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[dev.typeparams] cmd/compile: record more typ/fun info for dictionaries in unified IR

Records whether a derived type is needed at run-time as well as
instantiated functions that rely on derived types (and thus need
sub-dictionaries).

Change-Id: I2f2036976bfce5b3b4372fba88b4116dafa7e6b7
Reviewed-on: https://go-review.googlesource.com/c/go/+/334349
Trust: Matthew Dempsky <mdempsky@google.com>
Run-TryBot: Matthew Dempsky <mdempsky@google.com>
TryBot-Result: Go Bot <gobot@golang.org>
Reviewed-by: Cuong Manh Le <cuong.manhle.vn@gmail.com>
This commit is contained in:
Matthew Dempsky 2021-07-13 09:09:32 -07:00
parent 82744bfbfc
commit 5517053d17
4 changed files with 194 additions and 67 deletions

View File

@ -142,8 +142,11 @@ type readerDict struct {
// arguments; the rest are explicit.
implicits int
derivedReloc []int // reloc index of the derived type's descriptor
derived []*types.Type // slice of previously computed derived types
derived []derivedInfo // reloc index of the derived type's descriptor
derivedTypes []*types.Type // slice of previously computed derived types
funcs []objInfo
funcsObj []ir.Node
}
func (r *reader) setType(n ir.Node, typ *types.Type) {
@ -293,18 +296,23 @@ func (r *reader) doPkg() *types.Pkg {
// @@@ Types
func (r *reader) typ() *types.Type {
r.sync(syncType)
if r.bool() {
return r.p.typIdx(r.len(), r.dict)
}
return r.p.typIdx(r.reloc(relocType), nil)
return r.p.typIdx(r.typInfo(), r.dict)
}
func (pr *pkgReader) typIdx(idx int, dict *readerDict) *types.Type {
func (r *reader) typInfo() typeInfo {
r.sync(syncType)
if r.bool() {
return typeInfo{idx: r.len(), derived: true}
}
return typeInfo{idx: r.reloc(relocType), derived: false}
}
func (pr *pkgReader) typIdx(info typeInfo, dict *readerDict) *types.Type {
idx := info.idx
var where **types.Type
if dict != nil {
where = &dict.derived[idx]
idx = dict.derivedReloc[idx]
if info.derived {
where = &dict.derivedTypes[idx]
idx = dict.derived[idx].idx
} else {
where = &pr.typs[idx]
}
@ -493,6 +501,23 @@ var objReader = map[*types.Sym]pkgReaderIndex{}
func (r *reader) obj() ir.Node {
r.sync(syncObject)
if r.bool() {
idx := r.len()
obj := r.dict.funcsObj[idx]
if obj == nil {
fn := r.dict.funcs[idx]
targs := make([]*types.Type, len(fn.explicits))
for i, targ := range fn.explicits {
targs[i] = r.p.typIdx(targ, r.dict)
}
obj = r.p.objIdx(fn.idx, nil, targs)
assert(r.dict.funcsObj[idx] == nil)
r.dict.funcsObj[idx] = obj
}
return obj
}
idx := r.reloc(relocObj)
explicits := make([]*types.Type, r.len())
@ -539,10 +564,20 @@ func (pr *pkgReader) objIdx(idx int, implicits, explicits []*types.Type) ir.Node
{
rdict := pr.newReader(relocObjDict, idx, syncObject1)
r.dict.derivedReloc = make([]int, rdict.len())
r.dict.derived = make([]*types.Type, len(r.dict.derivedReloc))
r.dict.derived = make([]derivedInfo, rdict.len())
r.dict.derivedTypes = make([]*types.Type, len(r.dict.derived))
for i := range r.dict.derived {
r.dict.derivedReloc[i] = rdict.reloc(relocType)
r.dict.derived[i] = derivedInfo{rdict.reloc(relocType), rdict.bool()}
}
r.dict.funcs = make([]objInfo, rdict.len())
r.dict.funcsObj = make([]ir.Node, len(r.dict.funcs))
for i := range r.dict.funcs {
objIdx := rdict.reloc(relocObj)
targs := make([]typeInfo, rdict.len())
for j := range targs {
targs[j] = rdict.typInfo()
}
r.dict.funcs[i] = objInfo{idx: objIdx, explicits: targs}
}
}

View File

@ -61,12 +61,12 @@ type reader2 struct {
}
type reader2Dict struct {
bounds []reader2TypeBound
bounds []typeInfo
tparams []*types2.TypeParam
derivedReloc []int
derived []types2.Type
derived []derivedInfo
derivedTypes []types2.Type
}
type reader2TypeBound struct {
@ -176,18 +176,23 @@ func (r *reader2) doPkg() *types2.Package {
// @@@ Types
func (r *reader2) typ() types2.Type {
r.sync(syncType)
if r.bool() {
return r.p.typIdx(r.len(), r.dict)
}
return r.p.typIdx(r.reloc(relocType), nil)
return r.p.typIdx(r.typInfo(), r.dict)
}
func (pr *pkgReader2) typIdx(idx int, dict *reader2Dict) types2.Type {
func (r *reader2) typInfo() typeInfo {
r.sync(syncType)
if r.bool() {
return typeInfo{idx: r.len(), derived: true}
}
return typeInfo{idx: r.reloc(relocType), derived: false}
}
func (pr *pkgReader2) typIdx(info typeInfo, dict *reader2Dict) types2.Type {
idx := info.idx
var where *types2.Type
if dict != nil {
where = &dict.derived[idx]
idx = dict.derivedReloc[idx]
if info.derived {
where = &dict.derivedTypes[idx]
idx = dict.derived[idx].idx
} else {
where = &pr.typs[idx]
}
@ -339,6 +344,8 @@ func (r *reader2) param() *types2.Var {
func (r *reader2) obj() (types2.Object, []types2.Type) {
r.sync(syncObject)
assert(!r.bool())
pkg, name := r.p.objIdx(r.reloc(relocObj))
obj := pkg.Scope().Lookup(name)
@ -367,11 +374,12 @@ func (pr *pkgReader2) objIdx(idx int) (*types2.Package, string) {
{
rdict := r.p.newReader(relocObjDict, idx, syncObject1)
r.dict.derivedReloc = make([]int, rdict.len())
r.dict.derived = make([]types2.Type, len(r.dict.derivedReloc))
r.dict.derived = make([]derivedInfo, rdict.len())
r.dict.derivedTypes = make([]types2.Type, len(r.dict.derived))
for i := range r.dict.derived {
r.dict.derivedReloc[i] = rdict.reloc(relocType)
r.dict.derived[i] = derivedInfo{rdict.reloc(relocType), rdict.bool()}
}
// function references follow, but reader2 doesn't need those
}
objPkg.Scope().InsertLazy(objName, func() types2.Object {
@ -438,16 +446,9 @@ func (r *reader2) typeParamBounds() {
base.Fatalf("unexpected object with %v implicit type parameter(s)", implicits)
}
r.dict.bounds = make([]reader2TypeBound, r.len())
r.dict.bounds = make([]typeInfo, r.len())
for i := range r.dict.bounds {
b := &r.dict.bounds[i]
r.sync(syncType)
b.derived = r.bool()
if b.derived {
b.boundIdx = r.len()
} else {
b.boundIdx = r.reloc(relocType)
}
r.dict.bounds[i] = r.typInfo()
}
}
@ -479,12 +480,7 @@ func (r *reader2) typeParamNames() []*types2.TypeName {
}
for i, bound := range r.dict.bounds {
var dict *reader2Dict
if bound.derived {
dict = r.dict
}
boundType := r.p.typIdx(bound.boundIdx, dict)
r.dict.tparams[i].SetBound(boundType)
r.dict.tparams[i].SetBound(r.p.typIdx(bound, r.dict))
}
return names

View File

@ -259,6 +259,7 @@ func readPackage(pr *pkgReader, importpkg *types.Pkg) {
for i, n := 0, r.len(); i < n; i++ {
r.sync(syncObject)
assert(!r.bool())
idx := r.reloc(relocObj)
assert(r.len() == 0)
@ -293,6 +294,7 @@ func writeNewExport(out io.Writer) {
for i, n := 0, r.len(); i < n; i++ {
r.sync(syncObject)
assert(!r.bool())
idx := r.reloc(relocObj)
assert(r.len() == 0)
@ -325,6 +327,7 @@ func writeNewExport(out io.Writer) {
w.len(len(idxs))
for _, idx := range idxs {
w.sync(syncObject)
w.bool(false)
w.reloc(relocObj, idx)
w.len(0)
}

View File

@ -103,11 +103,53 @@ type writerDict struct {
// derived is a slice of type indices for computing derived types
// (i.e., types that depend on the declaration's type parameters).
derived []int
derived []derivedInfo
// derivedIdx maps a Type to its corresponding index within the
// derived slice, if present.
derivedIdx map[types2.Type]int
// funcs lists references to generic functions that were
// instantiated with derived types (i.e., that require
// sub-dictionaries when called at run time).
funcs []objInfo
}
type derivedInfo struct {
idx int
needed bool
}
type typeInfo struct {
idx int
derived bool
}
type objInfo struct {
idx int // index for the generic function declaration
explicits []typeInfo // info for the type arguments
}
func (info objInfo) anyDerived() bool {
for _, explicit := range info.explicits {
if explicit.derived {
return true
}
}
return false
}
func (info objInfo) equals(other objInfo) bool {
if info.idx != other.idx {
return false
}
assert(len(info.explicits) == len(other.explicits))
for i, targ := range info.explicits {
if targ != other.explicits[i] {
return false
}
}
return true
}
func (pw *pkgWriter) newWriter(k reloc, marker syncMarker) *writer {
@ -200,14 +242,16 @@ func (pw *pkgWriter) pkgIdx(pkg *types2.Package) int {
// @@@ Types
func (w *writer) typ(typ types2.Type) {
idx, derived := w.p.typIdx(typ, w.dict)
w.typInfo(w.p.typIdx(typ, w.dict))
}
func (w *writer) typInfo(info typeInfo) {
w.sync(syncType)
if w.bool(derived) {
w.len(idx)
if w.bool(info.derived) {
w.len(info.idx)
w.derived = true
} else {
w.reloc(relocType, idx)
w.reloc(relocType, info.idx)
}
}
@ -216,17 +260,17 @@ func (w *writer) typ(typ types2.Type) {
//
// typIdx also reports whether typ is a derived type; that is, whether
// its identity depends on type parameters.
func (pw *pkgWriter) typIdx(typ types2.Type, dict *writerDict) (int, bool) {
func (pw *pkgWriter) typIdx(typ types2.Type, dict *writerDict) typeInfo {
if quirksMode() {
typ = pw.dups.orig(typ)
}
if idx, ok := pw.typsIdx[typ]; ok {
return idx, false
return typeInfo{idx: idx, derived: false}
}
if dict != nil {
if idx, ok := dict.derivedIdx[typ]; ok {
return idx, true
return typeInfo{idx: idx, derived: true}
}
}
@ -324,13 +368,13 @@ func (pw *pkgWriter) typIdx(typ types2.Type, dict *writerDict) (int, bool) {
if w.derived {
idx := len(dict.derived)
dict.derived = append(dict.derived, w.flush())
dict.derived = append(dict.derived, derivedInfo{idx: w.flush()})
dict.derivedIdx[typ] = idx
return idx, true
return typeInfo{idx: idx, derived: true}
}
pw.typsIdx[typ] = w.idx
return w.flush(), false
return typeInfo{idx: w.flush(), derived: false}
}
func (w *writer) structType(typ *types2.Struct) {
@ -398,6 +442,34 @@ func (w *writer) param(param *types2.Var) {
// @@@ Objects
func (w *writer) obj(obj types2.Object, explicits []types2.Type) {
explicitInfos := make([]typeInfo, len(explicits))
for i, explicit := range explicits {
explicitInfos[i] = w.p.typIdx(explicit, w.dict)
}
info := objInfo{idx: w.p.objIdx(obj), explicits: explicitInfos}
if _, ok := obj.(*types2.Func); ok && info.anyDerived() {
idx := -1
for i, prev := range w.dict.funcs {
if prev.equals(info) {
idx = i
}
}
if idx < 0 {
idx = len(w.dict.funcs)
w.dict.funcs = append(w.dict.funcs, info)
}
// TODO(mdempsky): Push up into expr; this shouldn't appear
// outside of expression context.
w.sync(syncObject)
w.bool(true)
w.len(idx)
return
}
// TODO(mdempsky): Push up into typIdx; this shouldn't be needed
// except while writing out types.
if isDefinedType(obj) && obj.Pkg() == w.p.curpkg {
decl, ok := w.p.typDecls[obj.(*types2.TypeName)]
assert(ok)
@ -407,11 +479,12 @@ func (w *writer) obj(obj types2.Object, explicits []types2.Type) {
}
w.sync(syncObject)
w.reloc(relocObj, w.p.objIdx(obj))
w.bool(false)
w.reloc(relocObj, info.idx)
w.len(len(explicits))
for _, explicit := range explicits {
w.typ(explicit)
w.len(len(info.explicits))
for _, info := range info.explicits {
w.typInfo(info)
}
}
@ -453,16 +526,19 @@ func (pw *pkgWriter) objIdx(obj types2.Object) int {
w.ext.flush()
// Done writing out the object description; write out the list of
// derived types that we found along the way.
//
// TODO(mdempsky): Record details about how derived types are
// actually used so reader can optimize its runtime dictionaries.
//
// TODO(mdempsky): Record details about which instantiated functions
// are used too.
// derived types and instantiated functions found along the way.
wdict.len(len(dict.derived))
for _, typ := range dict.derived {
wdict.reloc(relocType, typ)
wdict.reloc(relocType, typ.idx)
wdict.bool(typ.needed)
}
wdict.len(len(dict.funcs))
for _, fn := range dict.funcs {
wdict.reloc(relocObj, fn.idx)
wdict.len(len(fn.explicits))
for _, targ := range fn.explicits {
wdict.typInfo(targ)
}
}
wdict.flush()
@ -1103,6 +1179,9 @@ func (w *writer) expr(expr syntax.Expr) {
obj, targs := lookupObj(w.p.info, expr)
if tv, ok := w.p.info.Types[expr]; ok {
// TODO(mdempsky): Be more judicious about which types are marked as "needed".
w.needType(tv.Type)
if tv.IsType() {
w.code(exprType)
w.typ(tv.Type)
@ -1356,6 +1435,20 @@ func (w *writer) op(op ir.Op) {
w.len(int(op))
}
func (w *writer) needType(typ types2.Type) {
// Decompose tuple into component element types.
if typ, ok := typ.(*types2.Tuple); ok {
for i := 0; i < typ.Len(); i++ {
w.needType(typ.At(i).Type())
}
return
}
if info := w.p.typIdx(typ, w.dict); info.derived {
w.dict.derived[info.idx].needed = true
}
}
// @@@ Package initialization
// Caution: This code is still clumsy, because toolstash -cmp is