Commit Graph

49 Commits (82e228009db8e8222bb2cc716672d5a087c7d8f9)

Author SHA1 Message Date
Mike Gerwitz 1c7df894ea tamer: asg::graph: *lookup{=>_global}*
Identifier lookups, as done using the graph methods today, look up from a
cache representing the global environment.

Templates must not contribute to this environment until expansion.  Further,
metavariables will not be present in this environment.  To avoid confusion
and help obviate accidental contributions to this environment, the methods
have been renamed.  This will also allow for the creation of more general
methods down the line.

DEV-13708
2023-03-29 12:58:35 -04:00
Mike Gerwitz 954b5a2795 Copyright year and name update
Ryan Specialty Group (RSG) rebranded to Ryan Specialty after its IPO.
2023-01-20 23:37:30 -05:00
Mike Gerwitz 378fe3db66 tamer: asg::Asg::lookup: SymbolId=>SPair
This seems to have been an oversight from when I recently introduced SPairs
to ASG; I noticed it while working on another change and receiving back a
`DUMMY_SPAN`.

DEV-13597
2023-01-20 23:37:29 -05:00
Mike Gerwitz e6640c0019 tamer: Integrate clippy
This invokes clippy as part of `make check` now, which I had previously
avoided doing (I'll elaborate on that below).

This commit represents the changes needed to resolve all the warnings
presented by clippy.  Many changes have been made where I find the lints to
be useful and agreeable, but there are a number of lints, rationalized in
`src/lib.rs`, where I found the lints to be disagreeable.  I have provided
rationale, primarily for those wondering why I desire to deviate from the
default lints, though it does feel backward to rationalize why certain lints
ought to be applied (the reverse should be true).

With that said, this did catch some legitimage issues, and it was also
helpful in getting some older code up-to-date with new language additions
that perhaps I used in new code but hadn't gone back and updated old code
for.  My goal was to get clippy working without errors so that, in the
future, when others get into TAMER and are still getting used to Rust,
clippy is able to help guide them in the right direction.

One of the reasons I went without clippy for so long (though I admittedly
forgot I wasn't using it for a period of time) was because there were a
number of suggestions that I found disagreeable, and I didn't take the time
to go through them and determine what I wanted to follow.  Furthermore, it
was hard to make that judgment when I was new to the language and lacked
the necessary experience to do so.

One thing I would like to comment further on is the use of `format!` with
`expect`, which is also what the diagnostic system convenience methods
do (which clippy does not cover).  Because of all the work I've done trying
to understand Rust and looking at disassemblies and seeing what it
optimizes, I falsely assumed that Rust would convert such things into
conditionals in my otherwise-pure code...but apparently that's not the case,
when `format!` is involved.

I noticed that, after making the suggested fix with `get_ident`, Rust
proceeded to then inline it into each call site and then apply further
optimizations.  It was also previously invoking the thread lock (for the
interner) unconditionally and invoking the `Display` implementation.  That
is not at all what I intended for, despite knowing the eager semantics of
function calls in Rust.

Anyway, possibly more to come on that, I'm just tired of typing and need to
move on.  I'll be returning to investigate further diagnostic messages soon.
2023-01-20 23:37:29 -05:00
Mike Gerwitz 0b2e563cdb tamer: asg: Associate spans with identifiers and introduce diagnostics
This ASG implementation is a refactored form of original code from the
proof-of-concept linker, which was well before the span and diagnostic
implementations, and well before I knew for certain how I was going to solve
that problem.

This was quite the pain in the ass, but introduces spans to the AIR tokens
and graph so that we always have useful diagnostic information.  With that
said, there are some important things to note:

  1. Linker spans will originate from the `xmlo` files until we persist
     spans to those object files during `tamec`'s compilation.  But it's
     better than nothing.
  2. Some additional refactoring is still needed for consistency, e.g. use
     of `SPair`.
  3. This is just a preliminary introduction.  More refactoring will come as
     tamec is continued.

DEV-13041
2022-12-16 14:44:38 -05:00
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 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 f218c452b9 tamer: iter::trip: Flatten Result
The `*_iter_while_ok` functions now compose like monads, flattening `Result`
at each step and drastically simplifying handling of error types.  This also
removes the bunch of `?`s at the end of the expression, and allows me to use
`?` within the callback itself.

I had originally not used `Result` as the return type of the callback
because I was not entirely sure how I was going to use them, but it's now
clear that I _always_ use `Result` as the return type, and so there's no use
in trying to be too accommodating; it can always change in the future.

This is desirable not just for cleanup, but because trying to refactor
`asg_builder` into a pair of `Parser`s is really messy to chain without
flattening, especially given some state that has to leak temporarily to the
caller.  More on that in a future commit.

DEV-11864
2022-05-20 16:08:16 -04:00
Mike Gerwitz ebf1de5a60 tamer: asg::Ident{Object=>}: Rename
I think this may have been renamed _from_ `Ident` some time ago, but I'm too
lazy to check.  In any case, the name is redundant.

DEV-11864
2022-05-19 11:17:04 -04:00
Mike Gerwitz 07d2ec1ffb tamer: Move Dim and {Sym=>}Dtype into num module
A previous commit mentioned that there's not a place for `Dim`, and
duplicated it between `asg` and `xmlo`.  Well, `Dtype` is also needed in
both, and so here's a home for now.

`Dtype` has always been an inappropriate detail for the system and will one
day be removed entirely in favor of higher-level types; the machine
representation is up to the compiler to decide.

DEV-11864
2022-05-19 10:39:21 -04:00
Mike Gerwitz 3e277270a7 tamer: asg: Track roots on graph
Previously, since the graph contained only identifiers, discovered roots
were stored in a separate vector and exposed to the caller.  This not only
leaked details, but added complexity; this was left over from the
refactoring of the proof-of-concept linker some time ago.

This moves the root management into the ASG itself, mostly, with one item
being left over for now in the asg_builder (eligibility classifications).

There are two roots that were added automatically:

  - __yield
  - __worksheet

The former has been removed and is now expected to be explicitly mapped in
the return map, which is now enforced with an extern in `core/base`.  This
is still special, in the sense that it is explicitly referenced by the
generated code, but there's nothing inherently special about it and I'll
continue to generalize it into oblivion in the future, such that the final
yield is just a convention.

`__worksheet` is the only symbol of type `IdentKind::Worksheet`, and so that
was generalized just as the meta and map entries were.

The goal in the future will be to have this more under the control of the
source language, and to consolodate individual roots under packages, so that
the _actual_ roots are few.

As far as the actual ASG goes: this introduces a single root node that is
used as the sole reference for reachability analysis and topological
sorting.  The edges of that root node replace the vector that was removed.

DEV-11864
2022-05-17 10:42:05 -04:00
Mike Gerwitz 34eb994a0d tamer: asg::Asg::set_fragment: {ObjectRef=>SymbolId}
In the actual implementation (outside of tests), this is always looking up
before adding the symbol.  This will simplify the API, while still retaining
errors, since the identifier will fail the state transition if the
identifier did not exist before attempting to set a fragment.  So while this
is slower in microbenchmarks, this has no effect on real-world performance.

Further, I'm refactoring toward a streaming ASG aggregation, which is a lot
easier if we do not need to perform lookups in a separate step from the
ASG's primitives.

DEV-11864
2022-05-16 13:14:27 -04:00
Mike Gerwitz d87006391e tamer: asg::object: Remove IdentObjectState, IdentObjectData
These traits are no longer necessary now that I'm using concrete types; they
just add unnecessary noise and confusion as I attempt to further refactor.

Don't abstract prematurely.

DEV-11864
2022-05-12 16:31:36 -04:00
Mike Gerwitz 3748762d31 tamer: asg::graph::Asg: Remove type parameter O
This removes the generic on the Asg (which was formerly BaseAsg),
hard-coding `IdentObject`, which will further evolve.  This makes the IR an
actual concrete IR rather than an abstract data structure.

These tests bring me back a bit, since they were written as I was still
becoming familiar with Rust.

DEV-11864
2022-05-12 15:46:17 -04:00
Mike Gerwitz f2c5443176 tamer: asg: Remove generic Asg, rename {Base=>}Asg
This is the beginning of an incremental refactoring to remove generics, to
simplify the ASG.  When I initially wrote the linker, I wasn't sure what
direction I was going in, but I was also negatively influenced by more
traditional approaches to both design and unit testing.

If we're going to call the ASG an IR, then it needs to be one---if the core
of the IR is generic, then it's more like an abstract data structure than
anything.  We can abstract around the IR to slice it up into components that
are a little easier to reason about and understand how responsibilities are
segregated.

DEV-11864
2022-05-11 16:47:13 -04:00
Mike Gerwitz 1ad2fb1dc8 Copyright year update 2022
RSG (Ryan Specialty Group) recently announced a rename to Ryan Specialty (no
"Group"), but I'm not sure if the legal name has been changed yet or not, so
I'll wait on that.
2022-05-03 14:14:29 -04:00
Mike Gerwitz 5233822322 tamer: xir: Remove Text enum
Like previous commits, this replaces the explicit escaping context with the
convention that all values retrieved from `xir` are unescaped on read and
escaped on write.

Comments are a notable TODO, since we must escape only `--`.

CData is also an issue.  I had _expected_ to use it as a means to avoid
unescaping fragments, but I had forgotten that quick_xml hard-codes escaping
on read, so that it can re-use BytesStart!  That is terribly unfortunate,
and may result in us having to re-implement our own read method in the
future to avoid this nonsense.  So I'm just leaving it as a TODO for now.

DEV-11081
2021-11-15 23:47:14 -05:00
Mike Gerwitz 27ba03b59b tamer: xir::escape: Remove XirString in favor of Escaper
This rewrites a good portion of the previous commit.

Rather than explicitly storing whether a given string has been escaped, we
can instead assume that all SymbolIds leaving or entering XIR are unescaped,
because there is no reason for any other part of the system to deal with
such details of XML documents.

Given that, we need only unescape on read and escape on write.  This is
customary, so why didn't I do that to begin with?

The previous commit outlines the reason, mainly being an optimization for
the echo writer that is upcoming.  However, this solution will end up being
better---it's not implemented yet, but we can have a caching layer, such
that the Escaper records a mapping between escaped and unescaped SymbolIds
to avoid work the next time around.  If we share the Escaper between _all_
readers and the writer, the result is that

  1. Duplicate strings between source files and object files (many of which
     are read by both the linker and compiler) avoid re-unescaping; and
  2. Writers can use this cache to avoid re-escaping when we've already seen
     the escaped variant of the string during read.

The alternative would be a global cache, like the internment system, but I
did not find that to be appropriate here, since this is far less
fundamental and is much easier to compose.

DEV-11081
2021-11-12 14:03:23 -05:00
Mike Gerwitz b1c0783c75 tamer: xir::XirString: WIP implementation (likely going away)
I'm not fond of this implementation, which is why it's not fully
completed.  I wanted to commit this for future reference, and take the
opportunity to explain why I don't like it.

First: this task started as an idea to implement a third variant to
AttrValue and friends that indicates that a value is fixed, in the sense of
a fixed-point function: escaped or unescaped, its value is the same.  This
would allow us to skip wasteful escape/unescape operations.

In doing so, it became obvious that there's no need to leak this information
through the API, and indeed, no part of the system should care.  When we
read XML, it should be unescaped, and when we write, it should be
escaped.  The reason that this didn't quite happen to begin with was an
optimization: I'll be creating an echo writer in place of the current
filesystem-based copy in tamec shortly, and this would allow streaming XIR
directly from the reader to the writer without any unescaping or
re-escaping.

When we unescape, we know the value that it came from, so we could simply
store both symbols---they're 32-bit, so it results in a nicely compressed
64-bit value, so it's essentially cost-free, as long as we accept the
expense of internment.  This is `XirString`.  Then, when we want to escape
or unescape, we first check to see whether a symbol already exists and, if
so, use it.

While this works well for echoing streams, it won't work all that well in
practice: the unescaped SymbolId will be taken and the XirString discarded,
since nothing after XIR should be coupled with it.  Then, when we later
construct a XIR stream for writting, XirString will no longer be available
and our previously known escape is lost, so the writer will have to
re-escape.

Further, if we look at XirString's generic for the XirStringEscaper---it
uses phantom, which hints that maybe it's not in the best place.  Indeed,
I've already acknowledged that only a reader unescapes and only a writer
escapes, and that the rest of the system works with normal (unescaped)
values, so only readers and writers should be part of this process.  I also
already acknowledged that XirString would be lost and only the unescaped
SymbolId would be used.

So what's the point of XirString, then, if it won't be a useful optimization
beyond the temporary echo writer?

Instead, we can take the XirStringWriter and implement two caches on that:
mapping SymbolId from escaped->unescaped and vice-versa.  These can be
simple vectors, since SymbolId is a 32-bit value we will not have much
wasted space for symbols that never get read or written.  We could even
optimize for preinterned symbols using markers, though I'll probably not do
so, and I'll explain why later.

If we do _that_, we get even _better_ optimizations through caching that
_will_ apply in the general case (so, not just for echo), and we're able to
ditch XirString entirely and simply use a SymbolId.  This makes for a much
more friendly API that isn't leaking implementation details, though it
_does_ put an onus on the caller to pass the encoder to both the reader and
the writer, _if_ it wants to take advantage of a cache.  But that burden is
not significant (and is, again, optional if we don't want it).

So, that'll be the next step.
2021-11-10 12:22:10 -05:00
Mike Gerwitz 428d508be4 tamer: {ir::=>}{asg, xir}
See the previous commit.  There is no sense in some common "IR" namespace,
since those IRs should live close to whatever system whose data they
represent.

In the case of these, they are general IRs that can apply to many different
parts of the system.  If that proves to be a false statement, they'll be
moved.

DEV-10863
2021-11-04 16:13:27 -04:00
Mike Gerwitz e9871541a8 tamer: benches/iter.rs: Basic benchmark
This was forgotten in the previous commit and exists simply to ensure that
the TripIter doesn't add any significant overhead.  The tests are
a handful of nanoseconds apart, on my machine.
2021-10-28 21:17:41 -04:00
Mike Gerwitz fc3953e90e tamer: benches/sym.rs: Interner::intern_utf8 benchmarks
These were forgotten in the previous commit.
2021-10-19 13:42:26 -04:00
Mike Gerwitz 63e5a0d441 tamer: benches/sym.rs: Add additional UTF-8-related tests
The intent of this is to demonstrate how significant of an impact checking
byte arrays for UTF-8 validity will have, since the existing tests do not
make that clear (a static string in Rust is always valid UTF-8).

These benchmarks show that the cost when re-interning an already existing
value is +50%.

This is important, because the new reader will be interning a _lot_ of
duplicate strings, whereas the existing reader operates on byte arrays
without interning unless necessary.  And, when it does, it does so
unchecked.  But we'd rather not do that, since we cannot guarantee that
those XML files are valid (and not modified in some way).

Upcoming commits will have what I think is a reasonable compromise to this,
based on the fact that we'll be encountering _many_ duplicate strings in
parsing XML files.

DEV-10920
2021-10-18 21:35:32 -04:00
Mike Gerwitz 739cf7e6eb tamer: ir::asg::object::IdentObject: Define methods from IdentObjectData
In particular, `name` needn't return an `Option`.  `fragment` also returns a
copy, since it's just a `SymbolId`.  (It really ought to be a newtype rather
than an alias, but we'll worry about that some other time.)

These changes allow us to remove some runtime panics.

DEV-10859
2021-10-14 14:38:02 -04:00
Mike Gerwitz f055cb77c2 tamer: ld::xmle: Narrow Sections types
This moves the logic that sorts identifiers into sections into Sections
itself, and introduces XmleSections to allow for mocking for testing.

This then allows us to narrow the types significantly, eliminating some
runtime checks.  The types can be narrowed further, but I'll be limiting the
work I'll be doing now; this'll be inevitably addressed as we use the ASG
for the compiler.

This also handles moving Sections tests, which was a TODO from the previous
commit.

DEV-10859
2021-10-14 12:40:13 -04:00
Mike Gerwitz 31144d0c9a tamer: benches/asg_lower.rs: Add missing file from previous commit
This was missed in the `lower` module move.
2021-10-12 10:30:35 -04:00
Mike Gerwitz df328da71f tamer: ir::asg::SortableAsg: Move into ld::xmle::lower
This has always been a lowering operation, but it was not phrased in terms
of it, which made the process a bit more confusing to understand.

The implementation hasn't changed, but this is an incremental refactoring
and so exposes BaseAsg and its `graph` field temporarily.

DEV-10859
2021-10-12 09:49:33 -04:00
Mike Gerwitz e91aeef478 tamer: Remove Ix generalization throughout system
This had the writing on the wall all the same as the `'i` interner lifetime
that came before it.  It was too much of a maintenance burden trying to
accommodate both 16-bit and 32-bit symbols generically.

There is a situation where we do still want 16-bit symbols---the
`Span`.  Therefore, I have left generic support for symbol sizes, as well as
the different global interners, but `SymbolId` now defaults to 32-bit, as
does `Asg`.  Further, the size parameter has been removed from the rest of
the code, with the exception of `Span`.

This cleans things up quite a bit, and is much nicer to work with.  If we
want 16-bit symbols in the future for packing to increase CPU cache
performance, we can handle that situation then in that specific case; it's a
premature optimization that's not at all worth the effort here.
2021-09-23 14:52:54 -04:00
Mike Gerwitz e0a209d417 tamer: bench: xir: Reduce writer benchmark memory usage
These were using GiB of memory, which is ...unnecessary.

I reduced the iteration count significantly, but it was still wasting a lot
of time and memory and needed `with_capacity` to reduce the number of copies
after reallocation.

It is not typical that a buffer would contain this much information.
2021-09-21 16:21:32 -04:00
Mike Gerwitz aee781a6fb tamer: bench: xir: Fix broken benchmark
This broke when I removed `SelfClose`.  I used to run
`make all fmt check bench` before every push, but they take a while to run,
in part because it uses nightly and has to recompile too.

But it looks like I need to be more diligent again.
2021-09-21 16:09:50 -04:00
Mike Gerwitz cd1eae95ca tamer: xir: {NodeStream=>Token}
I decided not to do this in a previous commit because I had documented
"NodeStream" elsewhere, so I'd like it to be in the Git history to
understand its evolution.

This never was a "Node" stream beyond the initial concept phase, because it
represents tokens that aren't themselves nodes.  It is intended to generate
XML nodes, but may need to accommodate non-nodes (e.g. XML declarations) in
the future.

The name originated from `Node`, which was a tree-based IR that was
initially conceived, but removed because it's not yet needed.  What we need
is a streaming IR for xmle writing, and then for reading and echoing back
out XML for the new frontend.
2021-08-20 10:30:27 -04:00
Mike Gerwitz a23bae5e4d tamer: XIR: Working concept
This is a working streaming IR for XML.  I want to get this committed before
I go further cleaning it up and integrating it into the xmle writer.

This is lacking detailed documentation, and the names of things may end up
changing.

Initial benchmarks do show that it has a ~2x performance improvement over
quick-xml when dealing with two attributes on a node, and I suspect that
improvement will increase with the number of attributes.  We will see how it
compares in real-world benchmarks once the linker has been modified to use
it.

The goal isn't to _avoid_ quick-xml---it'll be used in the future for things
like escaping that would be a huge waste to implement ourselves.  It just so
happened that quick-xml was not beneficial for these changes; indeed, its
own writer is fairly simple for the portions that were implemented here, so
there's no use in fighting with its API, particularly around attributes and
our need to explicitly control whitespace (with the intent of handling code
formatters in the future).

To put this into perspective: the reason this work is being done isn't to
refactor the linker, or to speed it up, but to generalize XML writing and
provide a suitable IR for use in the compiler.  The first step of the
frontend is to essentially echo the XML token stream back out so we can
incrementally parse it and do something useful, to incrementally rewrite the
compiler in Rust.
2021-08-20 10:16:36 -04:00
Mike Gerwitz c211ada89b tamer: benches (memchr): Add missing bench attr
This benchmark was not being run.
2021-08-19 23:14:33 -04:00
Mike Gerwitz fc235b7ecc tamer: memchr benches
This adds benchmarking for the memchr crate.  It is used primarily by
quick-xml at the moment, but the question is whether to rely on it for
certain operations for XIR.

The benchmarking on an Intel Xeon system shows that memchr and Rust's
contains() perform very similarly on small inputs, matching against a single
character, and so Rust's built-in should be preferred in that case so that
we're using APIs that are familiar to most people.

When larger inputs are compared against, there's a greater benefit (a little
under ~2x).

When comparing against two characters, they are again very close.  But look
at when we compare two characters against _multiple_ inputs:

  running 24 tests
  test large_str:1️⃣:memchr_early_match                 ... bench:       4,938 ns/iter (+/- 124)
  test large_str:1️⃣:memchr_late_match                  ... bench:      81,807 ns/iter (+/- 1,153)
  test large_str:1️⃣:memchr_non_match                   ... bench:      82,074 ns/iter (+/- 1,062)
  test large_str:1️⃣:rust_contains_one_byte_early_match ... bench:       9,425 ns/iter (+/- 167)
  test large_str:1️⃣:rust_contains_one_byte_late_match  ... bench:     123,685 ns/iter (+/- 3,728)
  test large_str:1️⃣:rust_contains_one_byte_non_match   ... bench:     123,117 ns/iter (+/- 2,200)
  test large_str:1️⃣:rust_contains_one_char_early_match ... bench:       9,561 ns/iter (+/- 507)
  test large_str:1️⃣:rust_contains_one_char_late_match  ... bench:     123,929 ns/iter (+/- 2,377)
  test large_str:1️⃣:rust_contains_one_char_non_match   ... bench:     122,989 ns/iter (+/- 2,788)
  test large_str:2️⃣:memchr2_early_match                ... bench:       5,704 ns/iter (+/- 91)
  test large_str:2️⃣:memchr2_late_match                 ... bench:      89,194 ns/iter (+/- 8,546)
  test large_str:2️⃣:memchr2_non_match                  ... bench:      85,649 ns/iter (+/- 3,879)
  test large_str:2️⃣:rust_contains_two_char_early_match ... bench:      66,785 ns/iter (+/- 3,385)
  test large_str:2️⃣:rust_contains_two_char_late_match  ... bench:   2,148,064 ns/iter (+/- 21,812)
  test large_str:2️⃣:rust_contains_two_char_non_match   ... bench:   2,322,082 ns/iter (+/- 22,947)
  test small_str:1️⃣:memchr_mid_match                   ... bench:       4,737 ns/iter (+/- 842)
  test small_str:1️⃣:memchr_non_match                   ... bench:       5,160 ns/iter (+/- 62)
  test small_str:1️⃣:rust_contains_one_byte_non_match   ... bench:       3,930 ns/iter (+/- 35)
  test small_str:1️⃣:rust_contains_one_char_mid_match   ... bench:       3,677 ns/iter (+/- 618)
  test small_str:1️⃣:rust_contains_one_char_non_match   ... bench:       5,415 ns/iter (+/- 221)
  test small_str:2️⃣:memchr2_mid_match                  ... bench:       5,488 ns/iter (+/- 888)
  test small_str:2️⃣:memchr2_non_match                  ... bench:       6,788 ns/iter (+/- 134)
  test small_str:2️⃣:rust_contains_two_char_mid_match   ... bench:       6,203 ns/iter (+/- 170)
  test small_str:2️⃣:rust_contains_two_char_non_match   ... bench:       7,853 ns/iter (+/- 713)

Yikes.

With that said, we won't be comparing against such large inputs
short-term.  The larger strings (fragments) are copied verbatim, and not
compared against---but they _were_ prior to the previous commit that stopped
unencoding and re-encoding.

So: Rust built-ins for inputs that are expected to be small.
2021-08-18 14:23:03 -04:00
Mike Gerwitz f97141f5c5 tamer: tameld: Use uninterned symbols for reader
Fragments were previously represented by `String` to avoid the cost of
interning (hashing and copying).  This change modifies it to use uninterned
symbols, which does still have a copy overhead but it does not hash.

Initial tests shows a small performance decrease of about 15% and a small
memory increase of similar proportion.  However, once I realized that I was
not clearing buffers from quick_xml events and implemented that change in a
previous commit, this change ended up being approximately on par with
`String`, despite the copying of some pretty large fragments.

YMMV, though, and perhaps on less powerful systems time may increase
slightly.

The upcoming XIR (XML IR) was originally going to support both owned strings
and symbols, but now we'll just use uninterned symbols; I can't rationalize
complicating the API at this time when it will provide an almost
imperceivable performance benefit.  If ever that changes in the future,
that change will be entertained.

The end result is that the fate of a fragment's underlying memory is
determined by whatever is processing the data, _not_ by the API itself---the
API was previously forcing use of a String, whereas now it's up to the
caller to determine whether we want comparable interns.  For fragments,
that's not likely ever to be the case, especially considering that the
representation will change so drastically in the future.
2021-08-16 14:05:32 -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 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 2e50af1220 Copyright year update 2021 2021-07-22 15:00:15 -04:00
Mike Gerwitz 0127d4b698 TAMER: sym::Interner::index_lookup
This was originally omitted because there wasn't a use case for it.  Now
that we're adding context to errors, however, an owned value is highly
desirable.

This adds almost no measurable overhead to the internment system in
benchmarks (largely within the margin of error).
2020-04-29 11:33:41 -04:00
Mike Gerwitz 0a9a3214b7 [DEV-7084] TAMER: ir::asg::BaseAsg:🆕 New associated function
Profiling showed that creating an initial capacity of 0 did not have a
notable affect on performance.
2020-04-28 09:06:25 -04:00
Mike Gerwitz 0868453dab [DEV-7086] Proper handling of identifier overrides
This is an awkward system that I'd like to remove at some point.  It adds
complexity.  For the meantime, overrides have been arbitrarily restricted to
a single override (no override-override).  But it's needed being until we
rework maps and can handle the illusion of overrides using the template
system.
2020-04-06 09:55:54 -04:00
Mike Gerwitz f7ed0dbff3 [DEV-7086] ASG benchmarks 2020-03-31 14:18:26 -04:00
Mike Gerwitz bfea768f89 Copyright year 2020 update 2020-03-06 11:05:18 -05:00
Mike Gerwitz 6aae741162 TAMER (sym::Interner::intern_utf8_unchecked): New function
This removes boilerplate for reading xmlo files.  See next commit.
2020-02-25 16:10:55 -05:00
Mike Gerwitz 1f4db84f24 TAMER: Arena-based string interner
Contrary to what I said previously, this replaces the previous
implementation with an arena-backed internment system.  The motivation for
this change was investigating how Rustc performed its string interning, and
why they chose to associate integer identifiers with symbols.

The intent was originally to use Rustc's arena allocator directly, but that
create pulled in far too many dependencies and depended on nightly
Rust.  Bumpalo provides a very similar implementation to Rustc's
DroplessArena, so I went with that instead.

Rustc also relies on a global, singleton interner.  I do not do that
here.  Instead, the returned Symbol carries a lifetime of the underlying
arena, as well as a pointer to the interned string.

Now that this is put to rest, it's time to move on.
2020-02-24 14:56:28 -05:00
Mike Gerwitz 176d099fb6 tamer::sym: FNV => Fx Hash
For strings of any notable length, Fx Hash outperforms FNV.  Rustc also
moved to this hash function and noticed performance
improvements.  Fortunately, as was accounted for in the design, this was a
trivial switch.

Here are some benchmarks to back up that claim:

test hash_set::fnv::with_all_new_1000                 ... bench:     133,096 ns/iter (+/- 1,430)
test hash_set::fnv::with_all_new_1000_with_capacity   ... bench:      82,591 ns/iter (+/- 592)
test hash_set::fnv::with_all_new_rc_str_1000_baseline ... bench:     162,073 ns/iter (+/- 1,277)
test hash_set::fnv::with_one_new_1000                 ... bench:      37,334 ns/iter (+/- 256)
test hash_set::fnv::with_one_new_rc_str_1000_baseline ... bench:      18,263 ns/iter (+/- 261)
test hash_set::fx::with_all_new_1000                  ... bench:      85,217 ns/iter (+/- 1,111)
test hash_set::fx::with_all_new_1000_with_capacity    ... bench:      59,383 ns/iter (+/- 752)
test hash_set::fx::with_all_new_rc_str_1000_baseline  ... bench:      98,802 ns/iter (+/- 1,117)
test hash_set::fx::with_one_new_1000                  ... bench:      42,484 ns/iter (+/- 1,239)
test hash_set::fx::with_one_new_rc_str_1000_baseline  ... bench:      15,000 ns/iter (+/- 233)
test hash_set::with_all_new_1000                      ... bench:     137,645 ns/iter (+/- 1,186)
test hash_set::with_all_new_rc_str_1000_baseline      ... bench:     163,129 ns/iter (+/- 1,725)
test hash_set::with_one_new_1000                      ... bench:      59,051 ns/iter (+/- 1,202)
test hash_set::with_one_new_rc_str_1000_baseline      ... bench:      37,986 ns/iter (+/- 771)
2020-02-24 14:56:28 -05:00
Mike Gerwitz f2b24e6505 HashMapInterner: New interner, docs, and benchmarks
This interner will be suitable for providing an index to look up nodes in
the ASG.
2020-02-24 14:56:28 -05:00
Mike Gerwitz e4e0089815 TAMER: Initial string interning abstraction
This is missing two key things that I'll add shortly: a HashMap-based one
for use in the ASG for node mapping, and an entry-based system for
manipulations.

This has been a nice start for exploring various aspects of Rust
development, as well as conventions that I'd like to implement.  In
particular:

  - Robust documentation intended to guide people through learning the
    necessary material about the compiler, as well as related work to
    rationalize design decisions;
  - Benchmarks;
  - TDD;
  - And just getting used to Rust in general.

I've beat this one to death, so I'll commit this and make smaller changes
going forward to show how easily it can evolve.

(This module was originally named `intern` but this commit and those that
follow rewrote it to `sym`.)
2020-02-24 14:56:28 -05:00