23:54 -04:00
Mike Gerwitz 2d117a4864 tamer: xir::parse::ele: Mixed content parsing
"Mixed content" is the XML term representing element nodes mixed with text
nodes.  For example, `foo <strong>bar</strong> baz` is mixed.

TAME supports text nodes as documentation, intended to be in a literate
style but never fully realized.  In any case, we need to permit them, and I
wanted to do more than just ignore the nodes.

This takes a different approach than typical parser delegation---it has the
parent parser _preempt_ the child by intercepting text before delegation
takes place, rather than having the child reject the token (or possibly
interpret it itself!) and have to handle an error or dead state.

And while this makes it more confusing in terms of state machine stitching,
it does make sense, in the sense that the parent parser is really what
"owns" the text node---the parser is delegating _element_ parsing only, take
asserts authority when necessary to take back control where it shouldn't be
delegated.

DEV-7145
2022-08-01 15:01:37 -04:00
Mike Gerwitz 8779abe2bb tamer: xir::flat: Expose depth for all node-related tokens
Previously a `Depth` was provided only for `Open` and `Close`.  This depth
information, for example, will be used by NIR to quickly determine whether a
given parser ought to assert ownership of a text/comment token rather than
delegating it.

This involved modifying a number of test cases, but it's worth repeating in
these commits that this is intentional---I've been bit in the past using
`..` in contexts where I really do want to know if variant fields change so
that I can consider whether and how that change may affect the code
utilizing that variant.

DEV-7145
2022-08-01 15:01:37 -04:00
Mike Gerwitz b3c0bdc786 tamer: xir::parse::ele: Ignore whitespace around elements
Recent changes regarding whitespace were all to support this change (though
it was also needed for XIRF, pre- and post-root).

Now I'll have to conted with how I want to handle text nodes in various
circumstances, in terms of `ele_parse!`.

DEV-7145
2022-08-01 15:01:37 -04:00
Mike Gerwitz 8f3301431c tamer: span::dummy: New module to hold DUMMY_SPAN and derivatives
Various DUMMY_SPAN-derived spans are used by many test cases, so this
finally extracts them---something I've been meaning to do for some time.

This also places DUMMY_SPAN behind a `cfg(test)` directive to ensure that it
is _only_ used in tests; UNKNOWN_SPAN should be used when a span is actually
unknown, which may also be the case during development.

DEV-7145
2022-08-01 15:01:37 -04:00
Mike Gerwitz 4f2b27f944 tamer: xir: Attribute error formatting/typo fixes
There were two problem errors: one showing "element element" and one showing
the value along with the name of the attribute.

The change for `<Attr as Display>::fmt` is debatable.  I'm going to do this
for now (only show `@name`) and adjust later if necessary.

I'll need to go use `crate::fmt` consistently in previously-existing format
strings at some point, too.

DEV-7145
2022-08-01 15:01:37 -04:00
Mike Gerwitz 41b41e02c1 tamer: Xirf::Text refinement
This teaches XIRF to optionally refine Text into RefinedText, which
determines whether the given SymbolId represents entirely whitespace.

This is something I've been putting off for some time, but now that I'm
parsing source language for NIR, it is necessary, in that we can only permit
whitespace Text nodes in certain contexts.

The idea is to capture the most common whitespace as preinterned
symbols.  Note that this heuristic ought to be determined from scanning a
codebase, which I haven't done yet; this is just an initial list.

The fallback is to look up the string associated with the SymbolId and
perform a linear scan, aborting on the first non-whitespace character.  This
combination of checks should be sufficiently performant for now considering
that this is only being run on source files, which really are not all that
large.  (They become large when template-expanded.)  I'll optimize further
if I notice it show up during profiling.

This also frees XIR itself from being concerned by Whitespace.  Initially I
had used quick-xml's whitespace trimming, but it messed up my span
calculations, and those were a pain in the ass to implement to begin with,
since I had to resort to pointer arithmetic.  I'd rather avoid tweaking it.

tameld will not check for whitespace, since it's not important---xmlo files,
if malformed, are the fault of the compiler; we can ignore text nodes except
in the context of code fragments, where they are never whitespace (unless
that's also a compiler bug).

Onward and yonward.

DEV-7145
2022-08-01 15:01:37 -04:00
Mike Gerwitz c3dfcc565c tamer: parse::parser::Parser: Include errors in parse trace
Because of recovery, the trace otherwise paints a really confusing-looking
picture when given unexpected input.

This is large enough now that it really ought to be extracted from
`feed_tok`, but I'll wait to see how this evolves further.  I considered
adding color too, but it's not yet clear to me that the visual noise will be
all that helpful.

DEV-7145
2022-07-26 09:28:37 -04:00
Mike Gerwitz 0504788a16 tamer: xir::parse::ele: Visibility specifier
We need to be able to export generated identifiers.  Trying to figure out a
syntax for this was a bit tricky considering how much is generated, so I
just settled on something that's reasonably clear and easy to parse with
`macro_rules!`.

I had intended to just make everything public by default and encapsulate
using private modules, but that then required making everything else that it
uses public (e.g. error and token objects), which would have been a bizarre
thing to do in e.g. test cases.

DEV-7145
2022-07-21 14:56:43 -04:00
Mike Gerwitz acced76788 tamer: xir::parse::ele: Expand types for external expansion for sum NT
Like a previous commit, this corrects the types for sum NTs so that they
properly resolve in contexts external to xir::parse.

DEV-7145
2022-07-21 13:44:30 -04:00
Mike Gerwitz 992c000b68 tamer: xir::parse::ele: AttrValueError for attr_parse!'s ValueError
This integrates the previous ValueError for `attr_parse!` into
`ele_parse!`.

DEV-7145
2022-07-21 09:23:34 -04:00
Mike Gerwitz 3a764d111e tamer: xir::parse::attr: Fallible value parsing
Values can be parsed using `TryFrom<Attr>`.  Previously only `From<Attr>`
was supported, which could not fail.

This is critical for parsing values into types, which will wrap `SymbolId`
to provide data assurances.

DEV-7145
2022-07-21 09:23:11 -04:00
Mike Gerwitz 184ff6bdcc tamer: xir::parse: Fixes for {ele,attr}_parse! outside of module
The tests had certain things in scope, but now that I'm trying to use it
outside of those modules, some fixes are needed.

This is admittedly a sloppy commit, with a number of miscellaneous fixes.  I
didn't bother separating it more because most of them are type fixes, and
the `From<Attr>` stuff is going to have to change into, likely,
`TryFrom<Attr>` so that parse failures can occur when attributes do not
match certain patterns.

DEV-7145
2022-07-20 15:40:28 -04:00
Mike Gerwitz c856fd72d9 tamer: xir::parse::ele: Diagnostic output
The only additional information needed was opening spans so that we can
provide useful information regarding closing tags.

This uses a generic Span in place of {Open,Close}Span because the latter
wasn't necessary, but more descriptive types would be nice; it may be
beneficial later on to introduce newtypes for each of the span generated by
{Open,Close}Span.

DEV-7145
2022-07-20 12:17:15 -04:00
Mike Gerwitz ce765d3b56 tamer: xir::parse::attr: Error and recovery on duplicate attr
This was a TODO for the attribute parser generator.  The first attribute
will be kept and later ones will be ignored, producing an error.  Recovery
permits further attribute parsing having ignored the duplicate.

DEV-7145
2022-07-20 12:16:13 -04:00
Mike Gerwitz 21dfff0110 tamer: xir::parse::attr::test: Extract into own file
It's not going to be getting any smaller.

DEV-7145
2022-07-20 10:02:41 -04:00
Mike Gerwitz 1ec9c963fd tamer: xir::parse::ele: Nonterminal repetition (Kleene star)
This allows an element to be repeated by the parent NT.  The easiest way I
saw to implement this for now was to abuse the Context to provide a runtime
configuration that would allow the state machine to reset after it has
completed parsing.

This also influences error recovery, in that if we're expecting zero or more
of something, we cannot provide an error for an unexpected name, and instead
must emit a dead state so that the caller can determine what to do.

DEV-7145
2022-07-19 16:14:12 -04:00
Mike Gerwitz f462c7daec tamer: xir::parse::attr: Display: element name
This resolves a TODO by including the name of the element whose attributes
are currently being parsed.

This also frees a parent from having to provide additional context, allowing
Display to be fully delegated when stitching.

DEV-7145
2022-07-18 14:43:29 -04:00
Mike Gerwitz 2f4c20dac8 tamer: xir::parse::ele: Remaining Display::fmt for nonterminals
The following commit (test tracing) requires non-panicing `Display` and
`Debug` values.

DEV-7145
2022-07-18 14:31:42 -04:00
Mike Gerwitz cf2cd882ca tamer: xir::parse::ele: Introduce sum nonterminals
This introduces `Nt := (A | ... | Z);`, where `Nt` is the name of the
nonterminal and `A ... Z` are the inner nonterminals---it produces a parser
that provides a choice between a set of nonterminals.

This is implemented efficiently by understanding the QName that is accepted
by each of the inner nonterminals and delegating that token immediately to
the appropriate parser.  This is a benefit of using a parser generator macro
over parser combinators---we do not need to implement backtracking by
letting inner parsers fail, because we know ahead of time exactly what
parser we need.

This _does not_ verify that each of the inner parsers accept a unique QName;
maybe at a later time I can figure out something for that.  However, because
this compiles into a `match`, there is no ambiguity---like a PEG parser,
there is precedence in the face of an ambiguous token, and the first one
wins.  Consequently, tests would surely fail, since the latter wouldn't be
able to be parsed.

This also demonstrates how we can have good error suggestions for this
parsing framework: because the inner nonterminals and their QNames are known
at compile time, error messages simply generate a list of QNames that are
expected.

The error recovery strategy is the same as previously noted, and subject to
the same concerns, though it may be more appropriate here: it is desirable
for the inner parser to fail rather than retrying, so that the sum parser is
able to fail and, once the Kleene operator is introduced, retry on another
potential element.  But again, that recovery strategy may happen to work in
some cases, but'll fail miserably in others (e.g. placing an unknown element
at the head of a block that expects a sequence of elements would potentially
fail the entire block rather than just the invalid one).  But more to come
on that later; it's not critical at this point.  I need to get parsing
completed for TAME's input language.

DEV-7145
2022-07-14 15:12:57 -04:00
Mike Gerwitz 1fdfc0aa4d tamer: xir::parse::ele: Introduce open/close span bindings
This adds the ability to bind identifiers to represent `OpenSpan` and
`CloseSpan`, available to the `@` and `/` maps.  Since identifiers in TAME
originate from attributes, this may not get a whole lot of use, but it's
important to be available.

There is some awkwardness in that the opening span appears to be scoped to
the entire nonterminal, but it's actually only available in the `@`
mapping.  I'll change this if it's actually needed; this keeps things simple
for now.

DEV-7145
2022-07-13 23:42:51 -04:00
Mike Gerwitz cceb8c7fb9 tamer: xir::parse::ele: Initial Close mapping support
Since the parsers produce streaming IRs, we need to be able to emit tokens
representing closing delimiters, where they are important.

This notably doesn't use spans; I'll add those next, since they're also
needed for the previous work.

DEV-7145
2022-07-13 15:02:46 -04:00
Mike Gerwitz c30c0e268d tamer: xir::parse::ele::test: TODO regarding recovery strategy
The comment explains the issue.  I don't think the strategy is going to be a
desirable one, but I want to move on and observe in retrospect how it ought
to be handled.

The important part right now is that recovery is accounted for and possible,
which was a long-standing concern.

DEV-7145
2022-07-13 14:25:25 -04:00
Mike Gerwitz 73efc59582 tamer: xir::parse::ele: Initial element parser generator concept
This begins generating parsers that are capable of parsing elements.  I need
to move on, so this abstraction isn't going to go as far as it could, but
let's see where it takes me.

This was the work that required the recent lookahead changes, which has been
detailed in previous commits.

This initial support is basic, but robust.  It supports parsing elements
with attributes and children, but it does not yet support the equivalent of
the Kleene star (`*`).  Such support will likely be added by supporting
parsers that are able to recurse on their own definition in tail position,
which will also require supporting parsers that do not add to the stack.

This generates parsers that, like all the other parsers, use enums to
provide a typed stack.  Stitched parsers produce a nested stack that is
always bounded in size.  Fortunately, expressions---which can nest
deeply---do not need to maintain ancestor context on the stack, and so this
should work fine; we can get away with this because XIRF ensures proper
nesting for us.  Statements that _do_ need to maintain such context are not
nested.

This also does not yet support emitting an object on closing tag, which
will be necessary for NIR, which will be a streaming IR that is "near" to
the source XML in structure.  This will then be used to lower into AIR for
the ASG, which gives structure needed for further analysis.

More information to come; I just want to get this committed to serve as a
mental synchronization point and clear my head, since I've been sitting on
these changes for so long and have to keep stashing them as I tumble down
rabbit holes covered in yak hair.

DEV-7145
2022-07-13 14:08:47 -04:00
Mike Gerwitz bd783ac08b tamer: Replace ParseStatus::Dead with generic lookahead
Oh what a tortured journey.  I had originally tried to avoid formalizing
lookahead for all parsers by pretending that it was only needed for dead
state transitions (that is---states that have no transitions for a given
input token), but then I needed to yield information for aggregation.  So I
added the ability to override the token for `Dead` to yield that, in
addition to the token.  But then I also needed to yield lookahead for error
conditions.  It was a mess that didn't make sense.

This eliminates `ParseStatus::Dead` entirely and fully integrates the
lookahead token in `Parser` that was previously implemented.

Notably, the lookahead token is encapsulated in `TransitionResult` and
unavailable to `ParseState` implementations, forcing them to rely on
`Parser` for recursion.  This not only prevents `ParseState` from recursing,
but also simplifies delegation by removing the need to manually handle
tokens of lookahead.

The awkward case here is XIRT, which does not follow the streaming parsing
convention, because it was conceived before the parsing framework.  It needs
to go away, but doing so right now would be a lot of work, so it has to
stick around for a little bit longer until the new parser generators can be
used instead.  It is a persistent thorn in my side, going against the grain.

`Parser` will immediately recurse if it sees a token of lookahead with an
incomplete parse.  This is because stitched parsers will frequently yield a
dead state indication when they're done parsing, and there's no use in
propagating an `Incomplete` status down the entire lowering pipeline.  But,
that does mean that the toplevel is not the only thing recursing.  _But_,
the behavior doesn't really change, in the sense that it would infinitely
recurse down the entire lowering stack (though there'd be an opportunity to
detect that).  This should never happen with a correct parser, but it's not
worth the effort right now to try to force such a thing with Rust's type
system.  Something like TLA+ is better suited here as an aid, but it
shouldn't be necessary with clear implementations and proper test
cases.  Parser generators will also ensure such a thing cannot occur.

I had hoped to remove ParseStatus entirely in favor of Parsed, but there's a
lot of type inference that happens based on the fact that `ParseStatus` has
a `ParseState` type parameter; `Parsed` has only `Object`.  It is desirable
for a public-facing `Parsed` to not be tied to `ParseState`, since consumers
need not be concerned with such a heavy type; however, we _do_ want that
heavy type internally, as it carries a lot of useful information that allows
for significant and powerful type inference, which in turn creates
expressive and convenient APIs.

DEV-7145
2022-07-12 00:11:45 -04:00
Mike Gerwitz c671bf6a9c tamer: xir: Introduce {Ele,Open,Close}Span
This isn't conceptally all that significant of a change, but there was a lot
of modify to get it working.  I would generally separate this into a commit
for the implementation and another commit for the integration, but I decided
to keep things together.

This serves a role similar to AttrSpan---this allows deriving a span
representing the element name from a span representing the entire XIR
token.  This will provide more useful context for errors---including the tag
delimiter(s) means that we care about the fact that an element is in that
position (as opposed to some other type of node) within the context of an
error.  However, if we are expecting an element but take issue with the
element name itself, we want to place emphasis on that instead.

This also starts to consider the issue of span contexts---a blob of detached
data that is `Span` is useful for error context, but it's not useful for
manipulation or deriving additional information.  For that, we need to
encode additional context, and this is an attempt at that.

I am interested in the concept of providing Spans that are guaranteed to
actually make sense---that are instantiated and manipulated with APIs that
ensure consistency.  But such a thing buys us very little, practically
speaking, over what I have now for TAMER, and so I don't expect to actually
implement that for this project; I'll leave that for a personal
project.  TAMER's already take a lot of my personal interests and it can
cause me a lot of grief sometimes (with regards to letting my aspirations
cause me more work).

DEV-7145
2022-06-24 14:16:29 -04:00
Mike Gerwitz adc45d90df tamer: xir::parse: Attribute parser generator
This is the first parser generator for the parsing framework.  I've been
waiting quite a while to do this because I wanted to be sure that I
understood how I intended to write the attribute parsers manually.  Now that
I'm about to start parsing source XML files, it is necessary to have a
parser generator.

Typically one thinks of a parser generator as a separate program that
generates code for some language, but that is not always the case---that
represents a lack of expressiveness in the language itself (e.g. C).  Here,
I simply use Rust's macro system, which should be a concept familiar to
someone coming from a language like Lisp.

This also resolves where I stand on parser combinators with respect to this
abstraction: they both accomplish the exact same thing (composition of
smaller parsers), but this abstraction doesn't do so in the typical
functional way.  But the end result is the same.

The parser generated by this abstraction will be optimized an inlined in the
same manner as the hand-written parsers.  Since they'll be tightly coupled
with an element parser (which too will have a parser generator), I expect
that most attribute parsers will simply be inlined; they exist as separate
parsers conceptually, for the same reason that you'd use parser combinators.

It's worth mentioning that this awkward reliance on dead state for a
lookahead token to determine when aggregation is complete rubs me the wrong
way, but resolving it would involve reintroducing the XIR AttrEnd that I had
previously removed.  I'll keep fighting with myself on this, but I want to
get a bit further before I determine if it's worth the tradeoff of
reintroducing (more complex IR but simplified parsing).

DEV-7145
2022-06-21 13:23:02 -04:00