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optimizer.go
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optimizer.go
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/*
* Copyright 2022 ByteDance Inc.
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package encoder
import (
`encoding/binary`
`fmt`
`sort`
`strings`
`unsafe`
`github.com/cloudwego/frugal/internal/rt`
`github.com/oleiade/lane`
)
type BasicBlock struct {
P Program
Src int
End int
Next *BasicBlock
Link *BasicBlock
}
func (self *BasicBlock) Len() int {
return self.End - self.Src
}
func (self *BasicBlock) Free() {
q := lane.NewQueue()
m := make(map[*BasicBlock]struct{})
/* traverse the graph with BFS */
for q.Enqueue(self); !q.Empty(); {
v := q.Dequeue()
p := v.(*BasicBlock)
/* add branch to queue */
if p.Link != nil {
if _, ok := m[p.Link]; !ok {
q.Enqueue(p.Link)
}
}
/* clear branch, and add to free list */
m[p] = struct{}{}
p.Link = nil
}
/* reset and free all the nodes */
for p := range m {
p.Next = nil
freeBasicBlock(p)
}
}
func (self *BasicBlock) String() string {
n := self.End - self.Src
v := make([]string, n + 1)
/* dump every instructions */
for i := self.Src; i < self.End; i++ {
v[i - self.Src + 1] = " " + self.P[i].Disassemble()
}
/* add the entry label */
v[0] = fmt.Sprintf("L_%d:", self.Src)
return strings.Join(v, "\n")
}
type GraphBuilder struct {
Pin map[int]bool
Graph map[int]*BasicBlock
}
func (self *GraphBuilder) scan(p Program) {
for _, v := range p {
if _OpBranches[v.Op] {
self.Pin[v.To] = true
}
}
}
func (self *GraphBuilder) block(p Program, i int, bb *BasicBlock) {
bb.Src = i
bb.End = i
/* traverse down until it hits a branch instruction */
for i < len(p) && !_OpBranches[p[i].Op] {
i++
bb.End++
/* hit a merge point, merge with existing block */
if self.Pin[i] {
bb.Next = self.branch(p, i)
return
}
}
/* end of basic block */
if i == len(p) {
return
}
/* also include the branch instruction */
bb.End++
bb.Next = self.branch(p, p[i].To)
/* GOTO instruction doesn't technically "branch", anything
* sits between it and the next branch target are unreachable. */
if p[i].Op != OP_goto {
bb.Link = bb.Next
bb.Next = self.branch(p, i + 1)
}
}
func (self *GraphBuilder) branch(p Program, i int) *BasicBlock {
var ok bool
var bb *BasicBlock
/* check for existing basic blocks */
if bb, ok = self.Graph[i]; ok {
return bb
}
/* create a new block */
bb = newBasicBlock()
bb.P, bb.Next, bb.Link = p, nil, nil
/* process the new block */
self.Graph[i] = bb
self.block(p, i, bb)
return bb
}
func (self *GraphBuilder) Free() {
rt.MapClear(self.Pin)
rt.MapClear(self.Graph)
freeGraphBuilder(self)
}
func (self *GraphBuilder) Build(p Program) *BasicBlock {
self.scan(p)
return self.branch(p, 0)
}
func (self *GraphBuilder) BuildAndFree(p Program) (bb *BasicBlock) {
bb = self.Build(p)
self.Free()
return
}
type _OptimizerState struct {
buf []*BasicBlock
refs map[int]int
mask map[*BasicBlock]bool
}
func (self *_OptimizerState) visit(bb *BasicBlock) bool {
var mm bool
var ok bool
/* check for duplication */
if mm, ok = self.mask[bb]; mm && ok {
return false
}
/* add to block buffer */
self.buf = append(self.buf, bb)
self.mask[bb] = true
return true
}
func Optimize(p Program) Program {
acc := 0
ret := newProgram()
buf := lane.NewQueue()
ctx := newOptimizerState()
cfg := newGraphBuilder().BuildAndFree(p)
/* travel with BFS */
for buf.Enqueue(cfg); !buf.Empty(); {
v := buf.Dequeue()
b := v.(*BasicBlock)
/* check for duplication, and then mark as visited */
if !ctx.visit(b) {
continue
}
/* optimize each block */
for _, pass := range _PassTab {
pass(b)
}
/* add conditional branches if any */
if b.Next != nil { buf.Enqueue(b.Next) }
if b.Link != nil { buf.Enqueue(b.Link) }
}
/* sort the blocks by entry point */
sort.Slice(ctx.buf, func(i int, j int) bool {
return ctx.buf[i].Src < ctx.buf[j].Src
})
/* remap all the branch locations */
for _, bb := range ctx.buf {
ctx.refs[bb.Src] = acc
acc += bb.End - bb.Src
}
/* adjust all the branch targets */
for _, bb := range ctx.buf {
if end := bb.End; bb.Src != end {
if ins := &bb.P[end - 1]; _OpBranches[ins.Op] {
ins.To = ctx.refs[ins.To]
}
}
}
/* merge all the basic blocks */
for _, bb := range ctx.buf {
ret = append(ret, bb.P[bb.Src:bb.End]...)
}
/* release the original program */
p.Free()
freeOptimizerState(ctx)
return ret
}
var _PassTab = [...]func(p *BasicBlock) {
_PASS_StaticSizeMerging,
_PASS_SeekMerging,
_PASS_NopElimination,
_PASS_SizeCheckMerging,
_PASS_LiteralMerging,
_PASS_Compacting,
}
const (
_NOP OpCode = 0xff
)
func init() {
_OpNames[_NOP] = "(nop)"
}
func checksl(s *[]byte, n int) *rt.GoSlice {
sl := (*rt.GoSlice)(unsafe.Pointer(s))
sn := sl.Len
/* check for length */
if sn + n > sl.Cap {
panic("slice overflow")
} else {
return sl
}
}
func append1(s *[]byte, v byte) {
sl := checksl(s, 1)
sl.Set(sl.Len, v)
sl.Len++
}
func append2(s *[]byte, v uint16) {
sl := checksl(s, 2)
sl.Set(sl.Len + 0, byte(v >> 8))
sl.Set(sl.Len + 1, byte(v))
sl.Len += 2
}
func append4(s *[]byte, v uint32) {
sl := checksl(s, 4)
sl.Set(sl.Len + 0, byte(v >> 24))
sl.Set(sl.Len + 1, byte(v >> 16))
sl.Set(sl.Len + 2, byte(v >> 8))
sl.Set(sl.Len + 3, byte(v))
sl.Len += 4
}
func append8(s *[]byte, v uint64) {
sl := checksl(s, 8)
sl.Set(sl.Len + 0, byte(v >> 56))
sl.Set(sl.Len + 1, byte(v >> 48))
sl.Set(sl.Len + 2, byte(v >> 40))
sl.Set(sl.Len + 3, byte(v >> 32))
sl.Set(sl.Len + 4, byte(v >> 24))
sl.Set(sl.Len + 5, byte(v >> 16))
sl.Set(sl.Len + 6, byte(v >> 8))
sl.Set(sl.Len + 7, byte(v))
sl.Len += 8
}
// Static Size Merging Pass: merges constant size instructions as much as possible.
func _PASS_StaticSizeMerging(bb *BasicBlock) {
for i := bb.Src; i < bb.End; i++ {
if p := &bb.P[i]; p.Op == OP_size_const {
for r, j := true, i + 1; r && j < bb.End; i, j = i + 1, j + 1 {
switch bb.P[j].Op {
case _NOP : break
case OP_seek : break
case OP_deref : break
case OP_size_dyn : break
case OP_size_const : p.Iv += bb.P[j].Iv; bb.P[j].Op = _NOP
default : r = false
}
}
}
}
}
// Seek Merging Pass: merges seeking instructions as much as possible.
func _PASS_SeekMerging(bb *BasicBlock) {
for i := bb.Src; i < bb.End; i++ {
if p := &bb.P[i]; p.Op == OP_seek {
for r, j := true, i + 1; r && j < bb.End; i, j = i + 1, j + 1 {
switch bb.P[j].Op {
case _NOP : break
case OP_seek : p.Iv += bb.P[j].Iv; bb.P[j].Op = _NOP
default : r = false
}
}
}
}
}
// NOP Elimination Pass: remove instructions that are effectively NOPs (`seek 0`, `size_const 0`)
func _PASS_NopElimination(bb *BasicBlock) {
for i := bb.Src; i < bb.End; i++ {
if bb.P[i].Iv == 0 && (bb.P[i].Op == OP_seek || bb.P[i].Op == OP_size_const) {
bb.P[i].Op = _NOP
}
}
}
// Size Check Merging Pass: merges size-checking instructions as much as possible.
func _PASS_SizeCheckMerging(bb *BasicBlock) {
for i := bb.Src; i < bb.End; i++ {
if p := &bb.P[i]; p.Op == OP_size_check {
for r, j := true, i + 1; r && j < bb.End; i, j = i + 1, j + 1 {
switch bb.P[j].Op {
case _NOP : break
case OP_byte : break
case OP_word : break
case OP_long : break
case OP_quad : break
case OP_sint : break
case OP_seek : break
case OP_deref : break
case OP_length : break
case OP_memcpy_be : break
case OP_size_check : p.Iv += bb.P[j].Iv; bb.P[j].Op = _NOP
default : r = false
}
}
}
}
}
// Literal Merging Pass: merges all consectutive byte, word or long instructions.
func _PASS_LiteralMerging(bb *BasicBlock) {
p := bb.P
i := bb.Src
/* scan every instruction */
for i < bb.End {
iv := p[i]
op := iv.Op
/* only interested in literal instructions */
if op < OP_byte || op > OP_quad {
i++
continue
}
/* byte merging buffer */
ip := i
mm := [15]byte{}
sl := mm[:0:cap(mm)]
/* scan for consecutive bytes */
loop: for i < bb.End {
iv = p[i]
op = iv.Op
/* check for OpCode */
switch op {
case _NOP : i++; continue
case OP_seek : i++; continue
case OP_deref : i++; continue
case OP_byte : append1(&sl, byte(iv.Iv))
case OP_word : append2(&sl, uint16(iv.Iv))
case OP_long : append4(&sl, uint32(iv.Iv))
case OP_quad : append8(&sl, uint64(iv.Iv))
default : break loop
}
/* adjust the program counter */
p[i].Op = _NOP
i++
/* commit the buffer if needed */
for len(sl) >= 8 {
p[ip] = Instr{Op: OP_quad, Iv: int64(binary.BigEndian.Uint64(sl))}
sl = sl[8:]
ip++
}
/* move the remaining bytes to the front */
copy(mm[:], sl)
sl = mm[:len(sl):cap(mm)]
}
/* add the remaining bytes */
if len(sl) >= 4 { p[ip] = Instr{Op: OP_long, Iv: int64(binary.BigEndian.Uint32(sl))} ; sl = sl[4:]; ip++ }
if len(sl) >= 2 { p[ip] = Instr{Op: OP_word, Iv: int64(binary.BigEndian.Uint16(sl))} ; sl = sl[2:]; ip++ }
if len(sl) >= 1 { p[ip] = Instr{Op: OP_byte, Iv: int64(sl[0])} ; sl = sl[1:]; ip++ }
}
}
// Compacting Pass: remove all the placeholder NOP instructions inserted in the previous pass.
func _PASS_Compacting(bb *BasicBlock) {
var i int
var j int
/* copy instructins excluding NOPs */
for i, j = bb.Src, bb.Src; i < bb.End; i++ {
if bb.P[i].Op != _NOP {
bb.P[j] = bb.P[i]
j++
}
}
/* update basic block end if needed */
if i != j {
bb.End = j
}
}