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cmd/compile: use generics for sparse map

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So it is easier to reuse this code with different key/value types.

Change-Id: I5a9e669769cf359b32f2fe784594868acdee4d02
Reviewed-on: https://go-review.googlesource.com/c/go/+/681175
Reviewed-by: Keith Randall <khr@google.com>
Reviewed-by: David Chase <drchase@google.com>
Auto-Submit: Keith Randall <khr@google.com>
LUCI-TryBot-Result: Go LUCI <golang-scoped@luci-project-accounts.iam.gserviceaccount.com>
Reviewed-by: Cherry Mui <cherryyz@google.com>
This commit is contained in:
Keith Randall 2025-06-11 17:14:59 -07:00 committed by Gopher Robot
parent 14f5eb7812
commit 6505fcbd0a
3 changed files with 39 additions and 39 deletions
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6
src/cmd/compile/internal/ssa/biasedsparsemap.go
View file

@ -68,7 +68,11 @@ func (s *biasedSparseMap) get(x uint) int32 {
if int(x) >= s.cap() {
return -1
}
return s.s.get(ID(int(x) - s.first))
k := ID(int(x) - s.first)
if !s.s.contains(k) {
return -1 // TODO: push presence check to callers?
}
return s.s.get(k)
}
// getEntry returns the i'th key and value stored in s,

4
src/cmd/compile/internal/ssa/deadstore.go
View file

@ -156,9 +156,7 @@ func dse(f *Func) {
// A shadowRange encodes a set of byte offsets [lo():hi()] from
// a given pointer that will be written to later in the block.
// A zero shadowRange encodes an empty shadowed range (and so
// does a -1 shadowRange, which is what sparsemap.get returns
// on a failed lookup).
// A zero shadowRange encodes an empty shadowed range.
type shadowRange int32
func (sr shadowRange) lo() int64 {

68
src/cmd/compile/internal/ssa/sparsemap.go
View file

@ -7,70 +7,60 @@ package ssa
// from https://research.swtch.com/sparse
// in turn, from Briggs and Torczon
type sparseEntry struct {
key ID
val int32
// sparseKey needs to be something we can index a slice with.
type sparseKey interface{ ~int | ~int32 }
type sparseEntry[K sparseKey, V any] struct {
key K
val V
}
type sparseMap struct {
dense []sparseEntry
type genericSparseMap[K sparseKey, V any] struct {
dense []sparseEntry[K, V]
sparse []int32
}
// newSparseMap returns a sparseMap that can map
// integers between 0 and n-1 to int32s.
func newSparseMap(n int) *sparseMap {
return &sparseMap{dense: nil, sparse: make([]int32, n)}
// newGenericSparseMap returns a sparseMap that can map
// integers between 0 and n-1 to a value type.
func newGenericSparseMap[K sparseKey, V any](n int) *genericSparseMap[K, V] {
return &genericSparseMap[K, V]{dense: nil, sparse: make([]int32, n)}
}
func (s *sparseMap) cap() int {
func (s *genericSparseMap[K, V]) cap() int {
return len(s.sparse)
}
func (s *sparseMap) size() int {
func (s *genericSparseMap[K, V]) size() int {
return len(s.dense)
}
func (s *sparseMap) contains(k ID) bool {
func (s *genericSparseMap[K, V]) contains(k K) bool {
i := s.sparse[k]
return i < int32(len(s.dense)) && s.dense[i].key == k
}
// get returns the value for key k, or -1 if k does
// not appear in the map.
func (s *sparseMap) get(k ID) int32 {
// get returns the value for key k, or the zero V
// if k does not appear in the map.
func (s *genericSparseMap[K, V]) get(k K) V {
i := s.sparse[k]
if i < int32(len(s.dense)) && s.dense[i].key == k {
return s.dense[i].val
}
return -1
var v V
return v
}
func (s *sparseMap) set(k ID, v int32) {
func (s *genericSparseMap[K, V]) set(k K, v V) {
i := s.sparse[k]
if i < int32(len(s.dense)) && s.dense[i].key == k {
s.dense[i].val = v
return
}
s.dense = append(s.dense, sparseEntry{k, v})
s.dense = append(s.dense, sparseEntry[K, V]{k, v})
s.sparse[k] = int32(len(s.dense)) - 1
}
// setBit sets the v'th bit of k's value, where 0 <= v < 32
func (s *sparseMap) setBit(k ID, v uint) {
if v >= 32 {
panic("bit index too large.")
}
i := s.sparse[k]
if i < int32(len(s.dense)) && s.dense[i].key == k {
s.dense[i].val |= 1 << v
return
}
s.dense = append(s.dense, sparseEntry{k, 1 << v})
s.sparse[k] = int32(len(s.dense)) - 1
}
func (s *sparseMap) remove(k ID) {
func (s *genericSparseMap[K, V]) remove(k K) {
i := s.sparse[k]
if i < int32(len(s.dense)) && s.dense[i].key == k {
y := s.dense[len(s.dense)-1]
@ -80,10 +70,18 @@ func (s *sparseMap) remove(k ID) {
}
}
func (s *sparseMap) clear() {
func (s *genericSparseMap[K, V]) clear() {
s.dense = s.dense[:0]
}
func (s *sparseMap) contents() []sparseEntry {
func (s *genericSparseMap[K, V]) contents() []sparseEntry[K, V] {
return s.dense
}
type sparseMap = genericSparseMap[ID, int32]
// newSparseMap returns a sparseMap that can map
// integers between 0 and n-1 to int32s.
func newSparseMap(n int) *sparseMap {
return newGenericSparseMap[ID, int32](n)
}