mirror of
https://github.com/VictoriaMetrics/VictoriaMetrics.git
synced 2024-12-11 14:53:49 +00:00
1e46961d68
Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/203 Updates https://github.com/VictoriaMetrics/VictoriaMetrics/issues/38
239 lines
6.3 KiB
Go
239 lines
6.3 KiB
Go
// Copyright 2013 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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package ssa
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// This file defines utilities for population of method sets.
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import (
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"fmt"
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"go/types"
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)
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// MethodValue returns the Function implementing method sel, building
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// wrapper methods on demand. It returns nil if sel denotes an
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// abstract (interface) method.
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//
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// Precondition: sel.Kind() == MethodVal.
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//
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// Thread-safe.
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//
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// EXCLUSIVE_LOCKS_ACQUIRED(prog.methodsMu)
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//
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func (prog *Program) MethodValue(sel *types.Selection) *Function {
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if sel.Kind() != types.MethodVal {
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panic(fmt.Sprintf("MethodValue(%s) kind != MethodVal", sel))
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}
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T := sel.Recv()
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if isInterface(T) {
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return nil // abstract method
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}
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if prog.mode&LogSource != 0 {
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defer logStack("MethodValue %s %v", T, sel)()
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}
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prog.methodsMu.Lock()
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defer prog.methodsMu.Unlock()
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return prog.addMethod(prog.createMethodSet(T), sel)
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}
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// LookupMethod returns the implementation of the method of type T
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// identified by (pkg, name). It returns nil if the method exists but
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// is abstract, and panics if T has no such method.
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//
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func (prog *Program) LookupMethod(T types.Type, pkg *types.Package, name string) *Function {
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sel := prog.MethodSets.MethodSet(T).Lookup(pkg, name)
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if sel == nil {
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panic(fmt.Sprintf("%s has no method %s", T, types.Id(pkg, name)))
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}
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return prog.MethodValue(sel)
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}
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// methodSet contains the (concrete) methods of a non-interface type.
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type methodSet struct {
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mapping map[string]*Function // populated lazily
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complete bool // mapping contains all methods
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}
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// Precondition: !isInterface(T).
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// EXCLUSIVE_LOCKS_REQUIRED(prog.methodsMu)
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func (prog *Program) createMethodSet(T types.Type) *methodSet {
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mset, ok := prog.methodSets.At(T).(*methodSet)
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if !ok {
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mset = &methodSet{mapping: make(map[string]*Function)}
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prog.methodSets.Set(T, mset)
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}
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return mset
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}
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// EXCLUSIVE_LOCKS_REQUIRED(prog.methodsMu)
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func (prog *Program) addMethod(mset *methodSet, sel *types.Selection) *Function {
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if sel.Kind() == types.MethodExpr {
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panic(sel)
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}
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id := sel.Obj().Id()
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fn := mset.mapping[id]
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if fn == nil {
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obj := sel.Obj().(*types.Func)
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needsPromotion := len(sel.Index()) > 1
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needsIndirection := !isPointer(recvType(obj)) && isPointer(sel.Recv())
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if needsPromotion || needsIndirection {
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fn = makeWrapper(prog, sel)
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} else {
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fn = prog.declaredFunc(obj)
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}
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if fn.Signature.Recv() == nil {
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panic(fn) // missing receiver
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}
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mset.mapping[id] = fn
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}
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return fn
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}
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// RuntimeTypes returns a new unordered slice containing all
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// concrete types in the program for which a complete (non-empty)
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// method set is required at run-time.
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//
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// Thread-safe.
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//
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// EXCLUSIVE_LOCKS_ACQUIRED(prog.methodsMu)
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//
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func (prog *Program) RuntimeTypes() []types.Type {
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prog.methodsMu.Lock()
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defer prog.methodsMu.Unlock()
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var res []types.Type
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prog.methodSets.Iterate(func(T types.Type, v interface{}) {
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if v.(*methodSet).complete {
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res = append(res, T)
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}
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})
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return res
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}
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// declaredFunc returns the concrete function/method denoted by obj.
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// Panic ensues if there is none.
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//
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func (prog *Program) declaredFunc(obj *types.Func) *Function {
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if v := prog.packageLevelValue(obj); v != nil {
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return v.(*Function)
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}
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panic("no concrete method: " + obj.String())
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}
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// needMethodsOf ensures that runtime type information (including the
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// complete method set) is available for the specified type T and all
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// its subcomponents.
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//
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// needMethodsOf must be called for at least every type that is an
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// operand of some MakeInterface instruction, and for the type of
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// every exported package member.
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//
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// Precondition: T is not a method signature (*Signature with Recv()!=nil).
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//
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// Thread-safe. (Called via emitConv from multiple builder goroutines.)
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//
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// TODO(adonovan): make this faster. It accounts for 20% of SSA build time.
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//
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// EXCLUSIVE_LOCKS_ACQUIRED(prog.methodsMu)
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//
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func (prog *Program) needMethodsOf(T types.Type) {
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prog.methodsMu.Lock()
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prog.needMethods(T, false)
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prog.methodsMu.Unlock()
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}
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// Precondition: T is not a method signature (*Signature with Recv()!=nil).
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// Recursive case: skip => don't create methods for T.
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//
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// EXCLUSIVE_LOCKS_REQUIRED(prog.methodsMu)
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//
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func (prog *Program) needMethods(T types.Type, skip bool) {
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// Each package maintains its own set of types it has visited.
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if prevSkip, ok := prog.runtimeTypes.At(T).(bool); ok {
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// needMethods(T) was previously called
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if !prevSkip || skip {
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return // already seen, with same or false 'skip' value
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}
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}
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prog.runtimeTypes.Set(T, skip)
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tmset := prog.MethodSets.MethodSet(T)
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if !skip && !isInterface(T) && tmset.Len() > 0 {
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// Create methods of T.
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mset := prog.createMethodSet(T)
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if !mset.complete {
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mset.complete = true
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n := tmset.Len()
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for i := 0; i < n; i++ {
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prog.addMethod(mset, tmset.At(i))
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}
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}
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}
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// Recursion over signatures of each method.
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for i := 0; i < tmset.Len(); i++ {
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sig := tmset.At(i).Type().(*types.Signature)
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prog.needMethods(sig.Params(), false)
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prog.needMethods(sig.Results(), false)
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}
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switch t := T.(type) {
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case *types.Basic:
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// nop
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case *types.Interface:
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// nop---handled by recursion over method set.
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case *types.Pointer:
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prog.needMethods(t.Elem(), false)
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case *types.Slice:
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prog.needMethods(t.Elem(), false)
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case *types.Chan:
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prog.needMethods(t.Elem(), false)
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case *types.Map:
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prog.needMethods(t.Key(), false)
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prog.needMethods(t.Elem(), false)
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case *types.Signature:
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if t.Recv() != nil {
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panic(fmt.Sprintf("Signature %s has Recv %s", t, t.Recv()))
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}
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prog.needMethods(t.Params(), false)
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prog.needMethods(t.Results(), false)
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case *types.Named:
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// A pointer-to-named type can be derived from a named
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// type via reflection. It may have methods too.
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prog.needMethods(types.NewPointer(T), false)
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// Consider 'type T struct{S}' where S has methods.
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// Reflection provides no way to get from T to struct{S},
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// only to S, so the method set of struct{S} is unwanted,
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// so set 'skip' flag during recursion.
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prog.needMethods(t.Underlying(), true)
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case *types.Array:
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prog.needMethods(t.Elem(), false)
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case *types.Struct:
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for i, n := 0, t.NumFields(); i < n; i++ {
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prog.needMethods(t.Field(i).Type(), false)
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}
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case *types.Tuple:
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for i, n := 0, t.Len(); i < n; i++ {
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prog.needMethods(t.At(i).Type(), false)
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}
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default:
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panic(T)
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}
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}
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