// Copyright 2015 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package ssa
// layout orders basic blocks in f with the goal of minimizing control flow instructions.
// After this phase returns, the order of f.Blocks matters and is the order
// in which those blocks will appear in the assembly output.
func layout(f *Func) {
order := make([]*Block, 0, f.NumBlocks())
scheduled := make([]bool, f.NumBlocks())
idToBlock := make([]*Block, f.NumBlocks())
indegree := make([]int, f.NumBlocks())
posdegree := f.newSparseSet(f.NumBlocks()) // blocks with positive remaining degree
defer f.retSparseSet(posdegree)
zerodegree := f.newSparseSet(f.NumBlocks()) // blocks with zero remaining degree
defer f.retSparseSet(zerodegree)
exit := f.newSparseSet(f.NumBlocks()) // exit blocks
defer f.retSparseSet(exit)
// Initialize indegree of each block
for _, b := range f.Blocks {
idToBlock[b.ID] = b
if b.Kind == BlockExit {
// exit blocks are always scheduled last
// TODO: also add blocks post-dominated by exit blocks
exit.add(b.ID)
continue
}
indegree[b.ID] = len(b.Preds)
if len(b.Preds) == 0 {
zerodegree.add(b.ID)
} else {
posdegree.add(b.ID)
}
}
bid := f.Entry.ID
blockloop:
for {
// add block to schedule
b := idToBlock[bid]
order = append(order, b)
scheduled[bid] = true
if len(order) == len(f.Blocks) {
break
}
for _, e := range b.Succs {
c := e.b
indegree[c.ID]--
if indegree[c.ID] == 0 {
posdegree.remove(c.ID)
zerodegree.add(c.ID)
}
}
// Pick the next block to schedule
// Pick among the successor blocks that have not been scheduled yet.
// Use likely direction if we have it.
var likely *Block
switch b.Likely {
case BranchLikely:
likely = b.Succs[0].b
case BranchUnlikely:
likely = b.Succs[1].b
}
if likely != nil && !scheduled[likely.ID] {
bid = likely.ID
continue
}
// Use degree for now.
bid = 0
mindegree := f.NumBlocks()
for _, e := range order[len(order)-1].Succs {
c := e.b
if scheduled[c.ID] || c.Kind == BlockExit {
continue
}
if indegree[c.ID] < mindegree {
mindegree = indegree[c.ID]
bid = c.ID
}
}
if bid != 0 {
continue
}
// TODO: improve this part
// No successor of the previously scheduled block works.
// Pick a zero-degree block if we can.
for zerodegree.size() > 0 {
cid := zerodegree.pop()
if !scheduled[cid] {
bid = cid
continue blockloop
}
}
// Still nothing, pick any non-exit block.
for posdegree.size() > 0 {
cid := posdegree.pop()
if !scheduled[cid] {
bid = cid
continue blockloop
}
}
// Pick any exit block.
// TODO: Order these to minimize jump distances?
for {
cid := exit.pop()
if !scheduled[cid] {
bid = cid
continue blockloop
}
}
}
f.Blocks = order
}