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go/internal/lsp/source/symbols.go
Ian Cottrell 7927dbab1b internal/lsp: build the packages config on demand from proper configuration
This moves the fileset down to the base cache, the overlays down to the session
and stores the environment on the view.
packages.Config is no longer part of any public API, and the config is build on
demand by combining all the layers of cache.
Also added some documentation to the main source pacakge interfaces.

Change-Id: I058092ad2275d433864d1f58576fc55e194607a6
Reviewed-on: https://go-review.googlesource.com/c/tools/+/178017
Run-TryBot: Ian Cottrell <iancottrell@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Rebecca Stambler <rstambler@golang.org>
2019-05-21 17:12:43 +00:00

310 lines
7.3 KiB
Go

// Copyright 2019 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
package source
import (
"context"
"errors"
"fmt"
"go/ast"
"go/token"
"go/types"
"golang.org/x/tools/internal/span"
)
type SymbolKind int
const (
PackageSymbol SymbolKind = iota
StructSymbol
VariableSymbol
ConstantSymbol
FunctionSymbol
MethodSymbol
InterfaceSymbol
NumberSymbol
StringSymbol
BooleanSymbol
FieldSymbol
)
type Symbol struct {
Name string
Detail string
Span span.Span
SelectionSpan span.Span
Kind SymbolKind
Children []Symbol
}
func DocumentSymbols(ctx context.Context, f GoFile) []Symbol {
fset := f.FileSet()
file := f.GetAST(ctx)
if file == nil {
return nil
}
pkg := f.GetPackage(ctx)
if pkg == nil || pkg.IsIllTyped() {
return nil
}
info := pkg.GetTypesInfo()
q := qualifier(file, pkg.GetTypes(), info)
methodsToReceiver := make(map[types.Type][]Symbol)
symbolsToReceiver := make(map[types.Type]int)
var symbols []Symbol
for _, decl := range file.Decls {
switch decl := decl.(type) {
case *ast.FuncDecl:
if obj := info.ObjectOf(decl.Name); obj != nil {
if fs := funcSymbol(decl, obj, fset, q); fs.Kind == MethodSymbol {
// Store methods separately, as we want them to appear as children
// of the corresponding type (which we may not have seen yet).
rtype := obj.Type().(*types.Signature).Recv().Type()
methodsToReceiver[rtype] = append(methodsToReceiver[rtype], fs)
} else {
symbols = append(symbols, fs)
}
}
case *ast.GenDecl:
for _, spec := range decl.Specs {
switch spec := spec.(type) {
case *ast.TypeSpec:
if obj := info.ObjectOf(spec.Name); obj != nil {
ts := typeSymbol(info, spec, obj, fset, q)
symbols = append(symbols, ts)
symbolsToReceiver[obj.Type()] = len(symbols) - 1
}
case *ast.ValueSpec:
for _, name := range spec.Names {
if obj := info.ObjectOf(name); obj != nil {
symbols = append(symbols, varSymbol(decl, name, obj, fset, q))
}
}
}
}
}
}
// Attempt to associate methods to the corresponding type symbol.
for typ, methods := range methodsToReceiver {
if ptr, ok := typ.(*types.Pointer); ok {
typ = ptr.Elem()
}
if i, ok := symbolsToReceiver[typ]; ok {
symbols[i].Children = append(symbols[i].Children, methods...)
} else {
// The type definition for the receiver of these methods was not in the document.
symbols = append(symbols, methods...)
}
}
return symbols
}
func funcSymbol(decl *ast.FuncDecl, obj types.Object, fset *token.FileSet, q types.Qualifier) Symbol {
s := Symbol{
Name: obj.Name(),
Kind: FunctionSymbol,
}
if span, err := nodeSpan(decl, fset); err == nil {
s.Span = span
}
if span, err := nodeSpan(decl.Name, fset); err == nil {
s.SelectionSpan = span
}
sig, _ := obj.Type().(*types.Signature)
if sig != nil {
if sig.Recv() != nil {
s.Kind = MethodSymbol
}
s.Detail += "("
for i := 0; i < sig.Params().Len(); i++ {
if i > 0 {
s.Detail += ", "
}
param := sig.Params().At(i)
label := types.TypeString(param.Type(), q)
if param.Name() != "" {
label = fmt.Sprintf("%s %s", param.Name(), label)
}
s.Detail += label
}
s.Detail += ")"
}
return s
}
func setKind(s *Symbol, typ types.Type, q types.Qualifier) {
switch typ := typ.Underlying().(type) {
case *types.Interface:
s.Kind = InterfaceSymbol
case *types.Struct:
s.Kind = StructSymbol
case *types.Signature:
s.Kind = FunctionSymbol
if typ.Recv() != nil {
s.Kind = MethodSymbol
}
case *types.Named:
setKind(s, typ.Underlying(), q)
case *types.Basic:
i := typ.Info()
switch {
case i&types.IsNumeric != 0:
s.Kind = NumberSymbol
case i&types.IsBoolean != 0:
s.Kind = BooleanSymbol
case i&types.IsString != 0:
s.Kind = StringSymbol
}
default:
s.Kind = VariableSymbol
}
}
func typeSymbol(info *types.Info, spec *ast.TypeSpec, obj types.Object, fset *token.FileSet, q types.Qualifier) Symbol {
s := Symbol{Name: obj.Name()}
s.Detail, _ = formatType(obj.Type(), q)
setKind(&s, obj.Type(), q)
if span, err := nodeSpan(spec, fset); err == nil {
s.Span = span
}
if span, err := nodeSpan(spec.Name, fset); err == nil {
s.SelectionSpan = span
}
t, objIsStruct := obj.Type().Underlying().(*types.Struct)
st, specIsStruct := spec.Type.(*ast.StructType)
if objIsStruct && specIsStruct {
for i := 0; i < t.NumFields(); i++ {
f := t.Field(i)
child := Symbol{Name: f.Name(), Kind: FieldSymbol}
child.Detail, _ = formatType(f.Type(), q)
spanNode, selectionNode := nodesForStructField(i, st)
if span, err := nodeSpan(spanNode, fset); err == nil {
child.Span = span
}
if span, err := nodeSpan(selectionNode, fset); err == nil {
child.SelectionSpan = span
}
s.Children = append(s.Children, child)
}
}
ti, objIsInterface := obj.Type().Underlying().(*types.Interface)
ai, specIsInterface := spec.Type.(*ast.InterfaceType)
if objIsInterface && specIsInterface {
for i := 0; i < ti.NumExplicitMethods(); i++ {
method := ti.ExplicitMethod(i)
child := Symbol{
Name: method.Name(),
Kind: MethodSymbol,
}
var spanNode, selectionNode ast.Node
Methods:
for _, f := range ai.Methods.List {
for _, id := range f.Names {
if id.Name == method.Name() {
spanNode, selectionNode = f, id
break Methods
}
}
}
if span, err := nodeSpan(spanNode, fset); err == nil {
child.Span = span
}
if span, err := nodeSpan(selectionNode, fset); err == nil {
child.SelectionSpan = span
}
s.Children = append(s.Children, child)
}
for i := 0; i < ti.NumEmbeddeds(); i++ {
embedded := ti.EmbeddedType(i)
nt, isNamed := embedded.(*types.Named)
if !isNamed {
continue
}
child := Symbol{Name: types.TypeString(embedded, q)}
setKind(&child, embedded, q)
var spanNode, selectionNode ast.Node
Embeddeds:
for _, f := range ai.Methods.List {
if len(f.Names) > 0 {
continue
}
if t := info.TypeOf(f.Type); types.Identical(nt, t) {
spanNode, selectionNode = f, f.Type
break Embeddeds
}
}
if span, err := nodeSpan(spanNode, fset); err == nil {
child.Span = span
}
if span, err := nodeSpan(selectionNode, fset); err == nil {
child.SelectionSpan = span
}
s.Children = append(s.Children, child)
}
}
return s
}
func nodesForStructField(i int, st *ast.StructType) (span, selection ast.Node) {
j := 0
for _, field := range st.Fields.List {
if len(field.Names) == 0 {
if i == j {
return field, field.Type
}
j++
continue
}
for _, name := range field.Names {
if i == j {
return field, name
}
j++
}
}
return nil, nil
}
func varSymbol(decl ast.Node, name *ast.Ident, obj types.Object, fset *token.FileSet, q types.Qualifier) Symbol {
s := Symbol{
Name: obj.Name(),
Kind: VariableSymbol,
}
if _, ok := obj.(*types.Const); ok {
s.Kind = ConstantSymbol
}
if span, err := nodeSpan(decl, fset); err == nil {
s.Span = span
}
if span, err := nodeSpan(name, fset); err == nil {
s.SelectionSpan = span
}
s.Detail = types.TypeString(obj.Type(), q)
return s
}
func nodeSpan(n ast.Node, fset *token.FileSet) (span.Span, error) {
if n == nil {
return span.Span{}, errors.New("no span for nil node")
}
r := span.NewRange(fset, n.Pos(), n.End())
return r.Span()
}