gopls/internal/lsp/cache/errors.go - tools - Git at Google

 // 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

 // This file defines routines to convert diagnostics from go list, go
 // get, go/packages, parsing, type checking, and analysis into
 // source.Diagnostic form, and suggesting quick fixes.

 import (
 	"context"
 	"fmt"
 	"go/parser"
 	"go/scanner"
 	"go/token"
 	"go/types"
 	"log"
 	"regexp"
 	"strconv"
 	"strings"

 	"golang.org/x/tools/go/packages"
 	"golang.org/x/tools/gopls/internal/lsp/command"
 	"golang.org/x/tools/gopls/internal/lsp/protocol"
 	"golang.org/x/tools/gopls/internal/lsp/safetoken"
 	"golang.org/x/tools/gopls/internal/lsp/source"
 	"golang.org/x/tools/gopls/internal/span"
 	"golang.org/x/tools/internal/analysisinternal"
 	"golang.org/x/tools/internal/bug"
 	"golang.org/x/tools/internal/typesinternal"
 )

 // goPackagesErrorDiagnostics translates the given go/packages Error into a
 // diagnostic, using the provided metadata and filesource.
 //
 // The slice of diagnostics may be empty.
 func goPackagesErrorDiagnostics(ctx context.Context, e packages.Error, m *source.Metadata, fs source.FileSource) ([]*source.Diagnostic, error) {
 	if diag, err := parseGoListImportCycleError(ctx, e, m, fs); err != nil {
 		return nil, err
 	} else if diag != nil {
 		return []*source.Diagnostic{diag}, nil
 	}

 	var spn span.Span
 	if e.Pos == "" {
 		spn = parseGoListError(e.Msg, m.LoadDir)
 		// We may not have been able to parse a valid span. Apply the errors to all files.
 		if _, err := spanToRange(ctx, fs, spn); err != nil {
 			var diags []*source.Diagnostic
 			for _, uri := range m.CompiledGoFiles {
 				diags = append(diags, &source.Diagnostic{
 					URI:      uri,
 					Severity: protocol.SeverityError,
 					Source:   source.ListError,
 					Message:  e.Msg,
 				})
 			}
 			return diags, nil
 		}
 	} else {
 		spn = span.ParseInDir(e.Pos, m.LoadDir)
 	}

 	// TODO(rfindley): in some cases the go command outputs invalid spans, for
 	// example (from TestGoListErrors):
 	//
 	//   package a
 	//   import
 	//
 	// In this case, the go command will complain about a.go:2:8, which is after
 	// the trailing newline but still considered to be on the second line, most
 	// likely because *token.File lacks information about newline termination.
 	//
 	// We could do better here by handling that case.
 	rng, err := spanToRange(ctx, fs, spn)
 	if err != nil {
 		return nil, err
 	}
 	return []*source.Diagnostic{{
 		URI:      spn.URI(),
 		Range:    rng,
 		Severity: protocol.SeverityError,
 		Source:   source.ListError,
 		Message:  e.Msg,
 	}}, nil
 }

 func parseErrorDiagnostics(pkg *syntaxPackage, errList scanner.ErrorList) ([]*source.Diagnostic, error) {
 	// The first parser error is likely the root cause of the problem.
 	if errList.Len() <= 0 {
 		return nil, fmt.Errorf("no errors in %v", errList)
 	}
 	e := errList[0]
 	pgf, err := pkg.File(span.URIFromPath(e.Pos.Filename))
 	if err != nil {
 		return nil, err
 	}
 	rng, err := pgf.Mapper.OffsetRange(e.Pos.Offset, e.Pos.Offset)
 	if err != nil {
 		return nil, err
 	}
 	return []*source.Diagnostic{{
 		URI:      pgf.URI,
 		Range:    rng,
 		Severity: protocol.SeverityError,
 		Source:   source.ParseError,
 		Message:  e.Msg,
 	}}, nil
 }

 var importErrorRe = regexp.MustCompile(`could not import ([^\s]+)`)
 var unsupportedFeatureRe = regexp.MustCompile(`.*require.* go(\d+\.\d+) or later`)

 func typeErrorDiagnostics(moduleMode bool, linkTarget string, pkg *syntaxPackage, e extendedError) ([]*source.Diagnostic, error) {
 	code, loc, err := typeErrorData(pkg, e.primary)
 	if err != nil {
 		return nil, err
 	}
 	diag := &source.Diagnostic{
 		URI:      loc.URI.SpanURI(),
 		Range:    loc.Range,
 		Severity: protocol.SeverityError,
 		Source:   source.TypeError,
 		Message:  e.primary.Msg,
 	}
 	if code != 0 {
 		diag.Code = code.String()
 		diag.CodeHref = typesCodeHref(linkTarget, code)
 	}
 	switch code {
 	case typesinternal.UnusedVar, typesinternal.UnusedImport:
 		diag.Tags = append(diag.Tags, protocol.Unnecessary)
 	}

 	for _, secondary := range e.secondaries {
 		_, secondaryLoc, err := typeErrorData(pkg, secondary)
 		if err != nil {
 			// We may not be able to compute type error data in scenarios where the
 			// secondary position is outside of the current package. In this case, we
 			// don't want to ignore the diagnostic entirely.
 			//
 			// See golang/go#59005 for an example where gopls was missing diagnostics
 			// due to returning an error here.
 			continue
 		}
 		diag.Related = append(diag.Related, protocol.DiagnosticRelatedInformation{
 			Location: secondaryLoc,
 			Message:  secondary.Msg,
 		})
 	}

 	if match := importErrorRe.FindStringSubmatch(e.primary.Msg); match != nil {
 		diag.SuggestedFixes, err = goGetQuickFixes(moduleMode, loc.URI.SpanURI(), match[1])
 		if err != nil {
 			return nil, err
 		}
 	}
 	if match := unsupportedFeatureRe.FindStringSubmatch(e.primary.Msg); match != nil {
 		diag.SuggestedFixes, err = editGoDirectiveQuickFix(moduleMode, loc.URI.SpanURI(), match[1])
 		if err != nil {
 			return nil, err
 		}
 	}
 	return []*source.Diagnostic{diag}, nil
 }

 func goGetQuickFixes(moduleMode bool, uri span.URI, pkg string) ([]source.SuggestedFix, error) {
 	// Go get only supports module mode for now.
 	if !moduleMode {
 		return nil, nil
 	}
 	title := fmt.Sprintf("go get package %v", pkg)
 	cmd, err := command.NewGoGetPackageCommand(title, command.GoGetPackageArgs{
 		URI:        protocol.URIFromSpanURI(uri),
 		AddRequire: true,
 		Pkg:        pkg,
 	})
 	if err != nil {
 		return nil, err
 	}
 	return []source.SuggestedFix{source.SuggestedFixFromCommand(cmd, protocol.QuickFix)}, nil
 }

 func editGoDirectiveQuickFix(moduleMode bool, uri span.URI, version string) ([]source.SuggestedFix, error) {
 	// Go mod edit only supports module mode.
 	if !moduleMode {
 		return nil, nil
 	}
 	title := fmt.Sprintf("go mod edit -go=%s", version)
 	cmd, err := command.NewEditGoDirectiveCommand(title, command.EditGoDirectiveArgs{
 		URI:     protocol.URIFromSpanURI(uri),
 		Version: version,
 	})
 	if err != nil {
 		return nil, err
 	}
 	return []source.SuggestedFix{source.SuggestedFixFromCommand(cmd, protocol.QuickFix)}, nil
 }

 // encodeDiagnostics gob-encodes the given diagnostics.
 func encodeDiagnostics(srcDiags []*source.Diagnostic) []byte {
 	var gobDiags []gobDiagnostic
 	for _, srcDiag := range srcDiags {
 		var gobFixes []gobSuggestedFix
 		for _, srcFix := range srcDiag.SuggestedFixes {
 			gobFix := gobSuggestedFix{
 				Message:    srcFix.Title,
 				ActionKind: srcFix.ActionKind,
 			}
 			for uri, srcEdits := range srcFix.Edits {
 				for _, srcEdit := range srcEdits {
 					gobFix.TextEdits = append(gobFix.TextEdits, gobTextEdit{
 						Location: protocol.Location{
 							URI:   protocol.URIFromSpanURI(uri),
 							Range: srcEdit.Range,
 						},
 						NewText: []byte(srcEdit.NewText),
 					})
 				}
 			}
 			if srcCmd := srcFix.Command; srcCmd != nil {
 				gobFix.Command = &gobCommand{
 					Title:     srcCmd.Title,
 					Command:   srcCmd.Command,
 					Arguments: srcCmd.Arguments,
 				}
 			}
 			gobFixes = append(gobFixes, gobFix)
 		}
 		var gobRelated []gobRelatedInformation
 		for _, srcRel := range srcDiag.Related {
 			gobRel := gobRelatedInformation(srcRel)
 			gobRelated = append(gobRelated, gobRel)
 		}
 		gobDiag := gobDiagnostic{
 			Location: protocol.Location{
 				URI:   protocol.URIFromSpanURI(srcDiag.URI),
 				Range: srcDiag.Range,
 			},
 			Severity:       srcDiag.Severity,
 			Code:           srcDiag.Code,
 			CodeHref:       srcDiag.CodeHref,
 			Source:         string(srcDiag.Source),
 			Message:        srcDiag.Message,
 			SuggestedFixes: gobFixes,
 			Related:        gobRelated,
 			Tags:           srcDiag.Tags,
 		}
 		gobDiags = append(gobDiags, gobDiag)
 	}
 	return mustEncode(gobDiags)
 }

 // decodeDiagnostics decodes the given gob-encoded diagnostics.
 func decodeDiagnostics(data []byte) []*source.Diagnostic {
 	var gobDiags []gobDiagnostic
 	mustDecode(data, &gobDiags)
 	var srcDiags []*source.Diagnostic
 	for _, gobDiag := range gobDiags {
 		var srcFixes []source.SuggestedFix
 		for _, gobFix := range gobDiag.SuggestedFixes {
 			srcFix := source.SuggestedFix{
 				Title:      gobFix.Message,
 				ActionKind: gobFix.ActionKind,
 			}
 			for _, gobEdit := range gobFix.TextEdits {
 				if srcFix.Edits == nil {
 					srcFix.Edits = make(map[span.URI][]protocol.TextEdit)
 				}
 				srcEdit := protocol.TextEdit{
 					Range:   gobEdit.Location.Range,
 					NewText: string(gobEdit.NewText),
 				}
 				uri := gobEdit.Location.URI.SpanURI()
 				srcFix.Edits[uri] = append(srcFix.Edits[uri], srcEdit)
 			}
 			if gobCmd := gobFix.Command; gobCmd != nil {
 				gobFix.Command = &gobCommand{
 					Title:     gobCmd.Title,
 					Command:   gobCmd.Command,
 					Arguments: gobCmd.Arguments,
 				}
 			}
 			srcFixes = append(srcFixes, srcFix)
 		}
 		var srcRelated []protocol.DiagnosticRelatedInformation
 		for _, gobRel := range gobDiag.Related {
 			srcRel := protocol.DiagnosticRelatedInformation(gobRel)
 			srcRelated = append(srcRelated, srcRel)
 		}
 		srcDiag := &source.Diagnostic{
 			URI:            gobDiag.Location.URI.SpanURI(),
 			Range:          gobDiag.Location.Range,
 			Severity:       gobDiag.Severity,
 			Source:         source.AnalyzerErrorKind(gobDiag.Source),
 			Message:        gobDiag.Message,
 			Tags:           gobDiag.Tags,
 			Related:        srcRelated,
 			SuggestedFixes: srcFixes,
 		}
 		srcDiags = append(srcDiags, srcDiag)
 	}
 	return srcDiags
 }

 // toSourceDiagnostic converts a gobDiagnostic to "source" form.
 func toSourceDiagnostic(srcAnalyzer *source.Analyzer, gobDiag *gobDiagnostic) *source.Diagnostic {
 	var related []protocol.DiagnosticRelatedInformation
 	for _, gobRelated := range gobDiag.Related {
 		related = append(related, protocol.DiagnosticRelatedInformation(gobRelated))
 	}

 	kinds := srcAnalyzer.ActionKind
 	if len(srcAnalyzer.ActionKind) == 0 {
 		kinds = append(kinds, protocol.QuickFix)
 	}
 	fixes := suggestedAnalysisFixes(gobDiag, kinds)
 	if srcAnalyzer.Fix != "" {
 		cmd, err := command.NewApplyFixCommand(gobDiag.Message, command.ApplyFixArgs{
 			URI:   gobDiag.Location.URI,
 			Range: gobDiag.Location.Range,
 			Fix:   srcAnalyzer.Fix,
 		})
 		if err != nil {
 			// JSON marshalling of these argument values cannot fail.
 			log.Fatalf("internal error in NewApplyFixCommand: %v", err)
 		}
 		for _, kind := range kinds {
 			fixes = append(fixes, source.SuggestedFixFromCommand(cmd, kind))
 		}
 	}

 	severity := srcAnalyzer.Severity
 	if severity == 0 {
 		severity = protocol.SeverityWarning
 	}

 	diag := &source.Diagnostic{
 		URI:            gobDiag.Location.URI.SpanURI(),
 		Range:          gobDiag.Location.Range,
 		Severity:       severity,
 		Source:         source.AnalyzerErrorKind(gobDiag.Source),
 		Message:        gobDiag.Message,
 		Related:        related,
 		SuggestedFixes: fixes,
 	}
 	// If the fixes only delete code, assume that the diagnostic is reporting dead code.
 	if onlyDeletions(fixes) {
 		diag.Tags = []protocol.DiagnosticTag{protocol.Unnecessary}
 	}
 	return diag
 }

 // onlyDeletions returns true if all of the suggested fixes are deletions.
 func onlyDeletions(fixes []source.SuggestedFix) bool {
 	for _, fix := range fixes {
 		if fix.Command != nil {
 			return false
 		}
 		for _, edits := range fix.Edits {
 			for _, edit := range edits {
 				if edit.NewText != "" {
 					return false
 				}
 				if protocol.ComparePosition(edit.Range.Start, edit.Range.End) == 0 {
 					return false
 				}
 			}
 		}
 	}
 	return len(fixes) > 0
 }

 func typesCodeHref(linkTarget string, code typesinternal.ErrorCode) string {
 	return source.BuildLink(linkTarget, "golang.org/x/tools/internal/typesinternal", code.String())
 }

 func suggestedAnalysisFixes(diag *gobDiagnostic, kinds []protocol.CodeActionKind) []source.SuggestedFix {
 	var fixes []source.SuggestedFix
 	for _, fix := range diag.SuggestedFixes {
 		edits := make(map[span.URI][]protocol.TextEdit)
 		for _, e := range fix.TextEdits {
 			uri := span.URI(e.Location.URI)
 			edits[uri] = append(edits[uri], protocol.TextEdit{
 				Range:   e.Location.Range,
 				NewText: string(e.NewText),
 			})
 		}
 		for _, kind := range kinds {
 			fixes = append(fixes, source.SuggestedFix{
 				Title:      fix.Message,
 				Edits:      edits,
 				ActionKind: kind,
 			})
 		}

 	}
 	return fixes
 }

 func typeErrorData(pkg *syntaxPackage, terr types.Error) (typesinternal.ErrorCode, protocol.Location, error) {
 	ecode, start, end, ok := typesinternal.ReadGo116ErrorData(terr)
 	if !ok {
 		start, end = terr.Pos, terr.Pos
 		ecode = 0
 	}
 	// go/types may return invalid positions in some cases, such as
 	// in errors on tokens missing from the syntax tree.
 	if !start.IsValid() {
 		return 0, protocol.Location{}, fmt.Errorf("type error (%q, code %d, go116=%t) without position", terr.Msg, ecode, ok)
 	}
 	// go/types errors retain their FileSet.
 	// Sanity-check that we're using the right one.
 	fset := pkg.fset
 	if fset != terr.Fset {
 		return 0, protocol.Location{}, bug.Errorf("wrong FileSet for type error")
 	}
 	posn := safetoken.StartPosition(fset, start)
 	if !posn.IsValid() {
 		return 0, protocol.Location{}, fmt.Errorf("position %d of type error %q (code %q) not found in FileSet", start, start, terr)
 	}
 	pgf, err := pkg.File(span.URIFromPath(posn.Filename))
 	if err != nil {
 		return 0, protocol.Location{}, err
 	}
 	if !end.IsValid() || end == start {
 		end = analysisinternal.TypeErrorEndPos(fset, pgf.Src, start)
 	}
 	loc, err := pgf.Mapper.PosLocation(pgf.Tok, start, end)
 	return ecode, loc, err
 }

 // spanToRange converts a span.Span to a protocol.Range, by mapping content
 // contained in the provided FileSource.
 func spanToRange(ctx context.Context, fs source.FileSource, spn span.Span) (protocol.Range, error) {
 	uri := spn.URI()
 	fh, err := fs.ReadFile(ctx, uri)
 	if err != nil {
 		return protocol.Range{}, err
 	}
 	content, err := fh.Content()
 	if err != nil {
 		return protocol.Range{}, err
 	}
 	mapper := protocol.NewMapper(uri, content)
 	return mapper.SpanRange(spn)
 }

 // parseGoListError attempts to parse a standard `go list` error message
 // by stripping off the trailing error message.
 //
 // It works only on errors whose message is prefixed by colon,
 // followed by a space (": "). For example:
 //
 //	attributes.go:13:1: expected 'package', found 'type'
 func parseGoListError(input, wd string) span.Span {
 	input = strings.TrimSpace(input)
 	msgIndex := strings.Index(input, ": ")
 	if msgIndex < 0 {
 		return span.Parse(input)
 	}
 	return span.ParseInDir(input[:msgIndex], wd)
 }

 // parseGoListImportCycleError attempts to parse the given go/packages error as
 // an import cycle, returning a diagnostic if successful.
 //
 // If the error is not detected as an import cycle error, it returns nil, nil.
 func parseGoListImportCycleError(ctx context.Context, e packages.Error, m *source.Metadata, fs source.FileSource) (*source.Diagnostic, error) {
 	re := regexp.MustCompile(`(.*): import stack: \[(.+)\]`)
 	matches := re.FindStringSubmatch(strings.TrimSpace(e.Msg))
 	if len(matches) < 3 {
 		return nil, nil
 	}
 	msg := matches[1]
 	importList := strings.Split(matches[2], " ")
 	// Since the error is relative to the current package. The import that is causing
 	// the import cycle error is the second one in the list.
 	if len(importList) < 2 {
 		return nil, nil
 	}
 	// Imports have quotation marks around them.
 	circImp := strconv.Quote(importList[1])
 	for _, uri := range m.CompiledGoFiles {
 		pgf, err := parseGoURI(ctx, fs, uri, source.ParseHeader)
 		if err != nil {
 			return nil, err
 		}
 		// Search file imports for the import that is causing the import cycle.
 		for _, imp := range pgf.File.Imports {
 			if imp.Path.Value == circImp {
 				rng, err := pgf.NodeMappedRange(imp)
 				if err != nil {
 					return nil, nil
 				}

 				return &source.Diagnostic{
 					URI:      pgf.URI,
 					Range:    rng.Range(),
 					Severity: protocol.SeverityError,
 					Source:   source.ListError,
 					Message:  msg,
 				}, nil
 			}
 		}
 	}
 	return nil, nil
 }

 // parseGoURI is a helper to parse the Go file at the given URI from the file
 // source fs. The resulting syntax and token.File belong to an ephemeral,
 // encapsulated FileSet, so this file stands only on its own: it's not suitable
 // to use in a list of file of a package, for example.
 //
 // It returns an error if the file could not be read.
 func parseGoURI(ctx context.Context, fs source.FileSource, uri span.URI, mode parser.Mode) (*source.ParsedGoFile, error) {
 	fh, err := fs.ReadFile(ctx, uri)
 	if err != nil {
 		return nil, err
 	}
 	return parseGoImpl(ctx, token.NewFileSet(), fh, mode)
 }

 // parseModURI is a helper to parse the Mod file at the given URI from the file
 // source fs.
 //
 // It returns an error if the file could not be read.
 func parseModURI(ctx context.Context, fs source.FileSource, uri span.URI) (*source.ParsedModule, error) {
 	fh, err := fs.ReadFile(ctx, uri)
 	if err != nil {
 		return nil, err
 	}
 	return parseModImpl(ctx, fh)
 }
	// 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

	// This file defines routines to convert diagnostics from go list, go
	// get, go/packages, parsing, type checking, and analysis into
	// source.Diagnostic form, and suggesting quick fixes.

	import (
	"context"
	"fmt"
	"go/parser"
	"go/scanner"
	"go/token"
	"go/types"
	"log"
	"regexp"
	"strconv"
	"strings"

	"golang.org/x/tools/go/packages"
	"golang.org/x/tools/gopls/internal/lsp/command"
	"golang.org/x/tools/gopls/internal/lsp/protocol"
	"golang.org/x/tools/gopls/internal/lsp/safetoken"
	"golang.org/x/tools/gopls/internal/lsp/source"
	"golang.org/x/tools/gopls/internal/span"
	"golang.org/x/tools/internal/analysisinternal"
	"golang.org/x/tools/internal/bug"
	"golang.org/x/tools/internal/typesinternal"
	)

	// goPackagesErrorDiagnostics translates the given go/packages Error into a
	// diagnostic, using the provided metadata and filesource.
	//
	// The slice of diagnostics may be empty.
	func goPackagesErrorDiagnostics(ctx context.Context, e packages.Error, m source.Metadata, fs source.FileSource) ([]source.Diagnostic, error) {
	if diag, err := parseGoListImportCycleError(ctx, e, m, fs); err != nil {
	return nil, err
	} else if diag != nil {
	return []*source.Diagnostic{diag}, nil
	}

	var spn span.Span
	if e.Pos == "" {
	spn = parseGoListError(e.Msg, m.LoadDir)
	// We may not have been able to parse a valid span. Apply the errors to all files.
	if _, err := spanToRange(ctx, fs, spn); err != nil {
	var diags []*source.Diagnostic
	for _, uri := range m.CompiledGoFiles {
	diags = append(diags, &source.Diagnostic{
	URI: uri,
	Severity: protocol.SeverityError,
	Source: source.ListError,
	Message: e.Msg,
	})
	}
	return diags, nil
	}
	} else {
	spn = span.ParseInDir(e.Pos, m.LoadDir)
	}

	// TODO(rfindley): in some cases the go command outputs invalid spans, for
	// example (from TestGoListErrors):
	//
	// package a
	// import
	//
	// In this case, the go command will complain about a.go:2:8, which is after
	// the trailing newline but still considered to be on the second line, most
	// likely because *token.File lacks information about newline termination.
	//
	// We could do better here by handling that case.
	rng, err := spanToRange(ctx, fs, spn)
	if err != nil {
	return nil, err
	}
	return []*source.Diagnostic{{
	URI: spn.URI(),
	Range: rng,
	Severity: protocol.SeverityError,
	Source: source.ListError,
	Message: e.Msg,
	}}, nil
	}

	func parseErrorDiagnostics(pkg syntaxPackage, errList scanner.ErrorList) ([]source.Diagnostic, error) {
	// The first parser error is likely the root cause of the problem.
	if errList.Len() <= 0 {
	return nil, fmt.Errorf("no errors in %v", errList)
	}
	e := errList[0]
	pgf, err := pkg.File(span.URIFromPath(e.Pos.Filename))
	if err != nil {
	return nil, err
	}
	rng, err := pgf.Mapper.OffsetRange(e.Pos.Offset, e.Pos.Offset)
	if err != nil {
	return nil, err
	}
	return []*source.Diagnostic{{
	URI: pgf.URI,
	Range: rng,
	Severity: protocol.SeverityError,
	Source: source.ParseError,
	Message: e.Msg,
	}}, nil
	}

	var importErrorRe = regexp.MustCompile(`could not import ([^\s]+)`)
	var unsupportedFeatureRe = regexp.MustCompile(`.require. go(\d+\.\d+) or later`)

	func typeErrorDiagnostics(moduleMode bool, linkTarget string, pkg syntaxPackage, e extendedError) ([]source.Diagnostic, error) {
	code, loc, err := typeErrorData(pkg, e.primary)
	if err != nil {
	return nil, err
	}
	diag := &source.Diagnostic{
	URI: loc.URI.SpanURI(),
	Range: loc.Range,
	Severity: protocol.SeverityError,
	Source: source.TypeError,
	Message: e.primary.Msg,
	}
	if code != 0 {
	diag.Code = code.String()
	diag.CodeHref = typesCodeHref(linkTarget, code)
	}
	switch code {
	case typesinternal.UnusedVar, typesinternal.UnusedImport:
	diag.Tags = append(diag.Tags, protocol.Unnecessary)
	}

	for _, secondary := range e.secondaries {
	_, secondaryLoc, err := typeErrorData(pkg, secondary)
	if err != nil {
	// We may not be able to compute type error data in scenarios where the
	// secondary position is outside of the current package. In this case, we
	// don't want to ignore the diagnostic entirely.
	//
	// See golang/go#59005 for an example where gopls was missing diagnostics
	// due to returning an error here.
	continue
	}
	diag.Related = append(diag.Related, protocol.DiagnosticRelatedInformation{
	Location: secondaryLoc,
	Message: secondary.Msg,
	})
	}

	if match := importErrorRe.FindStringSubmatch(e.primary.Msg); match != nil {
	diag.SuggestedFixes, err = goGetQuickFixes(moduleMode, loc.URI.SpanURI(), match[1])
	if err != nil {
	return nil, err
	}
	}
	if match := unsupportedFeatureRe.FindStringSubmatch(e.primary.Msg); match != nil {
	diag.SuggestedFixes, err = editGoDirectiveQuickFix(moduleMode, loc.URI.SpanURI(), match[1])
	if err != nil {
	return nil, err
	}
	}
	return []*source.Diagnostic{diag}, nil
	}

	func goGetQuickFixes(moduleMode bool, uri span.URI, pkg string) ([]source.SuggestedFix, error) {
	// Go get only supports module mode for now.
	if !moduleMode {
	return nil, nil
	}
	title := fmt.Sprintf("go get package %v", pkg)
	cmd, err := command.NewGoGetPackageCommand(title, command.GoGetPackageArgs{
	URI: protocol.URIFromSpanURI(uri),
	AddRequire: true,
	Pkg: pkg,
	})
	if err != nil {
	return nil, err
	}
	return []source.SuggestedFix{source.SuggestedFixFromCommand(cmd, protocol.QuickFix)}, nil
	}

	func editGoDirectiveQuickFix(moduleMode bool, uri span.URI, version string) ([]source.SuggestedFix, error) {
	// Go mod edit only supports module mode.
	if !moduleMode {
	return nil, nil
	}
	title := fmt.Sprintf("go mod edit -go=%s", version)
	cmd, err := command.NewEditGoDirectiveCommand(title, command.EditGoDirectiveArgs{
	URI: protocol.URIFromSpanURI(uri),
	Version: version,
	})
	if err != nil {
	return nil, err
	}
	return []source.SuggestedFix{source.SuggestedFixFromCommand(cmd, protocol.QuickFix)}, nil
	}

	// encodeDiagnostics gob-encodes the given diagnostics.
	func encodeDiagnostics(srcDiags []*source.Diagnostic) []byte {
	var gobDiags []gobDiagnostic
	for _, srcDiag := range srcDiags {
	var gobFixes []gobSuggestedFix
	for _, srcFix := range srcDiag.SuggestedFixes {
	gobFix := gobSuggestedFix{
	Message: srcFix.Title,
	ActionKind: srcFix.ActionKind,
	}
	for uri, srcEdits := range srcFix.Edits {
	for _, srcEdit := range srcEdits {
	gobFix.TextEdits = append(gobFix.TextEdits, gobTextEdit{
	Location: protocol.Location{
	URI: protocol.URIFromSpanURI(uri),
	Range: srcEdit.Range,
	},
	NewText: []byte(srcEdit.NewText),
	})
	}
	}
	if srcCmd := srcFix.Command; srcCmd != nil {
	gobFix.Command = &gobCommand{
	Title: srcCmd.Title,
	Command: srcCmd.Command,
	Arguments: srcCmd.Arguments,
	}
	}
	gobFixes = append(gobFixes, gobFix)
	}
	var gobRelated []gobRelatedInformation
	for _, srcRel := range srcDiag.Related {
	gobRel := gobRelatedInformation(srcRel)
	gobRelated = append(gobRelated, gobRel)
	}
	gobDiag := gobDiagnostic{
	Location: protocol.Location{
	URI: protocol.URIFromSpanURI(srcDiag.URI),
	Range: srcDiag.Range,
	},
	Severity: srcDiag.Severity,
	Code: srcDiag.Code,
	CodeHref: srcDiag.CodeHref,
	Source: string(srcDiag.Source),
	Message: srcDiag.Message,
	SuggestedFixes: gobFixes,
	Related: gobRelated,
	Tags: srcDiag.Tags,
	}
	gobDiags = append(gobDiags, gobDiag)
	}
	return mustEncode(gobDiags)
	}

	// decodeDiagnostics decodes the given gob-encoded diagnostics.
	func decodeDiagnostics(data []byte) []*source.Diagnostic {
	var gobDiags []gobDiagnostic
	mustDecode(data, &gobDiags)
	var srcDiags []*source.Diagnostic
	for _, gobDiag := range gobDiags {
	var srcFixes []source.SuggestedFix
	for _, gobFix := range gobDiag.SuggestedFixes {
	srcFix := source.SuggestedFix{
	Title: gobFix.Message,
	ActionKind: gobFix.ActionKind,
	}
	for _, gobEdit := range gobFix.TextEdits {
	if srcFix.Edits == nil {
	srcFix.Edits = make(map[span.URI][]protocol.TextEdit)
	}
	srcEdit := protocol.TextEdit{
	Range: gobEdit.Location.Range,
	NewText: string(gobEdit.NewText),
	}
	uri := gobEdit.Location.URI.SpanURI()
	srcFix.Edits[uri] = append(srcFix.Edits[uri], srcEdit)
	}
	if gobCmd := gobFix.Command; gobCmd != nil {
	gobFix.Command = &gobCommand{
	Title: gobCmd.Title,
	Command: gobCmd.Command,
	Arguments: gobCmd.Arguments,
	}
	}
	srcFixes = append(srcFixes, srcFix)
	}
	var srcRelated []protocol.DiagnosticRelatedInformation
	for _, gobRel := range gobDiag.Related {
	srcRel := protocol.DiagnosticRelatedInformation(gobRel)
	srcRelated = append(srcRelated, srcRel)
	}
	srcDiag := &source.Diagnostic{
	URI: gobDiag.Location.URI.SpanURI(),
	Range: gobDiag.Location.Range,
	Severity: gobDiag.Severity,
	Source: source.AnalyzerErrorKind(gobDiag.Source),
	Message: gobDiag.Message,
	Tags: gobDiag.Tags,
	Related: srcRelated,
	SuggestedFixes: srcFixes,
	}
	srcDiags = append(srcDiags, srcDiag)
	}
	return srcDiags
	}

	// toSourceDiagnostic converts a gobDiagnostic to "source" form.
	func toSourceDiagnostic(srcAnalyzer source.Analyzer, gobDiag gobDiagnostic) *source.Diagnostic {
	var related []protocol.DiagnosticRelatedInformation
	for _, gobRelated := range gobDiag.Related {
	related = append(related, protocol.DiagnosticRelatedInformation(gobRelated))
	}

	kinds := srcAnalyzer.ActionKind
	if len(srcAnalyzer.ActionKind) == 0 {
	kinds = append(kinds, protocol.QuickFix)
	}
	fixes := suggestedAnalysisFixes(gobDiag, kinds)
	if srcAnalyzer.Fix != "" {
	cmd, err := command.NewApplyFixCommand(gobDiag.Message, command.ApplyFixArgs{
	URI: gobDiag.Location.URI,
	Range: gobDiag.Location.Range,
	Fix: srcAnalyzer.Fix,
	})
	if err != nil {
	// JSON marshalling of these argument values cannot fail.
	log.Fatalf("internal error in NewApplyFixCommand: %v", err)
	}
	for _, kind := range kinds {
	fixes = append(fixes, source.SuggestedFixFromCommand(cmd, kind))
	}
	}

	severity := srcAnalyzer.Severity
	if severity == 0 {
	severity = protocol.SeverityWarning
	}

	diag := &source.Diagnostic{
	URI: gobDiag.Location.URI.SpanURI(),
	Range: gobDiag.Location.Range,
	Severity: severity,
	Source: source.AnalyzerErrorKind(gobDiag.Source),
	Message: gobDiag.Message,
	Related: related,
	SuggestedFixes: fixes,
	}
	// If the fixes only delete code, assume that the diagnostic is reporting dead code.
	if onlyDeletions(fixes) {
	diag.Tags = []protocol.DiagnosticTag{protocol.Unnecessary}
	}
	return diag
	}

	// onlyDeletions returns true if all of the suggested fixes are deletions.
	func onlyDeletions(fixes []source.SuggestedFix) bool {
	for _, fix := range fixes {
	if fix.Command != nil {
	return false
	}
	for _, edits := range fix.Edits {
	for _, edit := range edits {
	if edit.NewText != "" {
	return false
	}
	if protocol.ComparePosition(edit.Range.Start, edit.Range.End) == 0 {
	return false
	}
	}
	}
	}
	return len(fixes) > 0
	}

	func typesCodeHref(linkTarget string, code typesinternal.ErrorCode) string {
	return source.BuildLink(linkTarget, "golang.org/x/tools/internal/typesinternal", code.String())
	}

	func suggestedAnalysisFixes(diag *gobDiagnostic, kinds []protocol.CodeActionKind) []source.SuggestedFix {
	var fixes []source.SuggestedFix
	for _, fix := range diag.SuggestedFixes {
	edits := make(map[span.URI][]protocol.TextEdit)
	for _, e := range fix.TextEdits {
	uri := span.URI(e.Location.URI)
	edits[uri] = append(edits[uri], protocol.TextEdit{
	Range: e.Location.Range,
	NewText: string(e.NewText),
	})
	}
	for _, kind := range kinds {
	fixes = append(fixes, source.SuggestedFix{
	Title: fix.Message,
	Edits: edits,
	ActionKind: kind,
	})
	}

	}
	return fixes
	}

	func typeErrorData(pkg *syntaxPackage, terr types.Error) (typesinternal.ErrorCode, protocol.Location, error) {
	ecode, start, end, ok := typesinternal.ReadGo116ErrorData(terr)
	if !ok {
	start, end = terr.Pos, terr.Pos
	ecode = 0
	}
	// go/types may return invalid positions in some cases, such as
	// in errors on tokens missing from the syntax tree.
	if !start.IsValid() {
	return 0, protocol.Location{}, fmt.Errorf("type error (%q, code %d, go116=%t) without position", terr.Msg, ecode, ok)
	}
	// go/types errors retain their FileSet.
	// Sanity-check that we're using the right one.
	fset := pkg.fset
	if fset != terr.Fset {
	return 0, protocol.Location{}, bug.Errorf("wrong FileSet for type error")
	}
	posn := safetoken.StartPosition(fset, start)
	if !posn.IsValid() {
	return 0, protocol.Location{}, fmt.Errorf("position %d of type error %q (code %q) not found in FileSet", start, start, terr)
	}
	pgf, err := pkg.File(span.URIFromPath(posn.Filename))
	if err != nil {
	return 0, protocol.Location{}, err
	}
	if !end.IsValid() \|\| end == start {
	end = analysisinternal.TypeErrorEndPos(fset, pgf.Src, start)
	}
	loc, err := pgf.Mapper.PosLocation(pgf.Tok, start, end)
	return ecode, loc, err
	}

	// spanToRange converts a span.Span to a protocol.Range, by mapping content
	// contained in the provided FileSource.
	func spanToRange(ctx context.Context, fs source.FileSource, spn span.Span) (protocol.Range, error) {
	uri := spn.URI()
	fh, err := fs.ReadFile(ctx, uri)
	if err != nil {
	return protocol.Range{}, err
	}
	content, err := fh.Content()
	if err != nil {
	return protocol.Range{}, err
	}
	mapper := protocol.NewMapper(uri, content)
	return mapper.SpanRange(spn)
	}

	// parseGoListError attempts to parse a standard `go list` error message
	// by stripping off the trailing error message.
	//
	// It works only on errors whose message is prefixed by colon,
	// followed by a space (": "). For example:
	//
	// attributes.go:13:1: expected 'package', found 'type'
	func parseGoListError(input, wd string) span.Span {
	input = strings.TrimSpace(input)
	msgIndex := strings.Index(input, ": ")
	if msgIndex < 0 {
	return span.Parse(input)
	}
	return span.ParseInDir(input[:msgIndex], wd)
	}

	// parseGoListImportCycleError attempts to parse the given go/packages error as
	// an import cycle, returning a diagnostic if successful.
	//
	// If the error is not detected as an import cycle error, it returns nil, nil.
	func parseGoListImportCycleError(ctx context.Context, e packages.Error, m source.Metadata, fs source.FileSource) (source.Diagnostic, error) {
	re := regexp.MustCompile(`(.*): import stack: \[(.+)\]`)
	matches := re.FindStringSubmatch(strings.TrimSpace(e.Msg))
	if len(matches) < 3 {
	return nil, nil
	}
	msg := matches[1]
	importList := strings.Split(matches[2], " ")
	// Since the error is relative to the current package. The import that is causing
	// the import cycle error is the second one in the list.
	if len(importList) < 2 {
	return nil, nil
	}
	// Imports have quotation marks around them.
	circImp := strconv.Quote(importList[1])
	for _, uri := range m.CompiledGoFiles {
	pgf, err := parseGoURI(ctx, fs, uri, source.ParseHeader)
	if err != nil {
	return nil, err
	}
	// Search file imports for the import that is causing the import cycle.
	for _, imp := range pgf.File.Imports {
	if imp.Path.Value == circImp {
	rng, err := pgf.NodeMappedRange(imp)
	if err != nil {
	return nil, nil
	}

	return &source.Diagnostic{
	URI: pgf.URI,
	Range: rng.Range(),
	Severity: protocol.SeverityError,
	Source: source.ListError,
	Message: msg,
	}, nil
	}
	}
	}
	return nil, nil
	}

	// parseGoURI is a helper to parse the Go file at the given URI from the file
	// source fs. The resulting syntax and token.File belong to an ephemeral,
	// encapsulated FileSet, so this file stands only on its own: it's not suitable
	// to use in a list of file of a package, for example.
	//
	// It returns an error if the file could not be read.
	func parseGoURI(ctx context.Context, fs source.FileSource, uri span.URI, mode parser.Mode) (*source.ParsedGoFile, error) {
	fh, err := fs.ReadFile(ctx, uri)
	if err != nil {
	return nil, err
	}
	return parseGoImpl(ctx, token.NewFileSet(), fh, mode)
	}

	// parseModURI is a helper to parse the Mod file at the given URI from the file
	// source fs.
	//
	// It returns an error if the file could not be read.
	func parseModURI(ctx context.Context, fs source.FileSource, uri span.URI) (*source.ParsedModule, error) {
	fh, err := fs.ReadFile(ctx, uri)
	if err != nil {
	return nil, err
	}
	return parseModImpl(ctx, fh)
	}