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go/internal/lsp/source/workspace_symbol.go
Rob Findley aa94e735be internal/lsp/source: add a new symbolStyle configuration option 
Add a symbolStyle configuration option, and use it to parameterize the
following behavior when computing workspace symbols:

 + package (default): include package name in the workspace symbol.
 + full: fully qualify the symbol by import path
 + dynamic: use as the symbol the shortest suffix of the full path that
   contains the match.

To implement this, expose package name in the source.Package interface.
To be consistent with other handling in the cache package, define a new
cache.packageName named string type, to avoid confusion with packageID
or packagePath (if confusing those two identifiers was a problem, surely
it is a potential problem for package name as well).

Change-Id: Ic8ed6ba5473b0523b97e677878e5e6bddfff10a7
Reviewed-on: https://go-review.googlesource.com/c/tools/+/236842
Run-TryBot: Robert Findley <rfindley@google.com>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Paul Jolly <paul@myitcv.org.uk>
2020-06-26 17:13:37 +00:00

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// Copyright 2020 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"
"go/ast"
"go/token"
"go/types"
"strings"
"golang.org/x/tools/internal/event"
"golang.org/x/tools/internal/lsp/fuzzy"
"golang.org/x/tools/internal/lsp/protocol"
)
const maxSymbols = 100
// WorkspaceSymbols matches symbols across views using the given query,
// according to the SymbolMatcher matcher.
//
// The workspace symbol method is defined in the spec as follows:
//
// > The workspace symbol request is sent from the client to the server to
// > list project-wide symbols matching the query string.
//
// It is unclear what "project-wide" means here, but given the parameters of
// workspace/symbol do not include any workspace identifier, then it has to be
// assumed that "project-wide" means "across all workspaces". Hence why
// WorkspaceSymbols receives the views []View.
//
// However, it then becomes unclear what it would mean to call WorkspaceSymbols
// with a different configured SymbolMatcher per View. Therefore we assume that
// Session level configuration will define the SymbolMatcher to be used for the
// WorkspaceSymbols method.
func WorkspaceSymbols(ctx context.Context, matcherType SymbolMatcher, style SymbolStyle, views []View, query string) ([]protocol.SymbolInformation, error) {
ctx, done := event.Start(ctx, "source.WorkspaceSymbols")
defer done()
if query == "" {
return nil, nil
}
queryMatcher := makeQueryMatcher(matcherType, query)
seen := make(map[string]struct{})
var symbols []protocol.SymbolInformation
outer:
for _, view := range views {
knownPkgs, err := view.Snapshot().KnownPackages(ctx)
if err != nil {
return nil, err
}
for _, ph := range knownPkgs {
pkg, err := ph.Check(ctx)
symbolMatcher := makePackageSymbolMatcher(style, pkg, queryMatcher)
if err != nil {
return nil, err
}
if _, ok := seen[pkg.PkgPath()]; ok {
continue
}
seen[pkg.PkgPath()] = struct{}{}
for _, fh := range pkg.CompiledGoFiles() {
file, _, _, _, err := fh.Cached()
if err != nil {
return nil, err
}
for _, si := range findSymbol(file.Decls, pkg.GetTypesInfo(), symbolMatcher) {
mrng, err := posToMappedRange(view, pkg, si.node.Pos(), si.node.End())
if err != nil {
event.Error(ctx, "Error getting mapped range for node", err)
continue
}
rng, err := mrng.Range()
if err != nil {
event.Error(ctx, "Error getting range from mapped range", err)
continue
}
symbols = append(symbols, protocol.SymbolInformation{
Name: si.name,
Kind: si.kind,
Location: protocol.Location{
URI: protocol.URIFromSpanURI(mrng.URI()),
Range: rng,
},
ContainerName: pkg.PkgPath(),
})
if len(symbols) > maxSymbols {
break outer
}
}
}
}
}
return symbols, nil
}
type symbolInformation struct {
name string
kind protocol.SymbolKind
node ast.Node
}
type matcherFunc func(string) bool
func makeQueryMatcher(m SymbolMatcher, query string) matcherFunc {
switch m {
case SymbolFuzzy:
fm := fuzzy.NewMatcher(query)
return func(s string) bool {
return fm.Score(s) > 0
}
case SymbolCaseSensitive:
return func(s string) bool {
return strings.Contains(s, query)
}
default:
q := strings.ToLower(query)
return func(s string) bool {
return strings.Contains(strings.ToLower(s), q)
}
}
}
// packageSymbolMatcher matches (possibly partially) qualified symbols within a
// package scope.
//
// The given symbolizer controls how symbol names are extracted from the
// package scope.
type packageSymbolMatcher struct {
queryMatcher matcherFunc
pkg Package
symbolize symbolizer
}
// symbolMatch returns the package symbol for name that matches the underlying
// query, or the empty string if no match is found.
func (s packageSymbolMatcher) symbolMatch(name string) string {
return s.symbolize(name, s.pkg, s.queryMatcher)
}
func makePackageSymbolMatcher(style SymbolStyle, pkg Package, matcher matcherFunc) func(string) string {
var s symbolizer
switch style {
case DynamicSymbols:
s = dynamicSymbolMatch
case FullyQualifiedSymbols:
s = fullyQualifiedSymbolMatch
default:
s = packageSymbolMatch
}
return packageSymbolMatcher{queryMatcher: matcher, pkg: pkg, symbolize: s}.symbolMatch
}
// A symbolizer returns a qualified symbol match for the unqualified name
// within pkg, if one exists, or the empty string if no match is found.
type symbolizer func(name string, pkg Package, m matcherFunc) string
func fullyQualifiedSymbolMatch(name string, pkg Package, matcher matcherFunc) string {
// TODO: this should probably include pkg.Name() as well.
fullyQualified := pkg.PkgPath() + "." + name
if matcher(fullyQualified) {
return fullyQualified
}
return ""
}
func dynamicSymbolMatch(name string, pkg Package, matcher matcherFunc) string {
pkgQualified := pkg.Name() + "." + name
if match := shortestMatch(pkgQualified, matcher); match != "" {
return match
}
fullyQualified := pkg.PkgPath() + "." + name
if match := shortestMatch(fullyQualified, matcher); match != "" {
return match
}
return ""
}
func packageSymbolMatch(name string, pkg Package, matcher matcherFunc) string {
qualified := pkg.Name() + "." + name
if matcher(qualified) {
return qualified
}
return ""
}
func shortestMatch(fullPath string, matcher func(string) bool) string {
pathParts := strings.Split(fullPath, "/")
dottedParts := strings.Split(pathParts[len(pathParts)-1], ".")
// First match the smallest package identifier.
if m := matchRight(dottedParts, ".", matcher); m != "" {
return m
}
// Then match the shortest subpath.
return matchRight(pathParts, "/", matcher)
}
func matchRight(parts []string, sep string, matcher func(string) bool) string {
for i := 0; i < len(parts); i++ {
path := strings.Join(parts[len(parts)-1-i:], sep)
if matcher(path) {
return path
}
}
return ""
}
func findSymbol(decls []ast.Decl, info *types.Info, symbolMatch func(string) string) []symbolInformation {
var result []symbolInformation
for _, decl := range decls {
switch decl := decl.(type) {
case *ast.FuncDecl:
fn := decl.Name.Name
kind := protocol.Function
if decl.Recv != nil {
kind = protocol.Method
switch typ := decl.Recv.List[0].Type.(type) {
case *ast.StarExpr:
fn = typ.X.(*ast.Ident).Name + "." + fn
case *ast.Ident:
fn = typ.Name + "." + fn
}
}
if m := symbolMatch(fn); m != "" {
result = append(result, symbolInformation{
name: m,
kind: kind,
node: decl.Name,
})
}
case *ast.GenDecl:
for _, spec := range decl.Specs {
switch spec := spec.(type) {
case *ast.TypeSpec:
target := spec.Name.Name
if m := symbolMatch(target); m != "" {
result = append(result, symbolInformation{
name: m,
kind: typeToKind(info.TypeOf(spec.Type)),
node: spec.Name,
})
}
switch st := spec.Type.(type) {
case *ast.StructType:
for _, field := range st.Fields.List {
result = append(result, findFieldSymbol(field, protocol.Field, symbolMatch, target)...)
}
case *ast.InterfaceType:
for _, field := range st.Methods.List {
kind := protocol.Method
if len(field.Names) == 0 {
kind = protocol.Interface
}
result = append(result, findFieldSymbol(field, kind, symbolMatch, target)...)
}
}
case *ast.ValueSpec:
for _, name := range spec.Names {
if m := symbolMatch(name.Name); m != "" {
kind := protocol.Variable
if decl.Tok == token.CONST {
kind = protocol.Constant
}
result = append(result, symbolInformation{
name: m,
kind: kind,
node: name,
})
}
}
}
}
}
}
return result
}
func typeToKind(typ types.Type) protocol.SymbolKind {
switch typ := typ.Underlying().(type) {
case *types.Interface:
return protocol.Interface
case *types.Struct:
return protocol.Struct
case *types.Signature:
if typ.Recv() != nil {
return protocol.Method
}
return protocol.Function
case *types.Named:
return typeToKind(typ.Underlying())
case *types.Basic:
i := typ.Info()
switch {
case i&types.IsNumeric != 0:
return protocol.Number
case i&types.IsBoolean != 0:
return protocol.Boolean
case i&types.IsString != 0:
return protocol.String
}
}
return protocol.Variable
}
func findFieldSymbol(field *ast.Field, kind protocol.SymbolKind, symbolMatch func(string) string, prefix string) []symbolInformation {
var result []symbolInformation
if len(field.Names) == 0 {
name := types.ExprString(field.Type)
target := prefix + "." + name
if m := symbolMatch(target); m != "" {
result = append(result, symbolInformation{
name: m,
kind: kind,
node: field,
})
}
return result
}
for _, name := range field.Names {
target := prefix + "." + name.Name
if m := symbolMatch(target); m != "" {
result = append(result, symbolInformation{
name: m,
kind: kind,
node: name,
})
}
}
return result
}
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