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package ir
import (
"go/types"
"golang.org/x/tools/go/ssa"
)
// This file implements several optimization passes (analysis + transform) to
// optimize code in SSA form before it is compiled to LLVM IR. It is based on
// the IR defined in ir.go.
// Make a readable version of a method signature (including the function name,
// excluding the receiver name). This string is used internally to match
// interfaces and to call the correct method on an interface. Examples:
//
// String() string
// Read([]byte) (int, error)
func MethodSignature(method *types.Func) string {
return method.Name() + signature(method.Type().(*types.Signature))
}
// Make a readable version of a function (pointer) signature.
// Examples:
//
// () string
// (string, int) (int, error)
func signature(sig *types.Signature) string {
s := ""
if sig.Params().Len() == 0 {
s += "()"
} else {
s += "("
for i := 0; i < sig.Params().Len(); i++ {
if i > 0 {
s += ", "
}
s += sig.Params().At(i).Type().String()
}
s += ")"
}
if sig.Results().Len() == 0 {
// keep as-is
} else if sig.Results().Len() == 1 {
s += " " + sig.Results().At(0).Type().String()
} else {
s += " ("
for i := 0; i < sig.Results().Len(); i++ {
if i > 0 {
s += ", "
}
s += sig.Results().At(i).Type().String()
}
s += ")"
}
return s
}
// Simple pass that removes dead code. This pass makes later analysis passes
// more useful.
func (p *Program) SimpleDCE() {
// Unmark all functions.
for _, f := range p.Functions {
f.flag = false
}
// Initial set of live functions. Include main.main, *.init and runtime.*
// functions.
main := p.mainPkg.Members["main"].(*ssa.Function)
runtimePkg := p.Program.ImportedPackage("runtime")
mathPkg := p.Program.ImportedPackage("math")
p.GetFunction(main).flag = true
worklist := []*ssa.Function{main}
for _, f := range p.Functions {
if f.exported || f.Synthetic == "package initializer" || f.Pkg == runtimePkg || (f.Pkg == mathPkg && f.Pkg != nil) {
if f.flag || isCGoInternal(f.Name()) {
continue
}
f.flag = true
worklist = append(worklist, f.Function)
}
}
// Mark all called functions recursively.
for len(worklist) != 0 {
f := worklist[len(worklist)-1]
worklist = worklist[:len(worklist)-1]
for _, block := range f.Blocks {
for _, instr := range block.Instrs {
if instr, ok := instr.(*ssa.MakeInterface); ok {
for _, sel := range getAllMethods(p.Program, instr.X.Type()) {
fn := p.Program.MethodValue(sel)
callee := p.GetFunction(fn)
if callee == nil {
// TODO: why is this necessary?
p.addFunction(fn)
callee = p.GetFunction(fn)
}
if !callee.flag {
callee.flag = true
worklist = append(worklist, callee.Function)
}
}
}
for _, operand := range instr.Operands(nil) {
if operand == nil || *operand == nil || isCGoInternal((*operand).Name()) {
continue
}
switch operand := (*operand).(type) {
case *ssa.Function:
f := p.GetFunction(operand)
if f == nil {
// FIXME HACK: this function should have been
// discovered already. It is not for bound methods.
p.addFunction(operand)
f = p.GetFunction(operand)
}
if !f.flag {
f.flag = true
worklist = append(worklist, operand)
}
}
}
}
}
}
// Remove unmarked functions.
livefunctions := []*Function{}
for _, f := range p.Functions {
if f.flag {
livefunctions = append(livefunctions, f)
} else {
delete(p.functionMap, f.Function)
}
}
p.Functions = livefunctions
}