// lookupMethod returns the method set for type typ, which may be one // of the interpreter's fake types. func lookupMethod(i *interpreter, typ types.Type, meth *types.Func) *ssa.Function { switch typ { case rtypeType: return i.rtypeMethods[meth.Id()] case errorType: return i.errorMethods[meth.Id()] } return i.prog.LookupMethod(typ, meth.Pkg(), meth.Name()) }
func checkFuncValue(t *testing.T, prog *ssa.Program, obj *types.Func) { fn := prog.FuncValue(obj) // fmt.Printf("FuncValue(%s) = %s\n", obj, fn) // debugging if fn == nil { if obj.Name() != "interfaceMethod" { t.Errorf("FuncValue(%s) == nil", obj) } return } if fnobj := fn.Object(); fnobj != obj { t.Errorf("FuncValue(%s).Object() == %s; value was %s", obj, fnobj, fn.Name()) return } if !types.Identical(fn.Type(), obj.Type()) { t.Errorf("FuncValue(%s).Type() == %s", obj, fn.Type()) return } }
// makeBound returns a bound method wrapper (or "bound"), a synthetic // function that delegates to a concrete or interface method denoted // by obj. The resulting function has no receiver, but has one free // variable which will be used as the method's receiver in the // tail-call. // // Use MakeClosure with such a wrapper to construct a bound method // closure. e.g.: // // type T int or: type T interface { meth() } // func (t T) meth() // var t T // f := t.meth // f() // calls t.meth() // // f is a closure of a synthetic wrapper defined as if by: // // f := func() { return t.meth() } // // Unlike makeWrapper, makeBound need perform no indirection or field // selections because that can be done before the closure is // constructed. // // EXCLUSIVE_LOCKS_ACQUIRED(meth.Prog.methodsMu) // func makeBound(prog *Program, obj *types.Func) *Function { prog.methodsMu.Lock() defer prog.methodsMu.Unlock() fn, ok := prog.bounds[obj] if !ok { description := fmt.Sprintf("bound method wrapper for %s", obj) if prog.mode&LogSource != 0 { defer logStack("%s", description)() } fn = &Function{ name: obj.Name() + "$bound", object: obj, Signature: changeRecv(obj.Type().(*types.Signature), nil), // drop receiver Synthetic: description, Prog: prog, pos: obj.Pos(), } fv := &FreeVar{name: "recv", typ: recvType(obj), parent: fn} fn.FreeVars = []*FreeVar{fv} fn.startBody() createParams(fn, 0) var c Call if !isInterface(recvType(obj)) { // concrete c.Call.Value = prog.declaredFunc(obj) c.Call.Args = []Value{fv} } else { c.Call.Value = fv c.Call.Method = obj } for _, arg := range fn.Params { c.Call.Args = append(c.Call.Args, arg) } emitTailCall(fn, &c) fn.finishBody() prog.bounds[obj] = fn } return fn }
// recvType returns the receiver type of method obj. func recvType(obj *types.Func) types.Type { return obj.Type().(*types.Signature).Recv().Type() }
// declaredFunc returns the concrete function/method denoted by obj. // Panic ensues if there is none. // func (prog *Program) declaredFunc(obj *types.Func) *Function { if v := prog.packageLevelValue(obj); v != nil { return v.(*Function) } panic("no concrete method: " + obj.String()) }