This fixes an issue where block params were always listed as being
members of the current block in egraphs, even when the block param was
actually defined in a separate block. This then enables instructions
which depend on these parameters to get hoisted up out of inner loops at
least to the block that defined the argument.
Closes#5957
* Allow hoisting `vconst` instructions out of loops
Staring at some SIMD code and what LLVM and v8 both generate it appears
that a common technique for SIMD-loops is to hoist constants outside of
loops since they're nontrivial to rematerialize unlike integer
constants. This commit updates the `loop_hoist_level` calculation with
egraphs to have a nonzero default for instructions that have no
arguments (e.g. consts) which enables hoisting these instructions out of
loops.
Note, though, that for now I've listed the maximum as hoisting outside
of one loop, but not all of them. While theoretically vconsts could move
up to the top of the function I'd be worried about their impact on
register pressure and having to save/restore around calls or similar, so
hopefully if the hot part of a program is a single loop then hoisting
out of one loop is a reasonable-enough heuristic for now.
Locally on x64 with a benchmark that just encodes binary to hex this saw
a 15% performance improvement taking hex encoding from ~6G/s to ~6.7G/s.
* Test vconst is only hoisted one loop out
In the provided test case in #5716, the result of a call was then
added to 0. We have a rewrite rule that sets the remat-bit on any add
of a value and a constant, because these frequently appear (e.g. from
address offset calculations) and this can frequently reduce register
pressure (one long-lived base vs. many long-lived base+offset values).
Separately, we have an algebraic rule that `x+0` rewrites to `x`.
The result of this was that we had an eclass with the remat bit set on
the add, but the add was also union'd into the call. We pick the
latter during extraction, because it's cheaper not to do the add at
all; but we still get the remat bit, and try to remat a call (!),
which blows up later.
This PR fixes the logic to look up the "best value" for a value (i.e.,
whatever extraction determined), and look up the remat bit on *that*
node, not the canonical node.
(Why did the canonical node become the iadd and not the call? Because
the former had a lower value-number, as an accident of IR
construction; we don't impose any requirements on the input CLIF's
value-number ordering, and I don't think this breaks any of the
important acyclic properties, even though there is technically a
dependence from a lower-numbered to a higher-numbered node. In essence
one can think of them as having "virtual numbers" in any true
topologically-sorted order, and the only place the actual integer
indices matter should be in choosing the "canonical ID", which is just
used for dedup'ing, modulo this bug.)
Fixes#5716.
* Remove trailing whitespace in `lower.isle` files
* Legalize the `band_not` instruction into simpler form
This commit legalizes the `band_not` instruction into `band`-of-`bnot`,
or two instructions. This is intended to assist with egraph-based
optimizations where the `band_not` instruction doesn't have to be
specifically included in other bit-operation-patterns.
Lowerings of the `band_not` instruction have been moved to a
specialization of the `band` instruction.
* Legalize `bor_not` into components
Same as prior commit, but for the `bor_not` instruction.
* Legalize bxor_not into bxor-of-bnot
Same as prior commits. I think this also ended up fixing a bug in the
s390x backend where `bxor_not x y` was actually translated as `bnot
(bxor x y)` by accident given the test update changes.
* Simplify not-fused operands for riscv64
Looks like some delegated-to rules have special-cases for "if this
feature is enabled use the fused instruction" so move the clause for
testing the feature up to the lowering phase to help trigger other rules
if the feature isn't enabled. This should make the riscv64 backend more
consistent with how other backends are implemented.
* Remove B{and,or,xor}Not from cost of egraph metrics
These shouldn't ever reach egraphs now that they're legalized away.
* Add an egraph optimization for `x^-1 => ~x`
This adds a simplification node to translate xor-against-minus-1 to a
`bnot` instruction. This helps trigger various other optimizations in
the egraph implementation and also various backend lowering rules for
instructions. This is chiefly useful as wasm doesn't have a `bnot`
equivalent, so it's encoded as `x^-1`.
* Add a wasm test for end-to-end bitwise lowerings
Test that end-to-end various optimizations are being applied for input
wasm modules.
* Specifically don't self-update rustup on CI
I forget why this was here originally, but this is failing on Windows
CI. In general there's no need to update rustup, so leave it as-is.
* Cleanup some aarch64 lowering rules
Previously a 32/64 split was necessary due to the `ALUOp` being different
but that's been refactored away no so there's no longer any need for
duplicate rules.
* Narrow a x64 lowering rule
This previously made more sense when it was `band_not` and rarely used,
but be more specific in the type-filter on this rule that it's only
applicable to SIMD types with lanes.
* Simplify xor-against-minus-1 rule
No need to have the commutative version since constants are already
shuffled right for egraphs
* Optimize band-of-bnot when bnot is on the left
Use some more rules in the egraph algebraic optimizations to
canonicalize band/bor/bxor with a `bnot` operand to put the operand on
the right. That way the lowerings in the backends only have to list the
rule once, with the operand on the right, to optimize both styles of
input.
* Add commutative lowering rules
* Update cranelift/codegen/src/isa/x64/lower.isle
Co-authored-by: Jamey Sharp <jamey@minilop.net>
---------
Co-authored-by: Jamey Sharp <jamey@minilop.net>
Add a new type BlockCall that represents the pair of a block name with arguments to be passed to it. (The mnemonic here is that it looks a bit like a function call.) Rework the implementation of jump, brz, and brnz to use BlockCall instead of storing the block arguments as varargs in the instruction's ValueList.
To ensure that we're processing block arguments from BlockCall values in instructions, three new functions have been introduced on DataFlowGraph that both sets of arguments:
inst_values - returns an iterator that traverses values in the instruction and block arguments
map_inst_values - applies a function to each value in the instruction and block arguments
overwrite_inst_values - overwrite all values in an instruction and block arguments with values from the iterator
Co-authored-by: Jamey Sharp <jamey@minilop.net>
We have some operations defined on DataFlowGraph purely to work around borrow-checker issues with InstructionData and other data on DataFlowGraph. Part of the problem is that indexing the DFG directly hides the fact that we're only indexing the insts field of the DFG.
This PR makes the insts field of the DFG public, but wraps it in a newtype that only allows indexing. This means that the borrow checker is better able to tell when operations on memory held by the DFG won't conflict, which comes up frequently when mutating ValueLists held by InstructionData.
* Optimizations to egraph framework:
- Save elaborated results by canonical value, not latest value (union
value). Previously we were artificially skipping and re-elaborating
some values we already had because we were not finding them in the
map.
- Make some changes to handling of icmp results: when icmp became
I8-typed (when bools went away), many uses became `(uextend $I32 (icmp
$I8 ...))`, and so patterns in lowering backends were no longer
matching.
This PR includes an x64-specific change to match `(brz (uextend (icmp
...)))` and similarly for `brnz`, but it also takes advantage of the
ability to write rules easily in the egraph mid-end to rewrite selects
with icmp inputs appropriately.
- Extend constprop to understand selects in the egraph mid-end.
With these changes, bz2.wasm sees a ~1% speedup, and spidermonkey.wasm
with a fib.js input sees a 16.8% speedup:
```
$ time taskset 1 target/release/wasmtime run --allow-precompiled --dir=. ./spidermonkey.base.cwasm ./fib.js
1346269
taskset 1 target/release/wasmtime run --allow-precompiled --dir=. ./fib.js 2.14s user 0.01s system 99% cpu 2.148 total
$ time taskset 1 target/release/wasmtime run --allow-precompiled --dir=. ./spidermonkey.egraphs.cwasm ./fib.js
1346269
taskset 1 target/release/wasmtime run --allow-precompiled --dir=. ./fib.js 1.78s user 0.01s system 99% cpu 1.788 total
```
* Review feedback.
* egraph support: rewrite to work in terms of CLIF data structures.
This work rewrites the "egraph"-based optimization framework in
Cranelift to operate on aegraphs (acyclic egraphs) represented in the
CLIF itself rather than as a separate data structure to which and from
which we translate the CLIF.
The basic idea is to add a new kind of value, a "union", that is like an
alias but refers to two other values rather than one. This allows us to
represent an eclass of enodes (values) as a tree. The union node allows
for a value to have *multiple representations*: either constituent value
could be used, and (in well-formed CLIF produced by correct
optimization rules) they must be equivalent.
Like the old egraph infrastructure, we take advantage of acyclicity and
eager rule application to do optimization in a single pass. Like before,
we integrate GVN (during the optimization pass) and LICM (during
elaboration).
Unlike the old egraph infrastructure, everything stays in the
DataFlowGraph. "Pure" enodes are represented as instructions that have
values attached, but that are not placed into the function layout. When
entering "egraph" form, we remove them from the layout while optimizing.
When leaving "egraph" form, during elaboration, we can place an
instruction back into the layout the first time we elaborate the enode;
if we elaborate it more than once, we clone the instruction.
The implementation performs two passes overall:
- One, a forward pass in RPO (to see defs before uses), that (i) removes
"pure" instructions from the layout and (ii) optimizes as it goes. As
before, we eagerly optimize, so we form the entire union of optimized
forms of a value before we see any uses of that value. This lets us
rewrite uses to use the most "up-to-date" form of the value and
canonicalize and optimize that form.
The eager rewriting and acyclic representation make each other work
(we could not eagerly rewrite if there were cycles; and acyclicity
does not miss optimization opportunities only because the first time
we introduce a value, we immediately produce its "best" form). This
design choice is also what allows us to avoid the "parent pointers"
and fixpoint loop of traditional egraphs.
This forward optimization pass keeps a scoped hashmap to "intern"
nodes (thus performing GVN), and also interleaves on a per-instruction
level with alias analysis. The interleaving with alias analysis allows
alias analysis to see the most optimized form of each address (so it
can see equivalences), and allows the next value to see any
equivalences (reuses of loads or stored values) that alias analysis
uncovers.
- Two, a forward pass in domtree preorder, that "elaborates" pure enodes
back into the layout, possibly in multiple places if needed. This
tracks the loop nest and hoists nodes as needed, performing LICM as it
goes. Note that by doing this in forward order, we avoid the
"fixpoint" that traditional LICM needs: we hoist a def before its
uses, so when we place a node, we place it in the right place the
first time rather than moving later.
This PR replaces the old (a)egraph implementation. It removes both the
cranelift-egraph crate and the logic in cranelift-codegen that uses it.
On `spidermonkey.wasm` running a simple recursive Fibonacci
microbenchmark, this work shows 5.5% compile-time reduction and 7.7%
runtime improvement (speedup).
Most of this implementation was done in (very productive) pair
programming sessions with Jamey Sharp, thus:
Co-authored-by: Jamey Sharp <jsharp@fastly.com>
* Review feedback.
* Review feedback.
* Review feedback.
* Bugfix: cprop rule: `(x + k1) - k2` becomes `x - (k2 - k1)`, not `x - (k1 - k2)`.
Co-authored-by: Jamey Sharp <jsharp@fastly.com>
* egraphs: a few miscellaneous compile-time optimizations.
These optimizations together are worth about a 2% compile-time
reduction, as measured on one core with spidermonkey.wasm as an input,
using `hyperfine` on `wasmtime compile`.
The changes included are:
- Some better pre-allocation (blockparams and side-effects concatenated
list vecs);
- Avoiding the indirection of storing list-of-types for every Pure and
Inst node, when almost all nodes produce only a single result;
instead, store arity and single type if it exists, and allow result
projection nodes to fill in types otherwise;
- Pack the `MemoryState` enum into one `u32` (this together with the
above removal of the type slice allows `Node` to
shrink from 48 bytes to 32 bytes);
- always-inline an accessor (`entry` on `CtxHash`) that wasn't
(`always(inline)` appears to be load-bearing, rather than just
`inline`);
- Split the update-analysis path into two hotpaths, one for the union
case and one for the new-node case (and the former can avoid
recomputing for the contained node when replacing a node with
node-and-child eclass entry).
* Review feedback.
* Fix test build.
* Fix to lowering when unused output with invalid type is present.
Remove the boolean types from cranelift, and the associated instructions breduce, bextend, bconst, and bint. Standardize on using 1/0 for the return value from instructions that produce scalar boolean results, and -1/0 for boolean vector elements.
Fixes#3205
Co-authored-by: Afonso Bordado <afonso360@users.noreply.github.com>
Co-authored-by: Ulrich Weigand <ulrich.weigand@de.ibm.com>
Co-authored-by: Chris Fallin <chris@cfallin.org>
* egraph-based midend: draw the rest of the owl.
* Rename `egg` submodule of cranelift-codegen to `egraph`.
* Apply some feedback from @jsharp during code walkthrough.
* Remove recursion from find_best_node by doing a single pass.
Rather than recursively computing the lowest-cost node for a given
eclass and memoizing the answer at each eclass node, we can do a single
forward pass; because every eclass node refers only to earlier nodes,
this is sufficient. The behavior may slightly differ from the earlier
behavior because we cannot short-circuit costs to zero once a node is
elaborated; but in practice this should not matter.
* Make elaboration non-recursive.
Use an explicit stack instead (with `ElabStackEntry` entries,
alongside a result stack).
* Make elaboration traversal of the domtree non-recursive/stack-safe.
* Work analysis logic in Cranelift-side egraph glue into a general analysis framework in cranelift-egraph.
* Apply static recursion limit to rule application.
* Fix aarch64 wrt dynamic-vector support -- broken rebase.
* Topo-sort cranelift-egraph before cranelift-codegen in publish script, like the comment instructs me to!
* Fix multi-result call testcase.
* Include `cranelift-egraph` in `PUBLISHED_CRATES`.
* Fix atomic_rmw: not really a load.
* Remove now-unnecessary PartialOrd/Ord derivations.
* Address some code-review comments.
* Review feedback.
* Review feedback.
* No overlap in mid-end rules, because we are defining a multi-constructor.
* rustfmt
* Review feedback.
* Review feedback.
* Review feedback.
* Review feedback.
* Remove redundant `mut`.
* Add comment noting what rules can do.
* Review feedback.
* Clarify comment wording.
* Update `has_memory_fence_semantics`.
* Apply @jameysharp's improved loop-level computation.
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Fix suggestion commit.
* Fix off-by-one in new loop-nest analysis.
* Review feedback.
* Review feedback.
* Review feedback.
* Use `Default`, not `std::default::Default`, as per @fitzgen
Co-authored-by: Nick Fitzgerald <fitzgen@gmail.com>
* Apply @fitzgen's comment elaboration to a doc-comment.
Co-authored-by: Nick Fitzgerald <fitzgen@gmail.com>
* Add stat for hitting the rewrite-depth limit.
* Some code motion in split prelude to make the diff a little clearer wrt `main`.
* Take @jameysharp's suggested `try_into()` usage for blockparam indices.
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Take @jameysharp's suggestion to avoid double-match on load op.
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Fix suggestion (add import).
* Review feedback.
* Fix stack_load handling.
* Remove redundant can_store case.
* Take @jameysharp's suggested improvement to FuncEGraph::build() logic
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Tweaks to FuncEGraph::build() on top of suggestion.
* Take @jameysharp's suggested clarified condition
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Clean up after suggestion (unused variable).
* Fix loop analysis.
* loop level asserts
* Revert constant-space loop analysis -- edge cases were incorrect, so let's go with the simple thing for now.
* Take @jameysharp's suggestion re: result_tys
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Fix up after suggestion
* Take @jameysharp's suggestion to use fold rather than reduce
Co-authored-by: Jamey Sharp <jamey@minilop.net>
* Fixup after suggestion
* Take @jameysharp's suggestion to remove elaborate_eclass_use's return value.
* Clarifying comment in terminator insts.
Co-authored-by: Jamey Sharp <jamey@minilop.net>
Co-authored-by: Nick Fitzgerald <fitzgen@gmail.com>
