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cmd/compile: remove post-inlining PGO graph dump
The RedirectEdges logic is fragile and not quite complete (doesn't update in-edges), which adds overhead to maintaining this package. In my opinion, the post-inlining graph doesn't provide as much value as the pre-inlining graph. Even the latter I am not convinced should be in the compiler rather than an external tool, but it is comparatively easier to maintain. Drop it for now. Perhaps we'll want it back in the future for tracking follow-up optimizations, but for now keep things simple. Change-Id: I3133a2eb97893a14a6770547f96a3f1796798d17 Reviewed-on: https://go-review.googlesource.com/c/go/+/494655 TryBot-Result: Gopher Robot <gobot@golang.org> Reviewed-by: Cherry Mui <cherryyz@google.com> Run-TryBot: Michael Pratt <mpratt@google.com>
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@ -63,10 +63,6 @@ var (
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// TODO(prattmic): Make this non-global.
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candHotEdgeMap = make(map[pgo.CallSiteInfo]struct{})
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// List of inlined call sites. CallSiteInfo.Callee is always nil.
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// TODO(prattmic): Make this non-global.
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inlinedCallSites = make(map[pgo.CallSiteInfo]struct{})
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// Threshold in percentage for hot callsite inlining.
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inlineHotCallSiteThresholdPercent float64
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@ -158,23 +154,6 @@ func hotNodesFromCDF(p *pgo.Profile) (float64, []pgo.NodeMapKey) {
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return 0, nodes
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}
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// pgoInlineEpilogue updates IRGraph after inlining.
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func pgoInlineEpilogue(p *pgo.Profile, decls []ir.Node) {
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if base.Debug.PGOInline >= 2 {
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ir.VisitFuncsBottomUp(decls, func(list []*ir.Func, recursive bool) {
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for _, f := range list {
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name := ir.LinkFuncName(f)
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if n, ok := p.WeightedCG.IRNodes[name]; ok {
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p.RedirectEdges(n, inlinedCallSites)
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}
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}
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})
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// Print the call-graph after inlining. This is a debugging feature.
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fmt.Printf("hot-cg after inline in dot:")
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p.PrintWeightedCallGraphDOT(inlineHotCallSiteThresholdPercent)
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}
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}
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// InlinePackage finds functions that can be inlined and clones them before walk expands them.
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func InlinePackage(p *pgo.Profile) {
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InlineDecls(p, typecheck.Target.Decls, true)
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@ -223,10 +202,6 @@ func InlineDecls(p *pgo.Profile, decls []ir.Node, doInline bool) {
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}
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}
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})
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if p != nil {
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pgoInlineEpilogue(p, decls)
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}
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}
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// garbageCollectUnreferencedHiddenClosures makes a pass over all the
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@ -1147,13 +1122,6 @@ func mkinlcall(n *ir.CallExpr, fn *ir.Func, bigCaller bool, inlCalls *[]*ir.Inli
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fmt.Printf("%v: Before inlining: %+v\n", ir.Line(n), n)
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}
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if base.Debug.PGOInline > 0 {
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csi := pgo.CallSiteInfo{LineOffset: pgo.NodeLineOffset(n, fn), Caller: ir.CurFunc}
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if _, ok := inlinedCallSites[csi]; !ok {
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inlinedCallSites[csi] = struct{}{}
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}
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}
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res := InlineCall(n, fn, inlIndex)
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if res == nil {
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@ -415,74 +415,6 @@ func (p *Profile) PrintWeightedCallGraphDOT(edgeThreshold float64) {
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fmt.Printf("}\n")
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}
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// RedirectEdges deletes and redirects out-edges from node cur based on
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// inlining information via inlinedCallSites.
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//
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// CallSiteInfo.Callee must be nil.
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func (p *Profile) RedirectEdges(cur *IRNode, inlinedCallSites map[CallSiteInfo]struct{}) {
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g := p.WeightedCG
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i := 0
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outs := g.OutEdges[cur]
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for i < len(outs) {
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outEdge := outs[i]
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redirected := false
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_, found := inlinedCallSites[CallSiteInfo{LineOffset: outEdge.CallSiteOffset, Caller: cur.AST}]
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if !found {
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for _, InEdge := range g.InEdges[cur] {
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if _, ok := inlinedCallSites[CallSiteInfo{LineOffset: InEdge.CallSiteOffset, Caller: InEdge.Src.AST}]; ok {
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weight := g.calculateWeight(InEdge.Src, cur)
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g.redirectEdge(InEdge.Src, outEdge, weight)
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redirected = true
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}
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}
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}
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if found || redirected {
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g.remove(cur, i)
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outs = g.OutEdges[cur]
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continue
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}
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i++
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}
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}
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// redirectEdge redirects a node's out-edge to one of its parent nodes, cloning is
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// required as the node might be inlined in multiple call-sites.
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// TODO: adjust the in-edges of outEdge.Dst if necessary
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func (g *IRGraph) redirectEdge(parent *IRNode, outEdge *IREdge, weight int64) {
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edge := &IREdge{Src: parent, Dst: outEdge.Dst, Weight: weight * outEdge.Weight, CallSiteOffset: outEdge.CallSiteOffset}
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g.OutEdges[parent] = append(g.OutEdges[parent], edge)
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}
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// remove deletes the cur-node's out-edges at index idx.
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func (g *IRGraph) remove(cur *IRNode, i int) {
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if len(g.OutEdges[cur]) >= 2 {
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g.OutEdges[cur][i] = g.OutEdges[cur][len(g.OutEdges[cur])-1]
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g.OutEdges[cur] = g.OutEdges[cur][:len(g.OutEdges[cur])-1]
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} else {
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delete(g.OutEdges, cur)
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}
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}
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// calculateWeight calculates the weight of the new redirected edge.
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func (g *IRGraph) calculateWeight(parent *IRNode, cur *IRNode) int64 {
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sum := int64(0)
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pw := int64(0)
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for _, InEdge := range g.InEdges[cur] {
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sum += InEdge.Weight
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if InEdge.Src == parent {
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pw = InEdge.Weight
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}
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}
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weight := int64(0)
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if sum != 0 {
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weight = pw / sum
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} else {
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weight = pw
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}
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return weight
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}
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// inlCallee is same as the implementation for inl.go with one change. The change is that we do not invoke CanInline on a closure.
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func inlCallee(fn ir.Node) *ir.Func {
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fn = ir.StaticValue(fn)
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