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go/internal/lsp/cache/parse.go
Muir Manders 49b8ac185c internal/lsp/cache: add file contents to ParseGoHandle
Currently there is no need for this because the file contents are part
of the file handle. This change is in preparation for an impending
improvement that tweaks the source code during the parse stage to fix
certain kind of terminal parse errors. Any code that wants to use
an *ast.File or *token.File in conjunction with the file contents
needs access to the doctored source code so things line up.

Change-Id: I59d83d3d6150aa1264761aa2c1f6c1269075a2ce
Reviewed-on: https://go-review.googlesource.com/c/tools/+/218979
Run-TryBot: Muir Manders <muir@mnd.rs>
Run-TryBot: Rebecca Stambler <rstambler@golang.org>
TryBot-Result: Gobot Gobot <gobot@golang.org>
Reviewed-by: Rebecca Stambler <rstambler@golang.org>
2020-02-13 05:05:14 +00:00

669 lines
17 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 cache
import (
"bytes"
"context"
"go/ast"
"go/parser"
"go/scanner"
"go/token"
"reflect"
"golang.org/x/tools/internal/lsp/protocol"
"golang.org/x/tools/internal/lsp/source"
"golang.org/x/tools/internal/lsp/telemetry"
"golang.org/x/tools/internal/memoize"
"golang.org/x/tools/internal/span"
"golang.org/x/tools/internal/telemetry/log"
"golang.org/x/tools/internal/telemetry/trace"
errors "golang.org/x/xerrors"
)
// Limits the number of parallel parser calls per process.
var parseLimit = make(chan struct{}, 20)
// parseKey uniquely identifies a parsed Go file.
type parseKey struct {
file source.FileIdentity
mode source.ParseMode
}
type parseGoHandle struct {
handle *memoize.Handle
file source.FileHandle
mode source.ParseMode
}
type parseGoData struct {
memoize.NoCopy
src []byte
ast *ast.File
parseError error // errors associated with parsing the file
mapper *protocol.ColumnMapper
err error
}
func (c *cache) ParseGoHandle(fh source.FileHandle, mode source.ParseMode) source.ParseGoHandle {
key := parseKey{
file: fh.Identity(),
mode: mode,
}
fset := c.fset
h := c.store.Bind(key, func(ctx context.Context) interface{} {
return parseGo(ctx, fset, fh, mode)
})
return &parseGoHandle{
handle: h,
file: fh,
mode: mode,
}
}
func (pgh *parseGoHandle) String() string {
return pgh.File().Identity().URI.Filename()
}
func (pgh *parseGoHandle) File() source.FileHandle {
return pgh.file
}
func (pgh *parseGoHandle) Mode() source.ParseMode {
return pgh.mode
}
func (pgh *parseGoHandle) Parse(ctx context.Context) (*ast.File, []byte, *protocol.ColumnMapper, error, error) {
v := pgh.handle.Get(ctx)
if v == nil {
return nil, nil, nil, nil, errors.Errorf("no parsed file for %s", pgh.File().Identity().URI)
}
data := v.(*parseGoData)
return data.ast, data.src, data.mapper, data.parseError, data.err
}
func (pgh *parseGoHandle) Cached() (*ast.File, []byte, *protocol.ColumnMapper, error, error) {
v := pgh.handle.Cached()
if v == nil {
return nil, nil, nil, nil, errors.Errorf("no cached AST for %s", pgh.file.Identity().URI)
}
data := v.(*parseGoData)
return data.ast, data.src, data.mapper, data.parseError, data.err
}
func hashParseKey(ph source.ParseGoHandle) string {
b := bytes.NewBuffer(nil)
b.WriteString(ph.File().Identity().String())
b.WriteString(string(ph.Mode()))
return hashContents(b.Bytes())
}
func hashParseKeys(phs []source.ParseGoHandle) string {
b := bytes.NewBuffer(nil)
for _, ph := range phs {
b.WriteString(hashParseKey(ph))
}
return hashContents(b.Bytes())
}
func parseGo(ctx context.Context, fset *token.FileSet, fh source.FileHandle, mode source.ParseMode) *parseGoData {
ctx, done := trace.StartSpan(ctx, "cache.parseGo", telemetry.File.Of(fh.Identity().URI.Filename()))
defer done()
if fh.Identity().Kind != source.Go {
return &parseGoData{err: errors.Errorf("cannot parse non-Go file %s", fh.Identity().URI)}
}
buf, _, err := fh.Read(ctx)
if err != nil {
return &parseGoData{err: err}
}
parseLimit <- struct{}{}
defer func() { <-parseLimit }()
parserMode := parser.AllErrors | parser.ParseComments
if mode == source.ParseHeader {
parserMode = parser.ImportsOnly | parser.ParseComments
}
file, parseError := parser.ParseFile(fset, fh.Identity().URI.Filename(), buf, parserMode)
var tok *token.File
if file != nil {
// Fix any badly parsed parts of the AST.
tok = fset.File(file.Pos())
if tok == nil {
return &parseGoData{err: errors.Errorf("successfully parsed but no token.File for %s (%v)", fh.Identity().URI, parseError)}
}
if mode == source.ParseExported {
trimAST(file)
}
if err := fixAST(ctx, file, tok, buf); err != nil {
log.Error(ctx, "failed to fix AST", err)
}
}
if file == nil {
// If the file is nil only due to parse errors,
// the parse errors are the actual errors.
err := parseError
if err == nil {
err = errors.Errorf("no AST for %s", fh.Identity().URI)
}
return &parseGoData{parseError: parseError, err: err}
}
m := &protocol.ColumnMapper{
URI: fh.Identity().URI,
Converter: span.NewTokenConverter(fset, tok),
Content: buf,
}
return &parseGoData{
src: buf,
ast: file,
mapper: m,
parseError: parseError,
}
}
// trimAST clears any part of the AST not relevant to type checking
// expressions at pos.
func trimAST(file *ast.File) {
ast.Inspect(file, func(n ast.Node) bool {
if n == nil {
return false
}
switch n := n.(type) {
case *ast.FuncDecl:
n.Body = nil
case *ast.BlockStmt:
n.List = nil
case *ast.CaseClause:
n.Body = nil
case *ast.CommClause:
n.Body = nil
case *ast.CompositeLit:
// Leave elts in place for [...]T
// array literals, because they can
// affect the expression's type.
if !isEllipsisArray(n.Type) {
n.Elts = nil
}
}
return true
})
}
func isEllipsisArray(n ast.Expr) bool {
at, ok := n.(*ast.ArrayType)
if !ok {
return false
}
_, ok = at.Len.(*ast.Ellipsis)
return ok
}
// fixAST inspects the AST and potentially modifies any *ast.BadStmts so that it can be
// type-checked more effectively.
func fixAST(ctx context.Context, n ast.Node, tok *token.File, src []byte) error {
var err error
walkASTWithParent(n, func(n, parent ast.Node) bool {
switch n := n.(type) {
case *ast.BadStmt:
err = fixDeferOrGoStmt(n, parent, tok, src) // don't shadow err
if err == nil {
// Recursively fix in our fixed node.
err = fixAST(ctx, parent, tok, src)
} else {
err = errors.Errorf("unable to parse defer or go from *ast.BadStmt: %v", err)
}
return false
case *ast.BadExpr:
// Don't propagate this error since *ast.BadExpr is very common
// and it is only sometimes due to array types. Errors from here
// are expected and not actionable in general.
if fixArrayType(n, parent, tok, src) == nil {
// Recursively fix in our fixed node.
err = fixAST(ctx, parent, tok, src)
return false
}
return false
case *ast.SelectorExpr:
// Fix cases where a keyword prefix results in a phantom "_" selector, e.g.:
//
// foo.var<> // want to complete to "foo.variance"
//
fixPhantomSelector(n, tok, src)
return true
default:
return true
}
})
return err
}
// walkASTWithParent walks the AST rooted at n. The semantics are
// similar to ast.Inspect except it does not call f(nil).
func walkASTWithParent(n ast.Node, f func(n ast.Node, parent ast.Node) bool) {
var ancestors []ast.Node
ast.Inspect(n, func(n ast.Node) (recurse bool) {
defer func() {
if recurse {
ancestors = append(ancestors, n)
}
}()
if n == nil {
ancestors = ancestors[:len(ancestors)-1]
return false
}
var parent ast.Node
if len(ancestors) > 0 {
parent = ancestors[len(ancestors)-1]
}
return f(n, parent)
})
}
// fixPhantomSelector tries to fix selector expressions with phantom
// "_" selectors. In particular, we check if the selector is a
// keyword, and if so we swap in an *ast.Ident with the keyword text. For example:
//
// foo.var
//
// yields a "_" selector instead of "var" since "var" is a keyword.
func fixPhantomSelector(sel *ast.SelectorExpr, tok *token.File, src []byte) {
if !isPhantomUnderscore(sel.Sel, tok, src) {
return
}
maybeKeyword := readKeyword(sel.Sel.Pos(), tok, src)
if maybeKeyword == "" {
return
}
replaceNode(sel, sel.Sel, &ast.Ident{
Name: maybeKeyword,
NamePos: sel.Sel.Pos(),
})
}
// isPhantomUnderscore reports whether the given ident is a phantom
// underscore. The parser sometimes inserts phantom underscores when
// it encounters otherwise unparseable situations.
func isPhantomUnderscore(id *ast.Ident, tok *token.File, src []byte) bool {
if id == nil || id.Name != "_" {
return false
}
// Phantom underscore means the underscore is not actually in the
// program text.
offset := tok.Offset(id.Pos())
return len(src) <= offset || src[offset] != '_'
}
// readKeyword reads the keyword starting at pos, if any.
func readKeyword(pos token.Pos, tok *token.File, src []byte) string {
var kwBytes []byte
for i := tok.Offset(pos); i < len(src); i++ {
// Use a simplified identifier check since keywords are always lowercase ASCII.
if src[i] < 'a' || src[i] > 'z' {
break
}
kwBytes = append(kwBytes, src[i])
// Stop search at arbitrarily chosen too-long-for-a-keyword length.
if len(kwBytes) > 15 {
return ""
}
}
if kw := string(kwBytes); token.Lookup(kw).IsKeyword() {
return kw
}
return ""
}
// fixArrayType tries to parse an *ast.BadExpr into an *ast.ArrayType.
// go/parser often turns lone array types like "[]int" into BadExprs
// if it isn't expecting a type.
func fixArrayType(bad *ast.BadExpr, parent ast.Node, tok *token.File, src []byte) error {
// Our expected input is a bad expression that looks like "[]someExpr".
from := bad.Pos()
to := bad.End()
if !from.IsValid() || !to.IsValid() {
return errors.Errorf("invalid BadExpr from/to: %d/%d", from, to)
}
exprBytes := make([]byte, 0, int(to-from)+3)
// Avoid doing tok.Offset(to) since that panics if badExpr ends at EOF.
exprBytes = append(exprBytes, src[tok.Offset(from):tok.Offset(to-1)+1]...)
exprBytes = bytes.TrimSpace(exprBytes)
// If our expression ends in "]" (e.g. "[]"), add a phantom selector
// so we can complete directly after the "[]".
if len(exprBytes) > 0 && exprBytes[len(exprBytes)-1] == ']' {
exprBytes = append(exprBytes, '_')
}
// Add "{}" to turn our ArrayType into a CompositeLit. This is to
// handle the case of "[...]int" where we must make it a composite
// literal to be parseable.
exprBytes = append(exprBytes, '{', '}')
expr, err := parseExpr(from, exprBytes)
if err != nil {
return err
}
cl, _ := expr.(*ast.CompositeLit)
if cl == nil {
return errors.Errorf("expr not compLit (%T)", expr)
}
at, _ := cl.Type.(*ast.ArrayType)
if at == nil {
return errors.Errorf("compLit type not array (%T)", cl.Type)
}
if !replaceNode(parent, bad, at) {
return errors.Errorf("couldn't replace array type")
}
return nil
}
// fixDeferOrGoStmt tries to parse an *ast.BadStmt into a defer or a go statement.
//
// go/parser packages a statement of the form "defer x." as an *ast.BadStmt because
// it does not include a call expression. This means that go/types skips type-checking
// this statement entirely, and we can't use the type information when completing.
// Here, we try to generate a fake *ast.DeferStmt or *ast.GoStmt to put into the AST,
// instead of the *ast.BadStmt.
func fixDeferOrGoStmt(bad *ast.BadStmt, parent ast.Node, tok *token.File, src []byte) error {
// Check if we have a bad statement containing either a "go" or "defer".
s := &scanner.Scanner{}
s.Init(tok, src, nil, 0)
var (
pos token.Pos
tkn token.Token
)
for {
if tkn == token.EOF {
return errors.Errorf("reached the end of the file")
}
if pos >= bad.From {
break
}
pos, tkn, _ = s.Scan()
}
var stmt ast.Stmt
switch tkn {
case token.DEFER:
stmt = &ast.DeferStmt{
Defer: pos,
}
case token.GO:
stmt = &ast.GoStmt{
Go: pos,
}
default:
return errors.Errorf("no defer or go statement found")
}
var (
from, to, last token.Pos
lastToken token.Token
braceDepth int
phantomSelectors []token.Pos
)
FindTo:
for {
to, tkn, _ = s.Scan()
if from == token.NoPos {
from = to
}
switch tkn {
case token.EOF:
break FindTo
case token.SEMICOLON:
// If we aren't in nested braces, end of statement means
// end of expression.
if braceDepth == 0 {
break FindTo
}
case token.LBRACE:
braceDepth++
}
// This handles the common dangling selector case. For example in
//
// defer fmt.
// y := 1
//
// we notice the dangling period and end our expression.
//
// If the previous token was a "." and we are looking at a "}",
// the period is likely a dangling selector and needs a phantom
// "_". Likewise if the current token is on a different line than
// the period, the period is likely a dangling selector.
if lastToken == token.PERIOD && (tkn == token.RBRACE || tok.Line(to) > tok.Line(last)) {
// Insert phantom "_" selector after the dangling ".".
phantomSelectors = append(phantomSelectors, last+1)
// If we aren't in a block then end the expression after the ".".
if braceDepth == 0 {
to = last + 1
break
}
}
lastToken = tkn
last = to
switch tkn {
case token.RBRACE:
braceDepth--
if braceDepth <= 0 {
if braceDepth == 0 {
// +1 to include the "}" itself.
to += 1
}
break FindTo
}
}
}
if !from.IsValid() || tok.Offset(from) >= len(src) {
return errors.Errorf("invalid from position")
}
if !to.IsValid() || tok.Offset(to) >= len(src) {
return errors.Errorf("invalid to position %d", to)
}
// Insert any phantom selectors needed to prevent dangling "." from messing
// up the AST.
exprBytes := make([]byte, 0, int(to-from)+len(phantomSelectors))
for i, b := range src[tok.Offset(from):tok.Offset(to)] {
if len(phantomSelectors) > 0 && from+token.Pos(i) == phantomSelectors[0] {
exprBytes = append(exprBytes, '_')
phantomSelectors = phantomSelectors[1:]
}
exprBytes = append(exprBytes, b)
}
if len(phantomSelectors) > 0 {
exprBytes = append(exprBytes, '_')
}
expr, err := parseExpr(from, exprBytes)
if err != nil {
return err
}
// Package the expression into a fake *ast.CallExpr and re-insert
// into the function.
call := &ast.CallExpr{
Fun: expr,
Lparen: to,
Rparen: to,
}
switch stmt := stmt.(type) {
case *ast.DeferStmt:
stmt.Call = call
case *ast.GoStmt:
stmt.Call = call
}
if !replaceNode(parent, bad, stmt) {
return errors.Errorf("couldn't replace CallExpr")
}
return nil
}
// parseStmt parses the statement in src and updates its position to
// start at pos.
func parseStmt(pos token.Pos, src []byte) (ast.Stmt, error) {
// Wrap our expression to make it a valid Go file we can pass to ParseFile.
fileSrc := bytes.Join([][]byte{
[]byte("package fake;func _(){"),
src,
[]byte("}"),
}, nil)
// Use ParseFile instead of ParseExpr because ParseFile has
// best-effort behavior, whereas ParseExpr fails hard on any error.
fakeFile, err := parser.ParseFile(token.NewFileSet(), "", fileSrc, 0)
if fakeFile == nil {
return nil, errors.Errorf("error reading fake file source: %v", err)
}
// Extract our expression node from inside the fake file.
if len(fakeFile.Decls) == 0 {
return nil, errors.Errorf("error parsing fake file: %v", err)
}
fakeDecl, _ := fakeFile.Decls[0].(*ast.FuncDecl)
if fakeDecl == nil || len(fakeDecl.Body.List) == 0 {
return nil, errors.Errorf("no statement in %s: %v", src, err)
}
stmt := fakeDecl.Body.List[0]
// parser.ParseFile returns undefined positions.
// Adjust them for the current file.
offsetPositions(stmt, pos-1-(stmt.Pos()-1))
return stmt, nil
}
// parseExpr parses the expression in src and updates its position to
// start at pos.
func parseExpr(pos token.Pos, src []byte) (ast.Expr, error) {
stmt, err := parseStmt(pos, src)
if err != nil {
return nil, err
}
exprStmt, ok := stmt.(*ast.ExprStmt)
if !ok {
return nil, errors.Errorf("no expr in %s: %v", src, err)
}
return exprStmt.X, nil
}
var tokenPosType = reflect.TypeOf(token.NoPos)
// offsetPositions applies an offset to the positions in an ast.Node.
func offsetPositions(n ast.Node, offset token.Pos) {
ast.Inspect(n, func(n ast.Node) bool {
if n == nil {
return false
}
v := reflect.ValueOf(n).Elem()
switch v.Kind() {
case reflect.Struct:
for i := 0; i < v.NumField(); i++ {
f := v.Field(i)
if f.Type() != tokenPosType {
continue
}
if !f.CanSet() {
continue
}
f.SetInt(f.Int() + int64(offset))
}
}
return true
})
}
// replaceNode updates parent's child oldChild to be newChild. It
// retuns whether it replaced successfully.
func replaceNode(parent, oldChild, newChild ast.Node) bool {
if parent == nil || oldChild == nil || newChild == nil {
return false
}
parentVal := reflect.ValueOf(parent).Elem()
if parentVal.Kind() != reflect.Struct {
return false
}
newChildVal := reflect.ValueOf(newChild)
tryReplace := func(v reflect.Value) bool {
if !v.CanSet() || !v.CanInterface() {
return false
}
// If the existing value is oldChild, we found our child. Make
// sure our newChild is assignable and then make the swap.
if v.Interface() == oldChild && newChildVal.Type().AssignableTo(v.Type()) {
v.Set(newChildVal)
return true
}
return false
}
// Loop over parent's struct fields.
for i := 0; i < parentVal.NumField(); i++ {
f := parentVal.Field(i)
switch f.Kind() {
// Check interface and pointer fields.
case reflect.Interface, reflect.Ptr:
if tryReplace(f) {
return true
}
// Search through any slice fields.
case reflect.Slice:
for i := 0; i < f.Len(); i++ {
if tryReplace(f.Index(i)) {
return true
}
}
}
}
return false
}