Commit Graph

1175 Commits (a1a4ad3e8ebd57666b812422a16d8ed99289dcfa)

Author SHA1 Message Date
Mike Gerwitz d96dcad7d8 tamer: tameld: Reduce peak memory usage
This clears the buffers used by quick_xml, which was apparently forgotten
during initial development (I think I expected it to re-use the previously
allocated space automatically).

This has significant effects in some cases.  For example, one of our UI
builds drops from ~9KiB to ~5KiB peak memory usage.  Other builds for larger
suppliers are only slightly effected because of some of their massive
fragments.
2021-08-16 13:38:14 -04:00
Mike Gerwitz ce233ac01d tamer: sym: Uninterned symbols
This adds support for uninterned symbols.  This came about as I was creating
Xir (not yet committed) where I had to decide if I wanted `SymbolId` for all
values, even though some values (e.g. large text blocks like compiled code
fragments for xmle files) will never be compared, and so would be wastefull
hashed.

Previous IRs used `String`, but that was clumsy; see documentation in this
commit for rationale.
2021-08-13 22:54:04 -04:00
Mike Gerwitz a008d11fb3 .gitlab-ci.yml (deploy): Deploy on main branch
The switch to the `main` branch follows our conventions for other
repositories as we switch to trunk-based development.

Given that main will always be in a deployable state, there's no use in
waiting for tags.
2021-08-13 15:16:40 -04:00
Mike Gerwitz 0ff0f88e5f tamer: Introduce span
This is an initial implementation optimized for expected use
cases.  Hopefully that pans out and doesn't come back to bite me.

Regarding the context: it only allows for interned paths atm, which are
strings (and so much be valid UTF-8, which is fine for us, but sucks for
something more general-purpose).  I'll be curious if the context needs
extension later on, or if different contexts will be stored in IRs (e.g. to
store a template application site as well as the location of the expansion
within the template body).
2021-08-13 15:16:39 -04:00
Mike Gerwitz 29ab4b9bfc tamer: sym: Disallow SymbolId construction outside of module
SymboldIds must only be constructed by interners, otherwise we lose
confidence in the type.

This offers an associated function to construct raw SymbolIds from integers
for testing purposes.
2021-08-13 11:54:11 -04:00
Mike Gerwitz d11b4220b2 Revert "tamer: Cargo.toml (dependencies)[lazy_static]: Remove (now used)"
This reverts commit 4fd6313cd2.

...and now I need it for tests.
2021-08-12 16:08:34 -04:00
Mike Gerwitz 4fd6313cd2 tamer: Cargo.toml (dependencies)[lazy_static]: Remove (now used)
The previous commit removed all uses.
2021-08-11 16:26:36 -04:00
Mike Gerwitz 9deb393bfd tamer: Global interners
This is a major change, and I apologize for it all being in one commit.  I
had wanted to break it up, but doing so would have required a significant
amount of temporary work that was not worth doing while I'm the only one
working on this project at the moment.

This accomplishes a number of important things, now that I'm preparing to
write the first compiler frontend for TAMER:

  1. `Symbol` has been removed; `SymbolId` is used in its place.
  2. Consequently, symbols use 16 or 32 bits, rather than a 64-bit pointer.
  3. Using symbols no longer requires dereferencing.
  4. **Lifetimes no longer pollute the entire system! (`'i`)**
  5. Two global interners are offered to produce `SymbolStr` with `'static`
     lifetimes, simplfiying lifetime management and borrowing where strings
     are still needed.
  6. A nice API is provided for interning and lookups (e.g. "foo".intern())
     which makes this look like a core feature of Rust.

Unfortunately, making this change required modifications to...virtually
everything.  And that serves to emphasize why this change was needed:
_everything_ used symbols, and so there's no use in not providing globals.

I implemented this in a way that still provides for loose coupling through
Rust's trait system.  Indeed, Rustc offers a global interner, and I decided
not to go that route initially because it wasn't clear to me that such a
thing was desirable.  It didn't become apparent to me, in fact, until the
recent commit where I introduced `SymbolIndexSize` and saw how many things
had to be touched; the linker evolved so rapidly as I was trying to learn
Rust that I lost track of how bad it got.

Further, this shows how the design of the internment system was a bit
naive---I assumed certain requirements that never panned out.  In
particular, everything using symbols stored `&'i Symbol<'i>`---that is, a
reference (usize) to an object containing an index (32-bit) and a string
slice (128-bit).  So it was a reference to a pretty large value, which was
allocated in the arena alongside the interned string itself.

But, that was assuming that something would need both the symbol index _and_
a readily available string.  That's not the case.  In fact, it's pretty
clear that interning happens at the beginning of execution, that `SymbolId`
is all that's needed during processing (unless an error occurs; more on that
below); and it's not until _the very end_ that we need to retrieve interned
strings from the pool to write either to a file or to display to the
user.  It was horribly wasteful!

So `SymbolId` solves the lifetime issue in itself for most systems, but it
still requires that an interner be available for anything that needs to
create or resolve symbols, which, as it turns out, is still a lot of
things.  Therefore, I decided to implement them as thread-local static
variables, which is very similar to what Rustc does itself (Rustc's are
scoped).  TAMER does not use threads, so the resulting `'static` lifetime
should be just fine for now.  Eventually I'd like to implement `!Send` and
`!Sync`, though, to prevent references from escaping the thread (as noted in
the patch); I can't do that yet, since the feature has not yet been
stabalized.

In the end, this leaves us with a system that's much easier to use and
maintain; hopefully easier for newcomers to get into without having to deal
with so many complex lifetimes; and a nice API that makes it a pleasure to
work with symbols.

Admittedly, the `SymbolIndexSize` adds some complexity, and we'll see if I
end up regretting that down the line, but it exists for an important reason:
the `Span` and other structures that'll be introduced need to pack a lot of
data into 64 bits so they can be freely copied around to keep lifetimes
simple without wreaking havoc in other ways, but a 32-bit symbol size needed
by the linker is too large for that.  (Actually, the linker doesn't yet need
32 bits for our systems, but it's going to in the somewhat near future
unless we optimize away a bunch of symbols...but I'd really rather not have
the linker hit a limit that requires a lot of code changes to resolve).

Rustc uses interned spans when they exceed 8 bytes, but I'd prefer to avoid
that for now.  Most systems can just use on of the `PkgSymbolId` or
`ProgSymbolId` type aliases and not have to worry about it.  Systems that
are actually shared between the compiler and the linker do, though, but it's
not like we don't already have a bunch of trait bounds.

Of course, as we implement link-time optimizations (LTO) in the future, it's
possible most things will need the size and I'll grow frustrated with that
and possibly revisit this.  We shall see.

Anyway, this was exhausting...and...onward to the first frontend!
2021-08-11 14:24:55 -04:00
Mike Gerwitz 71011f5724 tamer: sym: Split into multiple modules
This helps to organize a bit better as I prepare to introduce singleton
interners.
2021-08-02 23:54:37 -04:00
Mike Gerwitz 01722c9c3b tamer: Symbol{Index=>Id}
The former was a misnomer (it represents an index _entry_).  This name is
also shorter, which is nice, considering how often it'll be used.
2021-07-30 13:32:32 -04:00
Mike Gerwitz 0fc8a1a4df tamer: Remove default SymbolIndex (et al) index type
Oh boy.  What a mess of a change.

This demonstrates some significant issues we have with Symbol.  I had
originally modelled the system a bit after Rustc's, but deviated in certain
regards:

  1. This has a confurable base type to enable better packing without bit
     twiddling and potentially unsafe tricks I'd rather avoid unless
     necessary; and
  2. The lifetime is not static, and there is no global, singleton interner;
     and
  3. I pass around references to a Symbol rather than passing around an
     index into an interner.

For #3---this is done because there's no singleton interner and therefore
resolving a symbol requires a direct reference to an available interner.  It
also wasn't clear to me (and still isn't, in fact) whether more than one
interner may be used for different contexts.

But, that doesn't preclude removing lifetimes and just passing around
indexes; in fact, I plan to do this in the frontend where the parser and
such will have direct interner access and can therefore just look up based
on a symbol index.  We could reserve references for situations where
exposing an interner would be undesirable.

Anyway, more to come...
2021-07-29 14:26:40 -04:00
Mike Gerwitz e6ad2be5b9 tamer: sym: Primitive-based SupportedSymbolIndex
As mentioned in the previous commit, this flips the types such that the base
type if the primitive and the associated type is the `NonZero*` type; this
is much more natural, concise, and allows Rust to infer the proper type in
most every situation.

The next step will be to stop defaulting the index type for SymbolIndex and
related, since we are about to care very much what size it is (compiler
vs. linker).
2021-07-28 15:21:24 -04:00
Mike Gerwitz e562d7fcc8 tamer: sym: Begin SymbolIndex base data generalization
This was previously a NonZeroU32, but it was intended to support NonZeroU16
as well for packages, so that we can fit symbols into smaller spaces.  In
particular, the upcoming Span wants to fit within 8 bytes, and so requires a
smaller SymbolIndex type.

I'm unhappy with this current implementation, and so comments are unfinished
and there are a couple ignores for dead code warnings.  I want to flip the
`SupportedSymbolIndex` trait so that users can specify the primitive rather
than the NonZero* type, which is really awkward-looking and verbose,
especially if you have to do `SymbolIndex::<NonZeroU32>::from_int` or
something.  It also prevents (at least in the cases I've observed) Rust from
inferring the proper type for you based on the argument you provide.

So, the goal will be `SymbolIndex::<u32>::from_int(n)`, for example.
2021-07-28 15:21:15 -04:00
Mike Gerwitz ca6ef3ed36 tamer: frontend: Begin basic XML parsing
The first step in the process is to emit the raw XML events that can then be
immediately output again to echo the results into another file.  This will
then allow us to begin parsing the input incrementally, and begin to morph
the output into a real `xmlo` file.
2021-07-27 00:37:13 -04:00
Mike Gerwitz d9dcfe8777 tamer: Introduce tpwrap module to contain quick_xml::Error adapter
This adapter exists to implement PartialEq so that it can be derived on
Error objects.  This is used primarily (well, exclusively atm) for tests.
2021-07-23 23:23:55 -04:00
Mike Gerwitz fb8422d670 tamer: Initial frontend concept
This introduces the beginnings of frontends for TAMER, gated behind a
`wip-features` flag.

This will be introduced in stages:

  1. Replace the existing copy with a parser-based copy (echo back out the
     tokens), when the flag is on.
  2. Begin to parse portions of the source, augmenting the output xmlo (xmli
     at the moment).  The XSLT-based compiler will be modified to skip
     compilation steps as necessary.

As portions of the compilation are implemented in TAMER, they'll be placed
behind their own feature flags and stabalized, which will incrementally
remove the compilation steps from the XSLT-based system.  The result should
be substantial incremental performance improvements.

Short-term, the priorities are for loading identifiers into an IR
are (though the order may change):

  1. Echo
  2. Imports
  3. Extern declarations.
  4. Simple identifiers (e.g. param, const, template, etc).
  5. Classifications.
  6. Documentation expressions.
  7. Calculation expressions.
  8. Template applications.
  9. Template definitions.
  10. Inline templates.

After each of those are done, the resulting xmlo (xmli) will have fully
reconstructed the source document from the IR produced during parsing.
2021-07-23 22:24:08 -04:00
Mike Gerwitz 60372d2960 tamer: Makefile.am (all): Binaries and doc
`all` was previously the target for binaries only.
2021-07-23 22:23:10 -04:00
Mike Gerwitz 6ec1a49506 tamer: Makefile.am: Include feature flags for doc generation and tests
This was forgotten in the previous commit.
2021-07-23 15:56:33 -04:00
Mike Gerwitz f1a3273ee3 tamer: configure.ac: Configure-time feature flags (via Cargo) 2021-07-23 10:16:44 -04:00
Mike Gerwitz 5aaa1106cb tamer: obj::xmlo::reader::mock: Extract into crate::test::quick_xml
Other mocks exist here, and here it can be re-used for the upcoming XML
frontend.
2021-07-22 15:32:30 -04:00
Mike Gerwitz 2e50af1220 Copyright year update 2021 2021-07-22 15:00:15 -04:00
Mike Gerwitz e5bbd49166 tamer: obj::xmlo::reader: Extract tests separate file
The file's getting a bit large and the tests are rather complex.  Further,
LSP does better on smaller, less complex files.
2021-07-22 14:39:06 -04:00
Mike Gerwitz 1f24cfdf25 Remove :map: sym-dep generation
This was incorrect to begin with---it does not make sense that an input
mapping should depend upon the identifier that it maps to, in the sense that
we make use of these dependencies.  If we add weak symbol references in the
future, then this can be reintroduced.

By removing this, we free tameld from having to perform the check itself.

.rev-xmlo bumped to force rebuilding of object files since the linker now
expects that no such dependencies will exist within them.
2021-07-22 14:27:15 -04:00
Mike Gerwitz 8a2cc28ddb RELEASES.md: Update for v18.0.3 2021-07-21 15:05:52 -04:00
Mike Gerwitz c90566056d RELEASES.md: NEXT summary 2021-07-21 15:04:59 -04:00
Mike Gerwitz 90c6b51fd5 tamer: tameld: Place constants into static section in executable
This is something that changed when the TAMER POC was initially created, as
I was learning Rust.  I don't recall the original reason why this was moved,
but it could have been moved back long ago.

In our systems, constants can hold tables (as matrices) with tens or
hundreds of thousands of rows, and there are a number of them in certain
projects.  As an example, the YAML-based test cases for one of our systems
went from ~2m30s to ~45s after this change was made.  Much of the cost
savings comes from saving GC.
2021-07-21 14:53:15 -04:00
Mike Gerwitz 53360548da tame: Ignore duplicate conjunctive predicates in value list optimization error
This can occur in generated code (e.g. from proguic if a question-based
predicate inherits a predicate already specified).  This commit does not
change anything that's emitted; it merely allows proceeding.

TAMER can be smarter about this; I don't want to invest more time into
generalizing deduplication of predicates.
2021-07-19 14:53:25 -04:00
Mike Gerwitz 5dab913ecb RELEASES.md: Update for v18.0.2 2021-07-15 23:50:53 -04:00
Mike Gerwitz b2323e80ef RELEASES.md: Summary of NEXT 2021-07-15 23:50:00 -04:00
Mike Gerwitz 2ad0d1425a compiler: Correct handling of TRUE matches
There was a bug whereby TRUE matches would keep whatever value was being
matched on, even if it was not a boolean.  That was an oversight from the
proof-of-concept code, and this fixes it; that's why this is behind a flag!

This also adjusts the class aliasing optimization so that it doesn't check
for a `TRUE` symbol name, which was a bad idea to begin with.

This change also ends up expanding `lv:match[@value="TRUE"]` into the long
form, where it didn't previously; this will result in slightly larger xmlo
files in some cases, but it's nothing significant, and it does not impact
compilation times.
2021-07-15 14:55:32 -04:00
Mike Gerwitz 37977a8816 entry-form.xsl: Correctly generate HTML for params with imported types
This is a nearly-10-year-old bug that was introduced when the Summary Page
was modified to use the then-new symbol table.  The compiler previously
concatenated all packages into a single XML tree and processed that, so no
package resolution was necessary here before.
2021-07-14 09:59:45 -04:00
Mike Gerwitz 513b8d7b86 worksheet.xsl: Allow package name to auto-generate
A long time ago (about a decade), package names were required, but they are
now generated by the compiler relative to the root path.  The name here was
incorrect, which was generating an incorrect path for the linked symbols,
which was causing problems with the Summary Page.
2021-07-14 09:51:08 -04:00
Mike Gerwitz f5ba4b013b summary: Make Summay Page compiler less chatty
It produces a lot of output that either results in spam (internal errors) or
pollutes the log with unnecessary information.
2021-07-01 13:54:34 -04:00
Mike Gerwitz bc9c667c9d RELEASES.md: Update for v18.0.1 2021-06-24 10:37:25 -04:00
Mike Gerwitz d0e3a5622c Remove class-level notice for new system
This was not intentionally committed.
2021-06-24 09:59:00 -04:00
Mike Gerwitz 9a62bb2ace RELEASES.md: Update for v18.0.0 2021-06-23 12:54:25 -04:00
Mike Gerwitz eef2a5d4bc Compiler runtime optimizations with classification system rewrite
See RELEASES.md for a list of changes.

This was a significant effort that began about six months ago, but was
paused at a number of points.  Rather than risking further pauses from
interruptions, the new classification system has been gated behind a
package-level feature flag, since it causes BC breaks in certain buggy
situations.

Since this flag was introduced late, there is the potential that it causes
bugs when new optimizations are mixed with the old system.
2021-06-23 12:48:42 -04:00
Mike Gerwitz dd432d249d RELEASES.md: Update with compiler optimizations 2021-06-23 12:46:37 -04:00
Mike Gerwitz 4e859148c0 tools/pkg-graph: Debugging tool to output graph of package dependencies 2021-06-23 11:44:36 -04:00
Mike Gerwitz e9598b7cb5 Correct short runtime var declarations
They were not actually defined before being aliased.
2021-06-23 11:44:36 -04:00
Mike Gerwitz 6f2b4090cd Correct behavior of matrix matching with separate index sets in new system
This behavior was largely correct, but was not commutative if the size of
the matrices (rows or columns) was smaller than a following match.
2021-06-23 11:44:36 -04:00
Mike Gerwitz e90ebd226c Remove arrow functions from classifier runtime
We need to support as far back as IE11, unfortunately, which is ES5.
2021-06-23 11:44:36 -04:00
Mike Gerwitz 934824b2ee Reintroduce legacy classification system, place new behind flag
This largely reintroduces the legacy classification system, but there are a
number of things that are not affected by the flag.  For example:

  1. Alias classifications are still optimized when the flag is off;
  2. Classifications without predicates emit slightly different code than
     before, though their functionality has not changed;
  3. There's been a lot of refactoring and minor optimizations that are
     unaffected by the flag;
  4. lv:match/@pattern will now emit a warning; and
  5. Cleaning and casting of input data is not gated.

This allows us to incrementally migrate to the new system where behavior may
be different, but this is admittedly a bit dangerous in that the new system
was aggressively tested and reasoned about, so reintroducing the legacy
system may combine in unexpected ways.
2021-06-23 11:44:36 -04:00
Mike Gerwitz 5f6cb4cf51 .rev-xmlo: Bump version
The old and new classification systems are currently incompatible, but if the
old is reintroduced, this commit can go away.
2021-06-23 11:44:36 -04:00
Mike Gerwitz 7dbb653624 Inline intermediate any/all classifications
This is another significant milestone.

The next logical step with classification optimization is to inline all of
those intermediate classifications generated from any and all blocks, since
there are so many of them.  This means having the parent classification
absorb all dependencies; not output dependencies for the classification; not
compile the assignments for those classifications; and to inline them at the
match site.  They’re used only once, since they’re generated for each
individual block.

We need to keep the actual classification generation around (and just inline
them) for now, probably until TAMER, because we depend upon their symbol for
determining their dimensionality, which we need for the optimization work we
just did---we must inline them into the proper group (matrix, vector, or
scalar).

The optimization work done up to this point had inlining in mind---only a
little bit of work was needed to make sure that every classification can
simply be stripped of its assignment and be a valid expression that can be
inlined in place of the original reference.

The result of that was predictably significant for the `ui/package` program
that I've been testing with:

  - 4,514 classifications were inlined;
  - The file size dropped to 7.5MiB (from 8.2MiB previously---remember that
    we started at 16MiB); and
  - GC ticks were cut in half, from 67->31.

Unfortunately, this optimization added nearly 1m of time to the compilation
of that program.  Speaking from the future: the UI build optimizations in
liza-proguic were introduced to offset this difference (and provide a net
gain in performance).
2021-06-23 11:44:36 -04:00
Mike Gerwitz 97caefab1b Extract classify/@terminate into own template
Note that next-match does not cause a return from the template, as odd as it
looks.
2021-06-23 11:44:36 -04:00
Mike Gerwitz 1517a03994 Combine all class optimizations into one 2021-06-23 11:44:36 -04:00
Mike Gerwitz d1dae3e1b1 Explicit types for match raising 2021-06-23 11:44:36 -04:00
Mike Gerwitz 5adf1b7589 Combine all m* optimizations
With the recent refactoring, it's clear that these are the same thing.
2021-06-23 11:44:35 -04:00
Mike Gerwitz a563c3ce62 Remove lv:match checks from class optimization checks
We handle all cases now, and prohibited @pattern that wasn't.
2021-06-23 11:44:35 -04:00