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mirror of https://github.com/golang/go synced 2024-11-19 08:54:47 -07:00
go/ssa/interp/interp.go
Alan Donovan 6c7ce1c2d3 go.tools/ssa: Value.Pos() method + remaining source position plumbing.
Implement Pos() method for
  Values:       Parameter, Capture, Phi.  (Not Literal, Builtin.)
  Instructions: UnOp, BinOp, Store.

'address' (an lvalue) now needs position of '*' in "*addr".

Also:
- Un-export fields Pos_ Type_ Name_ Block_ from various values/instructions.
  Define NewFunction() as a temporary measure.
  Will try to eliminate calls from clients...
- Remove Implements{Value,Member,Interface} marker methods.
  I've decided I don't like them.
- Func.addParamObj helper.
- Various comment fixes.

R=gri
CC=golang-dev
https://golang.org/cl/9740046
2013-05-30 09:59:17 -04:00

626 lines
16 KiB
Go

// Package exp/ssa/interp defines an interpreter for the SSA
// representation of Go programs.
//
// This interpreter is provided as an adjunct for testing the SSA
// construction algorithm. Its purpose is to provide a minimal
// metacircular implementation of the dynamic semantics of each SSA
// instruction. It is not, and will never be, a production-quality Go
// interpreter.
//
// The following is a partial list of Go features that are currently
// unsupported or incomplete in the interpreter.
//
// * Unsafe operations, including all uses of unsafe.Pointer, are
// impossible to support given the "boxed" value representation we
// have chosen.
//
// * The reflect package is only partially implemented.
//
// * "sync/atomic" operations are not currently atomic due to the
// "boxed" value representation: it is not possible to read, modify
// and write an interface value atomically. As a consequence, Mutexes
// are currently broken. TODO(adonovan): provide a metacircular
// implementation of Mutex avoiding the broken atomic primitives.
//
// * recover is only partially implemented. Also, the interpreter
// makes no attempt to distinguish target panics from interpreter
// crashes.
//
// * map iteration is asymptotically inefficient.
//
// * the equivalence relation for structs doesn't skip over blank
// fields.
//
// * the sizes of the int, uint and uintptr types in the target
// program are assumed to be the same as those of the interpreter
// itself.
//
// * all values occupy space, even those of types defined by the spec
// to have zero size, e.g. struct{}. This can cause asymptotic
// performance degradation.
//
// * os.Exit is implemented using panic, causing deferred functions to
// run.
package interp
import (
"fmt"
"go/ast"
"go/token"
"os"
"reflect"
"runtime"
"code.google.com/p/go.tools/go/types"
"code.google.com/p/go.tools/ssa"
)
type status int
const (
stRunning status = iota
stComplete
stPanic
)
type continuation int
const (
kNext continuation = iota
kReturn
kJump
)
// Mode is a bitmask of options affecting the interpreter.
type Mode uint
const (
DisableRecover Mode = 1 << iota // Disable recover() in target programs; show interpreter crash instead.
EnableTracing // Print a trace of all instructions as they are interpreted.
)
// State shared between all interpreted goroutines.
type interpreter struct {
prog *ssa.Program // the SSA program
globals map[ssa.Value]*value // addresses of global variables (immutable)
mode Mode // interpreter options
reflectPackage *ssa.Package // the fake reflect package
errorMethods ssa.MethodSet // the method set of reflect.error, which implements the error interface.
rtypeMethods ssa.MethodSet // the method set of rtype, which implements the reflect.Type interface.
}
type frame struct {
i *interpreter
caller *frame
fn *ssa.Function
block, prevBlock *ssa.BasicBlock
env map[ssa.Value]value // dynamic values of SSA variables
locals []value
defers []func()
result value
status status
panic interface{}
}
func (fr *frame) get(key ssa.Value) value {
switch key := key.(type) {
case nil:
// Hack; simplifies handling of optional attributes
// such as ssa.Slice.{Low,High}.
return nil
case *ssa.Function, *ssa.Builtin:
return key
case *ssa.Literal:
return literalValue(key)
case *ssa.Global:
if r, ok := fr.i.globals[key]; ok {
return r
}
}
if r, ok := fr.env[key]; ok {
return r
}
panic(fmt.Sprintf("get: no value for %T: %v", key, key.Name()))
}
func (fr *frame) rundefers() {
for i := range fr.defers {
if fr.i.mode&EnableTracing != 0 {
fmt.Fprintln(os.Stderr, "Invoking deferred function", i)
}
fr.defers[len(fr.defers)-1-i]()
}
fr.defers = fr.defers[:0]
}
// findMethodSet returns the method set for type typ, which may be one
// of the interpreter's fake types.
func findMethodSet(i *interpreter, typ types.Type) ssa.MethodSet {
switch typ {
case rtypeType:
return i.rtypeMethods
case errorType:
return i.errorMethods
}
return i.prog.MethodSet(typ)
}
// visitInstr interprets a single ssa.Instruction within the activation
// record frame. It returns a continuation value indicating where to
// read the next instruction from.
func visitInstr(fr *frame, instr ssa.Instruction) continuation {
switch instr := instr.(type) {
case *ssa.UnOp:
fr.env[instr] = unop(instr, fr.get(instr.X))
case *ssa.BinOp:
fr.env[instr] = binop(instr.Op, fr.get(instr.X), fr.get(instr.Y))
case *ssa.Call:
fn, args := prepareCall(fr, &instr.Call)
fr.env[instr] = call(fr.i, fr, instr.Pos(), fn, args)
case *ssa.ChangeInterface:
fr.env[instr] = fr.get(instr.X) // (can't fail)
case *ssa.ChangeType:
fr.env[instr] = fr.get(instr.X) // (can't fail)
case *ssa.Convert:
fr.env[instr] = conv(instr.Type(), instr.X.Type(), fr.get(instr.X))
case *ssa.MakeInterface:
fr.env[instr] = iface{t: instr.X.Type(), v: fr.get(instr.X)}
case *ssa.Extract:
fr.env[instr] = fr.get(instr.Tuple).(tuple)[instr.Index]
case *ssa.Slice:
fr.env[instr] = slice(fr.get(instr.X), fr.get(instr.Low), fr.get(instr.High))
case *ssa.Ret:
switch len(instr.Results) {
case 0:
case 1:
fr.result = fr.get(instr.Results[0])
default:
var res []value
for _, r := range instr.Results {
res = append(res, fr.get(r))
}
fr.result = tuple(res)
}
return kReturn
case *ssa.RunDefers:
fr.rundefers()
case *ssa.Panic:
panic(targetPanic{fr.get(instr.X)})
case *ssa.Send:
fr.get(instr.Chan).(chan value) <- copyVal(fr.get(instr.X))
case *ssa.Store:
*fr.get(instr.Addr).(*value) = copyVal(fr.get(instr.Val))
case *ssa.If:
succ := 1
if fr.get(instr.Cond).(bool) {
succ = 0
}
fr.prevBlock, fr.block = fr.block, fr.block.Succs[succ]
return kJump
case *ssa.Jump:
fr.prevBlock, fr.block = fr.block, fr.block.Succs[0]
return kJump
case *ssa.Defer:
pos := instr.Pos() // TODO(gri): workaround for go/types bug in typeswitch+funclit.
fn, args := prepareCall(fr, &instr.Call)
fr.defers = append(fr.defers, func() { call(fr.i, fr, pos, fn, args) })
case *ssa.Go:
fn, args := prepareCall(fr, &instr.Call)
go call(fr.i, nil, instr.Pos(), fn, args)
case *ssa.MakeChan:
fr.env[instr] = make(chan value, asInt(fr.get(instr.Size)))
case *ssa.Alloc:
var addr *value
if instr.Heap {
// new
addr = new(value)
fr.env[instr] = addr
} else {
// local
addr = fr.env[instr].(*value)
}
*addr = zero(instr.Type().Deref())
case *ssa.MakeSlice:
slice := make([]value, asInt(fr.get(instr.Cap)))
tElt := instr.Type().Underlying().(*types.Slice).Elem()
for i := range slice {
slice[i] = zero(tElt)
}
fr.env[instr] = slice[:asInt(fr.get(instr.Len))]
case *ssa.MakeMap:
reserve := 0
if instr.Reserve != nil {
reserve = asInt(fr.get(instr.Reserve))
}
fr.env[instr] = makeMap(instr.Type().Underlying().(*types.Map).Key(), reserve)
case *ssa.Range:
fr.env[instr] = rangeIter(fr.get(instr.X), instr.X.Type())
case *ssa.Next:
fr.env[instr] = fr.get(instr.Iter).(iter).next()
case *ssa.FieldAddr:
x := fr.get(instr.X)
fr.env[instr] = &(*x.(*value)).(structure)[instr.Field]
case *ssa.Field:
fr.env[instr] = copyVal(fr.get(instr.X).(structure)[instr.Field])
case *ssa.IndexAddr:
x := fr.get(instr.X)
idx := fr.get(instr.Index)
switch x := x.(type) {
case []value:
fr.env[instr] = &x[asInt(idx)]
case *value: // *array
fr.env[instr] = &(*x).(array)[asInt(idx)]
default:
panic(fmt.Sprintf("unexpected x type in IndexAddr: %T", x))
}
case *ssa.Index:
fr.env[instr] = copyVal(fr.get(instr.X).(array)[asInt(fr.get(instr.Index))])
case *ssa.Lookup:
fr.env[instr] = lookup(instr, fr.get(instr.X), fr.get(instr.Index))
case *ssa.MapUpdate:
m := fr.get(instr.Map)
key := fr.get(instr.Key)
v := fr.get(instr.Value)
switch m := m.(type) {
case map[value]value:
m[key] = v
case *hashmap:
m.insert(key.(hashable), v)
default:
panic(fmt.Sprintf("illegal map type: %T", m))
}
case *ssa.TypeAssert:
fr.env[instr] = typeAssert(fr.i, instr, fr.get(instr.X).(iface))
case *ssa.MakeClosure:
var bindings []value
for _, binding := range instr.Bindings {
bindings = append(bindings, fr.get(binding))
}
fr.env[instr] = &closure{instr.Fn.(*ssa.Function), bindings}
case *ssa.Phi:
for i, pred := range instr.Block().Preds {
if fr.prevBlock == pred {
fr.env[instr] = fr.get(instr.Edges[i])
break
}
}
case *ssa.Select:
var cases []reflect.SelectCase
if !instr.Blocking {
cases = append(cases, reflect.SelectCase{
Dir: reflect.SelectDefault,
})
}
for _, state := range instr.States {
var dir reflect.SelectDir
if state.Dir == ast.RECV {
dir = reflect.SelectRecv
} else {
dir = reflect.SelectSend
}
var send reflect.Value
if state.Send != nil {
send = reflect.ValueOf(fr.get(state.Send))
}
cases = append(cases, reflect.SelectCase{
Dir: dir,
Chan: reflect.ValueOf(fr.get(state.Chan)),
Send: send,
})
}
chosen, recv, recvOk := reflect.Select(cases)
if !instr.Blocking {
chosen-- // default case should have index -1.
}
var recvV iface
if chosen != -1 {
recvV.t = instr.States[chosen].Chan.Type().Underlying().(*types.Chan).Elem()
if recvOk {
// No need to copy since send makes an unaliased copy.
recvV.v = recv.Interface().(value)
} else {
recvV.v = zero(recvV.t)
}
}
fr.env[instr] = tuple{chosen, recvV, recvOk}
default:
panic(fmt.Sprintf("unexpected instruction: %T", instr))
}
// if val, ok := instr.(ssa.Value); ok {
// fmt.Println(toString(fr.env[val])) // debugging
// }
return kNext
}
// prepareCall determines the function value and argument values for a
// function call in a Call, Go or Defer instruction, peforming
// interface method lookup if needed.
//
func prepareCall(fr *frame, call *ssa.CallCommon) (fn value, args []value) {
if call.Func != nil {
// Function call.
fn = fr.get(call.Func)
} else {
// Interface method invocation.
recv := fr.get(call.Recv).(iface)
if recv.t == nil {
panic("method invoked on nil interface")
}
id := call.MethodId()
m := findMethodSet(fr.i, recv.t)[id]
if m == nil {
// Unreachable in well-typed programs.
panic(fmt.Sprintf("method set for dynamic type %v does not contain %s", recv.t, id))
}
_, aptr := recv.v.(*value) // actual pointerness
_, fptr := m.Signature.Recv().Type().(*types.Pointer) // formal pointerness
switch {
case aptr == fptr:
args = append(args, copyVal(recv.v))
case aptr:
// Calling func(T) with a *T receiver: make a copy.
args = append(args, copyVal(*recv.v.(*value)))
case fptr:
panic("illegal call of *T method with T receiver")
}
fn = m
}
for _, arg := range call.Args {
args = append(args, fr.get(arg))
}
return
}
// call interprets a call to a function (function, builtin or closure)
// fn with arguments args, returning its result.
// callpos is the position of the callsite.
//
func call(i *interpreter, caller *frame, callpos token.Pos, fn value, args []value) value {
switch fn := fn.(type) {
case *ssa.Function:
if fn == nil {
panic("call of nil function") // nil of func type
}
return callSSA(i, caller, callpos, fn, args, nil)
case *closure:
return callSSA(i, caller, callpos, fn.Fn, args, fn.Env)
case *ssa.Builtin:
return callBuiltin(caller, callpos, fn, args)
}
panic(fmt.Sprintf("cannot call %T", fn))
}
func loc(fset *token.FileSet, pos token.Pos) string {
if pos == token.NoPos {
return ""
}
return " at " + fset.Position(pos).String()
}
// callSSA interprets a call to function fn with arguments args,
// and lexical environment env, returning its result.
// callpos is the position of the callsite.
//
func callSSA(i *interpreter, caller *frame, callpos token.Pos, fn *ssa.Function, args []value, env []value) value {
if i.mode&EnableTracing != 0 {
fset := fn.Prog.Files
// TODO(adonovan): fix: loc() lies for external functions.
fmt.Fprintf(os.Stderr, "Entering %s%s.\n", fn.FullName(), loc(fset, fn.Pos()))
suffix := ""
if caller != nil {
suffix = ", resuming " + caller.fn.FullName() + loc(fset, callpos)
}
defer fmt.Fprintf(os.Stderr, "Leaving %s%s.\n", fn.FullName(), suffix)
}
if fn.Enclosing == nil {
name := fn.FullName()
if ext := externals[name]; ext != nil {
if i.mode&EnableTracing != 0 {
fmt.Fprintln(os.Stderr, "\t(external)")
}
return ext(fn, args)
}
if fn.Blocks == nil {
panic("no code for function: " + name)
}
}
fr := &frame{
i: i,
caller: caller, // currently unused; for unwinding.
fn: fn,
env: make(map[ssa.Value]value),
block: fn.Blocks[0],
locals: make([]value, len(fn.Locals)),
}
for i, l := range fn.Locals {
fr.locals[i] = zero(l.Type().Deref())
fr.env[l] = &fr.locals[i]
}
for i, p := range fn.Params {
fr.env[p] = args[i]
}
for i, fv := range fn.FreeVars {
fr.env[fv] = env[i]
}
var instr ssa.Instruction
defer func() {
if fr.status != stComplete {
if fr.i.mode&DisableRecover != 0 {
return // let interpreter crash
}
fr.status, fr.panic = stPanic, recover()
}
fr.rundefers()
// Destroy the locals to avoid accidental use after return.
for i := range fn.Locals {
fr.locals[i] = bad{}
}
if fr.status == stPanic {
panic(fr.panic) // panic stack is not entirely clean
}
}()
for {
if i.mode&EnableTracing != 0 {
fmt.Fprintf(os.Stderr, ".%s:\n", fr.block)
}
block:
for _, instr = range fr.block.Instrs {
if i.mode&EnableTracing != 0 {
if v, ok := instr.(ssa.Value); ok {
fmt.Fprintln(os.Stderr, "\t", v.Name(), "=", instr)
} else {
fmt.Fprintln(os.Stderr, "\t", instr)
}
}
switch visitInstr(fr, instr) {
case kReturn:
fr.status = stComplete
return fr.result
case kNext:
// no-op
case kJump:
break block
}
}
}
panic("unreachable")
}
// setGlobal sets the value of a system-initialized global variable.
func setGlobal(i *interpreter, pkg *ssa.Package, name string, v value) {
if g, ok := i.globals[pkg.Var(name)]; ok {
*g = v
return
}
panic("no global variable: " + pkg.Name() + "." + name)
}
// Interpret interprets the Go program whose main package is mainpkg.
// mode specifies various interpreter options. filename and args are
// the initial values of os.Args for the target program.
//
// Interpret returns the exit code of the program: 2 for panic (like
// gc does), or the argument to os.Exit for normal termination.
//
func Interpret(mainpkg *ssa.Package, mode Mode, filename string, args []string) (exitCode int) {
i := &interpreter{
prog: mainpkg.Prog,
globals: make(map[ssa.Value]*value),
mode: mode,
}
initReflect(i)
for importPath, pkg := range i.prog.Packages {
// Initialize global storage.
for _, m := range pkg.Members {
switch v := m.(type) {
case *ssa.Global:
cell := zero(v.Type().Deref())
i.globals[v] = &cell
}
}
// Ad-hoc initialization for magic system variables.
switch importPath {
case "syscall":
var envs []value
for _, s := range os.Environ() {
envs = append(envs, s)
}
envs = append(envs, "GOSSAINTERP=1")
setGlobal(i, pkg, "envs", envs)
case "runtime":
// TODO(gri): expose go/types.sizeof so we can
// avoid this fragile magic number;
// unsafe.Sizeof(memStats) won't work since gc
// and go/types have different sizeof
// functions.
setGlobal(i, pkg, "sizeof_C_MStats", uintptr(3696))
case "os":
Args := []value{filename}
for _, s := range args {
Args = append(Args, s)
}
setGlobal(i, pkg, "Args", Args)
}
}
// Top-level error handler.
exitCode = 2
defer func() {
if exitCode != 2 || i.mode&DisableRecover != 0 {
return
}
switch p := recover().(type) {
case exitPanic:
exitCode = int(p)
return
case targetPanic:
fmt.Fprintln(os.Stderr, "panic:", toString(p.v))
case runtime.Error:
fmt.Fprintln(os.Stderr, "panic:", p.Error())
case string:
fmt.Fprintln(os.Stderr, "panic:", p)
default:
fmt.Fprintf(os.Stderr, "panic: unexpected type: %T\n", p)
}
// TODO(adonovan): dump panicking interpreter goroutine?
// buf := make([]byte, 0x10000)
// runtime.Stack(buf, false)
// fmt.Fprintln(os.Stderr, string(buf))
// (Or dump panicking target goroutine?)
}()
// Run!
call(i, nil, token.NoPos, mainpkg.Init, nil)
if mainFn := mainpkg.Func("main"); mainFn != nil {
call(i, nil, token.NoPos, mainFn, nil)
exitCode = 0
} else {
fmt.Fprintln(os.Stderr, "No main function.")
exitCode = 1
}
return
}