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// Copyright 2021 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 commandmeta provides metadata about LSP commands, by
// statically analyzing the command.Interface type.
//
// It is used to generate JSONRPC dispatch and marshaling.
// TODO(adonovan): combine with gopls/internal/protocol/command/gen.
package commandmeta
import (
"fmt"
"go/ast"
"go/token"
"go/types"
"reflect"
"strings"
"unicode"
"golang.org/x/tools/go/ast/astutil"
"golang.org/x/tools/go/packages"
"golang.org/x/tools/internal/aliases"
// (does not depend on gopls itself)
)
// A Command describes a workspace/executeCommand extension command.
type Command struct {
MethodName string // e.g. "RunTests"
Name string // e.g. "gopls.run_tests"
Title string
Doc string
Args []*Field
Result *Field
}
type Field struct {
Name string
Doc string
JSONTag string
Type types.Type
FieldMod string
// In some circumstances, we may want to recursively load additional field
// descriptors for fields of struct types, documenting their internals.
Fields []*Field
}
// Load returns a description of the workspace/executeCommand commands
// supported by gopls based on static analysis of the command.Interface type.
func Load() ([]*Command, error) {
pkgs, err := packages.Load(
&packages.Config{
Mode: packages.NeedTypes | packages.NeedTypesInfo | packages.NeedSyntax | packages.NeedImports | packages.NeedDeps,
BuildFlags: []string{"-tags=generate"},
},
"golang.org/x/tools/gopls/internal/protocol/command",
)
if err != nil {
return nil, fmt.Errorf("packages.Load: %v", err)
}
pkg := pkgs[0]
if len(pkg.Errors) > 0 {
return nil, pkg.Errors[0]
}
// command.Interface
obj := pkg.Types.Scope().Lookup("Interface").Type().Underlying().(*types.Interface)
// Load command metadata corresponding to each interface method.
var commands []*Command
loader := fieldLoader{make(map[types.Object]*Field)}
for i := 0; i < obj.NumMethods(); i++ {
m := obj.Method(i)
c, err := loader.loadMethod(pkg, m)
if err != nil {
return nil, fmt.Errorf("loading %s: %v", m.Name(), err)
}
commands = append(commands, c)
}
return commands, nil
}
// fieldLoader loads field information, memoizing results to prevent infinite
// recursion.
type fieldLoader struct {
loaded map[types.Object]*Field
}
var universeError = types.Universe.Lookup("error").Type()
func (l *fieldLoader) loadMethod(pkg *packages.Package, m *types.Func) (*Command, error) {
node, err := findField(pkg, m.Pos())
if err != nil {
return nil, err
}
title, doc := splitDoc(node.Doc.Text())
c := &Command{
MethodName: m.Name(),
Name: lspName(m.Name()),
Doc: doc,
Title: title,
}
sig := m.Type().Underlying().(*types.Signature)
rlen := sig.Results().Len()
if rlen > 2 || rlen == 0 {
return nil, fmt.Errorf("must have 1 or 2 returns, got %d", rlen)
}
finalResult := sig.Results().At(rlen - 1)
if !types.Identical(finalResult.Type(), universeError) {
return nil, fmt.Errorf("final return must be error")
}
if rlen == 2 {
obj := sig.Results().At(0)
c.Result, err = l.loadField(pkg, obj, "", "")
if err != nil {
return nil, err
}
}
for i := 0; i < sig.Params().Len(); i++ {
obj := sig.Params().At(i)
fld, err := l.loadField(pkg, obj, "", "")
if err != nil {
return nil, err
}
if i == 0 {
// Lazy check that the first argument is a context. We could relax this,
// but then the generated code gets more complicated.
if named, ok := aliases.Unalias(fld.Type).(*types.Named); !ok || named.Obj().Name() != "Context" || named.Obj().Pkg().Path() != "context" {
return nil, fmt.Errorf("first method parameter must be context.Context")
}
// Skip the context argument, as it is implied.
continue
}
c.Args = append(c.Args, fld)
}
return c, nil
}
func (l *fieldLoader) loadField(pkg *packages.Package, obj *types.Var, doc, tag string) (*Field, error) {
if existing, ok := l.loaded[obj]; ok {
return existing, nil
}
fld := &Field{
Name: obj.Name(),
Doc: strings.TrimSpace(doc),
Type: obj.Type(),
JSONTag: reflect.StructTag(tag).Get("json"),
}
under := fld.Type.Underlying()
// Quick-and-dirty handling for various underlying types.
switch p := under.(type) {
case *types.Pointer:
under = p.Elem().Underlying()
case *types.Array:
under = p.Elem().Underlying()
fld.FieldMod = fmt.Sprintf("[%d]", p.Len())
case *types.Slice:
under = p.Elem().Underlying()
fld.FieldMod = "[]"
}
if s, ok := under.(*types.Struct); ok {
for i := 0; i < s.NumFields(); i++ {
obj2 := s.Field(i)
pkg2 := pkg
if obj2.Pkg() != pkg2.Types {
pkg2, ok = pkg.Imports[obj2.Pkg().Path()]
if !ok {
return nil, fmt.Errorf("missing import for %q: %q", pkg.ID, obj2.Pkg().Path())
}
}
node, err := findField(pkg2, obj2.Pos())
if err != nil {
return nil, err
}
tag := s.Tag(i)
structField, err := l.loadField(pkg2, obj2, node.Doc.Text(), tag)
if err != nil {
return nil, err
}
fld.Fields = append(fld.Fields, structField)
}
}
return fld, nil
}
// splitDoc parses a command doc string to separate the title from normal
// documentation.
//
// The doc comment should be of the form: "MethodName: Title\nDocumentation"
func splitDoc(text string) (title, doc string) {
docParts := strings.SplitN(text, "\n", 2)
titleParts := strings.SplitN(docParts[0], ":", 2)
if len(titleParts) > 1 {
title = strings.TrimSpace(titleParts[1])
}
if len(docParts) > 1 {
doc = strings.TrimSpace(docParts[1])
}
return title, doc
}
// lspName returns the normalized command name to use in the LSP.
func lspName(methodName string) string {
words := splitCamel(methodName)
for i := range words {
words[i] = strings.ToLower(words[i])
}
return "gopls." + strings.Join(words, "_")
}
// splitCamel splits s into words, according to camel-case word boundaries.
// Initialisms are grouped as a single word.
//
// For example:
//
// "RunTests" -> []string{"Run", "Tests"}
// "GCDetails" -> []string{"GC", "Details"}
func splitCamel(s string) []string {
var words []string
for len(s) > 0 {
last := strings.LastIndexFunc(s, unicode.IsUpper)
if last < 0 {
last = 0
}
if last == len(s)-1 {
// Group initialisms as a single word.
last = 1 + strings.LastIndexFunc(s[:last], func(r rune) bool { return !unicode.IsUpper(r) })
}
words = append(words, s[last:])
s = s[:last]
}
for i := 0; i < len(words)/2; i++ {
j := len(words) - i - 1
words[i], words[j] = words[j], words[i]
}
return words
}
// findField finds the struct field or interface method positioned at pos,
// within the AST.
func findField(pkg *packages.Package, pos token.Pos) (*ast.Field, error) {
fset := pkg.Fset
var file *ast.File
for _, f := range pkg.Syntax {
if fset.File(f.Pos()).Name() == fset.File(pos).Name() {
file = f
break
}
}
if file == nil {
return nil, fmt.Errorf("no file for pos %v", pos)
}
path, _ := astutil.PathEnclosingInterval(file, pos, pos)
// This is fragile, but in the cases we care about, the field will be in
// path[1].
return path[1].(*ast.Field), nil
}
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