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The optional Qualifier function determines what prefix to attach to package-level names, enabling clients to qualify packages in different ways, for example, using only the package name instead of its complete path, or using the locally appropriate name for package given a set of (possibly renaming) imports. Prior to this change, clients wanting this behavior had to copy hundreds of lines of complex printing logic. Fun fact: (*types.Package).Path and (*types.Package).Name are valid Qualifier functions. We provide the RelativeTo helper function to create Qualifiers so that the old behavior remains a one-liner. Fixes golang/go#11133 Change-Id: Ibd63f639c7b3aa1738826d6165f2d810efeb8293 Reviewed-on: https://go-review.googlesource.com/11692 Reviewed-by: Robert Griesemer <gri@golang.org>
233 lines
6.5 KiB
Go
233 lines
6.5 KiB
Go
// Copyright 2014 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 analysis
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// This file computes the markup for information from go/types:
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// IMPORTS, identifier RESOLUTION, METHOD SETS, size/alignment, and
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// the IMPLEMENTS relation.
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//
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// IMPORTS links connect import specs to the documentation for the
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// imported package.
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//
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// RESOLUTION links referring identifiers to their defining
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// identifier, and adds tooltips for kind and type.
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//
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// METHOD SETS, size/alignment, and the IMPLEMENTS relation are
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// displayed in the lower pane when a type's defining identifier is
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// clicked.
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import (
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"fmt"
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"reflect"
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"strconv"
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"strings"
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"golang.org/x/tools/go/loader"
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"golang.org/x/tools/go/types"
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"golang.org/x/tools/go/types/typeutil"
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)
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// TODO(adonovan): audit to make sure it's safe on ill-typed packages.
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// TODO(adonovan): use same Sizes as loader.Config.
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var sizes = types.StdSizes{8, 8}
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func (a *analysis) doTypeInfo(info *loader.PackageInfo, implements map[*types.Named]implementsFacts) {
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// We must not assume the corresponding SSA packages were
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// created (i.e. were transitively error-free).
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// IMPORTS
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for _, f := range info.Files {
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// Package decl.
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fi, offset := a.fileAndOffset(f.Name.Pos())
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fi.addLink(aLink{
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start: offset,
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end: offset + len(f.Name.Name),
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title: "Package docs for " + info.Pkg.Path(),
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// TODO(adonovan): fix: we're putting the untrusted Path()
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// into a trusted field. What's the appropriate sanitizer?
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href: "/pkg/" + info.Pkg.Path(),
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})
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// Import specs.
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for _, imp := range f.Imports {
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// Remove quotes.
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L := int(imp.End()-imp.Path.Pos()) - len(`""`)
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path, _ := strconv.Unquote(imp.Path.Value)
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fi, offset := a.fileAndOffset(imp.Path.Pos())
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fi.addLink(aLink{
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start: offset + 1,
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end: offset + 1 + L,
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title: "Package docs for " + path,
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// TODO(adonovan): fix: we're putting the untrusted path
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// into a trusted field. What's the appropriate sanitizer?
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href: "/pkg/" + path,
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})
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}
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}
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// RESOLUTION
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qualifier := types.RelativeTo(info.Pkg)
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for id, obj := range info.Uses {
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// Position of the object definition.
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pos := obj.Pos()
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Len := len(obj.Name())
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// Correct the position for non-renaming import specs.
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// import "sync/atomic"
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// ^^^^^^^^^^^
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if obj, ok := obj.(*types.PkgName); ok && id.Name == obj.Imported().Name() {
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// Assume this is a non-renaming import.
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// NB: not true for degenerate renamings: `import foo "foo"`.
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pos++
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Len = len(obj.Imported().Path())
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}
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if obj.Pkg() == nil {
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continue // don't mark up built-ins.
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}
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fi, offset := a.fileAndOffset(id.NamePos)
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fi.addLink(aLink{
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start: offset,
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end: offset + len(id.Name),
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title: types.ObjectString(obj, qualifier),
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href: a.posURL(pos, Len),
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})
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}
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// IMPLEMENTS & METHOD SETS
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for _, obj := range info.Defs {
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if obj, ok := obj.(*types.TypeName); ok {
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a.namedType(obj, implements)
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}
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}
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}
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func (a *analysis) namedType(obj *types.TypeName, implements map[*types.Named]implementsFacts) {
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qualifier := types.RelativeTo(obj.Pkg())
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T := obj.Type().(*types.Named)
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v := &TypeInfoJSON{
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Name: obj.Name(),
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Size: sizes.Sizeof(T),
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Align: sizes.Alignof(T),
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Methods: []anchorJSON{}, // (JS wants non-nil)
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}
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// addFact adds the fact "is implemented by T" (by) or
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// "implements T" (!by) to group.
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addFact := func(group *implGroupJSON, T types.Type, by bool) {
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Tobj := deref(T).(*types.Named).Obj()
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var byKind string
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if by {
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// Show underlying kind of implementing type,
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// e.g. "slice", "array", "struct".
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s := reflect.TypeOf(T.Underlying()).String()
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byKind = strings.ToLower(strings.TrimPrefix(s, "*types."))
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}
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group.Facts = append(group.Facts, implFactJSON{
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ByKind: byKind,
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Other: anchorJSON{
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Href: a.posURL(Tobj.Pos(), len(Tobj.Name())),
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Text: types.TypeString(T, qualifier),
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},
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})
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}
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// IMPLEMENTS
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if r, ok := implements[T]; ok {
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if isInterface(T) {
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// "T is implemented by <conc>" ...
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// "T is implemented by <iface>"...
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// "T implements <iface>"...
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group := implGroupJSON{
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Descr: types.TypeString(T, qualifier),
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}
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// Show concrete types first; use two passes.
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for _, sub := range r.to {
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if !isInterface(sub) {
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addFact(&group, sub, true)
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}
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}
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for _, sub := range r.to {
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if isInterface(sub) {
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addFact(&group, sub, true)
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}
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}
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for _, super := range r.from {
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addFact(&group, super, false)
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}
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v.ImplGroups = append(v.ImplGroups, group)
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} else {
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// T is concrete.
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if r.from != nil {
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// "T implements <iface>"...
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group := implGroupJSON{
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Descr: types.TypeString(T, qualifier),
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}
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for _, super := range r.from {
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addFact(&group, super, false)
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}
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v.ImplGroups = append(v.ImplGroups, group)
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}
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if r.fromPtr != nil {
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// "*C implements <iface>"...
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group := implGroupJSON{
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Descr: "*" + types.TypeString(T, qualifier),
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}
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for _, psuper := range r.fromPtr {
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addFact(&group, psuper, false)
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}
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v.ImplGroups = append(v.ImplGroups, group)
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}
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}
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}
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// METHOD SETS
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for _, sel := range typeutil.IntuitiveMethodSet(T, &a.prog.MethodSets) {
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meth := sel.Obj().(*types.Func)
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pos := meth.Pos() // may be 0 for error.Error
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v.Methods = append(v.Methods, anchorJSON{
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Href: a.posURL(pos, len(meth.Name())),
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Text: types.SelectionString(sel, qualifier),
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})
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}
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// Since there can be many specs per decl, we
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// can't attach the link to the keyword 'type'
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// (as we do with 'func'); we use the Ident.
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fi, offset := a.fileAndOffset(obj.Pos())
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fi.addLink(aLink{
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start: offset,
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end: offset + len(obj.Name()),
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title: fmt.Sprintf("type info for %s", obj.Name()),
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onclick: fmt.Sprintf("onClickTypeInfo(%d)", fi.addData(v)),
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})
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// Add info for exported package-level types to the package info.
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if obj.Exported() && isPackageLevel(obj) {
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// TODO(adonovan): Path is not unique!
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// It is possible to declare a non-test package called x_test.
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a.result.pkgInfo(obj.Pkg().Path()).addType(v)
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}
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}
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// -- utilities --------------------------------------------------------
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func isInterface(T types.Type) bool { return types.IsInterface(T) }
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// deref returns a pointer's element type; otherwise it returns typ.
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func deref(typ types.Type) types.Type {
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if p, ok := typ.Underlying().(*types.Pointer); ok {
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return p.Elem()
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}
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return typ
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}
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// isPackageLevel reports whether obj is a package-level object.
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func isPackageLevel(obj types.Object) bool {
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return obj.Pkg().Scope().Lookup(obj.Name()) == obj
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}
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